Salvatore Gulfo
/
X_NUCLEO_IKS01A2
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Revision 0:98c301bb7d1b, committed 2017-10-03
- Comitter:
- salvatoregulfo
- Date:
- Tue Oct 03 12:21:11 2017 +0000
- Commit message:
- Mario Conti
Changed in this revision
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Components/HTS221Sensor/HTS221Sensor.cpp Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,315 @@
+/**
+ ******************************************************************************
+ * @file HTS221Sensor.cpp
+ * @author CLab
+ * @version V1.0.0
+ * @date 5 August 2016
+ * @brief Implementation of an HTS221 Humidity and Temperature sensor.
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include "mbed.h"
+#include "DevI2C.h"
+#include "HTS221Sensor.h"
+#include "HTS221_driver.h"
+
+
+/* Class Implementation ------------------------------------------------------*/
+
+/** Constructor
+ * @param i2c object of an helper class which handles the I2C peripheral
+ * @param address the address of the component's instance
+ */
+HTS221Sensor::HTS221Sensor(DevI2C &i2c) : _dev_i2c(i2c)
+{
+ _address = HTS221_I2C_ADDRESS;
+};
+
+
+/** Constructor
+ * @param i2c object of an helper class which handles the I2C peripheral
+ * @param address the address of the component's instance
+ */
+HTS221Sensor::HTS221Sensor(DevI2C &i2c, uint8_t address) : _dev_i2c(i2c), _address(address)
+{
+
+};
+
+/**
+ * @brief Initializing the component.
+ * @param[in] init pointer to device specific initalization structure.
+ * @retval "0" in case of success, an error code otherwise.
+ */
+int HTS221Sensor::init(void *init)
+{
+ /* Power down the device */
+ if ( HTS221_DeActivate( (void *)this ) == HTS221_ERROR )
+ {
+ return 1;
+ }
+
+ /* Enable BDU */
+ if ( HTS221_Set_BduMode( (void *)this, HTS221_ENABLE ) == HTS221_ERROR )
+ {
+ return 1;
+ }
+
+ if(set_odr(1.0f) == 1)
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Enable HTS221
+ * @retval 0 in case of success, an error code otherwise
+ */
+int HTS221Sensor::enable(void)
+{
+ /* Power up the device */
+ if ( HTS221_Activate( (void *)this ) == HTS221_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Disable HTS221
+ * @retval 0 in case of success, an error code otherwise
+ */
+int HTS221Sensor::disable(void)
+{
+ /* Power up the device */
+ if ( HTS221_DeActivate( (void *)this ) == HTS221_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Read ID address of HTS221
+ * @param id the pointer where the ID of the device is stored
+ * @retval 0 in case of success, an error code otherwise
+ */
+int HTS221Sensor::read_id(uint8_t *id)
+{
+ if(!id)
+ {
+ return 1;
+ }
+
+ /* Read WHO AM I register */
+ if ( HTS221_Get_DeviceID( (void *)this, id ) == HTS221_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Reboot memory content of HTS221
+ * @param None
+ * @retval 0 in case of success, an error code otherwise
+ */
+int HTS221Sensor::reset(void)
+{
+ uint8_t tmpreg;
+
+ /* Read CTRL_REG2 register */
+ if (read_reg(HTS221_CTRL_REG2, &tmpreg) != 0)
+ {
+ return 1;
+ }
+
+ /* Enable or Disable the reboot memory */
+ tmpreg |= (0x01 << HTS221_BOOT_BIT);
+
+ /* Write value to MEMS CTRL_REG2 regsister */
+ if (write_reg(HTS221_CTRL_REG2, tmpreg) != 0)
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Read HTS221 output register, and calculate the humidity
+ * @param pfData the pointer to data output
+ * @retval 0 in case of success, an error code otherwise
+ */
+int HTS221Sensor::get_humidity(float* pfData)
+{
+ uint16_t uint16data = 0;
+
+ /* Read data from HTS221. */
+ if ( HTS221_Get_Humidity( (void *)this, &uint16data ) == HTS221_ERROR )
+ {
+ return 1;
+ }
+
+ *pfData = ( float )uint16data / 10.0f;
+
+ return 0;
+}
+
+/**
+ * @brief Read HTS221 output register, and calculate the temperature
+ * @param pfData the pointer to data output
+ * @retval 0 in case of success, an error code otherwise
+ */
+int HTS221Sensor::get_temperature(float* pfData)
+{
+ int16_t int16data = 0;
+
+ /* Read data from HTS221. */
+ if ( HTS221_Get_Temperature( (void *)this, &int16data ) == HTS221_ERROR )
+ {
+ return 1;
+ }
+
+ *pfData = ( float )int16data / 10.0f;
+
+ return 0;
+}
+
+/**
+ * @brief Read HTS221 output register, and calculate the humidity
+ * @param odr the pointer to the output data rate
+ * @retval 0 in case of success, an error code otherwise
+ */
+int HTS221Sensor::get_odr(float* odr)
+{
+ HTS221_Odr_et odr_low_level;
+
+ if ( HTS221_Get_Odr( (void *)this, &odr_low_level ) == HTS221_ERROR )
+ {
+ return 1;
+ }
+
+ switch( odr_low_level )
+ {
+ case HTS221_ODR_ONE_SHOT:
+ *odr = 0.0f;
+ break;
+ case HTS221_ODR_1HZ :
+ *odr = 1.0f;
+ break;
+ case HTS221_ODR_7HZ :
+ *odr = 7.0f;
+ break;
+ case HTS221_ODR_12_5HZ :
+ *odr = 12.5f;
+ break;
+ default :
+ *odr = -1.0f;
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set ODR
+ * @param odr the output data rate to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int HTS221Sensor::set_odr(float odr)
+{
+ HTS221_Odr_et new_odr;
+
+ new_odr = ( odr <= 1.0f ) ? HTS221_ODR_1HZ
+ : ( odr <= 7.0f ) ? HTS221_ODR_7HZ
+ : HTS221_ODR_12_5HZ;
+
+ if ( HTS221_Set_Odr( (void *)this, new_odr ) == HTS221_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+
+/**
+ * @brief Read the data from register
+ * @param reg register address
+ * @param data register data
+ * @retval 0 in case of success
+ * @retval 1 in case of failure
+ */
+int HTS221Sensor::read_reg( uint8_t reg, uint8_t *data )
+{
+
+ if ( HTS221_read_reg( (void *)this, reg, 1, data ) == HTS221_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Write the data to register
+ * @param reg register address
+ * @param data register data
+ * @retval 0 in case of success
+ * @retval 1 in case of failure
+ */
+int HTS221Sensor::write_reg( uint8_t reg, uint8_t data )
+{
+
+ if ( HTS221_write_reg( (void *)this, reg, 1, &data ) == HTS221_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+uint8_t HTS221_io_write( void *handle, uint8_t WriteAddr, uint8_t *pBuffer, uint16_t nBytesToWrite )
+{
+ return ((HTS221Sensor *)handle)->io_write(pBuffer, WriteAddr, nBytesToWrite);
+}
+
+uint8_t HTS221_io_read( void *handle, uint8_t ReadAddr, uint8_t *pBuffer, uint16_t nBytesToRead )
+{
+ return ((HTS221Sensor *)handle)->io_read(pBuffer, ReadAddr, nBytesToRead);
+}
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Components/HTS221Sensor/HTS221Sensor.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,118 @@
+/**
+ ******************************************************************************
+ * @file HTS221Sensor.h
+ * @author CLab
+ * @version V1.0.0
+ * @date 5 August 2016
+ * @brief Abstract class of an HTS221 Humidity and Temperature sensor.
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Prevent recursive inclusion -----------------------------------------------*/
+
+#ifndef __HTS221Sensor_H__
+#define __HTS221Sensor_H__
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include "DevI2C.h"
+#include "HTS221_driver.h"
+#include "HumiditySensor.h"
+#include "TempSensor.h"
+
+
+/* Class Declaration ---------------------------------------------------------*/
+
+/**
+ * Abstract class of an HTS221 Humidity and Temperature sensor.
+ */
+class HTS221Sensor : public HumiditySensor, public TempSensor
+{
+ public:
+
+ HTS221Sensor(DevI2C &i2c);
+ HTS221Sensor(DevI2C &i2c, uint8_t address);
+ virtual int init(void *init);
+ virtual int read_id(uint8_t *id);
+ virtual int get_humidity(float *pfData);
+ virtual int get_temperature(float *pfData);
+ int enable(void);
+ int disable(void);
+ int reset(void);
+ int get_odr(float *odr);
+ int set_odr(float odr);
+ int read_reg(uint8_t reg, uint8_t *data);
+ int write_reg(uint8_t reg, uint8_t data);
+ /**
+ * @brief Utility function to read data.
+ * @param pBuffer: pointer to data to be read.
+ * @param RegisterAddr: specifies internal address register to be read.
+ * @param NumByteToRead: number of bytes to be read.
+ * @retval 0 if ok, an error code otherwise.
+ */
+ uint8_t io_read(uint8_t* pBuffer, uint8_t RegisterAddr, uint16_t NumByteToRead)
+ {
+ return (uint8_t) _dev_i2c.i2c_read(pBuffer, _address, RegisterAddr, NumByteToRead);
+ }
+
+ /**
+ * @brief Utility function to write data.
+ * @param pBuffer: pointer to data to be written.
+ * @param RegisterAddr: specifies internal address register to be written.
+ * @param NumByteToWrite: number of bytes to write.
+ * @retval 0 if ok, an error code otherwise.
+ */
+ uint8_t io_write(uint8_t* pBuffer, uint8_t RegisterAddr, uint16_t NumByteToWrite)
+ {
+ return (uint8_t) _dev_i2c.i2c_write(pBuffer, _address, RegisterAddr, NumByteToWrite);
+ }
+
+ private:
+
+ /* Helper classes. */
+ DevI2C &_dev_i2c;
+
+ /* Configuration */
+ uint8_t _address;
+
+};
+
+#ifdef __cplusplus
+ extern "C" {
+#endif
+uint8_t HTS221_io_write( void *handle, uint8_t WriteAddr, uint8_t *pBuffer, uint16_t nBytesToWrite );
+uint8_t HTS221_io_read( void *handle, uint8_t ReadAddr, uint8_t *pBuffer, uint16_t nBytesToRead );
+#ifdef __cplusplus
+ }
+#endif
+
+#endif
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Components/HTS221Sensor/HTS221_driver.c Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,987 @@
+/**
+ ******************************************************************************
+ * @file HTS221_driver.c
+ * @author HESA Application Team
+ * @version V1.1
+ * @date 10-August-2016
+ * @brief HTS221 driver file
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+/* Includes ------------------------------------------------------------------*/
+#include "HTS221_driver.h"
+
+#ifdef __cplusplus
+ extern "C" {
+#endif
+
+#ifdef USE_FULL_ASSERT_HTS221
+#include <stdio.h>
+#endif
+
+
+/** @addtogroup Environmental_Sensor
+* @{
+*/
+
+/** @defgroup HTS221_DRIVER
+* @brief HTS221 DRIVER
+* @{
+*/
+
+/** @defgroup HTS221_Imported_Function_Prototypes
+* @{
+*/
+
+extern uint8_t HTS221_io_write( void *handle, uint8_t WriteAddr, uint8_t *pBuffer, uint16_t nBytesToWrite );
+extern uint8_t HTS221_io_read( void *handle, uint8_t ReadAddr, uint8_t *pBuffer, uint16_t nBytesToRead );
+
+/**
+* @}
+*/
+
+/** @defgroup HTS221_Private_Function_Prototypes
+* @{
+*/
+
+/**
+* @}
+*/
+
+/** @defgroup HTS221_Private_Functions
+* @{
+*/
+
+/**
+* @}
+*/
+
+/** @defgroup HTS221_Public_Functions
+* @{
+*/
+
+/*******************************************************************************
+* Function Name : HTS221_read_reg
+* Description : Generic Reading function. It must be fullfilled with either
+* : I2C or SPI reading functions
+* Input : Register Address
+* Output : Data Read
+* Return : None
+*******************************************************************************/
+HTS221_Error_et HTS221_read_reg( void *handle, uint8_t RegAddr, uint16_t NumByteToRead, uint8_t *Data )
+{
+
+ if ( NumByteToRead > 1 ) RegAddr |= 0x80;
+
+ if ( HTS221_io_read( handle, RegAddr, Data, NumByteToRead ) )
+ return HTS221_ERROR;
+ else
+ return HTS221_OK;
+}
+
+/*******************************************************************************
+* Function Name : HTS221_write_reg
+* Description : Generic Writing function. It must be fullfilled with either
+* : I2C or SPI writing function
+* Input : Register Address, Data to be written
+* Output : None
+* Return : None
+*******************************************************************************/
+HTS221_Error_et HTS221_write_reg( void *handle, uint8_t RegAddr, uint16_t NumByteToWrite, uint8_t *Data )
+{
+
+ if ( NumByteToWrite > 1 ) RegAddr |= 0x80;
+
+ if ( HTS221_io_write( handle, RegAddr, Data, NumByteToWrite ) )
+ return HTS221_ERROR;
+ else
+ return HTS221_OK;
+}
+
+/**
+* @brief Get the version of this driver.
+* @param pxVersion pointer to a HTS221_DriverVersion_st structure that contains the version information.
+* This parameter is a pointer to @ref HTS221_DriverVersion_st.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Get_DriverVersion(HTS221_DriverVersion_st* version)
+{
+ version->Major = HTS221_DRIVER_VERSION_MAJOR;
+ version->Minor = HTS221_DRIVER_VERSION_MINOR;
+ version->Point = HTS221_DRIVER_VERSION_POINT;
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Get device type ID.
+* @param *handle Device handle.
+* @param deviceid pointer to the returned device type ID.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Get_DeviceID(void *handle, uint8_t* deviceid)
+{
+ if(HTS221_read_reg(handle, HTS221_WHO_AM_I_REG, 1, deviceid))
+ return HTS221_ERROR;
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Initializes the HTS221 with the specified parameters in HTS221_Init_st struct.
+* @param *handle Device handle.
+* @param pxInit pointer to a HTS221_Init_st structure that contains the configuration.
+* This parameter is a pointer to @ref HTS221_Init_st.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Set_InitConfig(void *handle, HTS221_Init_st* pxInit)
+{
+ uint8_t buffer[3];
+
+ HTS221_assert_param(IS_HTS221_AVGH(pxInit->avg_h));
+ HTS221_assert_param(IS_HTS221_AVGT(pxInit->avg_t));
+ HTS221_assert_param(IS_HTS221_ODR(pxInit->odr));
+ HTS221_assert_param(IS_HTS221_State(pxInit->bdu_status));
+ HTS221_assert_param(IS_HTS221_State(pxInit->heater_status));
+
+ HTS221_assert_param(IS_HTS221_DrdyLevelType(pxInit->irq_level));
+ HTS221_assert_param(IS_HTS221_OutputType(pxInit->irq_output_type));
+ HTS221_assert_param(IS_HTS221_State(pxInit->irq_enable));
+
+ if(HTS221_read_reg(handle, HTS221_AV_CONF_REG, 1, buffer))
+ return HTS221_ERROR;
+
+ buffer[0] &= ~(HTS221_AVGH_MASK | HTS221_AVGT_MASK);
+ buffer[0] |= (uint8_t)pxInit->avg_h;
+ buffer[0] |= (uint8_t)pxInit->avg_t;
+
+ if(HTS221_write_reg(handle, HTS221_AV_CONF_REG, 1, buffer))
+ return HTS221_ERROR;
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG1, 3, buffer))
+ return HTS221_ERROR;
+
+ buffer[0] &= ~(HTS221_BDU_MASK | HTS221_ODR_MASK);
+ buffer[0] |= (uint8_t)pxInit->odr;
+ buffer[0] |= ((uint8_t)pxInit->bdu_status) << HTS221_BDU_BIT;
+
+ buffer[1] &= ~HTS221_HEATHER_BIT;
+ buffer[1] |= ((uint8_t)pxInit->heater_status) << HTS221_HEATHER_BIT;
+
+ buffer[2] &= ~(HTS221_DRDY_H_L_MASK | HTS221_PP_OD_MASK | HTS221_DRDY_MASK);
+ buffer[2] |= ((uint8_t)pxInit->irq_level) << HTS221_DRDY_H_L_BIT;
+ buffer[2] |= (uint8_t)pxInit->irq_output_type;
+ buffer[2] |= ((uint8_t)pxInit->irq_enable) << HTS221_DRDY_BIT;
+
+ if(HTS221_write_reg(handle, HTS221_CTRL_REG1, 3, buffer))
+ return HTS221_ERROR;
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Returns a HTS221_Init_st struct with the actual configuration.
+* @param *handle Device handle.
+* @param pxInit pointer to a HTS221_Init_st structure.
+* This parameter is a pointer to @ref HTS221_Init_st.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Get_InitConfig(void *handle, HTS221_Init_st* pxInit)
+{
+ uint8_t buffer[3];
+
+ if(HTS221_read_reg(handle, HTS221_AV_CONF_REG, 1, buffer))
+ return HTS221_ERROR;
+
+ pxInit->avg_h = (HTS221_Avgh_et)(buffer[0] & HTS221_AVGH_MASK);
+ pxInit->avg_t = (HTS221_Avgt_et)(buffer[0] & HTS221_AVGT_MASK);
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG1, 3, buffer))
+ return HTS221_ERROR;
+
+ pxInit->odr = (HTS221_Odr_et)(buffer[0] & HTS221_ODR_MASK);
+ pxInit->bdu_status = (HTS221_State_et)((buffer[0] & HTS221_BDU_MASK) >> HTS221_BDU_BIT);
+ pxInit->heater_status = (HTS221_State_et)((buffer[1] & HTS221_HEATHER_MASK) >> HTS221_HEATHER_BIT);
+
+ pxInit->irq_level = (HTS221_DrdyLevel_et)(buffer[2] & HTS221_DRDY_H_L_MASK);
+ pxInit->irq_output_type = (HTS221_OutputType_et)(buffer[2] & HTS221_PP_OD_MASK);
+ pxInit->irq_enable = (HTS221_State_et)((buffer[2] & HTS221_DRDY_MASK) >> HTS221_DRDY_BIT);
+
+ return HTS221_OK;
+}
+
+/**
+* @brief De initialization function for HTS221.
+* This function put the HTS221 in power down, make a memory boot and clear the data output flags.
+* @param *handle Device handle.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_DeInit(void *handle)
+{
+ uint8_t buffer[4];
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG1, 2, buffer))
+ return HTS221_ERROR;
+
+ /* HTS221 in power down */
+ buffer[0] |= 0x01 << HTS221_PD_BIT;
+
+ /* Make HTS221 boot */
+ buffer[1] |= 0x01 << HTS221_BOOT_BIT;
+
+ if(HTS221_write_reg(handle, HTS221_CTRL_REG1, 2, buffer))
+ return HTS221_ERROR;
+
+ /* Dump of data output */
+ if(HTS221_read_reg(handle, HTS221_HR_OUT_L_REG, 4, buffer))
+ return HTS221_ERROR;
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Read HTS221 output registers, and calculate humidity and temperature.
+* @param *handle Device handle.
+* @param humidity pointer to the returned humidity value that must be divided by 10 to get the value in [%].
+* @param temperature pointer to the returned temperature value that must be divided by 10 to get the value in ['C].
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Get_Measurement(void *handle, uint16_t* humidity, int16_t* temperature)
+{
+ if ( HTS221_Get_Temperature( handle, temperature ) == HTS221_ERROR ) return HTS221_ERROR;
+ if ( HTS221_Get_Humidity( handle, humidity ) == HTS221_ERROR ) return HTS221_ERROR;
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Read HTS221 output registers. Humidity and temperature.
+* @param *handle Device handle.
+* @param humidity pointer to the returned humidity raw value.
+* @param temperature pointer to the returned temperature raw value.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Get_RawMeasurement(void *handle, int16_t* humidity, int16_t* temperature)
+{
+ uint8_t buffer[4];
+
+ if(HTS221_read_reg(handle, HTS221_HR_OUT_L_REG, 4, buffer))
+ return HTS221_ERROR;
+
+ *humidity = (int16_t)((((uint16_t)buffer[1]) << 8) | (uint16_t)buffer[0]);
+ *temperature = (int16_t)((((uint16_t)buffer[3]) << 8) | (uint16_t)buffer[2]);
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Read HTS221 Humidity output registers, and calculate humidity.
+* @param *handle Device handle.
+* @param Pointer to the returned humidity value that must be divided by 10 to get the value in [%].
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Get_Humidity(void *handle, uint16_t* value)
+{
+ int16_t H0_T0_out, H1_T0_out, H_T_out;
+ int16_t H0_rh, H1_rh;
+ uint8_t buffer[2];
+ float tmp_f;
+
+ if(HTS221_read_reg(handle, HTS221_H0_RH_X2, 2, buffer))
+ return HTS221_ERROR;
+ H0_rh = buffer[0] >> 1;
+ H1_rh = buffer[1] >> 1;
+
+ if(HTS221_read_reg(handle, HTS221_H0_T0_OUT_L, 2, buffer))
+ return HTS221_ERROR;
+ H0_T0_out = (((uint16_t)buffer[1]) << 8) | (uint16_t)buffer[0];
+
+ if(HTS221_read_reg(handle, HTS221_H1_T0_OUT_L, 2, buffer))
+ return HTS221_ERROR;
+ H1_T0_out = (((uint16_t)buffer[1]) << 8) | (uint16_t)buffer[0];
+
+ if(HTS221_read_reg(handle, HTS221_HR_OUT_L_REG, 2, buffer))
+ return HTS221_ERROR;
+ H_T_out = (((uint16_t)buffer[1]) << 8) | (uint16_t)buffer[0];
+
+ tmp_f = (float)(H_T_out - H0_T0_out) * (float)(H1_rh - H0_rh) / (float)(H1_T0_out - H0_T0_out) + H0_rh;
+ tmp_f *= 10.0f;
+
+ *value = ( tmp_f > 1000.0f ) ? 1000
+ : ( tmp_f < 0.0f ) ? 0
+ : ( uint16_t )tmp_f;
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Read HTS221 humidity output registers.
+* @param *handle Device handle.
+* @param Pointer to the returned humidity raw value.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Get_HumidityRaw(void *handle, int16_t* value)
+{
+ uint8_t buffer[2];
+
+ if(HTS221_read_reg(handle, HTS221_HR_OUT_L_REG, 2, buffer))
+ return HTS221_ERROR;
+
+ *value = (int16_t)((((uint16_t)buffer[1]) << 8) | (uint16_t)buffer[0]);
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Read HTS221 temperature output registers, and calculate temperature.
+* @param *handle Device handle.
+* @param Pointer to the returned temperature value that must be divided by 10 to get the value in ['C].
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Get_Temperature(void *handle, int16_t *value)
+{
+ int16_t T0_out, T1_out, T_out, T0_degC_x8_u16, T1_degC_x8_u16;
+ int16_t T0_degC, T1_degC;
+ uint8_t buffer[4], tmp;
+ float tmp_f;
+
+ if(HTS221_read_reg(handle, HTS221_T0_DEGC_X8, 2, buffer))
+ return HTS221_ERROR;
+ if(HTS221_read_reg(handle, HTS221_T0_T1_DEGC_H2, 1, &tmp))
+ return HTS221_ERROR;
+
+ T0_degC_x8_u16 = (((uint16_t)(tmp & 0x03)) << 8) | ((uint16_t)buffer[0]);
+ T1_degC_x8_u16 = (((uint16_t)(tmp & 0x0C)) << 6) | ((uint16_t)buffer[1]);
+ T0_degC = T0_degC_x8_u16 >> 3;
+ T1_degC = T1_degC_x8_u16 >> 3;
+
+ if(HTS221_read_reg(handle, HTS221_T0_OUT_L, 4, buffer))
+ return HTS221_ERROR;
+
+ T0_out = (((uint16_t)buffer[1]) << 8) | (uint16_t)buffer[0];
+ T1_out = (((uint16_t)buffer[3]) << 8) | (uint16_t)buffer[2];
+
+ if(HTS221_read_reg(handle, HTS221_TEMP_OUT_L_REG, 2, buffer))
+ return HTS221_ERROR;
+
+ T_out = (((uint16_t)buffer[1]) << 8) | (uint16_t)buffer[0];
+
+ tmp_f = (float)(T_out - T0_out) * (float)(T1_degC - T0_degC) / (float)(T1_out - T0_out) + T0_degC;
+ tmp_f *= 10.0f;
+
+ *value = ( int16_t )tmp_f;
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Read HTS221 temperature output registers.
+* @param *handle Device handle.
+* @param Pointer to the returned temperature raw value.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Get_TemperatureRaw(void *handle, int16_t* value)
+{
+ uint8_t buffer[2];
+
+ if(HTS221_read_reg(handle, HTS221_TEMP_OUT_L_REG, 2, buffer))
+ return HTS221_ERROR;
+
+ *value = (int16_t)((((uint16_t)buffer[1]) << 8) | (uint16_t)buffer[0]);
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Get the availability of new data for humidity and temperature.
+* @param *handle Device handle.
+* @param humidity pointer to the returned humidity data status [HTS221_SET/HTS221_RESET].
+* @param temperature pointer to the returned temperature data status [HTS221_SET/HTS221_RESET].
+* This parameter is a pointer to @ref HTS221_BitStatus_et.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Get_DataStatus(void *handle, HTS221_BitStatus_et* humidity, HTS221_BitStatus_et* temperature)
+{
+ uint8_t tmp;
+
+ if(HTS221_read_reg(handle, HTS221_STATUS_REG, 1, &tmp))
+ return HTS221_ERROR;
+
+ *humidity = (HTS221_BitStatus_et)((tmp & HTS221_HDA_MASK) >> HTS221_H_DA_BIT);
+ *temperature = (HTS221_BitStatus_et)(tmp & HTS221_TDA_MASK);
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Exit from power down mode.
+* @param *handle Device handle.
+* @param void.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Activate(void *handle)
+{
+ uint8_t tmp;
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG1, 1, &tmp))
+ return HTS221_ERROR;
+
+ tmp |= HTS221_PD_MASK;
+
+ if(HTS221_write_reg(handle, HTS221_CTRL_REG1, 1, &tmp))
+ return HTS221_ERROR;
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Put the sensor in power down mode.
+* @param *handle Device handle.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_DeActivate(void *handle)
+{
+ uint8_t tmp;
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG1, 1, &tmp))
+ return HTS221_ERROR;
+
+ tmp &= ~HTS221_PD_MASK;
+
+ if(HTS221_write_reg(handle, HTS221_CTRL_REG1, 1, &tmp))
+ return HTS221_ERROR;
+
+ return HTS221_OK;
+}
+
+
+
+/**
+* @brief Check if the single measurement has completed.
+* @param *handle Device handle.
+* @param tmp is set to 1, when the measure is completed
+* @retval Status [HTS221_ERROR, HTS221_OK]
+*/
+HTS221_Error_et HTS221_IsMeasurementCompleted(void *handle, HTS221_BitStatus_et* Is_Measurement_Completed)
+{
+ uint8_t tmp;
+
+ if(HTS221_read_reg(handle, HTS221_STATUS_REG, 1, &tmp))
+ return HTS221_ERROR;
+
+ if((tmp & (uint8_t)(HTS221_HDA_MASK | HTS221_TDA_MASK)) == (uint8_t)(HTS221_HDA_MASK | HTS221_TDA_MASK))
+ *Is_Measurement_Completed = HTS221_SET;
+ else
+ *Is_Measurement_Completed = HTS221_RESET;
+
+ return HTS221_OK;
+}
+
+
+/**
+* @brief Set_ humidity and temperature average mode.
+* @param *handle Device handle.
+* @param avgh is the average mode for humidity, this parameter is @ref HTS221_Avgh_et.
+* @param avgt is the average mode for temperature, this parameter is @ref HTS221_Avgt_et.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Set_AvgHT(void *handle, HTS221_Avgh_et avgh, HTS221_Avgt_et avgt)
+{
+ uint8_t tmp;
+
+ HTS221_assert_param(IS_HTS221_AVGH(avgh));
+ HTS221_assert_param(IS_HTS221_AVGT(avgt));
+
+ if(HTS221_read_reg(handle, HTS221_AV_CONF_REG, 1, &tmp))
+ return HTS221_ERROR;
+
+ tmp &= ~(HTS221_AVGH_MASK | HTS221_AVGT_MASK);
+ tmp |= (uint8_t)avgh;
+ tmp |= (uint8_t)avgt;
+
+ if(HTS221_write_reg(handle, HTS221_AV_CONF_REG, 1, &tmp))
+ return HTS221_ERROR;
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Set humidity average mode.
+* @param *handle Device handle.
+* @param avgh is the average mode for humidity, this parameter is @ref HTS221_Avgh_et.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Set_AvgH(void *handle, HTS221_Avgh_et avgh)
+{
+ uint8_t tmp;
+
+ HTS221_assert_param(IS_HTS221_AVGH(avgh));
+
+ if(HTS221_read_reg(handle, HTS221_AV_CONF_REG, 1, &tmp))
+ return HTS221_ERROR;
+
+ tmp &= ~HTS221_AVGH_MASK;
+ tmp |= (uint8_t)avgh;
+
+ if(HTS221_write_reg(handle, HTS221_AV_CONF_REG, 1, &tmp))
+ return HTS221_ERROR;
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Set temperature average mode.
+* @param *handle Device handle.
+* @param avgt is the average mode for temperature, this parameter is @ref HTS221_Avgt_et.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Set_AvgT(void *handle, HTS221_Avgt_et avgt)
+{
+ uint8_t tmp;
+
+ HTS221_assert_param(IS_HTS221_AVGT(avgt));
+
+ if(HTS221_read_reg(handle, HTS221_AV_CONF_REG, 1, &tmp))
+ return HTS221_ERROR;
+
+ tmp &= ~HTS221_AVGT_MASK;
+ tmp |= (uint8_t)avgt;
+
+ if(HTS221_write_reg(handle, HTS221_AV_CONF_REG, 1, &tmp))
+ return HTS221_ERROR;
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Get humidity and temperature average mode.
+* @param *handle Device handle.
+* @param avgh pointer to the returned value with the humidity average mode.
+* @param avgt pointer to the returned value with the temperature average mode.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Get_AvgHT(void *handle, HTS221_Avgh_et* avgh, HTS221_Avgt_et* avgt)
+{
+ uint8_t tmp;
+
+ if(HTS221_read_reg(handle, HTS221_AV_CONF_REG, 1, &tmp))
+ return HTS221_ERROR;
+
+ *avgh = (HTS221_Avgh_et)(tmp & HTS221_AVGH_MASK);
+ *avgt = (HTS221_Avgt_et)(tmp & HTS221_AVGT_MASK);
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Set block data update mode.
+* @param *handle Device handle.
+* @param status can be HTS221_ENABLE: enable the block data update, output data registers are updated once both MSB and LSB are read.
+* @param status can be HTS221_DISABLE: output data registers are continuously updated.
+* This parameter is a @ref HTS221_BitStatus_et.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Set_BduMode(void *handle, HTS221_State_et status)
+{
+ uint8_t tmp;
+
+ HTS221_assert_param(IS_HTS221_State(status));
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG1, 1, &tmp))
+ return HTS221_ERROR;
+
+ tmp &= ~HTS221_BDU_MASK;
+ tmp |= ((uint8_t)status) << HTS221_BDU_BIT;
+
+ if(HTS221_write_reg(handle, HTS221_CTRL_REG1, 1, &tmp))
+ return HTS221_ERROR;
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Get block data update mode.
+* @param *handle Device handle.
+* @param Pointer to the returned value with block data update mode status.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Get_BduMode(void *handle, HTS221_State_et* status)
+{
+ uint8_t tmp;
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG1, 1, &tmp))
+ return HTS221_ERROR;
+
+ *status = (HTS221_State_et)((tmp & HTS221_BDU_MASK) >> HTS221_BDU_BIT);
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Enter or exit from power down mode.
+* @param *handle Device handle.
+* @param status can be HTS221_SET: HTS221 in power down mode.
+* @param status can be HTS221_REET: HTS221 in active mode.
+* This parameter is a @ref HTS221_BitStatus_et.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Set_PowerDownMode(void *handle, HTS221_BitStatus_et status)
+{
+ uint8_t tmp;
+
+ HTS221_assert_param(IS_HTS221_BitStatus(status));
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG1, 1, &tmp))
+ return HTS221_ERROR;
+
+ tmp &= ~HTS221_PD_MASK;
+ tmp |= ((uint8_t)status) << HTS221_PD_BIT;
+
+ if(HTS221_write_reg(handle, HTS221_CTRL_REG1, 1, &tmp))
+ return HTS221_ERROR;
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Get if HTS221 is in active mode or in power down mode.
+* @param *handle Device handle.
+* @param Pointer to the returned value with HTS221 status.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Get_PowerDownMode(void *handle, HTS221_BitStatus_et* status)
+{
+ uint8_t tmp;
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG1, 1, &tmp))
+ return HTS221_ERROR;
+
+ *status = (HTS221_BitStatus_et)((tmp & HTS221_PD_MASK) >> HTS221_PD_BIT);
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Set the output data rate mode.
+* @param *handle Device handle.
+* @param odr is the output data rate mode.
+* This parameter is a @ref HTS221_Odr_et.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Set_Odr(void *handle, HTS221_Odr_et odr)
+{
+ uint8_t tmp;
+
+ HTS221_assert_param(IS_HTS221_ODR(odr));
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG1, 1, &tmp))
+ return HTS221_ERROR;
+
+ tmp &= ~HTS221_ODR_MASK;
+ tmp |= (uint8_t)odr;
+
+ if(HTS221_write_reg(handle, HTS221_CTRL_REG1, 1, &tmp))
+ return HTS221_ERROR;
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Get the output data rate mode.
+* @param *handle Device handle.
+* @param Pointer to the returned value with output data rate mode.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Get_Odr(void *handle, HTS221_Odr_et* odr)
+{
+ uint8_t tmp;
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG1, 1, &tmp))
+ return HTS221_ERROR;
+
+ tmp &= HTS221_ODR_MASK;
+ *odr = (HTS221_Odr_et)tmp;
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Reboot Memory Content.
+* @param *handle Device handle.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_MemoryBoot(void *handle)
+{
+ uint8_t tmp;
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG2, 1, &tmp))
+ return HTS221_ERROR;
+
+ tmp |= HTS221_BOOT_MASK;
+
+ if(HTS221_write_reg(handle, HTS221_CTRL_REG2, 1, &tmp))
+ return HTS221_ERROR;
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Configure the internal heater.
+* @param *handle Device handle.
+* @param The status of the internal heater [HTS221_ENABLE/HTS221_DISABLE].
+* This parameter is a @ref HTS221_State_et.
+* @retval Error code [HTS221_OK, HTS221_ERROR]
+*/
+HTS221_Error_et HTS221_Set_HeaterState(void *handle, HTS221_State_et status)
+{
+ uint8_t tmp;
+
+ HTS221_assert_param(IS_HTS221_State(status));
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG2, 1, &tmp))
+ return HTS221_ERROR;
+
+ tmp &= ~HTS221_HEATHER_MASK;
+ tmp |= ((uint8_t)status) << HTS221_HEATHER_BIT;
+
+ if(HTS221_write_reg(handle, HTS221_CTRL_REG2, 1, &tmp))
+ return HTS221_ERROR;
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Get the internal heater.
+* @param *handle Device handle.
+* @param Pointer to the returned status of the internal heater [HTS221_ENABLE/HTS221_DISABLE].
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Get_HeaterState(void *handle, HTS221_State_et* status)
+{
+ uint8_t tmp;
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG2, 1, &tmp))
+ return HTS221_ERROR;
+
+ *status = (HTS221_State_et)((tmp & HTS221_HEATHER_MASK) >> HTS221_HEATHER_BIT);
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Set ONE_SHOT bit to start a new conversion (ODR mode has to be 00).
+* Once the measurement is done, ONE_SHOT bit is self-cleared.
+* @param *handle Device handle.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_StartOneShotMeasurement(void *handle)
+{
+ uint8_t tmp;
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG2, 1, &tmp))
+ return HTS221_ERROR;
+
+ tmp |= HTS221_ONE_SHOT_MASK;
+
+ if(HTS221_write_reg(handle, HTS221_CTRL_REG2, 1, &tmp))
+ return HTS221_ERROR;
+
+ return HTS221_OK;
+
+}
+
+/**
+* @brief Set level configuration of the interrupt pin DRDY.
+* @param *handle Device handle.
+* @param status can be HTS221_LOW_LVL: active level is LOW.
+* @param status can be HTS221_HIGH_LVL: active level is HIGH.
+* This parameter is a @ref HTS221_State_et.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Set_IrqActiveLevel(void *handle, HTS221_DrdyLevel_et value)
+{
+ uint8_t tmp;
+
+ HTS221_assert_param(IS_HTS221_DrdyLevelType(value));
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG3, 1, &tmp))
+ return HTS221_ERROR;
+
+ tmp &= ~HTS221_DRDY_H_L_MASK;
+ tmp |= (uint8_t)value;
+
+ if(HTS221_write_reg(handle, HTS221_CTRL_REG3, 1, &tmp))
+ return HTS221_ERROR;
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Get level configuration of the interrupt pin DRDY.
+* @param *handle Device handle.
+* @param Pointer to the returned status of the level configuration [HTS221_ENABLE/HTS221_DISABLE].
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Get_IrqActiveLevel(void *handle, HTS221_DrdyLevel_et* value)
+{
+ uint8_t tmp;
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG3, 1, &tmp))
+ return HTS221_ERROR;
+
+ *value = (HTS221_DrdyLevel_et)(tmp & HTS221_DRDY_H_L_MASK);
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Set Push-pull/open drain configuration for the interrupt pin DRDY.
+* @param *handle Device handle.
+* @param value is the output type configuration.
+* This parameter is a @ref HTS221_OutputType_et.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Set_IrqOutputType(void *handle, HTS221_OutputType_et value)
+{
+ uint8_t tmp;
+
+ HTS221_assert_param(IS_HTS221_OutputType(value));
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG3, 1, &tmp))
+ return HTS221_ERROR;
+
+ tmp &= ~HTS221_PP_OD_MASK;
+ tmp |= (uint8_t)value;
+
+ if(HTS221_write_reg(handle, HTS221_CTRL_REG3, 1, &tmp))
+ return HTS221_ERROR;
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Get the configuration for the interrupt pin DRDY.
+* @param *handle Device handle.
+* @param Pointer to the returned value with output type configuration.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Get_IrqOutputType(void *handle, HTS221_OutputType_et* value)
+{
+ uint8_t tmp;
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG3, 1, &tmp))
+ return HTS221_ERROR;
+
+ *value = (HTS221_OutputType_et)(tmp & HTS221_PP_OD_MASK);
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Enable/disable the interrupt mode.
+* @param *handle Device handle.
+* @param status is the enable/disable for the interrupt mode.
+* This parameter is a @ref HTS221_State_et.
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Set_IrqEnable(void *handle, HTS221_State_et status)
+{
+ uint8_t tmp;
+
+ HTS221_assert_param(IS_HTS221_State(status));
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG3, 1, &tmp))
+ return HTS221_ERROR;
+
+ tmp &= ~HTS221_DRDY_MASK;
+ tmp |= ((uint8_t)status) << HTS221_DRDY_BIT;
+
+ if(HTS221_write_reg(handle, HTS221_CTRL_REG3, 1, &tmp))
+ return HTS221_ERROR;
+
+ return HTS221_OK;
+}
+
+/**
+* @brief Get the interrupt mode.
+* @param *handle Device handle.
+* @param Pointer to the returned status of the interrupt mode configuration [HTS221_ENABLE/HTS221_DISABLE].
+* @retval Error code [HTS221_OK, HTS221_ERROR].
+*/
+HTS221_Error_et HTS221_Get_IrqEnable(void *handle, HTS221_State_et* status)
+{
+ uint8_t tmp;
+
+ if(HTS221_read_reg(handle, HTS221_CTRL_REG3, 1, &tmp))
+ return HTS221_ERROR;
+
+ *status = (HTS221_State_et)((tmp & HTS221_DRDY_MASK) >> HTS221_DRDY_BIT);
+
+ return HTS221_OK;
+}
+
+
+#ifdef USE_FULL_ASSERT_HTS221
+/**
+* @brief Reports the name of the source file and the source line number
+* where the assert_param error has occurred.
+* @param file: pointer to the source file name
+* @param line: assert_param error line source number
+* @retval : None
+*/
+void HTS221_assert_failed(uint8_t* file, uint32_t line)
+{
+ /* User can add his own implementation to report the file name and line number */
+ printf("Wrong parameters value: file %s on line %d\r\n", file, (int)line);
+
+ /* Infinite loop */
+ while (1)
+ {
+ }
+}
+#endif
+
+#ifdef __cplusplus
+ }
+#endif
+
+/**
+* @}
+*/
+
+/**
+* @}
+*/
+
+/**
+* @}
+*/
+
+/******************* (C) COPYRIGHT 2013 STMicroelectronics *****END OF FILE****/
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Components/HTS221Sensor/HTS221_driver.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,514 @@
+/**
+ ******************************************************************************
+ * @file HTS221_driver.h
+ * @author HESA Application Team
+ * @version V1.1
+ * @date 10-August-2016
+ * @brief HTS221 driver header file
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+/* Define to prevent recursive inclusion -------------------------------------*/
+#ifndef __HTS221_DRIVER__H
+#define __HTS221_DRIVER__H
+
+#include <stdint.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/* Uncomment the line below to expanse the "assert_param" macro in the drivers code */
+#define USE_FULL_ASSERT_HTS221
+
+/* Exported macro ------------------------------------------------------------*/
+#ifdef USE_FULL_ASSERT_HTS221
+
+/**
+* @brief The assert_param macro is used for function's parameters check.
+* @param expr: If expr is false, it calls assert_failed function which reports
+* the name of the source file and the source line number of the call
+* that failed. If expr is true, it returns no value.
+* @retval None
+*/
+#define HTS221_assert_param(expr) ((expr) ? (void)0 : HTS221_assert_failed((uint8_t *)__FILE__, __LINE__))
+/* Exported functions ------------------------------------------------------- */
+void HTS221_assert_failed(uint8_t* file, uint32_t line);
+#else
+#define HTS221_assert_param(expr) ((void)0)
+#endif /* USE_FULL_ASSERT_HTS221 */
+
+/** @addtogroup Environmental_Sensor
+* @{
+*/
+
+/** @addtogroup HTS221_DRIVER
+* @{
+*/
+
+/* Exported Types -------------------------------------------------------------*/
+/** @defgroup HTS221_Exported_Types
+* @{
+*/
+
+
+/**
+* @brief Error code type.
+*/
+typedef enum {HTS221_OK = (uint8_t)0, HTS221_ERROR = !HTS221_OK} HTS221_Error_et;
+
+/**
+* @brief State type.
+*/
+typedef enum {HTS221_DISABLE = (uint8_t)0, HTS221_ENABLE = !HTS221_DISABLE} HTS221_State_et;
+#define IS_HTS221_State(MODE) ((MODE == HTS221_ENABLE) || (MODE == HTS221_DISABLE))
+
+/**
+* @brief Bit status type.
+*/
+typedef enum {HTS221_RESET = (uint8_t)0, HTS221_SET = !HTS221_RESET} HTS221_BitStatus_et;
+#define IS_HTS221_BitStatus(MODE) ((MODE == HTS221_RESET) || (MODE == HTS221_SET))
+
+/**
+* @brief Humidity average.
+*/
+typedef enum
+{
+ HTS221_AVGH_4 = (uint8_t)0x00, /*!< Internal average on 4 samples */
+ HTS221_AVGH_8 = (uint8_t)0x01, /*!< Internal average on 8 samples */
+ HTS221_AVGH_16 = (uint8_t)0x02, /*!< Internal average on 16 samples */
+ HTS221_AVGH_32 = (uint8_t)0x03, /*!< Internal average on 32 samples */
+ HTS221_AVGH_64 = (uint8_t)0x04, /*!< Internal average on 64 samples */
+ HTS221_AVGH_128 = (uint8_t)0x05, /*!< Internal average on 128 samples */
+ HTS221_AVGH_256 = (uint8_t)0x06, /*!< Internal average on 256 samples */
+ HTS221_AVGH_512 = (uint8_t)0x07 /*!< Internal average on 512 samples */
+} HTS221_Avgh_et;
+#define IS_HTS221_AVGH(AVGH) ((AVGH == HTS221_AVGH_4) || (AVGH == HTS221_AVGH_8) || \
+ (AVGH == HTS221_AVGH_16) || (AVGH == HTS221_AVGH_32) || \
+ (AVGH == HTS221_AVGH_64) || (AVGH == HTS221_AVGH_128) || \
+ (AVGH == HTS221_AVGH_256) || (AVGH == HTS221_AVGH_512))
+
+/**
+* @brief Temperature average.
+*/
+typedef enum
+{
+ HTS221_AVGT_2 = (uint8_t)0x00, /*!< Internal average on 2 samples */
+ HTS221_AVGT_4 = (uint8_t)0x08, /*!< Internal average on 4 samples */
+ HTS221_AVGT_8 = (uint8_t)0x10, /*!< Internal average on 8 samples */
+ HTS221_AVGT_16 = (uint8_t)0x18, /*!< Internal average on 16 samples */
+ HTS221_AVGT_32 = (uint8_t)0x20, /*!< Internal average on 32 samples */
+ HTS221_AVGT_64 = (uint8_t)0x28, /*!< Internal average on 64 samples */
+ HTS221_AVGT_128 = (uint8_t)0x30, /*!< Internal average on 128 samples */
+ HTS221_AVGT_256 = (uint8_t)0x38 /*!< Internal average on 256 samples */
+} HTS221_Avgt_et;
+#define IS_HTS221_AVGT(AVGT) ((AVGT == HTS221_AVGT_2) || (AVGT == HTS221_AVGT_4) || \
+ (AVGT == HTS221_AVGT_8) || (AVGT == HTS221_AVGT_16) || \
+ (AVGT == HTS221_AVGT_32) || (AVGT == HTS221_AVGT_64) || \
+ (AVGT == HTS221_AVGT_128) || (AVGT == HTS221_AVGT_256))
+
+/**
+* @brief Output data rate configuration.
+*/
+typedef enum
+{
+ HTS221_ODR_ONE_SHOT = (uint8_t)0x00, /*!< Output Data Rate: one shot */
+ HTS221_ODR_1HZ = (uint8_t)0x01, /*!< Output Data Rate: 1Hz */
+ HTS221_ODR_7HZ = (uint8_t)0x02, /*!< Output Data Rate: 7Hz */
+ HTS221_ODR_12_5HZ = (uint8_t)0x03, /*!< Output Data Rate: 12.5Hz */
+} HTS221_Odr_et;
+#define IS_HTS221_ODR(ODR) ((ODR == HTS221_ODR_ONE_SHOT) || (ODR == HTS221_ODR_1HZ) || \
+ (ODR == HTS221_ODR_7HZ) || (ODR == HTS221_ODR_12_5HZ))
+
+
+/**
+* @brief Push-pull/Open Drain selection on DRDY pin.
+*/
+typedef enum
+{
+ HTS221_PUSHPULL = (uint8_t)0x00, /*!< DRDY pin in push pull */
+ HTS221_OPENDRAIN = (uint8_t)0x40 /*!< DRDY pin in open drain */
+} HTS221_OutputType_et;
+#define IS_HTS221_OutputType(MODE) ((MODE == HTS221_PUSHPULL) || (MODE == HTS221_OPENDRAIN))
+
+/**
+* @brief Active level of DRDY pin.
+*/
+typedef enum
+{
+ HTS221_HIGH_LVL = (uint8_t)0x00, /*!< HIGH state level for DRDY pin */
+ HTS221_LOW_LVL = (uint8_t)0x80 /*!< LOW state level for DRDY pin */
+} HTS221_DrdyLevel_et;
+#define IS_HTS221_DrdyLevelType(MODE) ((MODE == HTS221_HIGH_LVL) || (MODE == HTS221_LOW_LVL))
+
+/**
+* @brief Driver Version Info structure definition.
+*/
+typedef struct
+{
+ uint8_t Major;
+ uint8_t Minor;
+ uint8_t Point;
+} HTS221_DriverVersion_st;
+
+
+/**
+* @brief HTS221 Init structure definition.
+*/
+typedef struct
+{
+ HTS221_Avgh_et avg_h; /*!< Humidity average */
+ HTS221_Avgt_et avg_t; /*!< Temperature average */
+ HTS221_Odr_et odr; /*!< Output data rate */
+ HTS221_State_et bdu_status; /*!< HTS221_ENABLE/HTS221_DISABLE the block data update */
+ HTS221_State_et heater_status; /*!< HTS221_ENABLE/HTS221_DISABLE the internal heater */
+
+ HTS221_DrdyLevel_et irq_level; /*!< HTS221_HIGH_LVL/HTS221_LOW_LVL the level for DRDY pin */
+ HTS221_OutputType_et irq_output_type; /*!< Output configuration for DRDY pin */
+ HTS221_State_et irq_enable; /*!< HTS221_ENABLE/HTS221_DISABLE interrupt on DRDY pin */
+} HTS221_Init_st;
+
+/**
+* @}
+*/
+
+
+/* Exported Constants ---------------------------------------------------------*/
+/** @defgroup HTS221_Exported_Constants
+* @{
+*/
+
+/**
+* @brief Bitfield positioning.
+*/
+#define HTS221_BIT(x) ((uint8_t)x)
+
+/**
+* @brief I2C address.
+*/
+#define HTS221_I2C_ADDRESS (uint8_t)0xBE
+
+/**
+* @brief Driver version.
+*/
+#define HTS221_DRIVER_VERSION_MAJOR (uint8_t)1
+#define HTS221_DRIVER_VERSION_MINOR (uint8_t)1
+#define HTS221_DRIVER_VERSION_POINT (uint8_t)0
+
+/**
+* @addtogroup HTS221_Registers
+* @{
+*/
+
+
+/**
+* @brief Device Identification register.
+* \code
+* Read
+* Default value: 0xBC
+* 7:0 This read-only register contains the device identifier for HTS221.
+* \endcode
+*/
+#define HTS221_WHO_AM_I_REG (uint8_t)0x0F
+
+/**
+* @brief Device Identification value.
+*/
+#define HTS221_WHO_AM_I_VAL (uint8_t)0xBC
+
+
+/**
+* @brief Humidity and temperature average mode register.
+* \code
+* Read/write
+* Default value: 0x1B
+* 7:6 Reserved.
+* 5:3 AVGT2-AVGT1-AVGT0: Select the temperature internal average.
+*
+* AVGT2 | AVGT1 | AVGT0 | Nr. Internal Average
+* ----------------------------------------------------
+* 0 | 0 | 0 | 2
+* 0 | 0 | 1 | 4
+* 0 | 1 | 0 | 8
+* 0 | 1 | 1 | 16
+* 1 | 0 | 0 | 32
+* 1 | 0 | 1 | 64
+* 1 | 1 | 0 | 128
+* 1 | 1 | 1 | 256
+*
+* 2:0 AVGH2-AVGH1-AVGH0: Select humidity internal average.
+* AVGH2 | AVGH1 | AVGH0 | Nr. Internal Average
+* ------------------------------------------------------
+* 0 | 0 | 0 | 4
+* 0 | 0 | 1 | 8
+* 0 | 1 | 0 | 16
+* 0 | 1 | 1 | 32
+* 1 | 0 | 0 | 64
+* 1 | 0 | 1 | 128
+* 1 | 1 | 0 | 256
+* 1 | 1 | 1 | 512
+*
+* \endcode
+*/
+#define HTS221_AV_CONF_REG (uint8_t)0x10
+
+#define HTS221_AVGT_BIT HTS221_BIT(3)
+#define HTS221_AVGH_BIT HTS221_BIT(0)
+
+#define HTS221_AVGH_MASK (uint8_t)0x07
+#define HTS221_AVGT_MASK (uint8_t)0x38
+
+/**
+* @brief Control register 1.
+* \code
+* Read/write
+* Default value: 0x00
+* 7 PD: power down control. 0 - power down mode; 1 - active mode.
+* 6:3 Reserved.
+* 2 BDU: block data update. 0 - continuous update; 1 - output registers not updated until MSB and LSB reading.
+* 1:0 ODR1, ODR0: output data rate selection.
+*
+* ODR1 | ODR0 | Humidity output data-rate(Hz) | Pressure output data-rate(Hz)
+* ----------------------------------------------------------------------------------
+* 0 | 0 | one shot | one shot
+* 0 | 1 | 1 | 1
+* 1 | 0 | 7 | 7
+* 1 | 1 | 12.5 | 12.5
+*
+* \endcode
+*/
+#define HTS221_CTRL_REG1 (uint8_t)0x20
+
+#define HTS221_PD_BIT HTS221_BIT(7)
+#define HTS221_BDU_BIT HTS221_BIT(2)
+#define HTS221_ODR_BIT HTS221_BIT(0)
+
+#define HTS221_PD_MASK (uint8_t)0x80
+#define HTS221_BDU_MASK (uint8_t)0x04
+#define HTS221_ODR_MASK (uint8_t)0x03
+
+/**
+* @brief Control register 2.
+* \code
+* Read/write
+* Default value: 0x00
+* 7 BOOT: Reboot memory content. 0: normal mode; 1: reboot memory content. Self-cleared upon completation.
+* 6:2 Reserved.
+* 1 HEATHER: 0: heater enable; 1: heater disable.
+* 0 ONE_SHOT: 0: waiting for start of conversion; 1: start for a new dataset. Self-cleared upon completation.
+* \endcode
+*/
+#define HTS221_CTRL_REG2 (uint8_t)0x21
+
+#define HTS221_BOOT_BIT HTS221_BIT(7)
+#define HTS221_HEATHER_BIT HTS221_BIT(1)
+#define HTS221_ONESHOT_BIT HTS221_BIT(0)
+
+#define HTS221_BOOT_MASK (uint8_t)0x80
+#define HTS221_HEATHER_MASK (uint8_t)0x02
+#define HTS221_ONE_SHOT_MASK (uint8_t)0x01
+
+/**
+* @brief Control register 3.
+* \code
+* Read/write
+* Default value: 0x00
+* 7 DRDY_H_L: Interrupt edge. 0: active high, 1: active low.
+* 6 PP_OD: Push-Pull/OpenDrain selection on interrupt pads. 0: push-pull; 1: open drain.
+* 5:3 Reserved.
+* 2 DRDY: interrupt config. 0: disable, 1: enable.
+* \endcode
+*/
+#define HTS221_CTRL_REG3 (uint8_t)0x22
+
+#define HTS221_DRDY_H_L_BIT HTS221_BIT(7)
+#define HTS221_PP_OD_BIT HTS221_BIT(6)
+#define HTS221_DRDY_BIT HTS221_BIT(2)
+
+#define HTS221_DRDY_H_L_MASK (uint8_t)0x80
+#define HTS221_PP_OD_MASK (uint8_t)0x40
+#define HTS221_DRDY_MASK (uint8_t)0x04
+
+/**
+* @brief Status register.
+* \code
+* Read
+* Default value: 0x00
+* 7:2 Reserved.
+* 1 H_DA: Humidity data available. 0: new data for humidity is not yet available; 1: new data for humidity is available.
+* 0 T_DA: Temperature data available. 0: new data for temperature is not yet available; 1: new data for temperature is available.
+* \endcode
+*/
+#define HTS221_STATUS_REG (uint8_t)0x27
+
+#define HTS221_H_DA_BIT HTS221_BIT(1)
+#define HTS221_T_DA_BIT HTS221_BIT(0)
+
+#define HTS221_HDA_MASK (uint8_t)0x02
+#define HTS221_TDA_MASK (uint8_t)0x01
+
+/**
+* @brief Humidity data (LSB).
+* \code
+* Read
+* Default value: 0x00.
+* HOUT7 - HOUT0: Humidity data LSB (2's complement).
+* \endcode
+*/
+#define HTS221_HR_OUT_L_REG (uint8_t)0x28
+
+/**
+* @brief Humidity data (MSB).
+* \code
+* Read
+* Default value: 0x00.
+* HOUT15 - HOUT8: Humidity data MSB (2's complement).
+* \endcode
+*/
+#define HTS221_HR_OUT_H_REG (uint8_t)0x29
+
+
+/**
+* @brief Temperature data (LSB).
+* \code
+* Read
+* Default value: 0x00.
+* TOUT7 - TOUT0: temperature data LSB.
+* \endcode
+*/
+#define HTS221_TEMP_OUT_L_REG (uint8_t)0x2A
+
+/**
+* @brief Temperature data (MSB).
+* \code
+* Read
+* Default value: 0x00.
+* TOUT15 - TOUT8: temperature data MSB.
+* \endcode
+*/
+#define HTS221_TEMP_OUT_H_REG (uint8_t)0x2B
+
+/**
+* @brief Calibration registers.
+* \code
+* Read
+* \endcode
+*/
+#define HTS221_H0_RH_X2 (uint8_t)0x30
+#define HTS221_H1_RH_X2 (uint8_t)0x31
+#define HTS221_T0_DEGC_X8 (uint8_t)0x32
+#define HTS221_T1_DEGC_X8 (uint8_t)0x33
+#define HTS221_T0_T1_DEGC_H2 (uint8_t)0x35
+#define HTS221_H0_T0_OUT_L (uint8_t)0x36
+#define HTS221_H0_T0_OUT_H (uint8_t)0x37
+#define HTS221_H1_T0_OUT_L (uint8_t)0x3A
+#define HTS221_H1_T0_OUT_H (uint8_t)0x3B
+#define HTS221_T0_OUT_L (uint8_t)0x3C
+#define HTS221_T0_OUT_H (uint8_t)0x3D
+#define HTS221_T1_OUT_L (uint8_t)0x3E
+#define HTS221_T1_OUT_H (uint8_t)0x3F
+
+
+/**
+* @}
+*/
+
+
+/**
+* @}
+*/
+
+
+/* Exported Functions -------------------------------------------------------------*/
+/** @defgroup HTS221_Exported_Functions
+* @{
+*/
+
+HTS221_Error_et HTS221_read_reg( void *handle, uint8_t RegAddr, uint16_t NumByteToRead, uint8_t *Data );
+HTS221_Error_et HTS221_write_reg( void *handle, uint8_t RegAddr, uint16_t NumByteToWrite, uint8_t *Data );
+
+HTS221_Error_et HTS221_Get_DriverVersion(HTS221_DriverVersion_st* version);
+HTS221_Error_et HTS221_Get_DeviceID(void *handle, uint8_t* deviceid);
+
+HTS221_Error_et HTS221_Set_InitConfig(void *handle, HTS221_Init_st* pxInit);
+HTS221_Error_et HTS221_Get_InitConfig(void *handle, HTS221_Init_st* pxInit);
+HTS221_Error_et HTS221_DeInit(void *handle);
+HTS221_Error_et HTS221_IsMeasurementCompleted(void *handle, HTS221_BitStatus_et* Is_Measurement_Completed);
+
+HTS221_Error_et HTS221_Get_Measurement(void *handle, uint16_t* humidity, int16_t* temperature);
+HTS221_Error_et HTS221_Get_RawMeasurement(void *handle, int16_t* humidity, int16_t* temperature);
+HTS221_Error_et HTS221_Get_Humidity(void *handle, uint16_t* value);
+HTS221_Error_et HTS221_Get_HumidityRaw(void *handle, int16_t* value);
+HTS221_Error_et HTS221_Get_TemperatureRaw(void *handle, int16_t* value);
+HTS221_Error_et HTS221_Get_Temperature(void *handle, int16_t* value);
+HTS221_Error_et HTS221_Get_DataStatus(void *handle, HTS221_BitStatus_et* humidity, HTS221_BitStatus_et* temperature);
+HTS221_Error_et HTS221_Activate(void *handle);
+HTS221_Error_et HTS221_DeActivate(void *handle);
+
+HTS221_Error_et HTS221_Set_AvgHT(void *handle, HTS221_Avgh_et avgh, HTS221_Avgt_et avgt);
+HTS221_Error_et HTS221_Set_AvgH(void *handle, HTS221_Avgh_et avgh);
+HTS221_Error_et HTS221_Set_AvgT(void *handle, HTS221_Avgt_et avgt);
+HTS221_Error_et HTS221_Get_AvgHT(void *handle, HTS221_Avgh_et* avgh, HTS221_Avgt_et* avgt);
+HTS221_Error_et HTS221_Set_BduMode(void *handle, HTS221_State_et status);
+HTS221_Error_et HTS221_Get_BduMode(void *handle, HTS221_State_et* status);
+HTS221_Error_et HTS221_Set_PowerDownMode(void *handle, HTS221_BitStatus_et status);
+HTS221_Error_et HTS221_Get_PowerDownMode(void *handle, HTS221_BitStatus_et* status);
+HTS221_Error_et HTS221_Set_Odr(void *handle, HTS221_Odr_et odr);
+HTS221_Error_et HTS221_Get_Odr(void *handle, HTS221_Odr_et* odr);
+HTS221_Error_et HTS221_MemoryBoot(void *handle);
+HTS221_Error_et HTS221_Set_HeaterState(void *handle, HTS221_State_et status);
+HTS221_Error_et HTS221_Get_HeaterState(void *handle, HTS221_State_et* status);
+HTS221_Error_et HTS221_StartOneShotMeasurement(void *handle);
+HTS221_Error_et HTS221_Set_IrqActiveLevel(void *handle, HTS221_DrdyLevel_et status);
+HTS221_Error_et HTS221_Get_IrqActiveLevel(void *handle, HTS221_DrdyLevel_et* status);
+HTS221_Error_et HTS221_Set_IrqOutputType(void *handle, HTS221_OutputType_et value);
+HTS221_Error_et HTS221_Get_IrqOutputType(void *handle, HTS221_OutputType_et* value);
+HTS221_Error_et HTS221_Set_IrqEnable(void *handle, HTS221_State_et status);
+HTS221_Error_et HTS221_Get_IrqEnable(void *handle, HTS221_State_et* status);
+
+/**
+* @}
+*/
+
+/**
+* @}
+*/
+
+/**
+* @}
+*/
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __HTS221_DRIVER__H */
+
+/******************* (C) COPYRIGHT 2013 STMicroelectronics *****END OF FILE****/
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Components/LPS22HBSensor/LPS22HBSensor.cpp Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,399 @@
+/**
+ ******************************************************************************
+ * @file LPS22HBSensor.cpp
+ * @author CLab
+ * @version V1.0.0
+ * @date 5 August 2016
+ * @brief Implementation of an LPS22HB Pressure sensor.
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include "mbed.h"
+#include "DevI2C.h"
+#include "LPS22HBSensor.h"
+#include "LPS22HB_driver.h"
+
+
+/* Class Implementation ------------------------------------------------------*/
+
+/** Constructor
+ * @param i2c object of an helper class which handles the I2C peripheral
+ * @param address the address of the component's instance
+ */
+LPS22HBSensor::LPS22HBSensor(DevI2C &i2c) : _dev_i2c(i2c)
+{
+ _address = LPS22HB_ADDRESS_HIGH;
+};
+
+
+/** Constructor
+ * @param i2c object of an helper class which handles the I2C peripheral
+ * @param address the address of the component's instance
+ */
+LPS22HBSensor::LPS22HBSensor(DevI2C &i2c, uint8_t address) : _dev_i2c(i2c), _address(address)
+{
+
+};
+
+/**
+ * @brief Initializing the component.
+ * @param[in] init pointer to device specific initalization structure.
+ * @retval "0" in case of success, an error code otherwise.
+ */
+int LPS22HBSensor::init(void *init)
+{
+ if ( LPS22HB_Set_PowerMode( (void *)this, LPS22HB_LowPower) == LPS22HB_ERROR )
+ {
+ return 1;
+ }
+
+ /* Power down the device */
+ if ( LPS22HB_Set_Odr( (void *)this, LPS22HB_ODR_ONE_SHOT ) == LPS22HB_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable low-pass filter on LPS22HB pressure data */
+ if( LPS22HB_Set_LowPassFilter( (void *)this, LPS22HB_DISABLE) == LPS22HB_ERROR )
+ {
+ return 1;
+ }
+
+ /* Set low-pass filter cutoff configuration*/
+ if( LPS22HB_Set_LowPassFilterCutoff( (void *)this, LPS22HB_ODR_9) == LPS22HB_ERROR )
+ {
+ return 1;
+ }
+
+ /* Set block data update mode */
+ if ( LPS22HB_Set_Bdu( (void *)this, LPS22HB_BDU_NO_UPDATE ) == LPS22HB_ERROR )
+ {
+ return 1;
+ }
+
+ /* Set automatic increment for multi-byte read/write */
+ if( LPS22HB_Set_AutomaticIncrementRegAddress( (void *)this, LPS22HB_ENABLE) == LPS22HB_ERROR )
+ {
+ return 1;
+ }
+
+ _is_enabled = 0;
+ _last_odr = 25.0f;
+
+ return 0;
+}
+
+
+/**
+ * @brief Enable LPS22HB
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LPS22HBSensor::enable(void)
+{
+ /* Check if the component is already enabled */
+ if ( _is_enabled == 1 )
+ {
+ return 0;
+ }
+
+ if(Set_ODR_When_Enabled(_last_odr) == 1)
+ {
+ return 1;
+ }
+
+ _is_enabled = 1;
+
+ return 0;
+}
+
+/**
+ * @brief Disable LPS22HB
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LPS22HBSensor::disable(void)
+{
+ /* Check if the component is already disabled */
+ if ( _is_enabled == 0 )
+ {
+ return 0;
+ }
+
+ /* Power down the device */
+ if ( LPS22HB_Set_Odr( (void *)this, LPS22HB_ODR_ONE_SHOT ) == LPS22HB_ERROR )
+ {
+ return 1;
+ }
+
+ _is_enabled = 0;
+
+ return 0;
+}
+
+/**
+ * @brief Read ID address of LPS22HB
+ * @param id the pointer where the ID of the device is stored
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LPS22HBSensor::read_id(uint8_t *id)
+{
+ if(!id)
+ {
+ return 1;
+ }
+
+ /* Read WHO AM I register */
+ if ( LPS22HB_Get_DeviceID( (void *)this, id ) == LPS22HB_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Reboot memory content of LPS22HB
+ * @param None
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LPS22HBSensor::reset(void)
+{
+ /* Read WHO AM I register */
+ if ( LPS22HB_MemoryBoot((void *)this) == LPS22HB_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Read LPS22HB output register, and calculate the pressure in mbar
+ * @param pfData the pressure value in mbar
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LPS22HBSensor::get_pressure(float* pfData)
+{
+ int32_t int32data = 0;
+
+ /* Read data from LPS22HB. */
+ if ( LPS22HB_Get_Pressure( (void *)this, &int32data ) == LPS22HB_ERROR )
+ {
+ return 1;
+ }
+
+ *pfData = ( float )int32data / 100.0f;
+
+ return 0;
+}
+
+/**
+ * @brief Read LPS22HB output register, and calculate the temperature
+ * @param pfData the temperature value
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LPS22HBSensor::get_temperature(float *pfData)
+{
+ int16_t int16data = 0;
+
+ /* Read data from LPS22HB. */
+ if ( LPS22HB_Get_Temperature( (void *)this, &int16data ) == LPS22HB_ERROR )
+ {
+ return 1;
+ }
+
+ *pfData = ( float )int16data / 10.0f;
+
+ return 0;
+}
+
+/**
+ * @brief Read LPS22HB output data rate
+ * @param odr the pointer to the output data rate
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LPS22HBSensor::get_odr(float* odr)
+{
+ LPS22HB_Odr_et odr_low_level;
+
+ if ( LPS22HB_Get_Odr( (void *)this, &odr_low_level ) == LPS22HB_ERROR )
+ {
+ return 1;
+ }
+
+ switch( odr_low_level )
+ {
+ case LPS22HB_ODR_ONE_SHOT:
+ *odr = 0.0f;
+ break;
+ case LPS22HB_ODR_1HZ:
+ *odr = 1.0f;
+ break;
+ case LPS22HB_ODR_10HZ:
+ *odr = 10.0f;
+ break;
+ case LPS22HB_ODR_25HZ:
+ *odr = 25.0f;
+ break;
+ case LPS22HB_ODR_50HZ:
+ *odr = 50.0f;
+ break;
+ case LPS22HB_ODR_75HZ:
+ *odr = 75.0f;
+ break;
+ default:
+ *odr = -1.0f;
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set ODR
+ * @param odr the output data rate to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LPS22HBSensor::set_odr(float odr)
+{
+ if(_is_enabled == 1)
+ {
+ if(Set_ODR_When_Enabled(odr) == 1)
+ {
+ return 1;
+ }
+ }
+ else
+ {
+ if(Set_ODR_When_Disabled(odr) == 1)
+ {
+ return 1;
+ }
+ }
+
+ return 0;
+}
+
+
+/**
+ * @brief Set the LPS22HB sensor output data rate when enabled
+ * @param odr the functional output data rate to be set
+ * @retval 0 in case of success
+ * @retval 1 in case of failure
+ */
+int LPS22HBSensor::Set_ODR_When_Enabled( float odr )
+{
+ LPS22HB_Odr_et new_odr;
+
+ new_odr = ( odr <= 1.0f ) ? LPS22HB_ODR_1HZ
+ : ( odr <= 10.0f ) ? LPS22HB_ODR_10HZ
+ : ( odr <= 25.0f ) ? LPS22HB_ODR_25HZ
+ : ( odr <= 50.0f ) ? LPS22HB_ODR_50HZ
+ : LPS22HB_ODR_75HZ;
+
+ if ( LPS22HB_Set_Odr( (void *)this, new_odr ) == LPS22HB_ERROR )
+ {
+ return 1;
+ }
+
+ if ( get_odr( &_last_odr ) == 1 )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set the LPS22HB sensor output data rate when disabled
+ * @param odr the functional output data rate to be set
+ * @retval 0 in case of success
+ * @retval 1 in case of failure
+ */
+int LPS22HBSensor::Set_ODR_When_Disabled( float odr )
+{
+ _last_odr = ( odr <= 1.0f ) ? 1.0f
+ : ( odr <= 10.0f ) ? 10.0f
+ : ( odr <= 25.0f ) ? 25.0f
+ : ( odr <= 50.0f ) ? 50.0f
+ : 75.0f;
+
+ return 0;
+}
+
+
+/**
+ * @brief Read the data from register
+ * @param reg register address
+ * @param data register data
+ * @retval 0 in case of success
+ * @retval 1 in case of failure
+ */
+int LPS22HBSensor::read_reg( uint8_t reg, uint8_t *data )
+{
+
+ if ( LPS22HB_read_reg( (void *)this, reg, 1, data ) == LPS22HB_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Write the data to register
+ * @param reg register address
+ * @param data register data
+ * @retval 0 in case of success
+ * @retval 1 in case of failure
+ */
+int LPS22HBSensor::write_reg( uint8_t reg, uint8_t data )
+{
+
+ if ( LPS22HB_write_reg( (void *)this, reg, 1, &data ) == LPS22HB_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+
+uint8_t LPS22HB_io_write( void *handle, uint8_t WriteAddr, uint8_t *pBuffer, uint16_t nBytesToWrite )
+{
+ return ((LPS22HBSensor *)handle)->io_write(pBuffer, WriteAddr, nBytesToWrite);
+}
+
+uint8_t LPS22HB_io_read( void *handle, uint8_t ReadAddr, uint8_t *pBuffer, uint16_t nBytesToRead )
+{
+ return ((LPS22HBSensor *)handle)->io_read(pBuffer, ReadAddr, nBytesToRead);
+}
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Components/LPS22HBSensor/LPS22HBSensor.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,121 @@
+/**
+ ******************************************************************************
+ * @file LPS22HBSensor.h
+ * @author CLab
+ * @version V1.0.0
+ * @date 5 August 2016
+ * @brief Abstract Class of an LPS22HB Pressure sensor.
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Prevent recursive inclusion -----------------------------------------------*/
+
+#ifndef __LPS22HBSensor_H__
+#define __LPS22HBSensor_H__
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include "DevI2C.h"
+#include "LPS22HB_driver.h"
+#include "PressureSensor.h"
+#include "TempSensor.h"
+
+/* Class Declaration ---------------------------------------------------------*/
+
+/**
+ * Abstract class of an LPS22HB Pressure sensor.
+ */
+class LPS22HBSensor : public PressureSensor, public TempSensor
+{
+ public:
+ LPS22HBSensor(DevI2C &i2c);
+ LPS22HBSensor(DevI2C &i2c, uint8_t address);
+ virtual int init(void *init);
+ virtual int read_id(uint8_t *id);
+ virtual int get_pressure(float *pfData);
+ virtual int get_temperature(float *pfData);
+ int enable(void);
+ int disable(void);
+ int reset(void);
+ int get_odr(float *odr);
+ int set_odr(float odr);
+ int read_reg(uint8_t reg, uint8_t *data);
+ int write_reg(uint8_t reg, uint8_t data);
+
+ /**
+ * @brief Utility function to read data.
+ * @param pBuffer: pointer to data to be read.
+ * @param RegisterAddr: specifies internal address register to be read.
+ * @param NumByteToRead: number of bytes to be read.
+ * @retval 0 if ok, an error code otherwise.
+ */
+ uint8_t io_read(uint8_t* pBuffer, uint8_t RegisterAddr, uint16_t NumByteToRead)
+ {
+ return (uint8_t) _dev_i2c.i2c_read(pBuffer, _address, RegisterAddr, NumByteToRead);
+ }
+
+ /**
+ * @brief Utility function to write data.
+ * @param pBuffer: pointer to data to be written.
+ * @param RegisterAddr: specifies internal address register to be written.
+ * @param NumByteToWrite: number of bytes to write.
+ * @retval 0 if ok, an error code otherwise.
+ */
+ uint8_t io_write(uint8_t* pBuffer, uint8_t RegisterAddr, uint16_t NumByteToWrite)
+ {
+ return (uint8_t) _dev_i2c.i2c_write(pBuffer, _address, RegisterAddr, NumByteToWrite);
+ }
+
+ private:
+ int Set_ODR_When_Enabled(float odr);
+ int Set_ODR_When_Disabled(float odr);
+
+ /* Helper classes. */
+ DevI2C &_dev_i2c;
+
+ /* Configuration */
+ uint8_t _address;
+
+ uint8_t _is_enabled;
+ float _last_odr;
+};
+
+#ifdef __cplusplus
+ extern "C" {
+#endif
+uint8_t LPS22HB_io_write( void *handle, uint8_t WriteAddr, uint8_t *pBuffer, uint16_t nBytesToWrite );
+uint8_t LPS22HB_io_read( void *handle, uint8_t ReadAddr, uint8_t *pBuffer, uint16_t nBytesToRead );
+#ifdef __cplusplus
+ }
+#endif
+
+#endif
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Components/LPS22HBSensor/LPS22HB_driver.c Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,1761 @@
+/**
+ *******************************************************************************
+ * @file LPS22HB_driver.c
+ * @author HESA Application Team
+ * @version V1.1
+ * @date 10-August-2016
+ * @brief LPS22HB driver file
+ *******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+/* Includes ------------------------------------------------------------------*/
+#include "LPS22HB_driver.h"
+#ifdef USE_FULL_ASSERT_LPS22HB
+#include <stdio.h>
+#endif
+
+/** @addtogroup Environmental_Sensor
+* @{
+*/
+
+/** @defgroup LPS22HB_DRIVER
+* @brief LPS22HB DRIVER
+* @{
+*/
+
+/** @defgroup LPS22HB_Imported_Function_Prototypes
+* @{
+*/
+
+extern uint8_t LPS22HB_io_write( void *handle, uint8_t WriteAddr, uint8_t *pBuffer, uint16_t nBytesToWrite );
+extern uint8_t LPS22HB_io_read( void *handle, uint8_t ReadAddr, uint8_t *pBuffer, uint16_t nBytesToRead );
+
+/**
+* @}
+*/
+
+/** @defgroup LPS22HB_Private_Function_Prototypes
+* @{
+*/
+
+/**
+* @}
+*/
+
+/** @defgroup LPS22HB_Private_Functions
+* @{
+*/
+
+/**
+* @}
+*/
+
+/** @defgroup LPS22HB_Public_Functions
+* @{
+*/
+
+/*******************************************************************************
+* Function Name : LPS22HB_read_reg
+* Description : Generic Reading function. It must be fullfilled with either
+* : I2C or SPI reading functions
+* Input : Register Address
+* Output : Data Read
+* Return : None
+*******************************************************************************/
+LPS22HB_Error_et LPS22HB_read_reg( void *handle, uint8_t RegAddr, uint16_t NumByteToRead, uint8_t *Data )
+{
+
+ if ( LPS22HB_io_read( handle, RegAddr, Data, NumByteToRead ) )
+ return LPS22HB_ERROR;
+ else
+ return LPS22HB_OK;
+}
+
+/*******************************************************************************
+* Function Name : LPS22HB_write_reg
+* Description : Generic Writing function. It must be fullfilled with either
+* : I2C or SPI writing function
+* Input : Register Address, Data to be written
+* Output : None
+* Return : None
+*******************************************************************************/
+LPS22HB_Error_et LPS22HB_write_reg( void *handle, uint8_t RegAddr, uint16_t NumByteToWrite, uint8_t *Data )
+{
+
+ if ( LPS22HB_io_write( handle, RegAddr, Data, NumByteToWrite ) )
+ return LPS22HB_ERROR;
+ else
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Read identification code by WHO_AM_I register
+* @param *handle Device handle.
+* @param Buffer to empty by Device identification Value.
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_DeviceID(void *handle, uint8_t* deviceid)
+{
+ if(LPS22HB_read_reg(handle, LPS22HB_WHO_AM_I_REG, 1, deviceid))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+
+/**
+* @brief Get the LPS22HB driver version.
+* @param None
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_DriverVersion(LPS22HB_driverVersion_st *Version)
+{
+ Version->Major = LPS22HB_driverVersion_Major;
+ Version->Minor = LPS22HB_driverVersion_Minor;
+ Version->Point = LPS22HB_driverVersion_Point;
+
+ return LPS22HB_OK;
+}
+
+
+/**
+* @brief Set LPS22HB Low Power or Low Noise Mode Configuration
+* @param *handle Device handle.
+* @param LPS22HB_LowNoise or LPS22HB_LowPower mode
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_PowerMode(void *handle, LPS22HB_PowerMode_et mode)
+{
+ uint8_t tmp;
+
+ LPS22HB_assert_param(IS_LPS22HB_PowerMode(mode));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_RES_CONF_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_LCEN_MASK;
+ tmp |= (uint8_t)mode;
+
+ if(LPS22HB_write_reg(handle, LPS22HB_RES_CONF_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Get LPS22HB Power Mode
+* @param *handle Device handle.
+* @param Buffer to empty with Mode: Low Noise or Low Current
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_PowerMode(void *handle, LPS22HB_PowerMode_et* mode)
+{
+ uint8_t tmp;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_RES_CONF_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ *mode = (LPS22HB_PowerMode_et)(tmp & LPS22HB_LCEN_MASK);
+
+ return LPS22HB_OK;
+}
+
+
+/**
+* @brief Set LPS22HB Output Data Rate
+* @param *handle Device handle.
+* @param Output Data Rate
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_Odr(void *handle, LPS22HB_Odr_et odr)
+{
+ uint8_t tmp;
+
+
+ LPS22HB_assert_param(IS_LPS22HB_ODR(odr));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG1, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_ODR_MASK;
+ tmp |= (uint8_t)odr;
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_REG1, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Get LPS22HB Output Data Rate
+* @param *handle Device handle.
+* @param Buffer to empty with Output Data Rate
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_Odr(void *handle, LPS22HB_Odr_et* odr)
+{
+ uint8_t tmp;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG1, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ *odr = (LPS22HB_Odr_et)(tmp & LPS22HB_ODR_MASK);
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Enable/Disale low-pass filter on LPS22HB pressure data
+* @param *handle Device handle.
+* @param state: enable or disable
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_LowPassFilter(void *handle, LPS22HB_State_et state)
+{
+ uint8_t tmp;
+
+ LPS22HB_assert_param(IS_LPS22HB_State(state));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG1, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_LPFP_MASK;
+ tmp |= ((uint8_t)state)<<LPS22HB_LPFP_BIT;
+
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_REG1, 1, &tmp))
+ return LPS22HB_ERROR;
+
+
+ return LPS22HB_OK;
+}
+
+
+/**
+* @brief Set low-pass filter cutoff configuration on LPS22HB pressure data
+* @param *handle Device handle.
+* @param Filter Cutoff ODR/9 or ODR/20
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_LowPassFilterCutoff(void *handle, LPS22HB_LPF_Cutoff_et cutoff){
+
+ uint8_t tmp;
+
+ LPS22HB_assert_param(IS_LPS22HB_LPF_Cutoff(cutoff));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG1, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_LPFP_CUTOFF_MASK;
+ tmp |= (uint8_t)cutoff;
+
+
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_REG1, 1, &tmp))
+ return LPS22HB_ERROR;
+
+
+ return LPS22HB_OK;
+
+}
+
+/**
+* @brief Set Block Data Mode
+* @detail It is recommended to set BDU bit to ‘1’.
+* @detail This feature avoids reading LSB and MSB related to different samples.
+* @param *handle Device handle.
+* @param LPS22HB_BDU_CONTINUOUS_UPDATE, LPS22HB_BDU_NO_UPDATE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+
+LPS22HB_Error_et LPS22HB_Set_Bdu(void *handle, LPS22HB_Bdu_et bdu)
+{
+ uint8_t tmp;
+
+
+ LPS22HB_assert_param(IS_LPS22HB_BDUMode(bdu));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG1, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_BDU_MASK;
+ tmp |= ((uint8_t)bdu);
+
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_REG1, 1, &tmp))
+ return LPS22HB_OK;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Get Block Data Mode
+* @param *handle Device handle.
+* @param Buffer to empty whit the bdu mode read from sensor
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_Bdu(void *handle, LPS22HB_Bdu_et* bdu)
+{
+ uint8_t tmp;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG1, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ *bdu = (LPS22HB_Bdu_et)(tmp & LPS22HB_BDU_MASK);
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Set SPI mode: 3 Wire Interface or 4 Wire Interface
+* @param *handle Device handle.
+* @param LPS22HB_SPI_3_WIRE, LPS22HB_SPI_4_WIRE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_SpiInterface(void *handle, LPS22HB_SPIMode_et spimode)
+{
+ uint8_t tmp;
+
+
+ LPS22HB_assert_param(IS_LPS22HB_SPIMode(spimode));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG1, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_SIM_MASK;
+ tmp |= (uint8_t)spimode;
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_REG1, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Clock Tree Configuration
+* @param *handle Device handle.
+* @param LPS22HB_CTE_NotBalanced, LPS22HB_CTE_ABalanced
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_ClockTreeConfifuration(void *handle, LPS22HB_CTE_et mode)
+{
+ uint8_t tmp;
+
+
+ LPS22HB_assert_param(IS_LPS22HB_CTE(mode));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CLOCK_TREE_CONFIGURATION, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_CTE_MASK;
+ tmp |= (uint8_t)mode;
+
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CLOCK_TREE_CONFIGURATION, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+
+/**
+* @brief Get SPI mode: 3 Wire Interface or 4 Wire Interface
+* @param *handle Device handle.
+* @param Buffet to empty with spi mode read from Sensor
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_SpiInterface(void *handle, LPS22HB_SPIMode_et* spimode)
+{
+ uint8_t tmp;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG1, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ *spimode = (LPS22HB_SPIMode_et)(tmp & LPS22HB_SIM_MASK);
+
+ return LPS22HB_OK;
+}
+
+ /**
+* @brief Software Reset. Self-clearing upon completion
+* @param *handle Device handle.
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_SwReset(void *handle)
+{
+ uint8_t tmp;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG2, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp |= (0x01<<LPS22HB_SW_RESET_BIT);
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_REG2, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Reboot Memory Content
+* @param *handle Device handle.
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+
+LPS22HB_Error_et LPS22HB_MemoryBoot(void *handle)
+{
+ uint8_t tmp;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG2, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp |= (0x01<<LPS22HB_BOOT_BIT);
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_REG2, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Software Reset ann Reboot Memory Content.
+* @detail The device is reset to the power on configuration if the SWRESET bit is set to ‘1’
+ + and BOOT is set to ‘1’; Self-clearing upon completion.
+* @param *handle Device handle.
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_SwResetAndMemoryBoot(void *handle)
+{
+ uint8_t tmp;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG2, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp |= ((0x01<<LPS22HB_SW_RESET_BIT) | (0x01<<LPS22HB_BOOT_BIT));
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_REG2, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+
+/**
+* @brief Enable/Disable FIFO Mode
+* @param *handle Device handle.
+* @param LPS22HB_ENABLE/LPS22HB_DISABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_FifoModeUse(void *handle, LPS22HB_State_et status)
+{
+ uint8_t tmp;
+
+ LPS22HB_assert_param(IS_LPS22HB_State(status));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG2, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_FIFO_EN_MASK;
+ tmp |= ((uint8_t)status)<<LPS22HB_FIFO_EN_BIT;
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_REG2, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+/**
+* @brief Enable/Disable FIFO Watermark Level Use
+* @param *handle Device handle.
+* @param LPS22HB_ENABLE/LPS22HB_DISABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_FifoWatermarkLevelUse(void *handle, LPS22HB_State_et status)
+{
+ uint8_t tmp;
+
+ LPS22HB_assert_param(IS_LPS22HB_State(status));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG2, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_WTM_EN_MASK;
+ tmp |= ((uint8_t)status)<<LPS22HB_WTM_EN_BIT;
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_REG2, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+ /**
+* @brief Enable or Disable the Automatic increment register address during a multiple byte access with a serial interface (I2C or SPI)
+* @param *handle Device handle.
+* @param LPS22HB_ENABLE/LPS22HB_DISABLE. Default is LPS22HB_ENABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_AutomaticIncrementRegAddress(void *handle, LPS22HB_State_et status){
+
+ uint8_t tmp;
+
+ LPS22HB_assert_param(IS_LPS22HB_State(status));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG2, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_ADD_INC_MASK;
+ tmp |= (((uint8_t)status)<<LPS22HB_ADD_INC_BIT);
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_REG2, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+
+}
+
+/**
+* @brief Enable/Disable I2C Interface
+* @param *handle Device handle.
+* @param State: LPS22HB_ENABLE (reset bit)/ LPS22HB_DISABLE (set bit)
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_I2C(void *handle, LPS22HB_State_et statei2c)
+{
+ uint8_t tmp;
+
+ LPS22HB_assert_param(IS_LPS22HB_State(statei2c));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG2, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ /*Reset Bit->I2C Enabled*/
+ tmp &= ~LPS22HB_I2C_MASK;
+ tmp|=((uint8_t)~statei2c)<<LPS22HB_I2C_BIT;
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_REG2, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+
+/**
+* @brief Set the one-shot bit in order to start acquisition when the ONE SHOT mode
+* has been selected by the ODR configuration.
+* @detail Once the measurement is done, ONE_SHOT bit will self-clear.
+* @param *handle Device handle.
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_StartOneShotMeasurement(void *handle)
+{
+ uint8_t tmp;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG2, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ /* Set the one shot bit */
+ /* Once the measurement is done, one shot bit will self-clear*/
+ tmp |= LPS22HB_ONE_SHOT_MASK;
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_REG2, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+
+}
+
+/**
+* @brief Set Interrupt Active on High or Low Level
+* @param *handle Device handle.
+* @param LPS22HB_ActiveHigh/LPS22HB_ActiveLow
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_InterruptActiveLevel(void *handle, LPS22HB_InterruptActiveLevel_et mode)
+{
+ uint8_t tmp;
+
+ LPS22HB_assert_param(IS_LPS22HB_InterruptActiveLevel(mode));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG3, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_INT_H_L_MASK;
+ tmp |= ((uint8_t)mode);
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_REG3, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+
+/**
+* @brief Push-pull/open drain selection on interrupt pads. Default tmp: 0
+* @param *handle Device handle.
+* @param LPS22HB_PushPull/LPS22HB_OpenDrain
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_InterruptOutputType(void *handle, LPS22HB_OutputType_et output)
+{
+ uint8_t tmp;
+
+ LPS22HB_assert_param(IS_LPS22HB_OutputType(output));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG3, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_PP_OD_MASK;
+ tmp |= (uint8_t)output;
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_REG3, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Set Data signal on INT pad control bits.
+* @param *handle Device handle.
+* @param LPS22HB_DATA,LPS22HB_P_HIGH_LPS22HB_P_LOW,LPS22HB_P_LOW_HIGH
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_InterruptControlConfig(void *handle, LPS22HB_OutputSignalConfig_et config)
+{
+ uint8_t tmp;
+
+ LPS22HB_assert_param(IS_LPS22HB_OutputSignal(config));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG3, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~(LPS22HB_INT_S12_MASK);
+ tmp |= (uint8_t)config;
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_REG3, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+
+/**
+* @brief Enable/Disable Data-ready signal on INT_DRDY pin.
+* @param *handle Device handle.
+* @param LPS22HB_ENABLE/LPS22HB_DISABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_DRDYInterrupt(void *handle, LPS22HB_State_et status)
+{
+ uint8_t tmp;
+
+
+ LPS22HB_assert_param(IS_LPS22HB_State(status));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG3, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_DRDY_MASK;
+ tmp |= ((uint8_t)status)<<LPS22HB_DRDY_BIT;
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_REG3, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+ /**
+* @brief Enable/Disable FIFO overrun interrupt on INT_DRDY pin.
+* @param *handle Device handle.
+* @param LPS22HB_ENABLE/LPS22HB_DISABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_FIFO_OVR_Interrupt(void *handle, LPS22HB_State_et status)
+{
+ uint8_t tmp;
+
+
+ LPS22HB_assert_param(IS_LPS22HB_State(status));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG3, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_FIFO_OVR_MASK;
+ tmp |= ((uint8_t)status)<<LPS22HB_FIFO_OVR_BIT;
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_REG3, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+ /**
+* @brief Enable/Disable FIFO threshold (Watermark) interrupt on INT_DRDY pin.
+* @param *handle Device handle.
+* @param LPS22HB_ENABLE/LPS22HB_DISABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_FIFO_FTH_Interrupt(void *handle, LPS22HB_State_et status)
+{
+ uint8_t tmp;
+
+ LPS22HB_assert_param(IS_LPS22HB_State(status));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG3, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_FIFO_FTH_MASK;
+ tmp |= ((uint8_t)status)<<LPS22HB_FIFO_FTH_BIT;
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_REG3, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Enable/Disable FIFO FULL interrupt on INT_DRDY pin.
+* @param *handle Device handle.
+* @param LPS22HB_ENABLE/LPS22HB_DISABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_FIFO_FULL_Interrupt(void *handle, LPS22HB_State_et status)
+{
+ uint8_t tmp;
+
+ LPS22HB_assert_param(IS_LPS22HB_State(status));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG3, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_FIFO_FULL_MASK;
+ tmp |= ((uint8_t)status)<<LPS22HB_FIFO_FULL_BIT;
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_REG3, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+
+
+/**
+* @brief Enable AutoRifP function
+* @detail When this function is enabled, an internal register is set with the current pressure values
+* and the content is subtracted from the pressure output value and result is used for the interrupt generation.
+* the AutoRifP is slf creared.
+* @param *handle Device handle.
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_AutoRifP(void *handle)
+{
+ uint8_t tmp;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_INTERRUPT_CFG_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp |= ((uint8_t)LPS22HB_AUTORIFP_MASK);
+
+ if(LPS22HB_write_reg(handle, LPS22HB_INTERRUPT_CFG_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Disable AutoRifP function
+* @detail the RESET_ARP bit is used to disable the AUTORIFP function. This bis i is selfdleared
+* @param *handle Device handle.
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_ResetAutoRifP(void *handle)
+{
+ uint8_t tmp;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_INTERRUPT_CFG_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+
+ tmp |= ((uint8_t)LPS22HB_RESET_ARP_MASK);
+
+ if(LPS22HB_write_reg(handle, LPS22HB_INTERRUPT_CFG_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+
+/*
+* @brief Set AutoZero Function bit
+* @detail When set to ‘1’, the actual pressure output is copied in the REF_P reg (@0x15..0x17)
+* @param *handle Device handle.
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_AutoZeroFunction(void *handle)
+{
+ uint8_t tmp;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_INTERRUPT_CFG_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp |= LPS22HB_AUTOZERO_MASK;
+
+ if(LPS22HB_write_reg(handle, LPS22HB_INTERRUPT_CFG_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+
+/*
+* @brief Set ResetAutoZero Function bit
+* @details REF_P reg (@0x015..17) set pressure reference to default value RPDS reg (0x18/19).
+* @param *handle Device handle.
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_ResetAutoZeroFunction(void *handle)
+{
+ uint8_t tmp;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_INTERRUPT_CFG_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ /* Set the RESET_AZ bit*/
+ /* RESET_AZ is self cleared*/
+ tmp |= LPS22HB_RESET_AZ_MASK;
+
+ if(LPS22HB_write_reg(handle, LPS22HB_INTERRUPT_CFG_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+
+ return LPS22HB_OK;
+}
+
+
+/**
+* @brief Enable/ Disable the computing of differential pressure output (Interrupt Generation)
+* @param *handle Device handle.
+* @param LPS22HB_ENABLE,LPS22HB_DISABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_InterruptDifferentialGeneration(void *handle, LPS22HB_State_et diff_en)
+{
+ uint8_t tmp;
+
+ LPS22HB_assert_param(IS_LPS22HB_State(diff_en));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_INTERRUPT_CFG_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_DIFF_EN_MASK;
+ tmp |= ((uint8_t)diff_en)<<LPS22HB_DIFF_EN_BIT;
+
+ if(LPS22HB_write_reg(handle, LPS22HB_INTERRUPT_CFG_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+
+/**
+* @brief Get the DIFF_EN bit value
+* @param *handle Device handle.
+* @param buffer to empty with the read value of DIFF_EN bit
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_InterruptDifferentialGeneration(void *handle, LPS22HB_State_et* diff_en)
+{
+ uint8_t tmp;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_INTERRUPT_CFG_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ *diff_en= (LPS22HB_State_et)((tmp & LPS22HB_DIFF_EN_MASK)>>LPS22HB_DIFF_EN_BIT);
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Latch Interrupt request to the INT_SOURCE register.
+* @param *handle Device handle.
+* @param LPS22HB_ENABLE/LPS22HB_DISABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_LatchInterruptRequest(void *handle, LPS22HB_State_et status)
+{
+ uint8_t tmp;
+
+ LPS22HB_assert_param(IS_LPS22HB_State(status));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_INTERRUPT_CFG_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_LIR_MASK;
+ tmp |= (((uint8_t)status)<<LPS22HB_LIR_BIT);
+
+ if(LPS22HB_write_reg(handle, LPS22HB_INTERRUPT_CFG_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+
+
+ /**
+* @brief Enable\Disable Interrupt Generation on differential pressure Low event
+* @param *handle Device handle.
+* @param LPS22HB_ENABLE/LPS22HB_DISABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_PLE(void *handle, LPS22HB_State_et status)
+{
+ uint8_t tmp;
+
+ LPS22HB_assert_param(IS_LPS22HB_State(status));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_INTERRUPT_CFG_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_PLE_MASK;
+ tmp |= (((uint8_t)status)<<LPS22HB_PLE_BIT);
+
+ if(LPS22HB_write_reg(handle, LPS22HB_INTERRUPT_CFG_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Enable\Disable Interrupt Generation on differential pressure High event
+* @param *handle Device handle.
+* @param LPS22HB_ENABLE/LPS22HB_DISABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_PHE(void *handle, LPS22HB_State_et status)
+{
+ uint8_t tmp;
+
+ LPS22HB_assert_param(IS_LPS22HB_State(status));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_INTERRUPT_CFG_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_PHE_MASK;
+ tmp |= (((uint8_t)status)<<LPS22HB_PHE_BIT);
+
+ if(LPS22HB_write_reg(handle, LPS22HB_INTERRUPT_CFG_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Get the Interrupt Generation on differential pressure status event and the Boot Status.
+* @detail The INT_SOURCE register is cleared by reading it.
+* @param *handle Device handle.
+* @param Status Event Flag: BOOT, PH,PL,IA
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_InterruptDifferentialEventStatus(void *handle, LPS22HB_InterruptDiffStatus_st* interruptsource)
+{
+ uint8_t tmp;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_INTERRUPT_SOURCE_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ interruptsource->PH = (uint8_t)(tmp & LPS22HB_PH_MASK);
+ interruptsource->PL = (uint8_t)((tmp & LPS22HB_PL_MASK)>>LPS22HB_PL_BIT);
+ interruptsource->IA = (uint8_t)((tmp & LPS22HB_IA_MASK)>>LPS22HB_IA_BIT);
+ interruptsource->BOOT= (uint8_t)((tmp & LPS22HB_BOOT_STATUS_MASK)>>LPS22HB_BOOT_STATUS_BIT);
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Get the status of Pressure and Temperature data
+* @param *handle Device handle.
+* @param Data Status Flag: TempDataAvailable, TempDataOverrun, PressDataAvailable, PressDataOverrun
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_DataStatus(void *handle, LPS22HB_DataStatus_st* datastatus)
+{
+ uint8_t tmp;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_STATUS_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ datastatus->PressDataAvailable = (uint8_t)(tmp & LPS22HB_PDA_MASK);
+ datastatus->TempDataAvailable = (uint8_t)((tmp & LPS22HB_TDA_MASK)>>LPS22HB_PDA_BIT);
+ datastatus->TempDataOverrun = (uint8_t)((tmp & LPS22HB_TOR_MASK)>>LPS22HB_TOR_BIT);
+ datastatus->PressDataOverrun = (uint8_t)((tmp & LPS22HB_POR_MASK)>>LPS22HB_POR_BIT);
+
+ return LPS22HB_OK;
+}
+
+
+
+/**
+* @brief Get the LPS22HB raw presure value
+* @detail The data are expressed as PRESS_OUT_H/_L/_XL in 2’s complement.
+ Pout(hPA)=PRESS_OUT / 4096
+* @param *handle Device handle.
+* @param The buffer to empty with the pressure raw value
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_RawPressure(void *handle, int32_t *raw_press)
+{
+ uint8_t buffer[3];
+ uint32_t tmp = 0;
+ uint8_t i;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_PRESS_OUT_XL_REG, 3, buffer))
+ return LPS22HB_ERROR;
+
+ /* Build the raw data */
+ for(i=0; i<3; i++)
+ tmp |= (((uint32_t)buffer[i]) << (8*i));
+
+ /* convert the 2's complement 24 bit to 2's complement 32 bit */
+ if(tmp & 0x00800000)
+ tmp |= 0xFF000000;
+
+ *raw_press = ((int32_t)tmp);
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Get the LPS22HB Pressure value in hPA.
+* @detail The data are expressed as PRESS_OUT_H/_L/_XL in 2’s complement.
+ Pout(hPA)=PRESS_OUT / 4096
+* @param *handle Device handle.
+* @param The buffer to empty with the pressure value that must be divided by 100 to get the value in hPA
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_Pressure(void *handle, int32_t* Pout)
+{
+ int32_t raw_press;
+
+ if(LPS22HB_Get_RawPressure(handle, &raw_press))
+ return LPS22HB_ERROR;
+
+ *Pout = (raw_press*100)/4096;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Get the Raw Temperature value.
+* @detail Temperature data are expressed as TEMP_OUT_H&TEMP_OUT_L as 2’s complement number.
+* Tout(degC)=TEMP_OUT/100
+* @param *handle Device handle.
+* @param Buffer to empty with the temperature raw tmp.
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_RawTemperature(void *handle, int16_t* raw_data)
+{
+ uint8_t buffer[2];
+ uint16_t tmp;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_TEMP_OUT_L_REG, 2, buffer))
+ return LPS22HB_ERROR;
+
+ /* Build the raw tmp */
+ tmp = (((uint16_t)buffer[1]) << 8) + (uint16_t)buffer[0];
+
+ *raw_data = ((int16_t)tmp);
+
+ return LPS22HB_OK;
+}
+
+
+/**
+* @brief Get the Temperature value in °C.
+* @detail Temperature data are expressed as TEMP_OUT_H&TEMP_OUT_L as 2’s complement number.
+* Tout(degC)=TEMP_OUT/100
+* @param *handle Device handle.
+* @param Buffer to empty with the temperature value that must be divided by 10 to get the value in °C
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_Temperature(void *handle, int16_t* Tout)
+{
+ int16_t raw_data;
+
+ if(LPS22HB_Get_RawTemperature(handle, &raw_data))
+ return LPS22HB_ERROR;
+
+ *Tout = (raw_data*10)/100;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Get the threshold value used for pressure interrupt generation (hPA).
+* @detail THS_P=THS_P_H&THS_P_L and is expressed as unsigned number. P_ths(hPA)=(THS_P)/16.
+* @param *handle Device handle.
+* @param Buffer to empty with the pressure threshold in hPA
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_PressureThreshold(void *handle, int16_t* P_ths)
+{
+ uint8_t tempReg[2];
+
+ if(LPS22HB_read_reg(handle, LPS22HB_THS_P_LOW_REG, 2, tempReg))
+ return LPS22HB_ERROR;
+
+ *P_ths= (((((uint16_t)tempReg[1])<<8) + tempReg[0])/16);
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Set the threshold value used for pressure interrupt generation (hPA).
+* @detail THS_P=THS_P_H&THS_P_L and is expressed as unsigned number. P_ths(hPA)=(THS_P)/16.
+* @param *handle Device handle.
+* @param Pressure threshold in hPA
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_PressureThreshold(void *handle, int16_t P_ths)
+{
+ uint8_t buffer[2];
+
+ buffer[0] = (uint8_t)(16 * P_ths);
+ buffer[1] = (uint8_t)(((uint16_t)(16 * P_ths))>>8);
+
+ if(LPS22HB_write_reg(handle, LPS22HB_THS_P_LOW_REG, 2, buffer))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Set Fifo Mode.
+* @param *handle Device handle.
+* @param Fifo Mode struct
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_FifoMode(void *handle, LPS22HB_FifoMode_et fifomode)
+{
+ uint8_t tmp;
+
+ LPS22HB_assert_param(IS_LPS22HB_FifoMode(fifomode));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_FIFO_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_FIFO_MODE_MASK;
+ tmp |= (uint8_t)fifomode;
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_FIFO_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Get Fifo Mode
+* @param *handle Device handle.
+* @param buffer to empty with fifo mode tmp
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_FifoMode(void *handle, LPS22HB_FifoMode_et* fifomode)
+{
+ uint8_t tmp;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_FIFO_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= LPS22HB_FIFO_MODE_MASK;
+ *fifomode = (LPS22HB_FifoMode_et)tmp;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Set Fifo Watermark Level.
+* @param *handle Device handle.
+* @param Watermark level value [0 31]
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_FifoWatermarkLevel(void *handle, uint8_t wtmlevel)
+{
+ uint8_t tmp;
+
+ LPS22HB_assert_param(IS_LPS22HB_WtmLevel(wtmlevel));
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_FIFO_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ tmp &= ~LPS22HB_WTM_POINT_MASK;
+ tmp |= wtmlevel;
+
+ if(LPS22HB_write_reg(handle, LPS22HB_CTRL_FIFO_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Get FIFO Watermark Level
+* @param *handle Device handle.
+* @param buffer to empty with watermak level[0,31] value read from sensor
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_FifoWatermarkLevel(void *handle, uint8_t *wtmlevel)
+{
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_FIFO_REG, 1, wtmlevel))
+ return LPS22HB_ERROR;
+
+ *wtmlevel &= LPS22HB_WTM_POINT_MASK;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Get the Fifo Status
+* @param *handle Device handle.
+* @param Status Flag: FIFO_FTH,FIFO_EMPTY,FIFO_FULL,FIFO_OVR and level of the FIFO->FIFO_LEVEL
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_FifoStatus(void *handle, LPS22HB_FifoStatus_st* status)
+{
+ uint8_t tmp;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_STATUS_FIFO_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ status->FIFO_FTH = (uint8_t)((tmp & LPS22HB_FTH_FIFO_MASK)>>LPS22HB_FTH_FIFO_BIT);
+ status->FIFO_OVR=(uint8_t)((tmp & LPS22HB_OVR_FIFO_MASK)>>LPS22HB_OVR_FIFO_BIT);
+ status->FIFO_LEVEL = (uint8_t)(tmp & LPS22HB_LEVEL_FIFO_MASK);
+
+ if(status->FIFO_LEVEL ==LPS22HB_FIFO_EMPTY)
+ status->FIFO_EMPTY=0x01;
+ else
+ status->FIFO_EMPTY=0x00;
+
+ if (status->FIFO_LEVEL ==LPS22HB_FIFO_FULL)
+ status->FIFO_FULL=0x01;
+ else
+ status->FIFO_FULL=0x00;
+
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Get the reference pressure after soldering for computing differential pressure (hPA)
+* @param *handle Device handle.
+* @param buffer to empty with the he pressure value (hPA)
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_PressureOffsetValue(void *handle, int16_t *pressoffset)
+{
+ uint8_t buffer[2];
+ int16_t raw_press;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_RPDS_L_REG, 2, buffer))
+ return LPS22HB_ERROR;
+
+ raw_press = (int16_t)((((uint16_t)buffer[1]) << 8) + (uint16_t)buffer[0]);
+
+ *pressoffset = (raw_press*100)/4096;
+
+ return LPS22HB_OK;
+}
+
+
+/**
+* @brief Get the Reference Pressure value
+* @detail It is a 24-bit data added to the sensor output measurement to detect a measured pressure beyond programmed limits.
+* @param *handle Device handle.
+* @param Buffer to empty with reference pressure value
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_ReferencePressure(void *handle, int32_t* RefP)
+{
+ uint8_t buffer[3];
+ uint32_t tempVal=0;
+ int32_t raw_press;
+ uint8_t i;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_REF_P_XL_REG, 3, buffer))
+ return LPS22HB_ERROR;
+
+ /* Build the raw data */
+ for(i=0; i<3; i++)
+ tempVal |= (((uint32_t)buffer[i]) << (8*i));
+
+ /* convert the 2's complement 24 bit to 2's complement 32 bit */
+ if(tempVal & 0x00800000)
+ tempVal |= 0xFF000000;
+
+ raw_press =((int32_t)tempVal);
+ *RefP = (raw_press*100)/4096;
+
+
+ return LPS22HB_OK;
+}
+
+
+/**
+* @brief Check if the single measurement has completed.
+* @param *handle Device handle.
+* @param the returned value is set to 1, when the measurement is completed
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_IsMeasurementCompleted(void *handle, uint8_t* Is_Measurement_Completed)
+{
+ uint8_t tmp;
+ LPS22HB_DataStatus_st datastatus;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_STATUS_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ datastatus.TempDataAvailable=(uint8_t)((tmp&LPS22HB_TDA_MASK)>>LPS22HB_TDA_BIT);
+ datastatus.PressDataAvailable= (uint8_t)(tmp&LPS22HB_PDA_MASK);
+
+ *Is_Measurement_Completed=(uint8_t)((datastatus.PressDataAvailable) & (datastatus.TempDataAvailable));
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Get the values of the last single measurement.
+* @param *handle Device handle.
+* @param Pressure and temperature tmp
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_Measurement(void *handle, LPS22HB_MeasureTypeDef_st *Measurement_Value)
+{
+ int16_t Tout;
+ int32_t Pout;
+
+ if(LPS22HB_Get_Temperature(handle, &Tout))
+ return LPS22HB_ERROR;
+
+ Measurement_Value->Tout=Tout;
+
+ if(LPS22HB_Get_Pressure(handle, &Pout))
+ return LPS22HB_ERROR;
+
+ Measurement_Value->Pout=Pout;
+
+ return LPS22HB_OK;
+
+}
+
+/**
+* @brief Initialization function for LPS22HB.
+* This function make a memory boot.
+* Init the sensor with a standard basic confifuration.
+* Low Power, ODR 25 Hz, Low Pass Filter disabled; BDU enabled; I2C enabled;
+* NO FIFO; NO Interrupt Enabled.
+* @param *handle Device handle.
+* @retval Error code[LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Init(void *handle)
+{
+ LPS22HB_ConfigTypeDef_st pLPS22HBInit;
+
+ /* Make LPS22HB Reset and Reboot */
+ if(LPS22HB_SwResetAndMemoryBoot(handle))
+ return LPS22HB_ERROR;
+
+ pLPS22HBInit.PowerMode=LPS22HB_LowPower;
+ pLPS22HBInit.OutputDataRate=LPS22HB_ODR_25HZ;
+ pLPS22HBInit.LowPassFilter=LPS22HB_DISABLE;
+ pLPS22HBInit.LPF_Cutoff=LPS22HB_ODR_9;
+ pLPS22HBInit.BDU=LPS22HB_BDU_NO_UPDATE;
+ pLPS22HBInit.IfAddInc=LPS22HB_ENABLE; //default
+ pLPS22HBInit.Sim= LPS22HB_SPI_4_WIRE;
+
+ /* Set Generic Configuration*/
+ if(LPS22HB_Set_GenericConfig(handle, &pLPS22HBInit))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief De initialization function for LPS22HB.
+* This function make a memory boot and clear the data output flags.
+* @param *handle Device handle.
+* @retval Error code[LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_DeInit(void *handle)
+{
+ LPS22HB_MeasureTypeDef_st Measurement_Value;
+
+ /* Make LPS22HB Reset and Reboot */
+ if(LPS22HB_SwResetAndMemoryBoot(handle))
+ return LPS22HB_ERROR;
+
+ /* Dump of data output */
+ if(LPS22HB_Get_Measurement(handle, &Measurement_Value))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+
+/**
+* @brief Set Generic Configuration
+* @param *handle Device handle.
+* @param Struct to empty with the chosen values
+* @retval Error code[LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_GenericConfig(void *handle, LPS22HB_ConfigTypeDef_st* pxLPS22HBInit)
+{
+
+ /* Enable Low Current Mode (low Power) or Low Noise Mode*/
+ if(LPS22HB_Set_PowerMode(handle, pxLPS22HBInit->PowerMode))
+ return LPS22HB_ERROR;
+
+ /* Init the Output Data Rate*/
+ if(LPS22HB_Set_Odr(handle, pxLPS22HBInit->OutputDataRate))
+ return LPS22HB_ERROR;
+
+ /* BDU bit is used to inhibit the output registers update between the reading of upper and
+ lower register parts. In default mode (BDU = ‘0’), the lower and upper register parts are
+ updated continuously. If it is not sure to read faster than output data rate, it is recommended
+ to set BDU bit to ‘1’. In this way, after the reading of the lower (upper) register part, the
+ content of that output registers is not updated until the upper (lower) part is read too.
+ This feature avoids reading LSB and MSB related to different samples.*/
+
+ if(LPS22HB_Set_Bdu(handle, pxLPS22HBInit->BDU))
+ return LPS22HB_ERROR;
+
+ /*Enable/Disale low-pass filter on LPS22HB pressure data*/
+ if(LPS22HB_Set_LowPassFilter(handle, pxLPS22HBInit->LowPassFilter))
+ return LPS22HB_ERROR;
+
+ /* Set low-pass filter cutoff configuration*/
+ if(LPS22HB_Set_LowPassFilterCutoff(handle, pxLPS22HBInit->LPF_Cutoff))
+ return LPS22HB_ERROR;
+
+ /* SIM bit selects the SPI serial interface mode.*/
+ /* This feature has effect only if SPI interface is used*/
+
+ if(LPS22HB_Set_SpiInterface(handle, pxLPS22HBInit->Sim))
+ return LPS22HB_ERROR;
+
+ /*Enable or Disable the Automatic increment register address during a multiple byte access with a serial interface (I2C or SPI)*/
+ if(LPS22HB_Set_AutomaticIncrementRegAddress(handle, pxLPS22HBInit->IfAddInc))
+ return LPS22HB_ERROR;
+
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Get Generic configuration
+* @param *handle Device handle.
+* @param Struct to empty with configuration values
+* @retval Error code[LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_GenericConfig(void *handle, LPS22HB_ConfigTypeDef_st* pxLPS22HBInit)
+{
+
+ uint8_t tmp;
+
+ /*Read LPS22HB_RES_CONF_REG*/
+ if(LPS22HB_Get_PowerMode(handle, &pxLPS22HBInit->PowerMode))
+ return LPS22HB_ERROR;
+
+ /*Read LPS22HB_CTRL_REG1*/
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG1, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ pxLPS22HBInit->OutputDataRate= (LPS22HB_Odr_et)(tmp & LPS22HB_ODR_MASK);
+ pxLPS22HBInit->BDU=(LPS22HB_Bdu_et)(tmp & LPS22HB_BDU_MASK);
+ pxLPS22HBInit->Sim=(LPS22HB_SPIMode_et)(tmp& LPS22HB_SIM_MASK);
+ pxLPS22HBInit->LowPassFilter=(LPS22HB_State_et)((tmp& LPS22HB_LPFP_MASK)>>LPS22HB_LPFP_BIT);
+ pxLPS22HBInit->LPF_Cutoff=(LPS22HB_LPF_Cutoff_et)(tmp& LPS22HB_LPFP_CUTOFF_MASK);
+
+ /*Read LPS22HB_CTRL_REG2*/
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG2, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ pxLPS22HBInit->IfAddInc=(LPS22HB_State_et)((tmp& LPS22HB_ADD_INC_MASK)>>LPS22HB_ADD_INC_BIT);
+
+ return LPS22HB_OK;
+}
+
+
+/**
+* @brief Set Interrupt configuration
+* @param *handle Device handle.
+* @param Struct holding the configuration values
+* @retval Error code[LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_InterruptConfig(void *handle, LPS22HB_InterruptTypeDef_st* pLPS22HBInt)
+{
+ /* Enable Low Current Mode (low Power) or Low Noise Mode*/
+ if(LPS22HB_Set_InterruptActiveLevel(handle, pLPS22HBInt->INT_H_L))
+ return LPS22HB_ERROR;
+
+ /* Push-pull/open drain selection on interrupt pads.*/
+ if(LPS22HB_Set_InterruptOutputType(handle, pLPS22HBInt->PP_OD))
+ return LPS22HB_ERROR;
+
+ /* Set Data signal on INT pad control bits.*/
+ if(LPS22HB_Set_InterruptControlConfig(handle, pLPS22HBInt->OutputSignal_INT))
+ return LPS22HB_ERROR;
+
+ /* Enable/Disable Data-ready signal on INT_DRDY pin. */
+ if(LPS22HB_Set_DRDYInterrupt(handle, pLPS22HBInt->DRDY))
+ return LPS22HB_ERROR;
+
+ /* Enable/Disable FIFO overrun interrupt on INT_DRDY pin. */
+ if(LPS22HB_Set_FIFO_OVR_Interrupt(handle, pLPS22HBInt->FIFO_OVR))
+ return LPS22HB_ERROR;
+
+ /* Enable/Disable FIFO Treshold interrupt on INT_DRDY pin. */
+ if(LPS22HB_Set_FIFO_FTH_Interrupt(handle, pLPS22HBInt->FIFO_FTH))
+ return LPS22HB_ERROR;
+
+ /* Enable/Disable FIFO FULL interrupt on INT_DRDY pin. */
+ if(LPS22HB_Set_FIFO_FULL_Interrupt(handle, pLPS22HBInt->FIFO_FULL))
+ return LPS22HB_ERROR;
+
+ /* Latch Interrupt request to the INT_SOURCE register. */
+ if(LPS22HB_LatchInterruptRequest(handle, pLPS22HBInt->LatchIRQ))
+ return LPS22HB_ERROR;
+
+ /* Set the threshold value used for pressure interrupt generation (hPA). */
+ if(LPS22HB_Set_PressureThreshold(handle, pLPS22HBInt->THS_threshold))
+ return LPS22HB_ERROR;
+
+ /*Enable/Disable AutoRifP function */
+ if(pLPS22HBInt->AutoRifP==LPS22HB_ENABLE){
+ if(LPS22HB_Set_AutoRifP(handle))
+ return LPS22HB_ERROR;
+ }
+ else{
+ if(LPS22HB_ResetAutoRifP(handle))
+ return LPS22HB_ERROR;
+ }
+
+ /*Enable/Disable AutoZero function*/
+ if(pLPS22HBInt->AutoZero==LPS22HB_ENABLE){
+ if(LPS22HB_Set_AutoZeroFunction(handle))
+ return LPS22HB_ERROR;
+ }
+ else{
+ if(LPS22HB_ResetAutoZeroFunction(handle))
+ return LPS22HB_ERROR;
+ }
+
+
+ if(pLPS22HBInt->OutputSignal_INT==LPS22HB_P_HIGH)
+ {
+ /* Enable\Disable Interrupt Generation on differential pressure high event*/
+ if(LPS22HB_Set_PHE(handle, LPS22HB_ENABLE))
+ return LPS22HB_ERROR;
+ if(LPS22HB_Set_InterruptDifferentialGeneration(handle, LPS22HB_ENABLE))
+ return LPS22HB_ERROR;
+ }
+ else if(pLPS22HBInt->OutputSignal_INT==LPS22HB_P_LOW)
+ {
+ /* Enable Interrupt Generation on differential pressure Loe event*/
+ if(LPS22HB_Set_PLE(handle, LPS22HB_ENABLE))
+ return LPS22HB_ERROR;
+ if(LPS22HB_Set_InterruptDifferentialGeneration(handle, LPS22HB_ENABLE))
+ return LPS22HB_ERROR;
+ }
+ else if(pLPS22HBInt->OutputSignal_INT==LPS22HB_P_LOW_HIGH)
+ {
+ /* Enable Interrupt Generation on differential pressure high event*/
+ if(LPS22HB_Set_PHE(handle, LPS22HB_ENABLE))
+ return LPS22HB_ERROR;
+ /* Enable\Disable Interrupt Generation on differential pressure Loe event*/
+ if(LPS22HB_Set_PLE(handle, LPS22HB_ENABLE))
+ return LPS22HB_ERROR;
+ if(LPS22HB_Set_InterruptDifferentialGeneration(handle, LPS22HB_ENABLE))
+ return LPS22HB_ERROR;
+ }
+ else
+ {
+ if(LPS22HB_Set_InterruptDifferentialGeneration(handle, LPS22HB_DISABLE))
+ return LPS22HB_ERROR;
+ /* Disable Interrupt Generation on differential pressure High event*/
+ if(LPS22HB_Set_PHE(handle, LPS22HB_DISABLE))
+ return LPS22HB_ERROR;
+ /* Disable Interrupt Generation on differential pressure Low event*/
+ if(LPS22HB_Set_PLE(handle, LPS22HB_DISABLE))
+ return LPS22HB_ERROR;
+ }
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief LPS22HBGet_InterruptConfig
+* @param *handle Device handle.
+* @param Struct to empty with configuration values
+* @retval S Error code[LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_InterruptConfig(void *handle, LPS22HB_InterruptTypeDef_st* pLPS22HBInt)
+{
+ uint8_t tmp;
+
+ /*Read LPS22HB_CTRL_REG3*/
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG3, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ pLPS22HBInt->INT_H_L= (LPS22HB_InterruptActiveLevel_et)(tmp & LPS22HB_INT_H_L_MASK);
+ pLPS22HBInt->PP_OD=(LPS22HB_OutputType_et)(tmp & LPS22HB_PP_OD_MASK);
+ pLPS22HBInt->OutputSignal_INT=(LPS22HB_OutputSignalConfig_et)(tmp& LPS22HB_INT_S12_MASK);
+ pLPS22HBInt->DRDY=(LPS22HB_State_et)((tmp& LPS22HB_DRDY_MASK)>>LPS22HB_DRDY_BIT);
+ pLPS22HBInt->FIFO_OVR=(LPS22HB_State_et)((tmp& LPS22HB_FIFO_OVR_MASK)>>LPS22HB_FIFO_OVR_BIT);
+ pLPS22HBInt->FIFO_FTH=(LPS22HB_State_et)((tmp& LPS22HB_FIFO_FTH_MASK)>>LPS22HB_FIFO_FTH_BIT);
+ pLPS22HBInt->FIFO_FULL=(LPS22HB_State_et)((tmp& LPS22HB_FIFO_FULL_MASK)>>LPS22HB_FIFO_FULL_BIT);
+
+ /*Read LPS22HB_INTERRUPT_CFG_REG*/
+ if(LPS22HB_read_reg(handle, LPS22HB_INTERRUPT_CFG_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ pLPS22HBInt->LatchIRQ= (LPS22HB_State_et)((tmp& LPS22HB_LIR_MASK)>>LPS22HB_LIR_BIT);
+
+ if(LPS22HB_Get_PressureThreshold(handle, &pLPS22HBInt->THS_threshold))
+ return LPS22HB_ERROR;
+
+ //AutoRifP and Autozero are self clear //
+ pLPS22HBInt->AutoRifP=LPS22HB_DISABLE;
+ pLPS22HBInt->AutoZero=LPS22HB_DISABLE;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Set Fifo configuration
+* @param *handle Device handle.
+* @param Struct holding the configuration values
+* @retval Error code[LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_FifoConfig(void *handle, LPS22HB_FIFOTypeDef_st* pLPS22HBFIFO)
+{
+
+ if(pLPS22HBFIFO->FIFO_MODE == LPS22HB_FIFO_BYPASS_MODE) {
+ /* FIFO Disable-> FIFO_EN bit=0 in CTRL_REG2*/
+ if(LPS22HB_Set_FifoModeUse(handle, LPS22HB_DISABLE))
+ return LPS22HB_ERROR;
+ /* Force->Disable FIFO Watermark Level Use*/
+ if(LPS22HB_Set_FifoWatermarkLevelUse(handle, LPS22HB_DISABLE))
+ return LPS22HB_ERROR;
+
+ /* Force->Disable FIFO Treshold interrupt on INT_DRDY pin. */
+ if(LPS22HB_Set_FIFO_FTH_Interrupt(handle, LPS22HB_DISABLE))
+ return LPS22HB_ERROR;
+ }
+ else {
+ /* FIFO Enable-> FIFO_EN bit=1 in CTRL_REG2*/
+ if(LPS22HB_Set_FifoModeUse(handle, LPS22HB_ENABLE))
+ return LPS22HB_ERROR;
+
+ if (pLPS22HBFIFO->WTM_INT){
+ /* Enable FIFO Watermark Level Use*/
+ if(LPS22HB_Set_FifoWatermarkLevelUse(handle, LPS22HB_ENABLE))
+ return LPS22HB_ERROR;
+ /*Set Fifo Watermark Level*/
+ if(LPS22HB_Set_FifoWatermarkLevel(handle, pLPS22HBFIFO->WTM_LEVEL))
+ return LPS22HB_ERROR;
+ /* Force->enable FIFO Treshold interrupt on INT_DRDY pin. */
+ if(LPS22HB_Set_FIFO_FTH_Interrupt(handle, LPS22HB_ENABLE))
+ return LPS22HB_ERROR;
+ }
+ }
+
+ if(LPS22HB_Set_FifoMode(handle, pLPS22HBFIFO->FIFO_MODE))
+ return LPS22HB_ERROR;
+
+ return LPS22HB_OK;
+}
+
+/**
+* @brief Get Fifo configuration
+* @param *handle Device handle.
+* @param Struct to empty with the configuration values
+* @retval Error code[LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_FifoConfig(void *handle, LPS22HB_FIFOTypeDef_st* pLPS22HBFIFO)
+{
+ uint8_t tmp;
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_FIFO_REG, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ /*!< Fifo Mode Selection */
+ pLPS22HBFIFO->FIFO_MODE= (LPS22HB_FifoMode_et)(tmp& LPS22HB_FIFO_MODE_MASK);
+
+ /*!< FIFO threshold/Watermark level selection*/
+ pLPS22HBFIFO->WTM_LEVEL= (uint8_t)(tmp& LPS22HB_WTM_POINT_MASK);
+
+ if(LPS22HB_read_reg(handle, LPS22HB_CTRL_REG2, 1, &tmp))
+ return LPS22HB_ERROR;
+
+ /*!< Enable/Disable the watermark interrupt*/
+ pLPS22HBFIFO->WTM_INT= (LPS22HB_State_et)((tmp& LPS22HB_WTM_EN_MASK)>>LPS22HB_WTM_EN_BIT);
+
+
+ return LPS22HB_OK;
+}
+
+#ifdef USE_FULL_ASSERT_LPS22HB
+/**
+* @brief Reports the name of the source file and the source line number
+* where the assert_param error has occurred.
+* @param file: pointer to the source file name
+* @param line: assert_param error line source number
+* @retval : None
+*/
+void LPS22HB_assert_failed(uint8_t* file, uint32_t line)
+{
+ /* User can add his own implementation to report the file name and line number */
+ printf("Wrong parameters tmp: file %s on line %d\r\n", file, (int)line);
+
+ /* Infinite loop */
+ while (1)
+ {
+ }
+}
+#endif
+
+/**
+* @}
+*/
+
+/**
+* @}
+*/
+
+/**
+* @}
+*/
+
+/******************* (C) COPYRIGHT 2013 STMicroelectronics *****END OF FILE****/
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Components/LPS22HBSensor/LPS22HB_driver.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,1305 @@
+/**
+ ******************************************************************************
+ * @file LPS22HB_driver.h
+ * @author HESA Application Team
+ * @version V1.1
+ * @date 10-August-2016
+ * @brief LPS22HB driver header file
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+/* Define to prevent recursive inclusion -------------------------------------*/
+#ifndef __LPS22HB_DRIVER__H
+#define __LPS22HB_DRIVER__H
+
+#include <stdint.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+// the user must include the proper file where HAL_read_reg and HAL_write_reg are implemented
+//#include "HAL_EnvSensors.h"
+
+/* Uncomment the line below to expanse the "assert_param" macro in the drivers code */
+//#define USE_FULL_ASSERT_LPS22HB
+
+/* Exported macro ------------------------------------------------------------*/
+#ifdef USE_FULL_ASSERT_LPS22HB
+
+/**
+* @brief The assert_param macro is used for function's parameters check.
+* @param expr: If expr is false, it calls assert_failed function which reports
+* the name of the source file and the source line number of the call
+* that failed. If expr is true, it returns no value.
+* @retval None
+*/
+#define LPS22HB_assert_param(expr) ((expr) ? (void)0 : LPS22HB_assert_failed((uint8_t *)__FILE__, __LINE__))
+/* Exported functions ------------------------------------------------------- */
+void LPS22HB_assert_failed(uint8_t* file, uint32_t line);
+#else
+#define LPS22HB_assert_param(expr) ((void)0)
+#endif /* USE_FULL_ASSERT_LPS22HB */
+
+ /** @addtogroup Environmental_Sensor
+ * @{
+ */
+
+ /** @addtogroup LPS22HB_DRIVER
+ * @{
+ */
+
+ /* Exported Types -------------------------------------------------------------*/
+ /** @defgroup LPS22HB_Exported_Types
+ * @{
+ */
+
+ /**
+ * @brief Error type.
+ */
+ typedef enum {LPS22HB_OK = (uint8_t)0, LPS22HB_ERROR = !LPS22HB_OK} LPS22HB_Error_et;
+
+ /**
+ * @brief Enable/Disable type.
+ */
+ typedef enum {LPS22HB_DISABLE = (uint8_t)0, LPS22HB_ENABLE = !LPS22HB_DISABLE} LPS22HB_State_et;
+#define IS_LPS22HB_State(MODE) ((MODE == LPS22HB_ENABLE) || (MODE == LPS22HB_DISABLE) )
+
+ /**
+ * @brief Bit status type.
+ */
+ typedef enum {LPS22HB_RESET = (uint8_t)0, LPS22HB_SET = !LPS22HB_RESET} LPS22HB_BitStatus_et;
+#define IS_LPS22HB_BitStatus(MODE) ((MODE == LPS22HB_RESET) || (MODE == LPS22HB_SET))
+
+ /*RES_CONF see LC_EN bit*/
+ /**
+* @brief LPS22HB Power/Noise Mode configuration.
+*/
+typedef enum {
+ LPS22HB_LowNoise = (uint8_t)0x00, /*!< Low Noise mode */
+ LPS22HB_LowPower = (uint8_t)0x01 /*!< Low Current mode */
+} LPS22HB_PowerMode_et;
+
+#define IS_LPS22HB_PowerMode(MODE) ((MODE == LPS22HB_LowNoise) || (MODE == LPS22HB_LowPower))
+
+/**
+* @brief Output data rate configuration.
+*/
+typedef enum {
+
+ LPS22HB_ODR_ONE_SHOT = (uint8_t)0x00, /*!< Output Data Rate: one shot */
+ LPS22HB_ODR_1HZ = (uint8_t)0x10, /*!< Output Data Rate: 1Hz */
+ LPS22HB_ODR_10HZ = (uint8_t)0x20, /*!< Output Data Rate: 10Hz */
+ LPS22HB_ODR_25HZ = (uint8_t)0x30, /*!< Output Data Rate: 25Hz */
+ LPS22HB_ODR_50HZ = (uint8_t)0x40, /*!< Output Data Rate: 50Hz */
+ LPS22HB_ODR_75HZ = (uint8_t)0x50 /*!< Output Data Rate: 75Hz */
+} LPS22HB_Odr_et;
+
+#define IS_LPS22HB_ODR(ODR) ((ODR == LPS22HB_ODR_ONE_SHOT) || (ODR == LPS22HB_ODR_1HZ) || \
+(ODR == LPS22HB_ODR_10HZ) || (ODR == LPS22HB_ODR_25HZ)|| (ODR == LPS22HB_ODR_50HZ) || (ODR == LPS22HB_ODR_75HZ))
+
+/**
+* @brief Low Pass Filter Cutoff Configuration.
+*/
+typedef enum {
+
+ LPS22HB_ODR_9 = (uint8_t)0x00, /*!< Filter Cutoff ODR/9 */
+ LPS22HB_ODR_20 = (uint8_t)0x04 /*!< Filter Cutoff ODR/20 */
+} LPS22HB_LPF_Cutoff_et;
+
+#define IS_LPS22HB_LPF_Cutoff(CUTOFF) ((CUTOFF == LPS22HB_ODR_9) || (CUTOFF == LPS22HB_ODR_20) )
+
+/**
+* @brief Block data update.
+*/
+
+typedef enum {
+ LPS22HB_BDU_CONTINUOUS_UPDATE = (uint8_t)0x00, /*!< Data updated continuously */
+ LPS22HB_BDU_NO_UPDATE = (uint8_t)0x02 /*!< Data updated after a read operation */
+} LPS22HB_Bdu_et;
+#define IS_LPS22HB_BDUMode(MODE) ((MODE == LPS22HB_BDU_CONTINUOUS_UPDATE) || (MODE == LPS22HB_BDU_NO_UPDATE))
+
+/**
+* @brief LPS22HB Spi Mode configuration.
+*/
+typedef enum {
+ LPS22HB_SPI_4_WIRE = (uint8_t)0x00,
+ LPS22HB_SPI_3_WIRE = (uint8_t)0x01
+} LPS22HB_SPIMode_et;
+
+#define IS_LPS22HB_SPIMode(MODE) ((MODE == LPS22HB_SPI_4_WIRE) || (MODE == LPS22HB_SPI_3_WIRE))
+
+
+/**
+* @brief LPS22HB Interrupt Active Level Configuration (on High or Low)
+*/
+typedef enum
+{
+ LPS22HB_ActiveHigh = (uint8_t)0x00,
+ LPS22HB_ActiveLow = (uint8_t)0x80
+}LPS22HB_InterruptActiveLevel_et;
+#define IS_LPS22HB_InterruptActiveLevel(MODE) ((MODE == LPS22HB_ActiveHigh) || (MODE == LPS22HB_ActiveLow))
+
+/**
+* @brief LPS22HB Push-pull/Open Drain selection on Interrupt pads.
+*/
+typedef enum
+{
+ LPS22HB_PushPull = (uint8_t)0x00,
+ LPS22HB_OpenDrain = (uint8_t)0x40
+}LPS22HB_OutputType_et;
+#define IS_LPS22HB_OutputType(MODE) ((MODE == LPS22HB_PushPull) || (MODE == LPS22HB_OpenDrain))
+
+
+/**
+* @brief Data Signal on INT pad control bits.
+*/
+typedef enum
+{
+ LPS22HB_DATA = (uint8_t)0x00,
+ LPS22HB_P_HIGH = (uint8_t)0x01,
+ LPS22HB_P_LOW = (uint8_t)0x02,
+ LPS22HB_P_LOW_HIGH = (uint8_t)0x03
+}LPS22HB_OutputSignalConfig_et;
+#define IS_LPS22HB_OutputSignal(MODE) ((MODE == LPS22HB_DATA) || (MODE == LPS22HB_P_HIGH)||\
+(MODE == LPS22HB_P_LOW) || (MODE == LPS22HB_P_LOW_HIGH))
+
+
+
+/**
+* @brief LPS22HB Interrupt Differential Status.
+*/
+
+typedef struct
+{
+ uint8_t PH; /*!< High Differential Pressure event occured */
+ uint8_t PL; /*!< Low Differential Pressure event occured */
+ uint8_t IA; /*!< One or more interrupt events have been generated.Interrupt Active */
+ uint8_t BOOT; /*!< i '1' indicates that the Boot (Reboot) phase is running */
+}LPS22HB_InterruptDiffStatus_st;
+
+
+/**
+* @brief LPS22HB Pressure and Temperature data status.
+*/
+typedef struct
+{
+ uint8_t TempDataAvailable; /*!< Temperature data available bit */
+ uint8_t PressDataAvailable; /*!< Pressure data available bit */
+ uint8_t TempDataOverrun; /*!< Temperature data over-run bit */
+ uint8_t PressDataOverrun; /*!< Pressure data over-run bit */
+}LPS22HB_DataStatus_st;
+
+
+/**
+* @brief LPS22HB Clock Tree configuration.
+*/
+typedef enum {
+ LPS22HB_CTE_NotBalanced = (uint8_t)0x00,
+ LPS22HB_CTE_Balanced = (uint8_t)0x20
+} LPS22HB_CTE_et;
+
+#define IS_LPS22HB_CTE(MODE) ((MODE == LPS22HB_CTE_NotBalanced) || (MODE == LPS22HB_CTE_Balanced))
+
+/**
+* @brief LPS22HB Fifo Mode.
+*/
+
+typedef enum {
+ LPS22HB_FIFO_BYPASS_MODE = (uint8_t)0x00, /*!< The FIFO is disabled and empty. The pressure is read directly*/
+ LPS22HB_FIFO_MODE = (uint8_t)0x20, /*!< Stops collecting data when full */
+ LPS22HB_FIFO_STREAM_MODE = (uint8_t)0x40, /*!< Keep the newest measurements in the FIFO*/
+ LPS22HB_FIFO_TRIGGER_STREAMTOFIFO_MODE = (uint8_t)0x60, /*!< STREAM MODE until trigger deasserted, then change to FIFO MODE*/
+ LPS22HB_FIFO_TRIGGER_BYPASSTOSTREAM_MODE = (uint8_t)0x80, /*!< BYPASS MODE until trigger deasserted, then STREAM MODE*/
+ LPS22HB_FIFO_TRIGGER_BYPASSTOFIFO_MODE = (uint8_t)0xE0 /*!< BYPASS mode until trigger deasserted, then FIFO MODE*/
+} LPS22HB_FifoMode_et;
+
+#define IS_LPS22HB_FifoMode(MODE) ((MODE == LPS22HB_FIFO_BYPASS_MODE) || (MODE ==LPS22HB_FIFO_MODE)||\
+(MODE == LPS22HB_FIFO_STREAM_MODE) || (MODE == LPS22HB_FIFO_TRIGGER_STREAMTOFIFO_MODE)||\
+ (MODE == LPS22HB_FIFO_TRIGGER_BYPASSTOSTREAM_MODE) || (MODE == LPS22HB_FIFO_TRIGGER_BYPASSTOFIFO_MODE))
+
+
+/**
+* @brief LPS22HB Fifo Satus.
+*/
+typedef struct {
+ uint8_t FIFO_LEVEL; /*!< FIFO Stored data level: 00000: FIFO empty; 10000: FIFO is FULL and ha 32 unread samples */
+ uint8_t FIFO_EMPTY; /*!< Empty FIFO Flag .1 FIFO is empty (see FIFO_level) */
+ uint8_t FIFO_FULL; /*!< Full FIFO flag.1 FIFO is Full (see FIFO_level) */
+ uint8_t FIFO_OVR; /*!< Overrun bit status. 1 FIFO is full and at least one sample in the FIFO has been overwritten */
+ uint8_t FIFO_FTH; /*!< FIFO Threshold (Watermark) Status. 1 FIFO filling is equal or higher then FTH (wtm) level.*/
+}LPS22HB_FifoStatus_st;
+
+
+
+/**
+* @brief LPS22HB Configuration structure definition.
+*/
+typedef struct
+{
+ LPS22HB_PowerMode_et PowerMode; /*!< Enable Low Current Mode (low Power) or Low Noise Mode*/
+ LPS22HB_Odr_et OutputDataRate; /*!< Output Data Rate */
+ LPS22HB_Bdu_et BDU; /*!< Enable to inhibit the output registers update between the reading of upper and lower register parts.*/
+ LPS22HB_State_et LowPassFilter; /*!< Enable/ Disable Low Pass Filter */
+ LPS22HB_LPF_Cutoff_et LPF_Cutoff; /*!< Low Pass Filter Configuration */
+ LPS22HB_SPIMode_et Sim; /*!< SPI Serial Interface Mode selection */
+ LPS22HB_State_et IfAddInc; /*!< Enable/Disable Register address automatically inceremented during a multiple byte access */
+}LPS22HB_ConfigTypeDef_st;
+
+
+ /**
+* @brief LPS22HB Interrupt structure definition .
+*/
+typedef struct {
+ LPS22HB_InterruptActiveLevel_et INT_H_L; /*!< Interrupt active high, low. Default value: 0 */
+ LPS22HB_OutputType_et PP_OD; /*!< Push-pull/open drain selection on interrupt pads. Default value: 0 */
+ LPS22HB_OutputSignalConfig_et OutputSignal_INT; /*!< Data signal on INT Pad: Data,Pressure High, Preessure Low,P High or Low*/
+ LPS22HB_State_et DRDY; /*!< Enable/Disable Data Ready Interrupt on INT_DRDY Pin*/
+ LPS22HB_State_et FIFO_OVR; /*!< Enable/Disable FIFO Overrun Interrupt on INT_DRDY Pin*/
+ LPS22HB_State_et FIFO_FTH; /*!< Enable/Disable FIFO threshold (Watermark) interrupt on INT_DRDY pin.*/
+ LPS22HB_State_et FIFO_FULL; /*!< Enable/Disable FIFO FULL interrupt on INT_DRDY pin.*/
+ LPS22HB_State_et LatchIRQ; /*!< Latch Interrupt request in to INT_SOURCE reg*/
+ int16_t THS_threshold; /*!< Threshold value for pressure interrupt generation*/
+ LPS22HB_State_et AutoRifP; /*!< Enable/Disable AutoRifP function */
+ LPS22HB_State_et AutoZero; /*!< Enable/Disable AutoZero function */
+}LPS22HB_InterruptTypeDef_st;
+
+/**
+* @brief LPS22HB FIFO structure definition.
+*/
+typedef struct {
+ LPS22HB_FifoMode_et FIFO_MODE; /*!< Fifo Mode Selection */
+ LPS22HB_State_et WTM_INT; /*!< Enable/Disable the watermark interrupt*/
+ uint8_t WTM_LEVEL; /*!< FIFO threshold/Watermark level selection*/
+}LPS22HB_FIFOTypeDef_st;
+
+#define IS_LPS22HB_WtmLevel(LEVEL) ((LEVEL > 0) && (LEVEL <=31))
+/**
+* @brief LPS22HB Measure Type definition.
+*/
+typedef struct {
+ int16_t Tout;
+ int32_t Pout;
+}LPS22HB_MeasureTypeDef_st;
+
+
+/**
+* @brief LPS22HB Driver Version Info structure definition.
+*/
+typedef struct {
+ uint8_t Major;
+ uint8_t Minor;
+ uint8_t Point;
+}LPS22HB_driverVersion_st;
+
+
+/**
+* @brief Bitfield positioning.
+*/
+#define LPS22HB_BIT(x) ((uint8_t)x)
+
+/**
+* @brief I2C address.
+*/
+/* SD0/SA0(pin 5) is connected to the voltage supply */
+#define LPS22HB_ADDRESS_HIGH 0xBA /**< LPS22HB I2C Address High */
+/* SDO/SA0 (pin5) is connected to the GND */
+#define LPS22HB_ADDRESS_LOW 0xB8 /**< LPS22HB I2C Address Low */
+
+/**
+* @brief Set the LPS22HB driver version.
+*/
+
+#define LPS22HB_driverVersion_Major (uint8_t)1
+#define LPS22HB_driverVersion_Minor (uint8_t)0
+#define LPS22HB_driverVersion_Point (uint8_t)0
+
+/**
+* @}
+*/
+
+
+/* Exported Constants ---------------------------------------------------------*/
+/** @defgroup LPS22HB_Exported_Constants
+* @{
+*/
+
+
+/**
+* @addtogroup LPS22HB_Register
+* @{
+*/
+
+
+
+/**
+* @brief Device Identification register.
+* \code
+* Read
+* Default value: 0xB1
+* 7:0 This read-only register contains the device identifier that, for LPS22HB, is set to B1h.
+* \endcode
+*/
+
+#define LPS22HB_WHO_AM_I_REG (uint8_t)0x0F
+
+/**
+* @brief Device Identification value.
+*/
+#define LPS22HB_WHO_AM_I_VAL (uint8_t)0xB1
+
+
+/**
+* @brief Reference Pressure Register(LSB data)
+* \code
+* Read/write
+* Default value: 0x00
+* 7:0 REFL7-0: Lower part of the reference pressure value that
+* is sum to the sensor output pressure.
+* \endcode
+*/
+#define LPS22HB_REF_P_XL_REG (uint8_t)0x15
+
+
+/**
+* @brief Reference Pressure Register (Middle data)
+* \code
+* Read/write
+* Default value: 0x00
+* 7:0 REFL15-8: Middle part of the reference pressure value that
+* is sum to the sensor output pressure.
+* \endcode
+*/
+#define LPS22HB_REF_P_L_REG (uint8_t)0x16
+
+/**
+* @brief Reference Pressure Register (MSB data)
+* \code
+* Read/write
+* Default value: 0x00
+* 7:0 REFL23-16 Higest part of the reference pressure value that
+* is sum to the sensor output pressure.
+* \endcode
+*/
+#define LPS22HB_REF_P_H_REG (uint8_t)0x17
+
+
+/**
+* @brief Pressure and temperature resolution mode Register
+* \code
+* Read/write
+* Default value: 0x05
+* 7:2 These bits must be set to 0 for proper operation of the device
+* 1: Reserved
+* 0 LC_EN: Low Current Mode Enable. Default 0
+* \endcode
+*/
+#define LPS22HB_RES_CONF_REG (uint8_t)0x1A
+
+#define LPS22HB_LCEN_MASK (uint8_t)0x01
+
+/**
+* @brief Control Register 1
+* \code
+* Read/write
+* Default value: 0x00
+* 7: This bit must be set to 0 for proper operation of the device
+* 6:4 ODR2, ODR1, ODR0: output data rate selection.Default 000
+* ODR2 | ODR1 | ODR0 | Pressure output data-rate(Hz) | Pressure output data-rate(Hz)
+* ----------------------------------------------------------------------------------
+* 0 | 0 | 0 | one shot | one shot
+* 0 | 0 | 1 | 1 | 1
+* 0 | 1 | 0 | 10 | 10
+* 0 | 1 | 1 | 25 | 25
+* 1 | 0 | 0 | 50 | 50
+* 1 | 0 | 1 | 75 | 75
+* 1 | 1 | 0 | Reserved | Reserved
+* 1 | 1 | 1 | Reserved | Reserved
+*
+* 3 EN_LPFP: Enable Low Pass filter on Pressure data. Default value:0
+* 2:LPF_CFG Low-pass configuration register. (0: Filter cutoff is ODR/9; 1: filter cutoff is ODR/20)
+* 1 BDU: block data update. 0 - continuous update; 1 - output registers not updated until MSB and LSB reading.
+* 0 SIM: SPI Serial Interface Mode selection. 0 - SPI 4-wire; 1 - SPI 3-wire
+* \endcode
+*/
+#define LPS22HB_CTRL_REG1 (uint8_t)0x10
+
+#define LPS22HB_ODR_MASK (uint8_t)0x70
+#define LPS22HB_LPFP_MASK (uint8_t)0x08
+#define LPS22HB_LPFP_CUTOFF_MASK (uint8_t)0x04
+#define LPS22HB_BDU_MASK (uint8_t)0x02
+#define LPS22HB_SIM_MASK (uint8_t)0x01
+
+#define LPS22HB_LPFP_BIT LPS22HB_BIT(3)
+
+
+/**
+* @brief Control Register 2
+* \code
+* Read/write
+* Default value: 0x10
+* 7 BOOT: Reboot memory content. 0: normal mode; 1: reboot memory content. Self-clearing upon completation
+* 6 FIFO_EN: FIFO Enable. 0: disable; 1: enable
+* 5 STOP_ON_FTH: Stop on FIFO Threshold FIFO Watermark level use. 0: disable; 1: enable
+* 4 IF_ADD_INC: Register address automatically incrementeed during a multiple byte access with a serial interface (I2C or SPI). Default value 1.( 0: disable; 1: enable)
+* 3 I2C DIS: Disable I2C interface 0: I2C Enabled; 1: I2C disabled
+* 2 SWRESET: Software reset. 0: normal mode; 1: SW reset. Self-clearing upon completation
+* 1 AUTO_ZERO: Autozero enable. 0: normal mode; 1: autozero enable.
+* 0 ONE_SHOT: One shot enable. 0: waiting for start of conversion; 1: start for a new dataset
+* \endcode
+*/
+#define LPS22HB_CTRL_REG2 (uint8_t)0x11
+
+#define LPS22HB_BOOT_BIT LPS22HB_BIT(7)
+#define LPS22HB_FIFO_EN_BIT LPS22HB_BIT(6)
+#define LPS22HB_WTM_EN_BIT LPS22HB_BIT(5)
+#define LPS22HB_ADD_INC_BIT LPS22HB_BIT(4)
+#define LPS22HB_I2C_BIT LPS22HB_BIT(3)
+#define LPS22HB_SW_RESET_BIT LPS22HB_BIT(2)
+
+#define LPS22HB_FIFO_EN_MASK (uint8_t)0x40
+#define LPS22HB_WTM_EN_MASK (uint8_t)0x20
+#define LPS22HB_ADD_INC_MASK (uint8_t)0x10
+#define LPS22HB_I2C_MASK (uint8_t)0x08
+#define LPS22HB_ONE_SHOT_MASK (uint8_t)0x01
+
+
+/**
+* @brief CTRL Reg3 Interrupt Control Register
+* \code
+* Read/write
+* Default value: 0x00
+* 7 INT_H_L: Interrupt active high, low. 0:active high; 1: active low.
+* 6 PP_OD: Push-Pull/OpenDrain selection on interrupt pads. 0: Push-pull; 1: open drain.
+* 5 F_FSS5: FIFO full flag on INT_DRDY pin. Defaul value: 0. (0: Diasable; 1 : Enable).
+* 4 F_FTH: FIFO threshold (watermark) status on INT_DRDY pin. Defaul value: 0. (0: Diasable; 1 : Enable).
+* 3 F_OVR: FIFO overrun interrupt on INT_DRDY pin. Defaul value: 0. (0: Diasable; 1 : Enable).
+* 2 DRDY: Data-ready signal on INT_DRDY pin. Defaul value: 0. (0: Diasable; 1 : Enable).
+* 1:0 INT_S2, INT_S1: data signal on INT pad control bits.
+* INT_S2 | INT_S1 | INT pin
+* ------------------------------------------------------
+* 0 | 0 | Data signal( in order of priority:PTH_DRDY or F_FTH or F_OVR_or F_FSS5
+* 0 | 1 | Pressure high (P_high)
+* 1 | 0 | Pressure low (P_low)
+* 1 | 1 | P_low OR P_high
+* \endcode
+*/
+#define LPS22HB_CTRL_REG3 (uint8_t)0x12
+
+#define LPS22HB_PP_OD_BIT LPS22HB_BIT(6)
+#define LPS22HB_FIFO_FULL_BIT LPS22HB_BIT(5)
+#define LPS22HB_FIFO_FTH_BIT LPS22HB_BIT(4)
+#define LPS22HB_FIFO_OVR_BIT LPS22HB_BIT(3)
+#define LPS22HB_DRDY_BIT LPS22HB_BIT(2)
+
+
+#define LPS22HB_INT_H_L_MASK (uint8_t)0x80
+#define LPS22HB_PP_OD_MASK (uint8_t)0x40
+#define LPS22HB_FIFO_FULL_MASK (uint8_t)0x20
+#define LPS22HB_FIFO_FTH_MASK (uint8_t)0x10
+#define LPS22HB_FIFO_OVR_MASK (uint8_t)0x08
+#define LPS22HB_DRDY_MASK (uint8_t)0x04
+#define LPS22HB_INT_S12_MASK (uint8_t)0x03
+
+
+/**
+* @brief Interrupt Differential configuration Register
+* \code
+* Read/write
+* Default value: 0x00.
+* 7 AUTORIFP: AutoRifP Enable ??
+* 6 RESET_ARP: Reset AutoRifP function
+* 4 AUTOZERO: Autozero enabled
+* 5 RESET_AZ: Reset Autozero Function
+* 3 DIFF_EN: Interrupt generation enable
+* 2 LIR: Latch Interrupt request into INT_SOURCE register. 0 - interrupt request not latched; 1 - interrupt request latched
+* 1 PL_E: Enable interrupt generation on differential pressure low event. 0 - disable; 1 - enable
+* 0 PH_E: Enable interrupt generation on differential pressure high event. 0 - disable; 1 - enable
+* \endcode
+*/
+#define LPS22HB_INTERRUPT_CFG_REG (uint8_t)0x0B
+
+#define LPS22HB_DIFF_EN_BIT LPS22HB_BIT(3)
+#define LPS22HB_LIR_BIT LPS22HB_BIT(2)
+#define LPS22HB_PLE_BIT LPS22HB_BIT(1)
+#define LPS22HB_PHE_BIT LPS22HB_BIT(0)
+
+#define LPS22HB_AUTORIFP_MASK (uint8_t)0x80
+#define LPS22HB_RESET_ARP_MASK (uint8_t)0x40
+#define LPS22HB_AUTOZERO_MASK (uint8_t)0x20
+#define LPS22HB_RESET_AZ_MASK (uint8_t)0x10
+#define LPS22HB_DIFF_EN_MASK (uint8_t)0x08
+#define LPS22HB_LIR_MASK (uint8_t)0x04
+#define LPS22HB_PLE_MASK (uint8_t)0x02
+#define LPS22HB_PHE_MASK (uint8_t)0x01
+
+
+
+/**
+* @brief Interrupt source Register (It is cleared by reading it)
+* \code
+* Read
+* Default value: ----.
+* 7 BOOT_STATUS: If 1 indicates that the Boot (Reboot) phase is running.
+* 6:3 Reserved: Keep these bits at 0
+* 2 IA: Interrupt Active.0: no interrupt has been generated; 1: one or more interrupt events have been generated.
+* 1 PL: Differential pressure Low. 0: no interrupt has been generated; 1: Low differential pressure event has occurred.
+* 0 PH: Differential pressure High. 0: no interrupt has been generated; 1: High differential pressure event has occurred.
+* \endcode
+*/
+#define LPS22HB_INTERRUPT_SOURCE_REG (uint8_t)0x25
+
+#define LPS22HB_BOOT_STATUS_BIT LPS22HB_BIT(7)
+#define LPS22HB_IA_BIT LPS22HB_BIT(2)
+#define LPS22HB_PL_BIT LPS22HB_BIT(1)
+#define LPS22HB_PH_BIT LPS22HB_BIT(0)
+
+#define LPS22HB_BOOT_STATUS_MASK (uint8_t)0x80
+#define LPS22HB_IA_MASK (uint8_t)0x04
+#define LPS22HB_PL_MASK (uint8_t)0x02
+#define LPS22HB_PH_MASK (uint8_t)0x01
+
+
+/**
+* @brief Status Register
+* \code
+* Read
+* Default value: ---
+* 7:6 Reserved: 0
+* 5 T_OR: Temperature data overrun. 0: no overrun has occurred; 1: a new data for temperature has overwritten the previous one.
+* 4 P_OR: Pressure data overrun. 0: no overrun has occurred; 1: new data for pressure has overwritten the previous one.
+* 3:2 Reserved: 0
+* 1 T_DA: Temperature data available. 0: new data for temperature is not yet available; 1: new data for temperature is available.
+* 0 P_DA: Pressure data available. 0: new data for pressure is not yet available; 1: new data for pressure is available.
+* \endcode
+*/
+#define LPS22HB_STATUS_REG (uint8_t)0x27
+
+#define LPS22HB_TOR_BIT LPS22HB_BIT(5)
+#define LPS22HB_POR_BIT LPS22HB_BIT(4)
+#define LPS22HB_TDA_BIT LPS22HB_BIT(1)
+#define LPS22HB_PDA_BIT LPS22HB_BIT(0)
+
+#define LPS22HB_TOR_MASK (uint8_t)0x20
+#define LPS22HB_POR_MASK (uint8_t)0x10
+#define LPS22HB_TDA_MASK (uint8_t)0x02
+#define LPS22HB_PDA_MASK (uint8_t)0x01
+
+
+
+/**
+* @brief Pressure data (LSB) register.
+* \code
+* Read
+* Default value: 0x00.(To be verified)
+* POUT7 - POUT0: Pressure data LSB (2's complement).
+* Pressure output data: Pout(hPA)=(PRESS_OUT_H & PRESS_OUT_L &
+* PRESS_OUT_XL)[dec]/4096.
+* \endcode
+*/
+
+#define LPS22HB_PRESS_OUT_XL_REG (uint8_t)0x28
+/**
+* @brief Pressure data (Middle part) register.
+* \code
+* Read
+* Default value: 0x80.
+* POUT15 - POUT8: Pressure data middle part (2's complement).
+* Pressure output data: Pout(hPA)=(PRESS_OUT_H & PRESS_OUT_L &
+* PRESS_OUT_XL)[dec]/4096.
+* \endcode
+*/
+#define LPS22HB_PRESS_OUT_L_REG (uint8_t)0x29
+
+/**
+* @brief Pressure data (MSB) register.
+* \code
+* Read
+* Default value: 0x2F.
+* POUT23 - POUT16: Pressure data MSB (2's complement).
+* Pressure output data: Pout(hPA)=(PRESS_OUT_H & PRESS_OUT_L &
+* PRESS_OUT_XL)[dec]/4096.
+* \endcode
+*/
+#define LPS22HB_PRESS_OUT_H_REG (uint8_t)0x2A
+
+/**
+* @brief Temperature data (LSB) register.
+* \code
+* Read
+* Default value: 0x00.
+* TOUT7 - TOUT0: temperature data LSB.
+* Tout(degC)=TEMP_OUT/100
+* \endcode
+*/
+#define LPS22HB_TEMP_OUT_L_REG (uint8_t)0x2B
+
+/**
+* @brief Temperature data (MSB) register.
+* \code
+* Read
+* Default value: 0x00.
+* TOUT15 - TOUT8: temperature data MSB.
+* Tout(degC)=TEMP_OUT/100
+* \endcode
+*/
+#define LPS22HBH_TEMP_OUT_H_REG (uint8_t)0x2C
+
+/**
+* @brief Threshold pressure (LSB) register.
+* \code
+* Read/write
+* Default value: 0x00.
+* 7:0 THS7-THS0: LSB Threshold pressure Low part of threshold value for pressure interrupt
+* generation. The complete threshold value is given by THS_P_H & THS_P_L and is
+* expressed as unsigned number. P_ths(hPA)=(THS_P_H & THS_P_L)[dec]/16.
+* \endcode
+*/
+#define LPS22HB_THS_P_LOW_REG (uint8_t)0x0C
+
+/**
+* @brief Threshold pressure (MSB)
+* \code
+* Read/write
+* Default value: 0x00.
+* 7:0 THS15-THS8: MSB Threshold pressure. High part of threshold value for pressure interrupt
+* generation. The complete threshold value is given by THS_P_H & THS_P_L and is
+* expressed as unsigned number. P_ths(mbar)=(THS_P_H & THS_P_L)[dec]/16.
+* \endcode
+*/
+#define LPS22HB_THS_P_HIGH_REG (uint8_t)0x0D
+
+/**
+* @brief FIFO control register
+* \code
+* Read/write
+* Default value: 0x00
+* 7:5 F_MODE2, F_MODE1, F_MODE0: FIFO mode selection.
+* FM2 | FM1 | FM0 | FIFO MODE
+* ---------------------------------------------------
+* 0 | 0 | 0 | BYPASS MODE
+* 0 | 0 | 1 | FIFO MODE. Stops collecting data when full
+* 0 | 1 | 0 | STREAM MODE: Keep the newest measurements in the FIFO
+* 0 | 1 | 1 | STREAM MODE until trigger deasserted, then change to FIFO MODE
+* 1 | 0 | 0 | BYPASS MODE until trigger deasserted, then STREAM MODE
+* 1 | 0 | 1 | Reserved for future use
+* 1 | 1 | 0 | Reserved
+* 1 | 1 | 1 | BYPASS mode until trigger deasserted, then FIFO MODE
+*
+* 4:0 WTM_POINT4-0 : FIFO Watermark level selection (0-31)
+*/
+#define LPS22HB_CTRL_FIFO_REG (uint8_t)0x14
+
+#define LPS22HB_FIFO_MODE_MASK (uint8_t)0xE0
+#define LPS22HB_WTM_POINT_MASK (uint8_t)0x1F
+
+
+/**
+* @brief FIFO Status register
+* \code
+* Read
+* Default value: ----
+* 7 FTH_FIFO: FIFO threshold status. 0:FIFO filling is lower than FTH level; 1: FIFO is equal or higher than FTH level.
+* 6 OVR: Overrun bit status. 0 - FIFO not full; 1 -FIFO is full and at least one sample in the FIFO has been overwritten.
+* 5:0 FSS: FIFO Stored data level. 000000: FIFO empty, 100000: FIFO is full and has 32 unread samples.
+* \endcode
+*/
+#define LPS22HB_STATUS_FIFO_REG (uint8_t)0x26
+
+#define LPS22HB_FTH_FIFO_BIT LPS22HB_BIT(7)
+#define LPS22HB_OVR_FIFO_BIT LPS22HB_BIT(6)
+
+#define LPS22HB_FTH_FIFO_MASK (uint8_t)0x80
+#define LPS22HB_OVR_FIFO_MASK (uint8_t)0x40
+#define LPS22HB_LEVEL_FIFO_MASK (uint8_t)0x3F
+#define LPS22HB_FIFO_EMPTY (uint8_t)0x00
+#define LPS22HB_FIFO_FULL (uint8_t)0x20
+
+
+
+/**
+* @brief Pressure offset register (LSB)
+* \code
+* Read/write
+* Default value: 0x00
+* 7:0 RPDS7-0:Pressure Offset for 1 point calibration (OPC) after soldering.
+* This register contains the low part of the pressure offset value after soldering,for
+* differential pressure computing. The complete value is given by RPDS_L & RPDS_H
+* and is expressed as signed 2 complement value.
+* \endcode
+*/
+#define LPS22HB_RPDS_L_REG (uint8_t)0x18
+
+/**
+* @brief Pressure offset register (MSB)
+* \code
+* Read/write
+* Default value: 0x00
+* 7:0 RPDS15-8:Pressure Offset for 1 point calibration (OPC) after soldering.
+* This register contains the high part of the pressure offset value after soldering (see description RPDS_L)
+* \endcode
+*/
+#define LPS22HB_RPDS_H_REG (uint8_t)0x19
+
+
+/**
+* @brief Clock Tree Configuration register
+* \code
+* Read/write
+* Default value: 0x00
+* 7:6 Reserved.
+* 5: CTE: Clock Tree Enhancement
+* \endcode
+*/
+
+#define LPS22HB_CLOCK_TREE_CONFIGURATION (uint8_t)0x43
+
+#define LPS22HB_CTE_MASK (uint8_t)0x20
+
+/**
+* @}
+*/
+
+
+/**
+* @}
+*/
+
+
+/* Exported Functions -------------------------------------------------------------*/
+/** @defgroup LPS22HB_Exported_Functions
+* @{
+*/
+
+LPS22HB_Error_et LPS22HB_read_reg( void *handle, uint8_t RegAddr, uint16_t NumByteToRead, uint8_t *Data );
+LPS22HB_Error_et LPS22HB_write_reg( void *handle, uint8_t RegAddr, uint16_t NumByteToWrite, uint8_t *Data );
+
+/**
+* @brief Init the HAL layer.
+* @param None
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+#define LPS22HB_HalInit (LPS22HB_Error_et)HAL_Init_I2C
+
+/**
+* @brief DeInit the HAL layer.
+* @param None
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+#define LPS22HB_HalDeInit (LPS22HB_Error_et)HAL_DeInit_I2C
+
+
+/**
+* @brief Get the LPS22HB driver version.
+* @param None
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_DriverVersion(LPS22HB_driverVersion_st *Version);
+
+/**
+* @brief Initialization function for LPS22HB.
+* This function make a memory boot.
+* Init the sensor with a standard basic confifuration.
+* Low Power, ODR 25 Hz, Low Pass Filter disabled; BDU enabled; I2C enabled;
+* NO FIFO; NO Interrupt Enabled.
+* @param None.
+* @retval Error code[LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Init(void *handle);
+
+/**
+* @brief DeInit the LPS2Hb driver.
+* @param None
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+
+LPS22HB_Error_et LPS22HB_DeInit(void *handle);
+
+
+/**
+* @brief Read identification code by WHO_AM_I register
+* @param Buffer to empty by Device identification Value.
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_DeviceID(void *handle, uint8_t* deviceid);
+
+
+/**
+* @brief Set LPS22HB Low Power or Low Noise Mode Configuration
+* @param LPS22HB_LowNoise or LPS22HB_LowPower mode
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_PowerMode(void *handle, LPS22HB_PowerMode_et mode);
+
+/**
+* @brief Get LPS22HB Power Mode
+* @param Buffer to empty with Mode: Low Noise or Low Current
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_PowerMode(void *handle, LPS22HB_PowerMode_et* mode);
+
+
+/**
+* @brief Set LPS22HB Output Data Rate
+* @param Output Data Rate
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_Odr(void *handle, LPS22HB_Odr_et odr);
+
+
+/**
+* @brief Get LPS22HB Output Data Rate
+* @param Buffer to empty with Output Data Rate
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_Odr(void *handle, LPS22HB_Odr_et* odr);
+
+/**
+* @brief Enable/Disale low-pass filter on LPS22HB pressure data
+* @param state: enable or disable
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_LowPassFilter(void *handle, LPS22HB_State_et state);
+
+
+/**
+* @brief Set low-pass filter cutoff configuration on LPS22HB pressure data
+* @param Filter Cutoff ODR/9 or ODR/20
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_LowPassFilterCutoff(void *handle, LPS22HB_LPF_Cutoff_et cutoff);
+
+/**
+* @brief Set Block Data Update mode
+* @param LPS22HB_BDU_CONTINUOS_UPDATE/ LPS22HB_BDU_NO_UPDATE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_Bdu(void *handle, LPS22HB_Bdu_et bdu);
+
+
+/**
+* @brief Get Block Data Update mode
+* @param Buffer to empty whit the bdu mode read from sensor
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_Bdu(void *handle, LPS22HB_Bdu_et* bdu);
+
+/**
+* @brief Set SPI mode: 3 Wire Interface OR 4 Wire Interface
+* @param LPS22HB_SPI_4_WIRE/LPS22HB_SPI_3_WIRE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_SpiInterface(void *handle, LPS22HB_SPIMode_et spimode);
+
+/**
+* @brief Get SPI mode: 3 Wire Interface OR 4 Wire Interface
+* @param buffer to empty with SPI mode
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_SpiInterface(void *handle, LPS22HB_SPIMode_et* spimode);
+
+/**
+* @brief Software Reset
+* @param void
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_SwReset(void *handle);
+
+/**
+* @brief Reboot Memory Content.
+* @param void
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_MemoryBoot(void *handle);
+
+/**
+* @brief Software Reset ann BOOT
+* @param void
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_SwResetAndMemoryBoot(void *handle);
+
+
+/**
+* @brief Enable or Disable FIFO
+* @param LPS22HB_ENABLE/LPS22HB_DISABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_FifoModeUse(void *handle, LPS22HB_State_et status);
+
+/**
+* @brief Enable or Disable FIFO Watermark level use. Stop on FIFO Threshold
+* @param LPS22HB_ENABLE/LPS22HB_DISABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_FifoWatermarkLevelUse(void *handle, LPS22HB_State_et status);
+
+/**
+* @brief Enable or Disable the Automatic increment register address during a multiple byte access with a serial interface (I2C or SPI)
+* @param LPS22HB_ENABLE/LPS22HB_DISABLE. Default is LPS22HB_ENABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_AutomaticIncrementRegAddress(void *handle, LPS22HB_State_et status);
+
+
+/**
+* @brief Set One Shot bit to start a new conversion (ODR mode has to be 000)
+* @param void
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_StartOneShotMeasurement(void *handle);
+
+/**
+* @brief Enable/Disable I2C
+* @param State. Enable (reset bit)/ Disable (set bit)
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_I2C(void *handle, LPS22HB_State_et i2cstate);
+
+
+/*CTRL_REG3 Interrupt Control*/
+/**
+* @brief Set Interrupt Active on High or Low Level
+* @param LPS22HB_ActiveHigh/LPS22HB_ActiveLow
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_InterruptActiveLevel(void *handle, LPS22HB_InterruptActiveLevel_et mode);
+
+/**
+* @brief Set Push-pull/open drain selection on interrupt pads.
+* @param LPS22HB_PushPull/LPS22HB_OpenDrain
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_InterruptOutputType(void *handle, LPS22HB_OutputType_et output);
+
+/**
+* @brief Set Data signal on INT1 pad control bits.
+* @param LPS22HB_DATA,LPS22HB_P_HIGH_LPS22HB_P_LOW,LPS22HB_P_LOW_HIGH
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_InterruptControlConfig(void *handle, LPS22HB_OutputSignalConfig_et config);
+
+
+/**
+* @brief Enable/Disable Data-ready signal on INT_DRDY pin.
+* @param LPS22HB_ENABLE/LPS22HB_DISABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_DRDYInterrupt(void *handle, LPS22HB_State_et status);
+
+ /**
+* @brief Enable/Disable FIFO overrun interrupt on INT_DRDY pin.
+* @param LPS22HB_ENABLE/LPS22HB_DISABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_FIFO_OVR_Interrupt(void *handle, LPS22HB_State_et status);
+
+ /**
+* @brief Enable/Disable FIFO threshold (Watermark) interrupt on INT_DRDY pin.
+* @param LPS22HB_ENABLE/LPS22HB_DISABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_FIFO_FTH_Interrupt(void *handle, LPS22HB_State_et status);
+
+/**
+* @brief Enable/Disable FIFO FULL interrupt on INT_DRDY pin.
+* @param LPS22HB_ENABLE/LPS22HB_DISABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_FIFO_FULL_Interrupt(void *handle, LPS22HB_State_et status);
+
+/**
+* @brief Enable AutoRifP function
+* @param none
+* @detail When this function is enabled, an internal register is set with the current pressure values
+* and the content is subtracted from the pressure output value and result is used for the interrupt generation.
+* the AutoRifP is slf creared.
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_AutoRifP(void *handle);
+
+/**
+* @brief Disable AutoRifP
+* @param none
+* @detail the RESET_ARP bit is used to disable the AUTORIFP function. This bis i is selfdleared
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_ResetAutoRifP(void *handle);
+
+/**?????
+* @brief Set AutoZero Function bit
+* @detail When set to ‘1’, the actual pressure output is copied in the REF_P reg (@0x15..0x17)
+* @param None
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_AutoZeroFunction(void *handle);
+
+/**???
+* @brief Set ResetAutoZero Function bit
+* @details REF_P reg (@0x015..17) set pressure reference to default value RPDS reg (0x18/19).
+* @param None
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_ResetAutoZeroFunction(void *handle);
+
+
+/**
+* @brief Enable/ Disable the computing of differential pressure output (Interrupt Generation)
+* @param LPS22HB_ENABLE,LPS22HB_DISABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_InterruptDifferentialGeneration(void *handle, LPS22HB_State_et diff_en) ;
+
+
+
+/**
+* @brief Get the DIFF_EN bit value
+* @param buffer to empty with the read value of DIFF_EN bit
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_InterruptDifferentialGeneration(void *handle, LPS22HB_State_et* diff_en);
+
+
+/**
+* @brief Latch Interrupt request to the INT_SOURCE register.
+* @param LPS22HB_ENABLE/LPS22HB_DISABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_LatchInterruptRequest(void *handle, LPS22HB_State_et status);
+
+/**
+* @brief Enable\Disable Interrupt Generation on differential pressure Low event
+* @param LPS22HB_ENABLE/LPS22HB_DISABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_PLE(void *handle, LPS22HB_State_et status);
+
+/**
+* @brief Enable\Disable Interrupt Generation on differential pressure High event
+* @param LPS22HB_ENABLE/LPS22HB_DISABLE
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_PHE(void *handle, LPS22HB_State_et status);
+
+/**
+* @brief Get the Interrupt Generation on differential pressure status event and the Boot Status.
+* @detail The INT_SOURCE register is cleared by reading it.
+* @param Status Event Flag: BOOT, PH,PL,IA
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_InterruptDifferentialEventStatus(void *handle, LPS22HB_InterruptDiffStatus_st* interruptsource);
+
+
+/**
+* @brief Get the status of Pressure and Temperature data
+* @param Data Status Flag: TempDataAvailable, TempDataOverrun, PressDataAvailable, PressDataOverrun
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_DataStatus(void *handle, LPS22HB_DataStatus_st* datastatus);
+
+
+/**
+* @brief Get the LPS22HB raw presure value
+* @param The buffer to empty with the pressure raw value
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_RawPressure(void *handle, int32_t *raw_press);
+
+/**
+* @brief Get the LPS22HB Pressure value in hPA.
+* @param The buffer to empty with the pressure value that must be divided by 100 to get the value in hPA
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_Pressure(void *handle, int32_t* Pout);
+
+/**
+* @brief Read LPS22HB output register, and calculate the raw temperature.
+* @param The buffer to empty with the temperature raw value
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_RawTemperature(void *handle, int16_t *raw_data);
+
+/**
+* @brief Read the Temperature value in °C.
+* @param The buffer to empty with the temperature value that must be divided by 10 to get the value in ['C]
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_Temperature(void *handle, int16_t* Tout);
+
+/**
+* @brief Get the threshold value used for pressure interrupt generation.
+* @param The buffer to empty with the temperature value
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_PressureThreshold(void *handle, int16_t *P_ths);
+
+/**
+* @brief Set the threshold value used for pressure interrupt generation.
+* @param The buffer to empty with the temperature value
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_PressureThreshold(void *handle, int16_t P_ths);
+
+/**
+* @brief Set Fifo Mode.
+* @param Fifo Mode struct
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_FifoMode(void *handle, LPS22HB_FifoMode_et fifomode);
+/**
+* @brief Get Fifo Mode.
+* @param Buffer to empty with fifo mode value
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_FifoMode(void *handle, LPS22HB_FifoMode_et* fifomode);
+
+/**
+* @brief Set Fifo Watermark Level.
+* @param Watermark level value [0 31]
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_FifoWatermarkLevel(void *handle, uint8_t wtmlevel);
+
+/**
+* @brief Get FIFO Watermark Level
+* @param buffer to empty with watermak level[0,31] value read from sensor
+* @retval Status [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_FifoWatermarkLevel(void *handle, uint8_t *wtmlevel);
+
+
+/**
+* @brief Get Fifo Status.
+* @param Buffer to empty with fifo status
+* @retval Status [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_FifoStatus(void *handle, LPS22HB_FifoStatus_st* status);
+
+
+/**
+* @brief Get the reference pressure after soldering for computing differential pressure (hPA)
+* @param buffer to empty with the he pressure value (hPA)
+* @retval Status [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_PressureOffsetValue(void *handle, int16_t *pressoffset);
+
+/**
+* @brief Get the Reference Pressure value
+* @detail It is a 24-bit data added to the sensor output measurement to detect a measured pressure beyond programmed limits.
+* @param Buffer to empty with reference pressure value
+* @retval Status [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_ReferencePressure(void *handle, int32_t* RefP);
+
+
+/**
+* @brief Check if the single measurement has completed.
+* @param the returned value is set to 1, when the measurement is completed
+* @retval Status [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_IsMeasurementCompleted(void *handle, uint8_t* Is_Measurement_Completed);
+
+
+/**
+* @brief Get the values of the last single measurement.
+* @param Pressure and temperature value
+* @retvalStatus [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_Measurement(void *handle, LPS22HB_MeasureTypeDef_st *Measurement_Value);
+
+
+/**
+* @brief Set Generic Configuration
+* @param Struct to empty with the chosen values
+* @retval Error code[LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_GenericConfig(void *handle, LPS22HB_ConfigTypeDef_st* pxLPS22HBInit);
+
+/**
+* @brief Get Generic configuration
+* @param Struct to empty with configuration values
+* @retval Error code[LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_GenericConfig(void *handle, LPS22HB_ConfigTypeDef_st* pxLPS22HBInit);
+
+/**
+* @brief Set Interrupt configuration
+* @param Struct holding the configuration values
+* @retval Error code[LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_InterruptConfig(void *handle, LPS22HB_InterruptTypeDef_st* pLPS22HBInt);
+
+/**
+* @brief LPS22HBGet_InterruptConfig
+* @param Struct to empty with configuration values
+* @retval S Error code[LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_InterruptConfig(void *handle, LPS22HB_InterruptTypeDef_st* pLPS22HBInt);
+
+/**
+* @brief Set Fifo configuration
+* @param Struct holding the configuration values
+* @retval Error code[LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_FifoConfig(void *handle, LPS22HB_FIFOTypeDef_st* pLPS22HBFIFO);
+
+/**
+* @brief Get Fifo configuration
+* @param Struct to empty with the configuration values
+* @retval Error code[LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Get_FifoConfig(void *handle, LPS22HB_FIFOTypeDef_st* pLPS22HBFIFO);
+
+/**
+* @brief Clock Tree Confoguration
+* @param LPS22HB_CTE_NotBalanced, LPS22HB_CTE_ABalanced
+* @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
+*/
+LPS22HB_Error_et LPS22HB_Set_ClockTreeConfifuration(void *handle, LPS22HB_CTE_et mode);
+
+/**
+* @}
+*/
+
+/**
+* @}
+*/
+
+/**
+* @}
+*/
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __LPS22HB_DRIVER__H */
+
+/******************* (C) COPYRIGHT 2013 STMicroelectronics *****END OF FILE****/
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Components/LSM303AGRSensor/LSM303AGRAccSensor.cpp Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,639 @@
+/**
+ ******************************************************************************
+ * @file LSM303AGRAccSensor.cpp
+ * @author CLab
+ * @version V1.0.0
+ * @date 5 August 2016
+ * @brief Implementation an LSM303AGR accelerometer sensor.
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include "DevI2C.h"
+#include "LSM303AGRAccSensor.h"
+#include "LSM303AGR_acc_driver.h"
+
+
+/* Class Implementation ------------------------------------------------------*/
+
+/** Constructor
+ * @param i2c object of an helper class which handles the I2C peripheral
+ * @param address the address of the component's instance
+ */
+LSM303AGRAccSensor::LSM303AGRAccSensor(DevI2C &i2c) : _dev_i2c(i2c)
+{
+ _address = LSM303AGR_ACC_I2C_ADDRESS;
+};
+
+/** Constructor
+ * @param i2c object of an helper class which handles the I2C peripheral
+ * @param address the address of the component's instance
+ */
+LSM303AGRAccSensor::LSM303AGRAccSensor(DevI2C &i2c, uint8_t address) : _dev_i2c(i2c), _address(address)
+{
+
+};
+
+/**
+ * @brief Initializing the component.
+ * @param[in] init pointer to device specific initalization structure.
+ * @retval "0" in case of success, an error code otherwise.
+ */
+int LSM303AGRAccSensor::init(void *init)
+{
+ /* Enable BDU */
+ if ( LSM303AGR_ACC_W_BlockDataUpdate( (void *)this, LSM303AGR_ACC_BDU_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* FIFO mode selection */
+ if ( LSM303AGR_ACC_W_FifoMode( (void *)this, LSM303AGR_ACC_FM_BYPASS ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Output data rate selection - power down. */
+ if ( LSM303AGR_ACC_W_ODR( (void *)this, LSM303AGR_ACC_ODR_DO_PWR_DOWN ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Full scale selection. */
+ if ( set_x_fs( 2.0f ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Enable axes. */
+ if ( LSM303AGR_ACC_W_XEN( (void *)this, LSM303AGR_ACC_XEN_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ if ( LSM303AGR_ACC_W_YEN ( (void *)this, LSM303AGR_ACC_YEN_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ if ( LSM303AGR_ACC_W_ZEN ( (void *)this, LSM303AGR_ACC_ZEN_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Select default output data rate. */
+ _last_odr = 100.0f;
+
+ _is_enabled = 0;
+
+ return 0;
+}
+
+/**
+ * @brief Enable LSM303AGR Accelerator
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRAccSensor::enable(void)
+{
+ /* Check if the component is already enabled */
+ if ( _is_enabled == 1 )
+ {
+ return 0;
+ }
+
+ /* Output data rate selection. */
+ if ( set_x_odr_when_enabled( _last_odr ) == 1 )
+ {
+ return 1;
+ }
+
+ _is_enabled = 1;
+
+ return 0;
+}
+
+/**
+ * @brief Disable LSM303AGR Accelerator
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRAccSensor::disable(void)
+{
+ /* Check if the component is already disabled */
+ if ( _is_enabled == 0 )
+ {
+ return 0;
+ }
+
+ /* Store actual output data rate. */
+ if ( get_x_odr( &_last_odr ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Output data rate selection - power down. */
+ if ( LSM303AGR_ACC_W_ODR( (void *)this, LSM303AGR_ACC_ODR_DO_PWR_DOWN ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ _is_enabled = 0;
+
+ return 0;
+}
+
+/**
+ * @brief Read ID of LSM303AGR Accelerometer
+ * @param p_id the pointer where the ID of the device is stored
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRAccSensor::read_id(uint8_t *id)
+{
+ if(!id)
+ {
+ return 1;
+ }
+
+ /* Read WHO AM I register */
+ if ( LSM303AGR_ACC_R_WHO_AM_I( (void *)this, id ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Read data from LSM303AGR Accelerometer
+ * @param pData the pointer where the accelerometer data are stored
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRAccSensor::get_x_axes(int32_t *pData)
+{
+ int data[3];
+
+ /* Read data from LSM303AGR. */
+ if ( !LSM303AGR_ACC_Get_Acceleration((void *)this, data) )
+ {
+ return 1;
+ }
+
+ /* Calculate the data. */
+ pData[0] = (int32_t)data[0];
+ pData[1] = (int32_t)data[1];
+ pData[2] = (int32_t)data[2];
+
+ return 0;
+}
+
+/**
+ * @brief Read Accelerometer Sensitivity
+ * @param pfData the pointer where the accelerometer sensitivity is stored
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRAccSensor::get_x_sensitivity(float *pfData)
+{
+ LSM303AGR_ACC_LPEN_t lp_value;
+ LSM303AGR_ACC_HR_t hr_value;
+
+ /* Read low power flag */
+ if( LSM303AGR_ACC_R_LOWPWR_EN( (void *)this, &lp_value ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Read high performance flag */
+ if( LSM303AGR_ACC_R_HiRes( (void *)this, &hr_value ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ if( lp_value == LSM303AGR_ACC_LPEN_DISABLED && hr_value == LSM303AGR_ACC_HR_DISABLED )
+ {
+ /* Normal Mode */
+ return get_x_sensitivity_normal_mode( pfData );
+ } else if ( lp_value == LSM303AGR_ACC_LPEN_ENABLED && hr_value == LSM303AGR_ACC_HR_DISABLED )
+ {
+ /* Low Power Mode */
+ return get_x_sensitivity_lp_mode( pfData );
+ } else if ( lp_value == LSM303AGR_ACC_LPEN_DISABLED && hr_value == LSM303AGR_ACC_HR_ENABLED )
+ {
+ /* High Resolution Mode */
+ return get_x_sensitivity_hr_mode( pfData );
+ } else
+ {
+ /* Not allowed */
+ return 1;
+ }
+}
+
+/**
+ * @brief Read Accelerometer Sensitivity in Normal Mode
+ * @param sensitivity the pointer where the accelerometer sensitivity is stored
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRAccSensor::get_x_sensitivity_normal_mode( float *sensitivity )
+{
+ LSM303AGR_ACC_FS_t fullScale;
+
+ /* Read actual full scale selection from sensor. */
+ if ( LSM303AGR_ACC_R_FullScale( (void *)this, &fullScale ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Store the sensitivity based on actual full scale. */
+ switch( fullScale )
+ {
+ case LSM303AGR_ACC_FS_2G:
+ *sensitivity = ( float )LSM303AGR_ACC_SENSITIVITY_FOR_FS_2G_NORMAL_MODE;
+ break;
+ case LSM303AGR_ACC_FS_4G:
+ *sensitivity = ( float )LSM303AGR_ACC_SENSITIVITY_FOR_FS_4G_NORMAL_MODE;
+ break;
+ case LSM303AGR_ACC_FS_8G:
+ *sensitivity = ( float )LSM303AGR_ACC_SENSITIVITY_FOR_FS_8G_NORMAL_MODE;
+ break;
+ case LSM303AGR_ACC_FS_16G:
+ *sensitivity = ( float )LSM303AGR_ACC_SENSITIVITY_FOR_FS_16G_NORMAL_MODE;
+ break;
+ default:
+ *sensitivity = -1.0f;
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Read Accelerometer Sensitivity in LP Mode
+ * @param sensitivity the pointer where the accelerometer sensitivity is stored
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRAccSensor::get_x_sensitivity_lp_mode( float *sensitivity )
+{
+ LSM303AGR_ACC_FS_t fullScale;
+
+ /* Read actual full scale selection from sensor. */
+ if ( LSM303AGR_ACC_R_FullScale( (void *)this, &fullScale ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Store the sensitivity based on actual full scale. */
+ switch( fullScale )
+ {
+ case LSM303AGR_ACC_FS_2G:
+ *sensitivity = ( float )LSM303AGR_ACC_SENSITIVITY_FOR_FS_2G_LOW_POWER_MODE;
+ break;
+ case LSM303AGR_ACC_FS_4G:
+ *sensitivity = ( float )LSM303AGR_ACC_SENSITIVITY_FOR_FS_4G_LOW_POWER_MODE;
+ break;
+ case LSM303AGR_ACC_FS_8G:
+ *sensitivity = ( float )LSM303AGR_ACC_SENSITIVITY_FOR_FS_8G_LOW_POWER_MODE;
+ break;
+ case LSM303AGR_ACC_FS_16G:
+ *sensitivity = ( float )LSM303AGR_ACC_SENSITIVITY_FOR_FS_16G_LOW_POWER_MODE;
+ break;
+ default:
+ *sensitivity = -1.0f;
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Read Accelerometer Sensitivity in HR Mode
+ * @param sensitivity the pointer where the accelerometer sensitivity is stored
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRAccSensor::get_x_sensitivity_hr_mode( float *sensitivity )
+{
+ LSM303AGR_ACC_FS_t fullScale;
+
+ /* Read actual full scale selection from sensor. */
+ if ( LSM303AGR_ACC_R_FullScale( (void *)this, &fullScale ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Store the sensitivity based on actual full scale. */
+ switch( fullScale )
+ {
+ case LSM303AGR_ACC_FS_2G:
+ *sensitivity = ( float )LSM303AGR_ACC_SENSITIVITY_FOR_FS_2G_HIGH_RESOLUTION_MODE;
+ break;
+ case LSM303AGR_ACC_FS_4G:
+ *sensitivity = ( float )LSM303AGR_ACC_SENSITIVITY_FOR_FS_4G_HIGH_RESOLUTION_MODE;
+ break;
+ case LSM303AGR_ACC_FS_8G:
+ *sensitivity = ( float )LSM303AGR_ACC_SENSITIVITY_FOR_FS_8G_HIGH_RESOLUTION_MODE;
+ break;
+ case LSM303AGR_ACC_FS_16G:
+ *sensitivity = ( float )LSM303AGR_ACC_SENSITIVITY_FOR_FS_16G_HIGH_RESOLUTION_MODE;
+ break;
+ default:
+ *sensitivity = -1.0f;
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Read raw data from LSM303AGR Accelerometer
+ * @param pData the pointer where the accelerometer raw data are stored
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRAccSensor::get_x_axes_raw(int16_t *pData)
+{
+ uint8_t regValue[6] = {0, 0, 0, 0, 0, 0};
+ u8_t shift = 0;
+ LSM303AGR_ACC_LPEN_t lp;
+ LSM303AGR_ACC_HR_t hr;
+
+ /* Determine which operational mode the acc is set */
+ if(!LSM303AGR_ACC_R_HiRes( (void *)this, &hr )) {
+ return 1;
+ }
+
+ if(!LSM303AGR_ACC_R_LOWPWR_EN( (void *)this, &lp )) {
+ return 1;
+ }
+
+ if (lp == LSM303AGR_ACC_LPEN_ENABLED && hr == LSM303AGR_ACC_HR_DISABLED) {
+ /* op mode is LP 8-bit */
+ shift = 8;
+ } else if (lp == LSM303AGR_ACC_LPEN_DISABLED && hr == LSM303AGR_ACC_HR_DISABLED) {
+ /* op mode is Normal 10-bit */
+ shift = 6;
+ } else if (lp == LSM303AGR_ACC_LPEN_DISABLED && hr == LSM303AGR_ACC_HR_ENABLED) {
+ /* op mode is HR 12-bit */
+ shift = 4;
+ } else {
+ return 1;
+ }
+
+ /* Read output registers from LSM303AGR_ACC_GYRO_OUTX_L_XL to LSM303AGR_ACC_GYRO_OUTZ_H_XL. */
+ if (!LSM303AGR_ACC_Get_Raw_Acceleration( (void *)this, ( uint8_t* )regValue ))
+ {
+ return 1;
+ }
+
+ /* Format the data. */
+ pData[0] = ( ( ( ( ( int16_t )regValue[1] ) << 8 ) + ( int16_t )regValue[0] ) >> shift );
+ pData[1] = ( ( ( ( ( int16_t )regValue[3] ) << 8 ) + ( int16_t )regValue[2] ) >> shift );
+ pData[2] = ( ( ( ( ( int16_t )regValue[5] ) << 8 ) + ( int16_t )regValue[4] ) >> shift );
+
+ return 0;
+}
+
+/**
+ * @brief Read LSM303AGR Accelerometer output data rate
+ * @param odr the pointer to the output data rate
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRAccSensor::get_x_odr(float* odr)
+{
+ LSM303AGR_ACC_ODR_t odr_low_level;
+
+ if ( LSM303AGR_ACC_R_ODR( (void *)this, &odr_low_level ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ switch( odr_low_level )
+ {
+ case LSM303AGR_ACC_ODR_DO_PWR_DOWN:
+ *odr = 0.0f;
+ break;
+ case LSM303AGR_ACC_ODR_DO_1Hz:
+ *odr = 1.0f;
+ break;
+ case LSM303AGR_ACC_ODR_DO_10Hz:
+ *odr = 10.0f;
+ break;
+ case LSM303AGR_ACC_ODR_DO_25Hz:
+ *odr = 25.0f;
+ break;
+ case LSM303AGR_ACC_ODR_DO_50Hz:
+ *odr = 50.0f;
+ break;
+ case LSM303AGR_ACC_ODR_DO_100Hz:
+ *odr = 100.0f;
+ break;
+ case LSM303AGR_ACC_ODR_DO_200Hz:
+ *odr = 200.0f;
+ break;
+ case LSM303AGR_ACC_ODR_DO_400Hz:
+ *odr = 400.0f;
+ break;
+ default:
+ *odr = -1.0f;
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set ODR
+ * @param odr the output data rate to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRAccSensor::set_x_odr(float odr)
+{
+ if(_is_enabled == 1)
+ {
+ if(set_x_odr_when_enabled(odr) == 1)
+ {
+ return 1;
+ }
+ }
+ else
+ {
+ if(set_x_odr_when_disabled(odr) == 1)
+ {
+ return 1;
+ }
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set ODR when enabled
+ * @param odr the output data rate to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRAccSensor::set_x_odr_when_enabled(float odr)
+{
+ LSM303AGR_ACC_ODR_t new_odr;
+
+ new_odr = ( odr <= 1.0f ) ? LSM303AGR_ACC_ODR_DO_1Hz
+ : ( odr <= 10.0f ) ? LSM303AGR_ACC_ODR_DO_10Hz
+ : ( odr <= 25.0f ) ? LSM303AGR_ACC_ODR_DO_25Hz
+ : ( odr <= 50.0f ) ? LSM303AGR_ACC_ODR_DO_50Hz
+ : ( odr <= 100.0f ) ? LSM303AGR_ACC_ODR_DO_100Hz
+ : ( odr <= 200.0f ) ? LSM303AGR_ACC_ODR_DO_200Hz
+ : LSM303AGR_ACC_ODR_DO_400Hz;
+
+ if ( LSM303AGR_ACC_W_ODR( (void *)this, new_odr ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set ODR when disabled
+ * @param odr the output data rate to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRAccSensor::set_x_odr_when_disabled(float odr)
+{
+ _last_odr = ( odr <= 1.0f ) ? 1.0f
+ : ( odr <= 10.0f ) ? 10.0f
+ : ( odr <= 25.0f ) ? 25.0f
+ : ( odr <= 50.0f ) ? 50.0f
+ : ( odr <= 100.0f ) ? 100.0f
+ : ( odr <= 200.0f ) ? 200.0f
+ : 400.0f;
+
+ return 0;
+}
+
+
+/**
+ * @brief Read LSM303AGR Accelerometer full scale
+ * @param fullScale the pointer to the full scale
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRAccSensor::get_x_fs(float* fullScale)
+{
+ LSM303AGR_ACC_FS_t fs_low_level;
+
+ if ( LSM303AGR_ACC_R_FullScale( (void *)this, &fs_low_level ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ switch( fs_low_level )
+ {
+ case LSM303AGR_ACC_FS_2G:
+ *fullScale = 2.0f;
+ break;
+ case LSM303AGR_ACC_FS_4G:
+ *fullScale = 4.0f;
+ break;
+ case LSM303AGR_ACC_FS_8G:
+ *fullScale = 8.0f;
+ break;
+ case LSM303AGR_ACC_FS_16G:
+ *fullScale = 16.0f;
+ break;
+ default:
+ *fullScale = -1.0f;
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set full scale
+ * @param fullScale the full scale to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRAccSensor::set_x_fs(float fullScale)
+{
+ LSM303AGR_ACC_FS_t new_fs;
+
+ new_fs = ( fullScale <= 2.0f ) ? LSM303AGR_ACC_FS_2G
+ : ( fullScale <= 4.0f ) ? LSM303AGR_ACC_FS_4G
+ : ( fullScale <= 8.0f ) ? LSM303AGR_ACC_FS_8G
+ : LSM303AGR_ACC_FS_16G;
+
+ if ( LSM303AGR_ACC_W_FullScale( (void *)this, new_fs ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Read accelerometer data from register
+ * @param reg register address
+ * @param data register data
+ * @retval 0 in case of success
+ * @retval 1 in case of failure
+ */
+int LSM303AGRAccSensor::read_reg( uint8_t reg, uint8_t *data )
+{
+
+ if ( LSM303AGR_ACC_read_reg( (void *)this, reg, data ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Write accelerometer data to register
+ * @param reg register address
+ * @param data register data
+ * @retval 0 in case of success
+ * @retval 1 in case of failure
+ */
+int LSM303AGRAccSensor::write_reg( uint8_t reg, uint8_t data )
+{
+
+ if ( LSM303AGR_ACC_write_reg( (void *)this, reg, data ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+uint8_t LSM303AGR_ACC_io_write( void *handle, uint8_t WriteAddr, uint8_t *pBuffer, uint16_t nBytesToWrite )
+{
+ return ((LSM303AGRAccSensor *)handle)->io_write(pBuffer, WriteAddr, nBytesToWrite);
+}
+
+uint8_t LSM303AGR_ACC_io_read( void *handle, uint8_t ReadAddr, uint8_t *pBuffer, uint16_t nBytesToRead )
+{
+ return ((LSM303AGRAccSensor *)handle)->io_read(pBuffer, ReadAddr, nBytesToRead);
+}
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Components/LSM303AGRSensor/LSM303AGRAccSensor.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,140 @@
+/**
+ ******************************************************************************
+ * @file LSM303AGRAccSensor.h
+ * @author CLab
+ * @version V1.0.0
+ * @date 5 August 2016
+ * @brief Abstract Class of an LSM303AGR accelerometer sensor.
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Prevent recursive inclusion -----------------------------------------------*/
+
+#ifndef __LSM303AGRAccSensor_H__
+#define __LSM303AGRAccSensor_H__
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include "DevI2C.h"
+#include "LSM303AGR_acc_driver.h"
+#include "MotionSensor.h"
+
+/* Defines -------------------------------------------------------------------*/
+#define LSM303AGR_ACC_SENSITIVITY_FOR_FS_2G_NORMAL_MODE 3.900f /**< Sensitivity value for 2 g full scale and normal mode [mg/LSB] */
+#define LSM303AGR_ACC_SENSITIVITY_FOR_FS_2G_HIGH_RESOLUTION_MODE 0.980f /**< Sensitivity value for 2 g full scale and high resolution mode [mg/LSB] */
+#define LSM303AGR_ACC_SENSITIVITY_FOR_FS_2G_LOW_POWER_MODE 15.630f /**< Sensitivity value for 2 g full scale and low power mode [mg/LSB] */
+#define LSM303AGR_ACC_SENSITIVITY_FOR_FS_4G_NORMAL_MODE 7.820f /**< Sensitivity value for 4 g full scale and normal mode [mg/LSB] */
+#define LSM303AGR_ACC_SENSITIVITY_FOR_FS_4G_HIGH_RESOLUTION_MODE 1.950f /**< Sensitivity value for 4 g full scale and high resolution mode [mg/LSB] */
+#define LSM303AGR_ACC_SENSITIVITY_FOR_FS_4G_LOW_POWER_MODE 31.260f /**< Sensitivity value for 4 g full scale and low power mode [mg/LSB] */
+#define LSM303AGR_ACC_SENSITIVITY_FOR_FS_8G_NORMAL_MODE 15.630f /**< Sensitivity value for 8 g full scale and normal mode [mg/LSB] */
+#define LSM303AGR_ACC_SENSITIVITY_FOR_FS_8G_HIGH_RESOLUTION_MODE 3.900f /**< Sensitivity value for 8 g full scale and high resolution mode [mg/LSB] */
+#define LSM303AGR_ACC_SENSITIVITY_FOR_FS_8G_LOW_POWER_MODE 62.520f /**< Sensitivity value for 8 g full scale and low power mode [mg/LSB] */
+#define LSM303AGR_ACC_SENSITIVITY_FOR_FS_16G_NORMAL_MODE 46.900f /**< Sensitivity value for 16 g full scale and normal mode [mg/LSB] */
+#define LSM303AGR_ACC_SENSITIVITY_FOR_FS_16G_HIGH_RESOLUTION_MODE 11.720f /**< Sensitivity value for 16 g full scale and high resolution mode [mg/LSB] */
+#define LSM303AGR_ACC_SENSITIVITY_FOR_FS_16G_LOW_POWER_MODE 187.580f /**< Sensitivity value for 16 g full scale and low power mode [mg/LSB] */
+
+/* Class Declaration ---------------------------------------------------------*/
+
+/**
+ * Abstract class of an LSM303AGR Inertial Measurement Unit (IMU) 6 axes
+ * sensor.
+ */
+class LSM303AGRAccSensor : public MotionSensor
+{
+ public:
+ LSM303AGRAccSensor(DevI2C &i2c);
+ LSM303AGRAccSensor(DevI2C &i2c, uint8_t address);
+ virtual int init(void *init);
+ virtual int read_id(uint8_t *id);
+ virtual int get_x_axes(int32_t *pData);
+ virtual int get_x_axes_raw(int16_t *pData);
+ virtual int get_x_sensitivity(float *pfData);
+ virtual int get_x_odr(float *odr);
+ virtual int set_x_odr(float odr);
+ virtual int get_x_fs(float *fullScale);
+ virtual int set_x_fs(float fullScale);
+ int enable(void);
+ int disable(void);
+ int read_reg(uint8_t reg, uint8_t *data);
+ int write_reg(uint8_t reg, uint8_t data);
+
+ /**
+ * @brief Utility function to read data.
+ * @param pBuffer: pointer to data to be read.
+ * @param RegisterAddr: specifies internal address register to be read.
+ * @param NumByteToRead: number of bytes to be read.
+ * @retval 0 if ok, an error code otherwise.
+ */
+ uint8_t io_read(uint8_t* pBuffer, uint8_t RegisterAddr, uint16_t NumByteToRead)
+ {
+ return (uint8_t) _dev_i2c.i2c_read(pBuffer, _address, RegisterAddr, NumByteToRead);
+ }
+
+ /**
+ * @brief Utility function to write data.
+ * @param pBuffer: pointer to data to be written.
+ * @param RegisterAddr: specifies internal address register to be written.
+ * @param NumByteToWrite: number of bytes to write.
+ * @retval 0 if ok, an error code otherwise.
+ */
+ uint8_t io_write(uint8_t* pBuffer, uint8_t RegisterAddr, uint16_t NumByteToWrite)
+ {
+ return (uint8_t) _dev_i2c.i2c_write(pBuffer, _address, RegisterAddr, NumByteToWrite);
+ }
+
+ private:
+ int set_x_odr_when_enabled(float odr);
+ int set_x_odr_when_disabled(float odr);
+ int get_x_sensitivity_normal_mode(float *sensitivity );
+ int get_x_sensitivity_lp_mode(float *sensitivity );
+ int get_x_sensitivity_hr_mode(float *sensitivity );
+
+ /* Helper classes. */
+ DevI2C &_dev_i2c;
+
+ /* Configuration */
+ uint8_t _address;
+
+ uint8_t _is_enabled;
+ float _last_odr;
+};
+
+#ifdef __cplusplus
+ extern "C" {
+#endif
+uint8_t LSM303AGR_ACC_io_write( void *handle, uint8_t WriteAddr, uint8_t *pBuffer, uint16_t nBytesToWrite );
+uint8_t LSM303AGR_ACC_io_read( void *handle, uint8_t ReadAddr, uint8_t *pBuffer, uint16_t nBytesToRead );
+#ifdef __cplusplus
+ }
+#endif
+
+#endif
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Components/LSM303AGRSensor/LSM303AGRMagSensor.cpp Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,347 @@
+/**
+ ******************************************************************************
+ * @file LSM303AGRMagSensor.cpp
+ * @author CLab
+ * @version V1.0.0
+ * @date 5 August 2016
+ * @brief Implementation an LSM303AGR magnetometer sensor.
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include "mbed.h"
+#include "DevI2C.h"
+#include "LSM303AGRMagSensor.h"
+#include "LSM303AGR_mag_driver.h"
+
+
+/* Class Implementation ------------------------------------------------------*/
+
+/** Constructor
+ * @param i2c object of an helper class which handles the I2C peripheral
+ * @param address the address of the component's instance
+ */
+LSM303AGRMagSensor::LSM303AGRMagSensor(DevI2C &i2c) : _dev_i2c(i2c)
+{
+ _address = LSM303AGR_MAG_I2C_ADDRESS;
+};
+
+/** Constructor
+ * @param i2c object of an helper class which handles the I2C peripheral
+ * @param address the address of the component's instance
+ */
+LSM303AGRMagSensor::LSM303AGRMagSensor(DevI2C &i2c, uint8_t address) : _dev_i2c(i2c), _address(address)
+{
+
+};
+
+/**
+ * @brief Initializing the component.
+ * @param[in] init pointer to device specific initalization structure.
+ * @retval "0" in case of success, an error code otherwise.
+ */
+int LSM303AGRMagSensor::init(void *init)
+{
+ /* Operating mode selection - power down */
+ if ( LSM303AGR_MAG_W_MD( (void *)this, LSM303AGR_MAG_MD_IDLE1_MODE ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Enable BDU */
+ if ( LSM303AGR_MAG_W_BDU( (void *)this, LSM303AGR_MAG_BDU_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ if ( set_m_odr( 100.0f ) == 1 )
+ {
+ return 1;
+ }
+
+ if ( set_m_fs( 50.0f ) == 1 )
+ {
+ return 1;
+ }
+
+ if ( LSM303AGR_MAG_W_ST( (void *)this, LSM303AGR_MAG_ST_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Enable LSM303AGR magnetometer
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRMagSensor::enable(void)
+{
+ /* Operating mode selection */
+ if ( LSM303AGR_MAG_W_MD( (void *)this, LSM303AGR_MAG_MD_CONTINUOS_MODE ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Disable LSM303AGR magnetometer
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRMagSensor::disable(void)
+{
+ /* Operating mode selection - power down */
+ if ( LSM303AGR_MAG_W_MD( (void *)this, LSM303AGR_MAG_MD_IDLE1_MODE ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Read ID of LSM303AGR Magnetometer
+ * @param p_id the pointer where the ID of the device is stored
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRMagSensor::read_id(uint8_t *id)
+{
+ if(!id)
+ {
+ return 1;
+ }
+
+ /* Read WHO AM I register */
+ if ( LSM303AGR_MAG_R_WHO_AM_I( (void *)this, id ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Read data from LSM303AGR Magnetometer
+ * @param pData the pointer where the magnetometer data are stored
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRMagSensor::get_m_axes(int32_t *pData)
+{
+ int16_t pDataRaw[3];
+ float sensitivity = 0;
+
+ /* Read raw data from LSM303AGR output register. */
+ if ( get_m_axes_raw( pDataRaw ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Get LSM303AGR actual sensitivity. */
+ if ( get_m_sensitivity( &sensitivity ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Calculate the data. */
+ pData[0] = ( int32_t )( pDataRaw[0] * sensitivity );
+ pData[1] = ( int32_t )( pDataRaw[1] * sensitivity );
+ pData[2] = ( int32_t )( pDataRaw[2] * sensitivity );
+
+ return 0;
+}
+
+/**
+ * @brief Read Magnetometer Sensitivity
+ * @param pfData the pointer where the magnetometer sensitivity is stored
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRMagSensor::get_m_sensitivity(float *pfData)
+{
+ *pfData = 1.5f;
+
+ return 0;
+}
+
+/**
+ * @brief Read raw data from LSM303AGR Magnetometer
+ * @param pData the pointer where the magnetomer raw data are stored
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRMagSensor::get_m_axes_raw(int16_t *pData)
+{
+ uint8_t regValue[6] = {0, 0, 0, 0, 0, 0};
+ int16_t *regValueInt16;
+
+ /* Read output registers from LSM303AGR_MAG_OUTX_L to LSM303AGR_MAG_OUTZ_H. */
+ if ( LSM303AGR_MAG_Get_Raw_Magnetic( (void *)this, regValue ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ regValueInt16 = (int16_t *)regValue;
+
+ /* Format the data. */
+ pData[0] = regValueInt16[0];
+ pData[1] = regValueInt16[1];
+ pData[2] = regValueInt16[2];
+
+ return 0;
+}
+
+/**
+ * @brief Read LSM303AGR Magnetometer output data rate
+ * @param odr the pointer to the output data rate
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRMagSensor::get_m_odr(float* odr)
+{
+ LSM303AGR_MAG_ODR_t odr_low_level;
+
+ if ( LSM303AGR_MAG_R_ODR( (void *)this, &odr_low_level ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ switch( odr_low_level )
+ {
+ case LSM303AGR_MAG_ODR_10Hz:
+ *odr = 10.000f;
+ break;
+ case LSM303AGR_MAG_ODR_20Hz:
+ *odr = 20.000f;
+ break;
+ case LSM303AGR_MAG_ODR_50Hz:
+ *odr = 50.000f;
+ break;
+ case LSM303AGR_MAG_ODR_100Hz:
+ *odr = 100.000f;
+ break;
+ default:
+ *odr = -1.000f;
+ return 1;
+ }
+ return 0;
+}
+
+/**
+ * @brief Set ODR
+ * @param odr the output data rate to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRMagSensor::set_m_odr(float odr)
+{
+ LSM303AGR_MAG_ODR_t new_odr;
+
+ new_odr = ( odr <= 10.000f ) ? LSM303AGR_MAG_ODR_10Hz
+ : ( odr <= 20.000f ) ? LSM303AGR_MAG_ODR_20Hz
+ : ( odr <= 50.000f ) ? LSM303AGR_MAG_ODR_50Hz
+ : LSM303AGR_MAG_ODR_100Hz;
+
+ if ( LSM303AGR_MAG_W_ODR( (void *)this, new_odr ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+
+/**
+ * @brief Read LSM303AGR Magnetometer full scale
+ * @param fullScale the pointer to the output data rate
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRMagSensor::get_m_fs(float* fullScale)
+{
+ *fullScale = 50.0f;
+
+ return 0;
+}
+
+/**
+ * @brief Set full scale
+ * @param fullScale the full scale to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM303AGRMagSensor::set_m_fs(float fullScale)
+{
+ return 0;
+}
+
+
+/**
+ * @brief Read magnetometer data from register
+ * @param reg register address
+ * @param data register data
+ * @retval 0 in case of success
+ * @retval 1 in case of failure
+ */
+int LSM303AGRMagSensor::read_reg( uint8_t reg, uint8_t *data )
+{
+ if ( LSM303AGR_MAG_read_reg( (void *)this, reg, data ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+
+/**
+ * @brief Write magnetometer data to register
+ * @param reg register address
+ * @param data register data
+ * @retval 0 in case of success
+ * @retval 1 in case of failure
+ */
+int LSM303AGRMagSensor::write_reg( uint8_t reg, uint8_t data )
+{
+ if ( LSM303AGR_MAG_write_reg( (void *)this, reg, data ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+uint8_t LSM303AGR_MAG_io_write( void *handle, uint8_t WriteAddr, uint8_t *pBuffer, uint16_t nBytesToWrite )
+{
+ return ((LSM303AGRMagSensor *)handle)->io_write(pBuffer, WriteAddr, nBytesToWrite);
+}
+
+uint8_t LSM303AGR_MAG_io_read( void *handle, uint8_t ReadAddr, uint8_t *pBuffer, uint16_t nBytesToRead )
+{
+ return ((LSM303AGRMagSensor *)handle)->io_read(pBuffer, ReadAddr, nBytesToRead);
+}
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Components/LSM303AGRSensor/LSM303AGRMagSensor.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,119 @@
+/**
+ ******************************************************************************
+ * @file LSM303AGRMagSensor.h
+ * @author CLab
+ * @version V1.0.0
+ * @date 5 August 2016
+ * @brief Abstract Class of an LSM303AGR magnetometer sensor.
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Prevent recursive inclusion -----------------------------------------------*/
+
+#ifndef __LSM303AGRMagSensor_H__
+#define __LSM303AGRMagSensor_H__
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include "DevI2C.h"
+#include "LSM303AGR_mag_driver.h"
+#include "MagneticSensor.h"
+
+
+/* Class Declaration ---------------------------------------------------------*/
+
+/**
+ * Abstract class of an LSM303AGR Inertial Measurement Unit (IMU) 6 axes
+ * sensor.
+ */
+class LSM303AGRMagSensor : public MagneticSensor
+{
+ public:
+ LSM303AGRMagSensor(DevI2C &i2c);
+ LSM303AGRMagSensor(DevI2C &i2c, uint8_t address);
+ virtual int init(void *init);
+ virtual int read_id(uint8_t *id);
+ virtual int get_m_axes(int32_t *pData);
+ virtual int get_m_axes_raw(int16_t *pData);
+ int enable(void);
+ int disable(void);
+ int get_m_sensitivity(float *pfData);
+ int get_m_odr(float *odr);
+ int set_m_odr(float odr);
+ int get_m_fs(float *fullScale);
+ int set_m_fs(float fullScale);
+ int read_reg(uint8_t reg, uint8_t *data);
+ int write_reg(uint8_t reg, uint8_t data);
+
+ /**
+ * @brief Utility function to read data.
+ * @param pBuffer: pointer to data to be read.
+ * @param RegisterAddr: specifies internal address register to be read.
+ * @param NumByteToRead: number of bytes to be read.
+ * @retval 0 if ok, an error code otherwise.
+ */
+ uint8_t io_read(uint8_t* pBuffer, uint8_t RegisterAddr, uint16_t NumByteToRead)
+ {
+ return (uint8_t) _dev_i2c.i2c_read(pBuffer, _address, RegisterAddr, NumByteToRead);
+ }
+
+ /**
+ * @brief Utility function to write data.
+ * @param pBuffer: pointer to data to be written.
+ * @param RegisterAddr: specifies internal address register to be written.
+ * @param NumByteToWrite: number of bytes to write.
+ * @retval 0 if ok, an error code otherwise.
+ */
+ uint8_t io_write(uint8_t* pBuffer, uint8_t RegisterAddr, uint16_t NumByteToWrite)
+ {
+ return (uint8_t) _dev_i2c.i2c_write(pBuffer, _address, RegisterAddr, NumByteToWrite);
+ }
+
+ private:
+
+ /* Helper classes. */
+ DevI2C &_dev_i2c;
+
+ /* Configuration */
+ uint8_t _address;
+};
+
+#ifdef __cplusplus
+ extern "C" {
+#endif
+uint8_t LSM303AGR_MAG_io_write( void *handle, uint8_t WriteAddr, uint8_t *pBuffer, uint16_t nBytesToWrite );
+uint8_t LSM303AGR_MAG_io_read( void *handle, uint8_t ReadAddr, uint8_t *pBuffer, uint16_t nBytesToRead );
+#ifdef __cplusplus
+ }
+#endif
+
+#endif
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Components/LSM303AGRSensor/LSM303AGR_acc_driver.c Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,3950 @@
+/**
+ ******************************************************************************
+ * @file LSM303AGR_acc_driver.c
+ * @author MEMS Application Team
+ * @version V1.1
+ * @date 24-February-2016
+ * @brief LSM303AGR Accelerometer driver file
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+/* Includes ------------------------------------------------------------------*/
+#include "LSM303AGR_acc_driver.h"
+
+/* Imported function prototypes ----------------------------------------------*/
+extern uint8_t LSM303AGR_ACC_io_write(void *handle, uint8_t WriteAddr, uint8_t *pBuffer, uint16_t nBytesToWrite);
+extern uint8_t LSM303AGR_ACC_io_read(void *handle, uint8_t ReadAddr, uint8_t *pBuffer, uint16_t nBytesToRead);
+
+/* Private typedef -----------------------------------------------------------*/
+
+/* Private define ------------------------------------------------------------*/
+
+/* Private macro -------------------------------------------------------------*/
+
+/* Private variables ---------------------------------------------------------*/
+
+/* Private functions ---------------------------------------------------------*/
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_read_reg
+* Description : Generic Reading function. It must be fullfilled with either
+* : I2C or SPI reading functions
+* Input : Register Address
+* Output : Data REad
+* Return : None
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_read_reg(void *handle, u8_t Reg, u8_t* Data)
+{
+
+ if (LSM303AGR_ACC_io_read(handle, Reg, Data, 1))
+ {
+ return MEMS_ERROR;
+ }
+ else
+ {
+ return MEMS_SUCCESS;
+ }
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_write_reg
+* Description : Generic Writing function. It must be fullfilled with either
+* : I2C or SPI writing function
+* Input : Register Address, Data to be written
+* Output : None
+* Return : None
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_write_reg(void *handle, u8_t Reg, u8_t Data)
+{
+
+ if (LSM303AGR_ACC_io_write(handle, Reg, &Data, 1))
+ {
+ return MEMS_ERROR;
+ }
+ else
+ {
+ return MEMS_SUCCESS;
+ }
+}
+
+/*******************************************************************************
+* Function Name : SwapHighLowByte
+* Description : Swap High/low byte in multiple byte values
+* It works with minimum 2 byte for every dimension.
+* Example x,y,z with 2 byte for every dimension
+*
+* Input : bufferToSwap -> buffer to swap
+* numberOfByte -> the buffer length in byte
+* dimension -> number of dimension
+*
+* Output : bufferToSwap -> buffer swapped
+* Return : None
+*******************************************************************************/
+void LSM303AGR_ACC_SwapHighLowByte(u8_t *bufferToSwap, u8_t numberOfByte, u8_t dimension)
+{
+
+ u8_t numberOfByteForDimension, i, j;
+ u8_t tempValue[10];
+
+ numberOfByteForDimension=numberOfByte/dimension;
+
+ for (i=0; i<dimension;i++ )
+ {
+ for (j=0; j<numberOfByteForDimension;j++ )
+ tempValue[j]=bufferToSwap[j+i*numberOfByteForDimension];
+ for (j=0; j<numberOfByteForDimension;j++ )
+ *(bufferToSwap+i*(numberOfByteForDimension)+j)=*(tempValue+(numberOfByteForDimension-1)-j);
+ }
+}
+
+/* Exported functions ---------------------------------------------------------*/
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_x_data_avail
+* Description : Read 1DA
+* Input : Pointer to LSM303AGR_ACC_1DA_t
+* Output : Status of 1DA see LSM303AGR_ACC_1DA_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_x_data_avail(void *handle, LSM303AGR_ACC_1DA_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_STATUS_REG_AUX, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_1DA_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_y_data_avail
+* Description : Read 2DA_
+* Input : Pointer to LSM303AGR_ACC_2DA__t
+* Output : Status of 2DA_ see LSM303AGR_ACC_2DA__t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_y_data_avail(void *handle, LSM303AGR_ACC_2DA__t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_STATUS_REG_AUX, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_2DA__MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_z_data_avail
+* Description : Read 3DA_
+* Input : Pointer to LSM303AGR_ACC_3DA__t
+* Output : Status of 3DA_ see LSM303AGR_ACC_3DA__t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_z_data_avail(void *handle, LSM303AGR_ACC_3DA__t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_STATUS_REG_AUX, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_3DA__MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_xyz_data_avail
+* Description : Read 321DA_
+* Input : Pointer to LSM303AGR_ACC_321DA__t
+* Output : Status of 321DA_ see LSM303AGR_ACC_321DA__t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_xyz_data_avail(void *handle, LSM303AGR_ACC_321DA__t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_STATUS_REG_AUX, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_321DA__MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_DataXOverrun
+* Description : Read 1OR_
+* Input : Pointer to LSM303AGR_ACC_1OR__t
+* Output : Status of 1OR_ see LSM303AGR_ACC_1OR__t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_DataXOverrun(void *handle, LSM303AGR_ACC_1OR__t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_STATUS_REG_AUX, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_1OR__MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_DataYOverrun
+* Description : Read 2OR_
+* Input : Pointer to LSM303AGR_ACC_2OR__t
+* Output : Status of 2OR_ see LSM303AGR_ACC_2OR__t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_DataYOverrun(void *handle, LSM303AGR_ACC_2OR__t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_STATUS_REG_AUX, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_2OR__MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_DataZOverrun
+* Description : Read 3OR_
+* Input : Pointer to LSM303AGR_ACC_3OR__t
+* Output : Status of 3OR_ see LSM303AGR_ACC_3OR__t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_DataZOverrun(void *handle, LSM303AGR_ACC_3OR__t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_STATUS_REG_AUX, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_3OR__MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_DataXYZOverrun
+* Description : Read 321OR_
+* Input : Pointer to LSM303AGR_ACC_321OR__t
+* Output : Status of 321OR_ see LSM303AGR_ACC_321OR__t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_DataXYZOverrun(void *handle, LSM303AGR_ACC_321OR__t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_STATUS_REG_AUX, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_321OR__MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_int_counter
+* Description : Read IC
+* Input : Pointer to u8_t
+* Output : Status of IC
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_int_counter(void *handle, u8_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT_COUNTER_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_IC_MASK; //coerce
+ *value = *value >> LSM303AGR_ACC_IC_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_WHO_AM_I
+* Description : Read WHO_AM_I
+* Input : Pointer to u8_t
+* Output : Status of WHO_AM_I
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_WHO_AM_I(void *handle, u8_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_WHO_AM_I_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_WHO_AM_I_MASK; //coerce
+ *value = *value >> LSM303AGR_ACC_WHO_AM_I_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_TEMP_EN_bits
+* Description : Write TEMP_EN
+* Input : LSM303AGR_ACC_TEMP_EN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_TEMP_EN_bits(void *handle, LSM303AGR_ACC_TEMP_EN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_TEMP_CFG_REG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_TEMP_EN_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_TEMP_CFG_REG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_TEMP_EN_bits
+* Description : Read TEMP_EN
+* Input : Pointer to LSM303AGR_ACC_TEMP_EN_t
+* Output : Status of TEMP_EN see LSM303AGR_ACC_TEMP_EN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_TEMP_EN_bits(void *handle, LSM303AGR_ACC_TEMP_EN_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_TEMP_CFG_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_TEMP_EN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_ADC_PD
+* Description : Write ADC_PD
+* Input : LSM303AGR_ACC_ADC_PD_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_ADC_PD(void *handle, LSM303AGR_ACC_ADC_PD_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_TEMP_CFG_REG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_ADC_PD_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_TEMP_CFG_REG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_ADC_PD
+* Description : Read ADC_PD
+* Input : Pointer to LSM303AGR_ACC_ADC_PD_t
+* Output : Status of ADC_PD see LSM303AGR_ACC_ADC_PD_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_ADC_PD(void *handle, LSM303AGR_ACC_ADC_PD_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_TEMP_CFG_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_ADC_PD_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_XEN
+* Description : Write XEN
+* Input : LSM303AGR_ACC_XEN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_XEN(void *handle, LSM303AGR_ACC_XEN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG1, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_XEN_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG1, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_XEN
+* Description : Read XEN
+* Input : Pointer to LSM303AGR_ACC_XEN_t
+* Output : Status of XEN see LSM303AGR_ACC_XEN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_XEN(void *handle, LSM303AGR_ACC_XEN_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG1, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_XEN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_YEN
+* Description : Write YEN
+* Input : LSM303AGR_ACC_YEN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_YEN(void *handle, LSM303AGR_ACC_YEN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG1, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_YEN_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG1, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_YEN
+* Description : Read YEN
+* Input : Pointer to LSM303AGR_ACC_YEN_t
+* Output : Status of YEN see LSM303AGR_ACC_YEN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_YEN(void *handle, LSM303AGR_ACC_YEN_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG1, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_YEN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_ZEN
+* Description : Write ZEN
+* Input : LSM303AGR_ACC_ZEN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_ZEN(void *handle, LSM303AGR_ACC_ZEN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG1, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_ZEN_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG1, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_ZEN
+* Description : Read ZEN
+* Input : Pointer to LSM303AGR_ACC_ZEN_t
+* Output : Status of ZEN see LSM303AGR_ACC_ZEN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_ZEN(void *handle, LSM303AGR_ACC_ZEN_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG1, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_ZEN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_LOWPWR_EN
+* Description : Write LPEN
+* Input : LSM303AGR_ACC_LPEN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_LOWPWR_EN(void *handle, LSM303AGR_ACC_LPEN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG1, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_LPEN_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG1, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_LOWPWR_EN
+* Description : Read LPEN
+* Input : Pointer to LSM303AGR_ACC_LPEN_t
+* Output : Status of LPEN see LSM303AGR_ACC_LPEN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_LOWPWR_EN(void *handle, LSM303AGR_ACC_LPEN_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG1, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_LPEN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_ODR
+* Description : Write ODR
+* Input : LSM303AGR_ACC_ODR_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_ODR(void *handle, LSM303AGR_ACC_ODR_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG1, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_ODR_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG1, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_ODR
+* Description : Read ODR
+* Input : Pointer to LSM303AGR_ACC_ODR_t
+* Output : Status of ODR see LSM303AGR_ACC_ODR_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_ODR(void *handle, LSM303AGR_ACC_ODR_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG1, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_ODR_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_hpf_aoi_en_int1
+* Description : Write HPIS1
+* Input : LSM303AGR_ACC_HPIS1_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_hpf_aoi_en_int1(void *handle, LSM303AGR_ACC_HPIS1_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG2, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_HPIS1_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG2, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_hpf_aoi_en_int1
+* Description : Read HPIS1
+* Input : Pointer to LSM303AGR_ACC_HPIS1_t
+* Output : Status of HPIS1 see LSM303AGR_ACC_HPIS1_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_hpf_aoi_en_int1(void *handle, LSM303AGR_ACC_HPIS1_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG2, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_HPIS1_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_hpf_aoi_en_int2
+* Description : Write HPIS2
+* Input : LSM303AGR_ACC_HPIS2_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_hpf_aoi_en_int2(void *handle, LSM303AGR_ACC_HPIS2_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG2, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_HPIS2_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG2, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_hpf_aoi_en_int2
+* Description : Read HPIS2
+* Input : Pointer to LSM303AGR_ACC_HPIS2_t
+* Output : Status of HPIS2 see LSM303AGR_ACC_HPIS2_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_hpf_aoi_en_int2(void *handle, LSM303AGR_ACC_HPIS2_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG2, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_HPIS2_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_hpf_click_en
+* Description : Write HPCLICK
+* Input : LSM303AGR_ACC_HPCLICK_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_hpf_click_en(void *handle, LSM303AGR_ACC_HPCLICK_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG2, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_HPCLICK_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG2, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_hpf_click_en
+* Description : Read HPCLICK
+* Input : Pointer to LSM303AGR_ACC_HPCLICK_t
+* Output : Status of HPCLICK see LSM303AGR_ACC_HPCLICK_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_hpf_click_en(void *handle, LSM303AGR_ACC_HPCLICK_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG2, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_HPCLICK_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Data_Filter
+* Description : Write FDS
+* Input : LSM303AGR_ACC_FDS_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Data_Filter(void *handle, LSM303AGR_ACC_FDS_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG2, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_FDS_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG2, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Data_Filter
+* Description : Read FDS
+* Input : Pointer to LSM303AGR_ACC_FDS_t
+* Output : Status of FDS see LSM303AGR_ACC_FDS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Data_Filter(void *handle, LSM303AGR_ACC_FDS_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG2, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_FDS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_hpf_cutoff_freq
+* Description : Write HPCF
+* Input : LSM303AGR_ACC_HPCF_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_hpf_cutoff_freq(void *handle, LSM303AGR_ACC_HPCF_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG2, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_HPCF_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG2, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_hpf_cutoff_freq
+* Description : Read HPCF
+* Input : Pointer to LSM303AGR_ACC_HPCF_t
+* Output : Status of HPCF see LSM303AGR_ACC_HPCF_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_hpf_cutoff_freq(void *handle, LSM303AGR_ACC_HPCF_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG2, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_HPCF_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_hpf_mode
+* Description : Write HPM
+* Input : LSM303AGR_ACC_HPM_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_hpf_mode(void *handle, LSM303AGR_ACC_HPM_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG2, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_HPM_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG2, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_hpf_mode
+* Description : Read HPM
+* Input : Pointer to LSM303AGR_ACC_HPM_t
+* Output : Status of HPM see LSM303AGR_ACC_HPM_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_hpf_mode(void *handle, LSM303AGR_ACC_HPM_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG2, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_HPM_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_FIFO_Overrun_on_INT1
+* Description : Write I1_OVERRUN
+* Input : LSM303AGR_ACC_I1_OVERRUN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_FIFO_Overrun_on_INT1(void *handle, LSM303AGR_ACC_I1_OVERRUN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG3, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_I1_OVERRUN_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG3, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_FIFO_Overrun_on_INT1
+* Description : Read I1_OVERRUN
+* Input : Pointer to LSM303AGR_ACC_I1_OVERRUN_t
+* Output : Status of I1_OVERRUN see LSM303AGR_ACC_I1_OVERRUN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_FIFO_Overrun_on_INT1(void *handle, LSM303AGR_ACC_I1_OVERRUN_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG3, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_I1_OVERRUN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_FIFO_Watermark_on_INT1
+* Description : Write I1_WTM
+* Input : LSM303AGR_ACC_I1_WTM_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_FIFO_Watermark_on_INT1(void *handle, LSM303AGR_ACC_I1_WTM_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG3, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_I1_WTM_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG3, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_FIFO_Watermark_on_INT1
+* Description : Read I1_WTM
+* Input : Pointer to LSM303AGR_ACC_I1_WTM_t
+* Output : Status of I1_WTM see LSM303AGR_ACC_I1_WTM_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_FIFO_Watermark_on_INT1(void *handle, LSM303AGR_ACC_I1_WTM_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG3, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_I1_WTM_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_FIFO_DRDY2_on_INT1
+* Description : Write I1_DRDY2
+* Input : LSM303AGR_ACC_I1_DRDY2_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_FIFO_DRDY2_on_INT1(void *handle, LSM303AGR_ACC_I1_DRDY2_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG3, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_I1_DRDY2_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG3, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_FIFO_DRDY2_on_INT1
+* Description : Read I1_DRDY2
+* Input : Pointer to LSM303AGR_ACC_I1_DRDY2_t
+* Output : Status of I1_DRDY2 see LSM303AGR_ACC_I1_DRDY2_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_FIFO_DRDY2_on_INT1(void *handle, LSM303AGR_ACC_I1_DRDY2_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG3, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_I1_DRDY2_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_FIFO_DRDY1_on_INT1
+* Description : Write I1_DRDY1
+* Input : LSM303AGR_ACC_I1_DRDY1_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_FIFO_DRDY1_on_INT1(void *handle, LSM303AGR_ACC_I1_DRDY1_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG3, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_I1_DRDY1_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG3, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_FIFO_DRDY1_on_INT1
+* Description : Read I1_DRDY1
+* Input : Pointer to LSM303AGR_ACC_I1_DRDY1_t
+* Output : Status of I1_DRDY1 see LSM303AGR_ACC_I1_DRDY1_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_FIFO_DRDY1_on_INT1(void *handle, LSM303AGR_ACC_I1_DRDY1_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG3, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_I1_DRDY1_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_FIFO_AOL2_on_INT1
+* Description : Write I1_AOI2
+* Input : LSM303AGR_ACC_I1_AOI2_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_FIFO_AOL2_on_INT1(void *handle, LSM303AGR_ACC_I1_AOI2_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG3, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_I1_AOI2_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG3, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_FIFO_AOL2_on_INT1
+* Description : Read I1_AOI2
+* Input : Pointer to LSM303AGR_ACC_I1_AOI2_t
+* Output : Status of I1_AOI2 see LSM303AGR_ACC_I1_AOI2_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_FIFO_AOL2_on_INT1(void *handle, LSM303AGR_ACC_I1_AOI2_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG3, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_I1_AOI2_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_FIFO_AOL1_on_INT1
+* Description : Write I1_AOI1
+* Input : LSM303AGR_ACC_I1_AOI1_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_FIFO_AOL1_on_INT1(void *handle, LSM303AGR_ACC_I1_AOI1_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG3, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_I1_AOI1_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG3, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_FIFO_AOL1_on_INT1
+* Description : Read I1_AOI1
+* Input : Pointer to LSM303AGR_ACC_I1_AOI1_t
+* Output : Status of I1_AOI1 see LSM303AGR_ACC_I1_AOI1_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_FIFO_AOL1_on_INT1(void *handle, LSM303AGR_ACC_I1_AOI1_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG3, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_I1_AOI1_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_FIFO_Click_on_INT1
+* Description : Write I1_CLICK
+* Input : LSM303AGR_ACC_I1_CLICK_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_FIFO_Click_on_INT1(void *handle, LSM303AGR_ACC_I1_CLICK_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG3, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_I1_CLICK_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG3, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_FIFO_Click_on_INT1
+* Description : Read I1_CLICK
+* Input : Pointer to LSM303AGR_ACC_I1_CLICK_t
+* Output : Status of I1_CLICK see LSM303AGR_ACC_I1_CLICK_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_FIFO_Click_on_INT1(void *handle, LSM303AGR_ACC_I1_CLICK_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG3, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_I1_CLICK_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_SPI_mode
+* Description : Write SIM
+* Input : LSM303AGR_ACC_SIM_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_SPI_mode(void *handle, LSM303AGR_ACC_SIM_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG4, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_SIM_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG4, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_SPI_mode
+* Description : Read SIM
+* Input : Pointer to LSM303AGR_ACC_SIM_t
+* Output : Status of SIM see LSM303AGR_ACC_SIM_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_SPI_mode(void *handle, LSM303AGR_ACC_SIM_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG4, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_SIM_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_SelfTest
+* Description : Write ST
+* Input : LSM303AGR_ACC_ST_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_SelfTest(void *handle, LSM303AGR_ACC_ST_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG4, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_ST_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG4, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_SelfTest
+* Description : Read ST
+* Input : Pointer to LSM303AGR_ACC_ST_t
+* Output : Status of ST see LSM303AGR_ACC_ST_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_SelfTest(void *handle, LSM303AGR_ACC_ST_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG4, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_ST_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_HiRes
+* Description : Write HR
+* Input : LSM303AGR_ACC_HR_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_HiRes(void *handle, LSM303AGR_ACC_HR_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG4, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_HR_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG4, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_HiRes
+* Description : Read HR
+* Input : Pointer to LSM303AGR_ACC_HR_t
+* Output : Status of HR see LSM303AGR_ACC_HR_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_HiRes(void *handle, LSM303AGR_ACC_HR_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG4, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_HR_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_FullScale
+* Description : Write FS
+* Input : LSM303AGR_ACC_FS_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_FullScale(void *handle, LSM303AGR_ACC_FS_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG4, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_FS_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG4, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_FullScale
+* Description : Read FS
+* Input : Pointer to LSM303AGR_ACC_FS_t
+* Output : Status of FS see LSM303AGR_ACC_FS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_FullScale(void *handle, LSM303AGR_ACC_FS_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG4, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_FS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_LittleBigEndian
+* Description : Write BLE
+* Input : LSM303AGR_ACC_BLE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_LittleBigEndian(void *handle, LSM303AGR_ACC_BLE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG4, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_BLE_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG4, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_LittleBigEndian
+* Description : Read BLE
+* Input : Pointer to LSM303AGR_ACC_BLE_t
+* Output : Status of BLE see LSM303AGR_ACC_BLE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_LittleBigEndian(void *handle, LSM303AGR_ACC_BLE_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG4, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_BLE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_BlockDataUpdate
+* Description : Write BDU
+* Input : LSM303AGR_ACC_BDU_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_BlockDataUpdate(void *handle, LSM303AGR_ACC_BDU_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG4, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_BDU_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG4, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_BlockDataUpdate
+* Description : Read BDU
+* Input : Pointer to LSM303AGR_ACC_BDU_t
+* Output : Status of BDU see LSM303AGR_ACC_BDU_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_BlockDataUpdate(void *handle, LSM303AGR_ACC_BDU_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG4, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_BDU_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_4D_on_INT2
+* Description : Write D4D_INT2
+* Input : LSM303AGR_ACC_D4D_INT2_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_4D_on_INT2(void *handle, LSM303AGR_ACC_D4D_INT2_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG5, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_D4D_INT2_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG5, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_4D_on_INT2
+* Description : Read D4D_INT2
+* Input : Pointer to LSM303AGR_ACC_D4D_INT2_t
+* Output : Status of D4D_INT2 see LSM303AGR_ACC_D4D_INT2_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_4D_on_INT2(void *handle, LSM303AGR_ACC_D4D_INT2_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG5, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_D4D_INT2_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_LatchInterrupt_on_INT2
+* Description : Write LIR_INT2
+* Input : LSM303AGR_ACC_LIR_INT2_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_LatchInterrupt_on_INT2(void *handle, LSM303AGR_ACC_LIR_INT2_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG5, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_LIR_INT2_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG5, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_LatchInterrupt_on_INT2
+* Description : Read LIR_INT2
+* Input : Pointer to LSM303AGR_ACC_LIR_INT2_t
+* Output : Status of LIR_INT2 see LSM303AGR_ACC_LIR_INT2_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_LatchInterrupt_on_INT2(void *handle, LSM303AGR_ACC_LIR_INT2_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG5, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_LIR_INT2_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_4D_on_INT1
+* Description : Write D4D_INT1
+* Input : LSM303AGR_ACC_D4D_INT1_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_4D_on_INT1(void *handle, LSM303AGR_ACC_D4D_INT1_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG5, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_D4D_INT1_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG5, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_4D_on_INT1
+* Description : Read D4D_INT1
+* Input : Pointer to LSM303AGR_ACC_D4D_INT1_t
+* Output : Status of D4D_INT1 see LSM303AGR_ACC_D4D_INT1_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_4D_on_INT1(void *handle, LSM303AGR_ACC_D4D_INT1_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG5, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_D4D_INT1_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_LatchInterrupt_on_INT1
+* Description : Write LIR_INT1
+* Input : LSM303AGR_ACC_LIR_INT1_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_LatchInterrupt_on_INT1(void *handle, LSM303AGR_ACC_LIR_INT1_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG5, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_LIR_INT1_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG5, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_LatchInterrupt_on_INT1
+* Description : Read LIR_INT1
+* Input : Pointer to LSM303AGR_ACC_LIR_INT1_t
+* Output : Status of LIR_INT1 see LSM303AGR_ACC_LIR_INT1_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_LatchInterrupt_on_INT1(void *handle, LSM303AGR_ACC_LIR_INT1_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG5, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_LIR_INT1_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_FIFO_EN
+* Description : Write FIFO_EN
+* Input : LSM303AGR_ACC_FIFO_EN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_FIFO_EN(void *handle, LSM303AGR_ACC_FIFO_EN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG5, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_FIFO_EN_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG5, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_FIFO_EN
+* Description : Read FIFO_EN
+* Input : Pointer to LSM303AGR_ACC_FIFO_EN_t
+* Output : Status of FIFO_EN see LSM303AGR_ACC_FIFO_EN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_FIFO_EN(void *handle, LSM303AGR_ACC_FIFO_EN_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG5, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_FIFO_EN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_RebootMemory
+* Description : Write BOOT
+* Input : LSM303AGR_ACC_BOOT_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_RebootMemory(void *handle, LSM303AGR_ACC_BOOT_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG5, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_BOOT_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG5, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_RebootMemory
+* Description : Read BOOT
+* Input : Pointer to LSM303AGR_ACC_BOOT_t
+* Output : Status of BOOT see LSM303AGR_ACC_BOOT_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_RebootMemory(void *handle, LSM303AGR_ACC_BOOT_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG5, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_BOOT_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_IntActive
+* Description : Write H_LACTIVE
+* Input : LSM303AGR_ACC_H_LACTIVE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_IntActive(void *handle, LSM303AGR_ACC_H_LACTIVE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG6, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_H_LACTIVE_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG6, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_IntActive
+* Description : Read H_LACTIVE
+* Input : Pointer to LSM303AGR_ACC_H_LACTIVE_t
+* Output : Status of H_LACTIVE see LSM303AGR_ACC_H_LACTIVE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_IntActive(void *handle, LSM303AGR_ACC_H_LACTIVE_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG6, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_H_LACTIVE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_P2_ACT
+* Description : Write P2_ACT
+* Input : LSM303AGR_ACC_P2_ACT_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_P2_ACT(void *handle, LSM303AGR_ACC_P2_ACT_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG6, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_P2_ACT_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG6, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_P2_ACT
+* Description : Read P2_ACT
+* Input : Pointer to LSM303AGR_ACC_P2_ACT_t
+* Output : Status of P2_ACT see LSM303AGR_ACC_P2_ACT_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_P2_ACT(void *handle, LSM303AGR_ACC_P2_ACT_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG6, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_P2_ACT_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Boot_on_INT2
+* Description : Write BOOT_I1
+* Input : LSM303AGR_ACC_BOOT_I1_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Boot_on_INT2(void *handle, LSM303AGR_ACC_BOOT_I1_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG6, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_BOOT_I1_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG6, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Boot_on_INT2
+* Description : Read BOOT_I1
+* Input : Pointer to LSM303AGR_ACC_BOOT_I1_t
+* Output : Status of BOOT_I1 see LSM303AGR_ACC_BOOT_I1_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Boot_on_INT2(void *handle, LSM303AGR_ACC_BOOT_I1_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG6, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_BOOT_I1_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_I2_on_INT2
+* Description : Write I2_INT2
+* Input : LSM303AGR_ACC_I2_INT2_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_I2_on_INT2(void *handle, LSM303AGR_ACC_I2_INT2_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG6, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_I2_INT2_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG6, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_I2_on_INT2
+* Description : Read I2_INT2
+* Input : Pointer to LSM303AGR_ACC_I2_INT2_t
+* Output : Status of I2_INT2 see LSM303AGR_ACC_I2_INT2_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_I2_on_INT2(void *handle, LSM303AGR_ACC_I2_INT2_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG6, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_I2_INT2_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_I2_on_INT1
+* Description : Write I2_INT1
+* Input : LSM303AGR_ACC_I2_INT1_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_I2_on_INT1(void *handle, LSM303AGR_ACC_I2_INT1_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG6, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_I2_INT1_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG6, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_I2_on_INT1
+* Description : Read I2_INT1
+* Input : Pointer to LSM303AGR_ACC_I2_INT1_t
+* Output : Status of I2_INT1 see LSM303AGR_ACC_I2_INT1_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_I2_on_INT1(void *handle, LSM303AGR_ACC_I2_INT1_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG6, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_I2_INT1_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Click_on_INT2
+* Description : Write I2_CLICKEN
+* Input : LSM303AGR_ACC_I2_CLICKEN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Click_on_INT2(void *handle, LSM303AGR_ACC_I2_CLICKEN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG6, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_I2_CLICKEN_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CTRL_REG6, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Click_on_INT2
+* Description : Read I2_CLICKEN
+* Input : Pointer to LSM303AGR_ACC_I2_CLICKEN_t
+* Output : Status of I2_CLICKEN see LSM303AGR_ACC_I2_CLICKEN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Click_on_INT2(void *handle, LSM303AGR_ACC_I2_CLICKEN_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CTRL_REG6, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_I2_CLICKEN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_ReferenceVal
+* Description : Write REF
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_ReferenceVal(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM303AGR_ACC_REF_POSITION; //mask
+ newValue &= LSM303AGR_ACC_REF_MASK; //coerce
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_REFERENCE, &value) )
+ return MEMS_ERROR;
+
+ value &= (u8_t)~LSM303AGR_ACC_REF_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_REFERENCE, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_ReferenceVal
+* Description : Read REF
+* Input : Pointer to u8_t
+* Output : Status of REF
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_ReferenceVal(void *handle, u8_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_REFERENCE, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_REF_MASK; //coerce
+ *value = *value >> LSM303AGR_ACC_REF_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_XDataAvail
+* Description : Read XDA
+* Input : Pointer to LSM303AGR_ACC_XDA_t
+* Output : Status of XDA see LSM303AGR_ACC_XDA_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_XDataAvail(void *handle, LSM303AGR_ACC_XDA_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_STATUS_REG2, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_XDA_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_YDataAvail
+* Description : Read YDA
+* Input : Pointer to LSM303AGR_ACC_YDA_t
+* Output : Status of YDA see LSM303AGR_ACC_YDA_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_YDataAvail(void *handle, LSM303AGR_ACC_YDA_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_STATUS_REG2, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_YDA_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_ZDataAvail
+* Description : Read ZDA
+* Input : Pointer to LSM303AGR_ACC_ZDA_t
+* Output : Status of ZDA see LSM303AGR_ACC_ZDA_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_ZDataAvail(void *handle, LSM303AGR_ACC_ZDA_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_STATUS_REG2, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_ZDA_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_XYZDataAvail
+* Description : Read ZYXDA
+* Input : Pointer to LSM303AGR_ACC_ZYXDA_t
+* Output : Status of ZYXDA see LSM303AGR_ACC_ZYXDA_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_XYZDataAvail(void *handle, LSM303AGR_ACC_ZYXDA_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_STATUS_REG2, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_ZYXDA_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_XDataOverrun
+* Description : Read XOR
+* Input : Pointer to LSM303AGR_ACC_XOR_t
+* Output : Status of XOR see LSM303AGR_ACC_XOR_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_XDataOverrun(void *handle, LSM303AGR_ACC_XOR_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_STATUS_REG2, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_XOR_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_YDataOverrun
+* Description : Read YOR
+* Input : Pointer to LSM303AGR_ACC_YOR_t
+* Output : Status of YOR see LSM303AGR_ACC_YOR_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_YDataOverrun(void *handle, LSM303AGR_ACC_YOR_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_STATUS_REG2, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_YOR_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_ZDataOverrun
+* Description : Read ZOR
+* Input : Pointer to LSM303AGR_ACC_ZOR_t
+* Output : Status of ZOR see LSM303AGR_ACC_ZOR_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_ZDataOverrun(void *handle, LSM303AGR_ACC_ZOR_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_STATUS_REG2, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_ZOR_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_XYZDataOverrun
+* Description : Read ZYXOR
+* Input : Pointer to LSM303AGR_ACC_ZYXOR_t
+* Output : Status of ZYXOR see LSM303AGR_ACC_ZYXOR_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_XYZDataOverrun(void *handle, LSM303AGR_ACC_ZYXOR_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_STATUS_REG2, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_ZYXOR_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_FifoThreshold
+* Description : Write FTH
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_FifoThreshold(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM303AGR_ACC_FTH_POSITION; //mask
+ newValue &= LSM303AGR_ACC_FTH_MASK; //coerce
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_FIFO_CTRL_REG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_FTH_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_FIFO_CTRL_REG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_FifoThreshold
+* Description : Read FTH
+* Input : Pointer to u8_t
+* Output : Status of FTH
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_FifoThreshold(void *handle, u8_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_FIFO_CTRL_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_FTH_MASK; //coerce
+ *value = *value >> LSM303AGR_ACC_FTH_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_TriggerSel
+* Description : Write TR
+* Input : LSM303AGR_ACC_TR_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_TriggerSel(void *handle, LSM303AGR_ACC_TR_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_FIFO_CTRL_REG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_TR_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_FIFO_CTRL_REG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_TriggerSel
+* Description : Read TR
+* Input : Pointer to LSM303AGR_ACC_TR_t
+* Output : Status of TR see LSM303AGR_ACC_TR_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_TriggerSel(void *handle, LSM303AGR_ACC_TR_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_FIFO_CTRL_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_TR_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_FifoMode
+* Description : Write FM
+* Input : LSM303AGR_ACC_FM_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_FifoMode(void *handle, LSM303AGR_ACC_FM_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_FIFO_CTRL_REG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_FM_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_FIFO_CTRL_REG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_FifoMode
+* Description : Read FM
+* Input : Pointer to LSM303AGR_ACC_FM_t
+* Output : Status of FM see LSM303AGR_ACC_FM_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_FifoMode(void *handle, LSM303AGR_ACC_FM_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_FIFO_CTRL_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_FM_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_FifoSamplesAvail
+* Description : Read FSS
+* Input : Pointer to u8_t
+* Output : Status of FSS
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_FifoSamplesAvail(void *handle, u8_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_FIFO_SRC_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_FSS_MASK; //coerce
+ *value = *value >> LSM303AGR_ACC_FSS_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_FifoEmpty
+* Description : Read EMPTY
+* Input : Pointer to LSM303AGR_ACC_EMPTY_t
+* Output : Status of EMPTY see LSM303AGR_ACC_EMPTY_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_FifoEmpty(void *handle, LSM303AGR_ACC_EMPTY_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_FIFO_SRC_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_EMPTY_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_FifoOverrun
+* Description : Read OVRN_FIFO
+* Input : Pointer to LSM303AGR_ACC_OVRN_FIFO_t
+* Output : Status of OVRN_FIFO see LSM303AGR_ACC_OVRN_FIFO_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_FifoOverrun(void *handle, LSM303AGR_ACC_OVRN_FIFO_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_FIFO_SRC_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_OVRN_FIFO_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_WatermarkLevel
+* Description : Read WTM
+* Input : Pointer to LSM303AGR_ACC_WTM_t
+* Output : Status of WTM see LSM303AGR_ACC_WTM_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_WatermarkLevel(void *handle, LSM303AGR_ACC_WTM_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_FIFO_SRC_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_WTM_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Int1EnXLo
+* Description : Write XLIE
+* Input : LSM303AGR_ACC_XLIE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Int1EnXLo(void *handle, LSM303AGR_ACC_XLIE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_XLIE_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_INT1_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int1EnXLo
+* Description : Read XLIE
+* Input : Pointer to LSM303AGR_ACC_XLIE_t
+* Output : Status of XLIE see LSM303AGR_ACC_XLIE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int1EnXLo(void *handle, LSM303AGR_ACC_XLIE_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_XLIE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Int1EnXHi
+* Description : Write XHIE
+* Input : LSM303AGR_ACC_XHIE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Int1EnXHi(void *handle, LSM303AGR_ACC_XHIE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_XHIE_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_INT1_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int1EnXHi
+* Description : Read XHIE
+* Input : Pointer to LSM303AGR_ACC_XHIE_t
+* Output : Status of XHIE see LSM303AGR_ACC_XHIE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int1EnXHi(void *handle, LSM303AGR_ACC_XHIE_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_XHIE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Int1EnYLo
+* Description : Write YLIE
+* Input : LSM303AGR_ACC_YLIE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Int1EnYLo(void *handle, LSM303AGR_ACC_YLIE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_YLIE_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_INT1_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int1EnYLo
+* Description : Read YLIE
+* Input : Pointer to LSM303AGR_ACC_YLIE_t
+* Output : Status of YLIE see LSM303AGR_ACC_YLIE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int1EnYLo(void *handle, LSM303AGR_ACC_YLIE_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_YLIE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Int1EnYHi
+* Description : Write YHIE
+* Input : LSM303AGR_ACC_YHIE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Int1EnYHi(void *handle, LSM303AGR_ACC_YHIE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_YHIE_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_INT1_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int1EnYHi
+* Description : Read YHIE
+* Input : Pointer to LSM303AGR_ACC_YHIE_t
+* Output : Status of YHIE see LSM303AGR_ACC_YHIE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int1EnYHi(void *handle, LSM303AGR_ACC_YHIE_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_YHIE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Int1EnZLo
+* Description : Write ZLIE
+* Input : LSM303AGR_ACC_ZLIE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Int1EnZLo(void *handle, LSM303AGR_ACC_ZLIE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_ZLIE_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_INT1_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int1EnZLo
+* Description : Read ZLIE
+* Input : Pointer to LSM303AGR_ACC_ZLIE_t
+* Output : Status of ZLIE see LSM303AGR_ACC_ZLIE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int1EnZLo(void *handle, LSM303AGR_ACC_ZLIE_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_ZLIE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Int1EnZHi
+* Description : Write ZHIE
+* Input : LSM303AGR_ACC_ZHIE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Int1EnZHi(void *handle, LSM303AGR_ACC_ZHIE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_ZHIE_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_INT1_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int1EnZHi
+* Description : Read ZHIE
+* Input : Pointer to LSM303AGR_ACC_ZHIE_t
+* Output : Status of ZHIE see LSM303AGR_ACC_ZHIE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int1EnZHi(void *handle, LSM303AGR_ACC_ZHIE_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_ZHIE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Int1_6D
+* Description : Write 6D
+* Input : LSM303AGR_ACC_6D_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Int1_6D(void *handle, LSM303AGR_ACC_6D_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_6D_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_INT1_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int1_6D
+* Description : Read 6D
+* Input : Pointer to LSM303AGR_ACC_6D_t
+* Output : Status of 6D see LSM303AGR_ACC_6D_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int1_6D(void *handle, LSM303AGR_ACC_6D_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_6D_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Int1_AOI
+* Description : Write AOI
+* Input : LSM303AGR_ACC_AOI_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Int1_AOI(void *handle, LSM303AGR_ACC_AOI_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_AOI_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_INT1_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int1_AOI
+* Description : Read AOI
+* Input : Pointer to LSM303AGR_ACC_AOI_t
+* Output : Status of AOI see LSM303AGR_ACC_AOI_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int1_AOI(void *handle, LSM303AGR_ACC_AOI_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_AOI_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Int2EnXLo
+* Description : Write XLIE
+* Input : LSM303AGR_ACC_XLIE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Int2EnXLo(void *handle, LSM303AGR_ACC_XLIE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_XLIE_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_INT2_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int2EnXLo
+* Description : Read XLIE
+* Input : Pointer to LSM303AGR_ACC_XLIE_t
+* Output : Status of XLIE see LSM303AGR_ACC_XLIE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int2EnXLo(void *handle, LSM303AGR_ACC_XLIE_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_XLIE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Int2EnXHi
+* Description : Write XHIE
+* Input : LSM303AGR_ACC_XHIE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Int2EnXHi(void *handle, LSM303AGR_ACC_XHIE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_XHIE_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_INT2_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int2EnXHi
+* Description : Read XHIE
+* Input : Pointer to LSM303AGR_ACC_XHIE_t
+* Output : Status of XHIE see LSM303AGR_ACC_XHIE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int2EnXHi(void *handle, LSM303AGR_ACC_XHIE_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_XHIE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Int2EnYLo
+* Description : Write YLIE
+* Input : LSM303AGR_ACC_YLIE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Int2EnYLo(void *handle, LSM303AGR_ACC_YLIE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_YLIE_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_INT2_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int2EnYLo
+* Description : Read YLIE
+* Input : Pointer to LSM303AGR_ACC_YLIE_t
+* Output : Status of YLIE see LSM303AGR_ACC_YLIE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int2EnYLo(void *handle, LSM303AGR_ACC_YLIE_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_YLIE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Int2EnYHi
+* Description : Write YHIE
+* Input : LSM303AGR_ACC_YHIE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Int2EnYHi(void *handle, LSM303AGR_ACC_YHIE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_YHIE_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_INT2_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int2EnYHi
+* Description : Read YHIE
+* Input : Pointer to LSM303AGR_ACC_YHIE_t
+* Output : Status of YHIE see LSM303AGR_ACC_YHIE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int2EnYHi(void *handle, LSM303AGR_ACC_YHIE_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_YHIE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Int2EnZLo
+* Description : Write ZLIE
+* Input : LSM303AGR_ACC_ZLIE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Int2EnZLo(void *handle, LSM303AGR_ACC_ZLIE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_ZLIE_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_INT2_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int2EnZLo
+* Description : Read ZLIE
+* Input : Pointer to LSM303AGR_ACC_ZLIE_t
+* Output : Status of ZLIE see LSM303AGR_ACC_ZLIE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int2EnZLo(void *handle, LSM303AGR_ACC_ZLIE_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_ZLIE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Int2EnZHi
+* Description : Write ZHIE
+* Input : LSM303AGR_ACC_ZHIE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Int2EnZHi(void *handle, LSM303AGR_ACC_ZHIE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_ZHIE_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_INT2_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int2EnZHi
+* Description : Read ZHIE
+* Input : Pointer to LSM303AGR_ACC_ZHIE_t
+* Output : Status of ZHIE see LSM303AGR_ACC_ZHIE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int2EnZHi(void *handle, LSM303AGR_ACC_ZHIE_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_ZHIE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Int2_6D
+* Description : Write 6D
+* Input : LSM303AGR_ACC_6D_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Int2_6D(void *handle, LSM303AGR_ACC_6D_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_6D_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_INT2_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int2_6D
+* Description : Read 6D
+* Input : Pointer to LSM303AGR_ACC_6D_t
+* Output : Status of 6D see LSM303AGR_ACC_6D_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int2_6D(void *handle, LSM303AGR_ACC_6D_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_6D_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Int2_AOI
+* Description : Write AOI
+* Input : LSM303AGR_ACC_AOI_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Int2_AOI(void *handle, LSM303AGR_ACC_AOI_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_AOI_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_INT2_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int2_AOI
+* Description : Read AOI
+* Input : Pointer to LSM303AGR_ACC_AOI_t
+* Output : Status of AOI see LSM303AGR_ACC_AOI_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int2_AOI(void *handle, LSM303AGR_ACC_AOI_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_AOI_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int1_Xlo
+* Description : Read XL
+* Input : Pointer to LSM303AGR_ACC_XL_t
+* Output : Status of XL see LSM303AGR_ACC_XL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int1_Xlo(void *handle, LSM303AGR_ACC_XL_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_SOURCE, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_XL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int1_XHi
+* Description : Read XH
+* Input : Pointer to LSM303AGR_ACC_XH_t
+* Output : Status of XH see LSM303AGR_ACC_XH_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int1_XHi(void *handle, LSM303AGR_ACC_XH_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_SOURCE, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_XH_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int1_YLo
+* Description : Read YL
+* Input : Pointer to LSM303AGR_ACC_YL_t
+* Output : Status of YL see LSM303AGR_ACC_YL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int1_YLo(void *handle, LSM303AGR_ACC_YL_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_SOURCE, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_YL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int1_YHi
+* Description : Read YH
+* Input : Pointer to LSM303AGR_ACC_YH_t
+* Output : Status of YH see LSM303AGR_ACC_YH_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int1_YHi(void *handle, LSM303AGR_ACC_YH_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_SOURCE, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_YH_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int1_Zlo
+* Description : Read ZL
+* Input : Pointer to LSM303AGR_ACC_ZL_t
+* Output : Status of ZL see LSM303AGR_ACC_ZL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int1_Zlo(void *handle, LSM303AGR_ACC_ZL_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_SOURCE, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_ZL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int1_ZHi
+* Description : Read ZH
+* Input : Pointer to LSM303AGR_ACC_ZH_t
+* Output : Status of ZH see LSM303AGR_ACC_ZH_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int1_ZHi(void *handle, LSM303AGR_ACC_ZH_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_SOURCE, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_ZH_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int1_IA
+* Description : Read IA
+* Input : Pointer to LSM303AGR_ACC_IA_t
+* Output : Status of IA see LSM303AGR_ACC_IA_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int1_IA(void *handle, LSM303AGR_ACC_IA_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_SOURCE, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_IA_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int2_Xlo
+* Description : Read XL
+* Input : Pointer to LSM303AGR_ACC_XL_t
+* Output : Status of XL see LSM303AGR_ACC_XL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int2_Xlo(void *handle, LSM303AGR_ACC_XL_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_SOURCE, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_XL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int2_XHi
+* Description : Read XH
+* Input : Pointer to LSM303AGR_ACC_XH_t
+* Output : Status of XH see LSM303AGR_ACC_XH_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int2_XHi(void *handle, LSM303AGR_ACC_XH_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_SOURCE, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_XH_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int2_YLo
+* Description : Read YL
+* Input : Pointer to LSM303AGR_ACC_YL_t
+* Output : Status of YL see LSM303AGR_ACC_YL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int2_YLo(void *handle, LSM303AGR_ACC_YL_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_SOURCE, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_YL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int2_YHi
+* Description : Read YH
+* Input : Pointer to LSM303AGR_ACC_YH_t
+* Output : Status of YH see LSM303AGR_ACC_YH_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int2_YHi(void *handle, LSM303AGR_ACC_YH_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_SOURCE, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_YH_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int2_Zlo
+* Description : Read ZL
+* Input : Pointer to LSM303AGR_ACC_ZL_t
+* Output : Status of ZL see LSM303AGR_ACC_ZL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int2_Zlo(void *handle, LSM303AGR_ACC_ZL_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_SOURCE, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_ZL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int2_ZHi
+* Description : Read ZH
+* Input : Pointer to LSM303AGR_ACC_ZH_t
+* Output : Status of ZH see LSM303AGR_ACC_ZH_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int2_ZHi(void *handle, LSM303AGR_ACC_ZH_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_SOURCE, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_ZH_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int2_IA
+* Description : Read IA
+* Input : Pointer to LSM303AGR_ACC_IA_t
+* Output : Status of IA see LSM303AGR_ACC_IA_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int2_IA(void *handle, LSM303AGR_ACC_IA_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_SOURCE, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_IA_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Int1_Threshold
+* Description : Write THS
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Int1_Threshold(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM303AGR_ACC_THS_POSITION; //mask
+ newValue &= LSM303AGR_ACC_THS_MASK; //coerce
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_THS, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_THS_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_INT1_THS, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int1_Threshold
+* Description : Read THS
+* Input : Pointer to u8_t
+* Output : Status of THS
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int1_Threshold(void *handle, u8_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_THS, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_THS_MASK; //coerce
+ *value = *value >> LSM303AGR_ACC_THS_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Int2_Threshold
+* Description : Write THS
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Int2_Threshold(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM303AGR_ACC_THS_POSITION; //mask
+ newValue &= LSM303AGR_ACC_THS_MASK; //coerce
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_THS, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_THS_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_INT2_THS, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int2_Threshold
+* Description : Read THS
+* Input : Pointer to u8_t
+* Output : Status of THS
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int2_Threshold(void *handle, u8_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_THS, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_THS_MASK; //coerce
+ *value = *value >> LSM303AGR_ACC_THS_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Int1_Duration
+* Description : Write D
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Int1_Duration(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM303AGR_ACC_D_POSITION; //mask
+ newValue &= LSM303AGR_ACC_D_MASK; //coerce
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_DURATION, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_D_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_INT1_DURATION, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int1_Duration
+* Description : Read D
+* Input : Pointer to u8_t
+* Output : Status of D
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int1_Duration(void *handle, u8_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT1_DURATION, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_D_MASK; //coerce
+ *value = *value >> LSM303AGR_ACC_D_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_Int2_Duration
+* Description : Write D
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_Int2_Duration(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM303AGR_ACC_D_POSITION; //mask
+ newValue &= LSM303AGR_ACC_D_MASK; //coerce
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_DURATION, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_D_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_INT2_DURATION, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_Int2_Duration
+* Description : Read D
+* Input : Pointer to u8_t
+* Output : Status of D
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_Int2_Duration(void *handle, u8_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_INT2_DURATION, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_D_MASK; //coerce
+ *value = *value >> LSM303AGR_ACC_D_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_XSingle
+* Description : Write XS
+* Input : LSM303AGR_ACC_XS_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_XSingle(void *handle, LSM303AGR_ACC_XS_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_XS_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CLICK_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_XSingle
+* Description : Read XS
+* Input : Pointer to LSM303AGR_ACC_XS_t
+* Output : Status of XS see LSM303AGR_ACC_XS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_XSingle(void *handle, LSM303AGR_ACC_XS_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_XS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_XDouble
+* Description : Write XD
+* Input : LSM303AGR_ACC_XD_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_XDouble(void *handle, LSM303AGR_ACC_XD_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_XD_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CLICK_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_XDouble
+* Description : Read XD
+* Input : Pointer to LSM303AGR_ACC_XD_t
+* Output : Status of XD see LSM303AGR_ACC_XD_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_XDouble(void *handle, LSM303AGR_ACC_XD_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_XD_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_YSingle
+* Description : Write YS
+* Input : LSM303AGR_ACC_YS_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_YSingle(void *handle, LSM303AGR_ACC_YS_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_YS_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CLICK_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_YSingle
+* Description : Read YS
+* Input : Pointer to LSM303AGR_ACC_YS_t
+* Output : Status of YS see LSM303AGR_ACC_YS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_YSingle(void *handle, LSM303AGR_ACC_YS_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_YS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_YDouble
+* Description : Write YD
+* Input : LSM303AGR_ACC_YD_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_YDouble(void *handle, LSM303AGR_ACC_YD_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_YD_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CLICK_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_YDouble
+* Description : Read YD
+* Input : Pointer to LSM303AGR_ACC_YD_t
+* Output : Status of YD see LSM303AGR_ACC_YD_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_YDouble(void *handle, LSM303AGR_ACC_YD_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_YD_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_ZSingle
+* Description : Write ZS
+* Input : LSM303AGR_ACC_ZS_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_ZSingle(void *handle, LSM303AGR_ACC_ZS_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_ZS_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CLICK_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_ZSingle
+* Description : Read ZS
+* Input : Pointer to LSM303AGR_ACC_ZS_t
+* Output : Status of ZS see LSM303AGR_ACC_ZS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_ZSingle(void *handle, LSM303AGR_ACC_ZS_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_ZS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_ZDouble
+* Description : Write ZD
+* Input : LSM303AGR_ACC_ZD_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_ZDouble(void *handle, LSM303AGR_ACC_ZD_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_CFG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_ZD_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CLICK_CFG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_ZDouble
+* Description : Read ZD
+* Input : Pointer to LSM303AGR_ACC_ZD_t
+* Output : Status of ZD see LSM303AGR_ACC_ZD_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_ZDouble(void *handle, LSM303AGR_ACC_ZD_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_CFG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_ZD_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_ClickX
+* Description : Read X
+* Input : Pointer to LSM303AGR_ACC_X_t
+* Output : Status of X see LSM303AGR_ACC_X_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_ClickX(void *handle, LSM303AGR_ACC_X_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_SRC, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_X_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_ClickY
+* Description : Read Y
+* Input : Pointer to LSM303AGR_ACC_Y_t
+* Output : Status of Y see LSM303AGR_ACC_Y_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_ClickY(void *handle, LSM303AGR_ACC_Y_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_SRC, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_Y_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_ClickZ
+* Description : Read Z
+* Input : Pointer to LSM303AGR_ACC_Z_t
+* Output : Status of Z see LSM303AGR_ACC_Z_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_ClickZ(void *handle, LSM303AGR_ACC_Z_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_SRC, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_Z_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_ClickSign
+* Description : Read SIGN
+* Input : Pointer to LSM303AGR_ACC_SIGN_t
+* Output : Status of SIGN see LSM303AGR_ACC_SIGN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_ClickSign(void *handle, LSM303AGR_ACC_SIGN_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_SRC, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_SIGN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_SingleCLICK
+* Description : Read SCLICK
+* Input : Pointer to LSM303AGR_ACC_SCLICK_t
+* Output : Status of SCLICK see LSM303AGR_ACC_SCLICK_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_SingleCLICK(void *handle, LSM303AGR_ACC_SCLICK_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_SRC, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_SCLICK_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_DoubleCLICK
+* Description : Read DCLICK
+* Input : Pointer to LSM303AGR_ACC_DCLICK_t
+* Output : Status of DCLICK see LSM303AGR_ACC_DCLICK_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_DoubleCLICK(void *handle, LSM303AGR_ACC_DCLICK_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_SRC, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_DCLICK_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_IA
+* Description : Read IA
+* Input : Pointer to LSM303AGR_ACC_IA_t
+* Output : Status of IA see LSM303AGR_ACC_IA_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_CLICK_IA(void *handle, LSM303AGR_ACC_CLICK_IA_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_SRC, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_IA_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_ClickThreshold
+* Description : Write THS
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_ClickThreshold(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM303AGR_ACC_THS_POSITION; //mask
+ newValue &= LSM303AGR_ACC_THS_MASK; //coerce
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_THS, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_THS_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_CLICK_THS, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_ClickThreshold
+* Description : Read THS
+* Input : Pointer to u8_t
+* Output : Status of THS
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_ClickThreshold(void *handle, u8_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_CLICK_THS, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_THS_MASK; //coerce
+ *value = *value >> LSM303AGR_ACC_THS_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_ClickTimeLimit
+* Description : Write TLI
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_ClickTimeLimit(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM303AGR_ACC_TLI_POSITION; //mask
+ newValue &= LSM303AGR_ACC_TLI_MASK; //coerce
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_TIME_LIMIT, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_ACC_TLI_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_TIME_LIMIT, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_ClickTimeLimit
+* Description : Read TLI
+* Input : Pointer to u8_t
+* Output : Status of TLI
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_ClickTimeLimit(void *handle, u8_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_TIME_LIMIT, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_TLI_MASK; //coerce
+ *value = *value >> LSM303AGR_ACC_TLI_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_ClickTimeLatency
+* Description : Write TLA
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_ClickTimeLatency(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM303AGR_ACC_TLA_POSITION; //mask
+ newValue &= LSM303AGR_ACC_TLA_MASK; //coerce
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_TIME_LATENCY, &value) )
+ return MEMS_ERROR;
+
+ value &= (u8_t)~LSM303AGR_ACC_TLA_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_TIME_LATENCY, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_ClickTimeLatency
+* Description : Read TLA
+* Input : Pointer to u8_t
+* Output : Status of TLA
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_ClickTimeLatency(void *handle, u8_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_TIME_LATENCY, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_TLA_MASK; //coerce
+ *value = *value >> LSM303AGR_ACC_TLA_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_W_ClickTimeWindow
+* Description : Write TW
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_W_ClickTimeWindow(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM303AGR_ACC_TW_POSITION; //mask
+ newValue &= LSM303AGR_ACC_TW_MASK; //coerce
+
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_TIME_WINDOW, &value) )
+ return MEMS_ERROR;
+
+ value &= (u8_t)~LSM303AGR_ACC_TW_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_ACC_write_reg(handle, LSM303AGR_ACC_TIME_WINDOW, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_ACC_R_ClickTimeWindow
+* Description : Read TW
+* Input : Pointer to u8_t
+* Output : Status of TW
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_ACC_R_ClickTimeWindow(void *handle, u8_t *value)
+{
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_TIME_WINDOW, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_ACC_TW_MASK; //coerce
+ *value = *value >> LSM303AGR_ACC_TW_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : mems_status_t LSM303AGR_ACC_Get_Voltage_ADC(u8_t *buff)
+* Description : Read Voltage_ADC output register
+* Input : pointer to [u8_t]
+* Output : Voltage_ADC buffer u8_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_Get_Voltage_ADC(void *handle, u8_t *buff)
+{
+ u8_t i, j, k;
+ u8_t numberOfByteForDimension;
+
+ numberOfByteForDimension=6/3;
+
+ k=0;
+ for (i=0; i<3;i++ )
+ {
+ for (j=0; j<numberOfByteForDimension;j++ )
+ {
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_OUT_ADC1_L+k, &buff[k]))
+ return MEMS_ERROR;
+ k++;
+ }
+ }
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : mems_status_t LSM303AGR_ACC_Get_Raw_Acceleration(u8_t *buff)
+* Description : Read Acceleration output register
+* Input : pointer to [u8_t]
+* Output : Acceleration buffer u8_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_Get_Raw_Acceleration(void *handle, u8_t *buff)
+{
+ u8_t i, j, k;
+ u8_t numberOfByteForDimension;
+
+ numberOfByteForDimension=6/3;
+
+ k=0;
+ for (i=0; i<3;i++ )
+ {
+ for (j=0; j<numberOfByteForDimension;j++ )
+ {
+ if( !LSM303AGR_ACC_read_reg(handle, LSM303AGR_ACC_OUT_X_L+k, &buff[k]))
+ return MEMS_ERROR;
+ k++;
+ }
+ }
+
+ return MEMS_SUCCESS;
+}
+
+/*
+ * Following is the table of sensitivity values for each case.
+ * Values are espressed in ug/digit.
+ */
+const long long LSM303AGR_ACC_Sensitivity_List[3][4] = {
+ /* HR 12-bit */
+ {
+ 980, /* FS @2g */
+ 1950, /* FS @4g */
+ 3900, /* FS @8g */
+ 11720, /* FS @16g */
+ },
+
+ /* Normal 10-bit */
+ {
+ 3900, /* FS @2g */
+ 7820, /* FS @4g */
+ 15630, /* FS @8g */
+ 46900, /* FS @16g */
+ },
+
+ /* LP 8-bit */
+ {
+ 15630, /* FS @2g */
+ 31260, /* FS @4g */
+ 62520, /* FS @8g */
+ 187580, /* FS @16g */
+ },
+};
+
+/*
+ * Values returned are espressed in mg.
+ */
+mems_status_t LSM303AGR_ACC_Get_Acceleration(void *handle, int *buff)
+{
+ Type3Axis16bit_U raw_data_tmp;
+ u8_t op_mode = 0, fs_mode = 0, shift = 0;
+ LSM303AGR_ACC_LPEN_t lp;
+ LSM303AGR_ACC_HR_t hr;
+ LSM303AGR_ACC_FS_t fs;
+
+ /* Determine which operational mode the acc is set */
+ if(!LSM303AGR_ACC_R_HiRes(handle, &hr)) {
+ return MEMS_ERROR;
+ }
+
+ if(!LSM303AGR_ACC_R_LOWPWR_EN(handle, &lp)) {
+ return MEMS_ERROR;
+ }
+
+ if (lp == LSM303AGR_ACC_LPEN_ENABLED && hr == LSM303AGR_ACC_HR_DISABLED) {
+ /* op mode is LP 8-bit */
+ op_mode = 2;
+ shift = 8;
+ } else if (lp == LSM303AGR_ACC_LPEN_DISABLED && hr == LSM303AGR_ACC_HR_DISABLED) {
+ /* op mode is Normal 10-bit */
+ op_mode = 1;
+ shift = 6;
+ } else if (lp == LSM303AGR_ACC_LPEN_DISABLED && hr == LSM303AGR_ACC_HR_ENABLED) {
+ /* op mode is HR 12-bit */
+ op_mode = 0;
+ shift = 4;
+ } else {
+ return MEMS_ERROR;
+ }
+
+ /* Determine the Full Scale the acc is set */
+ if(!LSM303AGR_ACC_R_FullScale(handle, &fs)) {
+ return MEMS_ERROR;
+ }
+
+ switch (fs) {
+ case LSM303AGR_ACC_FS_2G:
+ fs_mode = 0;
+ break;
+
+ case LSM303AGR_ACC_FS_4G:
+ fs_mode = 1;
+ break;
+
+ case LSM303AGR_ACC_FS_8G:
+ fs_mode = 2;
+ break;
+
+ case LSM303AGR_ACC_FS_16G:
+ fs_mode = 3;
+ break;
+ }
+
+ /* Read out raw accelerometer samples */
+ if(!LSM303AGR_ACC_Get_Raw_Acceleration(handle, raw_data_tmp.u8bit)) {
+ return MEMS_ERROR;
+ }
+
+ /* Apply proper shift and sensitivity */
+ buff[0] = ((raw_data_tmp.i16bit[0] >> shift) * LSM303AGR_ACC_Sensitivity_List[op_mode][fs_mode] + 500) / 1000;
+ buff[1] = ((raw_data_tmp.i16bit[1] >> shift) * LSM303AGR_ACC_Sensitivity_List[op_mode][fs_mode] + 500) / 1000;
+ buff[2] = ((raw_data_tmp.i16bit[2] >> shift) * LSM303AGR_ACC_Sensitivity_List[op_mode][fs_mode] + 500) / 1000;
+
+ return MEMS_SUCCESS;
+}
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Components/LSM303AGRSensor/LSM303AGR_acc_driver.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,1608 @@
+/**
+ ******************************************************************************
+ * @file LSM303AGR_acc_driver.h
+ * @author MEMS Application Team
+ * @version V1.1
+ * @date 24-February-2016
+ * @brief LSM303AGR Accelerometer header driver file
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+/* Define to prevent recursive inclusion -------------------------------------*/
+#ifndef __LSM303AGR_ACC_DRIVER__H
+#define __LSM303AGR_ACC_DRIVER__H
+
+/* Includes ------------------------------------------------------------------*/
+#include <stdint.h>
+
+/* Exported types ------------------------------------------------------------*/
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+//these could change accordingly with the architecture
+
+#ifndef __ARCHDEP__TYPES
+#define __ARCHDEP__TYPES
+
+typedef unsigned char u8_t;
+typedef unsigned short int u16_t;
+typedef unsigned int u32_t;
+typedef int i32_t;
+typedef short int i16_t;
+typedef signed char i8_t;
+
+#endif /*__ARCHDEP__TYPES*/
+
+/* Exported common structure --------------------------------------------------------*/
+
+#ifndef __SHARED__TYPES
+#define __SHARED__TYPES
+
+typedef union{
+ i16_t i16bit[3];
+ u8_t u8bit[6];
+} Type3Axis16bit_U;
+
+typedef union{
+ i16_t i16bit;
+ u8_t u8bit[2];
+} Type1Axis16bit_U;
+
+typedef union{
+ i32_t i32bit;
+ u8_t u8bit[4];
+} Type1Axis32bit_U;
+
+typedef enum {
+ MEMS_SUCCESS = 0x01,
+ MEMS_ERROR = 0x00
+} mems_status_t;
+
+#endif /*__SHARED__TYPES*/
+
+/* Exported macro ------------------------------------------------------------*/
+
+/* Exported constants --------------------------------------------------------*/
+
+/************** I2C Address *****************/
+
+#define LSM303AGR_ACC_I2C_ADDRESS 0x32
+
+/************** Who am I *******************/
+
+#define LSM303AGR_ACC_WHO_AM_I 0x33
+
+/* Private Function Prototype -------------------------------------------------------*/
+
+void LSM303AGR_ACC_SwapHighLowByte(u8_t *bufferToSwap, u8_t numberOfByte, u8_t dimension);
+
+/* Public Function Prototypes ------------------------------------------------*/
+
+mems_status_t LSM303AGR_ACC_read_reg( void *handle, u8_t Reg, u8_t* Data );
+mems_status_t LSM303AGR_ACC_write_reg( void *handle, u8_t Reg, u8_t Data );
+
+
+/************** Device Register *******************/
+#define LSM303AGR_ACC_STATUS_REG_AUX 0X07
+#define LSM303AGR_ACC_OUT_ADC1_L 0X08
+#define LSM303AGR_ACC_OUT_ADC1_H 0X09
+#define LSM303AGR_ACC_OUT_ADC2_L 0X0A
+#define LSM303AGR_ACC_OUT_ADC2_H 0X0B
+#define LSM303AGR_ACC_OUT_ADC3_L 0X0C
+#define LSM303AGR_ACC_OUT_ADC3_H 0X0D
+#define LSM303AGR_ACC_INT_COUNTER_REG 0X0E
+#define LSM303AGR_ACC_WHO_AM_I_REG 0X0F
+#define LSM303AGR_ACC_TEMP_CFG_REG 0X1F
+#define LSM303AGR_ACC_CTRL_REG1 0X20
+#define LSM303AGR_ACC_CTRL_REG2 0X21
+#define LSM303AGR_ACC_CTRL_REG3 0X22
+#define LSM303AGR_ACC_CTRL_REG4 0X23
+#define LSM303AGR_ACC_CTRL_REG5 0X24
+#define LSM303AGR_ACC_CTRL_REG6 0X25
+#define LSM303AGR_ACC_REFERENCE 0X26
+#define LSM303AGR_ACC_STATUS_REG2 0X27
+#define LSM303AGR_ACC_OUT_X_L 0X28
+#define LSM303AGR_ACC_OUT_X_H 0X29
+#define LSM303AGR_ACC_OUT_Y_L 0X2A
+#define LSM303AGR_ACC_OUT_Y_H 0X2B
+#define LSM303AGR_ACC_OUT_Z_L 0X2C
+#define LSM303AGR_ACC_OUT_Z_H 0X2D
+#define LSM303AGR_ACC_FIFO_CTRL_REG 0X2E
+#define LSM303AGR_ACC_FIFO_SRC_REG 0X2F
+#define LSM303AGR_ACC_INT1_CFG 0X30
+#define LSM303AGR_ACC_INT1_SOURCE 0X31
+#define LSM303AGR_ACC_INT1_THS 0X32
+#define LSM303AGR_ACC_INT1_DURATION 0X33
+#define LSM303AGR_ACC_INT2_CFG 0X34
+#define LSM303AGR_ACC_INT2_SOURCE 0X35
+#define LSM303AGR_ACC_INT2_THS 0X36
+#define LSM303AGR_ACC_INT2_DURATION 0X37
+#define LSM303AGR_ACC_CLICK_CFG 0X38
+#define LSM303AGR_ACC_CLICK_SRC 0X39
+#define LSM303AGR_ACC_CLICK_THS 0X3A
+#define LSM303AGR_ACC_TIME_LIMIT 0X3B
+#define LSM303AGR_ACC_TIME_LATENCY 0X3C
+#define LSM303AGR_ACC_TIME_WINDOW 0X3D
+
+/*******************************************************************************
+* Register : STATUS_REG_AUX
+* Address : 0X07
+* Bit Group Name: 1DA
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_1DA_NOT_AVAILABLE =0x00,
+ LSM303AGR_ACC_1DA_AVAILABLE =0x01,
+} LSM303AGR_ACC_1DA_t;
+
+#define LSM303AGR_ACC_1DA_MASK 0x01
+mems_status_t LSM303AGR_ACC_R_x_data_avail(void *handle, LSM303AGR_ACC_1DA_t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG_AUX
+* Address : 0X07
+* Bit Group Name: 2DA_
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_2DA__NOT_AVAILABLE =0x00,
+ LSM303AGR_ACC_2DA__AVAILABLE =0x02,
+} LSM303AGR_ACC_2DA__t;
+
+#define LSM303AGR_ACC_2DA__MASK 0x02
+mems_status_t LSM303AGR_ACC_R_y_data_avail(void *handle, LSM303AGR_ACC_2DA__t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG_AUX
+* Address : 0X07
+* Bit Group Name: 3DA_
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_3DA__NOT_AVAILABLE =0x00,
+ LSM303AGR_ACC_3DA__AVAILABLE =0x04,
+} LSM303AGR_ACC_3DA__t;
+
+#define LSM303AGR_ACC_3DA__MASK 0x04
+mems_status_t LSM303AGR_ACC_R_z_data_avail(void *handle, LSM303AGR_ACC_3DA__t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG_AUX
+* Address : 0X07
+* Bit Group Name: 321DA_
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_321DA__NOT_AVAILABLE =0x00,
+ LSM303AGR_ACC_321DA__AVAILABLE =0x08,
+} LSM303AGR_ACC_321DA__t;
+
+#define LSM303AGR_ACC_321DA__MASK 0x08
+mems_status_t LSM303AGR_ACC_R_xyz_data_avail(void *handle, LSM303AGR_ACC_321DA__t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG_AUX
+* Address : 0X07
+* Bit Group Name: 1OR_
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_1OR__NO_OVERRUN =0x00,
+ LSM303AGR_ACC_1OR__OVERRUN =0x10,
+} LSM303AGR_ACC_1OR__t;
+
+#define LSM303AGR_ACC_1OR__MASK 0x10
+mems_status_t LSM303AGR_ACC_R_DataXOverrun(void *handle, LSM303AGR_ACC_1OR__t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG_AUX
+* Address : 0X07
+* Bit Group Name: 2OR_
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_2OR__NO_OVERRUN =0x00,
+ LSM303AGR_ACC_2OR__OVERRUN =0x20,
+} LSM303AGR_ACC_2OR__t;
+
+#define LSM303AGR_ACC_2OR__MASK 0x20
+mems_status_t LSM303AGR_ACC_R_DataYOverrun(void *handle, LSM303AGR_ACC_2OR__t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG_AUX
+* Address : 0X07
+* Bit Group Name: 3OR_
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_3OR__NO_OVERRUN =0x00,
+ LSM303AGR_ACC_3OR__OVERRUN =0x40,
+} LSM303AGR_ACC_3OR__t;
+
+#define LSM303AGR_ACC_3OR__MASK 0x40
+mems_status_t LSM303AGR_ACC_R_DataZOverrun(void *handle, LSM303AGR_ACC_3OR__t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG_AUX
+* Address : 0X07
+* Bit Group Name: 321OR_
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_321OR__NO_OVERRUN =0x00,
+ LSM303AGR_ACC_321OR__OVERRUN =0x80,
+} LSM303AGR_ACC_321OR__t;
+
+#define LSM303AGR_ACC_321OR__MASK 0x80
+mems_status_t LSM303AGR_ACC_R_DataXYZOverrun(void *handle, LSM303AGR_ACC_321OR__t *value);
+
+/*******************************************************************************
+* Register : INT_COUNTER_REG
+* Address : 0X0E
+* Bit Group Name: IC
+* Permission : RO
+*******************************************************************************/
+#define LSM303AGR_ACC_IC_MASK 0xFF
+#define LSM303AGR_ACC_IC_POSITION 0
+mems_status_t LSM303AGR_ACC_R_int_counter(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : WHO_AM_I
+* Address : 0X0F
+* Bit Group Name: WHO_AM_I
+* Permission : RO
+*******************************************************************************/
+#define LSM303AGR_ACC_WHO_AM_I_MASK 0xFF
+#define LSM303AGR_ACC_WHO_AM_I_POSITION 0
+mems_status_t LSM303AGR_ACC_R_WHO_AM_I(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : TEMP_CFG_REG
+* Address : 0X1F
+* Bit Group Name: TEMP_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_TEMP_EN_DISABLED =0x00,
+ LSM303AGR_ACC_TEMP_EN_ENABLED =0x40,
+} LSM303AGR_ACC_TEMP_EN_t;
+
+#define LSM303AGR_ACC_TEMP_EN_MASK 0x40
+mems_status_t LSM303AGR_ACC_W_TEMP_EN_bits(void *handle, LSM303AGR_ACC_TEMP_EN_t newValue);
+mems_status_t LSM303AGR_ACC_R_TEMP_EN_bits(void *handle, LSM303AGR_ACC_TEMP_EN_t *value);
+
+/*******************************************************************************
+* Register : TEMP_CFG_REG
+* Address : 0X1F
+* Bit Group Name: ADC_PD
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_ADC_PD_DISABLED =0x00,
+ LSM303AGR_ACC_ADC_PD_ENABLED =0x80,
+} LSM303AGR_ACC_ADC_PD_t;
+
+#define LSM303AGR_ACC_ADC_PD_MASK 0x80
+mems_status_t LSM303AGR_ACC_W_ADC_PD(void *handle, LSM303AGR_ACC_ADC_PD_t newValue);
+mems_status_t LSM303AGR_ACC_R_ADC_PD(void *handle, LSM303AGR_ACC_ADC_PD_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG1
+* Address : 0X20
+* Bit Group Name: XEN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_XEN_DISABLED =0x00,
+ LSM303AGR_ACC_XEN_ENABLED =0x01,
+} LSM303AGR_ACC_XEN_t;
+
+#define LSM303AGR_ACC_XEN_MASK 0x01
+mems_status_t LSM303AGR_ACC_W_XEN(void *handle, LSM303AGR_ACC_XEN_t newValue);
+mems_status_t LSM303AGR_ACC_R_XEN(void *handle, LSM303AGR_ACC_XEN_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG1
+* Address : 0X20
+* Bit Group Name: YEN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_YEN_DISABLED =0x00,
+ LSM303AGR_ACC_YEN_ENABLED =0x02,
+} LSM303AGR_ACC_YEN_t;
+
+#define LSM303AGR_ACC_YEN_MASK 0x02
+mems_status_t LSM303AGR_ACC_W_YEN(void *handle, LSM303AGR_ACC_YEN_t newValue);
+mems_status_t LSM303AGR_ACC_R_YEN(void *handle, LSM303AGR_ACC_YEN_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG1
+* Address : 0X20
+* Bit Group Name: ZEN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_ZEN_DISABLED =0x00,
+ LSM303AGR_ACC_ZEN_ENABLED =0x04,
+} LSM303AGR_ACC_ZEN_t;
+
+#define LSM303AGR_ACC_ZEN_MASK 0x04
+mems_status_t LSM303AGR_ACC_W_ZEN(void *handle, LSM303AGR_ACC_ZEN_t newValue);
+mems_status_t LSM303AGR_ACC_R_ZEN(void *handle, LSM303AGR_ACC_ZEN_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG1
+* Address : 0X20
+* Bit Group Name: LPEN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_LPEN_DISABLED =0x00,
+ LSM303AGR_ACC_LPEN_ENABLED =0x08,
+} LSM303AGR_ACC_LPEN_t;
+
+#define LSM303AGR_ACC_LPEN_MASK 0x08
+mems_status_t LSM303AGR_ACC_W_LOWPWR_EN(void *handle, LSM303AGR_ACC_LPEN_t newValue);
+mems_status_t LSM303AGR_ACC_R_LOWPWR_EN(void *handle, LSM303AGR_ACC_LPEN_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG1
+* Address : 0X20
+* Bit Group Name: ODR
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_ODR_DO_PWR_DOWN =0x00,
+ LSM303AGR_ACC_ODR_DO_1Hz =0x10,
+ LSM303AGR_ACC_ODR_DO_10Hz =0x20,
+ LSM303AGR_ACC_ODR_DO_25Hz =0x30,
+ LSM303AGR_ACC_ODR_DO_50Hz =0x40,
+ LSM303AGR_ACC_ODR_DO_100Hz =0x50,
+ LSM303AGR_ACC_ODR_DO_200Hz =0x60,
+ LSM303AGR_ACC_ODR_DO_400Hz =0x70,
+ LSM303AGR_ACC_ODR_DO_1_6KHz =0x80,
+ LSM303AGR_ACC_ODR_DO_1_25KHz =0x90,
+} LSM303AGR_ACC_ODR_t;
+
+#define LSM303AGR_ACC_ODR_MASK 0xF0
+mems_status_t LSM303AGR_ACC_W_ODR(void *handle, LSM303AGR_ACC_ODR_t newValue);
+mems_status_t LSM303AGR_ACC_R_ODR(void *handle, LSM303AGR_ACC_ODR_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG2
+* Address : 0X21
+* Bit Group Name: HPIS1
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_HPIS1_DISABLED =0x00,
+ LSM303AGR_ACC_HPIS1_ENABLED =0x01,
+} LSM303AGR_ACC_HPIS1_t;
+
+#define LSM303AGR_ACC_HPIS1_MASK 0x01
+mems_status_t LSM303AGR_ACC_W_hpf_aoi_en_int1(void *handle, LSM303AGR_ACC_HPIS1_t newValue);
+mems_status_t LSM303AGR_ACC_R_hpf_aoi_en_int1(void *handle, LSM303AGR_ACC_HPIS1_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG2
+* Address : 0X21
+* Bit Group Name: HPIS2
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_HPIS2_DISABLED =0x00,
+ LSM303AGR_ACC_HPIS2_ENABLED =0x02,
+} LSM303AGR_ACC_HPIS2_t;
+
+#define LSM303AGR_ACC_HPIS2_MASK 0x02
+mems_status_t LSM303AGR_ACC_W_hpf_aoi_en_int2(void *handle, LSM303AGR_ACC_HPIS2_t newValue);
+mems_status_t LSM303AGR_ACC_R_hpf_aoi_en_int2(void *handle, LSM303AGR_ACC_HPIS2_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG2
+* Address : 0X21
+* Bit Group Name: HPCLICK
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_HPCLICK_DISABLED =0x00,
+ LSM303AGR_ACC_HPCLICK_ENABLED =0x04,
+} LSM303AGR_ACC_HPCLICK_t;
+
+#define LSM303AGR_ACC_HPCLICK_MASK 0x04
+mems_status_t LSM303AGR_ACC_W_hpf_click_en(void *handle, LSM303AGR_ACC_HPCLICK_t newValue);
+mems_status_t LSM303AGR_ACC_R_hpf_click_en(void *handle, LSM303AGR_ACC_HPCLICK_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG2
+* Address : 0X21
+* Bit Group Name: FDS
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_FDS_BYPASSED =0x00,
+ LSM303AGR_ACC_FDS_ENABLED =0x08,
+} LSM303AGR_ACC_FDS_t;
+
+#define LSM303AGR_ACC_FDS_MASK 0x08
+mems_status_t LSM303AGR_ACC_W_Data_Filter(void *handle, LSM303AGR_ACC_FDS_t newValue);
+mems_status_t LSM303AGR_ACC_R_Data_Filter(void *handle, LSM303AGR_ACC_FDS_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG2
+* Address : 0X21
+* Bit Group Name: HPCF
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_HPCF_00 =0x00,
+ LSM303AGR_ACC_HPCF_01 =0x10,
+ LSM303AGR_ACC_HPCF_10 =0x20,
+ LSM303AGR_ACC_HPCF_11 =0x30,
+} LSM303AGR_ACC_HPCF_t;
+
+#define LSM303AGR_ACC_HPCF_MASK 0x30
+mems_status_t LSM303AGR_ACC_W_hpf_cutoff_freq(void *handle, LSM303AGR_ACC_HPCF_t newValue);
+mems_status_t LSM303AGR_ACC_R_hpf_cutoff_freq(void *handle, LSM303AGR_ACC_HPCF_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG2
+* Address : 0X21
+* Bit Group Name: HPM
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_HPM_NORMAL =0x00,
+ LSM303AGR_ACC_HPM_REFERENCE_SIGNAL =0x40,
+ LSM303AGR_ACC_HPM_NORMAL_2 =0x80,
+ LSM303AGR_ACC_HPM_AUTORST_ON_INT =0xC0,
+} LSM303AGR_ACC_HPM_t;
+
+#define LSM303AGR_ACC_HPM_MASK 0xC0
+mems_status_t LSM303AGR_ACC_W_hpf_mode(void *handle, LSM303AGR_ACC_HPM_t newValue);
+mems_status_t LSM303AGR_ACC_R_hpf_mode(void *handle, LSM303AGR_ACC_HPM_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG3
+* Address : 0X22
+* Bit Group Name: I1_OVERRUN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_I1_OVERRUN_DISABLED =0x00,
+ LSM303AGR_ACC_I1_OVERRUN_ENABLED =0x02,
+} LSM303AGR_ACC_I1_OVERRUN_t;
+
+#define LSM303AGR_ACC_I1_OVERRUN_MASK 0x02
+mems_status_t LSM303AGR_ACC_W_FIFO_Overrun_on_INT1(void *handle, LSM303AGR_ACC_I1_OVERRUN_t newValue);
+mems_status_t LSM303AGR_ACC_R_FIFO_Overrun_on_INT1(void *handle, LSM303AGR_ACC_I1_OVERRUN_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG3
+* Address : 0X22
+* Bit Group Name: I1_WTM
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_I1_WTM_DISABLED =0x00,
+ LSM303AGR_ACC_I1_WTM_ENABLED =0x04,
+} LSM303AGR_ACC_I1_WTM_t;
+
+#define LSM303AGR_ACC_I1_WTM_MASK 0x04
+mems_status_t LSM303AGR_ACC_W_FIFO_Watermark_on_INT1(void *handle, LSM303AGR_ACC_I1_WTM_t newValue);
+mems_status_t LSM303AGR_ACC_R_FIFO_Watermark_on_INT1(void *handle, LSM303AGR_ACC_I1_WTM_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG3
+* Address : 0X22
+* Bit Group Name: I1_DRDY2
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_I1_DRDY2_DISABLED =0x00,
+ LSM303AGR_ACC_I1_DRDY2_ENABLED =0x08,
+} LSM303AGR_ACC_I1_DRDY2_t;
+
+#define LSM303AGR_ACC_I1_DRDY2_MASK 0x08
+mems_status_t LSM303AGR_ACC_W_FIFO_DRDY2_on_INT1(void *handle, LSM303AGR_ACC_I1_DRDY2_t newValue);
+mems_status_t LSM303AGR_ACC_R_FIFO_DRDY2_on_INT1(void *handle, LSM303AGR_ACC_I1_DRDY2_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG3
+* Address : 0X22
+* Bit Group Name: I1_DRDY1
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_I1_DRDY1_DISABLED =0x00,
+ LSM303AGR_ACC_I1_DRDY1_ENABLED =0x10,
+} LSM303AGR_ACC_I1_DRDY1_t;
+
+#define LSM303AGR_ACC_I1_DRDY1_MASK 0x10
+mems_status_t LSM303AGR_ACC_W_FIFO_DRDY1_on_INT1(void *handle, LSM303AGR_ACC_I1_DRDY1_t newValue);
+mems_status_t LSM303AGR_ACC_R_FIFO_DRDY1_on_INT1(void *handle, LSM303AGR_ACC_I1_DRDY1_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG3
+* Address : 0X22
+* Bit Group Name: I1_AOI2
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_I1_AOI2_DISABLED =0x00,
+ LSM303AGR_ACC_I1_AOI2_ENABLED =0x20,
+} LSM303AGR_ACC_I1_AOI2_t;
+
+#define LSM303AGR_ACC_I1_AOI2_MASK 0x20
+mems_status_t LSM303AGR_ACC_W_FIFO_AOL2_on_INT1(void *handle, LSM303AGR_ACC_I1_AOI2_t newValue);
+mems_status_t LSM303AGR_ACC_R_FIFO_AOL2_on_INT1(void *handle, LSM303AGR_ACC_I1_AOI2_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG3
+* Address : 0X22
+* Bit Group Name: I1_AOI1
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_I1_AOI1_DISABLED =0x00,
+ LSM303AGR_ACC_I1_AOI1_ENABLED =0x40,
+} LSM303AGR_ACC_I1_AOI1_t;
+
+#define LSM303AGR_ACC_I1_AOI1_MASK 0x40
+mems_status_t LSM303AGR_ACC_W_FIFO_AOL1_on_INT1(void *handle, LSM303AGR_ACC_I1_AOI1_t newValue);
+mems_status_t LSM303AGR_ACC_R_FIFO_AOL1_on_INT1(void *handle, LSM303AGR_ACC_I1_AOI1_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG3
+* Address : 0X22
+* Bit Group Name: I1_CLICK
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_I1_CLICK_DISABLED =0x00,
+ LSM303AGR_ACC_I1_CLICK_ENABLED =0x80,
+} LSM303AGR_ACC_I1_CLICK_t;
+
+#define LSM303AGR_ACC_I1_CLICK_MASK 0x80
+mems_status_t LSM303AGR_ACC_W_FIFO_Click_on_INT1(void *handle, LSM303AGR_ACC_I1_CLICK_t newValue);
+mems_status_t LSM303AGR_ACC_R_FIFO_Click_on_INT1(void *handle, LSM303AGR_ACC_I1_CLICK_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG4
+* Address : 0X23
+* Bit Group Name: SIM
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_SIM_4_WIRES =0x00,
+ LSM303AGR_ACC_SIM_3_WIRES =0x01,
+} LSM303AGR_ACC_SIM_t;
+
+#define LSM303AGR_ACC_SIM_MASK 0x01
+mems_status_t LSM303AGR_ACC_W_SPI_mode(void *handle, LSM303AGR_ACC_SIM_t newValue);
+mems_status_t LSM303AGR_ACC_R_SPI_mode(void *handle, LSM303AGR_ACC_SIM_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG4
+* Address : 0X23
+* Bit Group Name: ST
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_ST_DISABLED =0x00,
+ LSM303AGR_ACC_ST_SELF_TEST_0 =0x02,
+ LSM303AGR_ACC_ST_SELF_TEST_1 =0x04,
+ LSM303AGR_ACC_ST_NOT_APPLICABLE =0x06,
+} LSM303AGR_ACC_ST_t;
+
+#define LSM303AGR_ACC_ST_MASK 0x06
+mems_status_t LSM303AGR_ACC_W_SelfTest(void *handle, LSM303AGR_ACC_ST_t newValue);
+mems_status_t LSM303AGR_ACC_R_SelfTest(void *handle, LSM303AGR_ACC_ST_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG4
+* Address : 0X23
+* Bit Group Name: HR
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_HR_DISABLED =0x00,
+ LSM303AGR_ACC_HR_ENABLED =0x08,
+} LSM303AGR_ACC_HR_t;
+
+#define LSM303AGR_ACC_HR_MASK 0x08
+mems_status_t LSM303AGR_ACC_W_HiRes(void *handle, LSM303AGR_ACC_HR_t newValue);
+mems_status_t LSM303AGR_ACC_R_HiRes(void *handle, LSM303AGR_ACC_HR_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG4
+* Address : 0X23
+* Bit Group Name: FS
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_FS_2G =0x00,
+ LSM303AGR_ACC_FS_4G =0x10,
+ LSM303AGR_ACC_FS_8G =0x20,
+ LSM303AGR_ACC_FS_16G =0x30,
+} LSM303AGR_ACC_FS_t;
+
+#define LSM303AGR_ACC_FS_MASK 0x30
+mems_status_t LSM303AGR_ACC_W_FullScale(void *handle, LSM303AGR_ACC_FS_t newValue);
+mems_status_t LSM303AGR_ACC_R_FullScale(void *handle, LSM303AGR_ACC_FS_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG4
+* Address : 0X23
+* Bit Group Name: BLE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_BLE_LITTLE_ENDIAN =0x00,
+ LSM303AGR_ACC_BLE_BIG_ENDIAN =0x40,
+} LSM303AGR_ACC_BLE_t;
+
+#define LSM303AGR_ACC_BLE_MASK 0x40
+mems_status_t LSM303AGR_ACC_W_LittleBigEndian(void *handle, LSM303AGR_ACC_BLE_t newValue);
+mems_status_t LSM303AGR_ACC_R_LittleBigEndian(void *handle, LSM303AGR_ACC_BLE_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG4
+* Address : 0X23
+* Bit Group Name: BDU
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_BDU_DISABLED =0x00,
+ LSM303AGR_ACC_BDU_ENABLED =0x80,
+} LSM303AGR_ACC_BDU_t;
+
+#define LSM303AGR_ACC_BDU_MASK 0x80
+mems_status_t LSM303AGR_ACC_W_BlockDataUpdate(void *handle, LSM303AGR_ACC_BDU_t newValue);
+mems_status_t LSM303AGR_ACC_R_BlockDataUpdate(void *handle, LSM303AGR_ACC_BDU_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG5
+* Address : 0X24
+* Bit Group Name: D4D_INT2
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_D4D_INT2_DISABLED =0x00,
+ LSM303AGR_ACC_D4D_INT2_ENABLED =0x01,
+} LSM303AGR_ACC_D4D_INT2_t;
+
+#define LSM303AGR_ACC_D4D_INT2_MASK 0x01
+mems_status_t LSM303AGR_ACC_W_4D_on_INT2(void *handle, LSM303AGR_ACC_D4D_INT2_t newValue);
+mems_status_t LSM303AGR_ACC_R_4D_on_INT2(void *handle, LSM303AGR_ACC_D4D_INT2_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG5
+* Address : 0X24
+* Bit Group Name: LIR_INT2
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_LIR_INT2_DISABLED =0x00,
+ LSM303AGR_ACC_LIR_INT2_ENABLED =0x02,
+} LSM303AGR_ACC_LIR_INT2_t;
+
+#define LSM303AGR_ACC_LIR_INT2_MASK 0x02
+mems_status_t LSM303AGR_ACC_W_LatchInterrupt_on_INT2(void *handle, LSM303AGR_ACC_LIR_INT2_t newValue);
+mems_status_t LSM303AGR_ACC_R_LatchInterrupt_on_INT2(void *handle, LSM303AGR_ACC_LIR_INT2_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG5
+* Address : 0X24
+* Bit Group Name: D4D_INT1
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_D4D_INT1_DISABLED =0x00,
+ LSM303AGR_ACC_D4D_INT1_ENABLED =0x04,
+} LSM303AGR_ACC_D4D_INT1_t;
+
+#define LSM303AGR_ACC_D4D_INT1_MASK 0x04
+mems_status_t LSM303AGR_ACC_W_4D_on_INT1(void *handle, LSM303AGR_ACC_D4D_INT1_t newValue);
+mems_status_t LSM303AGR_ACC_R_4D_on_INT1(void *handle, LSM303AGR_ACC_D4D_INT1_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG5
+* Address : 0X24
+* Bit Group Name: LIR_INT1
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_LIR_INT1_DISABLED =0x00,
+ LSM303AGR_ACC_LIR_INT1_ENABLED =0x08,
+} LSM303AGR_ACC_LIR_INT1_t;
+
+#define LSM303AGR_ACC_LIR_INT1_MASK 0x08
+mems_status_t LSM303AGR_ACC_W_LatchInterrupt_on_INT1(void *handle, LSM303AGR_ACC_LIR_INT1_t newValue);
+mems_status_t LSM303AGR_ACC_R_LatchInterrupt_on_INT1(void *handle, LSM303AGR_ACC_LIR_INT1_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG5
+* Address : 0X24
+* Bit Group Name: FIFO_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_FIFO_EN_DISABLED =0x00,
+ LSM303AGR_ACC_FIFO_EN_ENABLED =0x40,
+} LSM303AGR_ACC_FIFO_EN_t;
+
+#define LSM303AGR_ACC_FIFO_EN_MASK 0x40
+mems_status_t LSM303AGR_ACC_W_FIFO_EN(void *handle, LSM303AGR_ACC_FIFO_EN_t newValue);
+mems_status_t LSM303AGR_ACC_R_FIFO_EN(void *handle, LSM303AGR_ACC_FIFO_EN_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG5
+* Address : 0X24
+* Bit Group Name: BOOT
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_BOOT_NORMAL_MODE =0x00,
+ LSM303AGR_ACC_BOOT_REBOOT =0x80,
+} LSM303AGR_ACC_BOOT_t;
+
+#define LSM303AGR_ACC_BOOT_MASK 0x80
+mems_status_t LSM303AGR_ACC_W_RebootMemory(void *handle, LSM303AGR_ACC_BOOT_t newValue);
+mems_status_t LSM303AGR_ACC_R_RebootMemory(void *handle, LSM303AGR_ACC_BOOT_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG6
+* Address : 0X25
+* Bit Group Name: H_LACTIVE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_H_LACTIVE_ACTIVE_HI =0x00,
+ LSM303AGR_ACC_H_LACTIVE_ACTIVE_LO =0x02,
+} LSM303AGR_ACC_H_LACTIVE_t;
+
+#define LSM303AGR_ACC_H_LACTIVE_MASK 0x02
+mems_status_t LSM303AGR_ACC_W_IntActive(void *handle, LSM303AGR_ACC_H_LACTIVE_t newValue);
+mems_status_t LSM303AGR_ACC_R_IntActive(void *handle, LSM303AGR_ACC_H_LACTIVE_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG6
+* Address : 0X25
+* Bit Group Name: P2_ACT
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_P2_ACT_DISABLED =0x00,
+ LSM303AGR_ACC_P2_ACT_ENABLED =0x08,
+} LSM303AGR_ACC_P2_ACT_t;
+
+#define LSM303AGR_ACC_P2_ACT_MASK 0x08
+mems_status_t LSM303AGR_ACC_W_P2_ACT(void *handle, LSM303AGR_ACC_P2_ACT_t newValue);
+mems_status_t LSM303AGR_ACC_R_P2_ACT(void *handle, LSM303AGR_ACC_P2_ACT_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG6
+* Address : 0X25
+* Bit Group Name: BOOT_I1
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_BOOT_I1_DISABLED =0x00,
+ LSM303AGR_ACC_BOOT_I1_ENABLED =0x10,
+} LSM303AGR_ACC_BOOT_I1_t;
+
+#define LSM303AGR_ACC_BOOT_I1_MASK 0x10
+mems_status_t LSM303AGR_ACC_W_Boot_on_INT2(void *handle, LSM303AGR_ACC_BOOT_I1_t newValue);
+mems_status_t LSM303AGR_ACC_R_Boot_on_INT2(void *handle, LSM303AGR_ACC_BOOT_I1_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG6
+* Address : 0X25
+* Bit Group Name: I2_INT2
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_I2_INT2_DISABLED =0x00,
+ LSM303AGR_ACC_I2_INT2_ENABLED =0x20,
+} LSM303AGR_ACC_I2_INT2_t;
+
+#define LSM303AGR_ACC_I2_INT2_MASK 0x20
+mems_status_t LSM303AGR_ACC_W_I2_on_INT2(void *handle, LSM303AGR_ACC_I2_INT2_t newValue);
+mems_status_t LSM303AGR_ACC_R_I2_on_INT2(void *handle, LSM303AGR_ACC_I2_INT2_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG6
+* Address : 0X25
+* Bit Group Name: I2_INT1
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_I2_INT1_DISABLED =0x00,
+ LSM303AGR_ACC_I2_INT1_ENABLED =0x40,
+} LSM303AGR_ACC_I2_INT1_t;
+
+#define LSM303AGR_ACC_I2_INT1_MASK 0x40
+mems_status_t LSM303AGR_ACC_W_I2_on_INT1(void *handle, LSM303AGR_ACC_I2_INT1_t newValue);
+mems_status_t LSM303AGR_ACC_R_I2_on_INT1(void *handle, LSM303AGR_ACC_I2_INT1_t *value);
+
+/*******************************************************************************
+* Register : CTRL_REG6
+* Address : 0X25
+* Bit Group Name: I2_CLICKEN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_I2_CLICKEN_DISABLED =0x00,
+ LSM303AGR_ACC_I2_CLICKEN_ENABLED =0x80,
+} LSM303AGR_ACC_I2_CLICKEN_t;
+
+#define LSM303AGR_ACC_I2_CLICKEN_MASK 0x80
+mems_status_t LSM303AGR_ACC_W_Click_on_INT2(void *handle, LSM303AGR_ACC_I2_CLICKEN_t newValue);
+mems_status_t LSM303AGR_ACC_R_Click_on_INT2(void *handle, LSM303AGR_ACC_I2_CLICKEN_t *value);
+
+/*******************************************************************************
+* Register : REFERENCE
+* Address : 0X26
+* Bit Group Name: REF
+* Permission : RW
+*******************************************************************************/
+#define LSM303AGR_ACC_REF_MASK 0xFF
+#define LSM303AGR_ACC_REF_POSITION 0
+mems_status_t LSM303AGR_ACC_W_ReferenceVal(void *handle, u8_t newValue);
+mems_status_t LSM303AGR_ACC_R_ReferenceVal(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG2
+* Address : 0X27
+* Bit Group Name: XDA
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_XDA_NOT_AVAILABLE =0x00,
+ LSM303AGR_ACC_XDA_AVAILABLE =0x01,
+} LSM303AGR_ACC_XDA_t;
+
+#define LSM303AGR_ACC_XDA_MASK 0x01
+mems_status_t LSM303AGR_ACC_R_XDataAvail(void *handle, LSM303AGR_ACC_XDA_t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG2
+* Address : 0X27
+* Bit Group Name: YDA
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_YDA_NOT_AVAILABLE =0x00,
+ LSM303AGR_ACC_YDA_AVAILABLE =0x02,
+} LSM303AGR_ACC_YDA_t;
+
+#define LSM303AGR_ACC_YDA_MASK 0x02
+mems_status_t LSM303AGR_ACC_R_YDataAvail(void *handle, LSM303AGR_ACC_YDA_t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG2
+* Address : 0X27
+* Bit Group Name: ZDA
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_ZDA_NOT_AVAILABLE =0x00,
+ LSM303AGR_ACC_ZDA_AVAILABLE =0x04,
+} LSM303AGR_ACC_ZDA_t;
+
+#define LSM303AGR_ACC_ZDA_MASK 0x04
+mems_status_t LSM303AGR_ACC_R_ZDataAvail(void *handle, LSM303AGR_ACC_ZDA_t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG2
+* Address : 0X27
+* Bit Group Name: ZYXDA
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_ZYXDA_NOT_AVAILABLE =0x00,
+ LSM303AGR_ACC_ZYXDA_AVAILABLE =0x08,
+} LSM303AGR_ACC_ZYXDA_t;
+
+#define LSM303AGR_ACC_ZYXDA_MASK 0x08
+mems_status_t LSM303AGR_ACC_R_XYZDataAvail(void *handle, LSM303AGR_ACC_ZYXDA_t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG2
+* Address : 0X27
+* Bit Group Name: XOR
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_XOR_NO_OVERRUN =0x00,
+ LSM303AGR_ACC_XOR_OVERRUN =0x10,
+} LSM303AGR_ACC_XOR_t;
+
+#define LSM303AGR_ACC_XOR_MASK 0x10
+mems_status_t LSM303AGR_ACC_R_XDataOverrun(void *handle, LSM303AGR_ACC_XOR_t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG2
+* Address : 0X27
+* Bit Group Name: YOR
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_YOR_NO_OVERRUN =0x00,
+ LSM303AGR_ACC_YOR_OVERRUN =0x20,
+} LSM303AGR_ACC_YOR_t;
+
+#define LSM303AGR_ACC_YOR_MASK 0x20
+mems_status_t LSM303AGR_ACC_R_YDataOverrun(void *handle, LSM303AGR_ACC_YOR_t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG2
+* Address : 0X27
+* Bit Group Name: ZOR
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_ZOR_NO_OVERRUN =0x00,
+ LSM303AGR_ACC_ZOR_OVERRUN =0x40,
+} LSM303AGR_ACC_ZOR_t;
+
+#define LSM303AGR_ACC_ZOR_MASK 0x40
+mems_status_t LSM303AGR_ACC_R_ZDataOverrun(void *handle, LSM303AGR_ACC_ZOR_t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG2
+* Address : 0X27
+* Bit Group Name: ZYXOR
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_ZYXOR_NO_OVERRUN =0x00,
+ LSM303AGR_ACC_ZYXOR_OVERRUN =0x80,
+} LSM303AGR_ACC_ZYXOR_t;
+
+#define LSM303AGR_ACC_ZYXOR_MASK 0x80
+mems_status_t LSM303AGR_ACC_R_XYZDataOverrun(void *handle, LSM303AGR_ACC_ZYXOR_t *value);
+
+/*******************************************************************************
+* Register : FIFO_CTRL_REG
+* Address : 0X2E
+* Bit Group Name: FTH
+* Permission : RW
+*******************************************************************************/
+#define LSM303AGR_ACC_FTH_MASK 0x1F
+#define LSM303AGR_ACC_FTH_POSITION 0
+mems_status_t LSM303AGR_ACC_W_FifoThreshold(void *handle, u8_t newValue);
+mems_status_t LSM303AGR_ACC_R_FifoThreshold(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : FIFO_CTRL_REG
+* Address : 0X2E
+* Bit Group Name: TR
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_TR_TRIGGER_ON_INT1 =0x00,
+ LSM303AGR_ACC_TR_TRIGGER_ON_INT2 =0x20,
+} LSM303AGR_ACC_TR_t;
+
+#define LSM303AGR_ACC_TR_MASK 0x20
+mems_status_t LSM303AGR_ACC_W_TriggerSel(void *handle, LSM303AGR_ACC_TR_t newValue);
+mems_status_t LSM303AGR_ACC_R_TriggerSel(void *handle, LSM303AGR_ACC_TR_t *value);
+
+/*******************************************************************************
+* Register : FIFO_CTRL_REG
+* Address : 0X2E
+* Bit Group Name: FM
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_FM_BYPASS =0x00,
+ LSM303AGR_ACC_FM_FIFO =0x40,
+ LSM303AGR_ACC_FM_STREAM =0x80,
+ LSM303AGR_ACC_FM_TRIGGER =0xC0,
+} LSM303AGR_ACC_FM_t;
+
+#define LSM303AGR_ACC_FM_MASK 0xC0
+mems_status_t LSM303AGR_ACC_W_FifoMode(void *handle, LSM303AGR_ACC_FM_t newValue);
+mems_status_t LSM303AGR_ACC_R_FifoMode(void *handle, LSM303AGR_ACC_FM_t *value);
+
+/*******************************************************************************
+* Register : FIFO_SRC_REG
+* Address : 0X2F
+* Bit Group Name: FSS
+* Permission : RO
+*******************************************************************************/
+#define LSM303AGR_ACC_FSS_MASK 0x1F
+#define LSM303AGR_ACC_FSS_POSITION 0
+mems_status_t LSM303AGR_ACC_R_FifoSamplesAvail(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : FIFO_SRC_REG
+* Address : 0X2F
+* Bit Group Name: EMPTY
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_EMPTY_NOT_EMPTY =0x00,
+ LSM303AGR_ACC_EMPTY_EMPTY =0x20,
+} LSM303AGR_ACC_EMPTY_t;
+
+#define LSM303AGR_ACC_EMPTY_MASK 0x20
+mems_status_t LSM303AGR_ACC_R_FifoEmpty(void *handle, LSM303AGR_ACC_EMPTY_t *value);
+
+/*******************************************************************************
+* Register : FIFO_SRC_REG
+* Address : 0X2F
+* Bit Group Name: OVRN_FIFO
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_OVRN_FIFO_NO_OVERRUN =0x00,
+ LSM303AGR_ACC_OVRN_FIFO_OVERRUN =0x40,
+} LSM303AGR_ACC_OVRN_FIFO_t;
+
+#define LSM303AGR_ACC_OVRN_FIFO_MASK 0x40
+mems_status_t LSM303AGR_ACC_R_FifoOverrun(void *handle, LSM303AGR_ACC_OVRN_FIFO_t *value);
+
+/*******************************************************************************
+* Register : FIFO_SRC_REG
+* Address : 0X2F
+* Bit Group Name: WTM
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_WTM_NORMAL =0x00,
+ LSM303AGR_ACC_WTM_OVERFLOW =0x80,
+} LSM303AGR_ACC_WTM_t;
+
+#define LSM303AGR_ACC_WTM_MASK 0x80
+mems_status_t LSM303AGR_ACC_R_WatermarkLevel(void *handle, LSM303AGR_ACC_WTM_t *value);
+
+/*******************************************************************************
+* Register : INT1_CFG/INT2_CFG
+* Address : 0X30/0x34
+* Bit Group Name: XLIE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_XLIE_DISABLED =0x00,
+ LSM303AGR_ACC_XLIE_ENABLED =0x01,
+} LSM303AGR_ACC_XLIE_t;
+
+#define LSM303AGR_ACC_XLIE_MASK 0x01
+mems_status_t LSM303AGR_ACC_W_Int1EnXLo(void *handle, LSM303AGR_ACC_XLIE_t newValue);
+mems_status_t LSM303AGR_ACC_R_Int1EnXLo(void *handle, LSM303AGR_ACC_XLIE_t *value);
+mems_status_t LSM303AGR_ACC_W_Int2EnXLo(void *handle, LSM303AGR_ACC_XLIE_t newValue);
+mems_status_t LSM303AGR_ACC_R_Int2EnXLo(void *handle, LSM303AGR_ACC_XLIE_t *value);
+
+/*******************************************************************************
+* Register : INT1_CFG/INT2_CFG
+* Address : 0X30/0x34
+* Bit Group Name: XHIE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_XHIE_DISABLED =0x00,
+ LSM303AGR_ACC_XHIE_ENABLED =0x02,
+} LSM303AGR_ACC_XHIE_t;
+
+#define LSM303AGR_ACC_XHIE_MASK 0x02
+mems_status_t LSM303AGR_ACC_W_Int1EnXHi(void *handle, LSM303AGR_ACC_XHIE_t newValue);
+mems_status_t LSM303AGR_ACC_R_Int1EnXHi(void *handle, LSM303AGR_ACC_XHIE_t *value);
+mems_status_t LSM303AGR_ACC_W_Int2EnXHi(void *handle, LSM303AGR_ACC_XHIE_t newValue);
+mems_status_t LSM303AGR_ACC_R_Int2EnXHi(void *handle, LSM303AGR_ACC_XHIE_t *value);
+
+/*******************************************************************************
+* Register : INT1_CFG/INT2_CFG
+* Address : 0X30/0x34
+* Bit Group Name: YLIE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_YLIE_DISABLED =0x00,
+ LSM303AGR_ACC_YLIE_ENABLED =0x04,
+} LSM303AGR_ACC_YLIE_t;
+
+#define LSM303AGR_ACC_YLIE_MASK 0x04
+mems_status_t LSM303AGR_ACC_W_Int1EnYLo(void *handle, LSM303AGR_ACC_YLIE_t newValue);
+mems_status_t LSM303AGR_ACC_R_Int1EnYLo(void *handle, LSM303AGR_ACC_YLIE_t *value);
+mems_status_t LSM303AGR_ACC_W_Int2EnYLo(void *handle, LSM303AGR_ACC_YLIE_t newValue);
+mems_status_t LSM303AGR_ACC_R_Int2EnYLo(void *handle, LSM303AGR_ACC_YLIE_t *value);
+
+/*******************************************************************************
+* Register : INT1_CFG/INT2_CFG
+* Address : 0X30/0x34
+* Bit Group Name: YHIE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_YHIE_DISABLED =0x00,
+ LSM303AGR_ACC_YHIE_ENABLED =0x08,
+} LSM303AGR_ACC_YHIE_t;
+
+#define LSM303AGR_ACC_YHIE_MASK 0x08
+mems_status_t LSM303AGR_ACC_W_Int1EnYHi(void *handle, LSM303AGR_ACC_YHIE_t newValue);
+mems_status_t LSM303AGR_ACC_R_Int1EnYHi(void *handle, LSM303AGR_ACC_YHIE_t *value);
+mems_status_t LSM303AGR_ACC_W_Int2EnYHi(void *handle, LSM303AGR_ACC_YHIE_t newValue);
+mems_status_t LSM303AGR_ACC_R_Int2EnYHi(void *handle, LSM303AGR_ACC_YHIE_t *value);
+
+/*******************************************************************************
+* Register : INT1_CFG/INT2_CFG
+* Address : 0X30/0x34
+* Bit Group Name: ZLIE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_ZLIE_DISABLED =0x00,
+ LSM303AGR_ACC_ZLIE_ENABLED =0x10,
+} LSM303AGR_ACC_ZLIE_t;
+
+#define LSM303AGR_ACC_ZLIE_MASK 0x10
+mems_status_t LSM303AGR_ACC_W_Int1EnZLo(void *handle, LSM303AGR_ACC_ZLIE_t newValue);
+mems_status_t LSM303AGR_ACC_R_Int1EnZLo(void *handle, LSM303AGR_ACC_ZLIE_t *value);
+mems_status_t LSM303AGR_ACC_W_Int2EnZLo(void *handle, LSM303AGR_ACC_ZLIE_t newValue);
+mems_status_t LSM303AGR_ACC_R_Int2EnZLo(void *handle, LSM303AGR_ACC_ZLIE_t *value);
+
+/*******************************************************************************
+* Register : INT1_CFG/INT2_CFG
+* Address : 0X30/0x34
+* Bit Group Name: ZHIE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_ZHIE_DISABLED =0x00,
+ LSM303AGR_ACC_ZHIE_ENABLED =0x20,
+} LSM303AGR_ACC_ZHIE_t;
+
+#define LSM303AGR_ACC_ZHIE_MASK 0x20
+mems_status_t LSM303AGR_ACC_W_Int1EnZHi(void *handle, LSM303AGR_ACC_ZHIE_t newValue);
+mems_status_t LSM303AGR_ACC_R_Int1EnZHi(void *handle, LSM303AGR_ACC_ZHIE_t *value);
+mems_status_t LSM303AGR_ACC_W_Int2EnZHi(void *handle, LSM303AGR_ACC_ZHIE_t newValue);
+mems_status_t LSM303AGR_ACC_R_Int2EnZHi(void *handle, LSM303AGR_ACC_ZHIE_t *value);
+
+/*******************************************************************************
+* Register : INT1_CFG/INT2_CFG
+* Address : 0X30/0x34
+* Bit Group Name: 6D
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_6D_DISABLED =0x00,
+ LSM303AGR_ACC_6D_ENABLED =0x40,
+} LSM303AGR_ACC_6D_t;
+
+#define LSM303AGR_ACC_6D_MASK 0x40
+mems_status_t LSM303AGR_ACC_W_Int1_6D(void *handle, LSM303AGR_ACC_6D_t newValue);
+mems_status_t LSM303AGR_ACC_R_Int1_6D(void *handle, LSM303AGR_ACC_6D_t *value);
+mems_status_t LSM303AGR_ACC_W_Int2_6D(void *handle, LSM303AGR_ACC_6D_t newValue);
+mems_status_t LSM303AGR_ACC_R_Int2_6D(void *handle, LSM303AGR_ACC_6D_t *value);
+
+/*******************************************************************************
+* Register : INT1_CFG/INT2_CFG
+* Address : 0X30/0x34
+* Bit Group Name: AOI
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_AOI_OR =0x00,
+ LSM303AGR_ACC_AOI_AND =0x80,
+} LSM303AGR_ACC_AOI_t;
+
+#define LSM303AGR_ACC_AOI_MASK 0x80
+mems_status_t LSM303AGR_ACC_W_Int1_AOI(void *handle, LSM303AGR_ACC_AOI_t newValue);
+mems_status_t LSM303AGR_ACC_R_Int1_AOI(void *handle, LSM303AGR_ACC_AOI_t *value);
+mems_status_t LSM303AGR_ACC_W_Int2_AOI(void *handle, LSM303AGR_ACC_AOI_t newValue);
+mems_status_t LSM303AGR_ACC_R_Int2_AOI(void *handle, LSM303AGR_ACC_AOI_t *value);
+
+/*******************************************************************************
+* Register : INT1_SOURCE/INT2_SOURCE
+* Address : 0X31/0x35
+* Bit Group Name: XL
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_XL_DOWN =0x00,
+ LSM303AGR_ACC_XL_UP =0x01,
+} LSM303AGR_ACC_XL_t;
+
+#define LSM303AGR_ACC_XL_MASK 0x01
+mems_status_t LSM303AGR_ACC_R_Int1_Xlo(void *handle, LSM303AGR_ACC_XL_t *value);
+mems_status_t LSM303AGR_ACC_R_Int2_Xlo(void *handle, LSM303AGR_ACC_XL_t *value);
+
+/*******************************************************************************
+* Register : INT1_SOURCE/INT2_SOURCE
+* Address : 0X31/0x35
+* Bit Group Name: XH
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_XH_DOWN =0x00,
+ LSM303AGR_ACC_XH_UP =0x02,
+} LSM303AGR_ACC_XH_t;
+
+#define LSM303AGR_ACC_XH_MASK 0x02
+mems_status_t LSM303AGR_ACC_R_Int1_XHi(void *handle, LSM303AGR_ACC_XH_t *value);
+mems_status_t LSM303AGR_ACC_R_Int2_XHi(void *handle, LSM303AGR_ACC_XH_t *value);
+
+/*******************************************************************************
+* Register : INT1_SOURCE/INT2_SOURCE
+* Address : 0X31/0x35
+* Bit Group Name: YL
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_YL_DOWN =0x00,
+ LSM303AGR_ACC_YL_UP =0x04,
+} LSM303AGR_ACC_YL_t;
+
+#define LSM303AGR_ACC_YL_MASK 0x04
+mems_status_t LSM303AGR_ACC_R_Int1_YLo(void *handle, LSM303AGR_ACC_YL_t *value);
+mems_status_t LSM303AGR_ACC_R_Int2_YLo(void *handle, LSM303AGR_ACC_YL_t *value);
+
+/*******************************************************************************
+* Register : INT1_SOURCE/INT2_SOURCE
+* Address : 0X31/0x35
+* Bit Group Name: YH
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_YH_DOWN =0x00,
+ LSM303AGR_ACC_YH_UP =0x08,
+} LSM303AGR_ACC_YH_t;
+
+#define LSM303AGR_ACC_YH_MASK 0x08
+mems_status_t LSM303AGR_ACC_R_Int1_YHi(void *handle, LSM303AGR_ACC_YH_t *value);
+mems_status_t LSM303AGR_ACC_R_Int2_YHi(void *handle, LSM303AGR_ACC_YH_t *value);
+
+/*******************************************************************************
+* Register : INT1_SOURCE/INT2_SOURCE
+* Address : 0X31/0x35
+* Bit Group Name: ZL
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_ZL_DOWN =0x00,
+ LSM303AGR_ACC_ZL_UP =0x10,
+} LSM303AGR_ACC_ZL_t;
+
+#define LSM303AGR_ACC_ZL_MASK 0x10
+mems_status_t LSM303AGR_ACC_R_Int1_Zlo(void *handle, LSM303AGR_ACC_ZL_t *value);
+mems_status_t LSM303AGR_ACC_R_Int2_Zlo(void *handle, LSM303AGR_ACC_ZL_t *value);
+
+/*******************************************************************************
+* Register : INT1_SOURCE/INT2_SOURCE
+* Address : 0X31/0x35
+* Bit Group Name: ZH
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_ZH_DOWN =0x00,
+ LSM303AGR_ACC_ZH_UP =0x20,
+} LSM303AGR_ACC_ZH_t;
+
+#define LSM303AGR_ACC_ZH_MASK 0x20
+mems_status_t LSM303AGR_ACC_R_Int1_ZHi(void *handle, LSM303AGR_ACC_ZH_t *value);
+mems_status_t LSM303AGR_ACC_R_Int2_ZHi(void *handle, LSM303AGR_ACC_ZH_t *value);
+
+/*******************************************************************************
+* Register : INT1_SOURCE/INT2_SOURCE
+* Address : 0X31/0x35
+* Bit Group Name: IA
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_IA_DOWN =0x00,
+ LSM303AGR_ACC_IA_UP =0x40,
+} LSM303AGR_ACC_IA_t;
+
+#define LSM303AGR_ACC_IA_MASK 0x40
+mems_status_t LSM303AGR_ACC_R_Int1_IA(void *handle, LSM303AGR_ACC_IA_t *value);
+mems_status_t LSM303AGR_ACC_R_Int2_IA(void *handle, LSM303AGR_ACC_IA_t *value);
+
+/*******************************************************************************
+* Register : INT1_THS/INT2_THS
+* Address : 0X32/0x36
+* Bit Group Name: THS
+* Permission : RW
+*******************************************************************************/
+#define LSM303AGR_ACC_THS_MASK 0x7F
+#define LSM303AGR_ACC_THS_POSITION 0
+mems_status_t LSM303AGR_ACC_W_Int1_Threshold(void *handle, u8_t newValue);
+mems_status_t LSM303AGR_ACC_R_Int1_Threshold(void *handle, u8_t *value);
+mems_status_t LSM303AGR_ACC_W_Int2_Threshold(void *handle, u8_t newValue);
+mems_status_t LSM303AGR_ACC_R_Int2_Threshold(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : INT1_DURATION/INT2_DURATION
+* Address : 0X33/0x37
+* Bit Group Name: D
+* Permission : RW
+*******************************************************************************/
+#define LSM303AGR_ACC_D_MASK 0x7F
+#define LSM303AGR_ACC_D_POSITION 0
+mems_status_t LSM303AGR_ACC_W_Int1_Duration(void *handle, u8_t newValue);
+mems_status_t LSM303AGR_ACC_R_Int1_Duration(void *handle, u8_t *value);
+mems_status_t LSM303AGR_ACC_W_Int2_Duration(void *handle, u8_t newValue);
+mems_status_t LSM303AGR_ACC_R_Int2_Duration(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : CLICK_CFG
+* Address : 0X38
+* Bit Group Name: XS
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_XS_DISABLED =0x00,
+ LSM303AGR_ACC_XS_ENABLED =0x01,
+} LSM303AGR_ACC_XS_t;
+
+#define LSM303AGR_ACC_XS_MASK 0x01
+mems_status_t LSM303AGR_ACC_W_XSingle(void *handle, LSM303AGR_ACC_XS_t newValue);
+mems_status_t LSM303AGR_ACC_R_XSingle(void *handle, LSM303AGR_ACC_XS_t *value);
+
+/*******************************************************************************
+* Register : CLICK_CFG
+* Address : 0X38
+* Bit Group Name: XD
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_XD_DISABLED =0x00,
+ LSM303AGR_ACC_XD_ENABLED =0x02,
+} LSM303AGR_ACC_XD_t;
+
+#define LSM303AGR_ACC_XD_MASK 0x02
+mems_status_t LSM303AGR_ACC_W_XDouble(void *handle, LSM303AGR_ACC_XD_t newValue);
+mems_status_t LSM303AGR_ACC_R_XDouble(void *handle, LSM303AGR_ACC_XD_t *value);
+
+/*******************************************************************************
+* Register : CLICK_CFG
+* Address : 0X38
+* Bit Group Name: YS
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_YS_DISABLED =0x00,
+ LSM303AGR_ACC_YS_ENABLED =0x04,
+} LSM303AGR_ACC_YS_t;
+
+#define LSM303AGR_ACC_YS_MASK 0x04
+mems_status_t LSM303AGR_ACC_W_YSingle(void *handle, LSM303AGR_ACC_YS_t newValue);
+mems_status_t LSM303AGR_ACC_R_YSingle(void *handle, LSM303AGR_ACC_YS_t *value);
+
+/*******************************************************************************
+* Register : CLICK_CFG
+* Address : 0X38
+* Bit Group Name: YD
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_YD_DISABLED =0x00,
+ LSM303AGR_ACC_YD_ENABLED =0x08,
+} LSM303AGR_ACC_YD_t;
+
+#define LSM303AGR_ACC_YD_MASK 0x08
+mems_status_t LSM303AGR_ACC_W_YDouble(void *handle, LSM303AGR_ACC_YD_t newValue);
+mems_status_t LSM303AGR_ACC_R_YDouble(void *handle, LSM303AGR_ACC_YD_t *value);
+
+/*******************************************************************************
+* Register : CLICK_CFG
+* Address : 0X38
+* Bit Group Name: ZS
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_ZS_DISABLED =0x00,
+ LSM303AGR_ACC_ZS_ENABLED =0x10,
+} LSM303AGR_ACC_ZS_t;
+
+#define LSM303AGR_ACC_ZS_MASK 0x10
+mems_status_t LSM303AGR_ACC_W_ZSingle(void *handle, LSM303AGR_ACC_ZS_t newValue);
+mems_status_t LSM303AGR_ACC_R_ZSingle(void *handle, LSM303AGR_ACC_ZS_t *value);
+
+/*******************************************************************************
+* Register : CLICK_CFG
+* Address : 0X38
+* Bit Group Name: ZD
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_ZD_DISABLED =0x00,
+ LSM303AGR_ACC_ZD_ENABLED =0x20,
+} LSM303AGR_ACC_ZD_t;
+
+#define LSM303AGR_ACC_ZD_MASK 0x20
+mems_status_t LSM303AGR_ACC_W_ZDouble(void *handle, LSM303AGR_ACC_ZD_t newValue);
+mems_status_t LSM303AGR_ACC_R_ZDouble(void *handle, LSM303AGR_ACC_ZD_t *value);
+
+/*******************************************************************************
+* Register : CLICK_SRC
+* Address : 0X39
+* Bit Group Name: X
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_X_DOWN =0x00,
+ LSM303AGR_ACC_X_UP =0x01,
+} LSM303AGR_ACC_X_t;
+
+#define LSM303AGR_ACC_X_MASK 0x01
+mems_status_t LSM303AGR_ACC_R_ClickX(void *handle, LSM303AGR_ACC_X_t *value);
+
+/*******************************************************************************
+* Register : CLICK_SRC
+* Address : 0X39
+* Bit Group Name: Y
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_Y_DOWN =0x00,
+ LSM303AGR_ACC_Y_UP =0x02,
+} LSM303AGR_ACC_Y_t;
+
+#define LSM303AGR_ACC_Y_MASK 0x02
+mems_status_t LSM303AGR_ACC_R_ClickY(void *handle, LSM303AGR_ACC_Y_t *value);
+
+/*******************************************************************************
+* Register : CLICK_SRC
+* Address : 0X39
+* Bit Group Name: Z
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_Z_DOWN =0x00,
+ LSM303AGR_ACC_Z_UP =0x04,
+} LSM303AGR_ACC_Z_t;
+
+#define LSM303AGR_ACC_Z_MASK 0x04
+mems_status_t LSM303AGR_ACC_R_ClickZ(void *handle, LSM303AGR_ACC_Z_t *value);
+
+/*******************************************************************************
+* Register : CLICK_SRC
+* Address : 0X39
+* Bit Group Name: SIGN
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_SIGN_POSITIVE =0x00,
+ LSM303AGR_ACC_SIGN_NEGATIVE =0x08,
+} LSM303AGR_ACC_SIGN_t;
+
+#define LSM303AGR_ACC_SIGN_MASK 0x08
+mems_status_t LSM303AGR_ACC_R_ClickSign(void *handle, LSM303AGR_ACC_SIGN_t *value);
+
+/*******************************************************************************
+* Register : CLICK_SRC
+* Address : 0X39
+* Bit Group Name: SCLICK
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_SCLICK_DISABLED =0x00,
+ LSM303AGR_ACC_SCLICK_ENABLED =0x10,
+} LSM303AGR_ACC_SCLICK_t;
+
+#define LSM303AGR_ACC_SCLICK_MASK 0x10
+mems_status_t LSM303AGR_ACC_R_SingleCLICK(void *handle, LSM303AGR_ACC_SCLICK_t *value);
+
+/*******************************************************************************
+* Register : CLICK_SRC
+* Address : 0X39
+* Bit Group Name: DCLICK
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_DCLICK_DISABLED =0x00,
+ LSM303AGR_ACC_DCLICK_ENABLED =0x20,
+} LSM303AGR_ACC_DCLICK_t;
+
+#define LSM303AGR_ACC_DCLICK_MASK 0x20
+mems_status_t LSM303AGR_ACC_R_DoubleCLICK(void *handle, LSM303AGR_ACC_DCLICK_t *value);
+
+/*******************************************************************************
+* Register : CLICK_SRC
+* Address : 0X39
+* Bit Group Name: IA
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_ACC_CLICK_IA_DOWN =0x00,
+ LSM303AGR_ACC_CLICK_IA_UP =0x40,
+} LSM303AGR_ACC_CLICK_IA_t;
+
+#define LSM303AGR_ACC_IA_MASK 0x40
+mems_status_t LSM303AGR_ACC_R_CLICK_IA(void *handle, LSM303AGR_ACC_CLICK_IA_t *value);
+
+/*******************************************************************************
+* Register : CLICK_THS
+* Address : 0X3A
+* Bit Group Name: THS
+* Permission : RW
+*******************************************************************************/
+#define LSM303AGR_ACC_THS_MASK 0x7F
+#define LSM303AGR_ACC_THS_POSITION 0
+mems_status_t LSM303AGR_ACC_W_ClickThreshold(void *handle, u8_t newValue);
+mems_status_t LSM303AGR_ACC_R_ClickThreshold(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : TIME_LIMIT
+* Address : 0X3B
+* Bit Group Name: TLI
+* Permission : RW
+*******************************************************************************/
+#define LSM303AGR_ACC_TLI_MASK 0x7F
+#define LSM303AGR_ACC_TLI_POSITION 0
+mems_status_t LSM303AGR_ACC_W_ClickTimeLimit(void *handle, u8_t newValue);
+mems_status_t LSM303AGR_ACC_R_ClickTimeLimit(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : TIME_LATENCY
+* Address : 0X3C
+* Bit Group Name: TLA
+* Permission : RW
+*******************************************************************************/
+#define LSM303AGR_ACC_TLA_MASK 0xFF
+#define LSM303AGR_ACC_TLA_POSITION 0
+mems_status_t LSM303AGR_ACC_W_ClickTimeLatency(void *handle, u8_t newValue);
+mems_status_t LSM303AGR_ACC_R_ClickTimeLatency(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : TIME_WINDOW
+* Address : 0X3D
+* Bit Group Name: TW
+* Permission : RW
+*******************************************************************************/
+#define LSM303AGR_ACC_TW_MASK 0xFF
+#define LSM303AGR_ACC_TW_POSITION 0
+mems_status_t LSM303AGR_ACC_W_ClickTimeWindow(void *handle, u8_t newValue);
+mems_status_t LSM303AGR_ACC_R_ClickTimeWindow(void *handle, u8_t *value);
+/*******************************************************************************
+* Register : <REGISTER_L> - <REGISTER_H>
+* Output Type : Voltage_ADC
+* Permission : RO
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_Get_Voltage_ADC(void *handle, u8_t *buff);
+/*******************************************************************************
+* Register : <REGISTER_L> - <REGISTER_H>
+* Output Type : Acceleration
+* Permission : RO
+*******************************************************************************/
+mems_status_t LSM303AGR_ACC_Get_Raw_Acceleration(void *handle, u8_t *buff);
+mems_status_t LSM303AGR_ACC_Get_Acceleration(void *handle, int *buff);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Components/LSM303AGRSensor/LSM303AGR_mag_driver.c Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,1639 @@
+/**
+ *******************************************************************************
+ * @file LSM303AGR_mag_driver.c
+ * @author MEMS Application Team
+ * @version V1.1
+ * @date 25-February-2016
+ * @brief LSM303AGR Magnetometer driver file
+ *******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+/* Includes ------------------------------------------------------------------*/
+#include "LSM303AGR_mag_driver.h"
+
+/* Imported function prototypes ----------------------------------------------*/
+extern uint8_t LSM303AGR_MAG_io_write(void *handle, uint8_t WriteAddr, uint8_t *pBuffer, uint16_t nBytesToWrite);
+extern uint8_t LSM303AGR_MAG_io_read(void *handle, uint8_t ReadAddr, uint8_t *pBuffer, uint16_t nBytesToRead);
+
+/* Private typedef -----------------------------------------------------------*/
+
+/* Private define ------------------------------------------------------------*/
+
+/* Private macro -------------------------------------------------------------*/
+
+/* Private variables ---------------------------------------------------------*/
+
+/* Private functions ---------------------------------------------------------*/
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_read_reg
+* Description : Generic Reading function. It must be fullfilled with either
+* : I2C or SPI reading functions
+* Input : Register Address
+* Output : Data REad
+* Return : None
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_read_reg( void *handle, u8_t Reg, u8_t* Data )
+{
+
+ if (LSM303AGR_MAG_io_read(handle, Reg, Data, 1))
+ {
+ return MEMS_ERROR;
+ }
+ else
+ {
+ return MEMS_SUCCESS;
+ }
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_write_reg
+* Description : Generic Writing function. It must be fullfilled with either
+* : I2C or SPI writing function
+* Input : Register Address, Data to be written
+* Output : None
+* Return : None
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_write_reg( void *handle, u8_t Reg, u8_t Data )
+{
+
+ if (LSM303AGR_MAG_io_write(handle, Reg, &Data, 1))
+ {
+ return MEMS_ERROR;
+ }
+ else
+ {
+ return MEMS_SUCCESS;
+ }
+}
+
+/*******************************************************************************
+* Function Name : SwapHighLowByte
+* Description : Swap High/low byte in multiple byte values
+* It works with minimum 2 byte for every dimension.
+* Example x,y,z with 2 byte for every dimension
+*
+* Input : bufferToSwap -> buffer to swap
+* numberOfByte -> the buffer length in byte
+* dimension -> number of dimension
+*
+* Output : bufferToSwap -> buffer swapped
+* Return : None
+*******************************************************************************/
+void LSM303AGR_MAG_SwapHighLowByte(u8_t *bufferToSwap, u8_t numberOfByte, u8_t dimension)
+{
+
+ u8_t numberOfByteForDimension, i, j;
+ u8_t tempValue[10];
+
+ numberOfByteForDimension=numberOfByte/dimension;
+
+ for (i=0; i<dimension;i++ )
+ {
+ for (j=0; j<numberOfByteForDimension;j++ )
+ tempValue[j]=bufferToSwap[j+i*numberOfByteForDimension];
+ for (j=0; j<numberOfByteForDimension;j++ )
+ *(bufferToSwap+i*(numberOfByteForDimension)+j)=*(tempValue+(numberOfByteForDimension-1)-j);
+ }
+}
+
+/* Exported functions ---------------------------------------------------------*/
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_OFF_X_L
+* Description : Write OFF_X_L
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_OFF_X_L(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM303AGR_MAG_OFF_X_L_POSITION; //mask
+ newValue &= LSM303AGR_MAG_OFF_X_L_MASK; //coerce
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_OFFSET_X_REG_L, &value) )
+ return MEMS_ERROR;
+
+ value &= (u8_t)~LSM303AGR_MAG_OFF_X_L_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_OFFSET_X_REG_L, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_OFF_X_L
+* Description : Read OFF_X_L
+* Input : Pointer to u8_t
+* Output : Status of OFF_X_L
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_OFF_X_L(void *handle, u8_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_OFFSET_X_REG_L, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_OFF_X_L_MASK; //coerce
+ *value = *value >> LSM303AGR_MAG_OFF_X_L_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_OFF_X_H
+* Description : Write OFF_X_H
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_OFF_X_H(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM303AGR_MAG_OFF_X_H_POSITION; //mask
+ newValue &= LSM303AGR_MAG_OFF_X_H_MASK; //coerce
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_OFFSET_X_REG_H, &value) )
+ return MEMS_ERROR;
+
+ value &= (u8_t)~LSM303AGR_MAG_OFF_X_H_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_OFFSET_X_REG_H, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_OFF_X_H
+* Description : Read OFF_X_H
+* Input : Pointer to u8_t
+* Output : Status of OFF_X_H
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_OFF_X_H(void *handle, u8_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_OFFSET_X_REG_H, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_OFF_X_H_MASK; //coerce
+ *value = *value >> LSM303AGR_MAG_OFF_X_H_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_OFF_Y_L
+* Description : Write OFF_Y_L
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_OFF_Y_L(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM303AGR_MAG_OFF_Y_L_POSITION; //mask
+ newValue &= LSM303AGR_MAG_OFF_Y_L_MASK; //coerce
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_OFFSET_Y_REG_L, &value) )
+ return MEMS_ERROR;
+
+ value &= (u8_t)~LSM303AGR_MAG_OFF_Y_L_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_OFFSET_Y_REG_L, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_OFF_Y_L
+* Description : Read OFF_Y_L
+* Input : Pointer to u8_t
+* Output : Status of OFF_Y_L
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_OFF_Y_L(void *handle, u8_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_OFFSET_Y_REG_L, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_OFF_Y_L_MASK; //coerce
+ *value = *value >> LSM303AGR_MAG_OFF_Y_L_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_OFF_Y_H
+* Description : Write OFF_Y_H
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_OFF_Y_H(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM303AGR_MAG_OFF_Y_H_POSITION; //mask
+ newValue &= LSM303AGR_MAG_OFF_Y_H_MASK; //coerce
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_OFFSET_Y_REG_H, &value) )
+ return MEMS_ERROR;
+
+ value &= (u8_t)~LSM303AGR_MAG_OFF_Y_H_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_OFFSET_Y_REG_H, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_OFF_Y_H
+* Description : Read OFF_Y_H
+* Input : Pointer to u8_t
+* Output : Status of OFF_Y_H
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_OFF_Y_H(void *handle, u8_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_OFFSET_Y_REG_H, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_OFF_Y_H_MASK; //coerce
+ *value = *value >> LSM303AGR_MAG_OFF_Y_H_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_OFF_Z_L
+* Description : Write OFF_Z_L
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_OFF_Z_L(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM303AGR_MAG_OFF_Z_L_POSITION; //mask
+ newValue &= LSM303AGR_MAG_OFF_Z_L_MASK; //coerce
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_OFFSET_Z_REG_L, &value) )
+ return MEMS_ERROR;
+
+ value &= (u8_t)~LSM303AGR_MAG_OFF_Z_L_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_OFFSET_Z_REG_L, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_OFF_Z_L
+* Description : Read OFF_Z_L
+* Input : Pointer to u8_t
+* Output : Status of OFF_Z_L
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_OFF_Z_L(void *handle, u8_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_OFFSET_Z_REG_L, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_OFF_Z_L_MASK; //coerce
+ *value = *value >> LSM303AGR_MAG_OFF_Z_L_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_OFF_Z_H
+* Description : Write OFF_Z_H
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_OFF_Z_H(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM303AGR_MAG_OFF_Z_H_POSITION; //mask
+ newValue &= LSM303AGR_MAG_OFF_Z_H_MASK; //coerce
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_OFFSET_Z_REG_H, &value) )
+ return MEMS_ERROR;
+
+ value &= (u8_t)~LSM303AGR_MAG_OFF_Z_H_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_OFFSET_Z_REG_H, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+ * Set/Get the Magnetic offsets
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_Get_MagOff(void *handle, u16_t *magx_off, u16_t *magy_off, u16_t *magz_off)
+{
+ u8_t reg_l, reg_h;
+
+ /* read mag_x_off */
+ //LSM303AGR_MAG_R_OFF_X_L(®_l);
+ //LSM303AGR_MAG_R_OFF_X_H(®_h);
+ LSM303AGR_MAG_R_OFF_X_L(handle, ®_l);
+ LSM303AGR_MAG_R_OFF_X_H(handle, ®_h);
+ *magx_off = ((reg_h << 8) & 0xff00) | reg_l;
+
+ /* read mag_y_off */
+ //LSM303AGR_MAG_R_OFF_Y_L(®_l);
+ //LSM303AGR_MAG_R_OFF_Y_H(®_h);
+ LSM303AGR_MAG_R_OFF_Y_L(handle, ®_l);
+ LSM303AGR_MAG_R_OFF_Y_H(handle, ®_h);
+ *magy_off = ((reg_h << 8) & 0xff00) | reg_l;
+
+ /* read mag_z_off */
+ //LSM303AGR_MAG_R_OFF_Z_L(®_l);
+ //LSM303AGR_MAG_R_OFF_Z_H(®_h);
+ LSM303AGR_MAG_R_OFF_Z_L(handle, ®_l);
+ LSM303AGR_MAG_R_OFF_Z_H(handle, ®_h);
+ *magz_off = ((reg_h << 8) & 0xff00) | reg_l;
+
+ return MEMS_SUCCESS;
+}
+
+mems_status_t LSM303AGR_MAG_Set_MagOff(void *handle, u16_t magx_off, u16_t magy_off, u16_t magz_off)
+{
+ /* write mag_x_off */
+ //LSM303AGR_MAG_W_OFF_X_L(magx_off & 0xff);
+ //LSM303AGR_MAG_W_OFF_X_H((magx_off >> 8) & 0xff);
+ LSM303AGR_MAG_W_OFF_X_L(handle, magx_off & 0xff);
+ LSM303AGR_MAG_W_OFF_X_H(handle, (magx_off >> 8) & 0xff);
+
+ /* write mag_y_off */
+ //LSM303AGR_MAG_W_OFF_Y_L(magy_off & 0xff);
+ //LSM303AGR_MAG_W_OFF_Y_H((magy_off >> 8) & 0xff);
+ LSM303AGR_MAG_W_OFF_Y_L(handle, magy_off & 0xff);
+ LSM303AGR_MAG_W_OFF_Y_H(handle, (magy_off >> 8) & 0xff);
+
+ /* write mag_z_off */
+ //LSM303AGR_MAG_W_OFF_Z_L(magz_off & 0xff);
+ //LSM303AGR_MAG_W_OFF_Z_H((magz_off >> 8) & 0xff);
+ LSM303AGR_MAG_W_OFF_Z_L(handle, magz_off & 0xff);
+ LSM303AGR_MAG_W_OFF_Z_H(handle, (magz_off >> 8) & 0xff);
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_OFF_Z_H
+* Description : Read OFF_Z_H
+* Input : Pointer to u8_t
+* Output : Status of OFF_Z_H
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_OFF_Z_H(void *handle, u8_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_OFFSET_Z_REG_H, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_OFF_Z_H_MASK; //coerce
+ *value = *value >> LSM303AGR_MAG_OFF_Z_H_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_WHO_AM_I
+* Description : Read WHO_AM_I
+* Input : Pointer to u8_t
+* Output : Status of WHO_AM_I
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_WHO_AM_I(void *handle, u8_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_WHO_AM_I_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_WHO_AM_I_MASK; //coerce
+ *value = *value >> LSM303AGR_MAG_WHO_AM_I_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_MD
+* Description : Write MD
+* Input : LSM303AGR_MAG_MD_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_MD(void *handle, LSM303AGR_MAG_MD_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_A, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_MAG_MD_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_CFG_REG_A, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_MD
+* Description : Read MD
+* Input : Pointer to LSM303AGR_MAG_MD_t
+* Output : Status of MD see LSM303AGR_MAG_MD_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_MD(void *handle, LSM303AGR_MAG_MD_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_A, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_MD_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_ODR
+* Description : Write ODR
+* Input : LSM303AGR_MAG_ODR_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_ODR(void *handle, LSM303AGR_MAG_ODR_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_A, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_MAG_ODR_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_CFG_REG_A, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_ODR
+* Description : Read ODR
+* Input : Pointer to LSM303AGR_MAG_ODR_t
+* Output : Status of ODR see LSM303AGR_MAG_ODR_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_ODR(void *handle, LSM303AGR_MAG_ODR_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_A, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_ODR_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_LP
+* Description : Write LP
+* Input : LSM303AGR_MAG_LP_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_LP(void *handle, LSM303AGR_MAG_LP_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_A, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_MAG_LP_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_CFG_REG_A, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_LP
+* Description : Read LP
+* Input : Pointer to LSM303AGR_MAG_LP_t
+* Output : Status of LP see LSM303AGR_MAG_LP_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_LP(void *handle, LSM303AGR_MAG_LP_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_A, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_LP_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_SOFT_RST
+* Description : Write SOFT_RST
+* Input : LSM303AGR_MAG_SOFT_RST_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_SOFT_RST(void *handle, LSM303AGR_MAG_SOFT_RST_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_A, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_MAG_SOFT_RST_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_CFG_REG_A, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_SOFT_RST
+* Description : Read SOFT_RST
+* Input : Pointer to LSM303AGR_MAG_SOFT_RST_t
+* Output : Status of SOFT_RST see LSM303AGR_MAG_SOFT_RST_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_SOFT_RST(void *handle, LSM303AGR_MAG_SOFT_RST_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_A, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_SOFT_RST_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_LPF
+* Description : Write LPF
+* Input : LSM303AGR_MAG_LPF_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_LPF(void *handle, LSM303AGR_MAG_LPF_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_B, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_MAG_LPF_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_CFG_REG_B, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_LPF
+* Description : Read LPF
+* Input : Pointer to LSM303AGR_MAG_LPF_t
+* Output : Status of LPF see LSM303AGR_MAG_LPF_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_LPF(void *handle, LSM303AGR_MAG_LPF_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_B, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_LPF_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_OFF_CANC
+* Description : Write OFF_CANC
+* Input : LSM303AGR_MAG_OFF_CANC_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_OFF_CANC(void *handle, LSM303AGR_MAG_OFF_CANC_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_B, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_MAG_OFF_CANC_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_CFG_REG_B, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_OFF_CANC
+* Description : Read OFF_CANC
+* Input : Pointer to LSM303AGR_MAG_OFF_CANC_t
+* Output : Status of OFF_CANC see LSM303AGR_MAG_OFF_CANC_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_OFF_CANC(void *handle, LSM303AGR_MAG_OFF_CANC_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_B, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_OFF_CANC_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_SET_FREQ
+* Description : Write SET_FREQ
+* Input : LSM303AGR_MAG_SET_FREQ_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_SET_FREQ(void *handle, LSM303AGR_MAG_SET_FREQ_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_B, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_MAG_SET_FREQ_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_CFG_REG_B, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_SET_FREQ
+* Description : Read SET_FREQ
+* Input : Pointer to LSM303AGR_MAG_SET_FREQ_t
+* Output : Status of SET_FREQ see LSM303AGR_MAG_SET_FREQ_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_SET_FREQ(void *handle, LSM303AGR_MAG_SET_FREQ_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_B, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_SET_FREQ_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_INT_ON_DATAOFF
+* Description : Write INT_ON_DATAOFF
+* Input : LSM303AGR_MAG_INT_ON_DATAOFF_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_INT_ON_DATAOFF(void *handle, LSM303AGR_MAG_INT_ON_DATAOFF_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_B, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_MAG_INT_ON_DATAOFF_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_CFG_REG_B, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_INT_ON_DATAOFF
+* Description : Read INT_ON_DATAOFF
+* Input : Pointer to LSM303AGR_MAG_INT_ON_DATAOFF_t
+* Output : Status of INT_ON_DATAOFF see LSM303AGR_MAG_INT_ON_DATAOFF_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_INT_ON_DATAOFF(void *handle, LSM303AGR_MAG_INT_ON_DATAOFF_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_B, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_INT_ON_DATAOFF_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_INT_MAG
+* Description : Write INT_MAG
+* Input : LSM303AGR_MAG_INT_MAG_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_INT_MAG(void *handle, LSM303AGR_MAG_INT_MAG_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_C, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_MAG_INT_MAG_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_CFG_REG_C, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_INT_MAG
+* Description : Read INT_MAG
+* Input : Pointer to LSM303AGR_MAG_INT_MAG_t
+* Output : Status of INT_MAG see LSM303AGR_MAG_INT_MAG_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_INT_MAG(void *handle, LSM303AGR_MAG_INT_MAG_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_C, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_INT_MAG_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_ST
+* Description : Write ST
+* Input : LSM303AGR_MAG_ST_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_ST(void *handle, LSM303AGR_MAG_ST_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_C, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_MAG_ST_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_CFG_REG_C, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_ST
+* Description : Read ST
+* Input : Pointer to LSM303AGR_MAG_ST_t
+* Output : Status of ST see LSM303AGR_MAG_ST_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_ST(void *handle, LSM303AGR_MAG_ST_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_C, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_ST_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_BLE
+* Description : Write BLE
+* Input : LSM303AGR_MAG_BLE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_BLE(void *handle, LSM303AGR_MAG_BLE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_C, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_MAG_BLE_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_CFG_REG_C, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_BLE
+* Description : Read BLE
+* Input : Pointer to LSM303AGR_MAG_BLE_t
+* Output : Status of BLE see LSM303AGR_MAG_BLE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_BLE(void *handle, LSM303AGR_MAG_BLE_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_C, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_BLE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_BDU
+* Description : Write BDU
+* Input : LSM303AGR_MAG_BDU_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_BDU(void *handle, LSM303AGR_MAG_BDU_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_C, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_MAG_BDU_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_CFG_REG_C, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_BDU
+* Description : Read BDU
+* Input : Pointer to LSM303AGR_MAG_BDU_t
+* Output : Status of BDU see LSM303AGR_MAG_BDU_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_BDU(void *handle, LSM303AGR_MAG_BDU_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_C, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_BDU_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_I2C_DIS
+* Description : Write I2C_DIS
+* Input : LSM303AGR_MAG_I2C_DIS_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_I2C_DIS(void *handle, LSM303AGR_MAG_I2C_DIS_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_C, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_MAG_I2C_DIS_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_CFG_REG_C, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_I2C_DIS
+* Description : Read I2C_DIS
+* Input : Pointer to LSM303AGR_MAG_I2C_DIS_t
+* Output : Status of I2C_DIS see LSM303AGR_MAG_I2C_DIS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_I2C_DIS(void *handle, LSM303AGR_MAG_I2C_DIS_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_C, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_I2C_DIS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_INT_MAG_PIN
+* Description : Write INT_MAG_PIN
+* Input : LSM303AGR_MAG_INT_MAG_PIN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_INT_MAG_PIN(void *handle, LSM303AGR_MAG_INT_MAG_PIN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_C, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_MAG_INT_MAG_PIN_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_CFG_REG_C, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_INT_MAG_PIN
+* Description : Read INT_MAG_PIN
+* Input : Pointer to LSM303AGR_MAG_INT_MAG_PIN_t
+* Output : Status of INT_MAG_PIN see LSM303AGR_MAG_INT_MAG_PIN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_INT_MAG_PIN(void *handle, LSM303AGR_MAG_INT_MAG_PIN_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_CFG_REG_C, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_INT_MAG_PIN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_IEN
+* Description : Write IEN
+* Input : LSM303AGR_MAG_IEN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_IEN(void *handle, LSM303AGR_MAG_IEN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_CTRL_REG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_MAG_IEN_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_INT_CTRL_REG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_IEN
+* Description : Read IEN
+* Input : Pointer to LSM303AGR_MAG_IEN_t
+* Output : Status of IEN see LSM303AGR_MAG_IEN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_IEN(void *handle, LSM303AGR_MAG_IEN_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_CTRL_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_IEN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_IEL
+* Description : Write IEL
+* Input : LSM303AGR_MAG_IEL_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_IEL(void *handle, LSM303AGR_MAG_IEL_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_CTRL_REG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_MAG_IEL_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_INT_CTRL_REG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_IEL
+* Description : Read IEL
+* Input : Pointer to LSM303AGR_MAG_IEL_t
+* Output : Status of IEL see LSM303AGR_MAG_IEL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_IEL(void *handle, LSM303AGR_MAG_IEL_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_CTRL_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_IEL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_IEA
+* Description : Write IEA
+* Input : LSM303AGR_MAG_IEA_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_IEA(void *handle, LSM303AGR_MAG_IEA_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_CTRL_REG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_MAG_IEA_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_INT_CTRL_REG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_IEA
+* Description : Read IEA
+* Input : Pointer to LSM303AGR_MAG_IEA_t
+* Output : Status of IEA see LSM303AGR_MAG_IEA_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_IEA(void *handle, LSM303AGR_MAG_IEA_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_CTRL_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_IEA_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_ZIEN
+* Description : Write ZIEN
+* Input : LSM303AGR_MAG_ZIEN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_ZIEN(void *handle, LSM303AGR_MAG_ZIEN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_CTRL_REG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_MAG_ZIEN_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_INT_CTRL_REG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_ZIEN
+* Description : Read ZIEN
+* Input : Pointer to LSM303AGR_MAG_ZIEN_t
+* Output : Status of ZIEN see LSM303AGR_MAG_ZIEN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_ZIEN(void *handle, LSM303AGR_MAG_ZIEN_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_CTRL_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_ZIEN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_YIEN
+* Description : Write YIEN
+* Input : LSM303AGR_MAG_YIEN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_YIEN(void *handle, LSM303AGR_MAG_YIEN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_CTRL_REG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_MAG_YIEN_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_INT_CTRL_REG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_YIEN
+* Description : Read YIEN
+* Input : Pointer to LSM303AGR_MAG_YIEN_t
+* Output : Status of YIEN see LSM303AGR_MAG_YIEN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_YIEN(void *handle, LSM303AGR_MAG_YIEN_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_CTRL_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_YIEN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_W_XIEN
+* Description : Write XIEN
+* Input : LSM303AGR_MAG_XIEN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_W_XIEN(void *handle, LSM303AGR_MAG_XIEN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_CTRL_REG, &value) )
+ return MEMS_ERROR;
+
+ value &= ~LSM303AGR_MAG_XIEN_MASK;
+ value |= newValue;
+
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_INT_CTRL_REG, value) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_XIEN
+* Description : Read XIEN
+* Input : Pointer to LSM303AGR_MAG_XIEN_t
+* Output : Status of XIEN see LSM303AGR_MAG_XIEN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_XIEN(void *handle, LSM303AGR_MAG_XIEN_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_CTRL_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_XIEN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_INT
+* Description : Read INT
+* Input : Pointer to LSM303AGR_MAG_INT_t
+* Output : Status of INT see LSM303AGR_MAG_INT_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_INT(void *handle, LSM303AGR_MAG_INT_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_SOURCE_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_INT_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_MROI
+* Description : Read MROI
+* Input : Pointer to LSM303AGR_MAG_MROI_t
+* Output : Status of MROI see LSM303AGR_MAG_MROI_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_MROI(void *handle, LSM303AGR_MAG_MROI_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_SOURCE_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_MROI_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_N_TH_S_Z
+* Description : Read N_TH_S_Z
+* Input : Pointer to LSM303AGR_MAG_N_TH_S_Z_t
+* Output : Status of N_TH_S_Z see LSM303AGR_MAG_N_TH_S_Z_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_N_TH_S_Z(void *handle, LSM303AGR_MAG_N_TH_S_Z_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_SOURCE_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_N_TH_S_Z_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_N_TH_S_Y
+* Description : Read N_TH_S_Y
+* Input : Pointer to LSM303AGR_MAG_N_TH_S_Y_t
+* Output : Status of N_TH_S_Y see LSM303AGR_MAG_N_TH_S_Y_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_N_TH_S_Y(void *handle, LSM303AGR_MAG_N_TH_S_Y_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_SOURCE_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_N_TH_S_Y_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_N_TH_S_X
+* Description : Read N_TH_S_X
+* Input : Pointer to LSM303AGR_MAG_N_TH_S_X_t
+* Output : Status of N_TH_S_X see LSM303AGR_MAG_N_TH_S_X_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_N_TH_S_X(void *handle, LSM303AGR_MAG_N_TH_S_X_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_SOURCE_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_N_TH_S_X_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_P_TH_S_Z
+* Description : Read P_TH_S_Z
+* Input : Pointer to LSM303AGR_MAG_P_TH_S_Z_t
+* Output : Status of P_TH_S_Z see LSM303AGR_MAG_P_TH_S_Z_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_P_TH_S_Z(void *handle, LSM303AGR_MAG_P_TH_S_Z_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_SOURCE_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_P_TH_S_Z_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_P_TH_S_Y
+* Description : Read P_TH_S_Y
+* Input : Pointer to LSM303AGR_MAG_P_TH_S_Y_t
+* Output : Status of P_TH_S_Y see LSM303AGR_MAG_P_TH_S_Y_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_P_TH_S_Y(void *handle, LSM303AGR_MAG_P_TH_S_Y_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_SOURCE_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_P_TH_S_Y_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_P_TH_S_X
+* Description : Read P_TH_S_X
+* Input : Pointer to LSM303AGR_MAG_P_TH_S_X_t
+* Output : Status of P_TH_S_X see LSM303AGR_MAG_P_TH_S_X_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_P_TH_S_X(void *handle, LSM303AGR_MAG_P_TH_S_X_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_SOURCE_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_P_TH_S_X_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_XDA
+* Description : Read XDA
+* Input : Pointer to LSM303AGR_MAG_XDA_t
+* Output : Status of XDA see LSM303AGR_MAG_XDA_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_XDA(void *handle, LSM303AGR_MAG_XDA_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_STATUS_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_XDA_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_YDA
+* Description : Read YDA
+* Input : Pointer to LSM303AGR_MAG_YDA_t
+* Output : Status of YDA see LSM303AGR_MAG_YDA_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_YDA(void *handle, LSM303AGR_MAG_YDA_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_STATUS_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_YDA_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_ZDA
+* Description : Read ZDA
+* Input : Pointer to LSM303AGR_MAG_ZDA_t
+* Output : Status of ZDA see LSM303AGR_MAG_ZDA_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_ZDA(void *handle, LSM303AGR_MAG_ZDA_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_STATUS_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_ZDA_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_ZYXDA
+* Description : Read ZYXDA
+* Input : Pointer to LSM303AGR_MAG_ZYXDA_t
+* Output : Status of ZYXDA see LSM303AGR_MAG_ZYXDA_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_ZYXDA(void *handle, LSM303AGR_MAG_ZYXDA_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_STATUS_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_ZYXDA_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_XOR
+* Description : Read XOR
+* Input : Pointer to LSM303AGR_MAG_XOR_t
+* Output : Status of XOR see LSM303AGR_MAG_XOR_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_XOR(void *handle, LSM303AGR_MAG_XOR_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_STATUS_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_XOR_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_YOR
+* Description : Read YOR
+* Input : Pointer to LSM303AGR_MAG_YOR_t
+* Output : Status of YOR see LSM303AGR_MAG_YOR_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_YOR(void *handle, LSM303AGR_MAG_YOR_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_STATUS_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_YOR_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_ZOR
+* Description : Read ZOR
+* Input : Pointer to LSM303AGR_MAG_ZOR_t
+* Output : Status of ZOR see LSM303AGR_MAG_ZOR_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_ZOR(void *handle, LSM303AGR_MAG_ZOR_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_STATUS_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_ZOR_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM303AGR_MAG_R_ZYXOR
+* Description : Read ZYXOR
+* Input : Pointer to LSM303AGR_MAG_ZYXOR_t
+* Output : Status of ZYXOR see LSM303AGR_MAG_ZYXOR_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+
+mems_status_t LSM303AGR_MAG_R_ZYXOR(void *handle, LSM303AGR_MAG_ZYXOR_t *value)
+{
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_STATUS_REG, (u8_t *)value) )
+ return MEMS_ERROR;
+
+ *value &= LSM303AGR_MAG_ZYXOR_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : mems_status_t LSM303AGR_MAG_Get_Raw_Magnetic(u8_t *buff)
+* Description : Read Magnetic output register
+* Input : pointer to [u8_t]
+* Output : Magnetic buffer u8_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_Get_Raw_Magnetic(void *handle, u8_t *buff)
+{
+ u8_t i, j, k;
+ u8_t numberOfByteForDimension;
+
+ numberOfByteForDimension=6/3;
+
+ k=0;
+ for (i=0; i<3;i++ )
+ {
+ for (j=0; j<numberOfByteForDimension;j++ )
+ {
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_OUTX_L_REG+k, &buff[k]))
+ return MEMS_ERROR;
+ k++;
+ }
+ }
+
+ return MEMS_SUCCESS;
+}
+
+#define LSM303AGR_MAG_SENSITIVITY 15/10
+
+mems_status_t LSM303AGR_MAG_Get_Magnetic(void *handle, int *buff)
+{
+ Type3Axis16bit_U raw_data_tmp;
+
+ /* Read out raw magnetometer samples */
+ if(!LSM303AGR_MAG_Get_Raw_Magnetic(handle, raw_data_tmp.u8bit)) {
+ return MEMS_ERROR;
+ }
+
+ /* Applysensitivity */
+ buff[0] = raw_data_tmp.i16bit[0] * LSM303AGR_MAG_SENSITIVITY;
+ buff[1] = raw_data_tmp.i16bit[1] * LSM303AGR_MAG_SENSITIVITY;
+ buff[2] = raw_data_tmp.i16bit[2] * LSM303AGR_MAG_SENSITIVITY;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : mems_status_t LSM303AGR_MAG_Get_IntThreshld(u8_t *buff)
+* Description : Read IntThreshld output register
+* Input : pointer to [u8_t]
+* Output : IntThreshld buffer u8_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_Get_IntThreshld(void *handle, u8_t *buff)
+{
+ u8_t i, j, k;
+ u8_t numberOfByteForDimension;
+
+ numberOfByteForDimension=2/1;
+
+ k=0;
+ for (i=0; i<1;i++ )
+ {
+ for (j=0; j<numberOfByteForDimension;j++ )
+ {
+ if( !LSM303AGR_MAG_read_reg(handle, LSM303AGR_MAG_INT_THS_L_REG+k, &buff[k]))
+ return MEMS_ERROR;
+ k++;
+ }
+ }
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : mems_status_t LSM303AGR_MAG_Set_IntThreshld(u8_t *buff)
+* Description : Write IntThreshld output register
+* Input : pointer to [u8_t]
+* Output : IntThreshld buffer u8_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_Set_IntThreshld(void *handle, u8_t *buff)
+{
+ u8_t i, j, k;
+ u8_t numberOfByteForDimension;
+
+ numberOfByteForDimension=2/1;
+
+ k=0;
+ for (i=0; i<1;i++ )
+ {
+ for (j=0; j<numberOfByteForDimension;j++ )
+ {
+ if( !LSM303AGR_MAG_write_reg(handle, LSM303AGR_MAG_INT_THS_L_REG+k, buff[k]))
+ return MEMS_ERROR;
+ k++;
+ }
+ }
+
+ return MEMS_SUCCESS;
+}
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Components/LSM303AGRSensor/LSM303AGR_mag_driver.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,766 @@
+/**
+ ******************************************************************************
+ * @file LSM303AGR_mag_driver.h
+ * @author MEMS Application Team
+ * @version V1.1
+ * @date 25-February-2016
+ * @brief LSM303AGR Magnetometer header driver file
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+/* Define to prevent recursive inclusion -------------------------------------*/
+#ifndef __LSM303AGR_MAG_DRIVER__H
+#define __LSM303AGR_MAG_DRIVER__H
+
+/* Includes ------------------------------------------------------------------*/
+#include <stdint.h>
+
+/* Exported types ------------------------------------------------------------*/
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+//these could change accordingly with the architecture
+
+#ifndef __ARCHDEP__TYPES
+#define __ARCHDEP__TYPES
+
+typedef unsigned char u8_t;
+typedef unsigned short int u16_t;
+typedef unsigned int u32_t;
+typedef int i32_t;
+typedef short int i16_t;
+typedef signed char i8_t;
+
+#endif /*__ARCHDEP__TYPES*/
+
+/* Exported common structure --------------------------------------------------------*/
+
+#ifndef __SHARED__TYPES
+#define __SHARED__TYPES
+
+typedef union{
+ i16_t i16bit[3];
+ u8_t u8bit[6];
+} Type3Axis16bit_U;
+
+typedef union{
+ i16_t i16bit;
+ u8_t u8bit[2];
+} Type1Axis16bit_U;
+
+typedef union{
+ i32_t i32bit;
+ u8_t u8bit[4];
+} Type1Axis32bit_U;
+
+typedef enum {
+ MEMS_SUCCESS = 0x01,
+ MEMS_ERROR = 0x00
+} mems_status_t;
+
+#endif /*__SHARED__TYPES*/
+
+/* Exported macro ------------------------------------------------------------*/
+
+/* Exported constants --------------------------------------------------------*/
+
+/************** I2C Address *****************/
+
+#define LSM303AGR_MAG_I2C_ADDRESS 0x3C
+
+/************** Who am I *******************/
+
+#define LSM303AGR_MAG_WHO_AM_I 0x40
+
+/* Private Function Prototype -------------------------------------------------------*/
+
+void LSM303AGR_MAG_SwapHighLowByte(u8_t *bufferToSwap, u8_t numberOfByte, u8_t dimension);
+
+/* Public Function Prototypes -------------------------------------------------------*/
+
+mems_status_t LSM303AGR_MAG_read_reg( void *handle, u8_t Reg, u8_t* Data );
+mems_status_t LSM303AGR_MAG_write_reg( void *handle, u8_t Reg, u8_t Data );
+
+
+/************** Device Register *******************/
+#define LSM303AGR_MAG_OFFSET_X_REG_L 0X45
+#define LSM303AGR_MAG_OFFSET_X_REG_H 0X46
+#define LSM303AGR_MAG_OFFSET_Y_REG_L 0X47
+#define LSM303AGR_MAG_OFFSET_Y_REG_H 0X48
+#define LSM303AGR_MAG_OFFSET_Z_REG_L 0X49
+#define LSM303AGR_MAG_OFFSET_Z_REG_H 0X4A
+#define LSM303AGR_MAG_WHO_AM_I_REG 0X4F
+#define LSM303AGR_MAG_CFG_REG_A 0X60
+#define LSM303AGR_MAG_CFG_REG_B 0X61
+#define LSM303AGR_MAG_CFG_REG_C 0X62
+#define LSM303AGR_MAG_INT_CTRL_REG 0X63
+#define LSM303AGR_MAG_INT_SOURCE_REG 0X64
+#define LSM303AGR_MAG_INT_THS_L_REG 0X65
+#define LSM303AGR_MAG_INT_THS_H_REG 0X66
+#define LSM303AGR_MAG_STATUS_REG 0X67
+#define LSM303AGR_MAG_OUTX_L_REG 0X68
+#define LSM303AGR_MAG_OUTX_H_REG 0X69
+#define LSM303AGR_MAG_OUTY_L_REG 0X6A
+#define LSM303AGR_MAG_OUTY_H_REG 0X6B
+#define LSM303AGR_MAG_OUTZ_L_REG 0X6C
+#define LSM303AGR_MAG_OUTZ_H_REG 0X6D
+
+/*******************************************************************************
+* Register : OFFSET_X_REG_L
+* Address : 0X45
+* Bit Group Name: OFF_X_L
+* Permission : RW
+*******************************************************************************/
+#define LSM303AGR_MAG_OFF_X_L_MASK 0xFF
+#define LSM303AGR_MAG_OFF_X_L_POSITION 0
+mems_status_t LSM303AGR_MAG_W_OFF_X_L(void *handle, u8_t newValue);
+mems_status_t LSM303AGR_MAG_R_OFF_X_L(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : OFFSET_X_REG_H
+* Address : 0X46
+* Bit Group Name: OFF_X_H
+* Permission : RW
+*******************************************************************************/
+#define LSM303AGR_MAG_OFF_X_H_MASK 0xFF
+#define LSM303AGR_MAG_OFF_X_H_POSITION 0
+mems_status_t LSM303AGR_MAG_W_OFF_X_H(void *handle, u8_t newValue);
+mems_status_t LSM303AGR_MAG_R_OFF_X_H(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : OFFSET_Y_REG_L
+* Address : 0X47
+* Bit Group Name: OFF_Y_L
+* Permission : RW
+*******************************************************************************/
+#define LSM303AGR_MAG_OFF_Y_L_MASK 0xFF
+#define LSM303AGR_MAG_OFF_Y_L_POSITION 0
+mems_status_t LSM303AGR_MAG_W_OFF_Y_L(void *handle, u8_t newValue);
+mems_status_t LSM303AGR_MAG_R_OFF_Y_L(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : OFFSET_Y_REG_H
+* Address : 0X48
+* Bit Group Name: OFF_Y_H
+* Permission : RW
+*******************************************************************************/
+#define LSM303AGR_MAG_OFF_Y_H_MASK 0xFF
+#define LSM303AGR_MAG_OFF_Y_H_POSITION 0
+mems_status_t LSM303AGR_MAG_W_OFF_Y_H(void *handle, u8_t newValue);
+mems_status_t LSM303AGR_MAG_R_OFF_Y_H(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : OFFSET_Z_REG_L
+* Address : 0X49
+* Bit Group Name: OFF_Z_L
+* Permission : RW
+*******************************************************************************/
+#define LSM303AGR_MAG_OFF_Z_L_MASK 0xFF
+#define LSM303AGR_MAG_OFF_Z_L_POSITION 0
+mems_status_t LSM303AGR_MAG_W_OFF_Z_L(void *handle, u8_t newValue);
+mems_status_t LSM303AGR_MAG_R_OFF_Z_L(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : OFFSET_Z_REG_H
+* Address : 0X4A
+* Bit Group Name: OFF_Z_H
+* Permission : RW
+*******************************************************************************/
+#define LSM303AGR_MAG_OFF_Z_H_MASK 0xFF
+#define LSM303AGR_MAG_OFF_Z_H_POSITION 0
+mems_status_t LSM303AGR_MAG_W_OFF_Z_H(void *handle, u8_t newValue);
+mems_status_t LSM303AGR_MAG_R_OFF_Z_H(void *handle, u8_t *value);
+
+/*******************************************************************************
+ * Set/Get the Magnetic offsets
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_Get_MagOff(void *handle, u16_t *magx_off, u16_t *magy_off, u16_t *magz_off);
+mems_status_t LSM303AGR_MAG_Set_MagOff(void *handle, u16_t magx_off, u16_t magy_off, u16_t magz_off);
+
+/*******************************************************************************
+* Register : WHO_AM_I_REG
+* Address : 0X4F
+* Bit Group Name: WHO_AM_I
+* Permission : RO
+*******************************************************************************/
+#define LSM303AGR_MAG_WHO_AM_I_MASK 0xFF
+#define LSM303AGR_MAG_WHO_AM_I_POSITION 0
+mems_status_t LSM303AGR_MAG_R_WHO_AM_I(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : CFG_REG_A
+* Address : 0X60
+* Bit Group Name: MD
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_MD_CONTINUOS_MODE =0x00,
+ LSM303AGR_MAG_MD_SINGLE_MODE =0x01,
+ LSM303AGR_MAG_MD_IDLE1_MODE =0x02,
+ LSM303AGR_MAG_MD_IDLE2_MODE =0x03,
+} LSM303AGR_MAG_MD_t;
+
+#define LSM303AGR_MAG_MD_MASK 0x03
+mems_status_t LSM303AGR_MAG_W_MD(void *handle, LSM303AGR_MAG_MD_t newValue);
+mems_status_t LSM303AGR_MAG_R_MD(void *handle, LSM303AGR_MAG_MD_t *value);
+
+/*******************************************************************************
+* Register : CFG_REG_A
+* Address : 0X60
+* Bit Group Name: ODR
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_ODR_10Hz =0x00,
+ LSM303AGR_MAG_ODR_20Hz =0x04,
+ LSM303AGR_MAG_ODR_50Hz =0x08,
+ LSM303AGR_MAG_ODR_100Hz =0x0C,
+} LSM303AGR_MAG_ODR_t;
+
+#define LSM303AGR_MAG_ODR_MASK 0x0C
+mems_status_t LSM303AGR_MAG_W_ODR(void *handle, LSM303AGR_MAG_ODR_t newValue);
+mems_status_t LSM303AGR_MAG_R_ODR(void *handle, LSM303AGR_MAG_ODR_t *value);
+
+/*******************************************************************************
+* Register : CFG_REG_A
+* Address : 0X60
+* Bit Group Name: LP
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_HR_MODE =0x00,
+ LSM303AGR_MAG_LP_MODE =0x10,
+} LSM303AGR_MAG_LP_t;
+
+#define LSM303AGR_MAG_LP_MASK 0x10
+mems_status_t LSM303AGR_MAG_W_LP(void *handle, LSM303AGR_MAG_LP_t newValue);
+mems_status_t LSM303AGR_MAG_R_LP(void *handle, LSM303AGR_MAG_LP_t *value);
+
+/*******************************************************************************
+* Register : CFG_REG_A
+* Address : 0X60
+* Bit Group Name: SOFT_RST
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_SOFT_RST_DISABLED =0x00,
+ LSM303AGR_MAG_SOFT_RST_ENABLED =0x20,
+} LSM303AGR_MAG_SOFT_RST_t;
+
+#define LSM303AGR_MAG_SOFT_RST_MASK 0x20
+mems_status_t LSM303AGR_MAG_W_SOFT_RST(void *handle, LSM303AGR_MAG_SOFT_RST_t newValue);
+mems_status_t LSM303AGR_MAG_R_SOFT_RST(void *handle, LSM303AGR_MAG_SOFT_RST_t *value);
+
+/*******************************************************************************
+* Register : CFG_REG_B
+* Address : 0X61
+* Bit Group Name: LPF
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_LPF_DISABLED =0x00,
+ LSM303AGR_MAG_LPF_ENABLED =0x01,
+} LSM303AGR_MAG_LPF_t;
+
+#define LSM303AGR_MAG_LPF_MASK 0x01
+mems_status_t LSM303AGR_MAG_W_LPF(void *handle, LSM303AGR_MAG_LPF_t newValue);
+mems_status_t LSM303AGR_MAG_R_LPF(void *handle, LSM303AGR_MAG_LPF_t *value);
+
+/*******************************************************************************
+* Register : CFG_REG_B
+* Address : 0X61
+* Bit Group Name: OFF_CANC
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_OFF_CANC_DISABLED =0x00,
+ LSM303AGR_MAG_OFF_CANC_ENABLED =0x02,
+} LSM303AGR_MAG_OFF_CANC_t;
+
+#define LSM303AGR_MAG_OFF_CANC_MASK 0x02
+mems_status_t LSM303AGR_MAG_W_OFF_CANC(void *handle, LSM303AGR_MAG_OFF_CANC_t newValue);
+mems_status_t LSM303AGR_MAG_R_OFF_CANC(void *handle, LSM303AGR_MAG_OFF_CANC_t *value);
+
+/*******************************************************************************
+* Register : CFG_REG_B
+* Address : 0X61
+* Bit Group Name: SET_FREQ
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_SET_FREQ_CONTINUOS =0x00,
+ LSM303AGR_MAG_SET_FREQ_SINGLE =0x04,
+} LSM303AGR_MAG_SET_FREQ_t;
+
+#define LSM303AGR_MAG_SET_FREQ_MASK 0x04
+mems_status_t LSM303AGR_MAG_W_SET_FREQ(void *handle, LSM303AGR_MAG_SET_FREQ_t newValue);
+mems_status_t LSM303AGR_MAG_R_SET_FREQ(void *handle, LSM303AGR_MAG_SET_FREQ_t *value);
+
+/*******************************************************************************
+* Register : CFG_REG_B
+* Address : 0X61
+* Bit Group Name: INT_ON_DATAOFF
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_INT_ON_DATAOFF_DISABLED =0x00,
+ LSM303AGR_MAG_INT_ON_DATAOFF_ENABLED =0x08,
+} LSM303AGR_MAG_INT_ON_DATAOFF_t;
+
+#define LSM303AGR_MAG_INT_ON_DATAOFF_MASK 0x08
+mems_status_t LSM303AGR_MAG_W_INT_ON_DATAOFF(void *handle, LSM303AGR_MAG_INT_ON_DATAOFF_t newValue);
+mems_status_t LSM303AGR_MAG_R_INT_ON_DATAOFF(void *handle, LSM303AGR_MAG_INT_ON_DATAOFF_t *value);
+
+/*******************************************************************************
+* Register : CFG_REG_C
+* Address : 0X62
+* Bit Group Name: INT_MAG
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_INT_MAG_DISABLED =0x00,
+ LSM303AGR_MAG_INT_MAG_ENABLED =0x01,
+} LSM303AGR_MAG_INT_MAG_t;
+
+#define LSM303AGR_MAG_INT_MAG_MASK 0x01
+mems_status_t LSM303AGR_MAG_W_INT_MAG(void *handle, LSM303AGR_MAG_INT_MAG_t newValue);
+mems_status_t LSM303AGR_MAG_R_INT_MAG(void *handle, LSM303AGR_MAG_INT_MAG_t *value);
+
+/*******************************************************************************
+* Register : CFG_REG_C
+* Address : 0X62
+* Bit Group Name: ST
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_ST_DISABLED =0x00,
+ LSM303AGR_MAG_ST_ENABLED =0x02,
+} LSM303AGR_MAG_ST_t;
+
+#define LSM303AGR_MAG_ST_MASK 0x02
+mems_status_t LSM303AGR_MAG_W_ST(void *handle, LSM303AGR_MAG_ST_t newValue);
+mems_status_t LSM303AGR_MAG_R_ST(void *handle, LSM303AGR_MAG_ST_t *value);
+
+/*******************************************************************************
+* Register : CFG_REG_C
+* Address : 0X62
+* Bit Group Name: BLE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_BLE_DISABLED =0x00,
+ LSM303AGR_MAG_BLE_ENABLED =0x08,
+} LSM303AGR_MAG_BLE_t;
+
+#define LSM303AGR_MAG_BLE_MASK 0x08
+mems_status_t LSM303AGR_MAG_W_BLE(void *handle, LSM303AGR_MAG_BLE_t newValue);
+mems_status_t LSM303AGR_MAG_R_BLE(void *handle, LSM303AGR_MAG_BLE_t *value);
+
+/*******************************************************************************
+* Register : CFG_REG_C
+* Address : 0X62
+* Bit Group Name: BDU
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_BDU_DISABLED =0x00,
+ LSM303AGR_MAG_BDU_ENABLED =0x10,
+} LSM303AGR_MAG_BDU_t;
+
+#define LSM303AGR_MAG_BDU_MASK 0x10
+mems_status_t LSM303AGR_MAG_W_BDU(void *handle, LSM303AGR_MAG_BDU_t newValue);
+mems_status_t LSM303AGR_MAG_R_BDU(void *handle, LSM303AGR_MAG_BDU_t *value);
+
+/*******************************************************************************
+* Register : CFG_REG_C
+* Address : 0X62
+* Bit Group Name: I2C_DIS
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_I2C_ENABLED =0x00,
+ LSM303AGR_MAG_I2C_DISABLED =0x20,
+} LSM303AGR_MAG_I2C_DIS_t;
+
+#define LSM303AGR_MAG_I2C_DIS_MASK 0x20
+mems_status_t LSM303AGR_MAG_W_I2C_DIS(void *handle, LSM303AGR_MAG_I2C_DIS_t newValue);
+mems_status_t LSM303AGR_MAG_R_I2C_DIS(void *handle, LSM303AGR_MAG_I2C_DIS_t *value);
+
+/*******************************************************************************
+* Register : CFG_REG_C
+* Address : 0X62
+* Bit Group Name: INT_MAG_PIN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_INT_MAG_PIN_DISABLED =0x00,
+ LSM303AGR_MAG_INT_MAG_PIN_ENABLED =0x40,
+} LSM303AGR_MAG_INT_MAG_PIN_t;
+
+#define LSM303AGR_MAG_INT_MAG_PIN_MASK 0x40
+mems_status_t LSM303AGR_MAG_W_INT_MAG_PIN(void *handle, LSM303AGR_MAG_INT_MAG_PIN_t newValue);
+mems_status_t LSM303AGR_MAG_R_INT_MAG_PIN(void *handle, LSM303AGR_MAG_INT_MAG_PIN_t *value);
+
+/*******************************************************************************
+* Register : INT_CTRL_REG
+* Address : 0X63
+* Bit Group Name: IEN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_IEN_DISABLED =0x00,
+ LSM303AGR_MAG_IEN_ENABLED =0x01,
+} LSM303AGR_MAG_IEN_t;
+
+#define LSM303AGR_MAG_IEN_MASK 0x01
+mems_status_t LSM303AGR_MAG_W_IEN(void *handle, LSM303AGR_MAG_IEN_t newValue);
+mems_status_t LSM303AGR_MAG_R_IEN(void *handle, LSM303AGR_MAG_IEN_t *value);
+
+/*******************************************************************************
+* Register : INT_CTRL_REG
+* Address : 0X63
+* Bit Group Name: IEL
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_IEL_PULSED =0x00,
+ LSM303AGR_MAG_IEL_LATCHED =0x02,
+} LSM303AGR_MAG_IEL_t;
+
+#define LSM303AGR_MAG_IEL_MASK 0x02
+mems_status_t LSM303AGR_MAG_W_IEL(void *handle, LSM303AGR_MAG_IEL_t newValue);
+mems_status_t LSM303AGR_MAG_R_IEL(void *handle, LSM303AGR_MAG_IEL_t *value);
+
+/*******************************************************************************
+* Register : INT_CTRL_REG
+* Address : 0X63
+* Bit Group Name: IEA
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_IEA_ACTIVE_LO =0x00,
+ LSM303AGR_MAG_IEA_ACTIVE_HI =0x04,
+} LSM303AGR_MAG_IEA_t;
+
+#define LSM303AGR_MAG_IEA_MASK 0x04
+mems_status_t LSM303AGR_MAG_W_IEA(void *handle, LSM303AGR_MAG_IEA_t newValue);
+mems_status_t LSM303AGR_MAG_R_IEA(void *handle, LSM303AGR_MAG_IEA_t *value);
+
+/*******************************************************************************
+* Register : INT_CTRL_REG
+* Address : 0X63
+* Bit Group Name: ZIEN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_ZIEN_DISABLED =0x00,
+ LSM303AGR_MAG_ZIEN_ENABLED =0x20,
+} LSM303AGR_MAG_ZIEN_t;
+
+#define LSM303AGR_MAG_ZIEN_MASK 0x20
+mems_status_t LSM303AGR_MAG_W_ZIEN(void *handle, LSM303AGR_MAG_ZIEN_t newValue);
+mems_status_t LSM303AGR_MAG_R_ZIEN(void *handle, LSM303AGR_MAG_ZIEN_t *value);
+
+/*******************************************************************************
+* Register : INT_CTRL_REG
+* Address : 0X63
+* Bit Group Name: YIEN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_YIEN_DISABLED =0x00,
+ LSM303AGR_MAG_YIEN_ENABLED =0x40,
+} LSM303AGR_MAG_YIEN_t;
+
+#define LSM303AGR_MAG_YIEN_MASK 0x40
+mems_status_t LSM303AGR_MAG_W_YIEN(void *handle, LSM303AGR_MAG_YIEN_t newValue);
+mems_status_t LSM303AGR_MAG_R_YIEN(void *handle, LSM303AGR_MAG_YIEN_t *value);
+
+/*******************************************************************************
+* Register : INT_CTRL_REG
+* Address : 0X63
+* Bit Group Name: XIEN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_XIEN_DISABLED =0x00,
+ LSM303AGR_MAG_XIEN_ENABLED =0x80,
+} LSM303AGR_MAG_XIEN_t;
+
+#define LSM303AGR_MAG_XIEN_MASK 0x80
+mems_status_t LSM303AGR_MAG_W_XIEN(void *handle, LSM303AGR_MAG_XIEN_t newValue);
+mems_status_t LSM303AGR_MAG_R_XIEN(void *handle, LSM303AGR_MAG_XIEN_t *value);
+
+/*******************************************************************************
+* Register : INT_SOURCE_REG
+* Address : 0X64
+* Bit Group Name: INT
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_INT_EV_OFF =0x00,
+ LSM303AGR_MAG_INT_EV_ON =0x01,
+} LSM303AGR_MAG_INT_t;
+
+#define LSM303AGR_MAG_INT_MASK 0x01
+mems_status_t LSM303AGR_MAG_R_INT(void *handle, LSM303AGR_MAG_INT_t *value);
+
+/*******************************************************************************
+* Register : INT_SOURCE_REG
+* Address : 0X64
+* Bit Group Name: MROI
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_MROI_EV_OFF =0x00,
+ LSM303AGR_MAG_MROI_EV_ON =0x02,
+} LSM303AGR_MAG_MROI_t;
+
+#define LSM303AGR_MAG_MROI_MASK 0x02
+mems_status_t LSM303AGR_MAG_R_MROI(void *handle, LSM303AGR_MAG_MROI_t *value);
+
+/*******************************************************************************
+* Register : INT_SOURCE_REG
+* Address : 0X64
+* Bit Group Name: N_TH_S_Z
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_N_TH_S_Z_EV_OFF =0x00,
+ LSM303AGR_MAG_N_TH_S_Z_EV_ON =0x04,
+} LSM303AGR_MAG_N_TH_S_Z_t;
+
+#define LSM303AGR_MAG_N_TH_S_Z_MASK 0x04
+mems_status_t LSM303AGR_MAG_R_N_TH_S_Z(void *handle, LSM303AGR_MAG_N_TH_S_Z_t *value);
+
+/*******************************************************************************
+* Register : INT_SOURCE_REG
+* Address : 0X64
+* Bit Group Name: N_TH_S_Y
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_N_TH_S_Y_EV_OFF =0x00,
+ LSM303AGR_MAG_N_TH_S_Y_EV_ON =0x08,
+} LSM303AGR_MAG_N_TH_S_Y_t;
+
+#define LSM303AGR_MAG_N_TH_S_Y_MASK 0x08
+mems_status_t LSM303AGR_MAG_R_N_TH_S_Y(void *handle, LSM303AGR_MAG_N_TH_S_Y_t *value);
+
+/*******************************************************************************
+* Register : INT_SOURCE_REG
+* Address : 0X64
+* Bit Group Name: N_TH_S_X
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_N_TH_S_X_EV_OFF =0x00,
+ LSM303AGR_MAG_N_TH_S_X_EV_ON =0x10,
+} LSM303AGR_MAG_N_TH_S_X_t;
+
+#define LSM303AGR_MAG_N_TH_S_X_MASK 0x10
+mems_status_t LSM303AGR_MAG_R_N_TH_S_X(void *handle, LSM303AGR_MAG_N_TH_S_X_t *value);
+
+/*******************************************************************************
+* Register : INT_SOURCE_REG
+* Address : 0X64
+* Bit Group Name: P_TH_S_Z
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_P_TH_S_Z_EV_OFF =0x00,
+ LSM303AGR_MAG_P_TH_S_Z_EV_ON =0x20,
+} LSM303AGR_MAG_P_TH_S_Z_t;
+
+#define LSM303AGR_MAG_P_TH_S_Z_MASK 0x20
+mems_status_t LSM303AGR_MAG_R_P_TH_S_Z(void *handle, LSM303AGR_MAG_P_TH_S_Z_t *value);
+
+/*******************************************************************************
+* Register : INT_SOURCE_REG
+* Address : 0X64
+* Bit Group Name: P_TH_S_Y
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_P_TH_S_Y_EV_OFF =0x00,
+ LSM303AGR_MAG_P_TH_S_Y_EV_ON =0x40,
+} LSM303AGR_MAG_P_TH_S_Y_t;
+
+#define LSM303AGR_MAG_P_TH_S_Y_MASK 0x40
+mems_status_t LSM303AGR_MAG_R_P_TH_S_Y(void *handle, LSM303AGR_MAG_P_TH_S_Y_t *value);
+
+/*******************************************************************************
+* Register : INT_SOURCE_REG
+* Address : 0X64
+* Bit Group Name: P_TH_S_X
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_P_TH_S_X_EV_OFF =0x00,
+ LSM303AGR_MAG_P_TH_S_X_EV_ON =0x80,
+} LSM303AGR_MAG_P_TH_S_X_t;
+
+#define LSM303AGR_MAG_P_TH_S_X_MASK 0x80
+mems_status_t LSM303AGR_MAG_R_P_TH_S_X(void *handle, LSM303AGR_MAG_P_TH_S_X_t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG
+* Address : 0X67
+* Bit Group Name: XDA
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_XDA_EV_OFF =0x00,
+ LSM303AGR_MAG_XDA_EV_ON =0x01,
+} LSM303AGR_MAG_XDA_t;
+
+#define LSM303AGR_MAG_XDA_MASK 0x01
+mems_status_t LSM303AGR_MAG_R_XDA(void *handle, LSM303AGR_MAG_XDA_t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG
+* Address : 0X67
+* Bit Group Name: YDA
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_YDA_EV_OFF =0x00,
+ LSM303AGR_MAG_YDA_EV_ON =0x02,
+} LSM303AGR_MAG_YDA_t;
+
+#define LSM303AGR_MAG_YDA_MASK 0x02
+mems_status_t LSM303AGR_MAG_R_YDA(void *handle, LSM303AGR_MAG_YDA_t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG
+* Address : 0X67
+* Bit Group Name: ZDA
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_ZDA_EV_OFF =0x00,
+ LSM303AGR_MAG_ZDA_EV_ON =0x04,
+} LSM303AGR_MAG_ZDA_t;
+
+#define LSM303AGR_MAG_ZDA_MASK 0x04
+mems_status_t LSM303AGR_MAG_R_ZDA(void *handle, LSM303AGR_MAG_ZDA_t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG
+* Address : 0X67
+* Bit Group Name: ZYXDA
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_ZYXDA_EV_OFF =0x00,
+ LSM303AGR_MAG_ZYXDA_EV_ON =0x08,
+} LSM303AGR_MAG_ZYXDA_t;
+
+#define LSM303AGR_MAG_ZYXDA_MASK 0x08
+mems_status_t LSM303AGR_MAG_R_ZYXDA(void *handle, LSM303AGR_MAG_ZYXDA_t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG
+* Address : 0X67
+* Bit Group Name: XOR
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_XOR_EV_OFF =0x00,
+ LSM303AGR_MAG_XOR_EV_ON =0x10,
+} LSM303AGR_MAG_XOR_t;
+
+#define LSM303AGR_MAG_XOR_MASK 0x10
+mems_status_t LSM303AGR_MAG_R_XOR(void *handle, LSM303AGR_MAG_XOR_t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG
+* Address : 0X67
+* Bit Group Name: YOR
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_YOR_EV_OFF =0x00,
+ LSM303AGR_MAG_YOR_EV_ON =0x20,
+} LSM303AGR_MAG_YOR_t;
+
+#define LSM303AGR_MAG_YOR_MASK 0x20
+mems_status_t LSM303AGR_MAG_R_YOR(void *handle, LSM303AGR_MAG_YOR_t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG
+* Address : 0X67
+* Bit Group Name: ZOR
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_ZOR_EV_OFF =0x00,
+ LSM303AGR_MAG_ZOR_EV_ON =0x40,
+} LSM303AGR_MAG_ZOR_t;
+
+#define LSM303AGR_MAG_ZOR_MASK 0x40
+mems_status_t LSM303AGR_MAG_R_ZOR(void *handle, LSM303AGR_MAG_ZOR_t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG
+* Address : 0X67
+* Bit Group Name: ZYXOR
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM303AGR_MAG_ZYXOR_EV_OFF =0x00,
+ LSM303AGR_MAG_ZYXOR_EV_ON =0x80,
+} LSM303AGR_MAG_ZYXOR_t;
+
+#define LSM303AGR_MAG_ZYXOR_MASK 0x80
+mems_status_t LSM303AGR_MAG_R_ZYXOR(void *handle, LSM303AGR_MAG_ZYXOR_t *value);
+/*******************************************************************************
+* Register : <REGISTER_L> - <REGISTER_H>
+* Output Type : Magnetic
+* Permission : ro
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_Get_Raw_Magnetic(void *handle, u8_t *buff);
+mems_status_t LSM303AGR_MAG_Get_Magnetic(void *handle, int *buff);
+
+/*******************************************************************************
+* Register : <REGISTER_L> - <REGISTER_H>
+* Output Type : IntThreshld
+* Permission : rw
+*******************************************************************************/
+mems_status_t LSM303AGR_MAG_Get_IntThreshld(void *handle, u8_t *buff);
+mems_status_t LSM303AGR_MAG_Set_IntThreshld(void *handle, u8_t *buff);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Components/LSM6DSLSensor/LSM6DSLSensor.cpp Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,2129 @@
+/**
+ ******************************************************************************
+ * @file LSM6DSLSensor.cpp
+ * @author CLab
+ * @version V1.0.0
+ * @date 5 August 2016
+ * @brief Implementation of an LSM6DSL Inertial Measurement Unit (IMU) 6 axes
+ * sensor.
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include "mbed.h"
+#include "DevI2C.h"
+#include "LSM6DSLSensor.h"
+#include "LSM6DSL_acc_gyro_driver.h"
+
+
+/* Class Implementation ------------------------------------------------------*/
+
+/** Constructor
+ * @param i2c object of an helper class which handles the I2C peripheral
+ * @param address the address of the component's instance
+ */
+LSM6DSLSensor::LSM6DSLSensor(DevI2C &i2c, PinName int1_pin, PinName int2_pin) : _dev_i2c(i2c), _int1_irq(int1_pin), _int2_irq(int2_pin)
+{
+ _address = LSM6DSL_ACC_GYRO_I2C_ADDRESS_HIGH;
+};
+
+/** Constructor
+ * @param i2c object of an helper class which handles the I2C peripheral
+ * @param address the address of the component's instance
+ */
+LSM6DSLSensor::LSM6DSLSensor(DevI2C &i2c, PinName int1_pin, PinName int2_pin, uint8_t address) : _dev_i2c(i2c), _int1_irq(int1_pin), _int2_irq(int2_pin), _address(address)
+{
+
+};
+
+/**
+ * @brief Initializing the component.
+ * @param[in] init pointer to device specific initalization structure.
+ * @retval "0" in case of success, an error code otherwise.
+ */
+int LSM6DSLSensor::init(void *init)
+{
+ /* Enable register address automatically incremented during a multiple byte
+ access with a serial interface. */
+ if ( LSM6DSL_ACC_GYRO_W_IF_Addr_Incr( (void *)this, LSM6DSL_ACC_GYRO_IF_INC_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Enable BDU */
+ if ( LSM6DSL_ACC_GYRO_W_BDU( (void *)this, LSM6DSL_ACC_GYRO_BDU_BLOCK_UPDATE ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* FIFO mode selection */
+ if ( LSM6DSL_ACC_GYRO_W_FIFO_MODE( (void *)this, LSM6DSL_ACC_GYRO_FIFO_MODE_BYPASS ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Output data rate selection - power down. */
+ if ( LSM6DSL_ACC_GYRO_W_ODR_XL( (void *)this, LSM6DSL_ACC_GYRO_ODR_XL_POWER_DOWN ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Full scale selection. */
+ if ( set_x_fs( 2.0f ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Output data rate selection - power down */
+ if ( LSM6DSL_ACC_GYRO_W_ODR_G( (void *)this, LSM6DSL_ACC_GYRO_ODR_G_POWER_DOWN ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Full scale selection. */
+ if ( set_g_fs( 2000.0f ) == 1 )
+ {
+ return 1;
+ }
+
+ _x_last_odr = 104.0f;
+
+ _x_is_enabled = 0;
+
+ _g_last_odr = 104.0f;
+
+ _g_is_enabled = 0;
+
+ return 0;
+}
+
+/**
+ * @brief Enable LSM6DSL Accelerator
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::enable_x(void)
+{
+ /* Check if the component is already enabled */
+ if ( _x_is_enabled == 1 )
+ {
+ return 0;
+ }
+
+ /* Output data rate selection. */
+ if ( set_x_odr_when_enabled( _x_last_odr ) == 1 )
+ {
+ return 1;
+ }
+
+ _x_is_enabled = 1;
+
+ return 0;
+}
+
+/**
+ * @brief Enable LSM6DSL Gyroscope
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::enable_g(void)
+{
+ /* Check if the component is already enabled */
+ if ( _g_is_enabled == 1 )
+ {
+ return 0;
+ }
+
+ /* Output data rate selection. */
+ if ( set_g_odr_when_enabled( _g_last_odr ) == 1 )
+ {
+ return 1;
+ }
+
+ _g_is_enabled = 1;
+
+ return 0;
+}
+
+/**
+ * @brief Disable LSM6DSL Accelerator
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::disable_x(void)
+{
+ /* Check if the component is already disabled */
+ if ( _x_is_enabled == 0 )
+ {
+ return 0;
+ }
+
+ /* Store actual output data rate. */
+ if ( get_x_odr( &_x_last_odr ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Output data rate selection - power down. */
+ if ( LSM6DSL_ACC_GYRO_W_ODR_XL( (void *)this, LSM6DSL_ACC_GYRO_ODR_XL_POWER_DOWN ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ _x_is_enabled = 0;
+
+ return 0;
+}
+
+/**
+ * @brief Disable LSM6DSL Gyroscope
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::disable_g(void)
+{
+ /* Check if the component is already disabled */
+ if ( _g_is_enabled == 0 )
+ {
+ return 0;
+ }
+
+ /* Store actual output data rate. */
+ if ( get_g_odr( &_g_last_odr ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Output data rate selection - power down */
+ if ( LSM6DSL_ACC_GYRO_W_ODR_G( (void *)this, LSM6DSL_ACC_GYRO_ODR_G_POWER_DOWN ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ _g_is_enabled = 0;
+
+ return 0;
+}
+
+/**
+ * @brief Read ID of LSM6DSL Accelerometer and Gyroscope
+ * @param p_id the pointer where the ID of the device is stored
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::read_id(uint8_t *id)
+{
+ if(!id)
+ {
+ return 1;
+ }
+
+ /* Read WHO AM I register */
+ if ( LSM6DSL_ACC_GYRO_R_WHO_AM_I( (void *)this, id ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Read data from LSM6DSL Accelerometer
+ * @param pData the pointer where the accelerometer data are stored
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::get_x_axes(int32_t *pData)
+{
+ int16_t dataRaw[3];
+ float sensitivity = 0;
+
+ /* Read raw data from LSM6DSL output register. */
+ if ( get_x_axes_raw( dataRaw ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Get LSM6DSL actual sensitivity. */
+ if ( get_x_sensitivity( &sensitivity ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Calculate the data. */
+ pData[0] = ( int32_t )( dataRaw[0] * sensitivity );
+ pData[1] = ( int32_t )( dataRaw[1] * sensitivity );
+ pData[2] = ( int32_t )( dataRaw[2] * sensitivity );
+
+ return 0;
+}
+
+/**
+ * @brief Read data from LSM6DSL Gyroscope
+ * @param pData the pointer where the gyroscope data are stored
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::get_g_axes(int32_t *pData)
+{
+ int16_t dataRaw[3];
+ float sensitivity = 0;
+
+ /* Read raw data from LSM6DSL output register. */
+ if ( get_g_axes_raw( dataRaw ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Get LSM6DSL actual sensitivity. */
+ if ( get_g_sensitivity( &sensitivity ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Calculate the data. */
+ pData[0] = ( int32_t )( dataRaw[0] * sensitivity );
+ pData[1] = ( int32_t )( dataRaw[1] * sensitivity );
+ pData[2] = ( int32_t )( dataRaw[2] * sensitivity );
+
+ return 0;
+}
+
+/**
+ * @brief Read Accelerometer Sensitivity
+ * @param pfData the pointer where the accelerometer sensitivity is stored
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::get_x_sensitivity(float *pfData)
+{
+ LSM6DSL_ACC_GYRO_FS_XL_t fullScale;
+
+ /* Read actual full scale selection from sensor. */
+ if ( LSM6DSL_ACC_GYRO_R_FS_XL( (void *)this, &fullScale ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Store the sensitivity based on actual full scale. */
+ switch( fullScale )
+ {
+ case LSM6DSL_ACC_GYRO_FS_XL_2g:
+ *pfData = ( float )LSM6DSL_ACC_SENSITIVITY_FOR_FS_2G;
+ break;
+ case LSM6DSL_ACC_GYRO_FS_XL_4g:
+ *pfData = ( float )LSM6DSL_ACC_SENSITIVITY_FOR_FS_4G;
+ break;
+ case LSM6DSL_ACC_GYRO_FS_XL_8g:
+ *pfData = ( float )LSM6DSL_ACC_SENSITIVITY_FOR_FS_8G;
+ break;
+ case LSM6DSL_ACC_GYRO_FS_XL_16g:
+ *pfData = ( float )LSM6DSL_ACC_SENSITIVITY_FOR_FS_16G;
+ break;
+ default:
+ *pfData = -1.0f;
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Read Gyroscope Sensitivity
+ * @param pfData the pointer where the gyroscope sensitivity is stored
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::get_g_sensitivity(float *pfData)
+{
+ LSM6DSL_ACC_GYRO_FS_125_t fullScale125;
+ LSM6DSL_ACC_GYRO_FS_G_t fullScale;
+
+ /* Read full scale 125 selection from sensor. */
+ if ( LSM6DSL_ACC_GYRO_R_FS_125( (void *)this, &fullScale125 ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ if ( fullScale125 == LSM6DSL_ACC_GYRO_FS_125_ENABLED )
+ {
+ *pfData = ( float )LSM6DSL_GYRO_SENSITIVITY_FOR_FS_125DPS;
+ }
+
+ else
+ {
+
+ /* Read actual full scale selection from sensor. */
+ if ( LSM6DSL_ACC_GYRO_R_FS_G( (void *)this, &fullScale ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Store the sensitivity based on actual full scale. */
+ switch( fullScale )
+ {
+ case LSM6DSL_ACC_GYRO_FS_G_245dps:
+ *pfData = ( float )LSM6DSL_GYRO_SENSITIVITY_FOR_FS_245DPS;
+ break;
+ case LSM6DSL_ACC_GYRO_FS_G_500dps:
+ *pfData = ( float )LSM6DSL_GYRO_SENSITIVITY_FOR_FS_500DPS;
+ break;
+ case LSM6DSL_ACC_GYRO_FS_G_1000dps:
+ *pfData = ( float )LSM6DSL_GYRO_SENSITIVITY_FOR_FS_1000DPS;
+ break;
+ case LSM6DSL_ACC_GYRO_FS_G_2000dps:
+ *pfData = ( float )LSM6DSL_GYRO_SENSITIVITY_FOR_FS_2000DPS;
+ break;
+ default:
+ *pfData = -1.0f;
+ return 1;
+ }
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Read raw data from LSM6DSL Accelerometer
+ * @param pData the pointer where the accelerometer raw data are stored
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::get_x_axes_raw(int16_t *pData)
+{
+ uint8_t regValue[6] = {0, 0, 0, 0, 0, 0};
+
+ /* Read output registers from LSM6DSL_ACC_GYRO_OUTX_L_XL to LSM6DSL_ACC_GYRO_OUTZ_H_XL. */
+ if ( LSM6DSL_ACC_GYRO_GetRawAccData( (void *)this, regValue ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Format the data. */
+ pData[0] = ( ( ( ( int16_t )regValue[1] ) << 8 ) + ( int16_t )regValue[0] );
+ pData[1] = ( ( ( ( int16_t )regValue[3] ) << 8 ) + ( int16_t )regValue[2] );
+ pData[2] = ( ( ( ( int16_t )regValue[5] ) << 8 ) + ( int16_t )regValue[4] );
+
+ return 0;
+}
+
+/**
+ * @brief Read raw data from LSM6DSL Gyroscope
+ * @param pData the pointer where the gyroscope raw data are stored
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::get_g_axes_raw(int16_t *pData)
+{
+ uint8_t regValue[6] = {0, 0, 0, 0, 0, 0};
+
+ /* Read output registers from LSM6DSL_ACC_GYRO_OUTX_L_G to LSM6DSL_ACC_GYRO_OUTZ_H_G. */
+ if ( LSM6DSL_ACC_GYRO_GetRawGyroData( (void *)this, regValue ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Format the data. */
+ pData[0] = ( ( ( ( int16_t )regValue[1] ) << 8 ) + ( int16_t )regValue[0] );
+ pData[1] = ( ( ( ( int16_t )regValue[3] ) << 8 ) + ( int16_t )regValue[2] );
+ pData[2] = ( ( ( ( int16_t )regValue[5] ) << 8 ) + ( int16_t )regValue[4] );
+
+ return 0;
+}
+
+/**
+ * @brief Read LSM6DSL Accelerometer output data rate
+ * @param odr the pointer to the output data rate
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::get_x_odr(float* odr)
+{
+ LSM6DSL_ACC_GYRO_ODR_XL_t odr_low_level;
+
+ if ( LSM6DSL_ACC_GYRO_R_ODR_XL( (void *)this, &odr_low_level ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ switch( odr_low_level )
+ {
+ case LSM6DSL_ACC_GYRO_ODR_XL_POWER_DOWN:
+ *odr = 0.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_ODR_XL_13Hz:
+ *odr = 13.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_ODR_XL_26Hz:
+ *odr = 26.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_ODR_XL_52Hz:
+ *odr = 52.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_ODR_XL_104Hz:
+ *odr = 104.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_ODR_XL_208Hz:
+ *odr = 208.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_ODR_XL_416Hz:
+ *odr = 416.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_ODR_XL_833Hz:
+ *odr = 833.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_ODR_XL_1660Hz:
+ *odr = 1660.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_ODR_XL_3330Hz:
+ *odr = 3330.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_ODR_XL_6660Hz:
+ *odr = 6660.0f;
+ break;
+ default:
+ *odr = -1.0f;
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Read LSM6DSL Gyroscope output data rate
+ * @param odr the pointer to the output data rate
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::get_g_odr(float* odr)
+{
+ LSM6DSL_ACC_GYRO_ODR_G_t odr_low_level;
+
+ if ( LSM6DSL_ACC_GYRO_R_ODR_G( (void *)this, &odr_low_level ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ switch( odr_low_level )
+ {
+ case LSM6DSL_ACC_GYRO_ODR_G_POWER_DOWN:
+ *odr = 0.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_ODR_G_13Hz:
+ *odr = 13.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_ODR_G_26Hz:
+ *odr = 26.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_ODR_G_52Hz:
+ *odr = 52.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_ODR_G_104Hz:
+ *odr = 104.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_ODR_G_208Hz:
+ *odr = 208.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_ODR_G_416Hz:
+ *odr = 416.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_ODR_G_833Hz:
+ *odr = 833.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_ODR_G_1660Hz:
+ *odr = 1660.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_ODR_G_3330Hz:
+ *odr = 3330.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_ODR_G_6660Hz:
+ *odr = 6660.0f;
+ break;
+ default:
+ *odr = -1.0f;
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set LSM6DSL Accelerometer output data rate
+ * @param odr the output data rate to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::set_x_odr(float odr)
+{
+ if(_x_is_enabled == 1)
+ {
+ if(set_x_odr_when_enabled(odr) == 1)
+ {
+ return 1;
+ }
+ }
+ else
+ {
+ if(set_x_odr_when_disabled(odr) == 1)
+ {
+ return 1;
+ }
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set LSM6DSL Accelerometer output data rate when enabled
+ * @param odr the output data rate to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::set_x_odr_when_enabled(float odr)
+{
+ LSM6DSL_ACC_GYRO_ODR_XL_t new_odr;
+
+ new_odr = ( odr <= 13.0f ) ? LSM6DSL_ACC_GYRO_ODR_XL_13Hz
+ : ( odr <= 26.0f ) ? LSM6DSL_ACC_GYRO_ODR_XL_26Hz
+ : ( odr <= 52.0f ) ? LSM6DSL_ACC_GYRO_ODR_XL_52Hz
+ : ( odr <= 104.0f ) ? LSM6DSL_ACC_GYRO_ODR_XL_104Hz
+ : ( odr <= 208.0f ) ? LSM6DSL_ACC_GYRO_ODR_XL_208Hz
+ : ( odr <= 416.0f ) ? LSM6DSL_ACC_GYRO_ODR_XL_416Hz
+ : ( odr <= 833.0f ) ? LSM6DSL_ACC_GYRO_ODR_XL_833Hz
+ : ( odr <= 1660.0f ) ? LSM6DSL_ACC_GYRO_ODR_XL_1660Hz
+ : ( odr <= 3330.0f ) ? LSM6DSL_ACC_GYRO_ODR_XL_3330Hz
+ : LSM6DSL_ACC_GYRO_ODR_XL_6660Hz;
+
+ if ( LSM6DSL_ACC_GYRO_W_ODR_XL( (void *)this, new_odr ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set LSM6DSL Accelerometer output data rate when disabled
+ * @param odr the output data rate to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::set_x_odr_when_disabled(float odr)
+{
+ _x_last_odr = ( odr <= 13.0f ) ? 13.0f
+ : ( odr <= 26.0f ) ? 26.0f
+ : ( odr <= 52.0f ) ? 52.0f
+ : ( odr <= 104.0f ) ? 104.0f
+ : ( odr <= 208.0f ) ? 208.0f
+ : ( odr <= 416.0f ) ? 416.0f
+ : ( odr <= 833.0f ) ? 833.0f
+ : ( odr <= 1660.0f ) ? 1660.0f
+ : ( odr <= 3330.0f ) ? 3330.0f
+ : 6660.0f;
+
+ return 0;
+}
+
+/**
+ * @brief Set LSM6DSL Gyroscope output data rate
+ * @param odr the output data rate to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::set_g_odr(float odr)
+{
+ if(_g_is_enabled == 1)
+ {
+ if(set_g_odr_when_enabled(odr) == 1)
+ {
+ return 1;
+ }
+ }
+ else
+ {
+ if(set_g_odr_when_disabled(odr) == 1)
+ {
+ return 1;
+ }
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set LSM6DSL Gyroscope output data rate when enabled
+ * @param odr the output data rate to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::set_g_odr_when_enabled(float odr)
+{
+ LSM6DSL_ACC_GYRO_ODR_G_t new_odr;
+
+ new_odr = ( odr <= 13.0f ) ? LSM6DSL_ACC_GYRO_ODR_G_13Hz
+ : ( odr <= 26.0f ) ? LSM6DSL_ACC_GYRO_ODR_G_26Hz
+ : ( odr <= 52.0f ) ? LSM6DSL_ACC_GYRO_ODR_G_52Hz
+ : ( odr <= 104.0f ) ? LSM6DSL_ACC_GYRO_ODR_G_104Hz
+ : ( odr <= 208.0f ) ? LSM6DSL_ACC_GYRO_ODR_G_208Hz
+ : ( odr <= 416.0f ) ? LSM6DSL_ACC_GYRO_ODR_G_416Hz
+ : ( odr <= 833.0f ) ? LSM6DSL_ACC_GYRO_ODR_G_833Hz
+ : ( odr <= 1660.0f ) ? LSM6DSL_ACC_GYRO_ODR_G_1660Hz
+ : ( odr <= 3330.0f ) ? LSM6DSL_ACC_GYRO_ODR_G_3330Hz
+ : LSM6DSL_ACC_GYRO_ODR_G_6660Hz;
+
+ if ( LSM6DSL_ACC_GYRO_W_ODR_G( (void *)this, new_odr ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set LSM6DSL Gyroscope output data rate when disabled
+ * @param odr the output data rate to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::set_g_odr_when_disabled(float odr)
+{
+ _g_last_odr = ( odr <= 13.0f ) ? 13.0f
+ : ( odr <= 26.0f ) ? 26.0f
+ : ( odr <= 52.0f ) ? 52.0f
+ : ( odr <= 104.0f ) ? 104.0f
+ : ( odr <= 208.0f ) ? 208.0f
+ : ( odr <= 416.0f ) ? 416.0f
+ : ( odr <= 833.0f ) ? 833.0f
+ : ( odr <= 1660.0f ) ? 1660.0f
+ : ( odr <= 3330.0f ) ? 3330.0f
+ : 6660.0f;
+
+ return 0;
+}
+
+/**
+ * @brief Read LSM6DSL Accelerometer full scale
+ * @param fullScale the pointer to the full scale
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::get_x_fs(float* fullScale)
+{
+ LSM6DSL_ACC_GYRO_FS_XL_t fs_low_level;
+
+ if ( LSM6DSL_ACC_GYRO_R_FS_XL( (void *)this, &fs_low_level ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ switch( fs_low_level )
+ {
+ case LSM6DSL_ACC_GYRO_FS_XL_2g:
+ *fullScale = 2.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_FS_XL_4g:
+ *fullScale = 4.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_FS_XL_8g:
+ *fullScale = 8.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_FS_XL_16g:
+ *fullScale = 16.0f;
+ break;
+ default:
+ *fullScale = -1.0f;
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Read LSM6DSL Gyroscope full scale
+ * @param fullScale the pointer to the full scale
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::get_g_fs(float* fullScale)
+{
+ LSM6DSL_ACC_GYRO_FS_G_t fs_low_level;
+ LSM6DSL_ACC_GYRO_FS_125_t fs_125;
+
+ if ( LSM6DSL_ACC_GYRO_R_FS_125( (void *)this, &fs_125 ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+ if ( LSM6DSL_ACC_GYRO_R_FS_G( (void *)this, &fs_low_level ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ if ( fs_125 == LSM6DSL_ACC_GYRO_FS_125_ENABLED )
+ {
+ *fullScale = 125.0f;
+ }
+
+ else
+ {
+ switch( fs_low_level )
+ {
+ case LSM6DSL_ACC_GYRO_FS_G_245dps:
+ *fullScale = 245.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_FS_G_500dps:
+ *fullScale = 500.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_FS_G_1000dps:
+ *fullScale = 1000.0f;
+ break;
+ case LSM6DSL_ACC_GYRO_FS_G_2000dps:
+ *fullScale = 2000.0f;
+ break;
+ default:
+ *fullScale = -1.0f;
+ return 1;
+ }
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set LSM6DSL Accelerometer full scale
+ * @param fullScale the full scale to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::set_x_fs(float fullScale)
+{
+ LSM6DSL_ACC_GYRO_FS_XL_t new_fs;
+
+ new_fs = ( fullScale <= 2.0f ) ? LSM6DSL_ACC_GYRO_FS_XL_2g
+ : ( fullScale <= 4.0f ) ? LSM6DSL_ACC_GYRO_FS_XL_4g
+ : ( fullScale <= 8.0f ) ? LSM6DSL_ACC_GYRO_FS_XL_8g
+ : LSM6DSL_ACC_GYRO_FS_XL_16g;
+
+ if ( LSM6DSL_ACC_GYRO_W_FS_XL( (void *)this, new_fs ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set LSM6DSL Gyroscope full scale
+ * @param fullScale the full scale to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::set_g_fs(float fullScale)
+{
+ LSM6DSL_ACC_GYRO_FS_G_t new_fs;
+
+ if ( fullScale <= 125.0f )
+ {
+ if ( LSM6DSL_ACC_GYRO_W_FS_125( (void *)this, LSM6DSL_ACC_GYRO_FS_125_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+ }
+ else
+ {
+ new_fs = ( fullScale <= 245.0f ) ? LSM6DSL_ACC_GYRO_FS_G_245dps
+ : ( fullScale <= 500.0f ) ? LSM6DSL_ACC_GYRO_FS_G_500dps
+ : ( fullScale <= 1000.0f ) ? LSM6DSL_ACC_GYRO_FS_G_1000dps
+ : LSM6DSL_ACC_GYRO_FS_G_2000dps;
+
+ if ( LSM6DSL_ACC_GYRO_W_FS_125( (void *)this, LSM6DSL_ACC_GYRO_FS_125_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+ if ( LSM6DSL_ACC_GYRO_W_FS_G( (void *)this, new_fs ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Enable free fall detection
+ * @param pin the interrupt pin to be used
+ * @note This function sets the LSM6DSL accelerometer ODR to 416Hz and the LSM6DSL accelerometer full scale to 2g
+ * @retval 0 in case of success, an error code otherwise
+*/
+int LSM6DSLSensor::enable_free_fall_detection(LSM6DSL_Interrupt_Pin_t pin)
+{
+ /* Output Data Rate selection */
+ if(set_x_odr(416.0f) == 1)
+ {
+ return 1;
+ }
+
+ /* Full scale selection */
+ if ( LSM6DSL_ACC_GYRO_W_FS_XL( (void *)this, LSM6DSL_ACC_GYRO_FS_XL_2g ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* FF_DUR setting */
+ if ( LSM6DSL_ACC_GYRO_W_FF_Duration( (void *)this, 0x06 ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* WAKE_DUR setting */
+ if ( LSM6DSL_ACC_GYRO_W_WAKE_DUR( (void *)this, 0x00 ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* TIMER_HR setting */
+ if ( LSM6DSL_ACC_GYRO_W_TIMER_HR( (void *)this, LSM6DSL_ACC_GYRO_TIMER_HR_6_4ms ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* SLEEP_DUR setting */
+ if ( LSM6DSL_ACC_GYRO_W_SLEEP_DUR( (void *)this, 0x00 ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* FF_THS setting */
+ if ( LSM6DSL_ACC_GYRO_W_FF_THS( (void *)this, LSM6DSL_ACC_GYRO_FF_THS_312mg ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Enable basic Interrupts */
+ if ( LSM6DSL_ACC_GYRO_W_BASIC_INT( (void *)this, LSM6DSL_ACC_GYRO_BASIC_INT_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Enable free fall event on either INT1 or INT2 pin */
+ switch (pin)
+ {
+ case LSM6DSL_INT1_PIN:
+ if ( LSM6DSL_ACC_GYRO_W_FFEvOnInt1( (void *)this, LSM6DSL_ACC_GYRO_INT1_FF_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+ break;
+
+ case LSM6DSL_INT2_PIN:
+ if ( LSM6DSL_ACC_GYRO_W_FFEvOnInt2( (void *)this, LSM6DSL_ACC_GYRO_INT2_FF_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+ break;
+
+ default:
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Disable free fall detection
+ * @param None
+ * @retval 0 in case of success, an error code otherwise
+*/
+int LSM6DSLSensor::disable_free_fall_detection(void)
+{
+ /* Disable free fall event on INT1 pin */
+ if ( LSM6DSL_ACC_GYRO_W_FFEvOnInt1( (void *)this, LSM6DSL_ACC_GYRO_INT1_FF_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable free fall event on INT2 pin */
+ if ( LSM6DSL_ACC_GYRO_W_FFEvOnInt2( (void *)this, LSM6DSL_ACC_GYRO_INT2_FF_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable basic Interrupts */
+ if ( LSM6DSL_ACC_GYRO_W_BASIC_INT( (void *)this, LSM6DSL_ACC_GYRO_BASIC_INT_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* FF_DUR setting */
+ if ( LSM6DSL_ACC_GYRO_W_FF_Duration( (void *)this, 0x00 ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* FF_THS setting */
+ if ( LSM6DSL_ACC_GYRO_W_FF_THS( (void *)this, LSM6DSL_ACC_GYRO_FF_THS_156mg ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set the free fall detection threshold for LSM6DSL accelerometer sensor
+ * @param thr the threshold to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::set_free_fall_threshold(uint8_t thr)
+{
+
+ if ( LSM6DSL_ACC_GYRO_W_FF_THS( (void *)this, (LSM6DSL_ACC_GYRO_FF_THS_t)thr ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Enable the pedometer feature for LSM6DSL accelerometer sensor
+ * @note This function sets the LSM6DSL accelerometer ODR to 26Hz and the LSM6DSL accelerometer full scale to 2g
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::enable_pedometer(void)
+{
+ /* Output Data Rate selection */
+ if( set_x_odr(26.0f) == 1 )
+ {
+ return 1;
+ }
+
+ /* Full scale selection. */
+ if( set_x_fs(2.0f) == 1 )
+ {
+ return 1;
+ }
+
+ /* Set pedometer threshold. */
+ if ( set_pedometer_threshold(LSM6DSL_PEDOMETER_THRESHOLD_MID_HIGH) == 1 )
+ {
+ return 1;
+ }
+
+ /* Enable embedded functionalities. */
+ if ( LSM6DSL_ACC_GYRO_W_FUNC_EN( (void *)this, LSM6DSL_ACC_GYRO_FUNC_EN_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Enable pedometer algorithm. */
+ if ( LSM6DSL_ACC_GYRO_W_PEDO( (void *)this, LSM6DSL_ACC_GYRO_PEDO_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Enable pedometer on INT1. */
+ if ( LSM6DSL_ACC_GYRO_W_STEP_DET_on_INT1( (void *)this, LSM6DSL_ACC_GYRO_INT1_PEDO_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Disable the pedometer feature for LSM6DSL accelerometer sensor
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::disable_pedometer(void)
+{
+ /* Disable pedometer on INT1. */
+ if ( LSM6DSL_ACC_GYRO_W_STEP_DET_on_INT1( (void *)this, LSM6DSL_ACC_GYRO_INT1_PEDO_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable pedometer algorithm. */
+ if ( LSM6DSL_ACC_GYRO_W_PEDO( (void *)this, LSM6DSL_ACC_GYRO_PEDO_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable embedded functionalities. */
+ if ( LSM6DSL_ACC_GYRO_W_FUNC_EN( (void *)this, LSM6DSL_ACC_GYRO_FUNC_EN_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Reset pedometer threshold. */
+ if ( set_pedometer_threshold(0x0) == 1 )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Get the step counter for LSM6DSL accelerometer sensor
+ * @param step_count the pointer to the step counter
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::get_step_counter(uint16_t *step_count)
+{
+ if ( LSM6DSL_ACC_GYRO_Get_GetStepCounter( (void *)this, ( uint8_t* )step_count ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Reset of the step counter for LSM6DSL accelerometer sensor
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::reset_step_counter(void)
+{
+ if ( LSM6DSL_ACC_GYRO_W_PedoStepReset( (void *)this, LSM6DSL_ACC_GYRO_PEDO_RST_STEP_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ wait_ms(10);
+
+ if ( LSM6DSL_ACC_GYRO_W_PedoStepReset( (void *)this, LSM6DSL_ACC_GYRO_PEDO_RST_STEP_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set the pedometer threshold for LSM6DSL accelerometer sensor
+ * @param thr the threshold to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::set_pedometer_threshold(uint8_t thr)
+{
+ if ( LSM6DSL_ACC_GYRO_W_PedoThreshold( (void *)this, thr ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Enable the tilt detection for LSM6DSL accelerometer sensor
+ * @param pin the interrupt pin to be used
+ * @note This function sets the LSM6DSL accelerometer ODR to 26Hz and the LSM6DSL accelerometer full scale to 2g
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::enable_tilt_detection(LSM6DSL_Interrupt_Pin_t pin)
+{
+ /* Output Data Rate selection */
+ if( set_x_odr(26.0f) == 1 )
+ {
+ return 1;
+ }
+
+ /* Full scale selection. */
+ if( set_x_fs(2.0f) == 1 )
+ {
+ return 1;
+ }
+
+ /* Enable embedded functionalities */
+ if ( LSM6DSL_ACC_GYRO_W_FUNC_EN( (void *)this, LSM6DSL_ACC_GYRO_FUNC_EN_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Enable tilt calculation. */
+ if ( LSM6DSL_ACC_GYRO_W_TILT( (void *)this, LSM6DSL_ACC_GYRO_TILT_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Enable tilt detection on either INT1 or INT2 pin */
+ switch (pin)
+ {
+ case LSM6DSL_INT1_PIN:
+ if ( LSM6DSL_ACC_GYRO_W_TiltEvOnInt1( (void *)this, LSM6DSL_ACC_GYRO_INT1_TILT_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+ break;
+
+ case LSM6DSL_INT2_PIN:
+ if ( LSM6DSL_ACC_GYRO_W_TiltEvOnInt2( (void *)this, LSM6DSL_ACC_GYRO_INT2_TILT_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+ break;
+
+ default:
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Disable the tilt detection for LSM6DSL accelerometer sensor
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::disable_tilt_detection(void)
+{
+ /* Disable tilt event on INT1. */
+ if ( LSM6DSL_ACC_GYRO_W_TiltEvOnInt1( (void *)this, LSM6DSL_ACC_GYRO_INT1_TILT_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable tilt event on INT2. */
+ if ( LSM6DSL_ACC_GYRO_W_TiltEvOnInt2( (void *)this, LSM6DSL_ACC_GYRO_INT2_TILT_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable tilt calculation. */
+ if ( LSM6DSL_ACC_GYRO_W_TILT( (void *)this, LSM6DSL_ACC_GYRO_TILT_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable embedded functionalities */
+ if ( LSM6DSL_ACC_GYRO_W_FUNC_EN( (void *)this, LSM6DSL_ACC_GYRO_FUNC_EN_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Enable the wake up detection for LSM6DSL accelerometer sensor
+ * @param pin the interrupt pin to be used
+ * @note This function sets the LSM6DSL accelerometer ODR to 416Hz and the LSM6DSL accelerometer full scale to 2g
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::enable_wake_up_detection(LSM6DSL_Interrupt_Pin_t pin)
+{
+ /* Output Data Rate selection */
+ if( set_x_odr(416.0f) == 1 )
+ {
+ return 1;
+ }
+
+ /* Full scale selection. */
+ if( set_x_fs(2.0f) == 1 )
+ {
+ return 1;
+ }
+
+ /* WAKE_DUR setting */
+ if ( LSM6DSL_ACC_GYRO_W_WAKE_DUR( (void *)this, 0x00 ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Set wake up threshold. */
+ if ( LSM6DSL_ACC_GYRO_W_WK_THS( (void *)this, 0x02 ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Enable basic Interrupts */
+ if ( LSM6DSL_ACC_GYRO_W_BASIC_INT( (void *)this, LSM6DSL_ACC_GYRO_BASIC_INT_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Enable wake up detection on either INT1 or INT2 pin */
+ switch (pin)
+ {
+ case LSM6DSL_INT1_PIN:
+ if ( LSM6DSL_ACC_GYRO_W_WUEvOnInt1( (void *)this, LSM6DSL_ACC_GYRO_INT1_WU_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+ break;
+
+ case LSM6DSL_INT2_PIN:
+ if ( LSM6DSL_ACC_GYRO_W_WUEvOnInt2( (void *)this, LSM6DSL_ACC_GYRO_INT2_WU_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+ break;
+
+ default:
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Disable the wake up detection for LSM6DSL accelerometer sensor
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::disable_wake_up_detection(void)
+{
+ /* Disable wake up event on INT1 */
+ if ( LSM6DSL_ACC_GYRO_W_WUEvOnInt1( (void *)this, LSM6DSL_ACC_GYRO_INT1_WU_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable wake up event on INT2 */
+ if ( LSM6DSL_ACC_GYRO_W_WUEvOnInt2( (void *)this, LSM6DSL_ACC_GYRO_INT2_WU_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable basic Interrupts */
+ if ( LSM6DSL_ACC_GYRO_W_BASIC_INT( (void *)this, LSM6DSL_ACC_GYRO_BASIC_INT_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* WU_DUR setting */
+ if ( LSM6DSL_ACC_GYRO_W_WAKE_DUR( (void *)this, 0x00 ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* WU_THS setting */
+ if ( LSM6DSL_ACC_GYRO_W_WK_THS( (void *)this, 0x00 ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set the wake up threshold for LSM6DSL accelerometer sensor
+ * @param thr the threshold to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::set_wake_up_threshold(uint8_t thr)
+{
+ if ( LSM6DSL_ACC_GYRO_W_WK_THS( (void *)this, thr ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Enable the single tap detection for LSM6DSL accelerometer sensor
+ * @param pin the interrupt pin to be used
+ * @note This function sets the LSM6DSL accelerometer ODR to 416Hz and the LSM6DSL accelerometer full scale to 2g
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::enable_single_tap_detection(LSM6DSL_Interrupt_Pin_t pin)
+{
+ /* Output Data Rate selection */
+ if( set_x_odr(416.0f) == 1 )
+ {
+ return 1;
+ }
+
+ /* Full scale selection. */
+ if( set_x_fs(2.0f) == 1 )
+ {
+ return 1;
+ }
+
+ /* Enable X direction in tap recognition. */
+ if ( LSM6DSL_ACC_GYRO_W_TAP_X_EN( (void *)this, LSM6DSL_ACC_GYRO_TAP_X_EN_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Enable Y direction in tap recognition. */
+ if ( LSM6DSL_ACC_GYRO_W_TAP_Y_EN( (void *)this, LSM6DSL_ACC_GYRO_TAP_Y_EN_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Enable Z direction in tap recognition. */
+ if ( LSM6DSL_ACC_GYRO_W_TAP_Z_EN( (void *)this, LSM6DSL_ACC_GYRO_TAP_Z_EN_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Set tap threshold. */
+ if ( set_tap_threshold( LSM6DSL_TAP_THRESHOLD_MID_LOW ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Set tap shock time window. */
+ if ( set_tap_shock_time( LSM6DSL_TAP_SHOCK_TIME_MID_HIGH ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Set tap quiet time window. */
+ if ( set_tap_quiet_time( LSM6DSL_TAP_QUIET_TIME_MID_LOW ) == 1 )
+ {
+ return 1;
+ }
+
+ /* _NOTE_: Tap duration time window - don't care for single tap. */
+
+ /* _NOTE_: Single/Double Tap event - don't care of this flag for single tap. */
+
+ /* Enable basic Interrupts */
+ if ( LSM6DSL_ACC_GYRO_W_BASIC_INT( (void *)this, LSM6DSL_ACC_GYRO_BASIC_INT_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Enable single tap on either INT1 or INT2 pin */
+ switch (pin)
+ {
+ case LSM6DSL_INT1_PIN:
+ if ( LSM6DSL_ACC_GYRO_W_SingleTapOnInt1( (void *)this, LSM6DSL_ACC_GYRO_INT1_SINGLE_TAP_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+ break;
+
+ case LSM6DSL_INT2_PIN:
+ if ( LSM6DSL_ACC_GYRO_W_SingleTapOnInt2( (void *)this, LSM6DSL_ACC_GYRO_INT2_SINGLE_TAP_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+ break;
+
+ default:
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Disable the single tap detection for LSM6DSL accelerometer sensor
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::disable_single_tap_detection(void)
+{
+ /* Disable single tap interrupt on INT1 pin. */
+ if ( LSM6DSL_ACC_GYRO_W_SingleTapOnInt1( (void *)this, LSM6DSL_ACC_GYRO_INT1_SINGLE_TAP_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable single tap interrupt on INT2 pin. */
+ if ( LSM6DSL_ACC_GYRO_W_SingleTapOnInt2( (void *)this, LSM6DSL_ACC_GYRO_INT2_SINGLE_TAP_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable basic Interrupts */
+ if ( LSM6DSL_ACC_GYRO_W_BASIC_INT( (void *)this, LSM6DSL_ACC_GYRO_BASIC_INT_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Reset tap threshold. */
+ if ( set_tap_threshold( 0x0 ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Reset tap shock time window. */
+ if ( set_tap_shock_time( 0x0 ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Reset tap quiet time window. */
+ if ( set_tap_quiet_time( 0x0 ) == 1 )
+ {
+ return 1;
+ }
+
+ /* _NOTE_: Tap duration time window - don't care for single tap. */
+
+ /* _NOTE_: Single/Double Tap event - don't care of this flag for single tap. */
+
+ /* Disable Z direction in tap recognition. */
+ if ( LSM6DSL_ACC_GYRO_W_TAP_Z_EN( (void *)this, LSM6DSL_ACC_GYRO_TAP_Z_EN_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable Y direction in tap recognition. */
+ if ( LSM6DSL_ACC_GYRO_W_TAP_Y_EN( (void *)this, LSM6DSL_ACC_GYRO_TAP_Y_EN_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable X direction in tap recognition. */
+ if ( LSM6DSL_ACC_GYRO_W_TAP_X_EN( (void *)this, LSM6DSL_ACC_GYRO_TAP_X_EN_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Enable the double tap detection for LSM6DSL accelerometer sensor
+ * @param pin the interrupt pin to be used
+ * @note This function sets the LSM6DSL accelerometer ODR to 416Hz and the LSM6DSL accelerometer full scale to 2g
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::enable_double_tap_detection(LSM6DSL_Interrupt_Pin_t pin)
+{
+ /* Output Data Rate selection */
+ if( set_x_odr(416.0f) == 1 )
+ {
+ return 1;
+ }
+
+ /* Full scale selection. */
+ if( set_x_fs(2.0f) == 1 )
+ {
+ return 1;
+ }
+
+ /* Enable X direction in tap recognition. */
+ if ( LSM6DSL_ACC_GYRO_W_TAP_X_EN( (void *)this, LSM6DSL_ACC_GYRO_TAP_X_EN_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Enable Y direction in tap recognition. */
+ if ( LSM6DSL_ACC_GYRO_W_TAP_Y_EN( (void *)this, LSM6DSL_ACC_GYRO_TAP_Y_EN_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Enable Z direction in tap recognition. */
+ if ( LSM6DSL_ACC_GYRO_W_TAP_Z_EN( (void *)this, LSM6DSL_ACC_GYRO_TAP_Z_EN_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Set tap threshold. */
+ if ( set_tap_threshold( LSM6DSL_TAP_THRESHOLD_MID_LOW ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Set tap shock time window. */
+ if ( set_tap_shock_time( LSM6DSL_TAP_SHOCK_TIME_HIGH ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Set tap quiet time window. */
+ if ( set_tap_quiet_time( LSM6DSL_TAP_QUIET_TIME_HIGH ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Set tap duration time window. */
+ if ( set_tap_duration_time( LSM6DSL_TAP_DURATION_TIME_MID ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Single and double tap enabled. */
+ if ( LSM6DSL_ACC_GYRO_W_SINGLE_DOUBLE_TAP_EV( (void *)this, LSM6DSL_ACC_GYRO_SINGLE_DOUBLE_TAP_DOUBLE_TAP ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Enable basic Interrupts */
+ if ( LSM6DSL_ACC_GYRO_W_BASIC_INT( (void *)this, LSM6DSL_ACC_GYRO_BASIC_INT_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Enable double tap on either INT1 or INT2 pin */
+ switch (pin)
+ {
+ case LSM6DSL_INT1_PIN:
+ if ( LSM6DSL_ACC_GYRO_W_TapEvOnInt1( (void *)this, LSM6DSL_ACC_GYRO_INT1_TAP_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+ break;
+
+ case LSM6DSL_INT2_PIN:
+ if ( LSM6DSL_ACC_GYRO_W_TapEvOnInt2( (void *)this, LSM6DSL_ACC_GYRO_INT2_TAP_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+ break;
+
+ default:
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Disable the double tap detection for LSM6DSL accelerometer sensor
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::disable_double_tap_detection(void)
+{
+ /* Disable double tap interrupt on INT1 pin. */
+ if ( LSM6DSL_ACC_GYRO_W_TapEvOnInt1( (void *)this, LSM6DSL_ACC_GYRO_INT1_TAP_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable double tap interrupt on INT2 pin. */
+ if ( LSM6DSL_ACC_GYRO_W_TapEvOnInt2( (void *)this, LSM6DSL_ACC_GYRO_INT2_TAP_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable basic Interrupts */
+ if ( LSM6DSL_ACC_GYRO_W_BASIC_INT( (void *)this, LSM6DSL_ACC_GYRO_BASIC_INT_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Reset tap threshold. */
+ if ( set_tap_threshold( 0x0 ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Reset tap shock time window. */
+ if ( set_tap_shock_time( 0x0 ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Reset tap quiet time window. */
+ if ( set_tap_quiet_time( 0x0 ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Reset tap duration time window. */
+ if ( set_tap_duration_time( 0x0 ) == 1 )
+ {
+ return 1;
+ }
+
+ /* Only single tap enabled. */
+ if ( LSM6DSL_ACC_GYRO_W_SINGLE_DOUBLE_TAP_EV( (void *)this, LSM6DSL_ACC_GYRO_SINGLE_DOUBLE_TAP_SINGLE_TAP ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable Z direction in tap recognition. */
+ if ( LSM6DSL_ACC_GYRO_W_TAP_Z_EN( (void *)this, LSM6DSL_ACC_GYRO_TAP_Z_EN_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable Y direction in tap recognition. */
+ if ( LSM6DSL_ACC_GYRO_W_TAP_Y_EN( (void *)this, LSM6DSL_ACC_GYRO_TAP_Y_EN_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable X direction in tap recognition. */
+ if ( LSM6DSL_ACC_GYRO_W_TAP_X_EN( (void *)this, LSM6DSL_ACC_GYRO_TAP_X_EN_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set the tap threshold for LSM6DSL accelerometer sensor
+ * @param thr the threshold to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::set_tap_threshold(uint8_t thr)
+{
+ if ( LSM6DSL_ACC_GYRO_W_TAP_THS( (void *)this, thr ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set the tap shock time window for LSM6DSL accelerometer sensor
+ * @param time the shock time window to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::set_tap_shock_time(uint8_t time)
+{
+ if ( LSM6DSL_ACC_GYRO_W_SHOCK_Duration( (void *)this, time ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set the tap quiet time window for LSM6DSL accelerometer sensor
+ * @param time the quiet time window to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::set_tap_quiet_time(uint8_t time)
+{
+ if ( LSM6DSL_ACC_GYRO_W_QUIET_Duration( (void *)this, time ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Set the tap duration of the time window for LSM6DSL accelerometer sensor
+ * @param time the duration of the time window to be set
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::set_tap_duration_time(uint8_t time)
+{
+ if ( LSM6DSL_ACC_GYRO_W_DUR( (void *)this, time ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Enable the 6D orientation detection for LSM6DSL accelerometer sensor
+ * @param pin the interrupt pin to be used
+ * @note This function sets the LSM6DSL accelerometer ODR to 416Hz and the LSM6DSL accelerometer full scale to 2g
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::enable_6d_orientation(LSM6DSL_Interrupt_Pin_t pin)
+{
+ /* Output Data Rate selection */
+ if( set_x_odr(416.0f) == 1 )
+ {
+ return 1;
+ }
+
+ /* Full scale selection. */
+ if( set_x_fs(2.0f) == 1 )
+ {
+ return 1;
+ }
+
+ /* Set 6D threshold. */
+ if ( LSM6DSL_ACC_GYRO_W_SIXD_THS( (void *)this, LSM6DSL_ACC_GYRO_SIXD_THS_60_degree ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Enable basic Interrupts */
+ if ( LSM6DSL_ACC_GYRO_W_BASIC_INT( (void *)this, LSM6DSL_ACC_GYRO_BASIC_INT_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Enable 6D orientation on either INT1 or INT2 pin */
+ switch (pin)
+ {
+ case LSM6DSL_INT1_PIN:
+ if ( LSM6DSL_ACC_GYRO_W_6DEvOnInt1( (void *)this, LSM6DSL_ACC_GYRO_INT1_6D_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+ break;
+
+ case LSM6DSL_INT2_PIN:
+ if ( LSM6DSL_ACC_GYRO_W_6DEvOnInt2( (void *)this, LSM6DSL_ACC_GYRO_INT2_6D_ENABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+ break;
+
+ default:
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Disable the 6D orientation detection for LSM6DSL accelerometer sensor
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::disable_6d_orientation(void)
+{
+ /* Disable 6D orientation interrupt on INT1 pin. */
+ if ( LSM6DSL_ACC_GYRO_W_6DEvOnInt1( (void *)this, LSM6DSL_ACC_GYRO_INT1_6D_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable 6D orientation interrupt on INT2 pin. */
+ if ( LSM6DSL_ACC_GYRO_W_6DEvOnInt2( (void *)this, LSM6DSL_ACC_GYRO_INT2_6D_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Disable basic Interrupts */
+ if ( LSM6DSL_ACC_GYRO_W_BASIC_INT( (void *)this, LSM6DSL_ACC_GYRO_BASIC_INT_DISABLED ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ /* Reset 6D threshold. */
+ if ( LSM6DSL_ACC_GYRO_W_SIXD_THS( (void *)this, LSM6DSL_ACC_GYRO_SIXD_THS_80_degree ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Get the 6D orientation XL axis for LSM6DSL accelerometer sensor
+ * @param xl the pointer to the 6D orientation XL axis
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::get_6d_orientation_xl(uint8_t *xl)
+{
+ LSM6DSL_ACC_GYRO_DSD_XL_t xl_raw;
+
+ if ( LSM6DSL_ACC_GYRO_R_DSD_XL( (void *)this, &xl_raw ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ switch( xl_raw )
+ {
+ case LSM6DSL_ACC_GYRO_DSD_XL_DETECTED:
+ *xl = 1;
+ break;
+ case LSM6DSL_ACC_GYRO_DSD_XL_NOT_DETECTED:
+ *xl = 0;
+ break;
+ default:
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Get the 6D orientation XH axis for LSM6DSL accelerometer sensor
+ * @param xh the pointer to the 6D orientation XH axis
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::get_6d_orientation_xh(uint8_t *xh)
+{
+ LSM6DSL_ACC_GYRO_DSD_XH_t xh_raw;
+
+ if ( LSM6DSL_ACC_GYRO_R_DSD_XH( (void *)this, &xh_raw ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ switch( xh_raw )
+ {
+ case LSM6DSL_ACC_GYRO_DSD_XH_DETECTED:
+ *xh = 1;
+ break;
+ case LSM6DSL_ACC_GYRO_DSD_XH_NOT_DETECTED:
+ *xh = 0;
+ break;
+ default:
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Get the 6D orientation YL axis for LSM6DSL accelerometer sensor
+ * @param yl the pointer to the 6D orientation YL axis
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::get_6d_orientation_yl(uint8_t *yl)
+{
+ LSM6DSL_ACC_GYRO_DSD_YL_t yl_raw;
+
+ if ( LSM6DSL_ACC_GYRO_R_DSD_YL( (void *)this, &yl_raw ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ switch( yl_raw )
+ {
+ case LSM6DSL_ACC_GYRO_DSD_YL_DETECTED:
+ *yl = 1;
+ break;
+ case LSM6DSL_ACC_GYRO_DSD_YL_NOT_DETECTED:
+ *yl = 0;
+ break;
+ default:
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Get the 6D orientation YH axis for LSM6DSL accelerometer sensor
+ * @param yh the pointer to the 6D orientation YH axis
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::get_6d_orientation_yh(uint8_t *yh)
+{
+ LSM6DSL_ACC_GYRO_DSD_YH_t yh_raw;
+
+ if ( LSM6DSL_ACC_GYRO_R_DSD_YH( (void *)this, &yh_raw ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ switch( yh_raw )
+ {
+ case LSM6DSL_ACC_GYRO_DSD_YH_DETECTED:
+ *yh = 1;
+ break;
+ case LSM6DSL_ACC_GYRO_DSD_YH_NOT_DETECTED:
+ *yh = 0;
+ break;
+ default:
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Get the 6D orientation ZL axis for LSM6DSL accelerometer sensor
+ * @param zl the pointer to the 6D orientation ZL axis
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::get_6d_orientation_zl(uint8_t *zl)
+{
+ LSM6DSL_ACC_GYRO_DSD_ZL_t zl_raw;
+
+ if ( LSM6DSL_ACC_GYRO_R_DSD_ZL( (void *)this, &zl_raw ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ switch( zl_raw )
+ {
+ case LSM6DSL_ACC_GYRO_DSD_ZL_DETECTED:
+ *zl = 1;
+ break;
+ case LSM6DSL_ACC_GYRO_DSD_ZL_NOT_DETECTED:
+ *zl = 0;
+ break;
+ default:
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Get the 6D orientation ZH axis for LSM6DSL accelerometer sensor
+ * @param zh the pointer to the 6D orientation ZH axis
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::get_6d_orientation_zh(uint8_t *zh)
+{
+ LSM6DSL_ACC_GYRO_DSD_ZH_t zh_raw;
+
+ if ( LSM6DSL_ACC_GYRO_R_DSD_ZH( (void *)this, &zh_raw ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ switch( zh_raw )
+ {
+ case LSM6DSL_ACC_GYRO_DSD_ZH_DETECTED:
+ *zh = 1;
+ break;
+ case LSM6DSL_ACC_GYRO_DSD_ZH_NOT_DETECTED:
+ *zh = 0;
+ break;
+ default:
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Get the status of all hardware events for LSM6DSL accelerometer sensor
+ * @param status the pointer to the status of all hardware events
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::get_event_status(LSM6DSL_Event_Status_t *status)
+{
+ uint8_t Wake_Up_Src = 0, Tap_Src = 0, D6D_Src = 0, Func_Src = 0, Md1_Cfg = 0, Md2_Cfg = 0, Int1_Ctrl = 0;
+
+ memset((void *)status, 0x0, sizeof(LSM6DSL_Event_Status_t));
+
+ if(read_reg(LSM6DSL_ACC_GYRO_WAKE_UP_SRC, &Wake_Up_Src) != 0)
+ {
+ return 1;
+ }
+
+ if(read_reg(LSM6DSL_ACC_GYRO_TAP_SRC, &Tap_Src) != 0)
+ {
+ return 1;
+ }
+
+ if(read_reg(LSM6DSL_ACC_GYRO_D6D_SRC, &D6D_Src) != 0)
+ {
+ return 1;
+ }
+
+ if(read_reg(LSM6DSL_ACC_GYRO_FUNC_SRC, &Func_Src) != 0)
+ {
+ return 1;
+ }
+
+ if(read_reg(LSM6DSL_ACC_GYRO_MD1_CFG, &Md1_Cfg ) != 0 )
+ {
+ return 1;
+ }
+
+ if(read_reg(LSM6DSL_ACC_GYRO_MD2_CFG, &Md2_Cfg ) != 0)
+ {
+ return 1;
+ }
+
+ if(read_reg(LSM6DSL_ACC_GYRO_INT1_CTRL, &Int1_Ctrl ) != 0)
+ {
+ return 1;
+ }
+
+ if((Md1_Cfg & LSM6DSL_ACC_GYRO_INT1_FF_MASK) || (Md2_Cfg & LSM6DSL_ACC_GYRO_INT2_FF_MASK))
+ {
+ if((Wake_Up_Src & LSM6DSL_ACC_GYRO_FF_EV_STATUS_MASK))
+ {
+ status->FreeFallStatus = 1;
+ }
+ }
+
+ if((Md1_Cfg & LSM6DSL_ACC_GYRO_INT1_WU_MASK) || (Md2_Cfg & LSM6DSL_ACC_GYRO_INT2_WU_MASK))
+ {
+ if((Wake_Up_Src & LSM6DSL_ACC_GYRO_WU_EV_STATUS_MASK))
+ {
+ status->WakeUpStatus = 1;
+ }
+ }
+
+ if((Md1_Cfg & LSM6DSL_ACC_GYRO_INT1_SINGLE_TAP_MASK) || (Md2_Cfg & LSM6DSL_ACC_GYRO_INT2_SINGLE_TAP_MASK))
+ {
+ if((Tap_Src & LSM6DSL_ACC_GYRO_SINGLE_TAP_EV_STATUS_MASK))
+ {
+ status->TapStatus = 1;
+ }
+ }
+
+ if((Md1_Cfg & LSM6DSL_ACC_GYRO_INT1_TAP_MASK) || (Md2_Cfg & LSM6DSL_ACC_GYRO_INT2_TAP_MASK))
+ {
+ if((Tap_Src & LSM6DSL_ACC_GYRO_DOUBLE_TAP_EV_STATUS_MASK))
+ {
+ status->DoubleTapStatus = 1;
+ }
+ }
+
+ if((Md1_Cfg & LSM6DSL_ACC_GYRO_INT1_6D_MASK) || (Md2_Cfg & LSM6DSL_ACC_GYRO_INT2_6D_MASK))
+ {
+ if((D6D_Src & LSM6DSL_ACC_GYRO_D6D_EV_STATUS_MASK))
+ {
+ status->D6DOrientationStatus = 1;
+ }
+ }
+
+ if((Int1_Ctrl & LSM6DSL_ACC_GYRO_INT1_PEDO_MASK))
+ {
+ if((Func_Src & LSM6DSL_ACC_GYRO_PEDO_EV_STATUS_MASK))
+ {
+ status->StepStatus = 1;
+ }
+ }
+
+ if((Md1_Cfg & LSM6DSL_ACC_GYRO_INT1_TILT_MASK) || (Md2_Cfg & LSM6DSL_ACC_GYRO_INT2_TILT_MASK))
+ {
+ if((Func_Src & LSM6DSL_ACC_GYRO_TILT_EV_STATUS_MASK))
+ {
+ status->TiltStatus = 1;
+ }
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Read the data from register
+ * @param reg register address
+ * @param data register data
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::read_reg( uint8_t reg, uint8_t *data )
+{
+
+ if ( LSM6DSL_ACC_GYRO_read_reg( (void *)this, reg, data, 1 ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+/**
+ * @brief Write the data to register
+ * @param reg register address
+ * @param data register data
+ * @retval 0 in case of success, an error code otherwise
+ */
+int LSM6DSLSensor::write_reg( uint8_t reg, uint8_t data )
+{
+
+ if ( LSM6DSL_ACC_GYRO_write_reg( (void *)this, reg, &data, 1 ) == MEMS_ERROR )
+ {
+ return 1;
+ }
+
+ return 0;
+}
+
+
+uint8_t LSM6DSL_io_write( void *handle, uint8_t WriteAddr, uint8_t *pBuffer, uint16_t nBytesToWrite )
+{
+ return ((LSM6DSLSensor *)handle)->io_write(pBuffer, WriteAddr, nBytesToWrite);
+}
+
+uint8_t LSM6DSL_io_read( void *handle, uint8_t ReadAddr, uint8_t *pBuffer, uint16_t nBytesToRead )
+{
+ return ((LSM6DSLSensor *)handle)->io_read(pBuffer, ReadAddr, nBytesToRead);
+}
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Components/LSM6DSLSensor/LSM6DSLSensor.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,297 @@
+/**
+ ******************************************************************************
+ * @file LSM6DSLSensor.h
+ * @author CLab
+ * @version V1.0.0
+ * @date 5 August 2016
+ * @brief Abstract Class of an LSM6DSL Inertial Measurement Unit (IMU) 6 axes
+ * sensor.
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Prevent recursive inclusion -----------------------------------------------*/
+
+#ifndef __LSM6DSLSensor_H__
+#define __LSM6DSLSensor_H__
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include "DevI2C.h"
+#include "LSM6DSL_acc_gyro_driver.h"
+#include "MotionSensor.h"
+#include "GyroSensor.h"
+
+/* Defines -------------------------------------------------------------------*/
+
+#define LSM6DSL_ACC_SENSITIVITY_FOR_FS_2G 0.061 /**< Sensitivity value for 2 g full scale [mg/LSB] */
+#define LSM6DSL_ACC_SENSITIVITY_FOR_FS_4G 0.122 /**< Sensitivity value for 4 g full scale [mg/LSB] */
+#define LSM6DSL_ACC_SENSITIVITY_FOR_FS_8G 0.244 /**< Sensitivity value for 8 g full scale [mg/LSB] */
+#define LSM6DSL_ACC_SENSITIVITY_FOR_FS_16G 0.488 /**< Sensitivity value for 16 g full scale [mg/LSB] */
+
+#define LSM6DSL_GYRO_SENSITIVITY_FOR_FS_125DPS 04.375 /**< Sensitivity value for 125 dps full scale [mdps/LSB] */
+#define LSM6DSL_GYRO_SENSITIVITY_FOR_FS_245DPS 08.750 /**< Sensitivity value for 245 dps full scale [mdps/LSB] */
+#define LSM6DSL_GYRO_SENSITIVITY_FOR_FS_500DPS 17.500 /**< Sensitivity value for 500 dps full scale [mdps/LSB] */
+#define LSM6DSL_GYRO_SENSITIVITY_FOR_FS_1000DPS 35.000 /**< Sensitivity value for 1000 dps full scale [mdps/LSB] */
+#define LSM6DSL_GYRO_SENSITIVITY_FOR_FS_2000DPS 70.000 /**< Sensitivity value for 2000 dps full scale [mdps/LSB] */
+
+#define LSM6DSL_PEDOMETER_THRESHOLD_LOW 0x00 /**< Lowest value of pedometer threshold */
+#define LSM6DSL_PEDOMETER_THRESHOLD_MID_LOW 0x07
+#define LSM6DSL_PEDOMETER_THRESHOLD_MID 0x0F
+#define LSM6DSL_PEDOMETER_THRESHOLD_MID_HIGH 0x17
+#define LSM6DSL_PEDOMETER_THRESHOLD_HIGH 0x1F /**< Highest value of pedometer threshold */
+
+#define LSM6DSL_WAKE_UP_THRESHOLD_LOW 0x01 /**< Lowest value of wake up threshold */
+#define LSM6DSL_WAKE_UP_THRESHOLD_MID_LOW 0x0F
+#define LSM6DSL_WAKE_UP_THRESHOLD_MID 0x1F
+#define LSM6DSL_WAKE_UP_THRESHOLD_MID_HIGH 0x2F
+#define LSM6DSL_WAKE_UP_THRESHOLD_HIGH 0x3F /**< Highest value of wake up threshold */
+
+#define LSM6DSL_TAP_THRESHOLD_LOW 0x01 /**< Lowest value of wake up threshold */
+#define LSM6DSL_TAP_THRESHOLD_MID_LOW 0x08
+#define LSM6DSL_TAP_THRESHOLD_MID 0x10
+#define LSM6DSL_TAP_THRESHOLD_MID_HIGH 0x18
+#define LSM6DSL_TAP_THRESHOLD_HIGH 0x1F /**< Highest value of wake up threshold */
+
+#define LSM6DSL_TAP_SHOCK_TIME_LOW 0x00 /**< Lowest value of wake up threshold */
+#define LSM6DSL_TAP_SHOCK_TIME_MID_LOW 0x01
+#define LSM6DSL_TAP_SHOCK_TIME_MID_HIGH 0x02
+#define LSM6DSL_TAP_SHOCK_TIME_HIGH 0x03 /**< Highest value of wake up threshold */
+
+#define LSM6DSL_TAP_QUIET_TIME_LOW 0x00 /**< Lowest value of wake up threshold */
+#define LSM6DSL_TAP_QUIET_TIME_MID_LOW 0x01
+#define LSM6DSL_TAP_QUIET_TIME_MID_HIGH 0x02
+#define LSM6DSL_TAP_QUIET_TIME_HIGH 0x03 /**< Highest value of wake up threshold */
+
+#define LSM6DSL_TAP_DURATION_TIME_LOW 0x00 /**< Lowest value of wake up threshold */
+#define LSM6DSL_TAP_DURATION_TIME_MID_LOW 0x04
+#define LSM6DSL_TAP_DURATION_TIME_MID 0x08
+#define LSM6DSL_TAP_DURATION_TIME_MID_HIGH 0x0C
+#define LSM6DSL_TAP_DURATION_TIME_HIGH 0x0F /**< Highest value of wake up threshold */
+
+/* Typedefs ------------------------------------------------------------------*/
+
+typedef enum
+{
+ LSM6DSL_INT1_PIN,
+ LSM6DSL_INT2_PIN
+} LSM6DSL_Interrupt_Pin_t;
+
+typedef struct
+{
+ unsigned int FreeFallStatus : 1;
+ unsigned int TapStatus : 1;
+ unsigned int DoubleTapStatus : 1;
+ unsigned int WakeUpStatus : 1;
+ unsigned int StepStatus : 1;
+ unsigned int TiltStatus : 1;
+ unsigned int D6DOrientationStatus : 1;
+} LSM6DSL_Event_Status_t;
+
+/* Class Declaration ---------------------------------------------------------*/
+
+/**
+ * Abstract class of an LSM6DSL Inertial Measurement Unit (IMU) 6 axes
+ * sensor.
+ */
+class LSM6DSLSensor : public MotionSensor, public GyroSensor
+{
+ public:
+ LSM6DSLSensor(DevI2C &i2c, PinName INT1_pin, PinName INT2_pin);
+ LSM6DSLSensor(DevI2C &i2c, PinName INT1_pin, PinName INT2_pin, uint8_t address);
+ virtual int init(void *init);
+ virtual int read_id(uint8_t *id);
+ virtual int get_x_axes(int32_t *pData);
+ virtual int get_g_axes(int32_t *pData);
+ virtual int get_x_sensitivity(float *pfData);
+ virtual int get_g_sensitivity(float *pfData);
+ virtual int get_x_axes_raw(int16_t *pData);
+ virtual int get_g_axes_raw(int16_t *pData);
+ virtual int get_x_odr(float *odr);
+ virtual int get_g_odr(float *odr);
+ virtual int set_x_odr(float odr);
+ virtual int set_g_odr(float odr);
+ virtual int get_x_fs(float *fullScale);
+ virtual int get_g_fs(float *fullScale);
+ virtual int set_x_fs(float fullScale);
+ virtual int set_g_fs(float fullScale);
+ int enable_x(void);
+ int enable_g(void);
+ int disable_x(void);
+ int disable_g(void);
+ int enable_free_fall_detection(LSM6DSL_Interrupt_Pin_t pin = LSM6DSL_INT1_PIN);
+ int disable_free_fall_detection(void);
+ int set_free_fall_threshold(uint8_t thr);
+ int enable_pedometer(void);
+ int disable_pedometer(void);
+ int get_step_counter(uint16_t *step_count);
+ int reset_step_counter(void);
+ int set_pedometer_threshold(uint8_t thr);
+ int enable_tilt_detection(LSM6DSL_Interrupt_Pin_t pin = LSM6DSL_INT1_PIN);
+ int disable_tilt_detection(void);
+ int enable_wake_up_detection(LSM6DSL_Interrupt_Pin_t pin = LSM6DSL_INT2_PIN);
+ int disable_wake_up_detection(void);
+ int set_wake_up_threshold(uint8_t thr);
+ int enable_single_tap_detection(LSM6DSL_Interrupt_Pin_t pin = LSM6DSL_INT1_PIN);
+ int disable_single_tap_detection(void);
+ int enable_double_tap_detection(LSM6DSL_Interrupt_Pin_t pin = LSM6DSL_INT1_PIN);
+ int disable_double_tap_detection(void);
+ int set_tap_threshold(uint8_t thr);
+ int set_tap_shock_time(uint8_t time);
+ int set_tap_quiet_time(uint8_t time);
+ int set_tap_duration_time(uint8_t time);
+ int enable_6d_orientation(LSM6DSL_Interrupt_Pin_t pin = LSM6DSL_INT1_PIN);
+ int disable_6d_orientation(void);
+ int get_6d_orientation_xl(uint8_t *xl);
+ int get_6d_orientation_xh(uint8_t *xh);
+ int get_6d_orientation_yl(uint8_t *yl);
+ int get_6d_orientation_yh(uint8_t *yh);
+ int get_6d_orientation_zl(uint8_t *zl);
+ int get_6d_orientation_zh(uint8_t *zh);
+ int get_event_status(LSM6DSL_Event_Status_t *status);
+ int read_reg(uint8_t reg, uint8_t *data);
+ int write_reg(uint8_t reg, uint8_t data);
+
+ /**
+ * @brief Attaching an interrupt handler to the INT1 interrupt.
+ * @param fptr An interrupt handler.
+ * @retval None.
+ */
+ void attach_int1_irq(void (*fptr)(void))
+ {
+ _int1_irq.rise(fptr);
+ }
+
+ /**
+ * @brief Enabling the INT1 interrupt handling.
+ * @param None.
+ * @retval None.
+ */
+ void enable_int1_irq(void)
+ {
+ _int1_irq.enable_irq();
+ }
+
+ /**
+ * @brief Disabling the INT1 interrupt handling.
+ * @param None.
+ * @retval None.
+ */
+ void disable_int1_irq(void)
+ {
+ _int1_irq.disable_irq();
+ }
+
+ /**
+ * @brief Attaching an interrupt handler to the INT2 interrupt.
+ * @param fptr An interrupt handler.
+ * @retval None.
+ */
+ void attach_int2_irq(void (*fptr)(void))
+ {
+ _int2_irq.rise(fptr);
+ }
+
+ /**
+ * @brief Enabling the INT2 interrupt handling.
+ * @param None.
+ * @retval None.
+ */
+ void enable_int2_irq(void)
+ {
+ _int2_irq.enable_irq();
+ }
+
+ /**
+ * @brief Disabling the INT2 interrupt handling.
+ * @param None.
+ * @retval None.
+ */
+ void disable_int2_irq(void)
+ {
+ _int2_irq.disable_irq();
+ }
+
+ /**
+ * @brief Utility function to read data.
+ * @param pBuffer: pointer to data to be read.
+ * @param RegisterAddr: specifies internal address register to be read.
+ * @param NumByteToRead: number of bytes to be read.
+ * @retval 0 if ok, an error code otherwise.
+ */
+ uint8_t io_read(uint8_t* pBuffer, uint8_t RegisterAddr, uint16_t NumByteToRead)
+ {
+ return (uint8_t) _dev_i2c.i2c_read(pBuffer, _address, RegisterAddr, NumByteToRead);
+ }
+
+ /**
+ * @brief Utility function to write data.
+ * @param pBuffer: pointer to data to be written.
+ * @param RegisterAddr: specifies internal address register to be written.
+ * @param NumByteToWrite: number of bytes to write.
+ * @retval 0 if ok, an error code otherwise.
+ */
+ uint8_t io_write(uint8_t* pBuffer, uint8_t RegisterAddr, uint16_t NumByteToWrite)
+ {
+ return (uint8_t) _dev_i2c.i2c_write(pBuffer, _address, RegisterAddr, NumByteToWrite);
+ }
+
+ private:
+ int set_x_odr_when_enabled(float odr);
+ int set_g_odr_when_enabled(float odr);
+ int set_x_odr_when_disabled(float odr);
+ int set_g_odr_when_disabled(float odr);
+
+ /* Helper classes. */
+ DevI2C &_dev_i2c;
+
+ InterruptIn _int1_irq;
+ InterruptIn _int2_irq;
+
+ /* Configuration */
+ uint8_t _address;
+
+ uint8_t _x_is_enabled;
+ float _x_last_odr;
+ uint8_t _g_is_enabled;
+ float _g_last_odr;
+};
+
+#ifdef __cplusplus
+ extern "C" {
+#endif
+uint8_t LSM6DSL_io_write( void *handle, uint8_t WriteAddr, uint8_t *pBuffer, uint16_t nBytesToWrite );
+uint8_t LSM6DSL_io_read( void *handle, uint8_t ReadAddr, uint8_t *pBuffer, uint16_t nBytesToRead );
+#ifdef __cplusplus
+ }
+#endif
+
+#endif
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Components/LSM6DSLSensor/LSM6DSL_acc_gyro_driver.c Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,6393 @@
+/**
+ ******************************************************************************
+ * @file LSM6DSL_acc_gyro_driver.c
+ * @author MEMS Application Team
+ * @version V1.5
+ * @date 17-May-2016
+ * @brief LSM6DSL driver file
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+/* Includes ------------------------------------------------------------------*/
+#include "LSM6DSL_acc_gyro_driver.h"
+
+/* Imported function prototypes ----------------------------------------------*/
+extern uint8_t LSM6DSL_io_write(void *handle, uint8_t WriteAddr, uint8_t *pBuffer, uint16_t nBytesToWrite);
+extern uint8_t LSM6DSL_io_read(void *handle, uint8_t ReadAddr, uint8_t *pBuffer, uint16_t nBytesToRead);
+
+/* Private typedef -----------------------------------------------------------*/
+
+/* Private define ------------------------------------------------------------*/
+
+/* Private macro -------------------------------------------------------------*/
+
+/* Private variables ---------------------------------------------------------*/
+
+/* Private functions ---------------------------------------------------------*/
+
+/* Exported functions ---------------------------------------------------------*/
+
+/************** Generic Function *******************/
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_read_reg
+* Description : Generic Reading function. It must be fullfilled with either
+* : I2C or SPI reading functions
+* Input : Register Address, length of buffer
+* Output : Data REad
+* Return : None
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_read_reg(void *handle, u8_t Reg, u8_t* Data, u16_t len)
+{
+ if (LSM6DSL_io_read(handle, Reg, Data, len))
+ {
+ return MEMS_ERROR;
+ }
+ else
+ {
+ return MEMS_SUCCESS;
+ }
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_write_reg
+* Description : Generic Writing function. It must be fullfilled with either
+* : I2C or SPI writing function
+* Input : Register Address, Data to be written, length of buffer
+* Output : None
+* Return : None
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_write_reg(void *handle, u8_t Reg, u8_t *Data, u16_t len)
+{
+ if (LSM6DSL_io_write(handle, Reg, Data, len))
+ {
+ return MEMS_ERROR;
+ }
+ else
+ {
+ return MEMS_SUCCESS;
+ }
+}
+
+/**************** Base Function *******************/
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_WHO_AM_I
+* Description : Read WHO_AM_I_BIT
+* Input : Pointer to u8_t
+* Output : Status of WHO_AM_I_BIT
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_WHO_AM_I(void *handle, u8_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_WHO_AM_I_REG, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_WHO_AM_I_BIT_MASK; //coerce
+ *value = *value >> LSM6DSL_ACC_GYRO_WHO_AM_I_BIT_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_BDU
+* Description : Write BDU
+* Input : LSM6DSL_ACC_GYRO_BDU_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_BDU(void *handle, LSM6DSL_ACC_GYRO_BDU_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_BDU_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_BDU
+* Description : Read BDU
+* Input : Pointer to LSM6DSL_ACC_GYRO_BDU_t
+* Output : Status of BDU see LSM6DSL_ACC_GYRO_BDU_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_BDU(void *handle, LSM6DSL_ACC_GYRO_BDU_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_BDU_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_FS_XL
+* Description : Write FS_XL
+* Input : LSM6DSL_ACC_GYRO_FS_XL_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_FS_XL(void *handle, LSM6DSL_ACC_GYRO_FS_XL_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL1_XL, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_FS_XL_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL1_XL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_FS_XL
+* Description : Read FS_XL
+* Input : Pointer to LSM6DSL_ACC_GYRO_FS_XL_t
+* Output : Status of FS_XL see LSM6DSL_ACC_GYRO_FS_XL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_FS_XL(void *handle, LSM6DSL_ACC_GYRO_FS_XL_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL1_XL, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_FS_XL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : mems_status_t LSM6DSL_ACC_GYRO_GetRawAccData(u8_t *buff)
+* Description : Read GetAccData output register
+* Input : pointer to [u8_t]
+* Output : GetAccData buffer u8_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_GetRawAccData(void *handle, u8_t *buff)
+{
+ u8_t i, j, k;
+ u8_t numberOfByteForDimension;
+
+ numberOfByteForDimension=6/3;
+
+ k=0;
+ for (i=0; i<3;i++ )
+ {
+ for (j=0; j<numberOfByteForDimension;j++ )
+ {
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_OUTX_L_XL+k, &buff[k], 1))
+ return MEMS_ERROR;
+ k++;
+ }
+ }
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : mems_status_t LSM6DSL_ACC_Get_Acceleration(void *handle, int *buff, u8_t from_fifo)
+* Description : Read GetAccData output register
+* Input : pointer to [u8_t]
+* Output : values are expressed in mg
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+/*
+ * Following is the table of sensitivity values for each case.
+ * Values are expressed in ug/digit.
+ */
+static const long long LSM6DSL_ACC_Sensitivity_List[4] = {
+ 61, /* FS @2g */
+ 122, /* FS @4g */
+ 244, /* FS @8g */
+ 488, /* FS @16g */
+};
+mems_status_t LSM6DSL_ACC_Get_Acceleration(void *handle, int *buff, u8_t from_fifo)
+{
+ LSM6DSL_ACC_GYRO_FS_XL_t fs;
+ long long sensitivity = 0;
+ Type3Axis16bit_U raw_data_tmp;
+
+ /* Read out current odr, fs, hf setting */
+ LSM6DSL_ACC_GYRO_R_FS_XL(handle, &fs);
+
+ /* Determine the sensitivity according to fs */
+ switch(fs) {
+ case LSM6DSL_ACC_GYRO_FS_XL_2g:
+ sensitivity = LSM6DSL_ACC_Sensitivity_List[0];
+ break;
+
+ case LSM6DSL_ACC_GYRO_FS_XL_4g:
+ sensitivity = LSM6DSL_ACC_Sensitivity_List[1];
+ break;
+
+ case LSM6DSL_ACC_GYRO_FS_XL_8g:
+ sensitivity = LSM6DSL_ACC_Sensitivity_List[2];
+ break;
+
+ case LSM6DSL_ACC_GYRO_FS_XL_16g:
+ sensitivity = LSM6DSL_ACC_Sensitivity_List[3];
+ break;
+ }
+
+ /* Read out raw accelerometer samples */
+ if (from_fifo) {
+ u8_t i;
+
+ /* read all 3 axis from FIFO */
+ for(i = 0; i < 3; i++)
+ LSM6DSL_ACC_GYRO_Get_GetFIFOData(handle, raw_data_tmp.u8bit + 2*i);
+ } else
+ LSM6DSL_ACC_GYRO_GetRawAccData(handle, raw_data_tmp.u8bit);
+
+ /* Apply proper shift and sensitivity */
+ buff[0] = (raw_data_tmp.i16bit[0] * sensitivity + 500)/1000;
+ buff[1] = (raw_data_tmp.i16bit[1] * sensitivity + 500)/1000;
+ buff[2] = (raw_data_tmp.i16bit[2] * sensitivity + 500)/1000;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_ODR_XL
+* Description : Write ODR_XL
+* Input : LSM6DSL_ACC_GYRO_ODR_XL_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_ODR_XL(void *handle, LSM6DSL_ACC_GYRO_ODR_XL_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL1_XL, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_ODR_XL_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL1_XL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_ODR_XL
+* Description : Read ODR_XL
+* Input : Pointer to LSM6DSL_ACC_GYRO_ODR_XL_t
+* Output : Status of ODR_XL see LSM6DSL_ACC_GYRO_ODR_XL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_ODR_XL(void *handle, LSM6DSL_ACC_GYRO_ODR_XL_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL1_XL, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_ODR_XL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_translate_ODR_XL
+* Description : Read ODR_XL
+* Input : LSM6DSL_ACC_GYRO_ODR_XL_t
+* Output : The ODR value in Hz
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_translate_ODR_XL(LSM6DSL_ACC_GYRO_ODR_XL_t value, u16_t *odr_hz_val)
+{
+ switch(value) {
+ case LSM6DSL_ACC_GYRO_ODR_XL_POWER_DOWN:
+ *odr_hz_val = 0;
+ break;
+
+ case LSM6DSL_ACC_GYRO_ODR_XL_13Hz:
+ *odr_hz_val = 13;
+ break;
+
+ case LSM6DSL_ACC_GYRO_ODR_XL_26Hz:
+ *odr_hz_val = 26;
+ break;
+
+ case LSM6DSL_ACC_GYRO_ODR_XL_52Hz:
+ *odr_hz_val = 52;
+ break;
+
+ case LSM6DSL_ACC_GYRO_ODR_XL_104Hz:
+ *odr_hz_val = 104;
+ break;
+
+ case LSM6DSL_ACC_GYRO_ODR_XL_208Hz:
+ *odr_hz_val = 208;
+ break;
+
+ case LSM6DSL_ACC_GYRO_ODR_XL_416Hz:
+ *odr_hz_val = 416;
+ break;
+
+ case LSM6DSL_ACC_GYRO_ODR_XL_833Hz:
+ *odr_hz_val = 833;
+ break;
+
+ case LSM6DSL_ACC_GYRO_ODR_XL_1660Hz:
+ *odr_hz_val = 1660;
+ break;
+
+ default:
+ return MEMS_ERROR;
+ }
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_FS_G
+* Description : Write FS_G
+* Input : LSM6DSL_ACC_GYRO_FS_G_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_FS_G(void *handle, LSM6DSL_ACC_GYRO_FS_G_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL2_G, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_FS_G_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL2_G, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_FS_G
+* Description : Read FS_G
+* Input : Pointer to LSM6DSL_ACC_GYRO_FS_G_t
+* Output : Status of FS_G see LSM6DSL_ACC_GYRO_FS_G_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_FS_G(void *handle, LSM6DSL_ACC_GYRO_FS_G_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL2_G, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_FS_G_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : mems_status_t LSM6DSL_ACC_GYRO_GetRawGyroData(u8_t *buff)
+* Description : Read GetGyroData output register
+* Input : pointer to [u8_t]
+* Output : GetGyroData buffer u8_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_GetRawGyroData(void *handle, u8_t *buff)
+{
+ u8_t i, j, k;
+ u8_t numberOfByteForDimension;
+
+ numberOfByteForDimension=6/3;
+
+ k=0;
+ for (i=0; i<3;i++ )
+ {
+ for (j=0; j<numberOfByteForDimension;j++ )
+ {
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_OUTX_L_G+k, &buff[k], 1))
+ return MEMS_ERROR;
+ k++;
+ }
+ }
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : mems_status_t LSM6DSL_ACC_Get_AngularRate(u8_t *buff)
+* Description : Read GetGyroData output register
+* Input : pointer to [u8_t]
+* Output : Returned values are espressed in mdps
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+/*
+ * Following is the table of sensitivity values for each case.
+ * Values are espressed in udps/digit.
+ */
+static const long long LSM6DSL_GYRO_Sensitivity_List[5] = {
+ 4375, /* FS @125 */
+ 8750, /* FS @245 */
+ 17500, /* FS @500 */
+ 35000, /* FS @1000 */
+ 70000, /* FS @2000 */
+};
+mems_status_t LSM6DSL_ACC_Get_AngularRate(void *handle, int *buff, u8_t from_fifo)
+{
+ LSM6DSL_ACC_GYRO_FS_125_t fs_125;
+ LSM6DSL_ACC_GYRO_FS_G_t fs;
+ long long sensitivity = 0;
+ Type3Axis16bit_U raw_data_tmp;
+
+ /* Read out current odr, fs, hf setting */
+ LSM6DSL_ACC_GYRO_R_FS_125(handle, &fs_125);
+ if (fs_125 == LSM6DSL_ACC_GYRO_FS_125_ENABLED) {
+ sensitivity = LSM6DSL_GYRO_Sensitivity_List[0];
+ } else {
+ LSM6DSL_ACC_GYRO_R_FS_G(handle, &fs);
+
+ /* Determine the sensitivity according to fs */
+ switch(fs) {
+ case LSM6DSL_ACC_GYRO_FS_G_245dps:
+ sensitivity = LSM6DSL_GYRO_Sensitivity_List[1];
+ break;
+
+ case LSM6DSL_ACC_GYRO_FS_G_500dps:
+ sensitivity = LSM6DSL_GYRO_Sensitivity_List[2];
+ break;
+
+ case LSM6DSL_ACC_GYRO_FS_G_1000dps:
+ sensitivity = LSM6DSL_GYRO_Sensitivity_List[3];
+ break;
+
+ case LSM6DSL_ACC_GYRO_FS_G_2000dps:
+ sensitivity = LSM6DSL_GYRO_Sensitivity_List[4];
+ break;
+ }
+ }
+
+ /* Read out raw accelerometer samples */
+ if (from_fifo) {
+ u8_t i;
+
+ /* read all 3 axis from FIFO */
+ for(i = 0; i < 3; i++)
+ LSM6DSL_ACC_GYRO_Get_GetFIFOData(handle, raw_data_tmp.u8bit + 2*i);
+ } else
+ LSM6DSL_ACC_GYRO_GetRawGyroData(handle, raw_data_tmp.u8bit);
+
+ /* Apply proper shift and sensitivity */
+ buff[0] = (raw_data_tmp.i16bit[0] * sensitivity + 500)/1000;
+ buff[1] = (raw_data_tmp.i16bit[1] * sensitivity + 500)/1000;
+ buff[2] = (raw_data_tmp.i16bit[2] * sensitivity + 500)/1000;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_ODR_G
+* Description : Write ODR_G
+* Input : LSM6DSL_ACC_GYRO_ODR_G_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_ODR_G(void *handle, LSM6DSL_ACC_GYRO_ODR_G_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL2_G, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_ODR_G_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL2_G, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_ODR_G
+* Description : Read ODR_G
+* Input : Pointer to LSM6DSL_ACC_GYRO_ODR_G_t
+* Output : Status of ODR_G see LSM6DSL_ACC_GYRO_ODR_G_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_ODR_G(void *handle, LSM6DSL_ACC_GYRO_ODR_G_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL2_G, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_ODR_G_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_translate_ODR_G
+* Description : Read ODR_G
+* Input : LSM6DSL_ACC_GYRO_ODR_G_t
+* Output : The ODR value in Hz
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_translate_ODR_G(LSM6DSL_ACC_GYRO_ODR_G_t value, u16_t *odr_hz_val)
+{
+ switch(value) {
+ case LSM6DSL_ACC_GYRO_ODR_G_POWER_DOWN:
+ *odr_hz_val = 0;
+ break;
+
+ case LSM6DSL_ACC_GYRO_ODR_G_13Hz:
+ *odr_hz_val = 13;
+ break;
+
+ case LSM6DSL_ACC_GYRO_ODR_G_26Hz:
+ *odr_hz_val = 26;
+ break;
+
+ case LSM6DSL_ACC_GYRO_ODR_G_52Hz:
+ *odr_hz_val = 52;
+ break;
+
+ case LSM6DSL_ACC_GYRO_ODR_G_104Hz:
+ *odr_hz_val = 104;
+ break;
+
+ case LSM6DSL_ACC_GYRO_ODR_G_208Hz:
+ *odr_hz_val = 208;
+ break;
+
+ case LSM6DSL_ACC_GYRO_ODR_G_416Hz:
+ *odr_hz_val = 416;
+ break;
+
+ case LSM6DSL_ACC_GYRO_ODR_G_833Hz:
+ *odr_hz_val = 833;
+ break;
+
+ case LSM6DSL_ACC_GYRO_ODR_G_1660Hz:
+ *odr_hz_val = 1660;
+ break;
+
+ default:
+ return MEMS_ERROR;
+ }
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_FS_125
+* Description : Write FS_125
+* Input : LSM6DSL_ACC_GYRO_FS_125_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_FS_125(void *handle, LSM6DSL_ACC_GYRO_FS_125_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL2_G, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_FS_125_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL2_G, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_FS_125
+* Description : Read FS_125
+* Input : Pointer to LSM6DSL_ACC_GYRO_FS_125_t
+* Output : Status of FS_125 see LSM6DSL_ACC_GYRO_FS_125_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_FS_125(void *handle, LSM6DSL_ACC_GYRO_FS_125_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL2_G, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_FS_125_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/**************** Advanced Function *******************/
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_BW_SEL
+* Description : Write BW_SEL
+* Input : LSM6DSL_ACC_GYRO_BW_SEL_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_BW_SEL(void *handle, LSM6DSL_ACC_GYRO_BW_SEL_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL1_XL, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_BW_SEL_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL1_XL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_BW_SEL
+* Description : Read BW_SEL
+* Input : Pointer to LSM6DSL_ACC_GYRO_BW_SEL_t
+* Output : Status of BW_SEL see LSM6DSL_ACC_GYRO_BW_SEL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_BW_SEL(void *handle, LSM6DSL_ACC_GYRO_BW_SEL_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL1_XL, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_BW_SEL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_BLE
+* Description : Write BLE
+* Input : LSM6DSL_ACC_GYRO_BLE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_BLE(void *handle, LSM6DSL_ACC_GYRO_BLE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_BLE_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_BLE
+* Description : Read BLE
+* Input : Pointer to LSM6DSL_ACC_GYRO_BLE_t
+* Output : Status of BLE see LSM6DSL_ACC_GYRO_BLE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_BLE(void *handle, LSM6DSL_ACC_GYRO_BLE_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_BLE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_EmbeddedAccess
+* Description : Write EMB_ACC
+* Input : LSM6DSL_ACC_GYRO_EMB_ACC_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_EmbeddedAccess(void *handle, LSM6DSL_ACC_GYRO_EMB_ACC_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FUNC_CFG_ACCESS, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_EMB_ACC_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_FUNC_CFG_ACCESS, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_EmbeddedAccess
+* Description : Read EMB_ACC
+* Input : Pointer to LSM6DSL_ACC_GYRO_EMB_ACC_t
+* Output : Status of EMB_ACC see LSM6DSL_ACC_GYRO_EMB_ACC_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_EmbeddedAccess(void *handle, LSM6DSL_ACC_GYRO_EMB_ACC_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FUNC_CFG_ACCESS, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_EMB_ACC_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_SYNC_RES_RATIO
+* Description : Write RR
+* Input : LSM6DSL_ACC_GYRO_SYNC_RES_RATIO_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_SYNC_RES_RATIO(void *handle, LSM6DSL_ACC_GYRO_SYNC_RES_RATIO_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_SENSOR_RES_RATIO, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_SYNC_RES_RATIO_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_SENSOR_RES_RATIO, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SYNC_RES_RATIO
+* Description : Read RR
+* Input : Pointer to LSM6DSL_ACC_GYRO_SYNC_RES_RATIO_t
+* Output : Status of RR see LSM6DSL_ACC_GYRO_SYNC_RES_RATIO_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SYNC_RES_RATIO(void *handle, LSM6DSL_ACC_GYRO_SYNC_RES_RATIO_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_SENSOR_RES_RATIO, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_SYNC_RES_RATIO_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_Stamping_Time_Frame
+* Description : Write TPH
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_Stamping_Time_Frame(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM6DSL_ACC_GYRO_TPH_POSITION; //mask
+ newValue &= LSM6DSL_ACC_GYRO_TPH_MASK; //coerce
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_SENSOR_SYNC_TIME, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= (u8_t)~LSM6DSL_ACC_GYRO_TPH_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_SENSOR_SYNC_TIME, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_Stamping_Time_Frame
+* Description : Read TPH
+* Input : Pointer to u8_t
+* Output : Status of TPH
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_Stamping_Time_Frame(void *handle, u8_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_SENSOR_SYNC_TIME, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_TPH_MASK; //coerce
+ *value = *value >> LSM6DSL_ACC_GYRO_TPH_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_FIFO_Watermark
+* Description : Write WTM_FIFO
+* Input : u16_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_FIFO_Watermark(void *handle, u16_t newValue)
+{
+ u8_t valueH, valueL;
+ u8_t value;
+
+ valueL = newValue & 0xFF;
+ valueH = (newValue >> 8) & 0xFF;
+
+ /* Low part goes in FIFO_CTRL1 */
+ valueL = valueL << LSM6DSL_ACC_GYRO_WTM_FIFO_CTRL1_POSITION; //mask
+ valueL &= LSM6DSL_ACC_GYRO_WTM_FIFO_CTRL1_MASK; //coerce
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL1, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= (u8_t)~LSM6DSL_ACC_GYRO_WTM_FIFO_CTRL1_MASK;
+ value |= valueL;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL1, &value, 1) )
+ return MEMS_ERROR;
+
+ /* High part goes in FIFO_CTRL2 */
+ valueH = valueH << LSM6DSL_ACC_GYRO_WTM_FIFO_CTRL2_POSITION; //mask
+ valueH &= LSM6DSL_ACC_GYRO_WTM_FIFO_CTRL2_MASK; //coerce
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL2, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_WTM_FIFO_CTRL2_MASK;
+ value |= valueH;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL2, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_FIFO_Watermark
+* Description : Read WTM_FIFO
+* Input : Pointer to u16_t
+* Output : Status of WTM_FIFO
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_FIFO_Watermark(void *handle, u16_t *value)
+{
+ u8_t valueH, valueL;
+
+ /* Low part from FIFO_CTRL1 */
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL1, (u8_t *)&valueL, 1) )
+ return MEMS_ERROR;
+
+ valueL &= LSM6DSL_ACC_GYRO_WTM_FIFO_CTRL1_MASK; //coerce
+ valueL = valueL >> LSM6DSL_ACC_GYRO_WTM_FIFO_CTRL1_POSITION; //mask
+
+ /* High part from FIFO_CTRL2 */
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL2, (u8_t *)&valueH, 1) )
+ return MEMS_ERROR;
+
+ valueH &= LSM6DSL_ACC_GYRO_WTM_FIFO_CTRL2_MASK; //coerce
+ valueH = valueH >> LSM6DSL_ACC_GYRO_WTM_FIFO_CTRL2_POSITION; //mask
+
+ *value = ((valueH << 8) & 0xFF00) | valueL;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_FIFO_TEMP
+* Description : Write FIFO_TEMP_EN
+* Input : LSM6DSL_ACC_GYRO_FIFO_TEMP_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_FIFO_TEMP(void *handle, LSM6DSL_ACC_GYRO_FIFO_TEMP_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL2, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_FIFO_TEMP_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL2, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_FIFO_TEMP
+* Description : Read FIFO_TEMP_EN
+* Input : Pointer to LSM6DSL_ACC_GYRO_FIFO_TEMP_t
+* Output : Status of FIFO_TEMP_EN see LSM6DSL_ACC_GYRO_FIFO_TEMP_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_FIFO_TEMP(void *handle, LSM6DSL_ACC_GYRO_FIFO_TEMP_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL2, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_FIFO_TEMP_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_TIM_PEDO_FIFO_Write_En
+* Description : Write TIM_PEDO_FIFO_DRDY
+* Input : LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_DRDY_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_TIM_PEDO_FIFO_Write_En(void *handle, LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_DRDY_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL2, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_DRDY_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL2, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_TIM_PEDO_FIFO_Write_En
+* Description : Read TIM_PEDO_FIFO_DRDY
+* Input : Pointer to LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_DRDY_t
+* Output : Status of TIM_PEDO_FIFO_DRDY see LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_DRDY_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_TIM_PEDO_FIFO_Write_En(void *handle, LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_DRDY_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL2, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_DRDY_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_TIM_PEDO_FIFO_En
+* Description : Write TIM_PEDO_FIFO_EN
+* Input : LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_EN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_TIM_PEDO_FIFO_En(void *handle, LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_EN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL2, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_EN_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL2, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_TIM_PEDO_FIFO_En
+* Description : Read TIM_PEDO_FIFO_EN
+* Input : Pointer to LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_EN_t
+* Output : Status of TIM_PEDO_FIFO_EN see LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_EN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_TIM_PEDO_FIFO_En(void *handle, LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_EN_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL2, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_EN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_DEC_FIFO_XL
+* Description : Write DEC_FIFO_XL
+* Input : LSM6DSL_ACC_GYRO_DEC_FIFO_XL_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_DEC_FIFO_XL(void *handle, LSM6DSL_ACC_GYRO_DEC_FIFO_XL_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL3, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_DEC_FIFO_XL_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL3, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_DEC_FIFO_XL_val
+* Description : Write DEC_FIFO_XL
+* Input : u16_t
+* Output : Program XL decimation value from unsigned short
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_DEC_FIFO_XL_val(void *handle, u16_t newValue)
+{
+ switch(newValue) {
+ case 0:
+ LSM6DSL_ACC_GYRO_W_DEC_FIFO_XL(handle, LSM6DSL_ACC_GYRO_DEC_FIFO_XL_DATA_NOT_IN_FIFO);
+ break;
+
+ case 1:
+ LSM6DSL_ACC_GYRO_W_DEC_FIFO_XL(handle, LSM6DSL_ACC_GYRO_DEC_FIFO_XL_NO_DECIMATION);
+ break;
+
+ case 2:
+ LSM6DSL_ACC_GYRO_W_DEC_FIFO_XL(handle, LSM6DSL_ACC_GYRO_DEC_FIFO_XL_DECIMATION_BY_2);
+ break;
+
+ case 3:
+ LSM6DSL_ACC_GYRO_W_DEC_FIFO_XL(handle, LSM6DSL_ACC_GYRO_DEC_FIFO_XL_DECIMATION_BY_3);
+ break;
+
+ case 4:
+ LSM6DSL_ACC_GYRO_W_DEC_FIFO_XL(handle, LSM6DSL_ACC_GYRO_DEC_FIFO_XL_DECIMATION_BY_4);
+ break;
+
+ case 8:
+ LSM6DSL_ACC_GYRO_W_DEC_FIFO_XL(handle, LSM6DSL_ACC_GYRO_DEC_FIFO_XL_DECIMATION_BY_8);
+ break;
+
+ case 16:
+ LSM6DSL_ACC_GYRO_W_DEC_FIFO_XL(handle, LSM6DSL_ACC_GYRO_DEC_FIFO_XL_DECIMATION_BY_16);
+ break;
+
+ case 32:
+ LSM6DSL_ACC_GYRO_W_DEC_FIFO_XL(handle, LSM6DSL_ACC_GYRO_DEC_FIFO_XL_DECIMATION_BY_32);
+ break;
+
+ default:
+ return MEMS_ERROR;
+ }
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DEC_FIFO_XL
+* Description : Read DEC_FIFO_XL
+* Input : Pointer to LSM6DSL_ACC_GYRO_DEC_FIFO_XL_t
+* Output : Status of DEC_FIFO_XL see LSM6DSL_ACC_GYRO_DEC_FIFO_XL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DEC_FIFO_XL(void *handle, LSM6DSL_ACC_GYRO_DEC_FIFO_XL_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL3, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_DEC_FIFO_XL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_DEC_FIFO_G
+* Description : Write DEC_FIFO_G
+* Input : LSM6DSL_ACC_GYRO_DEC_FIFO_G_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_DEC_FIFO_G(void *handle, LSM6DSL_ACC_GYRO_DEC_FIFO_G_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL3, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_DEC_FIFO_G_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL3, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_DEC_FIFO_G_val
+* Description : Write DEC_FIFO_G
+* Input : u16_t
+* Output : Program G decimation value from unsigned short
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_DEC_FIFO_G_val(void *handle, u16_t newValue)
+{
+ switch(newValue) {
+ case 0:
+ LSM6DSL_ACC_GYRO_W_DEC_FIFO_G(handle, LSM6DSL_ACC_GYRO_DEC_FIFO_G_DATA_NOT_IN_FIFO);
+ break;
+
+ case 1:
+ LSM6DSL_ACC_GYRO_W_DEC_FIFO_G(handle, LSM6DSL_ACC_GYRO_DEC_FIFO_G_NO_DECIMATION);
+ break;
+
+ case 2:
+ LSM6DSL_ACC_GYRO_W_DEC_FIFO_G(handle, LSM6DSL_ACC_GYRO_DEC_FIFO_G_DECIMATION_BY_2);
+ break;
+
+ case 3:
+ LSM6DSL_ACC_GYRO_W_DEC_FIFO_G(handle, LSM6DSL_ACC_GYRO_DEC_FIFO_G_DECIMATION_BY_3);
+ break;
+
+ case 4:
+ LSM6DSL_ACC_GYRO_W_DEC_FIFO_G(handle, LSM6DSL_ACC_GYRO_DEC_FIFO_G_DECIMATION_BY_4);
+ break;
+
+ case 8:
+ LSM6DSL_ACC_GYRO_W_DEC_FIFO_G(handle, LSM6DSL_ACC_GYRO_DEC_FIFO_G_DECIMATION_BY_8);
+ break;
+
+ case 16:
+ LSM6DSL_ACC_GYRO_W_DEC_FIFO_G(handle, LSM6DSL_ACC_GYRO_DEC_FIFO_G_DECIMATION_BY_16);
+ break;
+
+ case 32:
+ LSM6DSL_ACC_GYRO_W_DEC_FIFO_G(handle, LSM6DSL_ACC_GYRO_DEC_FIFO_G_DECIMATION_BY_32);
+ break;
+
+ default:
+ return MEMS_ERROR;
+ }
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DEC_FIFO_G
+* Description : Read DEC_FIFO_G
+* Input : Pointer to LSM6DSL_ACC_GYRO_DEC_FIFO_G_t
+* Output : Status of DEC_FIFO_G see LSM6DSL_ACC_GYRO_DEC_FIFO_G_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DEC_FIFO_G(void *handle, LSM6DSL_ACC_GYRO_DEC_FIFO_G_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL3, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_DEC_FIFO_G_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_DEC_FIFO_DS3
+* Description : Write DEC_DS3_FIFO
+* Input : LSM6DSL_ACC_GYRO_DEC_FIFO_DS3_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_DEC_FIFO_DS3(void *handle, LSM6DSL_ACC_GYRO_DEC_FIFO_DS3_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL4, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_DEC_FIFO_DS3_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL4, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DEC_FIFO_DS3
+* Description : Read DEC_DS3_FIFO
+* Input : Pointer to LSM6DSL_ACC_GYRO_DEC_FIFO_DS3_t
+* Output : Status of DEC_DS3_FIFO see LSM6DSL_ACC_GYRO_DEC_FIFO_DS3_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DEC_FIFO_DS3(void *handle, LSM6DSL_ACC_GYRO_DEC_FIFO_DS3_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL4, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_DEC_FIFO_DS3_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_DEC_FIFO_DS4
+* Description : Write DEC_DS4_FIFO
+* Input : LSM6DSL_ACC_GYRO_DEC_FIFO_DS4_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_DEC_FIFO_DS4(void *handle, LSM6DSL_ACC_GYRO_DEC_FIFO_DS4_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL4, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_DEC_FIFO_DS4_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL4, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DEC_FIFO_DS4
+* Description : Read DEC_DS4_FIFO
+* Input : Pointer to LSM6DSL_ACC_GYRO_DEC_FIFO_DS4_t
+* Output : Status of DEC_DS4_FIFO see LSM6DSL_ACC_GYRO_DEC_FIFO_DS4_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DEC_FIFO_DS4(void *handle, LSM6DSL_ACC_GYRO_DEC_FIFO_DS4_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL4, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_DEC_FIFO_DS4_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_HI_DATA_ONLY
+* Description : Write HI_DATA_ONLY
+* Input : LSM6DSL_ACC_GYRO_HI_DATA_ONLY_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_HI_DATA_ONLY(void *handle, LSM6DSL_ACC_GYRO_HI_DATA_ONLY_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL4, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_HI_DATA_ONLY_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL4, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_HI_DATA_ONLY
+* Description : Read HI_DATA_ONLY
+* Input : Pointer to LSM6DSL_ACC_GYRO_HI_DATA_ONLY_t
+* Output : Status of HI_DATA_ONLY see LSM6DSL_ACC_GYRO_HI_DATA_ONLY_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_HI_DATA_ONLY(void *handle, LSM6DSL_ACC_GYRO_HI_DATA_ONLY_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL4, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_HI_DATA_ONLY_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_STOP_ON_FTH
+* Description : Write STOP_ON_FTH
+* Input : LSM6DSL_ACC_GYRO_STOP_ON_FTH_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_STOP_ON_FTH(void *handle, LSM6DSL_ACC_GYRO_STOP_ON_FTH_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL4, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_STOP_ON_FTH_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL4, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_STOP_ON_FTH
+* Description : Read STOP_ON_FTH
+* Input : Pointer to LSM6DSL_ACC_GYRO_STOP_ON_FTH_t
+* Output : Status of STOP_ON_FTH see LSM6DSL_ACC_GYRO_STOP_ON_FTH_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_STOP_ON_FTH(void *handle, LSM6DSL_ACC_GYRO_STOP_ON_FTH_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL4, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_STOP_ON_FTH_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_FIFO_MODE
+* Description : Write FIFO_MODE
+* Input : LSM6DSL_ACC_GYRO_FIFO_MODE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_FIFO_MODE(void *handle, LSM6DSL_ACC_GYRO_FIFO_MODE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL5, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_FIFO_MODE_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL5, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_FIFO_MODE
+* Description : Read FIFO_MODE
+* Input : Pointer to LSM6DSL_ACC_GYRO_FIFO_MODE_t
+* Output : Status of FIFO_MODE see LSM6DSL_ACC_GYRO_FIFO_MODE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_FIFO_MODE(void *handle, LSM6DSL_ACC_GYRO_FIFO_MODE_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL5, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_FIFO_MODE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_ODR_FIFO
+* Description : Write ODR_FIFO
+* Input : LSM6DSL_ACC_GYRO_ODR_FIFO_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_ODR_FIFO(void *handle, LSM6DSL_ACC_GYRO_ODR_FIFO_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL5, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_ODR_FIFO_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL5, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_ODR_FIFO
+* Description : Read ODR_FIFO
+* Input : Pointer to LSM6DSL_ACC_GYRO_ODR_FIFO_t
+* Output : Status of ODR_FIFO see LSM6DSL_ACC_GYRO_ODR_FIFO_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_ODR_FIFO(void *handle, LSM6DSL_ACC_GYRO_ODR_FIFO_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_CTRL5, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_ODR_FIFO_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_DRDY_PULSE
+* Description : Write DRDY_PULSE
+* Input : LSM6DSL_ACC_GYRO_DRDY_PULSE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_DRDY_PULSE(void *handle, LSM6DSL_ACC_GYRO_DRDY_PULSE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_DRDY_PULSE_CFG_G, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_DRDY_PULSE_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_DRDY_PULSE_CFG_G, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DRDY_PULSE
+* Description : Read DRDY_PULSE
+* Input : Pointer to LSM6DSL_ACC_GYRO_DRDY_PULSE_t
+* Output : Status of DRDY_PULSE see LSM6DSL_ACC_GYRO_DRDY_PULSE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DRDY_PULSE(void *handle, LSM6DSL_ACC_GYRO_DRDY_PULSE_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_DRDY_PULSE_CFG_G, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_DRDY_PULSE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_DRDY_XL_on_INT1
+* Description : Write INT1_DRDY_XL
+* Input : LSM6DSL_ACC_GYRO_INT1_DRDY_XL_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_DRDY_XL_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_DRDY_XL_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT1_DRDY_XL_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DRDY_XL_on_INT1
+* Description : Read INT1_DRDY_XL
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT1_DRDY_XL_t
+* Output : Status of INT1_DRDY_XL see LSM6DSL_ACC_GYRO_INT1_DRDY_XL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DRDY_XL_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_DRDY_XL_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT1_DRDY_XL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_DRDY_G_on_INT1
+* Description : Write INT1_DRDY_G
+* Input : LSM6DSL_ACC_GYRO_INT1_DRDY_G_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_DRDY_G_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_DRDY_G_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT1_DRDY_G_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DRDY_G_on_INT1
+* Description : Read INT1_DRDY_G
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT1_DRDY_G_t
+* Output : Status of INT1_DRDY_G see LSM6DSL_ACC_GYRO_INT1_DRDY_G_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DRDY_G_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_DRDY_G_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT1_DRDY_G_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_BOOT_on_INT1
+* Description : Write INT1_BOOT
+* Input : LSM6DSL_ACC_GYRO_INT1_BOOT_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_BOOT_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_BOOT_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT1_BOOT_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_BOOT_on_INT1
+* Description : Read INT1_BOOT
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT1_BOOT_t
+* Output : Status of INT1_BOOT see LSM6DSL_ACC_GYRO_INT1_BOOT_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_BOOT_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_BOOT_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT1_BOOT_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_FIFO_TSHLD_on_INT1
+* Description : Write INT1_FTH
+* Input : LSM6DSL_ACC_GYRO_INT1_FTH_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_FIFO_TSHLD_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_FTH_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT1_FTH_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_FIFO_TSHLD_on_INT1
+* Description : Read INT1_FTH
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT1_FTH_t
+* Output : Status of INT1_FTH see LSM6DSL_ACC_GYRO_INT1_FTH_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_FIFO_TSHLD_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_FTH_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT1_FTH_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_OVERRUN_on_INT1
+* Description : Write INT1_OVR
+* Input : LSM6DSL_ACC_GYRO_INT1_OVR_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_OVERRUN_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_OVR_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT1_OVR_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, &value, 1))
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_OVERRUN_on_INT1
+* Description : Read INT1_OVR
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT1_OVR_t
+* Output : Status of INT1_OVR see LSM6DSL_ACC_GYRO_INT1_OVR_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_OVERRUN_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_OVR_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT1_OVR_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_FULL_FLAG_on_INT1
+* Description : Write INT1_FULL_FLAG
+* Input : LSM6DSL_ACC_GYRO_INT1_FULL_FLAG_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_FULL_FLAG_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_FULL_FLAG_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT1_FULL_FLAG_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_FULL_FLAG_on_INT1
+* Description : Read INT1_FULL_FLAG
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT1_FULL_FLAG_t
+* Output : Status of INT1_FULL_FLAG see LSM6DSL_ACC_GYRO_INT1_FULL_FLAG_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_FULL_FLAG_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_FULL_FLAG_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT1_FULL_FLAG_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_SIGN_MOT_on_INT1
+* Description : Write INT1_SIGN_MOT
+* Input : LSM6DSL_ACC_GYRO_INT1_SIGN_MOT_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_SIGN_MOT_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_SIGN_MOT_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT1_SIGN_MOT_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SIGN_MOT_on_INT1
+* Description : Read INT1_SIGN_MOT
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT1_SIGN_MOT_t
+* Output : Status of INT1_SIGN_MOT see LSM6DSL_ACC_GYRO_INT1_SIGN_MOT_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SIGN_MOT_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_SIGN_MOT_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT1_SIGN_MOT_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_STEP_DET_on_INT1
+* Description : Write INT1_PEDO
+* Input : LSM6DSL_ACC_GYRO_INT1_PEDO_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_STEP_DET_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_PEDO_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT1_PEDO_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_STEP_DET_on_INT1
+* Description : Read INT1_PEDO
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT1_PEDO_t
+* Output : Status of INT1_PEDO see LSM6DSL_ACC_GYRO_INT1_PEDO_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_STEP_DET_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_PEDO_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT1_CTRL, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT1_PEDO_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_DRDY_XL_on_INT2
+* Description : Write INT2_DRDY_XL
+* Input : LSM6DSL_ACC_GYRO_INT2_DRDY_XL_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_DRDY_XL_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_DRDY_XL_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT2_DRDY_XL_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DRDY_XL_on_INT2
+* Description : Read INT2_DRDY_XL
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT2_DRDY_XL_t
+* Output : Status of INT2_DRDY_XL see LSM6DSL_ACC_GYRO_INT2_DRDY_XL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DRDY_XL_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_DRDY_XL_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT2_DRDY_XL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_DRDY_G_on_INT2
+* Description : Write INT2_DRDY_G
+* Input : LSM6DSL_ACC_GYRO_INT2_DRDY_G_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_DRDY_G_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_DRDY_G_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT2_DRDY_G_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DRDY_G_on_INT2
+* Description : Read INT2_DRDY_G
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT2_DRDY_G_t
+* Output : Status of INT2_DRDY_G see LSM6DSL_ACC_GYRO_INT2_DRDY_G_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DRDY_G_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_DRDY_G_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT2_DRDY_G_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_DRDY_TEMP_on_INT2
+* Description : Write INT2_DRDY_TEMP
+* Input : LSM6DSL_ACC_GYRO_INT2_DRDY_TEMP_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_DRDY_TEMP_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_DRDY_TEMP_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT2_DRDY_TEMP_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DRDY_TEMP_on_INT2
+* Description : Read INT2_DRDY_TEMP
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT2_DRDY_TEMP_t
+* Output : Status of INT2_DRDY_TEMP see LSM6DSL_ACC_GYRO_INT2_DRDY_TEMP_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DRDY_TEMP_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_DRDY_TEMP_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT2_DRDY_TEMP_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_FIFO_TSHLD_on_INT2
+* Description : Write INT2_FTH
+* Input : LSM6DSL_ACC_GYRO_INT2_FTH_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_FIFO_TSHLD_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_FTH_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT2_FTH_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_FIFO_TSHLD_on_INT2
+* Description : Read INT2_FTH
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT2_FTH_t
+* Output : Status of INT2_FTH see LSM6DSL_ACC_GYRO_INT2_FTH_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_FIFO_TSHLD_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_FTH_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT2_FTH_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_OVERRUN_on_INT2
+* Description : Write INT2_OVR
+* Input : LSM6DSL_ACC_GYRO_INT2_OVR_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_OVERRUN_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_OVR_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT2_OVR_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_OVERRUN_on_INT2
+* Description : Read INT2_OVR
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT2_OVR_t
+* Output : Status of INT2_OVR see LSM6DSL_ACC_GYRO_INT2_OVR_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_OVERRUN_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_OVR_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT2_OVR_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_FULL_FLAG_on_INT2
+* Description : Write INT2_FULL_FLAG
+* Input : LSM6DSL_ACC_GYRO_INT2_FULL_FLAG_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_FULL_FLAG_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_FULL_FLAG_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT2_FULL_FLAG_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_FULL_FLAG_on_INT2
+* Description : Read INT2_FULL_FLAG
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT2_FULL_FLAG_t
+* Output : Status of INT2_FULL_FLAG see LSM6DSL_ACC_GYRO_INT2_FULL_FLAG_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_FULL_FLAG_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_FULL_FLAG_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT2_FULL_FLAG_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_STEP_COUNT_OV_on_INT2
+* Description : Write INT2_STEP_COUNT_OV
+* Input : LSM6DSL_ACC_GYRO_INT2_STEP_COUNT_OV_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_STEP_COUNT_OV_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_STEP_COUNT_OV_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT2_STEP_COUNT_OV_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_STEP_COUNT_OV_on_INT2
+* Description : Read INT2_STEP_COUNT_OV
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT2_STEP_COUNT_OV_t
+* Output : Status of INT2_STEP_COUNT_OV see LSM6DSL_ACC_GYRO_INT2_STEP_COUNT_OV_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_STEP_COUNT_OV_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_STEP_COUNT_OV_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT2_STEP_COUNT_OV_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_STEP_DELTA_on_INT2
+* Description : Write INT2_STEP_DELTA
+* Input : LSM6DSL_ACC_GYRO_INT2_STEP_DELTA_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_STEP_DELTA_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_STEP_DELTA_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT2_STEP_DELTA_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_STEP_DELTA_on_INT2
+* Description : Read INT2_STEP_DELTA
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT2_STEP_DELTA_t
+* Output : Status of INT2_STEP_DELTA see LSM6DSL_ACC_GYRO_INT2_STEP_DELTA_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_STEP_DELTA_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_STEP_DELTA_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT2_CTRL, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT2_STEP_DELTA_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_SW_RESET
+* Description : Write SW_RESET
+* Input : LSM6DSL_ACC_GYRO_SW_RESET_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_SW_RESET(void *handle, LSM6DSL_ACC_GYRO_SW_RESET_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_SW_RESET_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SW_RESET
+* Description : Read SW_RESET
+* Input : Pointer to LSM6DSL_ACC_GYRO_SW_RESET_t
+* Output : Status of SW_RESET see LSM6DSL_ACC_GYRO_SW_RESET_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SW_RESET(void *handle, LSM6DSL_ACC_GYRO_SW_RESET_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_SW_RESET_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_IF_Addr_Incr
+* Description : Write IF_INC
+* Input : LSM6DSL_ACC_GYRO_IF_INC_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_IF_Addr_Incr(void *handle, LSM6DSL_ACC_GYRO_IF_INC_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_IF_INC_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_IF_Addr_Incr
+* Description : Read IF_INC
+* Input : Pointer to LSM6DSL_ACC_GYRO_IF_INC_t
+* Output : Status of IF_INC see LSM6DSL_ACC_GYRO_IF_INC_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_IF_Addr_Incr(void *handle, LSM6DSL_ACC_GYRO_IF_INC_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_IF_INC_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_SPI_Mode
+* Description : Write SIM
+* Input : LSM6DSL_ACC_GYRO_SIM_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_SPI_Mode(void *handle, LSM6DSL_ACC_GYRO_SIM_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_SIM_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SPI_Mode
+* Description : Read SIM
+* Input : Pointer to LSM6DSL_ACC_GYRO_SIM_t
+* Output : Status of SIM see LSM6DSL_ACC_GYRO_SIM_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SPI_Mode(void *handle, LSM6DSL_ACC_GYRO_SIM_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_SIM_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_PadSel
+* Description : Write PP_OD
+* Input : LSM6DSL_ACC_GYRO_PP_OD_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_PadSel(void *handle, LSM6DSL_ACC_GYRO_PP_OD_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_PP_OD_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_PadSel
+* Description : Read PP_OD
+* Input : Pointer to LSM6DSL_ACC_GYRO_PP_OD_t
+* Output : Status of PP_OD see LSM6DSL_ACC_GYRO_PP_OD_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_PadSel(void *handle, LSM6DSL_ACC_GYRO_PP_OD_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_PP_OD_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_INT_ACT_LEVEL
+* Description : Write INT_ACT_LEVEL
+* Input : LSM6DSL_ACC_GYRO_INT_ACT_LEVEL_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_INT_ACT_LEVEL(void *handle, LSM6DSL_ACC_GYRO_INT_ACT_LEVEL_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT_ACT_LEVEL_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_INT_ACT_LEVEL
+* Description : Read INT_ACT_LEVEL
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT_ACT_LEVEL_t
+* Output : Status of INT_ACT_LEVEL see LSM6DSL_ACC_GYRO_INT_ACT_LEVEL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_INT_ACT_LEVEL(void *handle, LSM6DSL_ACC_GYRO_INT_ACT_LEVEL_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT_ACT_LEVEL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_BOOT
+* Description : Write BOOT
+* Input : LSM6DSL_ACC_GYRO_BOOT_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_BOOT(void *handle, LSM6DSL_ACC_GYRO_BOOT_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_BOOT_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_BOOT
+* Description : Read BOOT
+* Input : Pointer to LSM6DSL_ACC_GYRO_BOOT_t
+* Output : Status of BOOT see LSM6DSL_ACC_GYRO_BOOT_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_BOOT(void *handle, LSM6DSL_ACC_GYRO_BOOT_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL3_C, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_BOOT_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_LPF1_SEL_G
+* Description : Write LPF1_SEL_G
+* Input : LSM6DSL_ACC_GYRO_LPF1_SEL_G_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_LPF1_SEL_G(void *handle, LSM6DSL_ACC_GYRO_LPF1_SEL_G_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL4_C, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_LPF1_SEL_G_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL4_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_LPF1_SEL_G
+* Description : Read LPF1_SEL_G
+* Input : Pointer to LSM6DSL_ACC_GYRO_LPF1_SEL_G_t
+* Output : Status of LPF1_SEL_G see LSM6DSL_ACC_GYRO_LPF1_SEL_G_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_LPF1_SEL_G(void *handle, LSM6DSL_ACC_GYRO_LPF1_SEL_G_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL4_C, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_LPF1_SEL_G_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_I2C_DISABLE
+* Description : Write I2C_DISABLE
+* Input : LSM6DSL_ACC_GYRO_I2C_DISABLE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_I2C_DISABLE(void *handle, LSM6DSL_ACC_GYRO_I2C_DISABLE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL4_C, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_I2C_DISABLE_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL4_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_I2C_DISABLE
+* Description : Read I2C_DISABLE
+* Input : Pointer to LSM6DSL_ACC_GYRO_I2C_DISABLE_t
+* Output : Status of I2C_DISABLE see LSM6DSL_ACC_GYRO_I2C_DISABLE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_I2C_DISABLE(void *handle, LSM6DSL_ACC_GYRO_I2C_DISABLE_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL4_C, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_I2C_DISABLE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_DRDY_MSK
+* Description : Write DRDY_MSK
+* Input : LSM6DSL_ACC_GYRO_DRDY_MSK_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_DRDY_MSK(void *handle, LSM6DSL_ACC_GYRO_DRDY_MSK_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL4_C, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_DRDY_MSK_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL4_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DRDY_MSK
+* Description : Read DRDY_MSK
+* Input : Pointer to LSM6DSL_ACC_GYRO_DRDY_MSK_t
+* Output : Status of DRDY_MSK see LSM6DSL_ACC_GYRO_DRDY_MSK_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DRDY_MSK(void *handle, LSM6DSL_ACC_GYRO_DRDY_MSK_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL4_C, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_DRDY_MSK_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_INT2_ON_INT1
+* Description : Write INT2_ON_INT1
+* Input : LSM6DSL_ACC_GYRO_INT2_ON_INT1_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_INT2_ON_INT1(void *handle, LSM6DSL_ACC_GYRO_INT2_ON_INT1_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL4_C, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT2_ON_INT1_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL4_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_INT2_ON_INT1
+* Description : Read INT2_ON_INT1
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT2_ON_INT1_t
+* Output : Status of INT2_ON_INT1 see LSM6DSL_ACC_GYRO_INT2_ON_INT1_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_INT2_ON_INT1(void *handle, LSM6DSL_ACC_GYRO_INT2_ON_INT1_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL4_C, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT2_ON_INT1_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_SleepMode_G
+* Description : Write SLEEP_G
+* Input : LSM6DSL_ACC_GYRO_SLEEP_G_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_SleepMode_G(void *handle, LSM6DSL_ACC_GYRO_SLEEP_G_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL4_C, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_SLEEP_G_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL4_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SleepMode_G
+* Description : Read SLEEP_G
+* Input : Pointer to LSM6DSL_ACC_GYRO_SLEEP_G_t
+* Output : Status of SLEEP_G see LSM6DSL_ACC_GYRO_SLEEP_G_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SleepMode_G(void *handle, LSM6DSL_ACC_GYRO_SLEEP_G_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL4_C, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_SLEEP_G_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_SelfTest_XL
+* Description : Write ST_XL
+* Input : LSM6DSL_ACC_GYRO_ST_XL_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_SelfTest_XL(void *handle, LSM6DSL_ACC_GYRO_ST_XL_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL5_C, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_ST_XL_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL5_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SelfTest_XL
+* Description : Read ST_XL
+* Input : Pointer to LSM6DSL_ACC_GYRO_ST_XL_t
+* Output : Status of ST_XL see LSM6DSL_ACC_GYRO_ST_XL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SelfTest_XL(void *handle, LSM6DSL_ACC_GYRO_ST_XL_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL5_C, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_ST_XL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_SelfTest_G
+* Description : Write ST_G
+* Input : LSM6DSL_ACC_GYRO_ST_G_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_SelfTest_G(void *handle, LSM6DSL_ACC_GYRO_ST_G_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL5_C, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_ST_G_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL5_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SelfTest_G
+* Description : Read ST_G
+* Input : Pointer to LSM6DSL_ACC_GYRO_ST_G_t
+* Output : Status of ST_G see LSM6DSL_ACC_GYRO_ST_G_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SelfTest_G(void *handle, LSM6DSL_ACC_GYRO_ST_G_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL5_C, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_ST_G_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_DEN_Polarity
+* Description : Write DEN_LH
+* Input : LSM6DSL_ACC_GYRO_DEN_LH_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_DEN_Polarity(void *handle, LSM6DSL_ACC_GYRO_DEN_LH_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL5_C, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_DEN_LH_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL5_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DEN_Polarity
+* Description : Read DEN_LH
+* Input : Pointer to LSM6DSL_ACC_GYRO_DEN_LH_t
+* Output : Status of DEN_LH see LSM6DSL_ACC_GYRO_DEN_LH_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DEN_Polarity(void *handle, LSM6DSL_ACC_GYRO_DEN_LH_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL5_C, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_DEN_LH_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_CircularBurstMode
+* Description : Write ST_ROUNDING
+* Input : LSM6DSL_ACC_GYRO_ROUNDING_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_CircularBurstMode(void *handle, LSM6DSL_ACC_GYRO_ROUNDING_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL5_C, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_LSM6DSL_ACC_GYRO_ROUNDING_t_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL5_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_CircularBurstMode
+* Description : Read ST_ROUNDING
+* Input : Pointer to LSM6DSL_ACC_GYRO_ROUNDING_t
+* Output : Status of ST_ROUNDING see LSM6DSL_ACC_GYRO_ROUNDING_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_CircularBurstMode(void *handle, LSM6DSL_ACC_GYRO_ROUNDING_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL5_C, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_LSM6DSL_ACC_GYRO_ROUNDING_t_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_LP_BW_G
+* Description : Write FTYPE
+* Input : LSM6DSL_ACC_GYRO_FTYPE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_LP_BW_G(void *handle, LSM6DSL_ACC_GYRO_FTYPE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL6_G, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_FTYPE_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL6_G, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_LP_BW_G
+* Description : Read FTYPE
+* Input : Pointer to LSM6DSL_ACC_GYRO_FTYPE_t
+* Output : Status of FTYPE see LSM6DSL_ACC_GYRO_FTYPE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_LP_BW_G(void *handle, LSM6DSL_ACC_GYRO_FTYPE_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL6_G, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_FTYPE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_UserOffsetWeight
+* Description : Write USR_OFF_W
+* Input : LSM6DSL_ACC_GYRO_USR_OFF_W_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_UserOffsetWeight(void *handle, LSM6DSL_ACC_GYRO_USR_OFF_W_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL6_G, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_USR_OFF_W_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL6_G, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_UserOffsetWeight
+* Description : Read USR_OFF_W
+* Input : Pointer to LSM6DSL_ACC_GYRO_USR_OFF_W_t
+* Output : Status of USR_OFF_W see LSM6DSL_ACC_GYRO_USR_OFF_W_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_UserOffsetWeight(void *handle, LSM6DSL_ACC_GYRO_USR_OFF_W_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL6_G, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_USR_OFF_W_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_LowPower_XL
+* Description : Write LP_XL
+* Input : LSM6DSL_ACC_GYRO_LP_XL_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_LowPower_XL(void *handle, LSM6DSL_ACC_GYRO_LP_XL_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL6_G, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_LP_XL_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL6_G, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_LowPower_XL
+* Description : Read LP_XL
+* Input : Pointer to LSM6DSL_ACC_GYRO_LP_XL_t
+* Output : Status of LP_XL see LSM6DSL_ACC_GYRO_LP_XL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_LowPower_XL(void *handle, LSM6DSL_ACC_GYRO_LP_XL_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL6_G, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_LP_XL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_DEN_LVL2_EN
+* Description : Write DEN_LVL2_EN
+* Input : LSM6DSL_ACC_GYRO_DEN_LVL2_EN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_DEN_LVL2_EN(void *handle, LSM6DSL_ACC_GYRO_DEN_LVL2_EN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL6_G, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_DEN_LVL2_EN_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL6_G, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DEN_LVL2_EN
+* Description : Read DEN_LVL2_EN
+* Input : Pointer to LSM6DSL_ACC_GYRO_DEN_LVL2_EN_t
+* Output : Status of DEN_LVL2_EN see LSM6DSL_ACC_GYRO_DEN_LVL2_EN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DEN_LVL2_EN(void *handle, LSM6DSL_ACC_GYRO_DEN_LVL2_EN_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL6_G, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_DEN_LVL2_EN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_DEN_LVL_EN
+* Description : Write DEN_LVL_EN
+* Input : LSM6DSL_ACC_GYRO_DEN_LVL_EN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_DEN_LVL_EN(void *handle, LSM6DSL_ACC_GYRO_DEN_LVL_EN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL6_G, &value, 1))
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_DEN_LVL_EN_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL6_G, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DEN_LVL_EN
+* Description : Read DEN_LVL_EN
+* Input : Pointer to LSM6DSL_ACC_GYRO_DEN_LVL_EN_t
+* Output : Status of DEN_LVL_EN see LSM6DSL_ACC_GYRO_DEN_LVL_EN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DEN_LVL_EN(void *handle, LSM6DSL_ACC_GYRO_DEN_LVL_EN_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL6_G, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_DEN_LVL_EN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_ExternalTrigger
+* Description : Write DEN_EDGE_EN
+* Input : LSM6DSL_ACC_GYRO_DEN_EDGE_EN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_ExternalTrigger(void *handle, LSM6DSL_ACC_GYRO_DEN_EDGE_EN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL6_G, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_DEN_EDGE_EN_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL6_G, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_ExternalTrigger
+* Description : Read DEN_EDGE_EN
+* Input : Pointer to LSM6DSL_ACC_GYRO_DEN_EDGE_EN_t
+* Output : Status of DEN_EDGE_EN see LSM6DSL_ACC_GYRO_DEN_EDGE_EN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_ExternalTrigger(void *handle, LSM6DSL_ACC_GYRO_DEN_EDGE_EN_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL6_G, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_DEN_EDGE_EN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_HPM_G
+* Description : Write HPM_G
+* Input : LSM6DSL_ACC_GYRO_HPM_G_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_HPM_G(void *handle, LSM6DSL_ACC_GYRO_HPM_G_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL7_G, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_HPM_G_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL7_G, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_HPM_G
+* Description : Read HPM_G
+* Input : Pointer to LSM6DSL_ACC_GYRO_HPM_G_t
+* Output : Status of HPM_G see LSM6DSL_ACC_GYRO_HPM_G_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_HPM_G(void *handle, LSM6DSL_ACC_GYRO_HPM_G_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL7_G, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_HPM_G_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_RoundingOnStatusRegisters
+* Description : Write HPM_G
+* Input : LSM6DSL_ACC_GYRO_RND_STATUS_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_RoundingOnStatusRegisters(void *handle, LSM6DSL_ACC_GYRO_RND_STATUS_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL7_G, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_RND_STATUS_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL7_G, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_RoundingOnStatusRegisters
+* Description : Read HPM_G
+* Input : Pointer to LSM6DSL_ACC_GYRO_RND_STATUS_t
+* Output : Status of HPM_G see LSM6DSL_ACC_GYRO_RND_STATUS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_RoundingOnStatusRegisters(void *handle, LSM6DSL_ACC_GYRO_RND_STATUS_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL7_G, (u8_t *)value, 1))
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_RND_STATUS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_HPFilter_En
+* Description : Write HP_EN
+* Input : LSM6DSL_ACC_GYRO_HP_EN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_HPFilter_En(void *handle, LSM6DSL_ACC_GYRO_HP_EN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL7_G, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_HP_EN_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL7_G, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_HPFilter_En
+* Description : Read HP_EN
+* Input : Pointer to LSM6DSL_ACC_GYRO_HP_EN_t
+* Output : Status of HP_EN see LSM6DSL_ACC_GYRO_HP_EN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_HPFilter_En(void *handle, LSM6DSL_ACC_GYRO_HP_EN_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL7_G, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_HP_EN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_LP_Mode
+* Description : Write LP_EN
+* Input : LSM6DSL_ACC_GYRO_LP_EN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_LP_Mode(void *handle, LSM6DSL_ACC_GYRO_LP_EN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL7_G, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_LP_EN_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL7_G, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_LP_Mode
+* Description : Read LP_EN
+* Input : Pointer to LSM6DSL_ACC_GYRO_LP_EN_t
+* Output : Status of LP_EN see LSM6DSL_ACC_GYRO_LP_EN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_LP_Mode(void *handle, LSM6DSL_ACC_GYRO_LP_EN_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL7_G, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_LP_EN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_ROUNDING_STATUS
+* Description : Write ROUNDING_STATUS
+* Input : LSM6DSL_ACC_GYRO_ROUNDING_STATUS_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_ROUNDING_STATUS(void *handle, LSM6DSL_ACC_GYRO_ROUNDING_STATUS_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL7_G, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_ROUNDING_STATUS_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL7_G, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_ROUNDING_STATUS
+* Description : Read ROUNDING_STATUS
+* Input : Pointer to LSM6DSL_ACC_GYRO_ROUNDING_STATUS_t
+* Output : Status of ROUNDING_STATUS see LSM6DSL_ACC_GYRO_ROUNDING_STATUS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_ROUNDING_STATUS(void *handle, LSM6DSL_ACC_GYRO_ROUNDING_STATUS_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL7_G, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_ROUNDING_STATUS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_HP_G_RST
+* Description : Write HP_G_RST
+* Input : LSM6DSL_ACC_GYRO_HP_G_RST_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_HP_G_RST(void *handle, LSM6DSL_ACC_GYRO_HP_G_RST_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL7_G, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_HP_G_RST_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL7_G, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_HP_G_RST
+* Description : Read HP_G_RST
+* Input : Pointer to LSM6DSL_ACC_GYRO_HP_G_RST_t
+* Output : Status of HP_G_RST see LSM6DSL_ACC_GYRO_HP_G_RST_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_HP_G_RST(void *handle, LSM6DSL_ACC_GYRO_HP_G_RST_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL7_G, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_HP_G_RST_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_InComposit
+* Description : Write INPUT_COMPOSITE
+* Input : LSM6DSL_ACC_GYRO_IN_COMP_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_InComposit(void *handle, LSM6DSL_ACC_GYRO_IN_COMP_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL8_XL, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_IN_COMP_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL8_XL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_InComposit
+* Description : Read INPUT_COMPOSITE
+* Input : Pointer to LSM6DSL_ACC_GYRO_IN_COMP_t
+* Output : Status of INPUT_COMPOSITE see LSM6DSL_ACC_GYRO_IN_COMP_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_InComposit(void *handle, LSM6DSL_ACC_GYRO_IN_COMP_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL8_XL, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_IN_COMP_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_HPfilterReference
+* Description : Write HP_REF_MODE
+* Input : LSM6DSL_ACC_GYRO_HP_REF_MODE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_HPfilterReference(void *handle, LSM6DSL_ACC_GYRO_HP_REF_MODE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL8_XL, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_HP_REF_MODE_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL8_XL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_HPfilterReference
+* Description : Read HP_REF_MODE
+* Input : Pointer to LSM6DSL_ACC_GYRO_HP_REF_MODE_t
+* Output : Status of HP_REF_MODE see LSM6DSL_ACC_GYRO_HP_REF_MODE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_HPfilterReference(void *handle, LSM6DSL_ACC_GYRO_HP_REF_MODE_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL8_XL, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_HP_REF_MODE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_HPCF_XL
+* Description : Write HPCF_XL
+* Input : LSM6DSL_ACC_GYRO_HPCF_XL_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_HPCF_XL(void *handle, LSM6DSL_ACC_GYRO_HPCF_XL_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL8_XL, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_HPCF_XL_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL8_XL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_HPCF_XL
+* Description : Read HPCF_XL
+* Input : Pointer to LSM6DSL_ACC_GYRO_HPCF_XL_t
+* Output : Status of HPCF_XL see LSM6DSL_ACC_GYRO_HPCF_XL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_HPCF_XL(void *handle, LSM6DSL_ACC_GYRO_HPCF_XL_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL8_XL, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_HPCF_XL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_LowPassFiltSel_XL
+* Description : Write LPF2_XL_EN
+* Input : LSM6DSL_ACC_GYRO_LPF2_XL_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_LowPassFiltSel_XL(void *handle, LSM6DSL_ACC_GYRO_LPF2_XL_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL8_XL, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_LPF2_XL_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL8_XL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_LowPassFiltSel_XL
+* Description : Read LPF2_XL_EN
+* Input : Pointer to LSM6DSL_ACC_GYRO_LPF2_XL_t
+* Output : Status of LPF2_XL_EN see LSM6DSL_ACC_GYRO_LPF2_XL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_LowPassFiltSel_XL(void *handle, LSM6DSL_ACC_GYRO_LPF2_XL_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL8_XL, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_LPF2_XL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_LOW_PASS_ON_6D
+* Description : Write LOW_PASS_ON_6D
+* Input : LSM6DSL_ACC_GYRO_LOW_PASS_ON_6D_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_LOW_PASS_ON_6D(void *handle, LSM6DSL_ACC_GYRO_LOW_PASS_ON_6D_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL8_XL, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_LOW_PASS_ON_6D_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL8_XL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_LOW_PASS_ON_6D
+* Description : Read LOW_PASS_ON_6D
+* Input : Pointer to LSM6DSL_ACC_GYRO_LOW_PASS_ON_6D_t
+* Output : Status of LOW_PASS_ON_6D see LSM6DSL_ACC_GYRO_LOW_PASS_ON_6D_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_LOW_PASS_ON_6D(void *handle, LSM6DSL_ACC_GYRO_LOW_PASS_ON_6D_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL8_XL, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_LOW_PASS_ON_6D_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_HP_SLOPE_XL
+* Description : Write HP_SLOPE_XL_EN
+* Input : LSM6DSL_ACC_GYRO_HP_SLOPE_XL_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_HP_SLOPE_XL(void *handle, LSM6DSL_ACC_GYRO_HP_SLOPE_XL_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL8_XL, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_HP_SLOPE_XL_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL8_XL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_HP_SLOPE_XL
+* Description : Read HP_SLOPE_XL_EN
+* Input : Pointer to LSM6DSL_ACC_GYRO_HP_SLOPE_XL_t
+* Output : Status of HP_SLOPE_XL_EN see LSM6DSL_ACC_GYRO_HP_SLOPE_XL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_HP_SLOPE_XL(void *handle, LSM6DSL_ACC_GYRO_HP_SLOPE_XL_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL8_XL, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_HP_SLOPE_XL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_SOFT
+* Description : Write SOFT_EN
+* Input : LSM6DSL_ACC_GYRO_SOFT_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_SOFT(void *handle, LSM6DSL_ACC_GYRO_SOFT_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL9_XL, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_SOFT_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL9_XL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SOFT
+* Description : Read SOFT_EN
+* Input : Pointer to LSM6DSL_ACC_GYRO_SOFT_t
+* Output : Status of SOFT_EN see LSM6DSL_ACC_GYRO_SOFT_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SOFT(void *handle, LSM6DSL_ACC_GYRO_SOFT_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL9_XL, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_SOFT_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_SignifcantMotion
+* Description : Write SIGN_MOTION_EN
+* Input : LSM6DSL_ACC_GYRO_SIGN_MOTION_EN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_SignifcantMotion(void *handle, LSM6DSL_ACC_GYRO_SIGN_MOTION_EN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL10_C, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_SIGN_MOTION_EN_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL10_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SignifcantMotion
+* Description : Read SIGN_MOTION_EN
+* Input : Pointer to LSM6DSL_ACC_GYRO_SIGN_MOTION_EN_t
+* Output : Status of SIGN_MOTION_EN see LSM6DSL_ACC_GYRO_SIGN_MOTION_EN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SignifcantMotion(void *handle, LSM6DSL_ACC_GYRO_SIGN_MOTION_EN_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL10_C, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_SIGN_MOTION_EN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_PedoStepReset
+* Description : Write PEDO_RST_STEP
+* Input : LSM6DSL_ACC_GYRO_PEDO_RST_STEP_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_PedoStepReset(void *handle, LSM6DSL_ACC_GYRO_PEDO_RST_STEP_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL10_C, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_PEDO_RST_STEP_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL10_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_PedoStepReset
+* Description : Read PEDO_RST_STEP
+* Input : Pointer to LSM6DSL_ACC_GYRO_PEDO_RST_STEP_t
+* Output : Status of PEDO_RST_STEP see LSM6DSL_ACC_GYRO_PEDO_RST_STEP_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_PedoStepReset(void *handle, LSM6DSL_ACC_GYRO_PEDO_RST_STEP_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL10_C, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_PEDO_RST_STEP_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_TILT
+* Description : Write XEN_G
+* Input : LSM6DSL_ACC_GYRO_TILT_G_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_TILT(void *handle, LSM6DSL_ACC_GYRO_TILT_G_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL10_C, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_TILT_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL10_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_TILT
+* Description : Read XEN_G
+* Input : Pointer to LSM6DSL_ACC_GYRO_TILT_G_t
+* Output : Status of XEN_G see LSM6DSL_ACC_GYRO_TILT_G_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_TILT(void *handle, LSM6DSL_ACC_GYRO_TILT_G_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL10_C, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_TILT_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_PEDO
+* Description : Write PEDO_EN
+* Input : LSM6DSL_ACC_GYRO_PEDO_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_PEDO(void *handle, LSM6DSL_ACC_GYRO_PEDO_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL10_C, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_PEDO_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL10_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_PEDO
+* Description : Read PEDO_EN
+* Input : Pointer to LSM6DSL_ACC_GYRO_PEDO_t
+* Output : Status of PEDO_EN see LSM6DSL_ACC_GYRO_PEDO_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_PEDO(void *handle, LSM6DSL_ACC_GYRO_PEDO_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL10_C, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_PEDO_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_TIMER
+* Description : Write TIMER_EN
+* Input : LSM6DSL_ACC_GYRO_TIMER_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_TIMER(void *handle, LSM6DSL_ACC_GYRO_TIMER_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL10_C, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_TIMER_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL10_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_TIMER
+* Description : Read TIMER_EN
+* Input : Pointer to LSM6DSL_ACC_GYRO_TIMER_t
+* Output : Status of TIMER_EN see LSM6DSL_ACC_GYRO_TIMER_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_TIMER(void *handle, LSM6DSL_ACC_GYRO_TIMER_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL10_C, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_TIMER_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_FUNC_EN
+* Description : Write FUNC_EN
+* Input : LSM6DSL_ACC_GYRO_FUNC_EN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_FUNC_EN(void *handle, LSM6DSL_ACC_GYRO_FUNC_EN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL10_C, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_FUNC_EN_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CTRL10_C, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_FUNC_EN
+* Description : Read FUNC_EN
+* Input : Pointer to LSM6DSL_ACC_GYRO_FUNC_EN_t
+* Output : Status of FUNC_EN see LSM6DSL_ACC_GYRO_FUNC_EN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_FUNC_EN(void *handle, LSM6DSL_ACC_GYRO_FUNC_EN_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CTRL10_C, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_FUNC_EN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_I2C_MASTER_Enable
+* Description : Write MASTER_ON
+* Input : LSM6DSL_ACC_GYRO_MASTER_ON_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_I2C_MASTER_Enable(void *handle, LSM6DSL_ACC_GYRO_MASTER_ON_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_MASTER_ON_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_I2C_MASTER_Enable
+* Description : Read MASTER_ON
+* Input : Pointer to LSM6DSL_ACC_GYRO_MASTER_ON_t
+* Output : Status of MASTER_ON see LSM6DSL_ACC_GYRO_MASTER_ON_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_I2C_MASTER_Enable(void *handle, LSM6DSL_ACC_GYRO_MASTER_ON_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_MASTER_ON_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_IronCorrection_EN
+* Description : Write IRON_EN
+* Input : LSM6DSL_ACC_GYRO_IRON_EN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_IronCorrection_EN(void *handle, LSM6DSL_ACC_GYRO_IRON_EN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_IRON_EN_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_IronCorrection_EN
+* Description : Read IRON_EN
+* Input : Pointer to LSM6DSL_ACC_GYRO_IRON_EN_t
+* Output : Status of IRON_EN see LSM6DSL_ACC_GYRO_IRON_EN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_IronCorrection_EN(void *handle, LSM6DSL_ACC_GYRO_IRON_EN_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_IRON_EN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_PASS_THRU_MODE
+* Description : Write PASS_THRU_MODE
+* Input : LSM6DSL_ACC_GYRO_PASS_THRU_MODE_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_PASS_THRU_MODE(void *handle, LSM6DSL_ACC_GYRO_PASS_THRU_MODE_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_PASS_THRU_MODE_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_PASS_THRU_MODE
+* Description : Read PASS_THRU_MODE
+* Input : Pointer to LSM6DSL_ACC_GYRO_PASS_THRU_MODE_t
+* Output : Status of PASS_THRU_MODE see LSM6DSL_ACC_GYRO_PASS_THRU_MODE_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_PASS_THRU_MODE(void *handle, LSM6DSL_ACC_GYRO_PASS_THRU_MODE_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_PASS_THRU_MODE_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_PULL_UP_EN
+* Description : Write PULL_UP_EN
+* Input : LSM6DSL_ACC_GYRO_PULL_UP_EN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_PULL_UP_EN(void *handle, LSM6DSL_ACC_GYRO_PULL_UP_EN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_PULL_UP_EN_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_PULL_UP_EN
+* Description : Read PULL_UP_EN
+* Input : Pointer to LSM6DSL_ACC_GYRO_PULL_UP_EN_t
+* Output : Status of PULL_UP_EN see LSM6DSL_ACC_GYRO_PULL_UP_EN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_PULL_UP_EN(void *handle, LSM6DSL_ACC_GYRO_PULL_UP_EN_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_PULL_UP_EN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_SensorHUB_Trigger_Sel
+* Description : Write START_CONFIG
+* Input : LSM6DSL_ACC_GYRO_START_CONFIG_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_SensorHUB_Trigger_Sel(void *handle, LSM6DSL_ACC_GYRO_START_CONFIG_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_START_CONFIG_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SensorHUB_Trigger_Sel
+* Description : Read START_CONFIG
+* Input : Pointer to LSM6DSL_ACC_GYRO_START_CONFIG_t
+* Output : Status of START_CONFIG see LSM6DSL_ACC_GYRO_START_CONFIG_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SensorHUB_Trigger_Sel(void *handle, LSM6DSL_ACC_GYRO_START_CONFIG_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_START_CONFIG_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_DATA_VAL_SEL_FIFO
+* Description : Write DATA_VAL_SEL_FIFO
+* Input : LSM6DSL_ACC_GYRO_DATA_VAL_SEL_FIFO_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_DATA_VAL_SEL_FIFO(void *handle, LSM6DSL_ACC_GYRO_DATA_VAL_SEL_FIFO_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_DATA_VAL_SEL_FIFO_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DATA_VAL_SEL_FIFO
+* Description : Read DATA_VAL_SEL_FIFO
+* Input : Pointer to LSM6DSL_ACC_GYRO_DATA_VAL_SEL_FIFO_t
+* Output : Status of DATA_VAL_SEL_FIFO see LSM6DSL_ACC_GYRO_DATA_VAL_SEL_FIFO_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DATA_VAL_SEL_FIFO(void *handle, LSM6DSL_ACC_GYRO_DATA_VAL_SEL_FIFO_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_DATA_VAL_SEL_FIFO_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_DRDY_ON_INT1
+* Description : Write DRDY_ON_INT1
+* Input : LSM6DSL_ACC_GYRO_DRDY_ON_INT1_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_DRDY_ON_INT1(void *handle, LSM6DSL_ACC_GYRO_DRDY_ON_INT1_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_DRDY_ON_INT1_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DRDY_ON_INT1
+* Description : Read DRDY_ON_INT1
+* Input : Pointer to LSM6DSL_ACC_GYRO_DRDY_ON_INT1_t
+* Output : Status of DRDY_ON_INT1 see LSM6DSL_ACC_GYRO_DRDY_ON_INT1_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DRDY_ON_INT1(void *handle, LSM6DSL_ACC_GYRO_DRDY_ON_INT1_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MASTER_CONFIG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_DRDY_ON_INT1_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_Z_WU
+* Description : Read Z_WU
+* Input : Pointer to LSM6DSL_ACC_GYRO_Z_WU_t
+* Output : Status of Z_WU see LSM6DSL_ACC_GYRO_Z_WU_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_Z_WU(void *handle, LSM6DSL_ACC_GYRO_Z_WU_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_Z_WU_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_Y_WU
+* Description : Read Y_WU
+* Input : Pointer to LSM6DSL_ACC_GYRO_Y_WU_t
+* Output : Status of Y_WU see LSM6DSL_ACC_GYRO_Y_WU_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_Y_WU(void *handle, LSM6DSL_ACC_GYRO_Y_WU_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_Y_WU_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_X_WU
+* Description : Read X_WU
+* Input : Pointer to LSM6DSL_ACC_GYRO_X_WU_t
+* Output : Status of X_WU see LSM6DSL_ACC_GYRO_X_WU_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_X_WU(void *handle, LSM6DSL_ACC_GYRO_X_WU_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_X_WU_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_WU_EV_STATUS
+* Description : Read WU_EV_STATUS
+* Input : Pointer to LSM6DSL_ACC_GYRO_WU_EV_STATUS_t
+* Output : Status of WU_EV_STATUS see LSM6DSL_ACC_GYRO_WU_EV_STATUS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_WU_EV_STATUS(void *handle, LSM6DSL_ACC_GYRO_WU_EV_STATUS_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_WU_EV_STATUS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SLEEP_EV_STATUS
+* Description : Read SLEEP_EV_STATUS
+* Input : Pointer to LSM6DSL_ACC_GYRO_SLEEP_EV_STATUS_t
+* Output : Status of SLEEP_EV_STATUS see LSM6DSL_ACC_GYRO_SLEEP_EV_STATUS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SLEEP_EV_STATUS(void *handle, LSM6DSL_ACC_GYRO_SLEEP_EV_STATUS_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_SLEEP_EV_STATUS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_FF_EV_STATUS
+* Description : Read FF_EV_STATUS
+* Input : Pointer to LSM6DSL_ACC_GYRO_FF_EV_STATUS_t
+* Output : Status of FF_EV_STATUS see LSM6DSL_ACC_GYRO_FF_EV_STATUS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_FF_EV_STATUS(void *handle, LSM6DSL_ACC_GYRO_FF_EV_STATUS_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_FF_EV_STATUS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_Z_TAP
+* Description : Read Z_TAP
+* Input : Pointer to LSM6DSL_ACC_GYRO_Z_TAP_t
+* Output : Status of Z_TAP see LSM6DSL_ACC_GYRO_Z_TAP_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_Z_TAP(void *handle, LSM6DSL_ACC_GYRO_Z_TAP_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_Z_TAP_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_Y_TAP
+* Description : Read Y_TAP
+* Input : Pointer to LSM6DSL_ACC_GYRO_Y_TAP_t
+* Output : Status of Y_TAP see LSM6DSL_ACC_GYRO_Y_TAP_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_Y_TAP(void *handle, LSM6DSL_ACC_GYRO_Y_TAP_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_Y_TAP_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_X_TAP
+* Description : Read X_TAP
+* Input : Pointer to LSM6DSL_ACC_GYRO_X_TAP_t
+* Output : Status of X_TAP see LSM6DSL_ACC_GYRO_X_TAP_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_X_TAP(void *handle, LSM6DSL_ACC_GYRO_X_TAP_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_X_TAP_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_TAP_SIGN
+* Description : Read TAP_SIGN
+* Input : Pointer to LSM6DSL_ACC_GYRO_TAP_SIGN_t
+* Output : Status of TAP_SIGN see LSM6DSL_ACC_GYRO_TAP_SIGN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_TAP_SIGN(void *handle, LSM6DSL_ACC_GYRO_TAP_SIGN_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_TAP_SIGN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DOUBLE_TAP_EV_STATUS
+* Description : Read DOUBLE_TAP_EV_STATUS
+* Input : Pointer to LSM6DSL_ACC_GYRO_DOUBLE_TAP_EV_STATUS_t
+* Output : Status of DOUBLE_TAP_EV_STATUS see LSM6DSL_ACC_GYRO_DOUBLE_TAP_EV_STATUS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DOUBLE_TAP_EV_STATUS(void *handle, LSM6DSL_ACC_GYRO_DOUBLE_TAP_EV_STATUS_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_DOUBLE_TAP_EV_STATUS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SINGLE_TAP_EV_STATUS
+* Description : Read SINGLE_TAP_EV_STATUS
+* Input : Pointer to LSM6DSL_ACC_GYRO_SINGLE_TAP_EV_STATUS_t
+* Output : Status of SINGLE_TAP_EV_STATUS see LSM6DSL_ACC_GYRO_SINGLE_TAP_EV_STATUS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SINGLE_TAP_EV_STATUS(void *handle, LSM6DSL_ACC_GYRO_SINGLE_TAP_EV_STATUS_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_SINGLE_TAP_EV_STATUS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_TAP_EV_STATUS
+* Description : Read TAP_EV_STATUS
+* Input : Pointer to LSM6DSL_ACC_GYRO_TAP_EV_STATUS_t
+* Output : Status of TAP_EV_STATUS see LSM6DSL_ACC_GYRO_TAP_EV_STATUS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_TAP_EV_STATUS(void *handle, LSM6DSL_ACC_GYRO_TAP_EV_STATUS_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_TAP_EV_STATUS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DSD_XL
+* Description : Read DSD_XL
+* Input : Pointer to LSM6DSL_ACC_GYRO_DSD_XL_t
+* Output : Status of DSD_XL see LSM6DSL_ACC_GYRO_DSD_XL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DSD_XL(void *handle, LSM6DSL_ACC_GYRO_DSD_XL_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_D6D_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_DSD_XL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DSD_XH
+* Description : Read DSD_XH
+* Input : Pointer to LSM6DSL_ACC_GYRO_DSD_XH_t
+* Output : Status of DSD_XH see LSM6DSL_ACC_GYRO_DSD_XH_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DSD_XH(void *handle, LSM6DSL_ACC_GYRO_DSD_XH_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_D6D_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_DSD_XH_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DSD_YL
+* Description : Read DSD_YL
+* Input : Pointer to LSM6DSL_ACC_GYRO_DSD_YL_t
+* Output : Status of DSD_YL see LSM6DSL_ACC_GYRO_DSD_YL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DSD_YL(void *handle, LSM6DSL_ACC_GYRO_DSD_YL_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_D6D_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_DSD_YL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DSD_YH
+* Description : Read DSD_YH
+* Input : Pointer to LSM6DSL_ACC_GYRO_DSD_YH_t
+* Output : Status of DSD_YH see LSM6DSL_ACC_GYRO_DSD_YH_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DSD_YH(void *handle, LSM6DSL_ACC_GYRO_DSD_YH_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_D6D_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_DSD_YH_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DSD_ZL
+* Description : Read DSD_ZL
+* Input : Pointer to LSM6DSL_ACC_GYRO_DSD_ZL_t
+* Output : Status of DSD_ZL see LSM6DSL_ACC_GYRO_DSD_ZL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DSD_ZL(void *handle, LSM6DSL_ACC_GYRO_DSD_ZL_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_D6D_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_DSD_ZL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DSD_ZH
+* Description : Read DSD_ZH
+* Input : Pointer to LSM6DSL_ACC_GYRO_DSD_ZH_t
+* Output : Status of DSD_ZH see LSM6DSL_ACC_GYRO_DSD_ZH_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DSD_ZH(void *handle, LSM6DSL_ACC_GYRO_DSD_ZH_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_D6D_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_DSD_ZH_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_D6D_EV_STATUS
+* Description : Read D6D_EV_STATUS
+* Input : Pointer to LSM6DSL_ACC_GYRO_D6D_EV_STATUS_t
+* Output : Status of D6D_EV_STATUS see LSM6DSL_ACC_GYRO_D6D_EV_STATUS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_D6D_EV_STATUS(void *handle, LSM6DSL_ACC_GYRO_D6D_EV_STATUS_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_D6D_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_D6D_EV_STATUS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_XLDA
+* Description : Read XLDA
+* Input : Pointer to LSM6DSL_ACC_GYRO_XLDA_t
+* Output : Status of XLDA see LSM6DSL_ACC_GYRO_XLDA_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_XLDA(void *handle, LSM6DSL_ACC_GYRO_XLDA_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_STATUS_REG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_XLDA_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_GDA
+* Description : Read GDA
+* Input : Pointer to LSM6DSL_ACC_GYRO_GDA_t
+* Output : Status of GDA see LSM6DSL_ACC_GYRO_GDA_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_GDA(void *handle, LSM6DSL_ACC_GYRO_GDA_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_STATUS_REG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_GDA_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_TDA
+* Description : Read GDA
+* Input : Pointer to LSM6DSL_ACC_GYRO_TDA_t
+* Output : Status of GDA see LSM6DSL_ACC_GYRO_TDA_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_TDA(void *handle, LSM6DSL_ACC_GYRO_TDA_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_STATUS_REG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_TDA_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_FIFONumOfEntries
+* Description : Read DIFF_FIFO
+* Input : Pointer to u16_t
+* Output : Status of DIFF_FIFO
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_FIFONumOfEntries(void *handle, u16_t *value)
+{
+ u8_t valueH, valueL;
+
+ /* Low part from FIFO_STATUS1 */
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_STATUS1, (u8_t *)&valueL, 1) )
+ return MEMS_ERROR;
+
+ valueL &= LSM6DSL_ACC_GYRO_DIFF_FIFO_STATUS1_MASK; //coerce
+ valueL = valueL >> LSM6DSL_ACC_GYRO_DIFF_FIFO_STATUS1_POSITION; //mask
+
+ /* High part from FIFO_STATUS2 */
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_STATUS2, (u8_t *)&valueH, 1) )
+ return MEMS_ERROR;
+
+ valueH &= LSM6DSL_ACC_GYRO_DIFF_FIFO_STATUS2_MASK; //coerce
+ valueH = valueH >> LSM6DSL_ACC_GYRO_DIFF_FIFO_STATUS2_POSITION; //mask
+
+ *value = ((valueH << 8) & 0xFF00) | valueL;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_FIFOEmpty
+* Description : Read FIFO_EMPTY
+* Input : Pointer to LSM6DSL_ACC_GYRO_FIFO_EMPTY_t
+* Output : Status of FIFO_EMPTY see LSM6DSL_ACC_GYRO_FIFO_EMPTY_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_FIFOEmpty(void *handle, LSM6DSL_ACC_GYRO_FIFO_EMPTY_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_STATUS2, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_FIFO_EMPTY_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_FIFOFull
+* Description : Read FIFO_FULL
+* Input : Pointer to LSM6DSL_ACC_GYRO_FIFO_FULL_t
+* Output : Status of FIFO_FULL see LSM6DSL_ACC_GYRO_FIFO_FULL_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_FIFOFull(void *handle, LSM6DSL_ACC_GYRO_FIFO_FULL_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_STATUS2, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_FIFO_FULL_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_OVERRUN
+* Description : Read OVERRUN
+* Input : Pointer to LSM6DSL_ACC_GYRO_OVERRUN_t
+* Output : Status of OVERRUN see LSM6DSL_ACC_GYRO_OVERRUN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_OVERRUN(void *handle, LSM6DSL_ACC_GYRO_OVERRUN_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_STATUS2, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_OVERRUN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_WaterMark
+* Description : Read WTM
+* Input : Pointer to LSM6DSL_ACC_GYRO_WTM_t
+* Output : Status of WTM see LSM6DSL_ACC_GYRO_WTM_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_WaterMark(void *handle, LSM6DSL_ACC_GYRO_WTM_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_STATUS2, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_WTM_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_FIFOPattern
+* Description : Read FIFO_PATTERN
+* Input : Pointer to u16_t
+* Output : Status of FIFO_PATTERN
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_FIFOPattern(void *handle, u16_t *value)
+{
+ u8_t valueH, valueL;
+
+ /* Low part from FIFO_STATUS3 */
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_STATUS3, (u8_t *)&valueL, 1) )
+ return MEMS_ERROR;
+
+ valueL &= LSM6DSL_ACC_GYRO_FIFO_STATUS3_PATTERN_MASK; //coerce
+ valueL = valueL >> LSM6DSL_ACC_GYRO_FIFO_STATUS3_PATTERN_POSITION; //mask
+
+ /* High part from FIFO_STATUS4 */
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_STATUS4, (u8_t *)&valueH, 1) )
+ return MEMS_ERROR;
+
+ valueH &= LSM6DSL_ACC_GYRO_FIFO_STATUS4_PATTERN_MASK; //coerce
+ valueH = valueH >> LSM6DSL_ACC_GYRO_FIFO_STATUS4_PATTERN_POSITION; //mask
+
+ *value = ((valueH << 8) & 0xFF00) | valueL;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SENS_HUB_END
+* Description : Read SENS_HUB_END
+* Input : Pointer to LSM6DSL_ACC_GYRO_SENS_HUB_END_t
+* Output : Status of SENS_HUB_END see LSM6DSL_ACC_GYRO_SENS_HUB_END_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SENS_HUB_END(void *handle, LSM6DSL_ACC_GYRO_SENS_HUB_END_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FUNC_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_SENS_HUB_END_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SOFT_IRON_END
+* Description : Read SOFT_IRON_END
+* Input : Pointer to LSM6DSL_ACC_GYRO_SOFT_IRON_END_t
+* Output : Status of SOFT_IRON_END see LSM6DSL_ACC_GYRO_SOFT_IRON_END_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SOFT_IRON_END(void *handle, LSM6DSL_ACC_GYRO_SOFT_IRON_END_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FUNC_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_SOFT_IRON_END_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_HardIron
+* Description : Read HI_FAIL
+* Input : Pointer to LSM6DSL_ACC_GYRO_SOFT_HARD_IRON_STAT_t
+* Output : Status of HI_FAIL see LSM6DSL_ACC_GYRO_SOFT_HARD_IRON_STAT_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_HardIron(void *handle, LSM6DSL_ACC_GYRO_SOFT_HARD_IRON_STAT_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FUNC_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_HARD_IRON_STAT_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_STEP_OVERFLOW
+* Description : Read STEP_OVERFLOW
+* Input : Pointer to LSM6DSL_ACC_GYRO_STEP_OVERFLOW_t
+* Output : Status of STEP_OVERFLOW see LSM6DSL_ACC_GYRO_STEP_OVERFLOW_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_STEP_OVERFLOW(void *handle, LSM6DSL_ACC_GYRO_STEP_OVERFLOW_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FUNC_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_STEP_OVERFLOW_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_STEP_COUNT_DELTA
+* Description : Read STEP_COUNT_DELTA_IA
+* Input : Pointer to LSM6DSL_ACC_GYRO_STEP_COUNT_DELTA_t
+* Output : Status of STEP_COUNT_DELTA_IA see LSM6DSL_ACC_GYRO_STEP_COUNT_DELTA_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_STEP_COUNT_DELTA(void *handle, LSM6DSL_ACC_GYRO_STEP_COUNT_DELTA_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FUNC_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_STEP_COUNT_DELTA_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_PEDO_EV_STATUS
+* Description : Read PEDO_EV_STATUS
+* Input : Pointer to LSM6DSL_ACC_GYRO_PEDO_EV_STATUS_t
+* Output : Status of PEDO_EV_STATUS see LSM6DSL_ACC_GYRO_PEDO_EV_STATUS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_PEDO_EV_STATUS(void *handle, LSM6DSL_ACC_GYRO_PEDO_EV_STATUS_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FUNC_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_PEDO_EV_STATUS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_TILT_EV_STATUS
+* Description : Read TILT_EV_STATUS
+* Input : Pointer to LSM6DSL_ACC_GYRO_TILT_EV_STATUS_t
+* Output : Status of TILT_EV_STATUS see LSM6DSL_ACC_GYRO_TILT_EV_STATUS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_TILT_EV_STATUS(void *handle, LSM6DSL_ACC_GYRO_TILT_EV_STATUS_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FUNC_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_TILT_EV_STATUS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SIGN_MOT_EV_STATUS
+* Description : Read SIGN_MOT_EV_STATUS
+* Input : Pointer to LSM6DSL_ACC_GYRO_SIGN_MOT_EV_STATUS_t
+* Output : Status of SIGN_MOT_EV_STATUS see LSM6DSL_ACC_GYRO_SIGN_MOT_EV_STATUS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SIGN_MOT_EV_STATUS(void *handle, LSM6DSL_ACC_GYRO_SIGN_MOT_EV_STATUS_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FUNC_SRC, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_SIGN_MOT_EV_STATUS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_LIR
+* Description : Write LIR
+* Input : LSM6DSL_ACC_GYRO_LIR_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_LIR(void *handle, LSM6DSL_ACC_GYRO_LIR_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_CFG1, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_LIR_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_TAP_CFG1, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_LIR
+* Description : Read LIR
+* Input : Pointer to LSM6DSL_ACC_GYRO_LIR_t
+* Output : Status of LIR see LSM6DSL_ACC_GYRO_LIR_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_LIR(void *handle, LSM6DSL_ACC_GYRO_LIR_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_CFG1, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_LIR_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_TAP_Z_EN
+* Description : Write TAP_Z_EN
+* Input : LSM6DSL_ACC_GYRO_TAP_Z_EN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_TAP_Z_EN(void *handle, LSM6DSL_ACC_GYRO_TAP_Z_EN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_CFG1, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_TAP_Z_EN_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_TAP_CFG1, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_TAP_Z_EN
+* Description : Read TAP_Z_EN
+* Input : Pointer to LSM6DSL_ACC_GYRO_TAP_Z_EN_t
+* Output : Status of TAP_Z_EN see LSM6DSL_ACC_GYRO_TAP_Z_EN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_TAP_Z_EN(void *handle, LSM6DSL_ACC_GYRO_TAP_Z_EN_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_CFG1, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_TAP_Z_EN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_TAP_Y_EN
+* Description : Write TAP_Y_EN
+* Input : LSM6DSL_ACC_GYRO_TAP_Y_EN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_TAP_Y_EN(void *handle, LSM6DSL_ACC_GYRO_TAP_Y_EN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_CFG1, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_TAP_Y_EN_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_TAP_CFG1, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_TAP_Y_EN
+* Description : Read TAP_Y_EN
+* Input : Pointer to LSM6DSL_ACC_GYRO_TAP_Y_EN_t
+* Output : Status of TAP_Y_EN see LSM6DSL_ACC_GYRO_TAP_Y_EN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_TAP_Y_EN(void *handle, LSM6DSL_ACC_GYRO_TAP_Y_EN_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_CFG1, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_TAP_Y_EN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_TAP_X_EN
+* Description : Write TAP_X_EN
+* Input : LSM6DSL_ACC_GYRO_TAP_X_EN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_TAP_X_EN(void *handle, LSM6DSL_ACC_GYRO_TAP_X_EN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_CFG1, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_TAP_X_EN_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_TAP_CFG1, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_TAP_X_EN
+* Description : Read TAP_X_EN
+* Input : Pointer to LSM6DSL_ACC_GYRO_TAP_X_EN_t
+* Output : Status of TAP_X_EN see LSM6DSL_ACC_GYRO_TAP_X_EN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_TAP_X_EN(void *handle, LSM6DSL_ACC_GYRO_TAP_X_EN_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_CFG1, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_TAP_X_EN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_SLOPE_FDS
+* Description : Write SLOPE_FDS
+* Input : LSM6DSL_ACC_GYRO_SLOPE_FDS_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_SLOPE_FDS(void *handle, LSM6DSL_ACC_GYRO_SLOPE_FDS_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_CFG1, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_SLOPE_FDS_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_TAP_CFG1, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SLOPE_FDS
+* Description : Read SLOPE_FDS
+* Input : Pointer to LSM6DSL_ACC_GYRO_SLOPE_FDS_t
+* Output : Status of SLOPE_FDS see LSM6DSL_ACC_GYRO_SLOPE_FDS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SLOPE_FDS(void *handle, LSM6DSL_ACC_GYRO_SLOPE_FDS_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_CFG1, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_SLOPE_FDS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_BASIC_INT
+* Description : Write INTERRUPTS_ENABLE
+* Input : LSM6DSL_ACC_GYRO_INT_EN_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_BASIC_INT(void *handle, LSM6DSL_ACC_GYRO_INT_EN_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_CFG1, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT_EN_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_TAP_CFG1, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_BASIC_INT
+* Description : Read INTERRUPTS_ENABLE
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT_EN_t
+* Output : Status of INTERRUPTS_ENABLE see LSM6DSL_ACC_GYRO_INT_EN_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_BASIC_INT(void *handle, LSM6DSL_ACC_GYRO_INT_EN_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_CFG1, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT_EN_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_TAP_THS
+* Description : Write TAP_THS
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_TAP_THS(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM6DSL_ACC_GYRO_TAP_THS_POSITION; //mask
+ newValue &= LSM6DSL_ACC_GYRO_TAP_THS_MASK; //coerce
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_THS_6D, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_TAP_THS_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_TAP_THS_6D, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_TAP_THS
+* Description : Read TAP_THS
+* Input : Pointer to u8_t
+* Output : Status of TAP_THS
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_TAP_THS(void *handle, u8_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_THS_6D, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_TAP_THS_MASK; //coerce
+ *value = *value >> LSM6DSL_ACC_GYRO_TAP_THS_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_SIXD_THS
+* Description : Write SIXD_THS
+* Input : LSM6DSL_ACC_GYRO_SIXD_THS_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_SIXD_THS(void *handle, LSM6DSL_ACC_GYRO_SIXD_THS_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_THS_6D, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_SIXD_THS_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_TAP_THS_6D, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SIXD_THS
+* Description : Read SIXD_THS
+* Input : Pointer to LSM6DSL_ACC_GYRO_SIXD_THS_t
+* Output : Status of SIXD_THS see LSM6DSL_ACC_GYRO_SIXD_THS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SIXD_THS(void *handle, LSM6DSL_ACC_GYRO_SIXD_THS_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_THS_6D, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_SIXD_THS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_D4D
+* Description : Write D4D_EN
+* Input : LSM6DSL_ACC_GYRO_D4D_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_D4D(void *handle, LSM6DSL_ACC_GYRO_D4D_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_THS_6D, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_D4D_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_TAP_THS_6D, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_D4D
+* Description : Read D4D_EN
+* Input : Pointer to LSM6DSL_ACC_GYRO_D4D_t
+* Output : Status of D4D_EN see LSM6DSL_ACC_GYRO_D4D_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_D4D(void *handle, LSM6DSL_ACC_GYRO_D4D_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TAP_THS_6D, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_D4D_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_SHOCK_Duration
+* Description : Write SHOCK
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_SHOCK_Duration(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM6DSL_ACC_GYRO_SHOCK_POSITION; //mask
+ newValue &= LSM6DSL_ACC_GYRO_SHOCK_MASK; //coerce
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT_DUR2, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_SHOCK_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_INT_DUR2, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SHOCK_Duration
+* Description : Read SHOCK
+* Input : Pointer to u8_t
+* Output : Status of SHOCK
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SHOCK_Duration(void *handle, u8_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT_DUR2, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_SHOCK_MASK; //coerce
+ *value = *value >> LSM6DSL_ACC_GYRO_SHOCK_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_QUIET_Duration
+* Description : Write QUIET
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_QUIET_Duration(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM6DSL_ACC_GYRO_QUIET_POSITION; //mask
+ newValue &= LSM6DSL_ACC_GYRO_QUIET_MASK; //coerce
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT_DUR2, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_QUIET_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_INT_DUR2, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_QUIET_Duration
+* Description : Read QUIET
+* Input : Pointer to u8_t
+* Output : Status of QUIET
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_QUIET_Duration(void *handle, u8_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT_DUR2, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_QUIET_MASK; //coerce
+ *value = *value >> LSM6DSL_ACC_GYRO_QUIET_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_DUR
+* Description : Write DUR
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_DUR(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM6DSL_ACC_GYRO_DUR_POSITION; //mask
+ newValue &= LSM6DSL_ACC_GYRO_DUR_MASK; //coerce
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT_DUR2, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_DUR_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_INT_DUR2, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_DUR
+* Description : Read DUR
+* Input : Pointer to u8_t
+* Output : Status of DUR
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_DUR(void *handle, u8_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_INT_DUR2, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_DUR_MASK; //coerce
+ *value = *value >> LSM6DSL_ACC_GYRO_DUR_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_WK_THS
+* Description : Write WK_THS
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_WK_THS(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM6DSL_ACC_GYRO_WK_THS_POSITION; //mask
+ newValue &= LSM6DSL_ACC_GYRO_WK_THS_MASK; //coerce
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_THS, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_WK_THS_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_THS, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_WK_THS
+* Description : Read WK_THS
+* Input : Pointer to u8_t
+* Output : Status of WK_THS
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_WK_THS(void *handle, u8_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_THS, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_WK_THS_MASK; //coerce
+ *value = *value >> LSM6DSL_ACC_GYRO_WK_THS_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_SINGLE_DOUBLE_TAP_EV
+* Description : Write SINGLE_DOUBLE_TAP
+* Input : LSM6DSL_ACC_GYRO_SINGLE_DOUBLE_TAP_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_SINGLE_DOUBLE_TAP_EV(void *handle, LSM6DSL_ACC_GYRO_SINGLE_DOUBLE_TAP_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_THS, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_SINGLE_DOUBLE_TAP_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_THS, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SINGLE_DOUBLE_TAP_EV
+* Description : Read SINGLE_DOUBLE_TAP
+* Input : Pointer to LSM6DSL_ACC_GYRO_SINGLE_DOUBLE_TAP_t
+* Output : Status of SINGLE_DOUBLE_TAP see LSM6DSL_ACC_GYRO_SINGLE_DOUBLE_TAP_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SINGLE_DOUBLE_TAP_EV(void *handle, LSM6DSL_ACC_GYRO_SINGLE_DOUBLE_TAP_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_THS, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_SINGLE_DOUBLE_TAP_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_SLEEP_DUR
+* Description : Write SLEEP_DUR
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_SLEEP_DUR(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM6DSL_ACC_GYRO_SLEEP_DUR_POSITION; //mask
+ newValue &= LSM6DSL_ACC_GYRO_SLEEP_DUR_MASK; //coerce
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_DUR, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_SLEEP_DUR_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_DUR, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SLEEP_DUR
+* Description : Read SLEEP_DUR
+* Input : Pointer to u8_t
+* Output : Status of SLEEP_DUR
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SLEEP_DUR(void *handle, u8_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_DUR, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_SLEEP_DUR_MASK; //coerce
+ *value = *value >> LSM6DSL_ACC_GYRO_SLEEP_DUR_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_TIMER_HR
+* Description : Write TIMER_HR
+* Input : LSM6DSL_ACC_GYRO_TIMER_HR_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_TIMER_HR(void *handle, LSM6DSL_ACC_GYRO_TIMER_HR_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_DUR, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_TIMER_HR_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_DUR, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_TIMER_HR
+* Description : Read TIMER_HR
+* Input : Pointer to LSM6DSL_ACC_GYRO_TIMER_HR_t
+* Output : Status of TIMER_HR see LSM6DSL_ACC_GYRO_TIMER_HR_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_TIMER_HR(void *handle, LSM6DSL_ACC_GYRO_TIMER_HR_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_DUR, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_TIMER_HR_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_WAKE_DUR
+* Description : Write WAKE_DUR
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_WAKE_DUR(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ newValue = newValue << LSM6DSL_ACC_GYRO_WAKE_DUR_POSITION; //mask
+ newValue &= LSM6DSL_ACC_GYRO_WAKE_DUR_MASK; //coerce
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_DUR, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_WAKE_DUR_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_DUR, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_WAKE_DUR
+* Description : Read WAKE_DUR
+* Input : Pointer to u8_t
+* Output : Status of WAKE_DUR
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_WAKE_DUR(void *handle, u8_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_DUR, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_WAKE_DUR_MASK; //coerce
+ *value = *value >> LSM6DSL_ACC_GYRO_WAKE_DUR_POSITION; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_FF_THS
+* Description : Write FF_THS
+* Input : LSM6DSL_ACC_GYRO_FF_THS_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_FF_THS(void *handle, LSM6DSL_ACC_GYRO_FF_THS_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FREE_FALL, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_FF_THS_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_FREE_FALL, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_FF_THS
+* Description : Read FF_THS
+* Input : Pointer to LSM6DSL_ACC_GYRO_FF_THS_t
+* Output : Status of FF_THS see LSM6DSL_ACC_GYRO_FF_THS_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_FF_THS(void *handle, LSM6DSL_ACC_GYRO_FF_THS_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FREE_FALL, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_FF_THS_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_FF_Duration
+* Description : Write FF_DUR
+* Input : u8_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_FF_Duration(void *handle, u8_t newValue)
+{
+ u8_t valueH, valueL;
+ u8_t value;
+
+ valueL = newValue & 0x1F;
+ valueH = (newValue >> 5) & 0x1;
+
+ /* Low part in FREE_FALL reg */
+ valueL = valueL << LSM6DSL_ACC_GYRO_FF_FREE_FALL_DUR_POSITION; //mask
+ valueL &= LSM6DSL_ACC_GYRO_FF_FREE_FALL_DUR_MASK; //coerce
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FREE_FALL, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_FF_FREE_FALL_DUR_MASK;
+ value |= valueL;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_FREE_FALL, &value, 1) )
+ return MEMS_ERROR;
+
+ /* High part in WAKE_UP_DUR reg */
+ valueH = valueH << LSM6DSL_ACC_GYRO_FF_WAKE_UP_DUR_POSITION; //mask
+ valueH &= LSM6DSL_ACC_GYRO_FF_WAKE_UP_DUR_MASK; //coerce
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_DUR, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_FF_WAKE_UP_DUR_MASK;
+ value |= valueH;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_DUR, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_FF_Duration
+* Description : Read FF_DUR
+* Input : Pointer to u8_t
+* Output : Status of FF_DUR
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_FF_Duration(void *handle, u8_t *value)
+{
+ u8_t valueH, valueL;
+
+ /* Low part from FREE_FALL reg */
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FREE_FALL, (u8_t *)&valueL, 1) )
+ return MEMS_ERROR;
+
+ valueL &= LSM6DSL_ACC_GYRO_FF_FREE_FALL_DUR_MASK; //coerce
+ valueL = valueL >> LSM6DSL_ACC_GYRO_FF_FREE_FALL_DUR_POSITION; //mask
+
+ /* High part from WAKE_UP_DUR reg */
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_WAKE_UP_DUR, (u8_t *)&valueH, 1) )
+ return MEMS_ERROR;
+
+ valueH &= LSM6DSL_ACC_GYRO_FF_WAKE_UP_DUR_MASK; //coerce
+ valueH = valueH >> LSM6DSL_ACC_GYRO_FF_WAKE_UP_DUR_POSITION; //mask
+
+ *value = ((valueH << 5) & 0x20) | valueL;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_TimerEvRouteInt1
+* Description : Write INT1_TIMER
+* Input : LSM6DSL_ACC_GYRO_INT1_TIMER_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_TimerEvRouteInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_TIMER_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT1_TIMER_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_TimerEvRouteInt1
+* Description : Read INT1_TIMER
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT1_TIMER_t
+* Output : Status of INT1_TIMER see LSM6DSL_ACC_GYRO_INT1_TIMER_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_TimerEvRouteInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_TIMER_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT1_TIMER_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_TiltEvOnInt1
+* Description : Write INT1_TILT
+* Input : LSM6DSL_ACC_GYRO_INT1_TILT_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_TiltEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_TILT_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT1_TILT_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_TiltEvOnInt1
+* Description : Read INT1_TILT
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT1_TILT_t
+* Output : Status of INT1_TILT see LSM6DSL_ACC_GYRO_INT1_TILT_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_TiltEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_TILT_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT1_TILT_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_6DEvOnInt1
+* Description : Write INT1_6D
+* Input : LSM6DSL_ACC_GYRO_INT1_6D_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_6DEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_6D_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT1_6D_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_6DEvOnInt1
+* Description : Read INT1_6D
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT1_6D_t
+* Output : Status of INT1_6D see LSM6DSL_ACC_GYRO_INT1_6D_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_6DEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_6D_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT1_6D_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_TapEvOnInt1
+* Description : Write INT1_TAP
+* Input : LSM6DSL_ACC_GYRO_INT1_TAP_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_TapEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_TAP_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT1_TAP_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_TapEvOnInt1
+* Description : Read INT1_TAP
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT1_TAP_t
+* Output : Status of INT1_TAP see LSM6DSL_ACC_GYRO_INT1_TAP_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_TapEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_TAP_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT1_TAP_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_FFEvOnInt1
+* Description : Write INT1_FF
+* Input : LSM6DSL_ACC_GYRO_INT1_FF_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_FFEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_FF_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT1_FF_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_FFEvOnInt1
+* Description : Read INT1_FF
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT1_FF_t
+* Output : Status of INT1_FF see LSM6DSL_ACC_GYRO_INT1_FF_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_FFEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_FF_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT1_FF_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_WUEvOnInt1
+* Description : Write INT1_WU
+* Input : LSM6DSL_ACC_GYRO_INT1_WU_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_WUEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_WU_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT1_WU_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_WUEvOnInt1
+* Description : Read INT1_WU
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT1_WU_t
+* Output : Status of INT1_WU see LSM6DSL_ACC_GYRO_INT1_WU_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_WUEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_WU_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT1_WU_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_SingleTapOnInt1
+* Description : Write INT1_SINGLE_TAP
+* Input : LSM6DSL_ACC_GYRO_INT1_SINGLE_TAP_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_SingleTapOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_SINGLE_TAP_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT1_SINGLE_TAP_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SingleTapOnInt1
+* Description : Read INT1_SINGLE_TAP
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT1_SINGLE_TAP_t
+* Output : Status of INT1_SINGLE_TAP see LSM6DSL_ACC_GYRO_INT1_SINGLE_TAP_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SingleTapOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_SINGLE_TAP_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT1_SINGLE_TAP_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_SleepEvOnInt1
+* Description : Write INT1_SLEEP
+* Input : LSM6DSL_ACC_GYRO_INT1_SLEEP_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_SleepEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_SLEEP_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT1_SLEEP_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SleepEvOnInt1
+* Description : Read INT1_SLEEP
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT1_SLEEP_t
+* Output : Status of INT1_SLEEP see LSM6DSL_ACC_GYRO_INT1_SLEEP_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SleepEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_SLEEP_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD1_CFG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT1_SLEEP_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_MagCorrection_Int2
+* Description : Write INT2_IRON
+* Input : LSM6DSL_ACC_GYRO_INT2_IRON_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_MagCorrection_Int2(void *handle, LSM6DSL_ACC_GYRO_INT2_IRON_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT2_IRON_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_MagCorrection_Int2
+* Description : Read INT2_IRON
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT2_IRON_t
+* Output : Status of INT2_IRON see LSM6DSL_ACC_GYRO_INT2_IRON_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_MagCorrection_Int2(void *handle, LSM6DSL_ACC_GYRO_INT2_IRON_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT2_IRON_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_TiltEvOnInt2
+* Description : Write INT2_TILT
+* Input : LSM6DSL_ACC_GYRO_INT2_TILT_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_TiltEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_TILT_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT2_TILT_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_TiltEvOnInt2
+* Description : Read INT2_TILT
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT2_TILT_t
+* Output : Status of INT2_TILT see LSM6DSL_ACC_GYRO_INT2_TILT_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_TiltEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_TILT_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT2_TILT_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_6DEvOnInt2
+* Description : Write INT2_6D
+* Input : LSM6DSL_ACC_GYRO_INT2_6D_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_6DEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_6D_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT2_6D_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_6DEvOnInt2
+* Description : Read INT2_6D
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT2_6D_t
+* Output : Status of INT2_6D see LSM6DSL_ACC_GYRO_INT2_6D_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_6DEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_6D_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT2_6D_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_TapEvOnInt2
+* Description : Write INT2_TAP
+* Input : LSM6DSL_ACC_GYRO_INT2_TAP_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_TapEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_TAP_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT2_TAP_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_TapEvOnInt2
+* Description : Read INT2_TAP
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT2_TAP_t
+* Output : Status of INT2_TAP see LSM6DSL_ACC_GYRO_INT2_TAP_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_TapEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_TAP_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT2_TAP_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_FFEvOnInt2
+* Description : Write INT2_FF
+* Input : LSM6DSL_ACC_GYRO_INT2_FF_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_FFEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_FF_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT2_FF_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_FFEvOnInt2
+* Description : Read INT2_FF
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT2_FF_t
+* Output : Status of INT2_FF see LSM6DSL_ACC_GYRO_INT2_FF_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_FFEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_FF_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT2_FF_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_WUEvOnInt2
+* Description : Write INT2_WU
+* Input : LSM6DSL_ACC_GYRO_INT2_WU_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_WUEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_WU_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT2_WU_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_WUEvOnInt2
+* Description : Read INT2_WU
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT2_WU_t
+* Output : Status of INT2_WU see LSM6DSL_ACC_GYRO_INT2_WU_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_WUEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_WU_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT2_WU_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_SingleTapOnInt2
+* Description : Write INT2_SINGLE_TAP
+* Input : LSM6DSL_ACC_GYRO_INT2_SINGLE_TAP_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_SingleTapOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_SINGLE_TAP_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT2_SINGLE_TAP_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SingleTapOnInt2
+* Description : Read INT2_SINGLE_TAP
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT2_SINGLE_TAP_t
+* Output : Status of INT2_SINGLE_TAP see LSM6DSL_ACC_GYRO_INT2_SINGLE_TAP_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SingleTapOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_SINGLE_TAP_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT2_SINGLE_TAP_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_SleepEvOnInt2
+* Description : Write INT2_SLEEP
+* Input : LSM6DSL_ACC_GYRO_INT2_SLEEP_t
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_SleepEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_SLEEP_t newValue)
+{
+ u8_t value;
+
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ value &= ~LSM6DSL_ACC_GYRO_INT2_SLEEP_MASK;
+ value |= newValue;
+
+ if( !LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, &value, 1) )
+ return MEMS_ERROR;
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_R_SleepEvOnInt2
+* Description : Read INT2_SLEEP
+* Input : Pointer to LSM6DSL_ACC_GYRO_INT2_SLEEP_t
+* Output : Status of INT2_SLEEP see LSM6DSL_ACC_GYRO_INT2_SLEEP_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_R_SleepEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_SLEEP_t *value)
+{
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_MD2_CFG, (u8_t *)value, 1) )
+ return MEMS_ERROR;
+
+ *value &= LSM6DSL_ACC_GYRO_INT2_SLEEP_MASK; //mask
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : mems_status_t LSM6DSL_ACC_GYRO_Get_GetFIFOData(u8_t *buff)
+* Description : Read GetFIFOData output register
+* Input : pointer to [u8_t]
+* Output : GetFIFOData buffer u8_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_Get_GetFIFOData(void *handle, u8_t *buff)
+{
+ u8_t i, j, k;
+ u8_t numberOfByteForDimension;
+
+ numberOfByteForDimension=2/1;
+
+ k=0;
+ for (i=0; i<1;i++ )
+ {
+ for (j=0; j<numberOfByteForDimension;j++ )
+ {
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_FIFO_DATA_OUT_L+k, &buff[k], 1))
+ return MEMS_ERROR;
+ k++;
+ }
+ }
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : mems_status_t LSM6DSL_ACC_GYRO_Get_GetTimestamp(u8_t *buff)
+* Description : Read GetTimestamp output register
+* Input : pointer to [u8_t]
+* Output : GetTimestamp buffer u8_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_Get_GetTimestamp(void *handle, u8_t *buff)
+{
+ u8_t i, j, k;
+ u8_t numberOfByteForDimension;
+
+ numberOfByteForDimension=3/1;
+
+ k=0;
+ for (i=0; i<1;i++ )
+ {
+ for (j=0; j<numberOfByteForDimension;j++ )
+ {
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_TIMESTAMP0_REG+k, &buff[k], 1))
+ return MEMS_ERROR;
+ k++;
+ }
+ }
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : mems_status_t LSM6DSL_ACC_GYRO_Get_GetStepCounter(u8_t *buff)
+* Description : Read GetStepCounter output register
+* Input : pointer to [u8_t]
+* Output : GetStepCounter buffer u8_t
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_Get_GetStepCounter(void *handle, u8_t *buff)
+{
+ u8_t i, j, k;
+ u8_t numberOfByteForDimension;
+
+ numberOfByteForDimension=2/1;
+
+ k=0;
+ for (i=0; i<1;i++ )
+ {
+ for (j=0; j<numberOfByteForDimension;j++ )
+ {
+ if( !LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_STEP_COUNTER_L+k, &buff[k], 1))
+ return MEMS_ERROR;
+ k++;
+ }
+ }
+
+ return MEMS_SUCCESS;
+}
+
+/*******************************************************************************
+* Function Name : LSM6DSL_ACC_GYRO_W_PedoThreshold(void *handle, u8_t newValue)
+* Description : Set accelerometer threshold for pedometer
+* Input : pointer to [u8_t]
+* Output : None
+* Return : Status [MEMS_ERROR, MEMS_SUCCESS]
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_PedoThreshold(void *handle, u8_t newValue)
+{
+ u8_t value;
+
+ /* Open Embedded Function Register page*/
+ LSM6DSL_ACC_GYRO_W_EmbeddedAccess(handle, LSM6DSL_ACC_GYRO_EMBEDDED_ACCESS_ENABLED);
+
+ /* read current value */
+ LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_CONFIG_PEDO_THS_MIN, &value, 1);
+
+ value &= ~0x1F;
+ value |= (newValue & 0x1F);
+
+ /* write new value */
+ LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_CONFIG_PEDO_THS_MIN, &value, 1);
+
+ /* Close Embedded Function Register page*/
+ LSM6DSL_ACC_GYRO_W_EmbeddedAccess(handle, LSM6DSL_ACC_GYRO_EMBEDDED_ACCESS_DISABLED);
+
+ return MEMS_SUCCESS;
+}
+
+/************** Use Sensor Hub *******************/
+/*
+ * Program the nine Soft Iron Matrix coefficients.
+ * The SI_Matrix buffer must provide coefficients
+ * in xx, xy, xz, yx, yy, yz, zx, zy, zz order.
+ */
+mems_status_t LSM6DSL_ACC_GYRO_SH_init_SI_Matrix(void *handle, u8_t *SI_matrix)
+{
+ /* Open Embedded Function Register page*/
+ LSM6DSL_ACC_GYRO_W_EmbeddedAccess(handle, LSM6DSL_ACC_GYRO_EMBEDDED_ACCESS_ENABLED);
+
+ /* Write the Soft Iron Matrix coefficients */
+ LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_MAG_SI_XX, SI_matrix, 9);
+
+ /* Close Embedded Function Register page*/
+ LSM6DSL_ACC_GYRO_W_EmbeddedAccess(handle, LSM6DSL_ACC_GYRO_EMBEDDED_ACCESS_DISABLED);
+
+ return MEMS_SUCCESS;
+}
+
+/* Read a remote device through I2C Sensor Hub Slave 0 */
+mems_status_t LSM6DSL_ACC_GYRO_SH0_Program(void *handle, u8_t SlvAddr, u8_t Reg, u8_t len)
+{
+ /* Open Embedded Function Register page*/
+ LSM6DSL_ACC_GYRO_W_EmbeddedAccess(handle, LSM6DSL_ACC_GYRO_EMBEDDED_ACCESS_ENABLED);
+
+ /* Write remote device I2C slave address */
+ SlvAddr |= 0x1; /* Raise the read op bit */
+ LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_SLV0_ADD, &SlvAddr, 1);
+
+ /* Write remote device I2C subaddress */
+ LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_SLV0_SUBADD, &Reg, 1);
+
+ /* Write number of bytes to read [SLAVE0_CONFIG - 04h ]*/
+ u8_t sl0_cfg = 0;
+ sl0_cfg |= 0x00; //00 bit [7-6] : no decimation
+ sl0_cfg |= 0x00; //00 bit [5-4] : one sensor
+ sl0_cfg |= 0x00; // 0 bit [3] : source mode read disabled
+ sl0_cfg |= len & 0x07; // bit [2-0] : number of bytes
+
+ LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_SLAVE0_CONFIG, &sl0_cfg, 1);
+
+ /* Close Embedded Function Register page*/
+ LSM6DSL_ACC_GYRO_W_EmbeddedAccess(handle, LSM6DSL_ACC_GYRO_EMBEDDED_ACCESS_DISABLED);
+
+ /* Enable FUNC */
+ LSM6DSL_ACC_GYRO_W_FUNC_EN(handle, LSM6DSL_ACC_GYRO_FUNC_EN_ENABLED);
+
+ /* MASTER_EN */
+ LSM6DSL_ACC_GYRO_W_I2C_MASTER_Enable(handle, LSM6DSL_ACC_GYRO_MASTER_ON_ENABLED);
+
+ return MEMS_SUCCESS;
+}
+
+/* Read a remote device through I2C Sensor Hub Slave 0 */
+mems_status_t LSM6DSL_ACC_GYRO_SH0_ReadMem(void *handle, u8_t SlvAddr, u8_t Reg, u8_t *Bufp, u8_t len, u8_t stop)
+{
+ LSM6DSL_ACC_GYRO_SENS_HUB_END_t op_cmpl = LSM6DSL_ACC_GYRO_SENS_HUB_END_STILL_ONGOING;
+ LSM6DSL_ACC_GYRO_XLDA_t op_update = LSM6DSL_ACC_GYRO_XLDA_NO_DATA_AVAIL;
+ u8_t dummy[6];
+
+ LSM6DSL_ACC_GYRO_W_ODR_XL(handle, LSM6DSL_ACC_GYRO_ODR_XL_POWER_DOWN);
+
+ LSM6DSL_ACC_GYRO_SH0_Program(handle, SlvAddr, Reg, len);
+
+ /* Syncronize the SH with internal trigger (xl) */
+ LSM6DSL_ACC_GYRO_W_ODR_XL(handle, LSM6DSL_ACC_GYRO_ODR_XL_104Hz);
+
+ /* Wait until operation is not completed */
+ LSM6DSL_ACC_GYRO_GetRawAccData(handle, dummy);
+ do {
+ LSM6DSL_ACC_GYRO_R_XLDA(handle, &op_update);
+ } while(op_update != LSM6DSL_ACC_GYRO_XLDA_DATA_AVAIL);
+ do {
+ LSM6DSL_ACC_GYRO_R_SENS_HUB_END(handle, &op_cmpl);
+ } while(op_cmpl != LSM6DSL_ACC_GYRO_SENS_HUB_END_OP_COMPLETED);
+
+
+ /* Read the result */
+ LSM6DSL_ACC_GYRO_read_reg(handle, LSM6DSL_ACC_GYRO_SENSORHUB1_REG, Bufp, len);
+
+ LSM6DSL_ACC_GYRO_W_ODR_XL(handle, LSM6DSL_ACC_GYRO_ODR_XL_POWER_DOWN);
+
+ if (stop) {
+ /* Stop everything */
+ LSM6DSL_ACC_GYRO_W_FUNC_EN(handle, LSM6DSL_ACC_GYRO_FUNC_EN_DISABLED);
+ LSM6DSL_ACC_GYRO_W_I2C_MASTER_Enable(handle, LSM6DSL_ACC_GYRO_MASTER_ON_DISABLED);
+ }
+
+ return MEMS_SUCCESS;
+}
+
+/* Write a remote device through I2C Sensor Hub Slave 0 */
+mems_status_t LSM6DSL_ACC_GYRO_SH0_WriteByte(void *handle, u8_t SlvAddr, u8_t Reg, u8_t Bufp)
+{
+ LSM6DSL_ACC_GYRO_SENS_HUB_END_t op_cmpl = LSM6DSL_ACC_GYRO_SENS_HUB_END_STILL_ONGOING;
+ LSM6DSL_ACC_GYRO_XLDA_t op_update = LSM6DSL_ACC_GYRO_XLDA_NO_DATA_AVAIL;
+ u8_t dummy[6];
+
+ /* Open Embedded Function Register page*/
+ LSM6DSL_ACC_GYRO_W_EmbeddedAccess(handle, LSM6DSL_ACC_GYRO_EMBEDDED_ACCESS_ENABLED);
+
+ /* Write remote device I2C slave address */
+ LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_SLV0_ADD, &SlvAddr, 1);
+
+ /* Write remote device I2C subaddress */
+ LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_SLV0_SUBADD, &Reg, 1);
+
+ /* Write the data */
+ LSM6DSL_ACC_GYRO_write_reg(handle, LSM6DSL_ACC_GYRO_DATAWRITE_SRC_MODE_SUB_SLV0, &Bufp, 1);
+
+ /* Close Embedded Function Register page*/
+ LSM6DSL_ACC_GYRO_W_EmbeddedAccess(handle, LSM6DSL_ACC_GYRO_EMBEDDED_ACCESS_DISABLED);
+
+ /* Enable FUNC */
+ LSM6DSL_ACC_GYRO_W_FUNC_EN(handle, LSM6DSL_ACC_GYRO_FUNC_EN_ENABLED);
+
+ /* Enable PULL_UP_EN and MASTER_EN */
+ //LSM6DSL_ACC_GYRO_W_PULL_UP_EN(handle, LSM6DSL_ACC_GYRO_PULL_UP_EN_ENABLED);
+ LSM6DSL_ACC_GYRO_W_I2C_MASTER_Enable(handle, LSM6DSL_ACC_GYRO_MASTER_ON_ENABLED);
+
+ /* Syncronize the SH with internal trigger (xl) */
+ LSM6DSL_ACC_GYRO_W_ODR_XL(handle, LSM6DSL_ACC_GYRO_ODR_XL_104Hz);
+
+ /* Wait until operation is not completed */
+ LSM6DSL_ACC_GYRO_GetRawAccData(handle, dummy);
+ do {
+ LSM6DSL_ACC_GYRO_R_XLDA(handle, &op_update);
+ } while(op_update != LSM6DSL_ACC_GYRO_XLDA_DATA_AVAIL);
+ do {
+ LSM6DSL_ACC_GYRO_R_SENS_HUB_END(handle, &op_cmpl);
+ } while(op_cmpl != LSM6DSL_ACC_GYRO_SENS_HUB_END_OP_COMPLETED);
+
+ LSM6DSL_ACC_GYRO_W_ODR_XL(handle, LSM6DSL_ACC_GYRO_ODR_XL_POWER_DOWN);
+
+ /* Stop everything */
+ LSM6DSL_ACC_GYRO_W_FUNC_EN(handle, LSM6DSL_ACC_GYRO_FUNC_EN_DISABLED);
+ LSM6DSL_ACC_GYRO_W_I2C_MASTER_Enable(handle, LSM6DSL_ACC_GYRO_MASTER_ON_DISABLED);
+
+
+ return MEMS_SUCCESS;
+}
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Components/LSM6DSLSensor/LSM6DSL_acc_gyro_driver.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,2752 @@
+/**
+ ******************************************************************************
+ * @file LSM6DSL_acc_gyro_driver.h
+ * @author MEMS Application Team
+ * @version V1.5
+ * @date 17-May-2016
+ * @brief LSM6DSL header driver file
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+/* Define to prevent recursive inclusion -------------------------------------*/
+#ifndef __LSM6DSL_ACC_GYRO_DRIVER__H
+#define __LSM6DSL_ACC_GYRO_DRIVER__H
+
+/* Includes ------------------------------------------------------------------*/
+#include <stdint.h>
+/* Exported types ------------------------------------------------------------*/
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+//these could change accordingly with the architecture
+
+#ifndef __ARCHDEP__TYPES
+#define __ARCHDEP__TYPES
+
+typedef unsigned char u8_t;
+typedef unsigned short int u16_t;
+typedef unsigned int u32_t;
+typedef int i32_t;
+typedef short int i16_t;
+typedef signed char i8_t;
+
+#endif /*__ARCHDEP__TYPES*/
+
+/* Exported common structure --------------------------------------------------------*/
+
+#ifndef __SHARED__TYPES
+#define __SHARED__TYPES
+
+typedef union{
+ i16_t i16bit[3];
+ u8_t u8bit[6];
+} Type3Axis16bit_U;
+
+typedef union{
+ i16_t i16bit;
+ u8_t u8bit[2];
+} Type1Axis16bit_U;
+
+typedef union{
+ i32_t i32bit;
+ u8_t u8bit[4];
+} Type1Axis32bit_U;
+
+typedef enum {
+ MEMS_SUCCESS = 0x01,
+ MEMS_ERROR = 0x00
+} mems_status_t;
+
+#endif /*__SHARED__TYPES*/
+
+/* Exported macro ------------------------------------------------------------*/
+
+/* Exported constants --------------------------------------------------------*/
+
+/************** I2C Address *****************/
+
+#define LSM6DSL_ACC_GYRO_I2C_ADDRESS_LOW 0xD4 // SAD[0] = 0
+#define LSM6DSL_ACC_GYRO_I2C_ADDRESS_HIGH 0xD6 // SAD[0] = 1
+
+/************** Who am I *******************/
+
+#define LSM6DSL_ACC_GYRO_WHO_AM_I 0x6A
+
+/************** Device Register *******************/
+
+#define LSM6DSL_ACC_GYRO_FUNC_CFG_ACCESS 0X01
+
+#define LSM6DSL_ACC_GYRO_SENSOR_SYNC_TIME 0X04
+#define LSM6DSL_ACC_GYRO_SENSOR_RES_RATIO 0X05
+
+#define LSM6DSL_ACC_GYRO_FIFO_CTRL1 0X06
+#define LSM6DSL_ACC_GYRO_FIFO_CTRL2 0X07
+#define LSM6DSL_ACC_GYRO_FIFO_CTRL3 0X08
+#define LSM6DSL_ACC_GYRO_FIFO_CTRL4 0X09
+#define LSM6DSL_ACC_GYRO_FIFO_CTRL5 0X0A
+
+#define LSM6DSL_ACC_GYRO_DRDY_PULSE_CFG_G 0X0B
+#define LSM6DSL_ACC_GYRO_INT1_CTRL 0X0D
+#define LSM6DSL_ACC_GYRO_INT2_CTRL 0X0E
+#define LSM6DSL_ACC_GYRO_WHO_AM_I_REG 0X0F
+#define LSM6DSL_ACC_GYRO_CTRL1_XL 0X10
+#define LSM6DSL_ACC_GYRO_CTRL2_G 0X11
+#define LSM6DSL_ACC_GYRO_CTRL3_C 0X12
+#define LSM6DSL_ACC_GYRO_CTRL4_C 0X13
+#define LSM6DSL_ACC_GYRO_CTRL5_C 0X14
+#define LSM6DSL_ACC_GYRO_CTRL6_G 0X15
+#define LSM6DSL_ACC_GYRO_CTRL7_G 0X16
+#define LSM6DSL_ACC_GYRO_CTRL8_XL 0X17
+#define LSM6DSL_ACC_GYRO_CTRL9_XL 0X18
+#define LSM6DSL_ACC_GYRO_CTRL10_C 0X19
+
+#define LSM6DSL_ACC_GYRO_MASTER_CONFIG 0X1A
+#define LSM6DSL_ACC_GYRO_WAKE_UP_SRC 0X1B
+#define LSM6DSL_ACC_GYRO_TAP_SRC 0X1C
+#define LSM6DSL_ACC_GYRO_D6D_SRC 0X1D
+#define LSM6DSL_ACC_GYRO_STATUS_REG 0X1E
+
+#define LSM6DSL_ACC_GYRO_OUT_TEMP_L 0X20
+#define LSM6DSL_ACC_GYRO_OUT_TEMP_H 0X21
+#define LSM6DSL_ACC_GYRO_OUTX_L_G 0X22
+#define LSM6DSL_ACC_GYRO_OUTX_H_G 0X23
+#define LSM6DSL_ACC_GYRO_OUTY_L_G 0X24
+#define LSM6DSL_ACC_GYRO_OUTY_H_G 0X25
+#define LSM6DSL_ACC_GYRO_OUTZ_L_G 0X26
+#define LSM6DSL_ACC_GYRO_OUTZ_H_G 0X27
+#define LSM6DSL_ACC_GYRO_OUTX_L_XL 0X28
+#define LSM6DSL_ACC_GYRO_OUTX_H_XL 0X29
+#define LSM6DSL_ACC_GYRO_OUTY_L_XL 0X2A
+#define LSM6DSL_ACC_GYRO_OUTY_H_XL 0X2B
+#define LSM6DSL_ACC_GYRO_OUTZ_L_XL 0X2C
+#define LSM6DSL_ACC_GYRO_OUTZ_H_XL 0X2D
+#define LSM6DSL_ACC_GYRO_SENSORHUB1_REG 0X2E
+#define LSM6DSL_ACC_GYRO_SENSORHUB2_REG 0X2F
+#define LSM6DSL_ACC_GYRO_SENSORHUB3_REG 0X30
+#define LSM6DSL_ACC_GYRO_SENSORHUB4_REG 0X31
+#define LSM6DSL_ACC_GYRO_SENSORHUB5_REG 0X32
+#define LSM6DSL_ACC_GYRO_SENSORHUB6_REG 0X33
+#define LSM6DSL_ACC_GYRO_SENSORHUB7_REG 0X34
+#define LSM6DSL_ACC_GYRO_SENSORHUB8_REG 0X35
+#define LSM6DSL_ACC_GYRO_SENSORHUB9_REG 0X36
+#define LSM6DSL_ACC_GYRO_SENSORHUB10_REG 0X37
+#define LSM6DSL_ACC_GYRO_SENSORHUB11_REG 0X38
+#define LSM6DSL_ACC_GYRO_SENSORHUB12_REG 0X39
+#define LSM6DSL_ACC_GYRO_FIFO_STATUS1 0X3A
+#define LSM6DSL_ACC_GYRO_FIFO_STATUS2 0X3B
+#define LSM6DSL_ACC_GYRO_FIFO_STATUS3 0X3C
+#define LSM6DSL_ACC_GYRO_FIFO_STATUS4 0X3D
+#define LSM6DSL_ACC_GYRO_FIFO_DATA_OUT_L 0X3E
+#define LSM6DSL_ACC_GYRO_FIFO_DATA_OUT_H 0X3F
+#define LSM6DSL_ACC_GYRO_TIMESTAMP0_REG 0X40
+#define LSM6DSL_ACC_GYRO_TIMESTAMP1_REG 0X41
+#define LSM6DSL_ACC_GYRO_TIMESTAMP2_REG 0X42
+
+#define LSM6DSL_ACC_GYRO_TIMESTAMP_L 0X49
+#define LSM6DSL_ACC_GYRO_TIMESTAMP_H 0X4A
+
+#define LSM6DSL_ACC_GYRO_STEP_COUNTER_L 0X4B
+#define LSM6DSL_ACC_GYRO_STEP_COUNTER_H 0X4C
+
+#define LSM6DSL_ACC_GYRO_SENSORHUB13_REG 0X4D
+#define LSM6DSL_ACC_GYRO_SENSORHUB14_REG 0X4E
+#define LSM6DSL_ACC_GYRO_SENSORHUB15_REG 0X4F
+#define LSM6DSL_ACC_GYRO_SENSORHUB16_REG 0X50
+#define LSM6DSL_ACC_GYRO_SENSORHUB17_REG 0X51
+#define LSM6DSL_ACC_GYRO_SENSORHUB18_REG 0X52
+
+#define LSM6DSL_ACC_GYRO_FUNC_SRC 0X53
+#define LSM6DSL_ACC_GYRO_TAP_CFG1 0X58
+#define LSM6DSL_ACC_GYRO_TAP_THS_6D 0X59
+#define LSM6DSL_ACC_GYRO_INT_DUR2 0X5A
+#define LSM6DSL_ACC_GYRO_WAKE_UP_THS 0X5B
+#define LSM6DSL_ACC_GYRO_WAKE_UP_DUR 0X5C
+#define LSM6DSL_ACC_GYRO_FREE_FALL 0X5D
+#define LSM6DSL_ACC_GYRO_MD1_CFG 0X5E
+#define LSM6DSL_ACC_GYRO_MD2_CFG 0X5F
+
+#define LSM6DSL_ACC_GYRO_OUT_MAG_RAW_X_L 0X66
+#define LSM6DSL_ACC_GYRO_OUT_MAG_RAW_X_H 0X67
+#define LSM6DSL_ACC_GYRO_OUT_MAG_RAW_Y_L 0X68
+#define LSM6DSL_ACC_GYRO_OUT_MAG_RAW_Y_H 0X69
+#define LSM6DSL_ACC_GYRO_OUT_MAG_RAW_Z_L 0X6A
+#define LSM6DSL_ACC_GYRO_OUT_MAG_RAW_Z_H 0X6B
+
+#define LSM6DSL_ACC_GYRO_X_OFS_USR 0X73
+#define LSM6DSL_ACC_GYRO_Y_OFS_USR 0X74
+#define LSM6DSL_ACC_GYRO_Z_OFS_USR 0X75
+
+/************** Embedded functions register mapping *******************/
+#define LSM6DSL_ACC_GYRO_SLV0_ADD 0x02
+#define LSM6DSL_ACC_GYRO_SLV0_SUBADD 0x03
+#define LSM6DSL_ACC_GYRO_SLAVE0_CONFIG 0x04
+#define LSM6DSL_ACC_GYRO_SLV1_ADD 0x05
+#define LSM6DSL_ACC_GYRO_SLV1_SUBADD 0x06
+#define LSM6DSL_ACC_GYRO_SLAVE1_CONFIG 0x07
+#define LSM6DSL_ACC_GYRO_SLV2_ADD 0x08
+#define LSM6DSL_ACC_GYRO_SLV2_SUBADD 0x09
+#define LSM6DSL_ACC_GYRO_SLAVE2_CONFIG 0x0A
+#define LSM6DSL_ACC_GYRO_SLV3_ADD 0x0B
+#define LSM6DSL_ACC_GYRO_SLV3_SUBADD 0x0C
+#define LSM6DSL_ACC_GYRO_SLAVE3_CONFIG 0x0D
+#define LSM6DSL_ACC_GYRO_DATAWRITE_SRC_MODE_SUB_SLV0 0x0E
+#define LSM6DSL_ACC_GYRO_CONFIG_PEDO_THS_MIN 0x0F
+
+#define LSM6DSL_ACC_GYRO_SM_STEP_THS 0x13
+#define LSM6DSL_ACC_GYRO_PEDO_DEB_REG 0x14
+#define LSM6DSL_ACC_GYRO_STEP_COUNT_DELTA 0x15
+
+#define LSM6DSL_ACC_GYRO_MAG_SI_XX 0x24
+#define LSM6DSL_ACC_GYRO_MAG_SI_XY 0x25
+#define LSM6DSL_ACC_GYRO_MAG_SI_XZ 0x26
+#define LSM6DSL_ACC_GYRO_MAG_SI_YX 0x27
+#define LSM6DSL_ACC_GYRO_MAG_SI_YY 0x28
+#define LSM6DSL_ACC_GYRO_MAG_SI_YZ 0x29
+#define LSM6DSL_ACC_GYRO_MAG_SI_ZX 0x2A
+#define LSM6DSL_ACC_GYRO_MAG_SI_ZY 0x2B
+#define LSM6DSL_ACC_GYRO_MAG_SI_ZZ 0x2C
+#define LSM6DSL_ACC_GYRO_MAG_OFFX_L 0x2D
+#define LSM6DSL_ACC_GYRO_MAG_OFFX_H 0x2E
+#define LSM6DSL_ACC_GYRO_MAG_OFFY_L 0x2F
+#define LSM6DSL_ACC_GYRO_MAG_OFFY_H 0x30
+#define LSM6DSL_ACC_GYRO_MAG_OFFZ_L 0x31
+#define LSM6DSL_ACC_GYRO_MAG_OFFZ_H 0x32
+
+/************** Generic Function *******************/
+
+/*******************************************************************************
+* Register : Generic - All
+* Address : Generic - All
+* Bit Group Name: None
+* Permission : W
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_write_reg( void *handle, u8_t Reg, u8_t *Bufp, u16_t len );
+
+/*******************************************************************************
+* Register : Generic - All
+* Address : Generic - All
+* Bit Group Name: None
+* Permission : R
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_read_reg( void *handle, u8_t Reg, u8_t *Bufp, u16_t len );
+
+/**************** Base Function *******************/
+
+/*******************************************************************************
+* Register : WHO_AM_I
+* Address : 0X0F
+* Bit Group Name: WHO_AM_I_BIT
+* Permission : RO
+*******************************************************************************/
+#define LSM6DSL_ACC_GYRO_WHO_AM_I_BIT_MASK 0xFF
+#define LSM6DSL_ACC_GYRO_WHO_AM_I_BIT_POSITION 0
+mems_status_t LSM6DSL_ACC_GYRO_R_WHO_AM_I(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : CTRL3_C
+* Address : 0X12
+* Bit Group Name: BDU
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_BDU_CONTINUOS =0x00,
+ LSM6DSL_ACC_GYRO_BDU_BLOCK_UPDATE =0x40,
+} LSM6DSL_ACC_GYRO_BDU_t;
+
+#define LSM6DSL_ACC_GYRO_BDU_MASK 0x40
+mems_status_t LSM6DSL_ACC_GYRO_W_BDU(void *handle, LSM6DSL_ACC_GYRO_BDU_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_BDU(void *handle, LSM6DSL_ACC_GYRO_BDU_t *value);
+
+/*******************************************************************************
+* Register : CTRL1_XL
+* Address : 0X10
+* Bit Group Name: FS_XL
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_FS_XL_2g =0x00,
+ LSM6DSL_ACC_GYRO_FS_XL_16g =0x04,
+ LSM6DSL_ACC_GYRO_FS_XL_4g =0x08,
+ LSM6DSL_ACC_GYRO_FS_XL_8g =0x0C,
+} LSM6DSL_ACC_GYRO_FS_XL_t;
+
+#define LSM6DSL_ACC_GYRO_FS_XL_MASK 0x0C
+mems_status_t LSM6DSL_ACC_GYRO_W_FS_XL(void *handle, LSM6DSL_ACC_GYRO_FS_XL_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_FS_XL(void *handle, LSM6DSL_ACC_GYRO_FS_XL_t *value);
+
+/*******************************************************************************
+* Register : <REGISTER_L> - <REGISTER_H>
+* Output Type : GetAccData
+* Permission : RO
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_GetRawAccData(void *handle, u8_t *buff);
+mems_status_t LSM6DSL_ACC_Get_Acceleration(void *handle, int *buff, u8_t from_fifo);
+
+/*******************************************************************************
+* Register : CTRL1_XL
+* Address : 0X10
+* Bit Group Name: ODR_XL
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_ODR_XL_POWER_DOWN =0x00,
+ LSM6DSL_ACC_GYRO_ODR_XL_13Hz =0x10,
+ LSM6DSL_ACC_GYRO_ODR_XL_26Hz =0x20,
+ LSM6DSL_ACC_GYRO_ODR_XL_52Hz =0x30,
+ LSM6DSL_ACC_GYRO_ODR_XL_104Hz =0x40,
+ LSM6DSL_ACC_GYRO_ODR_XL_208Hz =0x50,
+ LSM6DSL_ACC_GYRO_ODR_XL_416Hz =0x60,
+ LSM6DSL_ACC_GYRO_ODR_XL_833Hz =0x70,
+ LSM6DSL_ACC_GYRO_ODR_XL_1660Hz =0x80,
+ LSM6DSL_ACC_GYRO_ODR_XL_3330Hz =0x90,
+ LSM6DSL_ACC_GYRO_ODR_XL_6660Hz =0xA0,
+} LSM6DSL_ACC_GYRO_ODR_XL_t;
+
+#define LSM6DSL_ACC_GYRO_ODR_XL_MASK 0xF0
+mems_status_t LSM6DSL_ACC_GYRO_W_ODR_XL(void *handle, LSM6DSL_ACC_GYRO_ODR_XL_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_ODR_XL(void *handle, LSM6DSL_ACC_GYRO_ODR_XL_t *value);
+mems_status_t LSM6DSL_ACC_GYRO_translate_ODR_XL(LSM6DSL_ACC_GYRO_ODR_XL_t value, u16_t *odr_hz_val);
+
+/*******************************************************************************
+* Register : CTRL2_G
+* Address : 0X11
+* Bit Group Name: FS_G
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_FS_G_245dps =0x00,
+ LSM6DSL_ACC_GYRO_FS_G_500dps =0x04,
+ LSM6DSL_ACC_GYRO_FS_G_1000dps =0x08,
+ LSM6DSL_ACC_GYRO_FS_G_2000dps =0x0C,
+} LSM6DSL_ACC_GYRO_FS_G_t;
+
+#define LSM6DSL_ACC_GYRO_FS_G_MASK 0x0C
+mems_status_t LSM6DSL_ACC_GYRO_W_FS_G(void *handle, LSM6DSL_ACC_GYRO_FS_G_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_FS_G(void *handle, LSM6DSL_ACC_GYRO_FS_G_t *value);
+
+/*******************************************************************************
+* Register : CTRL2_G
+* Address : 0X11
+* Bit Group Name: ODR_G
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_ODR_G_POWER_DOWN =0x00,
+ LSM6DSL_ACC_GYRO_ODR_G_13Hz =0x10,
+ LSM6DSL_ACC_GYRO_ODR_G_26Hz =0x20,
+ LSM6DSL_ACC_GYRO_ODR_G_52Hz =0x30,
+ LSM6DSL_ACC_GYRO_ODR_G_104Hz =0x40,
+ LSM6DSL_ACC_GYRO_ODR_G_208Hz =0x50,
+ LSM6DSL_ACC_GYRO_ODR_G_416Hz =0x60,
+ LSM6DSL_ACC_GYRO_ODR_G_833Hz =0x70,
+ LSM6DSL_ACC_GYRO_ODR_G_1660Hz =0x80,
+ LSM6DSL_ACC_GYRO_ODR_G_3330Hz =0x90,
+ LSM6DSL_ACC_GYRO_ODR_G_6660Hz =0xA0,
+} LSM6DSL_ACC_GYRO_ODR_G_t;
+
+#define LSM6DSL_ACC_GYRO_ODR_G_MASK 0xF0
+mems_status_t LSM6DSL_ACC_GYRO_W_ODR_G(void *handle, LSM6DSL_ACC_GYRO_ODR_G_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_ODR_G(void *handle, LSM6DSL_ACC_GYRO_ODR_G_t *value);
+mems_status_t LSM6DSL_ACC_GYRO_translate_ODR_G(LSM6DSL_ACC_GYRO_ODR_G_t value, u16_t *odr_hz_val);
+
+/*******************************************************************************
+* Register : <REGISTER_L> - <REGISTER_H>
+* Output Type : GetGyroData
+* Permission : RO
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_GetRawGyroData(void *handle, u8_t *buff);
+mems_status_t LSM6DSL_ACC_Get_AngularRate(void *handle, int *buff, u8_t from_fifo);
+
+/*******************************************************************************
+* Register : CTRL1_XL
+* Address : 0X10
+* Bit Group Name: BW_SEL
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_BW_SEL_ODR2 =0x00,
+ LSM6DSL_ACC_GYRO_BW_SEL_ODR4 =0x02,
+} LSM6DSL_ACC_GYRO_BW_SEL_t;
+
+#define LSM6DSL_ACC_GYRO_BW_SEL_MASK 0x02
+mems_status_t LSM6DSL_ACC_GYRO_W_BW_SEL(void *handle, LSM6DSL_ACC_GYRO_BW_SEL_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_BW_SEL(void *handle, LSM6DSL_ACC_GYRO_BW_SEL_t *value);
+
+/*******************************************************************************
+* Register : CTRL2_G
+* Address : 0X11
+* Bit Group Name: FS_125
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_FS_125_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_FS_125_ENABLED =0x02,
+} LSM6DSL_ACC_GYRO_FS_125_t;
+
+#define LSM6DSL_ACC_GYRO_FS_125_MASK 0x02
+mems_status_t LSM6DSL_ACC_GYRO_W_FS_125(void *handle, LSM6DSL_ACC_GYRO_FS_125_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_FS_125(void *handle, LSM6DSL_ACC_GYRO_FS_125_t *value);
+
+/**************** Advanced Function *******************/
+
+/*******************************************************************************
+* Register : CTRL3_C
+* Address : 0X12
+* Bit Group Name: BLE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_BLE_LSB =0x00,
+ LSM6DSL_ACC_GYRO_BLE_MSB =0x02,
+} LSM6DSL_ACC_GYRO_BLE_t;
+
+#define LSM6DSL_ACC_GYRO_BLE_MASK 0x02
+mems_status_t LSM6DSL_ACC_GYRO_W_BLE(void *handle, LSM6DSL_ACC_GYRO_BLE_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_BLE(void *handle, LSM6DSL_ACC_GYRO_BLE_t *value);
+
+/*******************************************************************************
+* Register : FUNC_CFG_ACCESS
+* Address : 0X01
+* Bit Group Name: EMB_ACC
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_EMBEDDED_ACCESS_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_EMBEDDED_ACCESS_ENABLED =0x80,
+} LSM6DSL_ACC_GYRO_EMB_ACC_t;
+
+#define LSM6DSL_ACC_GYRO_EMB_ACC_MASK 0x80
+mems_status_t LSM6DSL_ACC_GYRO_W_EmbeddedAccess(void *handle, LSM6DSL_ACC_GYRO_EMB_ACC_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_EmbeddedAccess(void *handle, LSM6DSL_ACC_GYRO_EMB_ACC_t *value);
+
+/*******************************************************************************
+* Register : SENSOR_SYNC_TIME
+* Address : 0X04
+* Bit Group Name: TPH
+* Permission : RW
+*******************************************************************************/
+#define LSM6DSL_ACC_GYRO_TPH_MASK 0xFF
+#define LSM6DSL_ACC_GYRO_TPH_POSITION 0
+mems_status_t LSM6DSL_ACC_GYRO_W_Stamping_Time_Frame(void *handle, u8_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_Stamping_Time_Frame(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : SENSOR_SYNC_RES_RATIO
+* Address : 0X05
+* Bit Group Name: RR
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_TIM_RATIO_2_11 =0x00,
+ LSM6DSL_ACC_GYRO_TIM_RATIO_2_12 =0x01,
+ LSM6DSL_ACC_GYRO_TIM_RATIO_2_13 =0x02,
+ LSM6DSL_ACC_GYRO_TIM_RATIO_2_14 =0x03,
+} LSM6DSL_ACC_GYRO_SYNC_RES_RATIO_t;
+
+#define LSM6DSL_ACC_GYRO_SYNC_RES_RATIO_MASK 0x03
+mems_status_t LSM6DSL_ACC_GYRO_W_SYNC_RES_RATIO(void *handle, LSM6DSL_ACC_GYRO_SYNC_RES_RATIO_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_SYNC_RES_RATIO(void *handle, LSM6DSL_ACC_GYRO_SYNC_RES_RATIO_t *value);
+
+
+/*******************************************************************************
+* Register : FIFO_CTRL1
+* Address : 0X06
+* Bit Group Name: WTM_FIFO
+* Permission : RW
+*******************************************************************************/
+#define LSM6DSL_ACC_GYRO_WTM_FIFO_CTRL1_MASK 0xFF
+#define LSM6DSL_ACC_GYRO_WTM_FIFO_CTRL1_POSITION 0
+#define LSM6DSL_ACC_GYRO_WTM_FIFO_CTRL2_MASK 0x07
+#define LSM6DSL_ACC_GYRO_WTM_FIFO_CTRL2_POSITION 0
+mems_status_t LSM6DSL_ACC_GYRO_W_FIFO_Watermark(void *handle, u16_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_FIFO_Watermark(void *handle, u16_t *value);
+
+/*******************************************************************************
+* Register : FIFO_CTRL2
+* Address : 0X07
+* Bit Group Name: FIFO_TEMP_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_FIFO_TEMP_DISABLE =0x00,
+ LSM6DSL_ACC_GYRO_FIFO_TEMP_ENABLE =0x08,
+} LSM6DSL_ACC_GYRO_FIFO_TEMP_t;
+
+#define LSM6DSL_ACC_GYRO_FIFO_TEMP_MASK 0x08
+mems_status_t LSM6DSL_ACC_GYRO_W_FIFO_TEMP(void *handle, LSM6DSL_ACC_GYRO_FIFO_TEMP_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_FIFO_TEMP(void *handle, LSM6DSL_ACC_GYRO_FIFO_TEMP_t *value);
+
+
+/*******************************************************************************
+* Register : FIFO_CTRL2
+* Address : 0X07
+* Bit Group Name: TIM_PEDO_FIFO_DRDY
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_DRDY_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_DRDY_ENABLED =0x40,
+} LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_DRDY_t;
+
+#define LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_DRDY_MASK 0x40
+mems_status_t LSM6DSL_ACC_GYRO_W_TIM_PEDO_FIFO_Write_En(void *handle, LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_DRDY_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_TIM_PEDO_FIFO_Write_En(void *handle, LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_DRDY_t *value);
+
+/*******************************************************************************
+* Register : FIFO_CTRL2
+* Address : 0X07
+* Bit Group Name: TIM_PEDO_FIFO_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_EN_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_EN_ENABLED =0x80,
+} LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_EN_t;
+
+#define LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_EN_MASK 0x80
+mems_status_t LSM6DSL_ACC_GYRO_W_TIM_PEDO_FIFO_En(void *handle, LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_EN_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_TIM_PEDO_FIFO_En(void *handle, LSM6DSL_ACC_GYRO_TIM_PEDO_FIFO_EN_t *value);
+
+/*******************************************************************************
+* Register : FIFO_CTRL3
+* Address : 0X08
+* Bit Group Name: DEC_FIFO_XL
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_DEC_FIFO_XL_DATA_NOT_IN_FIFO =0x00,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_XL_NO_DECIMATION =0x01,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_XL_DECIMATION_BY_2 =0x02,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_XL_DECIMATION_BY_3 =0x03,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_XL_DECIMATION_BY_4 =0x04,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_XL_DECIMATION_BY_8 =0x05,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_XL_DECIMATION_BY_16 =0x06,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_XL_DECIMATION_BY_32 =0x07,
+} LSM6DSL_ACC_GYRO_DEC_FIFO_XL_t;
+
+#define LSM6DSL_ACC_GYRO_DEC_FIFO_XL_MASK 0x07
+mems_status_t LSM6DSL_ACC_GYRO_W_DEC_FIFO_XL(void *handle, LSM6DSL_ACC_GYRO_DEC_FIFO_XL_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_W_DEC_FIFO_XL_val(void *handle, u16_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_DEC_FIFO_XL(void *handle, LSM6DSL_ACC_GYRO_DEC_FIFO_XL_t *value);
+
+/*******************************************************************************
+* Register : FIFO_CTRL3
+* Address : 0X08
+* Bit Group Name: DEC_FIFO_G
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_DEC_FIFO_G_DATA_NOT_IN_FIFO =0x00,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_G_NO_DECIMATION =0x08,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_G_DECIMATION_BY_2 =0x10,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_G_DECIMATION_BY_3 =0x18,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_G_DECIMATION_BY_4 =0x20,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_G_DECIMATION_BY_8 =0x28,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_G_DECIMATION_BY_16 =0x30,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_G_DECIMATION_BY_32 =0x38,
+} LSM6DSL_ACC_GYRO_DEC_FIFO_G_t;
+
+#define LSM6DSL_ACC_GYRO_DEC_FIFO_G_MASK 0x38
+mems_status_t LSM6DSL_ACC_GYRO_W_DEC_FIFO_G(void *handle, LSM6DSL_ACC_GYRO_DEC_FIFO_G_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_W_DEC_FIFO_G_val(void *handle, u16_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_DEC_FIFO_G(void *handle, LSM6DSL_ACC_GYRO_DEC_FIFO_G_t *value);
+
+/*******************************************************************************
+* Register : FIFO_CTRL4
+* Address : 0X09
+* Bit Group Name: DEC_DS3_FIFO
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_DEC_FIFO_DS3_DATA_NOT_IN_FIFO =0x00,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_DS3_NO_DECIMATION =0x01,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_DS3_DECIMATION_BY_2 =0x02,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_DS3_DECIMATION_BY_3 =0x03,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_DS3_DECIMATION_BY_4 =0x04,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_DS3_DECIMATION_BY_8 =0x05,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_DS3_DECIMATION_BY_16 =0x06,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_DS3_DECIMATION_BY_32 =0x07,
+} LSM6DSL_ACC_GYRO_DEC_FIFO_DS3_t;
+
+#define LSM6DSL_ACC_GYRO_DEC_FIFO_DS3_MASK 0x07
+mems_status_t LSM6DSL_ACC_GYRO_W_DEC_FIFO_DS3(void *handle, LSM6DSL_ACC_GYRO_DEC_FIFO_DS3_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_DEC_FIFO_DS3(void *handle, LSM6DSL_ACC_GYRO_DEC_FIFO_DS3_t *value);
+
+/*******************************************************************************
+* Register : FIFO_CTRL4
+* Address : 0X09
+* Bit Group Name: DEC_DS4_FIFO
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_DEC_FIFO_DS4_DATA_NOT_IN_FIFO =0x00,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_DS4_NO_DECIMATION =0x08,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_DS4_DECIMATION_BY_2 =0x10,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_DS4_DECIMATION_BY_3 =0x18,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_DS4_DECIMATION_BY_4 =0x20,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_DS4_DECIMATION_BY_8 =0x28,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_DS4_DECIMATION_BY_16 =0x30,
+ LSM6DSL_ACC_GYRO_DEC_FIFO_DS4_DECIMATION_BY_32 =0x38,
+} LSM6DSL_ACC_GYRO_DEC_FIFO_DS4_t;
+
+#define LSM6DSL_ACC_GYRO_DEC_FIFO_DS4_MASK 0x38
+mems_status_t LSM6DSL_ACC_GYRO_W_DEC_FIFO_DS4(void *handle, LSM6DSL_ACC_GYRO_DEC_FIFO_DS4_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_DEC_FIFO_DS4(void *handle, LSM6DSL_ACC_GYRO_DEC_FIFO_DS4_t *value);
+
+/*******************************************************************************
+* Register : FIFO_CTRL4
+* Address : 0X09
+* Bit Group Name: HI_DATA_ONLY
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_HI_DATA_ONLY_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_HI_DATA_ONLY_ENABLED =0x40,
+} LSM6DSL_ACC_GYRO_HI_DATA_ONLY_t;
+
+#define LSM6DSL_ACC_GYRO_HI_DATA_ONLY_MASK 0x40
+mems_status_t LSM6DSL_ACC_GYRO_W_HI_DATA_ONLY(void *handle, LSM6DSL_ACC_GYRO_HI_DATA_ONLY_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_HI_DATA_ONLY(void *handle, LSM6DSL_ACC_GYRO_HI_DATA_ONLY_t *value);
+
+/*******************************************************************************
+* Register : FIFO_CTRL4
+* Address : 0X09
+* Bit Group Name: STOP_ON_FTH
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_STOP_ON_FTH_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_STOP_ON_FTH_ENABLED =0x80,
+} LSM6DSL_ACC_GYRO_STOP_ON_FTH_t;
+
+#define LSM6DSL_ACC_GYRO_STOP_ON_FTH_MASK 0x80
+mems_status_t LSM6DSL_ACC_GYRO_W_STOP_ON_FTH(void *handle, LSM6DSL_ACC_GYRO_STOP_ON_FTH_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_STOP_ON_FTH(void *handle, LSM6DSL_ACC_GYRO_STOP_ON_FTH_t *value);
+
+/*******************************************************************************
+* Register : FIFO_CTRL5
+* Address : 0X0A
+* Bit Group Name: FIFO_MODE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_FIFO_MODE_BYPASS =0x00,
+ LSM6DSL_ACC_GYRO_FIFO_MODE_FIFO =0x01,
+ LSM6DSL_ACC_GYRO_FIFO_MODE_STREAM =0x02,
+ LSM6DSL_ACC_GYRO_FIFO_MODE_STF =0x03,
+ LSM6DSL_ACC_GYRO_FIFO_MODE_BTS =0x04,
+ LSM6DSL_ACC_GYRO_FIFO_MODE_DYN_STREAM =0x05,
+ LSM6DSL_ACC_GYRO_FIFO_MODE_DYN_STREAM_2 =0x06,
+ LSM6DSL_ACC_GYRO_FIFO_MODE_BTF =0x07,
+} LSM6DSL_ACC_GYRO_FIFO_MODE_t;
+
+#define LSM6DSL_ACC_GYRO_FIFO_MODE_MASK 0x07
+mems_status_t LSM6DSL_ACC_GYRO_W_FIFO_MODE(void *handle, LSM6DSL_ACC_GYRO_FIFO_MODE_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_FIFO_MODE(void *handle, LSM6DSL_ACC_GYRO_FIFO_MODE_t *value);
+
+/*******************************************************************************
+* Register : FIFO_CTRL5
+* Address : 0X0A
+* Bit Group Name: ODR_FIFO
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_ODR_FIFO_10Hz =0x08,
+ LSM6DSL_ACC_GYRO_ODR_FIFO_25Hz =0x10,
+ LSM6DSL_ACC_GYRO_ODR_FIFO_50Hz =0x18,
+ LSM6DSL_ACC_GYRO_ODR_FIFO_100Hz =0x20,
+ LSM6DSL_ACC_GYRO_ODR_FIFO_200Hz =0x28,
+ LSM6DSL_ACC_GYRO_ODR_FIFO_400Hz =0x30,
+ LSM6DSL_ACC_GYRO_ODR_FIFO_800Hz =0x38,
+ LSM6DSL_ACC_GYRO_ODR_FIFO_1600Hz =0x40,
+ LSM6DSL_ACC_GYRO_ODR_FIFO_3300Hz =0x48,
+ LSM6DSL_ACC_GYRO_ODR_FIFO_6600Hz =0x50,
+ LSM6DSL_ACC_GYRO_ODR_FIFO_13300Hz =0x58,
+} LSM6DSL_ACC_GYRO_ODR_FIFO_t;
+
+#define LSM6DSL_ACC_GYRO_ODR_FIFO_MASK 0x78
+mems_status_t LSM6DSL_ACC_GYRO_W_ODR_FIFO(void *handle, LSM6DSL_ACC_GYRO_ODR_FIFO_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_ODR_FIFO(void *handle, LSM6DSL_ACC_GYRO_ODR_FIFO_t *value);
+
+/*******************************************************************************
+* Register : DRDY_PULSE_CFG_G
+* Address : 0X0B
+* Bit Group Name: DRDY_PULSE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_DRDY_LATCH =0x00,
+ LSM6DSL_ACC_GYRO_DRDY_PULSE =0x80,
+} LSM6DSL_ACC_GYRO_DRDY_PULSE_t;
+
+#define LSM6DSL_ACC_GYRO_DRDY_PULSE_MASK 0x80
+mems_status_t LSM6DSL_ACC_GYRO_W_DRDY_PULSE(void *handle, LSM6DSL_ACC_GYRO_DRDY_PULSE_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_DRDY_PULSE(void *handle, LSM6DSL_ACC_GYRO_DRDY_PULSE_t *value);
+
+/*******************************************************************************
+* Register : INT1_CTRL
+* Address : 0X0D
+* Bit Group Name: INT1_DRDY_XL
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT1_DRDY_XL_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT1_DRDY_XL_ENABLED =0x01,
+} LSM6DSL_ACC_GYRO_INT1_DRDY_XL_t;
+
+#define LSM6DSL_ACC_GYRO_INT1_DRDY_XL_MASK 0x01
+mems_status_t LSM6DSL_ACC_GYRO_W_DRDY_XL_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_DRDY_XL_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_DRDY_XL_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_DRDY_XL_t *value);
+
+/*******************************************************************************
+* Register : INT1_CTRL
+* Address : 0X0D
+* Bit Group Name: INT1_DRDY_G
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT1_DRDY_G_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT1_DRDY_G_ENABLED =0x02,
+} LSM6DSL_ACC_GYRO_INT1_DRDY_G_t;
+
+#define LSM6DSL_ACC_GYRO_INT1_DRDY_G_MASK 0x02
+mems_status_t LSM6DSL_ACC_GYRO_W_DRDY_G_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_DRDY_G_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_DRDY_G_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_DRDY_G_t *value);
+
+/*******************************************************************************
+* Register : INT1_CTRL
+* Address : 0X0D
+* Bit Group Name: INT1_BOOT
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT1_BOOT_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT1_BOOT_ENABLED =0x04,
+} LSM6DSL_ACC_GYRO_INT1_BOOT_t;
+
+#define LSM6DSL_ACC_GYRO_INT1_BOOT_MASK 0x04
+mems_status_t LSM6DSL_ACC_GYRO_W_BOOT_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_BOOT_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_BOOT_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_BOOT_t *value);
+
+/*******************************************************************************
+* Register : INT1_CTRL
+* Address : 0X0D
+* Bit Group Name: INT1_FTH
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT1_FTH_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT1_FTH_ENABLED =0x08,
+} LSM6DSL_ACC_GYRO_INT1_FTH_t;
+
+#define LSM6DSL_ACC_GYRO_INT1_FTH_MASK 0x08
+mems_status_t LSM6DSL_ACC_GYRO_W_FIFO_TSHLD_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_FTH_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_FIFO_TSHLD_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_FTH_t *value);
+
+/*******************************************************************************
+* Register : INT1_CTRL
+* Address : 0X0D
+* Bit Group Name: INT1_OVR
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT1_OVR_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT1_OVR_ENABLED =0x10,
+} LSM6DSL_ACC_GYRO_INT1_OVR_t;
+
+#define LSM6DSL_ACC_GYRO_INT1_OVR_MASK 0x10
+mems_status_t LSM6DSL_ACC_GYRO_W_OVERRUN_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_OVR_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_OVERRUN_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_OVR_t *value);
+
+/*******************************************************************************
+* Register : INT1_CTRL
+* Address : 0X0D
+* Bit Group Name: INT1_FULL_FLAG
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT1_FULL_FLAG_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT1_FULL_FLAG_ENABLED =0x20,
+} LSM6DSL_ACC_GYRO_INT1_FULL_FLAG_t;
+
+#define LSM6DSL_ACC_GYRO_INT1_FULL_FLAG_MASK 0x20
+mems_status_t LSM6DSL_ACC_GYRO_W_FULL_FLAG_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_FULL_FLAG_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_FULL_FLAG_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_FULL_FLAG_t *value);
+
+/*******************************************************************************
+* Register : INT1_CTRL
+* Address : 0X0D
+* Bit Group Name: INT1_SIGN_MOT
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT1_SIGN_MOT_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT1_SIGN_MOT_ENABLED =0x40,
+} LSM6DSL_ACC_GYRO_INT1_SIGN_MOT_t;
+
+#define LSM6DSL_ACC_GYRO_INT1_SIGN_MOT_MASK 0x40
+mems_status_t LSM6DSL_ACC_GYRO_W_SIGN_MOT_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_SIGN_MOT_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_SIGN_MOT_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_SIGN_MOT_t *value);
+
+/*******************************************************************************
+* Register : INT1_CTRL
+* Address : 0X0D
+* Bit Group Name: INT1_STEP_DETECTOR
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT1_PEDO_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT1_PEDO_ENABLED =0x80,
+} LSM6DSL_ACC_GYRO_INT1_PEDO_t;
+
+#define LSM6DSL_ACC_GYRO_INT1_PEDO_MASK 0x80
+mems_status_t LSM6DSL_ACC_GYRO_W_STEP_DET_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_PEDO_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_STEP_DET_on_INT1(void *handle, LSM6DSL_ACC_GYRO_INT1_PEDO_t *value);
+
+/*******************************************************************************
+* Register : INT2_CTRL
+* Address : 0X0E
+* Bit Group Name: INT2_DRDY_XL
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT2_DRDY_XL_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT2_DRDY_XL_ENABLED =0x01,
+} LSM6DSL_ACC_GYRO_INT2_DRDY_XL_t;
+
+#define LSM6DSL_ACC_GYRO_INT2_DRDY_XL_MASK 0x01
+mems_status_t LSM6DSL_ACC_GYRO_W_DRDY_XL_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_DRDY_XL_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_DRDY_XL_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_DRDY_XL_t *value);
+
+/*******************************************************************************
+* Register : INT2_CTRL
+* Address : 0X0E
+* Bit Group Name: INT2_DRDY_G
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT2_DRDY_G_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT2_DRDY_G_ENABLED =0x02,
+} LSM6DSL_ACC_GYRO_INT2_DRDY_G_t;
+
+#define LSM6DSL_ACC_GYRO_INT2_DRDY_G_MASK 0x02
+mems_status_t LSM6DSL_ACC_GYRO_W_DRDY_G_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_DRDY_G_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_DRDY_G_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_DRDY_G_t *value);
+
+/*******************************************************************************
+* Register : INT2_CTRL
+* Address : 0X0E
+* Bit Group Name: INT2_DRDY_TEMP
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT2_DRDY_TEMP_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT2_DRDY_TEMP_ENABLED =0x04,
+} LSM6DSL_ACC_GYRO_INT2_DRDY_TEMP_t;
+
+#define LSM6DSL_ACC_GYRO_INT2_DRDY_TEMP_MASK 0x04
+mems_status_t LSM6DSL_ACC_GYRO_W_DRDY_TEMP_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_DRDY_TEMP_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_DRDY_TEMP_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_DRDY_TEMP_t *value);
+
+
+/*******************************************************************************
+* Register : INT2_CTRL
+* Address : 0X0E
+* Bit Group Name: INT2_FTH
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT2_FTH_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT2_FTH_ENABLED =0x08,
+} LSM6DSL_ACC_GYRO_INT2_FTH_t;
+
+#define LSM6DSL_ACC_GYRO_INT2_FTH_MASK 0x08
+mems_status_t LSM6DSL_ACC_GYRO_W_FIFO_TSHLD_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_FTH_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_FIFO_TSHLD_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_FTH_t *value);
+
+/*******************************************************************************
+* Register : INT2_CTRL
+* Address : 0X0E
+* Bit Group Name: INT2_OVR
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT2_OVR_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT2_OVR_ENABLED =0x10,
+} LSM6DSL_ACC_GYRO_INT2_OVR_t;
+
+#define LSM6DSL_ACC_GYRO_INT2_OVR_MASK 0x10
+mems_status_t LSM6DSL_ACC_GYRO_W_OVERRUN_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_OVR_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_OVERRUN_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_OVR_t *value);
+
+/*******************************************************************************
+* Register : INT2_CTRL
+* Address : 0X0E
+* Bit Group Name: INT2_FULL_FLAG
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT2_FULL_FLAG_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT2_FULL_FLAG_ENABLED =0x20,
+} LSM6DSL_ACC_GYRO_INT2_FULL_FLAG_t;
+
+#define LSM6DSL_ACC_GYRO_INT2_FULL_FLAG_MASK 0x20
+mems_status_t LSM6DSL_ACC_GYRO_W_FULL_FLAG_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_FULL_FLAG_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_FULL_FLAG_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_FULL_FLAG_t *value);
+
+/*******************************************************************************
+* Register : INT2_CTRL
+* Address : 0X0E
+* Bit Group Name: INT2_STEP_COUNT_OV
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT2_STEP_COUNT_OV_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT2_STEP_COUNT_OV_ENABLED =0x40,
+} LSM6DSL_ACC_GYRO_INT2_STEP_COUNT_OV_t;
+
+#define LSM6DSL_ACC_GYRO_INT2_STEP_COUNT_OV_MASK 0x40
+mems_status_t LSM6DSL_ACC_GYRO_W_STEP_COUNT_OV_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_STEP_COUNT_OV_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_STEP_COUNT_OV_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_STEP_COUNT_OV_t *value);
+
+/*******************************************************************************
+* Register : INT2_CTRL
+* Address : 0X0E
+* Bit Group Name: INT2_STEP_DELTA
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT2_STEP_DELTA_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT2_STEP_DELTA_ENABLED =0x80,
+} LSM6DSL_ACC_GYRO_INT2_STEP_DELTA_t;
+
+#define LSM6DSL_ACC_GYRO_INT2_STEP_DELTA_MASK 0x80
+mems_status_t LSM6DSL_ACC_GYRO_W_STEP_DELTA_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_STEP_DELTA_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_STEP_DELTA_on_INT2(void *handle, LSM6DSL_ACC_GYRO_INT2_STEP_DELTA_t *value);
+
+/*******************************************************************************
+* Register : CTRL3_C
+* Address : 0X12
+* Bit Group Name: SW_RESET
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_SW_RESET_NORMAL_MODE =0x00,
+ LSM6DSL_ACC_GYRO_SW_RESET_RESET_DEVICE =0x01,
+} LSM6DSL_ACC_GYRO_SW_RESET_t;
+
+#define LSM6DSL_ACC_GYRO_SW_RESET_MASK 0x01
+mems_status_t LSM6DSL_ACC_GYRO_W_SW_RESET(void *handle, LSM6DSL_ACC_GYRO_SW_RESET_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_SW_RESET(void *handle, LSM6DSL_ACC_GYRO_SW_RESET_t *value);
+
+
+/*******************************************************************************
+* Register : CTRL3_C
+* Address : 0X12
+* Bit Group Name: IF_INC
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_IF_INC_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_IF_INC_ENABLED =0x04,
+} LSM6DSL_ACC_GYRO_IF_INC_t;
+
+#define LSM6DSL_ACC_GYRO_IF_INC_MASK 0x04
+mems_status_t LSM6DSL_ACC_GYRO_W_IF_Addr_Incr(void *handle, LSM6DSL_ACC_GYRO_IF_INC_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_IF_Addr_Incr(void *handle, LSM6DSL_ACC_GYRO_IF_INC_t *value);
+
+/*******************************************************************************
+* Register : CTRL3_C
+* Address : 0X12
+* Bit Group Name: SIM
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_SIM_4_WIRE =0x00,
+ LSM6DSL_ACC_GYRO_SIM_3_WIRE =0x08,
+} LSM6DSL_ACC_GYRO_SIM_t;
+
+#define LSM6DSL_ACC_GYRO_SIM_MASK 0x08
+mems_status_t LSM6DSL_ACC_GYRO_W_SPI_Mode(void *handle, LSM6DSL_ACC_GYRO_SIM_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_SPI_Mode(void *handle, LSM6DSL_ACC_GYRO_SIM_t *value);
+
+/*******************************************************************************
+* Register : CTRL3_C
+* Address : 0X12
+* Bit Group Name: PP_OD
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_PP_OD_PUSH_PULL =0x00,
+ LSM6DSL_ACC_GYRO_PP_OD_OPEN_DRAIN =0x10,
+} LSM6DSL_ACC_GYRO_PP_OD_t;
+
+#define LSM6DSL_ACC_GYRO_PP_OD_MASK 0x10
+mems_status_t LSM6DSL_ACC_GYRO_W_PadSel(void *handle, LSM6DSL_ACC_GYRO_PP_OD_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_PadSel(void *handle, LSM6DSL_ACC_GYRO_PP_OD_t *value);
+
+/*******************************************************************************
+* Register : CTRL3_C
+* Address : 0X12
+* Bit Group Name: H_LACTIVE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT_ACT_LEVEL_ACTIVE_HI =0x00,
+ LSM6DSL_ACC_GYRO_INT_ACT_LEVEL_ACTIVE_LO =0x20,
+} LSM6DSL_ACC_GYRO_INT_ACT_LEVEL_t;
+
+#define LSM6DSL_ACC_GYRO_INT_ACT_LEVEL_MASK 0x20
+mems_status_t LSM6DSL_ACC_GYRO_W_INT_ACT_LEVEL(void *handle, LSM6DSL_ACC_GYRO_INT_ACT_LEVEL_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_INT_ACT_LEVEL(void *handle, LSM6DSL_ACC_GYRO_INT_ACT_LEVEL_t *value);
+
+
+/*******************************************************************************
+* Register : CTRL3_C
+* Address : 0X12
+* Bit Group Name: BOOT
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_BOOT_NORMAL_MODE =0x00,
+ LSM6DSL_ACC_GYRO_BOOT_REBOOT_MODE =0x80,
+} LSM6DSL_ACC_GYRO_BOOT_t;
+
+#define LSM6DSL_ACC_GYRO_BOOT_MASK 0x80
+mems_status_t LSM6DSL_ACC_GYRO_W_BOOT(void *handle, LSM6DSL_ACC_GYRO_BOOT_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_BOOT(void *handle, LSM6DSL_ACC_GYRO_BOOT_t *value);
+
+/*******************************************************************************
+* Register : CTRL4_C
+* Address : 0X13
+* Bit Group Name: LPF1_SEL_G
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_MODE3_LPF1_G_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_MODE3_LPF1_G_ENABLED =0x02,
+} LSM6DSL_ACC_GYRO_LPF1_SEL_G_t;
+
+#define LSM6DSL_ACC_GYRO_LPF1_SEL_G_MASK 0x02
+mems_status_t LSM6DSL_ACC_GYRO_W_LPF1_SEL_G(void *handle, LSM6DSL_ACC_GYRO_LPF1_SEL_G_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_LPF1_SEL_G(void *handle, LSM6DSL_ACC_GYRO_LPF1_SEL_G_t *value);
+
+/*******************************************************************************
+* Register : CTRL4_C
+* Address : 0X13
+* Bit Group Name: I2C_DISABLE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_I2C_DISABLE_I2C_AND_SPI =0x00,
+ LSM6DSL_ACC_GYRO_I2C_DISABLE_SPI_ONLY =0x04,
+} LSM6DSL_ACC_GYRO_I2C_DISABLE_t;
+
+#define LSM6DSL_ACC_GYRO_I2C_DISABLE_MASK 0x04
+mems_status_t LSM6DSL_ACC_GYRO_W_I2C_DISABLE(void *handle, LSM6DSL_ACC_GYRO_I2C_DISABLE_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_I2C_DISABLE(void *handle, LSM6DSL_ACC_GYRO_I2C_DISABLE_t *value);
+
+/*******************************************************************************
+* Register : CTRL4_C
+* Address : 0X13
+* Bit Group Name: DRDY_MSK
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_DRDY_MSK_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_DRDY_MSK_ENABLED =0x08,
+} LSM6DSL_ACC_GYRO_DRDY_MSK_t;
+
+#define LSM6DSL_ACC_GYRO_DRDY_MSK_MASK 0x08
+mems_status_t LSM6DSL_ACC_GYRO_W_DRDY_MSK(void *handle, LSM6DSL_ACC_GYRO_DRDY_MSK_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_DRDY_MSK(void *handle, LSM6DSL_ACC_GYRO_DRDY_MSK_t *value);
+
+/*******************************************************************************
+* Register : CTRL4_C
+* Address : 0X13
+* Bit Group Name: INT2_ON_INT1
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT2_ON_INT1_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT2_ON_INT1_ENABLED =0x20,
+} LSM6DSL_ACC_GYRO_INT2_ON_INT1_t;
+
+#define LSM6DSL_ACC_GYRO_INT2_ON_INT1_MASK 0x20
+mems_status_t LSM6DSL_ACC_GYRO_W_INT2_ON_INT1(void *handle, LSM6DSL_ACC_GYRO_INT2_ON_INT1_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_INT2_ON_INT1(void *handle, LSM6DSL_ACC_GYRO_INT2_ON_INT1_t *value);
+
+/*******************************************************************************
+* Register : CTRL4_C
+* Address : 0X13
+* Bit Group Name: SLEEP_G
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_SLEEP_G_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_SLEEP_G_ENABLED =0x40,
+} LSM6DSL_ACC_GYRO_SLEEP_G_t;
+
+#define LSM6DSL_ACC_GYRO_SLEEP_G_MASK 0x40
+mems_status_t LSM6DSL_ACC_GYRO_W_SleepMode_G(void *handle, LSM6DSL_ACC_GYRO_SLEEP_G_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_SleepMode_G(void *handle, LSM6DSL_ACC_GYRO_SLEEP_G_t *value);
+
+/*******************************************************************************
+* Register : CTRL5_C
+* Address : 0X14
+* Bit Group Name: ST_XL
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_ST_XL_NORMAL_MODE =0x00,
+ LSM6DSL_ACC_GYRO_ST_XL_POS_SIGN_TEST =0x01,
+ LSM6DSL_ACC_GYRO_ST_XL_NEG_SIGN_TEST =0x02,
+ LSM6DSL_ACC_GYRO_ST_XL_NA =0x03,
+} LSM6DSL_ACC_GYRO_ST_XL_t;
+
+#define LSM6DSL_ACC_GYRO_ST_XL_MASK 0x03
+mems_status_t LSM6DSL_ACC_GYRO_W_SelfTest_XL(void *handle, LSM6DSL_ACC_GYRO_ST_XL_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_SelfTest_XL(void *handle, LSM6DSL_ACC_GYRO_ST_XL_t *value);
+
+/*******************************************************************************
+* Register : CTRL5_C
+* Address : 0X14
+* Bit Group Name: ST_G
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_ST_G_NORMAL_MODE =0x00,
+ LSM6DSL_ACC_GYRO_ST_G_POS_SIGN_TEST =0x04,
+ LSM6DSL_ACC_GYRO_ST_G_NA =0x08,
+ LSM6DSL_ACC_GYRO_ST_G_NEG_SIGN_TEST =0x0C,
+} LSM6DSL_ACC_GYRO_ST_G_t;
+
+#define LSM6DSL_ACC_GYRO_ST_G_MASK 0x0C
+mems_status_t LSM6DSL_ACC_GYRO_W_SelfTest_G(void *handle, LSM6DSL_ACC_GYRO_ST_G_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_SelfTest_G(void *handle, LSM6DSL_ACC_GYRO_ST_G_t *value);
+
+/*******************************************************************************
+* Register : CTRL5_C
+* Address : 0X14
+* Bit Group Name: DEN_LH
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_DEN_LOW =0x00,
+ LSM6DSL_ACC_GYRO_DEN_HIGH =0x10,
+} LSM6DSL_ACC_GYRO_DEN_LH_t;
+
+#define LSM6DSL_ACC_GYRO_DEN_LH_MASK 0x10
+mems_status_t LSM6DSL_ACC_GYRO_W_DEN_Polarity(void *handle, LSM6DSL_ACC_GYRO_DEN_LH_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_DEN_Polarity(void *handle, LSM6DSL_ACC_GYRO_DEN_LH_t *value);
+
+/*******************************************************************************
+* Register : CTRL5_C
+* Address : 0X14
+* Bit Group Name: ST_ROUNDING
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_NO_ROUNDING =0x00,
+ LSM6DSL_ACC_GYRO_ACC_ONLY =0x20,
+ LSM6DSL_ACC_GYRO_GYRO_ONLY =0x40,
+ LSM6DSL_ACC_GYRO_ACC_GYRO =0x60,
+ LSM6DSL_ACC_GYRO_SH1_SH6 =0x80,
+ LSM6DSL_ACC_GYRO_ACC_SH1_SH6 =0xA0,
+ LSM6DSL_ACC_GYRO_ACC_GYRO_SH1_SH6_SH7_SH12 =0xC0,
+ LSM6DSL_ACC_GYRO_ACC_GYRO_SH1_SH6 =0xE0,
+} LSM6DSL_ACC_GYRO_ROUNDING_t;
+
+#define LSM6DSL_ACC_GYRO_LSM6DSL_ACC_GYRO_ROUNDING_t_MASK 0xE0
+mems_status_t LSM6DSL_ACC_GYRO_W_CircularBurstMode(void *handle, LSM6DSL_ACC_GYRO_ROUNDING_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_CircularBurstMode(void *handle, LSM6DSL_ACC_GYRO_ROUNDING_t *value);
+
+/*******************************************************************************
+* Register : CTRL6_G
+* Address : 0X15
+* Bit Group Name: FTYPE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_LP_G_NORMAL =0x00,
+ LSM6DSL_ACC_GYRO_LP_G_NARROW =0x01,
+ LSM6DSL_ACC_GYRO_LP_G_VERY_NARROW =0x02,
+ LSM6DSL_ACC_GYRO_LP_G_WIDE =0x03,
+} LSM6DSL_ACC_GYRO_FTYPE_t;
+
+#define LSM6DSL_ACC_GYRO_FTYPE_MASK 0x03
+mems_status_t LSM6DSL_ACC_GYRO_W_LP_BW_G(void *handle, LSM6DSL_ACC_GYRO_FTYPE_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_LP_BW_G(void *handle, LSM6DSL_ACC_GYRO_FTYPE_t *value);
+
+/*******************************************************************************
+* Register : CTRL6_G
+* Address : 0X15
+* Bit Group Name: USR_OFF_W
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_2Emin10 =0x00,
+ LSM6DSL_ACC_GYRO_2Emin6 =0x08,
+} LSM6DSL_ACC_GYRO_USR_OFF_W_t;
+
+#define LSM6DSL_ACC_GYRO_USR_OFF_W_MASK 0x08
+mems_status_t LSM6DSL_ACC_GYRO_W_UserOffsetWeight(void *handle, LSM6DSL_ACC_GYRO_USR_OFF_W_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_UserOffsetWeight(void *handle, LSM6DSL_ACC_GYRO_USR_OFF_W_t *value);
+
+
+/*******************************************************************************
+* Register : CTRL6_G
+* Address : 0X15
+* Bit Group Name: LP_XL
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_LP_XL_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_LP_XL_ENABLED =0x10,
+} LSM6DSL_ACC_GYRO_LP_XL_t;
+
+#define LSM6DSL_ACC_GYRO_LP_XL_MASK 0x10
+mems_status_t LSM6DSL_ACC_GYRO_W_LowPower_XL(void *handle, LSM6DSL_ACC_GYRO_LP_XL_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_LowPower_XL(void *handle, LSM6DSL_ACC_GYRO_LP_XL_t *value);
+
+/*******************************************************************************
+* Register : CTRL6_G
+* Address : 0X15
+* Bit Group Name: DEN_LVL2_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_DEN_LVL2_EN_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_DEN_LVL2_EN_ENABLED =0x20,
+} LSM6DSL_ACC_GYRO_DEN_LVL2_EN_t;
+
+#define LSM6DSL_ACC_GYRO_DEN_LVL2_EN_MASK 0x20
+mems_status_t LSM6DSL_ACC_GYRO_W_DEN_LVL2_EN(void *handle, LSM6DSL_ACC_GYRO_DEN_LVL2_EN_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_DEN_LVL2_EN(void *handle, LSM6DSL_ACC_GYRO_DEN_LVL2_EN_t *value);
+
+/*******************************************************************************
+* Register : CTRL6_G
+* Address : 0X15
+* Bit Group Name: DEN_LVL_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_DEN_LVL_EN_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_DEN_LVL_EN_ENABLED =0x40,
+} LSM6DSL_ACC_GYRO_DEN_LVL_EN_t;
+
+#define LSM6DSL_ACC_GYRO_DEN_LVL_EN_MASK 0x40
+mems_status_t LSM6DSL_ACC_GYRO_W_DEN_LVL_EN(void *handle, LSM6DSL_ACC_GYRO_DEN_LVL_EN_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_DEN_LVL_EN(void *handle, LSM6DSL_ACC_GYRO_DEN_LVL_EN_t *value);
+
+/*******************************************************************************
+* Register : CTRL6_G
+* Address : 0X15
+* Bit Group Name: TRIG_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_DEN_EDGE_EN_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_DEN_EDGE_EN_ENABLED =0x80,
+} LSM6DSL_ACC_GYRO_DEN_EDGE_EN_t;
+
+#define LSM6DSL_ACC_GYRO_DEN_EDGE_EN_MASK 0x80
+mems_status_t LSM6DSL_ACC_GYRO_W_ExternalTrigger(void *handle, LSM6DSL_ACC_GYRO_DEN_EDGE_EN_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_ExternalTrigger(void *handle, LSM6DSL_ACC_GYRO_DEN_EDGE_EN_t *value);
+
+/*******************************************************************************
+* Register : CTRL7_G
+* Address : 0X16
+* Bit Group Name: ROUNDING_STATUS
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_RND_DISABLE =0x00,
+ LSM6DSL_ACC_GYRO_RND_ENABLE =0x04,
+} LSM6DSL_ACC_GYRO_RND_STATUS_t;
+
+#define LSM6DSL_ACC_GYRO_RND_STATUS_MASK 0x04
+mems_status_t LSM6DSL_ACC_GYRO_W_RoundingOnStatusRegisters(void *handle, LSM6DSL_ACC_GYRO_RND_STATUS_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_RoundingOnStatusRegisters(void *handle, LSM6DSL_ACC_GYRO_RND_STATUS_t *value);
+
+
+/*******************************************************************************
+* Register : CTRL7_G
+* Address : 0X16
+* Bit Group Name: HPM_G
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_HPM_G_0Hz016 =0x00,
+ LSM6DSL_ACC_GYRO_HPM_G_0Hz065 =0x10,
+ LSM6DSL_ACC_GYRO_HPM_G_2Hz260 =0x20,
+ LSM6DSL_ACC_GYRO_HPM_G_1Hz04 =0x30,
+} LSM6DSL_ACC_GYRO_HPM_G_t;
+
+#define LSM6DSL_ACC_GYRO_HPM_G_MASK 0x30
+mems_status_t LSM6DSL_ACC_GYRO_W_HPM_G(void *handle, LSM6DSL_ACC_GYRO_HPM_G_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_HPM_G(void *handle, LSM6DSL_ACC_GYRO_HPM_G_t *value);
+
+/*******************************************************************************
+* Register : CTRL7_G
+* Address : 0X16
+* Bit Group Name: HP_EN_G
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_HP_EN_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_HP_EN_ENABLED =0x40,
+} LSM6DSL_ACC_GYRO_HP_EN_t;
+
+#define LSM6DSL_ACC_GYRO_HP_EN_MASK 0x40
+mems_status_t LSM6DSL_ACC_GYRO_W_HPFilter_En(void *handle, LSM6DSL_ACC_GYRO_HP_EN_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_HPFilter_En(void *handle, LSM6DSL_ACC_GYRO_HP_EN_t *value);
+
+/*******************************************************************************
+* Register : CTRL7_G
+* Address : 0X16
+* Bit Group Name: LP_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_LP_EN_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_LP_EN_ENABLED =0x80,
+} LSM6DSL_ACC_GYRO_LP_EN_t;
+
+#define LSM6DSL_ACC_GYRO_LP_EN_MASK 0x80
+mems_status_t LSM6DSL_ACC_GYRO_W_LP_Mode(void *handle, LSM6DSL_ACC_GYRO_LP_EN_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_LP_Mode(void *handle, LSM6DSL_ACC_GYRO_LP_EN_t *value);
+
+/*******************************************************************************
+* Register : CTRL7_G
+* Address : 0X16
+* Bit Group Name: ROUNDING_STATUS
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_ROUNDING_STATUS_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_ROUNDING_STATUS_ENABLED =0x04,
+} LSM6DSL_ACC_GYRO_ROUNDING_STATUS_t;
+
+#define LSM6DSL_ACC_GYRO_ROUNDING_STATUS_MASK 0x04
+mems_status_t LSM6DSL_ACC_GYRO_W_ROUNDING_STATUS(void *handle, LSM6DSL_ACC_GYRO_ROUNDING_STATUS_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_ROUNDING_STATUS(void *handle, LSM6DSL_ACC_GYRO_ROUNDING_STATUS_t *value);
+
+/*******************************************************************************
+* Register : CTRL7_G
+* Address : 0X16
+* Bit Group Name: HP_G_RST
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_HP_G_RST_OFF =0x00,
+ LSM6DSL_ACC_GYRO_HP_G_RST_ON =0x08,
+} LSM6DSL_ACC_GYRO_HP_G_RST_t;
+
+#define LSM6DSL_ACC_GYRO_HP_G_RST_MASK 0x08
+mems_status_t LSM6DSL_ACC_GYRO_W_HP_G_RST(void *handle, LSM6DSL_ACC_GYRO_HP_G_RST_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_HP_G_RST(void *handle, LSM6DSL_ACC_GYRO_HP_G_RST_t *value);
+
+/*******************************************************************************
+* Register : CTRL8_XL
+* Address : 0X17
+* Bit Group Name: LOW_PASS_ON_6D
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_LOW_PASS_ON_6D_OFF =0x00,
+ LSM6DSL_ACC_GYRO_LOW_PASS_ON_6D_ON =0x01,
+} LSM6DSL_ACC_GYRO_LOW_PASS_ON_6D_t;
+
+#define LSM6DSL_ACC_GYRO_LOW_PASS_ON_6D_MASK 0x01
+mems_status_t LSM6DSL_ACC_GYRO_W_LOW_PASS_ON_6D(void *handle, LSM6DSL_ACC_GYRO_LOW_PASS_ON_6D_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_LOW_PASS_ON_6D(void *handle, LSM6DSL_ACC_GYRO_LOW_PASS_ON_6D_t *value);
+
+/*******************************************************************************
+* Register : CTRL8_XL
+* Address : 0X17
+* Bit Group Name: HP_SLOPE_XL_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_HP_SLOPE_XL_EN =0x00,
+ LSM6DSL_ACC_GYRO_HP_SLOPE_XL_DIS =0x04,
+} LSM6DSL_ACC_GYRO_HP_SLOPE_XL_t;
+
+#define LSM6DSL_ACC_GYRO_HP_SLOPE_XL_MASK 0x04
+mems_status_t LSM6DSL_ACC_GYRO_W_HP_SLOPE_XL(void *handle, LSM6DSL_ACC_GYRO_HP_SLOPE_XL_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_HP_SLOPE_XL(void *handle, LSM6DSL_ACC_GYRO_HP_SLOPE_XL_t *value);
+
+/*******************************************************************************
+* Register : CTRL8_XL
+* Address : 0X17
+* Bit Group Name: INPUT_COMPOSITE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_IN_ODR_DIV_2 =0x00,
+ LSM6DSL_ACC_GYRO_IN_ODR_DIV_4 =0x80,
+} LSM6DSL_ACC_GYRO_IN_COMP_t;
+
+#define LSM6DSL_ACC_GYRO_IN_COMP_MASK 0x80
+mems_status_t LSM6DSL_ACC_GYRO_W_InComposit(void *handle, LSM6DSL_ACC_GYRO_IN_COMP_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_InComposit(void *handle, LSM6DSL_ACC_GYRO_IN_COMP_t *value);
+
+/*******************************************************************************
+* Register : CTRL8_XL
+* Address : 0X17
+* Bit Group Name: HP_REF_MODE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_HP_REF_DISABLE =0x00,
+ LSM6DSL_ACC_GYRO_HP_REF_ENABLE =0x10,
+} LSM6DSL_ACC_GYRO_HP_REF_MODE_t;
+
+#define LSM6DSL_ACC_GYRO_HP_REF_MODE_MASK 0x10
+mems_status_t LSM6DSL_ACC_GYRO_W_HPfilterReference(void *handle, LSM6DSL_ACC_GYRO_HP_REF_MODE_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_HPfilterReference(void *handle, LSM6DSL_ACC_GYRO_HP_REF_MODE_t *value);
+
+/*******************************************************************************
+* Register : CTRL8_XL
+* Address : 0X17
+* Bit Group Name: HPCF_XL
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_HPCF_XL_DIV4 =0x00,
+ LSM6DSL_ACC_GYRO_HPCF_XL_DIV100 =0x20,
+ LSM6DSL_ACC_GYRO_HPCF_XL_DIV9 =0x40,
+ LSM6DSL_ACC_GYRO_HPCF_XL_DIV400 =0x60,
+} LSM6DSL_ACC_GYRO_HPCF_XL_t;
+
+#define LSM6DSL_ACC_GYRO_HPCF_XL_MASK 0x60
+mems_status_t LSM6DSL_ACC_GYRO_W_HPCF_XL(void *handle, LSM6DSL_ACC_GYRO_HPCF_XL_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_HPCF_XL(void *handle, LSM6DSL_ACC_GYRO_HPCF_XL_t *value);
+
+/*******************************************************************************
+* Register : CTRL8_XL
+* Address : 0X17
+* Bit Group Name: LPF2_XL_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_LPF2_XL_DISABLE =0x00,
+ LSM6DSL_ACC_GYRO_LPF2_XL_ENABLE =0x80,
+} LSM6DSL_ACC_GYRO_LPF2_XL_t;
+
+#define LSM6DSL_ACC_GYRO_LPF2_XL_MASK 0x80
+mems_status_t LSM6DSL_ACC_GYRO_W_LowPassFiltSel_XL(void *handle, LSM6DSL_ACC_GYRO_LPF2_XL_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_LowPassFiltSel_XL(void *handle, LSM6DSL_ACC_GYRO_LPF2_XL_t *value);
+
+
+/*******************************************************************************
+* Register : CTRL9_XL
+* Address : 0X18
+* Bit Group Name: SOFT_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_SOFT_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_SOFT_ENABLE =0x04,
+} LSM6DSL_ACC_GYRO_SOFT_t;
+
+#define LSM6DSL_ACC_GYRO_SOFT_MASK 0x04
+mems_status_t LSM6DSL_ACC_GYRO_W_SOFT(void *handle, LSM6DSL_ACC_GYRO_SOFT_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_SOFT(void *handle, LSM6DSL_ACC_GYRO_SOFT_t *value);
+
+/*******************************************************************************
+* Register : CTRL10_C
+* Address : 0X19
+* Bit Group Name: SIGN_MOTION_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_SIGN_MOTION_EN_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_SIGN_MOTION_EN_ENABLED =0x01,
+} LSM6DSL_ACC_GYRO_SIGN_MOTION_EN_t;
+
+#define LSM6DSL_ACC_GYRO_SIGN_MOTION_EN_MASK 0x01
+mems_status_t LSM6DSL_ACC_GYRO_W_SignifcantMotion(void *handle, LSM6DSL_ACC_GYRO_SIGN_MOTION_EN_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_SignifcantMotion(void *handle, LSM6DSL_ACC_GYRO_SIGN_MOTION_EN_t *value);
+
+/*******************************************************************************
+* Register : CTRL10_C
+* Address : 0X19
+* Bit Group Name: PEDO_RST_STEP
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_PEDO_RST_STEP_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_PEDO_RST_STEP_ENABLED =0x02,
+} LSM6DSL_ACC_GYRO_PEDO_RST_STEP_t;
+
+#define LSM6DSL_ACC_GYRO_PEDO_RST_STEP_MASK 0x02
+mems_status_t LSM6DSL_ACC_GYRO_W_PedoStepReset(void *handle, LSM6DSL_ACC_GYRO_PEDO_RST_STEP_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_PedoStepReset(void *handle, LSM6DSL_ACC_GYRO_PEDO_RST_STEP_t *value);
+
+/*******************************************************************************
+* Register : CTRL10_C
+* Address : 0X19
+* Bit Group Name: FUNC_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_FUNC_EN_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_FUNC_EN_ENABLED =0x04,
+} LSM6DSL_ACC_GYRO_FUNC_EN_t;
+
+#define LSM6DSL_ACC_GYRO_FUNC_EN_MASK 0x04
+mems_status_t LSM6DSL_ACC_GYRO_W_FUNC_EN(void *handle, LSM6DSL_ACC_GYRO_FUNC_EN_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_FUNC_EN(void *handle, LSM6DSL_ACC_GYRO_FUNC_EN_t *value);
+
+/*******************************************************************************
+* Register : CTRL10_C
+* Address : 0X19
+* Bit Group Name: TILT_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_TILT_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_TILT_ENABLED =0x08,
+} LSM6DSL_ACC_GYRO_TILT_G_t;
+
+#define LSM6DSL_ACC_GYRO_TILT_MASK 0x08
+mems_status_t LSM6DSL_ACC_GYRO_W_TILT(void *handle, LSM6DSL_ACC_GYRO_TILT_G_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_TILT(void *handle, LSM6DSL_ACC_GYRO_TILT_G_t *value);
+
+/*******************************************************************************
+* Register : CTRL10_C
+* Address : 0X19
+* Bit Group Name: PEDO_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_PEDO_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_PEDO_ENABLED =0x10,
+} LSM6DSL_ACC_GYRO_PEDO_t;
+
+#define LSM6DSL_ACC_GYRO_PEDO_MASK 0x10
+mems_status_t LSM6DSL_ACC_GYRO_W_PEDO(void *handle, LSM6DSL_ACC_GYRO_PEDO_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_PEDO(void *handle, LSM6DSL_ACC_GYRO_PEDO_t *value);
+
+/*******************************************************************************
+* Register : CTRL10_C
+* Address : 0X19
+* Bit Group Name: TIMER_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_TIMER_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_TIMER_ENABLED =0x20,
+} LSM6DSL_ACC_GYRO_TIMER_t;
+
+#define LSM6DSL_ACC_GYRO_TIMER_MASK 0x20
+mems_status_t LSM6DSL_ACC_GYRO_W_TIMER(void *handle, LSM6DSL_ACC_GYRO_TIMER_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_TIMER(void *handle, LSM6DSL_ACC_GYRO_TIMER_t *value);
+
+
+/*******************************************************************************
+* Register : MASTER_CONFIG
+* Address : 0X1A
+* Bit Group Name: MASTER_ON
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_MASTER_ON_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_MASTER_ON_ENABLED =0x01,
+} LSM6DSL_ACC_GYRO_MASTER_ON_t;
+
+#define LSM6DSL_ACC_GYRO_MASTER_ON_MASK 0x01
+mems_status_t LSM6DSL_ACC_GYRO_W_I2C_MASTER_Enable(void *handle, LSM6DSL_ACC_GYRO_MASTER_ON_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_I2C_MASTER_Enable(void *handle, LSM6DSL_ACC_GYRO_MASTER_ON_t *value);
+
+/*******************************************************************************
+* Register : MASTER_CONFIG
+* Address : 0X1A
+* Bit Group Name: IRON_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_IRON_EN_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_IRON_EN_ENABLED =0x02,
+} LSM6DSL_ACC_GYRO_IRON_EN_t;
+
+#define LSM6DSL_ACC_GYRO_IRON_EN_MASK 0x02
+mems_status_t LSM6DSL_ACC_GYRO_W_IronCorrection_EN(void *handle, LSM6DSL_ACC_GYRO_IRON_EN_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_IronCorrection_EN(void *handle, LSM6DSL_ACC_GYRO_IRON_EN_t *value);
+
+/*******************************************************************************
+* Register : MASTER_CONFIG
+* Address : 0X1A
+* Bit Group Name: PASS_THRU_MODE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_PASS_THRU_MODE_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_PASS_THRU_MODE_ENABLED =0x04,
+} LSM6DSL_ACC_GYRO_PASS_THRU_MODE_t;
+
+#define LSM6DSL_ACC_GYRO_PASS_THRU_MODE_MASK 0x04
+mems_status_t LSM6DSL_ACC_GYRO_W_PASS_THRU_MODE(void *handle, LSM6DSL_ACC_GYRO_PASS_THRU_MODE_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_PASS_THRU_MODE(void *handle, LSM6DSL_ACC_GYRO_PASS_THRU_MODE_t *value);
+
+/*******************************************************************************
+* Register : MASTER_CONFIG
+* Address : 0X1A
+* Bit Group Name: PULL_UP_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_PULL_UP_EN_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_PULL_UP_EN_ENABLED =0x08,
+} LSM6DSL_ACC_GYRO_PULL_UP_EN_t;
+
+#define LSM6DSL_ACC_GYRO_PULL_UP_EN_MASK 0x08
+mems_status_t LSM6DSL_ACC_GYRO_W_PULL_UP_EN(void *handle, LSM6DSL_ACC_GYRO_PULL_UP_EN_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_PULL_UP_EN(void *handle, LSM6DSL_ACC_GYRO_PULL_UP_EN_t *value);
+
+/*******************************************************************************
+* Register : MASTER_CONFIG
+* Address : 0X1A
+* Bit Group Name: START_CONFIG
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_START_CONFIG_XL_G_DRDY =0x00,
+ LSM6DSL_ACC_GYRO_START_CONFIG_EXT_INT2 =0x10,
+} LSM6DSL_ACC_GYRO_START_CONFIG_t;
+
+#define LSM6DSL_ACC_GYRO_START_CONFIG_MASK 0x10
+mems_status_t LSM6DSL_ACC_GYRO_W_SensorHUB_Trigger_Sel(void *handle, LSM6DSL_ACC_GYRO_START_CONFIG_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_SensorHUB_Trigger_Sel(void *handle, LSM6DSL_ACC_GYRO_START_CONFIG_t *value);
+
+/*******************************************************************************
+* Register : MASTER_CONFIG
+* Address : 0X1A
+* Bit Group Name: DATA_VAL_SEL_FIFO
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_DATA_VAL_SEL_FIFO_XL_G_DRDY =0x00,
+ LSM6DSL_ACC_GYRO_DATA_VAL_SEL_FIFO_SHUB_DRDY =0x40,
+} LSM6DSL_ACC_GYRO_DATA_VAL_SEL_FIFO_t;
+
+#define LSM6DSL_ACC_GYRO_DATA_VAL_SEL_FIFO_MASK 0x40
+mems_status_t LSM6DSL_ACC_GYRO_W_DATA_VAL_SEL_FIFO(void *handle, LSM6DSL_ACC_GYRO_DATA_VAL_SEL_FIFO_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_DATA_VAL_SEL_FIFO(void *handle, LSM6DSL_ACC_GYRO_DATA_VAL_SEL_FIFO_t *value);
+
+/*******************************************************************************
+* Register : MASTER_CONFIG
+* Address : 0X1A
+* Bit Group Name: DRDY_ON_INT1
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_DRDY_ON_INT1_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_DRDY_ON_INT1_ENABLED =0x80,
+} LSM6DSL_ACC_GYRO_DRDY_ON_INT1_t;
+
+#define LSM6DSL_ACC_GYRO_DRDY_ON_INT1_MASK 0x80
+mems_status_t LSM6DSL_ACC_GYRO_W_DRDY_ON_INT1(void *handle, LSM6DSL_ACC_GYRO_DRDY_ON_INT1_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_DRDY_ON_INT1(void *handle, LSM6DSL_ACC_GYRO_DRDY_ON_INT1_t *value);
+
+/*******************************************************************************
+* Register : WAKE_UP_SRC
+* Address : 0X1B
+* Bit Group Name: Z_WU
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_Z_WU_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_Z_WU_DETECTED =0x01,
+} LSM6DSL_ACC_GYRO_Z_WU_t;
+
+#define LSM6DSL_ACC_GYRO_Z_WU_MASK 0x01
+mems_status_t LSM6DSL_ACC_GYRO_R_Z_WU(void *handle, LSM6DSL_ACC_GYRO_Z_WU_t *value);
+
+/*******************************************************************************
+* Register : WAKE_UP_SRC
+* Address : 0X1B
+* Bit Group Name: Y_WU
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_Y_WU_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_Y_WU_DETECTED =0x02,
+} LSM6DSL_ACC_GYRO_Y_WU_t;
+
+#define LSM6DSL_ACC_GYRO_Y_WU_MASK 0x02
+mems_status_t LSM6DSL_ACC_GYRO_R_Y_WU(void *handle, LSM6DSL_ACC_GYRO_Y_WU_t *value);
+
+/*******************************************************************************
+* Register : WAKE_UP_SRC
+* Address : 0X1B
+* Bit Group Name: X_WU
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_X_WU_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_X_WU_DETECTED =0x04,
+} LSM6DSL_ACC_GYRO_X_WU_t;
+
+#define LSM6DSL_ACC_GYRO_X_WU_MASK 0x04
+mems_status_t LSM6DSL_ACC_GYRO_R_X_WU(void *handle, LSM6DSL_ACC_GYRO_X_WU_t *value);
+
+/*******************************************************************************
+* Register : WAKE_UP_SRC
+* Address : 0X1B
+* Bit Group Name: WU_EV_STATUS
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_WU_EV_STATUS_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_WU_EV_STATUS_DETECTED =0x08,
+} LSM6DSL_ACC_GYRO_WU_EV_STATUS_t;
+
+#define LSM6DSL_ACC_GYRO_WU_EV_STATUS_MASK 0x08
+mems_status_t LSM6DSL_ACC_GYRO_R_WU_EV_STATUS(void *handle, LSM6DSL_ACC_GYRO_WU_EV_STATUS_t *value);
+
+/*******************************************************************************
+* Register : WAKE_UP_SRC
+* Address : 0X1B
+* Bit Group Name: SLEEP_EV_STATUS
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_SLEEP_EV_STATUS_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_SLEEP_EV_STATUS_DETECTED =0x10,
+} LSM6DSL_ACC_GYRO_SLEEP_EV_STATUS_t;
+
+#define LSM6DSL_ACC_GYRO_SLEEP_EV_STATUS_MASK 0x10
+mems_status_t LSM6DSL_ACC_GYRO_R_SLEEP_EV_STATUS(void *handle, LSM6DSL_ACC_GYRO_SLEEP_EV_STATUS_t *value);
+
+/*******************************************************************************
+* Register : WAKE_UP_SRC
+* Address : 0X1B
+* Bit Group Name: FF_EV_STATUS
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_FF_EV_STATUS_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_FF_EV_STATUS_DETECTED =0x20,
+} LSM6DSL_ACC_GYRO_FF_EV_STATUS_t;
+
+#define LSM6DSL_ACC_GYRO_FF_EV_STATUS_MASK 0x20
+mems_status_t LSM6DSL_ACC_GYRO_R_FF_EV_STATUS(void *handle, LSM6DSL_ACC_GYRO_FF_EV_STATUS_t *value);
+
+/*******************************************************************************
+* Register : TAP_SRC
+* Address : 0X1C
+* Bit Group Name: Z_TAP
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_Z_TAP_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_Z_TAP_DETECTED =0x01,
+} LSM6DSL_ACC_GYRO_Z_TAP_t;
+
+#define LSM6DSL_ACC_GYRO_Z_TAP_MASK 0x01
+mems_status_t LSM6DSL_ACC_GYRO_R_Z_TAP(void *handle, LSM6DSL_ACC_GYRO_Z_TAP_t *value);
+
+/*******************************************************************************
+* Register : TAP_SRC
+* Address : 0X1C
+* Bit Group Name: Y_TAP
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_Y_TAP_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_Y_TAP_DETECTED =0x02,
+} LSM6DSL_ACC_GYRO_Y_TAP_t;
+
+#define LSM6DSL_ACC_GYRO_Y_TAP_MASK 0x02
+mems_status_t LSM6DSL_ACC_GYRO_R_Y_TAP(void *handle, LSM6DSL_ACC_GYRO_Y_TAP_t *value);
+
+/*******************************************************************************
+* Register : TAP_SRC
+* Address : 0X1C
+* Bit Group Name: X_TAP
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_X_TAP_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_X_TAP_DETECTED =0x04,
+} LSM6DSL_ACC_GYRO_X_TAP_t;
+
+#define LSM6DSL_ACC_GYRO_X_TAP_MASK 0x04
+mems_status_t LSM6DSL_ACC_GYRO_R_X_TAP(void *handle, LSM6DSL_ACC_GYRO_X_TAP_t *value);
+
+/*******************************************************************************
+* Register : TAP_SRC
+* Address : 0X1C
+* Bit Group Name: TAP_SIGN
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_TAP_SIGN_POS_SIGN =0x00,
+ LSM6DSL_ACC_GYRO_TAP_SIGN_NEG_SIGN =0x08,
+} LSM6DSL_ACC_GYRO_TAP_SIGN_t;
+
+#define LSM6DSL_ACC_GYRO_TAP_SIGN_MASK 0x08
+mems_status_t LSM6DSL_ACC_GYRO_R_TAP_SIGN(void *handle, LSM6DSL_ACC_GYRO_TAP_SIGN_t *value);
+
+/*******************************************************************************
+* Register : TAP_SRC
+* Address : 0X1C
+* Bit Group Name: DOUBLE_TAP_EV_STATUS
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_DOUBLE_TAP_EV_STATUS_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_DOUBLE_TAP_EV_STATUS_DETECTED =0x10,
+} LSM6DSL_ACC_GYRO_DOUBLE_TAP_EV_STATUS_t;
+
+#define LSM6DSL_ACC_GYRO_DOUBLE_TAP_EV_STATUS_MASK 0x10
+mems_status_t LSM6DSL_ACC_GYRO_R_DOUBLE_TAP_EV_STATUS(void *handle, LSM6DSL_ACC_GYRO_DOUBLE_TAP_EV_STATUS_t *value);
+
+/*******************************************************************************
+* Register : TAP_SRC
+* Address : 0X1C
+* Bit Group Name: SINGLE_TAP_EV_STATUS
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_SINGLE_TAP_EV_STATUS_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_SINGLE_TAP_EV_STATUS_DETECTED =0x20,
+} LSM6DSL_ACC_GYRO_SINGLE_TAP_EV_STATUS_t;
+
+#define LSM6DSL_ACC_GYRO_SINGLE_TAP_EV_STATUS_MASK 0x20
+mems_status_t LSM6DSL_ACC_GYRO_R_SINGLE_TAP_EV_STATUS(void *handle, LSM6DSL_ACC_GYRO_SINGLE_TAP_EV_STATUS_t *value);
+
+/*******************************************************************************
+* Register : TAP_SRC
+* Address : 0X1C
+* Bit Group Name: TAP_EV_STATUS
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_TAP_EV_STATUS_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_TAP_EV_STATUS_DETECTED =0x40,
+} LSM6DSL_ACC_GYRO_TAP_EV_STATUS_t;
+
+#define LSM6DSL_ACC_GYRO_TAP_EV_STATUS_MASK 0x40
+mems_status_t LSM6DSL_ACC_GYRO_R_TAP_EV_STATUS(void *handle, LSM6DSL_ACC_GYRO_TAP_EV_STATUS_t *value);
+
+/*******************************************************************************
+* Register : D6D_SRC
+* Address : 0X1D
+* Bit Group Name: DSD_XL
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_DSD_XL_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_DSD_XL_DETECTED =0x01,
+} LSM6DSL_ACC_GYRO_DSD_XL_t;
+
+#define LSM6DSL_ACC_GYRO_DSD_XL_MASK 0x01
+mems_status_t LSM6DSL_ACC_GYRO_R_DSD_XL(void *handle, LSM6DSL_ACC_GYRO_DSD_XL_t *value);
+
+/*******************************************************************************
+* Register : D6D_SRC
+* Address : 0X1D
+* Bit Group Name: DSD_XH
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_DSD_XH_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_DSD_XH_DETECTED =0x02,
+} LSM6DSL_ACC_GYRO_DSD_XH_t;
+
+#define LSM6DSL_ACC_GYRO_DSD_XH_MASK 0x02
+mems_status_t LSM6DSL_ACC_GYRO_R_DSD_XH(void *handle, LSM6DSL_ACC_GYRO_DSD_XH_t *value);
+
+/*******************************************************************************
+* Register : D6D_SRC
+* Address : 0X1D
+* Bit Group Name: DSD_YL
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_DSD_YL_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_DSD_YL_DETECTED =0x04,
+} LSM6DSL_ACC_GYRO_DSD_YL_t;
+
+#define LSM6DSL_ACC_GYRO_DSD_YL_MASK 0x04
+mems_status_t LSM6DSL_ACC_GYRO_R_DSD_YL(void *handle, LSM6DSL_ACC_GYRO_DSD_YL_t *value);
+
+/*******************************************************************************
+* Register : D6D_SRC
+* Address : 0X1D
+* Bit Group Name: DSD_YH
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_DSD_YH_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_DSD_YH_DETECTED =0x08,
+} LSM6DSL_ACC_GYRO_DSD_YH_t;
+
+#define LSM6DSL_ACC_GYRO_DSD_YH_MASK 0x08
+mems_status_t LSM6DSL_ACC_GYRO_R_DSD_YH(void *handle, LSM6DSL_ACC_GYRO_DSD_YH_t *value);
+
+/*******************************************************************************
+* Register : D6D_SRC
+* Address : 0X1D
+* Bit Group Name: DSD_ZL
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_DSD_ZL_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_DSD_ZL_DETECTED =0x10,
+} LSM6DSL_ACC_GYRO_DSD_ZL_t;
+
+#define LSM6DSL_ACC_GYRO_DSD_ZL_MASK 0x10
+mems_status_t LSM6DSL_ACC_GYRO_R_DSD_ZL(void *handle, LSM6DSL_ACC_GYRO_DSD_ZL_t *value);
+
+/*******************************************************************************
+* Register : D6D_SRC
+* Address : 0X1D
+* Bit Group Name: DSD_ZH
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_DSD_ZH_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_DSD_ZH_DETECTED =0x20,
+} LSM6DSL_ACC_GYRO_DSD_ZH_t;
+
+#define LSM6DSL_ACC_GYRO_DSD_ZH_MASK 0x20
+mems_status_t LSM6DSL_ACC_GYRO_R_DSD_ZH(void *handle, LSM6DSL_ACC_GYRO_DSD_ZH_t *value);
+
+/*******************************************************************************
+* Register : D6D_SRC
+* Address : 0X1D
+* Bit Group Name: D6D_EV_STATUS
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_D6D_EV_STATUS_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_D6D_EV_STATUS_DETECTED =0x40,
+} LSM6DSL_ACC_GYRO_D6D_EV_STATUS_t;
+
+#define LSM6DSL_ACC_GYRO_D6D_EV_STATUS_MASK 0x40
+mems_status_t LSM6DSL_ACC_GYRO_R_D6D_EV_STATUS(void *handle, LSM6DSL_ACC_GYRO_D6D_EV_STATUS_t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG
+* Address : 0X1E
+* Bit Group Name: XLDA
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_XLDA_NO_DATA_AVAIL =0x00,
+ LSM6DSL_ACC_GYRO_XLDA_DATA_AVAIL =0x01,
+} LSM6DSL_ACC_GYRO_XLDA_t;
+
+#define LSM6DSL_ACC_GYRO_XLDA_MASK 0x01
+mems_status_t LSM6DSL_ACC_GYRO_R_XLDA(void *handle, LSM6DSL_ACC_GYRO_XLDA_t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG
+* Address : 0X1E
+* Bit Group Name: GDA
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_GDA_NO_DATA_AVAIL =0x00,
+ LSM6DSL_ACC_GYRO_GDA_DATA_AVAIL =0x02,
+} LSM6DSL_ACC_GYRO_GDA_t;
+
+#define LSM6DSL_ACC_GYRO_GDA_MASK 0x02
+mems_status_t LSM6DSL_ACC_GYRO_R_GDA(void *handle, LSM6DSL_ACC_GYRO_GDA_t *value);
+
+/*******************************************************************************
+* Register : STATUS_REG
+* Address : 0X1E
+* Bit Group Name: TDA
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_TDA_NO_DATA_AVAIL =0x00,
+ LSM6DSL_ACC_GYRO_TDA_DATA_AVAIL =0x04,
+} LSM6DSL_ACC_GYRO_TDA_t;
+
+#define LSM6DSL_ACC_GYRO_TDA_MASK 0x04
+mems_status_t LSM6DSL_ACC_GYRO_R_TDA(void *handle, LSM6DSL_ACC_GYRO_TDA_t *value);
+
+/*******************************************************************************
+* Register : FIFO_STATUS1
+* Address : 0X3A
+* Bit Group Name: DIFF_FIFO
+* Permission : RO
+*******************************************************************************/
+#define LSM6DSL_ACC_GYRO_DIFF_FIFO_STATUS1_MASK 0xFF
+#define LSM6DSL_ACC_GYRO_DIFF_FIFO_STATUS1_POSITION 0
+#define LSM6DSL_ACC_GYRO_DIFF_FIFO_STATUS2_MASK 0xF
+#define LSM6DSL_ACC_GYRO_DIFF_FIFO_STATUS2_POSITION 0
+mems_status_t LSM6DSL_ACC_GYRO_R_FIFONumOfEntries(void *handle, u16_t *value);
+
+/*******************************************************************************
+* Register : FIFO_STATUS2
+* Address : 0X3B
+* Bit Group Name: FIFO_EMPTY
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_FIFO_EMPTY_FIFO_NOT_EMPTY =0x00,
+ LSM6DSL_ACC_GYRO_FIFO_EMPTY_FIFO_EMPTY =0x10,
+} LSM6DSL_ACC_GYRO_FIFO_EMPTY_t;
+
+#define LSM6DSL_ACC_GYRO_FIFO_EMPTY_MASK 0x10
+mems_status_t LSM6DSL_ACC_GYRO_R_FIFOEmpty(void *handle, LSM6DSL_ACC_GYRO_FIFO_EMPTY_t *value);
+
+/*******************************************************************************
+* Register : FIFO_STATUS2
+* Address : 0X3B
+* Bit Group Name: FIFO_FULL
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_FIFO_FULL_FIFO_NOT_FULL =0x00,
+ LSM6DSL_ACC_GYRO_FIFO_FULL_FIFO_FULL =0x20,
+} LSM6DSL_ACC_GYRO_FIFO_FULL_t;
+
+#define LSM6DSL_ACC_GYRO_FIFO_FULL_MASK 0x20
+mems_status_t LSM6DSL_ACC_GYRO_R_FIFOFull(void *handle, LSM6DSL_ACC_GYRO_FIFO_FULL_t *value);
+
+/*******************************************************************************
+* Register : FIFO_STATUS2
+* Address : 0X3B
+* Bit Group Name: OVERRUN
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_OVERRUN_NO_OVERRUN =0x00,
+ LSM6DSL_ACC_GYRO_OVERRUN_OVERRUN =0x40,
+} LSM6DSL_ACC_GYRO_OVERRUN_t;
+
+#define LSM6DSL_ACC_GYRO_OVERRUN_MASK 0x40
+mems_status_t LSM6DSL_ACC_GYRO_R_OVERRUN(void *handle, LSM6DSL_ACC_GYRO_OVERRUN_t *value);
+
+/*******************************************************************************
+* Register : FIFO_STATUS2
+* Address : 0X3B
+* Bit Group Name: WTM
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_WTM_BELOW_WTM =0x00,
+ LSM6DSL_ACC_GYRO_WTM_ABOVE_OR_EQUAL_WTM =0x80,
+} LSM6DSL_ACC_GYRO_WTM_t;
+
+#define LSM6DSL_ACC_GYRO_WTM_MASK 0x80
+mems_status_t LSM6DSL_ACC_GYRO_R_WaterMark(void *handle, LSM6DSL_ACC_GYRO_WTM_t *value);
+
+/*******************************************************************************
+* Register : FIFO_STATUS3
+* Address : 0X3C
+* Bit Group Name: FIFO_PATTERN
+* Permission : RO
+*******************************************************************************/
+#define LSM6DSL_ACC_GYRO_FIFO_STATUS3_PATTERN_MASK 0xFF
+#define LSM6DSL_ACC_GYRO_FIFO_STATUS3_PATTERN_POSITION 0
+#define LSM6DSL_ACC_GYRO_FIFO_STATUS4_PATTERN_MASK 0x03
+#define LSM6DSL_ACC_GYRO_FIFO_STATUS4_PATTERN_POSITION 0
+mems_status_t LSM6DSL_ACC_GYRO_R_FIFOPattern(void *handle, u16_t *value);
+
+/*******************************************************************************
+* Register : FUNC_SRC
+* Address : 0X53
+* Bit Group Name: SENS_HUB_END
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_SENS_HUB_END_STILL_ONGOING =0x00,
+ LSM6DSL_ACC_GYRO_SENS_HUB_END_OP_COMPLETED =0x01,
+} LSM6DSL_ACC_GYRO_SENS_HUB_END_t;
+
+#define LSM6DSL_ACC_GYRO_SENS_HUB_END_MASK 0x01
+mems_status_t LSM6DSL_ACC_GYRO_R_SENS_HUB_END(void *handle, LSM6DSL_ACC_GYRO_SENS_HUB_END_t *value);
+
+/*******************************************************************************
+* Register : FUNC_SRC
+* Address : 0X53
+* Bit Group Name: SOFT_IRON_END
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_SOFT_IRON_END_NOT_COMPLETED =0x00,
+ LSM6DSL_ACC_GYRO_SOFT_IRON_END_COMPLETED =0x02,
+} LSM6DSL_ACC_GYRO_SOFT_IRON_END_t;
+
+#define LSM6DSL_ACC_GYRO_SOFT_IRON_END_MASK 0x02
+mems_status_t LSM6DSL_ACC_GYRO_R_SOFT_IRON_END(void *handle, LSM6DSL_ACC_GYRO_SOFT_IRON_END_t *value);
+
+/*******************************************************************************
+* Register : FUNC_SRC
+* Address : 0X53
+* Bit Group Name: HI_FAIL
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_HARD_IRON_NORMAL =0x00,
+ LSM6DSL_ACC_GYRO_HARD_IRON_FAIL =0x04,
+} LSM6DSL_ACC_GYRO_SOFT_HARD_IRON_STAT_t;
+
+#define LSM6DSL_ACC_GYRO_HARD_IRON_STAT_MASK 0x04
+mems_status_t LSM6DSL_ACC_GYRO_R_HardIron(void *handle, LSM6DSL_ACC_GYRO_SOFT_HARD_IRON_STAT_t *value);
+
+/*******************************************************************************
+* Register : FUNC_SRC
+* Address : 0X53
+* Bit Group Name: STEP_OVERFLOW
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_PEDO_STEP_IN_RANGE =0x00,
+ LSM6DSL_ACC_GYRO_PEDO_ESTEP_OVERFLOW =0x08,
+} LSM6DSL_ACC_GYRO_STEP_OVERFLOW_t;
+
+#define LSM6DSL_ACC_GYRO_STEP_OVERFLOW_MASK 0x08
+mems_status_t LSM6DSL_ACC_GYRO_R_STEP_OVERFLOW(void *handle, LSM6DSL_ACC_GYRO_STEP_OVERFLOW_t *value);
+
+/*******************************************************************************
+* Register : FUNC_SRC
+* Address : 0X53
+* Bit Group Name: PEDO_EV_STATUS
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_PEDO_EV_STATUS_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_PEDO_EV_STATUS_DETECTED =0x10,
+} LSM6DSL_ACC_GYRO_PEDO_EV_STATUS_t;
+
+#define LSM6DSL_ACC_GYRO_PEDO_EV_STATUS_MASK 0x10
+mems_status_t LSM6DSL_ACC_GYRO_R_PEDO_EV_STATUS(void *handle, LSM6DSL_ACC_GYRO_PEDO_EV_STATUS_t *value);
+
+/*******************************************************************************
+* Register : FUNC_SRC
+* Address : 0X53
+* Bit Group Name: TILT_EV_STATUS
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_TILT_EV_STATUS_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_TILT_EV_STATUS_DETECTED =0x20,
+} LSM6DSL_ACC_GYRO_TILT_EV_STATUS_t;
+
+#define LSM6DSL_ACC_GYRO_TILT_EV_STATUS_MASK 0x20
+mems_status_t LSM6DSL_ACC_GYRO_R_TILT_EV_STATUS(void *handle, LSM6DSL_ACC_GYRO_TILT_EV_STATUS_t *value);
+
+/*******************************************************************************
+* Register : FUNC_SRC
+* Address : 0X53
+* Bit Group Name: SIGN_MOT_EV_STATUS
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_SIGN_MOT_EV_STATUS_NOT_DETECTED =0x00,
+ LSM6DSL_ACC_GYRO_SIGN_MOT_EV_STATUS_DETECTED =0x40,
+} LSM6DSL_ACC_GYRO_SIGN_MOT_EV_STATUS_t;
+
+#define LSM6DSL_ACC_GYRO_SIGN_MOT_EV_STATUS_MASK 0x40
+mems_status_t LSM6DSL_ACC_GYRO_R_SIGN_MOT_EV_STATUS(void *handle, LSM6DSL_ACC_GYRO_SIGN_MOT_EV_STATUS_t *value);
+
+/*******************************************************************************
+* Register : FUNC_SRC
+* Address : 0X53
+* Bit Group Name: STEP_COUNT_DELTA_IA
+* Permission : RO
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_NO_STEP_COUNT_IN_DELTA =0x00,
+ LSM6DSL_ACC_GYRO_STEP_COUNT_IN_DELTA =0x80,
+} LSM6DSL_ACC_GYRO_STEP_COUNT_DELTA_t;
+
+#define LSM6DSL_ACC_GYRO_STEP_COUNT_DELTA_MASK 0x80
+mems_status_t LSM6DSL_ACC_GYRO_R_STEP_COUNT_DELTA(void *handle, LSM6DSL_ACC_GYRO_STEP_COUNT_DELTA_t *value);
+
+/*******************************************************************************
+* Register : TAP_CFG1
+* Address : 0X58
+* Bit Group Name: LIR
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_LIR_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_LIR_ENABLED =0x01,
+} LSM6DSL_ACC_GYRO_LIR_t;
+
+#define LSM6DSL_ACC_GYRO_LIR_MASK 0x01
+mems_status_t LSM6DSL_ACC_GYRO_W_LIR(void *handle, LSM6DSL_ACC_GYRO_LIR_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_LIR(void *handle, LSM6DSL_ACC_GYRO_LIR_t *value);
+
+/*******************************************************************************
+* Register : TAP_CFG1
+* Address : 0X58
+* Bit Group Name: TAP_Z_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_TAP_Z_EN_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_TAP_Z_EN_ENABLED =0x02,
+} LSM6DSL_ACC_GYRO_TAP_Z_EN_t;
+
+#define LSM6DSL_ACC_GYRO_TAP_Z_EN_MASK 0x02
+mems_status_t LSM6DSL_ACC_GYRO_W_TAP_Z_EN(void *handle, LSM6DSL_ACC_GYRO_TAP_Z_EN_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_TAP_Z_EN(void *handle, LSM6DSL_ACC_GYRO_TAP_Z_EN_t *value);
+
+/*******************************************************************************
+* Register : TAP_CFG1
+* Address : 0X58
+* Bit Group Name: TAP_Y_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_TAP_Y_EN_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_TAP_Y_EN_ENABLED =0x04,
+} LSM6DSL_ACC_GYRO_TAP_Y_EN_t;
+
+#define LSM6DSL_ACC_GYRO_TAP_Y_EN_MASK 0x04
+mems_status_t LSM6DSL_ACC_GYRO_W_TAP_Y_EN(void *handle, LSM6DSL_ACC_GYRO_TAP_Y_EN_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_TAP_Y_EN(void *handle, LSM6DSL_ACC_GYRO_TAP_Y_EN_t *value);
+
+/*******************************************************************************
+* Register : TAP_CFG1
+* Address : 0X58
+* Bit Group Name: TAP_X_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_TAP_X_EN_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_TAP_X_EN_ENABLED =0x08,
+} LSM6DSL_ACC_GYRO_TAP_X_EN_t;
+
+#define LSM6DSL_ACC_GYRO_TAP_X_EN_MASK 0x08
+mems_status_t LSM6DSL_ACC_GYRO_W_TAP_X_EN(void *handle, LSM6DSL_ACC_GYRO_TAP_X_EN_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_TAP_X_EN(void *handle, LSM6DSL_ACC_GYRO_TAP_X_EN_t *value);
+/*******************************************************************************
+* Register : TAP_CFG1
+* Address : 0X58
+* Bit Group Name: SLOPE_FDS
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_SLOPE_FDS_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_SLOPE_FDS_ENABLED =0x10,
+} LSM6DSL_ACC_GYRO_SLOPE_FDS_t;
+
+#define LSM6DSL_ACC_GYRO_SLOPE_FDS_MASK 0x10
+mems_status_t LSM6DSL_ACC_GYRO_W_SLOPE_FDS(void *handle, LSM6DSL_ACC_GYRO_SLOPE_FDS_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_SLOPE_FDS(void *handle, LSM6DSL_ACC_GYRO_SLOPE_FDS_t *value);
+
+/*******************************************************************************
+* Register : TAP_CFG1
+* Address : 0X58
+* Bit Group Name: INTERRUPTS_ENABLE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_BASIC_INT_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_BASIC_INT_ENABLED =0x80,
+} LSM6DSL_ACC_GYRO_INT_EN_t;
+
+#define LSM6DSL_ACC_GYRO_INT_EN_MASK 0x80
+mems_status_t LSM6DSL_ACC_GYRO_W_BASIC_INT(void *handle, LSM6DSL_ACC_GYRO_INT_EN_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_BASIC_INT(void *handle, LSM6DSL_ACC_GYRO_INT_EN_t *value);
+
+/*******************************************************************************
+* Register : TAP_THS_6D
+* Address : 0X59
+* Bit Group Name: TAP_THS
+* Permission : RW
+*******************************************************************************/
+#define LSM6DSL_ACC_GYRO_TAP_THS_MASK 0x1F
+#define LSM6DSL_ACC_GYRO_TAP_THS_POSITION 0
+mems_status_t LSM6DSL_ACC_GYRO_W_TAP_THS(void *handle, u8_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_TAP_THS(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : TAP_THS_6D
+* Address : 0X59
+* Bit Group Name: SIXD_THS
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_SIXD_THS_80_degree =0x00,
+ LSM6DSL_ACC_GYRO_SIXD_THS_70_degree =0x20,
+ LSM6DSL_ACC_GYRO_SIXD_THS_60_degree =0x40,
+ LSM6DSL_ACC_GYRO_SIXD_THS_50_degree =0x60,
+} LSM6DSL_ACC_GYRO_SIXD_THS_t;
+
+#define LSM6DSL_ACC_GYRO_SIXD_THS_MASK 0x60
+mems_status_t LSM6DSL_ACC_GYRO_W_SIXD_THS(void *handle, LSM6DSL_ACC_GYRO_SIXD_THS_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_SIXD_THS(void *handle, LSM6DSL_ACC_GYRO_SIXD_THS_t *value);
+
+/*******************************************************************************
+* Register : TAP_THS_6D
+* Address : 0X59
+* Bit Group Name: D4D_EN
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_D4D_DIS =0x00,
+ LSM6DSL_ACC_GYRO_D4D_EN =0x80,
+} LSM6DSL_ACC_GYRO_D4D_t;
+
+#define LSM6DSL_ACC_GYRO_D4D_MASK 0x80
+mems_status_t LSM6DSL_ACC_GYRO_W_D4D(void *handle, LSM6DSL_ACC_GYRO_D4D_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_D4D(void *handle, LSM6DSL_ACC_GYRO_D4D_t *value);
+
+/*******************************************************************************
+* Register : INT_DUR2
+* Address : 0X5A
+* Bit Group Name: SHOCK
+* Permission : RW
+*******************************************************************************/
+#define LSM6DSL_ACC_GYRO_SHOCK_MASK 0x03
+#define LSM6DSL_ACC_GYRO_SHOCK_POSITION 0
+mems_status_t LSM6DSL_ACC_GYRO_W_SHOCK_Duration(void *handle, u8_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_SHOCK_Duration(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : INT_DUR2
+* Address : 0X5A
+* Bit Group Name: QUIET
+* Permission : RW
+*******************************************************************************/
+#define LSM6DSL_ACC_GYRO_QUIET_MASK 0x0C
+#define LSM6DSL_ACC_GYRO_QUIET_POSITION 2
+mems_status_t LSM6DSL_ACC_GYRO_W_QUIET_Duration(void *handle, u8_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_QUIET_Duration(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : INT_DUR2
+* Address : 0X5A
+* Bit Group Name: DUR
+* Permission : RW
+*******************************************************************************/
+#define LSM6DSL_ACC_GYRO_DUR_MASK 0xF0
+#define LSM6DSL_ACC_GYRO_DUR_POSITION 4
+mems_status_t LSM6DSL_ACC_GYRO_W_DUR(void *handle, u8_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_DUR(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : WAKE_UP_THS
+* Address : 0X5B
+* Bit Group Name: WK_THS
+* Permission : RW
+*******************************************************************************/
+#define LSM6DSL_ACC_GYRO_WK_THS_MASK 0x3F
+#define LSM6DSL_ACC_GYRO_WK_THS_POSITION 0
+mems_status_t LSM6DSL_ACC_GYRO_W_WK_THS(void *handle, u8_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_WK_THS(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : WAKE_UP_THS
+* Address : 0X5B
+* Bit Group Name: SINGLE_DOUBLE_TAP
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_SINGLE_DOUBLE_TAP_SINGLE_TAP =0x00,
+ LSM6DSL_ACC_GYRO_SINGLE_DOUBLE_TAP_DOUBLE_TAP =0x80,
+} LSM6DSL_ACC_GYRO_SINGLE_DOUBLE_TAP_t;
+
+#define LSM6DSL_ACC_GYRO_SINGLE_DOUBLE_TAP_MASK 0x80
+mems_status_t LSM6DSL_ACC_GYRO_W_SINGLE_DOUBLE_TAP_EV(void *handle, LSM6DSL_ACC_GYRO_SINGLE_DOUBLE_TAP_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_SINGLE_DOUBLE_TAP_EV(void *handle, LSM6DSL_ACC_GYRO_SINGLE_DOUBLE_TAP_t *value);
+
+/*******************************************************************************
+* Register : WAKE_UP_DUR
+* Address : 0X5C
+* Bit Group Name: SLEEP_DUR
+* Permission : RW
+*******************************************************************************/
+#define LSM6DSL_ACC_GYRO_SLEEP_DUR_MASK 0x0F
+#define LSM6DSL_ACC_GYRO_SLEEP_DUR_POSITION 0
+mems_status_t LSM6DSL_ACC_GYRO_W_SLEEP_DUR(void *handle, u8_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_SLEEP_DUR(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : WAKE_UP_DUR
+* Address : 0X5C
+* Bit Group Name: TIMER_HR
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_TIMER_HR_6_4ms =0x00,
+ LSM6DSL_ACC_GYRO_TIMER_HR_25us =0x10,
+} LSM6DSL_ACC_GYRO_TIMER_HR_t;
+
+#define LSM6DSL_ACC_GYRO_TIMER_HR_MASK 0x10
+mems_status_t LSM6DSL_ACC_GYRO_W_TIMER_HR(void *handle, LSM6DSL_ACC_GYRO_TIMER_HR_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_TIMER_HR(void *handle, LSM6DSL_ACC_GYRO_TIMER_HR_t *value);
+
+/*******************************************************************************
+* Register : WAKE_UP_DUR
+* Address : 0X5C
+* Bit Group Name: WAKE_DUR
+* Permission : RW
+*******************************************************************************/
+#define LSM6DSL_ACC_GYRO_WAKE_DUR_MASK 0x60
+#define LSM6DSL_ACC_GYRO_WAKE_DUR_POSITION 5
+mems_status_t LSM6DSL_ACC_GYRO_W_WAKE_DUR(void *handle, u8_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_WAKE_DUR(void *handle, u8_t *value);
+
+/*******************************************************************************
+* Register : FREE_FALL
+* Address : 0X5D
+* Bit Group Name: FF_DUR
+* Permission : RW
+*******************************************************************************/
+#define LSM6DSL_ACC_GYRO_FF_FREE_FALL_DUR_MASK 0xF8
+#define LSM6DSL_ACC_GYRO_FF_FREE_FALL_DUR_POSITION 3
+#define LSM6DSL_ACC_GYRO_FF_WAKE_UP_DUR_MASK 0x80
+#define LSM6DSL_ACC_GYRO_FF_WAKE_UP_DUR_POSITION 7
+mems_status_t LSM6DSL_ACC_GYRO_W_FF_Duration(void *handle, u8_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_FF_Duration(void *handle, u8_t *value);
+
+
+/*******************************************************************************
+* Register : FREE_FALL
+* Address : 0X5D
+* Bit Group Name: FF_THS
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_FF_THS_156mg =0x00,
+ LSM6DSL_ACC_GYRO_FF_THS_219mg =0x01,
+ LSM6DSL_ACC_GYRO_FF_THS_250mg =0x02,
+ LSM6DSL_ACC_GYRO_FF_THS_312mg =0x03,
+ LSM6DSL_ACC_GYRO_FF_THS_344mg =0x04,
+ LSM6DSL_ACC_GYRO_FF_THS_406mg =0x05,
+ LSM6DSL_ACC_GYRO_FF_THS_469mg =0x06,
+ LSM6DSL_ACC_GYRO_FF_THS_500mg =0x07,
+} LSM6DSL_ACC_GYRO_FF_THS_t;
+
+#define LSM6DSL_ACC_GYRO_FF_THS_MASK 0x07
+mems_status_t LSM6DSL_ACC_GYRO_W_FF_THS(void *handle, LSM6DSL_ACC_GYRO_FF_THS_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_FF_THS(void *handle, LSM6DSL_ACC_GYRO_FF_THS_t *value);
+
+/*******************************************************************************
+* Register : MD1_CFG
+* Address : 0X5E
+* Bit Group Name: INT1_TIMER
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT1_TIMER_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT1_TIMER_ENABLED =0x01,
+} LSM6DSL_ACC_GYRO_INT1_TIMER_t;
+
+#define LSM6DSL_ACC_GYRO_INT1_TIMER_MASK 0x01
+mems_status_t LSM6DSL_ACC_GYRO_W_TimerEvRouteInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_TIMER_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_TimerEvRouteInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_TIMER_t *value);
+
+/*******************************************************************************
+* Register : MD1_CFG
+* Address : 0X5E
+* Bit Group Name: INT1_TILT
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT1_TILT_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT1_TILT_ENABLED =0x02,
+} LSM6DSL_ACC_GYRO_INT1_TILT_t;
+
+#define LSM6DSL_ACC_GYRO_INT1_TILT_MASK 0x02
+mems_status_t LSM6DSL_ACC_GYRO_W_TiltEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_TILT_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_TiltEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_TILT_t *value);
+
+/*******************************************************************************
+* Register : MD1_CFG
+* Address : 0X5E
+* Bit Group Name: INT1_6D
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT1_6D_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT1_6D_ENABLED =0x04,
+} LSM6DSL_ACC_GYRO_INT1_6D_t;
+
+#define LSM6DSL_ACC_GYRO_INT1_6D_MASK 0x04
+mems_status_t LSM6DSL_ACC_GYRO_W_6DEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_6D_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_6DEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_6D_t *value);
+
+/*******************************************************************************
+* Register : MD1_CFG
+* Address : 0X5E
+* Bit Group Name: INT1_TAP
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT1_TAP_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT1_TAP_ENABLED =0x08,
+} LSM6DSL_ACC_GYRO_INT1_TAP_t;
+
+#define LSM6DSL_ACC_GYRO_INT1_TAP_MASK 0x08
+mems_status_t LSM6DSL_ACC_GYRO_W_TapEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_TAP_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_TapEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_TAP_t *value);
+
+/*******************************************************************************
+* Register : MD1_CFG
+* Address : 0X5E
+* Bit Group Name: INT1_FF
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT1_FF_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT1_FF_ENABLED =0x10,
+} LSM6DSL_ACC_GYRO_INT1_FF_t;
+
+#define LSM6DSL_ACC_GYRO_INT1_FF_MASK 0x10
+mems_status_t LSM6DSL_ACC_GYRO_W_FFEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_FF_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_FFEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_FF_t *value);
+
+/*******************************************************************************
+* Register : MD1_CFG
+* Address : 0X5E
+* Bit Group Name: INT1_WU
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT1_WU_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT1_WU_ENABLED =0x20,
+} LSM6DSL_ACC_GYRO_INT1_WU_t;
+
+#define LSM6DSL_ACC_GYRO_INT1_WU_MASK 0x20
+mems_status_t LSM6DSL_ACC_GYRO_W_WUEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_WU_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_WUEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_WU_t *value);
+
+/*******************************************************************************
+* Register : MD1_CFG
+* Address : 0X5E
+* Bit Group Name: INT1_SINGLE_TAP
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT1_SINGLE_TAP_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT1_SINGLE_TAP_ENABLED =0x40,
+} LSM6DSL_ACC_GYRO_INT1_SINGLE_TAP_t;
+
+#define LSM6DSL_ACC_GYRO_INT1_SINGLE_TAP_MASK 0x40
+mems_status_t LSM6DSL_ACC_GYRO_W_SingleTapOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_SINGLE_TAP_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_SingleTapOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_SINGLE_TAP_t *value);
+
+/*******************************************************************************
+* Register : MD1_CFG
+* Address : 0X5E
+* Bit Group Name: INT1_INACT_STATE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT1_SLEEP_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT1_SLEEP_ENABLED =0x80,
+} LSM6DSL_ACC_GYRO_INT1_SLEEP_t;
+
+#define LSM6DSL_ACC_GYRO_INT1_SLEEP_MASK 0x80
+mems_status_t LSM6DSL_ACC_GYRO_W_SleepEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_SLEEP_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_SleepEvOnInt1(void *handle, LSM6DSL_ACC_GYRO_INT1_SLEEP_t *value);
+
+/*******************************************************************************
+* Register : MD2_CFG
+* Address : 0X5F
+* Bit Group Name: INT2_IRON
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT2_IRON_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT2_IRON_ENABLED =0x01,
+} LSM6DSL_ACC_GYRO_INT2_IRON_t;
+
+#define LSM6DSL_ACC_GYRO_INT2_IRON_MASK 0x01
+mems_status_t LSM6DSL_ACC_GYRO_W_MagCorrection_Int2(void *handle, LSM6DSL_ACC_GYRO_INT2_IRON_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_MagCorrection_Int2(void *handle, LSM6DSL_ACC_GYRO_INT2_IRON_t *value);
+
+/*******************************************************************************
+* Register : MD2_CFG
+* Address : 0X5F
+* Bit Group Name: INT2_TILT
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT2_TILT_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT2_TILT_ENABLED =0x02,
+} LSM6DSL_ACC_GYRO_INT2_TILT_t;
+
+#define LSM6DSL_ACC_GYRO_INT2_TILT_MASK 0x02
+mems_status_t LSM6DSL_ACC_GYRO_W_TiltEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_TILT_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_TiltEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_TILT_t *value);
+
+/*******************************************************************************
+* Register : MD2_CFG
+* Address : 0X5F
+* Bit Group Name: INT2_6D
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT2_6D_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT2_6D_ENABLED =0x04,
+} LSM6DSL_ACC_GYRO_INT2_6D_t;
+
+#define LSM6DSL_ACC_GYRO_INT2_6D_MASK 0x04
+mems_status_t LSM6DSL_ACC_GYRO_W_6DEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_6D_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_6DEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_6D_t *value);
+
+/*******************************************************************************
+* Register : MD2_CFG
+* Address : 0X5F
+* Bit Group Name: INT2_TAP
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT2_TAP_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT2_TAP_ENABLED =0x08,
+} LSM6DSL_ACC_GYRO_INT2_TAP_t;
+
+#define LSM6DSL_ACC_GYRO_INT2_TAP_MASK 0x08
+mems_status_t LSM6DSL_ACC_GYRO_W_TapEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_TAP_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_TapEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_TAP_t *value);
+
+/*******************************************************************************
+* Register : MD2_CFG
+* Address : 0X5F
+* Bit Group Name: INT2_FF
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT2_FF_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT2_FF_ENABLED =0x10,
+} LSM6DSL_ACC_GYRO_INT2_FF_t;
+
+#define LSM6DSL_ACC_GYRO_INT2_FF_MASK 0x10
+mems_status_t LSM6DSL_ACC_GYRO_W_FFEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_FF_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_FFEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_FF_t *value);
+
+/*******************************************************************************
+* Register : MD2_CFG
+* Address : 0X5F
+* Bit Group Name: INT2_WU
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT2_WU_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT2_WU_ENABLED =0x20,
+} LSM6DSL_ACC_GYRO_INT2_WU_t;
+
+#define LSM6DSL_ACC_GYRO_INT2_WU_MASK 0x20
+mems_status_t LSM6DSL_ACC_GYRO_W_WUEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_WU_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_WUEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_WU_t *value);
+
+/*******************************************************************************
+* Register : MD2_CFG
+* Address : 0X5F
+* Bit Group Name: INT2_SINGLE_TAP
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT2_SINGLE_TAP_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT2_SINGLE_TAP_ENABLED =0x40,
+} LSM6DSL_ACC_GYRO_INT2_SINGLE_TAP_t;
+
+#define LSM6DSL_ACC_GYRO_INT2_SINGLE_TAP_MASK 0x40
+mems_status_t LSM6DSL_ACC_GYRO_W_SingleTapOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_SINGLE_TAP_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_SingleTapOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_SINGLE_TAP_t *value);
+
+/*******************************************************************************
+* Register : MD2_CFG
+* Address : 0X5F
+* Bit Group Name: INT2_INACT_STATE
+* Permission : RW
+*******************************************************************************/
+typedef enum {
+ LSM6DSL_ACC_GYRO_INT2_SLEEP_DISABLED =0x00,
+ LSM6DSL_ACC_GYRO_INT2_SLEEP_ENABLED =0x80,
+} LSM6DSL_ACC_GYRO_INT2_SLEEP_t;
+
+#define LSM6DSL_ACC_GYRO_INT2_SLEEP_MASK 0x80
+mems_status_t LSM6DSL_ACC_GYRO_W_SleepEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_SLEEP_t newValue);
+mems_status_t LSM6DSL_ACC_GYRO_R_SleepEvOnInt2(void *handle, LSM6DSL_ACC_GYRO_INT2_SLEEP_t *value);
+
+/*******************************************************************************
+* Register : <REGISTER_L> - <REGISTER_H>
+* Output Type : GetAccData
+* Permission : RO
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_GetRawAccData(void *handle, u8_t *buff);
+mems_status_t LSM6DSL_ACC_Get_Acceleration(void *handle, int *buff, u8_t from_fifo);
+
+/*******************************************************************************
+* Register : <REGISTER_L> - <REGISTER_H>
+* Output Type : GetFIFOData
+* Permission : RO
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_Get_GetFIFOData(void *handle, u8_t *buff);
+/*******************************************************************************
+* Register : <REGISTER_L> - <REGISTER_H>
+* Output Type : GetTimestamp
+* Permission : RO
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_Get_GetTimestamp(void *handle, u8_t *buff);
+/*******************************************************************************
+* Register : <REGISTER_L> - <REGISTER_H>
+* Output Type : GetStepCounter
+* Permission : RO
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_Get_GetStepCounter(void *handle, u8_t *buff);
+
+/*******************************************************************************
+* Register : <REGISTER_L> - <REGISTER_H>
+* Output Type : Pedometer Threshold
+* Permission : RO
+*******************************************************************************/
+mems_status_t LSM6DSL_ACC_GYRO_W_PedoThreshold(void *handle, u8_t newValue);
+
+/************** Use Sensor Hub *******************/
+
+/* program to .... */
+mems_status_t LSM6DSL_ACC_GYRO_SH0_Program(void *handle, u8_t SlvAddr, u8_t Reg, u8_t len);
+
+/* Program the six Soft Iron Matrix coefficients. */
+mems_status_t LSM6DSL_ACC_GYRO_SH_init_SI_Matrix(void *handle, u8_t *SI_matrix);
+
+/* Read a remote device through I2C Sensor Hub Slave 0 */
+mems_status_t LSM6DSL_ACC_GYRO_SH0_ReadMem(void *handle, u8_t SlvAddr, u8_t Reg, u8_t *Bufp, u8_t len, u8_t stop);
+
+/* Write a remote device through I2C Sensor Hub Slave 0 */
+mems_status_t LSM6DSL_ACC_GYRO_SH0_WriteByte(void *handle, u8_t SlvAddr, u8_t Reg, u8_t Bufp);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/ST_INTERFACES/Actuators/BDCMotor.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,162 @@
+/**
+ ******************************************************************************
+ * @file BDCMotor.h
+ * @author IPC Rennes
+ * @version V1.0.0
+ * @date April 6th, 2016
+ * @brief This file contains the abstract class describing the interface of a
+ * Brush DC motor component.
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Define to prevent from recursive inclusion --------------------------------*/
+
+#ifndef __BDCMOTOR_CLASS_H
+#define __BDCMOTOR_CLASS_H
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include <Component.h>
+
+
+/* Classes ------------------------------------------------------------------*/
+
+/**
+ * An abstract class for BDCMotor components.
+ */
+class BDCMotor : public Component {
+public:
+
+ /**
+ * @brief Rotation modes.
+ */
+ typedef enum {
+ BWD = 0, /* Backward. */
+ FWD = 1 /* Forward. */
+ } direction_t;
+
+ /**
+ * @brief Disabling the specified bridge.
+ * @param bridgeId from 0 for bridge A to 1 for bridge B.
+ * @retval None.
+ */
+ virtual void disable_bridge(unsigned int) = 0;
+
+ /**
+ * @brief Enabling the specified bridge.
+ * @param bridgeId from 0 for bridge A to 1 for bridge B
+ * @retval None.
+ */
+ virtual void enable_bridge(unsigned int) = 0;
+
+ /**
+ * @brief Getting the PWM frequency of the specified bridge;
+ * @param bridgeId from 0 for bridge A to 1 for bridge B.
+ * @retval The frequency in Hz of the specified bridge input PWM.
+ */
+ virtual unsigned int get_bridge_input_pwm_freq(unsigned int) = 0;
+
+ /**
+ * @brief Getting the bridge status.
+ * @param bridgeId from 0 for bridge A to 1 for bridge B.
+ * @retval The status.
+ */
+ virtual unsigned int get_bridge_status(unsigned int) = 0;
+
+ /**
+ * @brief Getting the device State.
+ * @param motorId from 0 to (MAX_NUMBER_OF_BRUSH_DC_MOTORS - 1).
+ * @retval The device state
+ */
+ virtual motorState_t get_device_state(unsigned int) = 0;
+
+ /**
+ * @brief Getting the current speed in % of the specified motor.
+ * @param motorId from 0 to (MAX_NUMBER_OF_BRUSH_DC_MOTORS - 1).
+ * @retval The current speed in %.
+ */
+ virtual unsigned int get_speed(unsigned int) = 0;
+
+ /**
+ * @brief Stopping the motor and disabling the power bridge immediately.
+ * @param motorId from 0 to (MAX_NUMBER_OF_BRUSH_DC_MOTORS - 1).
+ * @retval None.
+ */
+ virtual void hard_hiz(unsigned int) = 0;
+
+ /**
+ * @brief Stopping the motor immediately.
+ * @param motorId from 0 to (MAX_NUMBER_OF_BRUSH_DC_MOTORS - 1).
+ * @retval None.
+ */
+ virtual void hard_stop(unsigned int) = 0;
+
+ /**
+ * @brief Running the motor.
+ * @param motorId from 0 to (MAX_NUMBER_OF_BRUSH_DC_MOTORS - 1).
+ * @param direction The direction of rotation.
+ * @retval None.
+ */
+ virtual void run(unsigned int, direction_t) = 0;
+
+ /**
+ * @brief Setting the PWM frequency of the specified bridge.
+ * @param bridgeId from 0 for bridge A to 1 for bridge B.
+ * @param frequency of the PWM in Hz
+ * @retval None.
+ */
+ virtual void set_bridge_input_pwm_freq(unsigned int, unsigned int) = 0;
+
+ /**
+ * @brief Setting the dual bridge configuration mode.
+ * @param configuration. The bridge configuration.
+ * @retval None.
+ */
+ virtual void set_dual_full_bridge_config(unsigned int) = 0;
+
+ /**
+ * @brief Setting the speed in %.
+ * @param motorId from 0 to (MAX_NUMBER_OF_BRUSH_DC_MOTORS - 1).
+ * @param speed The new speed in %.
+ * @retval "true" in case of success, "false" otherwise.
+ */
+ virtual bool set_speed(unsigned int, unsigned int) = 0;
+
+ /**
+ * @brief Destructor.
+ */
+ virtual ~BDCMotor() {};
+};
+
+#endif /* __BDCMOTOR_CLASS_H */
+
+/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/ST_INTERFACES/Actuators/StepperMotor.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,275 @@
+/**
+ ******************************************************************************
+ * @file StepperMotor.h
+ * @author Davide Aliprandi, STMicroelectronics
+ * @version V1.1.0
+ * @date April 6th, 2016
+ * @brief This file contains the abstract class describing the interface of a
+ * stepper-motor component.
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2015 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Define to prevent from recursive inclusion --------------------------------*/
+
+#ifndef __STEPPERMOTOR_CLASS_H
+#define __STEPPERMOTOR_CLASS_H
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include <Component.h>
+
+
+/* Classes ------------------------------------------------------------------*/
+
+/**
+ * An abstract class for StepperMotor components.
+ */
+class StepperMotor : public Component {
+public:
+
+ /**
+ * @brief Rotation modes.
+ */
+ typedef enum {
+ BWD = 0, /* Backward. */
+ FWD = 1 /* Forward. */
+ } direction_t;
+
+ /**
+ * @brief Step modes.
+ */
+ typedef enum {
+ STEP_MODE_FULL = 0, /* Full-step. */
+ STEP_MODE_HALF, /* Half-step. */
+ STEP_MODE_1_4, /* 1/4 microstep. */
+ STEP_MODE_1_8, /* 1/8 microstep. */
+ STEP_MODE_1_16, /* 1/16 microstep. */
+ STEP_MODE_1_32, /* 1/32 microstep. */
+ STEP_MODE_1_64, /* 1/64 microstep. */
+ STEP_MODE_1_128, /* 1/128 microstep. */
+ STEP_MODE_1_256, /* 1/256 microstep. */
+ STEP_MODE_UNKNOWN, /* Unknown. */
+ STEP_MODE_WAVE /* Full-step one-phase-on. */
+ } step_mode_t;
+
+ /**
+ * @brief Getting the status.
+ * @param None.
+ * @retval The status.
+ */
+ virtual unsigned int get_status(void) = 0;
+
+ /**
+ * @brief Getting the position.
+ * @param None.
+ * @retval The position.
+ */
+ virtual signed int get_position(void) = 0;
+
+ /**
+ * @brief Getting the marked position.
+ * @param None.
+ * @retval The marked position.
+ */
+ virtual signed int get_mark(void) = 0;
+
+ /**
+ * @brief Getting the current speed in pps.
+ * @param None.
+ * @retval The current speed in pps.
+ */
+ virtual unsigned int get_speed(void) = 0;
+
+ /**
+ * @brief Getting the maximum speed in pps.
+ * @param None.
+ * @retval The maximum speed in pps.
+ */
+ virtual unsigned int get_max_speed(void) = 0;
+
+ /**
+ * @brief Getting the minimum speed in pps.
+ * @param None.
+ * @retval The minimum speed in pps.
+ */
+ virtual unsigned int get_min_speed(void) = 0;
+
+ /**
+ * @brief Getting the acceleration in pps^2.
+ * @param None.
+ * @retval The acceleration in pps^2.
+ */
+ virtual unsigned int get_acceleration(void) = 0;
+
+ /**
+ * @brief Getting the deceleration in pps^2.
+ * @param None.
+ * @retval The deceleration in pps^2.
+ */
+ virtual unsigned int get_deceleration(void) = 0;
+
+ /**
+ * @brief Getting the direction of rotation.
+ * @param None.
+ * @retval The direction of rotation.
+ */
+ virtual direction_t get_direction(void) = 0;
+
+ /**
+ * @brief Setting the current position to be the home position.
+ * @param None.
+ * @retval None.
+ */
+ virtual void set_home(void) = 0;
+
+ /**
+ * @brief Setting the current position to be the marked position.
+ * @param None.
+ * @retval None.
+ */
+ virtual void set_mark(void) = 0;
+
+ /**
+ * @brief Setting the maximum speed in pps.
+ * @param speed The maximum speed in pps.
+ * @retval "true" in case of success, "false" otherwise.
+ */
+ virtual bool set_max_speed(unsigned int speed) = 0;
+
+ /**
+ * @brief Setting the minimum speed in pps.
+ * @param speed The minimum speed in pps.
+ * @retval "true" in case of success, "false" otherwise.
+ */
+ virtual bool set_min_speed(unsigned int speed) = 0;
+
+ /**
+ * @brief Setting the acceleration in pps^2.
+ * @param acceleration The acceleration in pps^2.
+ * @retval "true" in case of success, "false" otherwise.
+ */
+ virtual bool set_acceleration(unsigned int acceleration) = 0;
+
+ /**
+ * @brief Setting the deceleration in pps^2.
+ * @param deceleration The deceleration in pps^2.
+ * @retval "true" in case of success, "false" otherwise.
+ */
+ virtual bool set_deceleration(unsigned int deceleration) = 0;
+
+ /**
+ * @brief Setting the Step Mode.
+ * @param step_mode The Step Mode.
+ * @retval "true" in case of success, "false" otherwise.
+ */
+ virtual bool set_step_mode(step_mode_t step_mode) = 0;
+
+ /**
+ * @brief Going to a specified position.
+ * @param position The desired position.
+ * @retval None.
+ */
+ virtual void go_to(signed int position) = 0;
+
+ /**
+ * @brief Going to the home position.
+ * @param None.
+ * @retval None.
+ */
+ virtual void go_home(void) = 0;
+
+ /**
+ * @brief Going to the marked position.
+ * @param None.
+ * @retval None.
+ */
+ virtual void go_mark(void) = 0;
+
+ /**
+ * @brief Running the motor towards a specified direction.
+ * @param direction The direction of rotation.
+ * @retval None.
+ */
+ virtual void run(direction_t direction) = 0;
+
+ /**
+ * @brief Moving the motor towards a specified direction for a certain number of steps.
+ * @param direction The direction of rotation.
+ * @param steps The desired number of steps.
+ * @retval None.
+ */
+ virtual void move(direction_t direction, unsigned int steps) = 0;
+
+ /**
+ * @brief Stopping the motor through an immediate deceleration up to zero speed.
+ * @param None.
+ * @retval None.
+ */
+ virtual void soft_stop(void) = 0;
+
+ /**
+ * @brief Stopping the motor through an immediate infinite deceleration.
+ * @param None.
+ * @retval None.
+ */
+ virtual void hard_stop(void) = 0;
+
+ /**
+ * @brief Disabling the power bridge after performing a deceleration to zero.
+ * @param None.
+ * @retval None.
+ */
+ virtual void soft_hiz(void) = 0;
+
+ /**
+ * @brief Disabling the power bridge immediately.
+ * @param None.
+ * @retval None.
+ */
+ virtual void hard_hiz(void) = 0;
+
+ /**
+ * @brief Waiting while the motor is active.
+ * @param None.
+ * @retval None.
+ */
+ virtual void wait_while_active(void) = 0;
+
+ /**
+ * @brief Destructor.
+ */
+ virtual ~StepperMotor() {};
+};
+
+#endif /* __STEPPERMOTOR_CLASS_H */
+
+/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/ST_INTERFACES/Common/Component.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,81 @@
+/**
+ ******************************************************************************
+ * @file Component.h
+ * @author AST
+ * @version V1.0.0
+ * @date April 13th, 2015
+ * @brief This file contains the abstract class describing the interface of a
+ * generic component.
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2015 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Define to prevent recursive inclusion -------------------------------------*/
+
+#ifndef __COMPONENT_CLASS_H
+#define __COMPONENT_CLASS_H
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include <stdint.h>
+
+
+/* Classes ------------------------------------------------------------------*/
+
+/**
+ * An abstract class for Generic components.
+ */
+class Component {
+public:
+
+ /**
+ * @brief Initializing the component.
+ * @param[in] init pointer to device specific initalization structure.
+ * @retval "0" in case of success, an error code otherwise.
+ */
+ virtual int init(void *init) = 0;
+
+ /**
+ * @brief Getting the ID of the component.
+ * @param[out] id pointer to an allocated variable to store the ID into.
+ * @retval "0" in case of success, an error code otherwise.
+ */
+ virtual int read_id(uint8_t *id) = 0;
+
+ /**
+ * @brief Destructor.
+ */
+ virtual ~Component() {};
+};
+
+#endif /* __COMPONENT_CLASS_H */
+
+/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/ST_INTERFACES/Communications/Nfc.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,92 @@
+/**
+ ******************************************************************************
+ * @file Nfc.h
+ * @author ST Central Labs
+ * @version V1.0.0
+ * @date 13-April-2015
+ * @brief This file contains the abstract class describing the interface of a
+ * nfc component.
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2015 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Generated with Stm32CubeTOO -----------------------------------------------*/
+
+/* Define to prevent from recursive inclusion --------------------------------*/
+
+#ifndef __NFC_CLASS_H
+#define __NFC_CLASS_H
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include <Component.h>
+
+typedef enum {
+ NFC_SUCCESS = 0,
+} NFC_t;
+/* Error codes are in component driver */
+
+
+/* Classes ------------------------------------------------------------------*/
+
+/**
+ * An abstract class for Nfc components.
+ */
+class Nfc : public Component {
+public:
+
+ /**
+ * Read data from the tag.
+ * @param offset Read offset.
+ * @param nb_bytes_to_read Number of bytes to read.
+ * @param[out] p_buffer_read Buffer to store the read data into.
+ * @return NFC_SUCCESS if no errors
+ */
+ virtual int read_binary(uint16_t offset, uint8_t nb_bytes_to_read, uint8_t *p_buffer_read) = 0;
+
+ /**
+ * Write data to the tag.
+ * @param offset Write offset.
+ * @param nb_bytes_to_write Number of bytes to write.
+ * @param p_buffer_write Buffer to write.
+ * @return NFC_SUCCESS if no errors
+ */
+ virtual int update_binary(uint16_t offset, uint8_t nb_bytes_to_write, uint8_t *p_buffer_write) = 0;
+
+ /**
+ * @brief Destructor.
+ */
+ virtual ~Nfc() {};
+};
+
+#endif /* __NFC_CLASS_H */
+
+/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/ST_INTERFACES/Sensors/GyroSensor.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,126 @@
+/**
+ ******************************************************************************
+ * @file GyroSensor.h
+ * @author AST / EST
+ * @version V0.0.1
+ * @date 13-April-2015
+ * @brief This file contains the abstract class describing in general
+ * the interfaces of a gyroscope
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2015 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Define to prevent from recursive inclusion --------------------------------*/
+
+#ifndef __GYRO_SENSOR_CLASS_H
+#define __GYRO_SENSOR_CLASS_H
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include <Component.h>
+
+
+/* Classes ------------------------------------------------------------------*/
+
+/**
+ * An abstract class for a Gyroscope
+ */
+class GyroSensor : public Component {
+public:
+
+ /**
+ * @brief Get current gyroscope angular rate X/Y/Z-axes values
+ * in standard data units [mdps]
+ * @param[out] p_data Pointer to where to store angular rates to.
+ * p_data must point to an array of (at least) three elements, where:
+ * p_data[0] corresponds to X-axis,
+ * p_data[1] corresponds to Y-axis, and
+ * p_data[2] corresponds to Z-axis.
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int get_g_axes(int32_t *p_data) = 0;
+
+ /**
+ * @brief Get current gyroscope raw data X/Y/Z-axes values
+ * in device sepcific LSB units
+ * @param[out] p_data Pointer to where to store gyroscope raw data to.
+ * p_data must point to an array of (at least) three elements, where:
+ * p_data[0] corresponds to X-axis,
+ * p_data[1] corresponds to Y-axis, and
+ * p_data[2] corresponds to Z-axis.
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int get_g_axes_raw(int16_t *p_data) = 0;
+
+ /**
+ * @brief Get gyroscope's current sensitivity [mdps/LSB]
+ * @param[out] pf_data Pointer to where the gyroscope's sensitivity is stored to
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int get_g_sensitivity(float *pf_data) = 0;
+
+ /**
+ * @brief Get gyroscope's current output data rate [Hz]
+ * @param[out] pf_data Pointer to where the gyroscope output data rate is stored to
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int get_g_odr(float *pf_data) = 0;
+
+ /**
+ * @brief Set gyroscope's output data rate
+ * @param[in] odr New value for gyroscope's output data rate in [Hz]
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int set_g_odr(float odr) = 0;
+
+ /**
+ * @brief Get gyroscope's full scale value
+ * i.e.\ min/max measurable value [dps]
+ * @param[out] pf_data Pointer to where the gyroscope full scale value is stored to
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int get_g_fs(float *pf_data) = 0;
+
+ /**
+ * @brief Set gyroscope's full scale value
+ * i.e.\ min/max measurable value
+ * @param[in] fs New full scale value for gyroscope in [dps]
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int set_g_fs(float fs) = 0;
+
+ /**
+ * @brief Destructor.
+ */
+ virtual ~GyroSensor() {};
+};
+
+#endif /* __GYRO_SENSOR_CLASS_H */
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/ST_INTERFACES/Sensors/HumiditySensor.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,72 @@
+/**
+ ******************************************************************************
+ * @file HumiditySensor.h
+ * @author AST / EST
+ * @version V0.0.1
+ * @date 13-April-2015
+ * @brief This file contains the abstract class describing in general
+ * the interfaces of a humidity sensor
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2015 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Define to prevent from recursive inclusion --------------------------------*/
+
+#ifndef __HUMIDITY_SENSOR_CLASS_H
+#define __HUMIDITY_SENSOR_CLASS_H
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include <Component.h>
+
+
+/* Classes ------------------------------------------------------------------*/
+
+/**
+ * An abstract class for Humidity sensors
+ */
+class HumiditySensor : public Component {
+public:
+
+ /**
+ * @brief Get current humidity [%]
+ * @param[out] pf_data Pointer to where to store humidity to
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int get_humidity(float *pf_data) = 0;
+
+ /**
+ * @brief Destructor.
+ */
+ virtual ~HumiditySensor() {};
+};
+
+#endif /* __HUMIDITY_SENSOR_CLASS_H */
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/ST_INTERFACES/Sensors/LightSensor.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,72 @@
+/**
+ ******************************************************************************
+ * @file LightSensor.h
+ * @author AST / EST
+ * @version V0.0.1
+ * @date 13-April-2015
+ * @brief This file contains the abstract class describing in general
+ * the interfaces of an ambient light sensor (ALS)
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2015 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Define to prevent from recursive inclusion --------------------------------*/
+
+#ifndef __LIGHT_SENSOR_CLASS_H
+#define __LIGHT_SENSOR_CLASS_H
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include <Component.h>
+
+
+/* Classes ------------------------------------------------------------------*/
+
+/**
+ * An abstract class for ambient light sensors
+ */
+class LightSensor : public Component {
+public:
+
+ /**
+ * @brief Get current light [lux]
+ * @param[out] pi_data Pointer to where to store light to
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int get_lux(uint32_t *pi_data) = 0;
+
+ /**
+ * @brief Destructor.
+ */
+ virtual ~LightSensor() {};
+};
+
+#endif /* __LIGHT_SENSOR_CLASS_H */
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/ST_INTERFACES/Sensors/MagneticSensor.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,89 @@
+/**
+ ******************************************************************************
+ * @file MagneticSensor.h
+ * @author AST / EST
+ * @version V0.0.1
+ * @date 13-April-2015
+ * @brief This file contains the abstract class describing in general
+ * the interfaces of a magnetometer
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2015 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Define to prevent from recursive inclusion --------------------------------*/
+
+#ifndef __MAGNETIC_SENSOR_CLASS_H
+#define __MAGNETIC_SENSOR_CLASS_H
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include <Component.h>
+
+
+/* Classes ------------------------------------------------------------------*/
+
+/**
+ * An abstract class for a magnetometer
+ */
+class MagneticSensor : public Component {
+public:
+
+ /**
+ * @brief Get current magnetometer magnetic X/Y/Z-axes values
+ * in standard data units [mgauss]
+ * @param[out] p_data Pointer to where to store magnetic values to.
+ * p_data must point to an array of (at least) three elements, where:
+ * p_data[0] corresponds to X-axis,
+ * p_data[1] corresponds to Y-axis, and
+ * p_data[2] corresponds to Z-axis.
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int get_m_axes(int32_t *p_data) = 0;
+
+ /**
+ * @brief Get current magnetometer raw data X/Y/Z-axes values
+ * in device sepcific LSB units
+ * @param[out] p_data Pointer to where to store magnetometer raw data to.
+ * p_data must point to an array of (at least) three elements, where:
+ * p_data[0] corresponds to X-axis,
+ * p_data[1] corresponds to Y-axis, and
+ * p_data[2] corresponds to Z-axis.
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int get_m_axes_raw(int16_t *p_data) = 0;
+
+ /**
+ * @brief Destructor.
+ */
+ virtual ~MagneticSensor() {};
+};
+
+#endif /* __MAGNETIC_SENSOR_CLASS_H */
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/ST_INTERFACES/Sensors/MotionSensor.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,126 @@
+/**
+ ******************************************************************************
+ * @file MotionSensor.h
+ * @author AST / EST
+ * @version V0.0.1
+ * @date 13-April-2015
+ * @brief This file contains the abstract class describing in general
+ * the interfaces of an accelerometer
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2015 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Define to prevent from recursive inclusion --------------------------------*/
+
+#ifndef __MOTION_SENSOR_CLASS_H
+#define __MOTION_SENSOR_CLASS_H
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include <Component.h>
+
+
+/* Classes ------------------------------------------------------------------*/
+
+/**
+ * An abstract class for an Accelerometer
+ */
+class MotionSensor : public Component {
+public:
+
+ /**
+ * @brief Get current accelerometer linear acceleration X/Y/Z-axes values
+ * in standard data units [mg]
+ * @param[out] p_data Pointer to where to store linear accelerations to.
+ * p_data must point to an array of (at least) three elements, where:
+ * p_data[0] corresponds to X-axis,
+ * p_data[1] corresponds to Y-axis, and
+ * p_data[2] corresponds to Z-axis.
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int get_x_axes(int32_t *p_data) = 0;
+
+ /**
+ * @brief Get current accelerometer raw data X/Y/Z-axes values
+ * in device sepcific LSB units
+ * @param[out] p_data Pointer to where to store accelerometer raw data to.
+ * p_data must point to an array of (at least) three elements, where:
+ * p_data[0] corresponds to X-axis,
+ * p_data[1] corresponds to Y-axis, and
+ * p_data[2] corresponds to Z-axis.
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int get_x_axes_raw(int16_t *p_data) = 0;
+
+ /**
+ * @brief Get accelerometer's current sensitivity [mg/LSB]
+ * @param[out] pf_data Pointer to where the accelerometer's sensitivity is stored to
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int get_x_sensitivity(float *pf_data) = 0;
+
+ /**
+ * @brief Get accelerometer's current output data rate [Hz]
+ * @param[out] pf_data Pointer to where the accelerometer output data rate is stored to
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int get_x_odr(float *pf_data) = 0;
+
+ /**
+ * @brief Set accelerometer's output data rate
+ * @param[in] odr New value for accelerometer's output data rate in [Hz]
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int set_x_odr(float odr) = 0;
+
+ /**
+ * @brief Get accelerometer's full scale value
+ * i.e.\ min/max measurable value [g]
+ * @param[out] pf_data Pointer to where the accelerometer full scale value is stored to
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int get_x_fs(float *pf_data) = 0;
+
+ /**
+ * @brief Set accelerometer's full scale value
+ * i.e.\ min/max measurable value
+ * @param[in] fs New full scale value for accelerometer in [g]
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int set_x_fs(float fs) = 0;
+
+ /**
+ * @brief Destructor.
+ */
+ virtual ~MotionSensor() {};
+};
+
+#endif /* __MOTION_SENSOR_CLASS_H */
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/ST_INTERFACES/Sensors/PressureSensor.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,72 @@
+/**
+ ******************************************************************************
+ * @file PressureSensor.h
+ * @author AST / EST
+ * @version V0.0.1
+ * @date 13-April-2015
+ * @brief This file contains the abstract class describing in general
+ * the interfaces of a pressure sensor
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2015 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Define to prevent from recursive inclusion --------------------------------*/
+
+#ifndef __PRESSURE_SENSOR_CLASS_H
+#define __PRESSURE_SENSOR_CLASS_H
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include <Component.h>
+
+
+/* Classes ------------------------------------------------------------------*/
+
+/**
+ * An abstract class for a Pressure Sensor
+ */
+class PressureSensor : public Component {
+public:
+
+ /**
+ * @brief Get current pressure [mbar]
+ * @param[out] pf_data Pointer to where to store pressure to
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int get_pressure(float *pf_data) = 0;
+
+ /**
+ * @brief Destructor.
+ */
+ virtual ~PressureSensor() {};
+};
+
+#endif /* __PRESSURE_SENSOR_CLASS_H */
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/ST_INTERFACES/Sensors/RangeSensor.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,72 @@
+/**
+ ******************************************************************************
+ * @file RangeSensor.h
+ * @author AST / EST
+ * @version V0.0.1
+ * @date 13-April-2015
+ * @brief This file contains the abstract class describing in general
+ * the interfaces of a range sensor
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2015 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Define to prevent from recursive inclusion --------------------------------*/
+
+#ifndef __RANGE_SENSOR_CLASS_H
+#define __RANGE_SENSOR_CLASS_H
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include <Component.h>
+
+
+/* Classes ------------------------------------------------------------------*/
+
+/**
+ * An abstract class for range sensors
+ */
+class RangeSensor : public Component {
+public:
+
+ /**
+ * @brief Get current range [mm]
+ * @param[out] pi_data Pointer to where to store range to
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int get_distance(uint32_t *pi_data) = 0;
+
+ /**
+ * @brief Destructor.
+ */
+ virtual ~RangeSensor() {};
+};
+
+#endif /* __RANGE_SENSOR_CLASS_H */
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/ST_INTERFACES/Sensors/TempSensor.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,91 @@
+/**
+ ******************************************************************************
+ * @file TempSensor.h
+ * @author AST / EST
+ * @version V0.0.1
+ * @date 13-April-2015
+ * @brief This file contains the abstract class describing in general
+ * the interfaces of a temperature sensor
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2015 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+
+/* Define to prevent from recursive inclusion --------------------------------*/
+
+#ifndef __TEMP_SENSOR_CLASS_H
+#define __TEMP_SENSOR_CLASS_H
+
+
+/* Includes ------------------------------------------------------------------*/
+
+#include <Component.h>
+
+
+/* Classes ------------------------------------------------------------------*/
+
+/**
+ * An abstract class for Temperature sensors
+ */
+class TempSensor : public Component {
+public:
+
+ /**
+ * @brief Get current temperature in degrees Celsius [°C]
+ * @param[out] pf_data Pointer to where to store temperature to
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int get_temperature(float *pf_data) = 0;
+
+ /**
+ * @brief Get current temperature in degrees Fahrenheit [°F]
+ * @param[out] pf_data Pointer to where to store temperature to
+ * @return 0 in case of success, an error code otherwise
+ */
+ virtual int get_fahrenheit(float *pf_data) {
+ float celsius;
+ int ret;
+
+ ret = get_temperature(&celsius);
+ if (ret) {
+ return ret;
+ }
+
+ *pf_data = ((celsius * 1.8f) + 32.0f);
+
+ return 0;
+ }
+
+ /**
+ * @brief Destructor.
+ */
+ virtual ~TempSensor() {};
+};
+
+#endif /* __TEMP_SENSOR_CLASS_H */
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/XNucleoIKS01A2.cpp Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,122 @@
+/**
+ ******************************************************************************
+ * @file XNucleoIKS01A2.cpp
+ * @author CLab
+ * @version V1.0.0
+ * @date 9-August-2016
+ * @brief Implementation file for the X_NUCLEO_IKS01A2 singleton class
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+*/
+
+/* Includes ------------------------------------------------------------------*/
+#include "mbed.h"
+#include "XNucleoIKS01A2.h"
+
+/* Static variables ----------------------------------------------------------*/
+XNucleoIKS01A2 *XNucleoIKS01A2::_instance = NULL;
+
+
+/* Methods -------------------------------------------------------------------*/
+/**
+ * @brief Constructor
+ */
+XNucleoIKS01A2::XNucleoIKS01A2(DevI2C *ext_i2c, PinName int1, PinName int2) : dev_i2c(ext_i2c),
+ ht_sensor(new HTS221Sensor(*dev_i2c)),
+ magnetometer(new LSM303AGRMagSensor(*dev_i2c)),
+ accelerometer(new LSM303AGRAccSensor(*dev_i2c)),
+ pt_sensor(new LPS22HBSensor(*dev_i2c)),
+ acc_gyro(new LSM6DSLSensor(*dev_i2c, int1, int2))
+{
+ ht_sensor->init(NULL);
+ magnetometer->init(NULL);
+ accelerometer->init(NULL);
+ pt_sensor->init(NULL);
+ acc_gyro->init(NULL);
+}
+
+/**
+ * @brief Get singleton instance
+ * @return a pointer to the initialized singleton instance of class XNucleoIKS01A2.
+ * A return value of NULL indicates an out of memory situation.
+ * @param[in] ext_i2c (optional) pointer to an instance of DevI2C to be used
+ * for communication on the expansion board.
+ * Defaults to NULL.
+ * Taken into account only on the very first call of one of the 'Instance' functions.
+ * If not provided a new DevI2C will be created with standard
+ * configuration parameters.
+ * The used DevI2C object gets saved in instance variable dev_i2c.
+ * @param[in] int1 LSM6DSL INT1 pin.
+ * Taken into account only on the very first call of one of the 'Instance' functions.
+ * It maps the INT1 pin for LSM6DSL. Defaults to IKS01A2_PIN_LSM6DSL_INT1.
+ * @param[in] int2 LSM6DSL INT1 pin.
+ * Taken into account only on the very first call of one of the 'Instance' functions.
+ * It maps the INT2 pin for LSM6DSL. Defaults to IKS01A2_PIN_LSM6DSL_INT2.
+ */
+XNucleoIKS01A2 *XNucleoIKS01A2::instance(DevI2C *ext_i2c, PinName int1, PinName int2) {
+ if(_instance == NULL) {
+ if(ext_i2c == NULL)
+ ext_i2c = new DevI2C(IKS01A2_PIN_I2C_SDA, IKS01A2_PIN_I2C_SCL);
+
+ if(ext_i2c != NULL)
+ _instance = new XNucleoIKS01A2(ext_i2c, int1, int2);
+ }
+
+ return _instance;
+}
+
+/**
+ * @brief Get singleton instance
+ * @return a pointer to the initialized singleton instance of class X_NUCLEO_IKS01A1.
+ * A return value of NULL indicates an out of memory situation.
+ * @param[in] sda I2C data line pin.
+ * Taken into account only on the very first call of one of the 'Instance' functions.
+ * A new DevI2C will be created based on parameters 'sda' and 'scl'.
+ * The used DevI2C object gets saved in instance variable dev_i2c.
+ * @param[in] scl I2C clock line pin.
+ * Taken into account only on the very first call of one of the 'Instance' functions.
+ * A new DevI2C will be created based on parameters 'sda' and 'scl'.
+ * The used DevI2C object gets saved in instance variable dev_i2c.
+ * @param[in] int1 LSM6DSL INT1 pin.
+ * Taken into account only on the very first call of one of the 'Instance' functions.
+ * It maps the INT1 pin for LSM6DSL. Defaults to IKS01A2_PIN_LSM6DSL_INT1.
+ * @param[in] int2 LSM6DSL INT1 pin.
+ * Taken into account only on the very first call of one of the 'Instance' functions.
+ * It maps the INT2 pin for LSM6DSL. Defaults to IKS01A2_PIN_LSM6DSL_INT2.
+ */
+XNucleoIKS01A2 *XNucleoIKS01A2::instance(PinName sda, PinName scl, PinName int1, PinName int2) {
+ if(_instance == NULL) {
+ DevI2C *ext_i2c = new DevI2C(sda, scl);
+
+ if(ext_i2c != NULL)
+ _instance = new XNucleoIKS01A2(ext_i2c, int1, int2);
+ }
+
+ return _instance;
+}
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/XNucleoIKS01A2.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,107 @@
+/**
+ ******************************************************************************
+ * @file XNucleoIKS01A2.h
+ * @author CLab
+ * @version V1.0.0
+ * @date 9-August-2016
+ * @brief Header file for class XNucleoIKS01A2 representing a X-NUCLEO-IKS01A2
+ * expansion board
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+/* Define to prevent from recursive inclusion --------------------------------*/
+#ifndef __X_NUCLEO_IKS01A2_H
+#define __X_NUCLEO_IKS01A2_H
+
+/* Includes ------------------------------------------------------------------*/
+#include "mbed.h"
+#include "x_nucleo_iks01a2_targets.h"
+#include "HTS221Sensor/HTS221Sensor.h"
+#include "LSM303AGRSensor/LSM303AGRAccSensor.h"
+#include "LSM303AGRSensor/LSM303AGRMagSensor.h"
+#include "LPS22HBSensor/LPS22HBSensor.h"
+#include "LSM6DSLSensor/LSM6DSLSensor.h"
+#include "DevI2C.h"
+
+/* Macros -------------------------------------------------------------------*/
+#define CALL_METH(obj, meth, param, ret) ((obj == NULL) ? \
+ ((*(param) = (ret)), 0) : \
+ ((obj)->meth(param)) \
+ )
+
+/* Classes -------------------------------------------------------------------*/
+/** Class XNucleoIKS01A2 is intended to represent the MEMS Inertial & Environmental
+ * Nucleo Expansion Board with the same name.
+ *
+ * The expansion board is featuring basically four IPs:\n
+ * -# a HTS221 Relative Humidity and Temperature Sensor\n
+ * -# a LSM303AGR 3-Axis Magnetometer and 3D Acceleromenter\n
+ * -# a LPS22HB MEMS Pressure Sensor (and Temperature Sensor)\n
+ * -# and a LSM6DSL 3D Acceleromenter and 3D Gyroscope\n
+ *
+ * The expansion board features also a DIL 24-pin socket which makes it possible
+ * to add further MEMS adapters and other sensors (e.g. UV index).
+ *
+ * It is intentionally implemented as a singleton because only one
+ * X_NUCLEO_IKS01A2 at a time might be deployed in a HW component stack.\n
+ * In order to get the singleton instance you have to call class method `Instance()`,
+ * e.g.:
+ * @code
+ * // Inertial & Environmental expansion board singleton instance
+ * static X_NUCLEO_IKS01A2 *<TODO>_expansion_board = X_NUCLEO_IKS01A2::Instance();
+ * @endcode
+ */
+class XNucleoIKS01A2
+{
+ protected:
+ XNucleoIKS01A2(DevI2C *ext_i2c, PinName int1, PinName int2);
+
+ ~XNucleoIKS01A2(void) {
+ /* should never be called */
+ error("Trial to delete XNucleoIKS01A2 singleton!\n");
+ }
+
+ public:
+ static XNucleoIKS01A2* instance(DevI2C *ext_i2c = NULL, PinName int1 = IKS01A2_PIN_LSM6DSL_INT1, PinName int2 = IKS01A2_PIN_LSM6DSL_INT2);
+ static XNucleoIKS01A2* instance(PinName sda, PinName scl, PinName int1 = IKS01A2_PIN_LSM6DSL_INT1, PinName int2 = IKS01A2_PIN_LSM6DSL_INT2);
+
+ DevI2C *dev_i2c;
+
+ HTS221Sensor *ht_sensor;
+ LSM303AGRMagSensor *magnetometer;
+ LSM303AGRAccSensor *accelerometer;
+ LPS22HBSensor *pt_sensor;
+ LSM6DSLSensor *acc_gyro;
+
+ private:
+ static XNucleoIKS01A2 *_instance;
+};
+
+#endif /* __X_NUCLEO_IKS01A2_H */
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/X_NUCLEO_COMMON/DbgMCU/DbgMCU.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,64 @@
+/**
+ ******************************************************************************
+ * @file DbgMCU.h
+ * @author AST / EST
+ * @version V0.0.1
+ * @date 30-March-2015
+ * @brief Header file for enabling debugging in sleep modes for STM32 MCUs
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2014 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+/* Define to prevent from recursive inclusion --------------------------------*/
+#ifndef __DBG_MCU_H
+#define __DBG_MCU_H
+
+/* Includes ------------------------------------------------------------------*/
+
+/* Classes -------------------------------------------------------------------*/
+/** Helper class DbgMCU providing a default constructor which enables debugging
+ * on STM32 MCUs while using sleep modes.
+ */
+class DbgMCU
+{
+ public:
+ /** Create a DbgMCU dummy object */
+ DbgMCU(void) {
+ /* the following code is NOT portable */
+ volatile uint32_t *dbgmcu_creg = (uint32_t*)0xE0042004;
+ uint32_t tmp = *dbgmcu_creg;
+
+ tmp &= ~(0xE7);
+ tmp |= 0x27; // Set asynchronous communication via DBGMCU_CR (for ITM/printf)
+ // tmp |= 0xE7; // Set 4-pin tracing via DBGMCU_CR (for ETM)
+ *dbgmcu_creg = tmp;
+ }
+};
+
+#endif /* __DBG_MCU_H */
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/X_NUCLEO_COMMON/DevI2C/DevI2C.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,142 @@
+/**
+ ******************************************************************************
+ * @file DevI2C.h
+ * @author AST / EST
+ * @version V1.1.0
+ * @date 21-January-2016
+ * @brief Header file for a special I2C class DevI2C which provides some
+ * helper function for on-board communication
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+/* Define to prevent from recursive inclusion --------------------------------*/
+#ifndef __DEV_I2C_H
+#define __DEV_I2C_H
+
+/* Includes ------------------------------------------------------------------*/
+#include "mbed.h"
+#include "pinmap.h"
+
+/* Classes -------------------------------------------------------------------*/
+/** Helper class DevI2C providing functions for multi-register I2C communication
+ * common for a series of I2C devices
+ */
+class DevI2C : public I2C
+{
+public:
+ /** Create a DevI2C Master interface, connected to the specified pins
+ *
+ * @param sda I2C data line pin
+ * @param scl I2C clock line pin
+ */
+ DevI2C(PinName sda, PinName scl) : I2C(sda, scl) {}
+
+ /** Create a DevI2C Master interface, connected to the specified pins and set their pin modes
+ *
+ * @param sda I2C data line pin
+ * @param sda I2C data pin mode
+ * @param scl I2C clock line pin
+ * @param scl I2C clock pin mode
+ *
+ * @note this is a workaround to provide a constructor which currently
+ * is somehow missing in the I2C base class and it's underlying
+ * implementations. In some circumstances (e.g. while debugging)
+ * where long latencies between the initialization of the i2c
+ * interface in the I2C constructor and the setting of the pin
+ * modes in the beyond constructor might occur, the i2c
+ * communication might be compromised.
+ */
+ DevI2C(PinName sda, int mode_sda, PinName scl, int mode_scl) : I2C(sda, scl) {
+ pin_mode(sda, (PinMode)mode_sda);
+ pin_mode(scl, (PinMode)mode_scl);
+ }
+
+ /**
+ * @brief Writes a buffer towards the I2C peripheral device.
+ * @param pBuffer pointer to the byte-array data to send
+ * @param DeviceAddr specifies the peripheral device slave address.
+ * @param RegisterAddr specifies the internal address register
+ * where to start writing to (must be correctly masked).
+ * @param NumByteToWrite number of bytes to be written.
+ * @retval 0 if ok,
+ * @retval -1 if an I2C error has occured, or
+ * @retval -2 on temporary buffer overflow (i.e. NumByteToWrite was too high)
+ * @note On some devices if NumByteToWrite is greater
+ * than one, the RegisterAddr must be masked correctly!
+ */
+ int i2c_write(uint8_t* pBuffer, uint8_t DeviceAddr, uint8_t RegisterAddr,
+ uint16_t NumByteToWrite) {
+ int ret;
+ uint8_t tmp[TEMP_BUF_SIZE];
+
+ if(NumByteToWrite >= TEMP_BUF_SIZE) return -2;
+
+ /* First, send device address. Then, send data and STOP condition */
+ tmp[0] = RegisterAddr;
+ memcpy(tmp+1, pBuffer, NumByteToWrite);
+
+ ret = write(DeviceAddr, (const char*)tmp, NumByteToWrite+1, false);
+
+ if(ret) return -1;
+ return 0;
+ }
+
+ /**
+ * @brief Reads a buffer from the I2C peripheral device.
+ * @param pBuffer pointer to the byte-array to read data in to
+ * @param DaviceAddr specifies the peripheral device slave address.
+ * @param RegisterAddr specifies the internal address register
+ * where to start reading from (must be correctly masked).
+ * @param NumByteToRead number of bytes to be read.
+ * @retval 0 if ok,
+ * @retval -1 if an I2C error has occured
+ * @note On some devices if NumByteToWrite is greater
+ * than one, the RegisterAddr must be masked correctly!
+ */
+ int i2c_read(uint8_t* pBuffer, uint8_t DeviceAddr, uint8_t RegisterAddr,
+ uint16_t NumByteToRead) {
+ int ret;
+
+ /* Send device address, with no STOP condition */
+ ret = write(DeviceAddr, (const char*)&RegisterAddr, 1, true);
+ if(!ret) {
+ /* Read data, with STOP condition */
+ ret = read(DeviceAddr, (char*)pBuffer, NumByteToRead, false);
+ }
+
+ if(ret) return -1;
+ return 0;
+ }
+
+private:
+ static const unsigned int TEMP_BUF_SIZE = 32;
+};
+
+#endif /* __DEV_I2C_H */
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/X_NUCLEO_COMMON/DevSPI/DevSPI.h Tue Oct 03 12:21:11 2017 +0000
@@ -0,0 +1,302 @@
+/**
+ ******************************************************************************
+ * @file DevSPI.h
+ * @author AST / Software Platforms and Cloud / EST
+ * @version V1.2.1
+ * @date 19-February-2016
+ * @brief Header file for a special SPI class DevSPI which provides some
+ * helper functions for on-board communication.
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
+ *
+ * Redistribution and use in source and binary forms, with or without modification,
+ * are permitted provided that the following conditions are met:
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright notice,
+ * this list of conditions and the following disclaimer in the documentation
+ * and/or other materials provided with the distribution.
+ * 3. Neither the name of STMicroelectronics nor the names of its contributors
+ * may be used to endorse or promote products derived from this software
+ * without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ ******************************************************************************
+ */
+
+/* Define to prevent from recursive inclusion --------------------------------*/
+#ifndef __DEV_SPI_H
+#define __DEV_SPI_H
+
+/* Includes ------------------------------------------------------------------*/
+#include "mbed.h"
+
+/* Macros --------------------------------------------------------------------*/
+#if (defined(__BYTE_ORDER__) && (__BYTE_ORDER__ == __ORDER_BIG_ENDIAN__)) /* GCC */ || \
+ (defined(G_BYTE_ORDER) && (G_BYTE_ORDER == G_BIG_ENDIAN)) /* IAR */ || \
+ (defined(__BIG_ENDIAN)) /* ARM */
+#define __DEV_SPI_BIG_ENDIAN
+#endif
+
+/* Classes -------------------------------------------------------------------*/
+/** Helper class DevSPI providing functions for synchronous SPI communication
+ * common for a series of SPI devices.
+ */
+class DevSPI : public SPI
+{
+ public:
+ /*
+ * Create a DevSPI interface.
+ * @param mosi pin name of the MOSI pin of the SPI device to be used for communication.
+ * @param miso pin name of the MISO pin of the SPI device to be used for communication.
+ * @param sclk pin name of the SCLK pin of the SPI device to be used for communication.
+ */
+ DevSPI(PinName mosi, PinName miso, PinName sclk) : SPI(mosi, miso, sclk)
+ {
+ /* Set default configuration. */
+ setup(8, 3, 1E6);
+ }
+
+ /*
+ * Setup the spi.
+ * Typically:
+ * + 8 bit data;
+ * + high steady state clock;
+ * + second edge capture;
+ * + 1MHz clock rate.
+ *
+ * @param bits Number of bits per SPI frame (4 - 16)
+ * @param mode Clock polarity and phase mode (0 - 3)
+ * @param frequency_hz SCLK frequency in hz (default = 1MHz)
+ *
+ * @code
+ * mode | POL PHA
+ * -----+--------
+ * 0 | 0 0
+ * 1 | 0 1
+ * 2 | 1 0
+ * 3 | 1 1
+ * @endcode
+ */
+ void setup(int bits, int mode = 0, int frequency_hz = 1E6)
+ {
+ /* Set given configuration. */
+ format(bits, mode);
+ frequency(frequency_hz);
+ }
+
+ /**
+ * @brief Writes a buffer to the SPI peripheral device in 8-bit data mode
+ * using synchronous SPI communication.
+ * @param[in] pBuffer pointer to the buffer of data to send.
+ * @param[in] ssel GPIO of the SSEL pin of the SPI device to be used for communication.
+ * @param[in] NumBytesToWrite number of bytes to write.
+ * @retval 0 if ok.
+ * @retval -1 if data format error.
+ * @note When using the SPI in Interrupt-mode, remember to disable interrupts
+ * before calling this function and to enable them again after.
+ */
+ int spi_write(uint8_t* pBuffer, DigitalOut &ssel, uint16_t NumBytesToWrite)
+ {
+ /* Check data format */
+ if(_bits != 8) return -1;
+
+ /* Select the chip. */
+ ssel = 0;
+
+ /* Write data. */
+ for (int i = 0; i < NumBytesToWrite; i++) {
+ write(pBuffer[i]);
+ }
+
+ /* Unselect the chip. */
+ ssel = 1;
+
+ return 0;
+ }
+
+ /**
+ * @brief Reads a buffer from the SPI peripheral device in 8-bit data mode
+ * using synchronous SPI communication.
+ * @param[out] pBuffer pointer to the buffer to read data into.
+ * @param[in] ssel GPIO of the SSEL pin of the SPI device to be used for communication.
+ * @param[in] NumBytesToRead number of bytes to read.
+ * @retval 0 if ok.
+ * @retval -1 if data format error.
+ * @note When using the SPI in Interrupt-mode, remember to disable interrupts
+ * before calling this function and to enable them again after.
+ */
+ int spi_read(uint8_t* pBuffer, DigitalOut &ssel, uint16_t NumBytesToRead)
+ {
+ /* Check data format */
+ if(_bits != 8) return -1;
+
+ /* Select the chip. */
+ ssel = 0;
+
+ /* Read data. */
+ for (int i = 0; i < NumBytesToRead; i++) {
+ pBuffer[i] = write(0);
+ }
+
+ /* Unselect the chip. */
+ ssel = 1;
+
+ return 0;
+ }
+
+ /**
+ * @brief Reads and write a buffer from/to the SPI peripheral device at the same time
+ * in 8-bit data mode using synchronous SPI communication.
+ * @param[out] pBufferToRead pointer to the buffer to read data into.
+ * @param[in] pBufferToWrite pointer to the buffer of data to send.
+ * @param[in] ssel GPIO of the SSEL pin of the SPI device to be used for communication.
+ * @param[in] NumBytes number of bytes to read and write.
+ * @retval 0 if ok.
+ * @retval -1 if data format error.
+ * @note When using the SPI in Interrupt-mode, remember to disable interrupts
+ * before calling this function and to enable them again after.
+ */
+ int spi_read_write(uint8_t* pBufferToRead, uint8_t* pBufferToWrite, DigitalOut &ssel, uint16_t NumBytes)
+ {
+ /* Check data format */
+ if(_bits != 8) return -1;
+
+ /* Select the chip. */
+ ssel = 0;
+
+ /* Read and write data at the same time. */
+ for (int i = 0; i < NumBytes; i++) {
+ pBufferToRead[i] = write(pBufferToWrite[i]);
+ }
+
+ /* Unselect the chip. */
+ ssel = 1;
+
+ return 0;
+ }
+
+ /**
+ * @brief Writes a buffer to the SPI peripheral device in 16-bit data mode
+ * using synchronous SPI communication.
+ * @param[in] pBuffer pointer to the buffer of data to send.
+ * @param[in] ssel GPIO of the SSEL pin of the SPI device to be used for communication.
+ * @param[in] NumValuesToWrite number of 16-bit values to write.
+ * @retval 0 if ok.
+ * @retval -1 if data format error.
+ * @note When using the SPI in Interrupt-mode, remember to disable interrupts
+ * before calling this function and to enable them again after.
+ * @note In order to guarantee this method to work correctly you have to
+ * pass buffers which are correctly aligned.
+ */
+ int spi_write(uint16_t* pBuffer, DigitalOut &ssel, uint16_t NumValuesToWrite)
+ {
+ /* Check data format */
+ if(_bits != 16) return -1;
+
+ /* Select the chip. */
+ ssel = 0;
+
+ /* Write data. */
+ for (int i = 0; i < NumValuesToWrite; i++) {
+ write(htons(pBuffer[i]));
+ }
+
+ /* Unselect the chip. */
+ ssel = 1;
+
+ return 0;
+ }
+
+ /**
+ * @brief Reads a buffer from the SPI peripheral device in 16-bit data mode
+ * using synchronous SPI communication.
+ * @param[out] pBuffer pointer to the buffer to read data into.
+ * @param[in] ssel GPIO of the SSEL pin of the SPI device to be used for communication.
+ * @param[in] NumValuesToRead number of 16-bit values to read.
+ * @retval 0 if ok.
+ * @retval -1 if data format error.
+ * @note When using the SPI in Interrupt-mode, remember to disable interrupts
+ * before calling this function and to enable them again after.
+ * @note In order to guarantee this method to work correctly you have to
+ * pass buffers which are correctly aligned.
+ */
+ int spi_read(uint16_t* pBuffer, DigitalOut &ssel, uint16_t NumValuesToRead)
+ {
+ /* Check data format */
+ if(_bits != 16) return -1;
+
+ /* Select the chip. */
+ ssel = 0;
+
+ /* Read data. */
+ for (int i = 0; i < NumValuesToRead; i++) {
+ pBuffer[i] = ntohs((uint16_t)write(0));
+ }
+
+ /* Unselect the chip. */
+ ssel = 1;
+
+ return 0;
+ }
+
+ /**
+ * @brief Reads and write a buffer from/to the SPI peripheral device at the same time
+ * in 16-bit data mode using synchronous SPI communication.
+ * @param[out] pBufferToRead pointer to the buffer to read data into.
+ * @param[in] pBufferToWrite pointer to the buffer of data to send.
+ * @param[in] ssel GPIO of the SSEL pin of the SPI device to be used for communication.
+ * @param[in] NumValues number of 16-bit values to read and write.
+ * @retval 0 if ok.
+ * @retval -1 if data format error.
+ * @note When using the SPI in Interrupt-mode, remember to disable interrupts
+ * before calling this function and to enable them again after.
+ * @note In order to guarantee this method to work correctly you have to
+ * pass buffers which are correctly aligned.
+ */
+ int spi_read_write(uint16_t* pBufferToRead, uint16_t* pBufferToWrite, DigitalOut &ssel, uint16_t NumValues)
+ {
+ /* Check data format */
+ if(_bits != 16) return -1;
+
+ /* Select the chip. */
+ ssel = 0;
+
+ /* Read and write data at the same time. */
+ for (int i = 0; i < NumValues; i++) {
+ pBufferToRead[i] = ntohs((uint16_t)write(htons(pBufferToWrite[i])));
+ }
+
+ /* Unselect the chip. */
+ ssel = 1;
+
+ return 0;
+ }
+
+protected:
+ inline uint16_t htons(uint16_t x) {
+#ifndef __DEV_SPI_BIG_ENDIAN
+ return (((x)<<8)|((x)>>8));
+#else // __DEV_SPI_BIG_ENDIAN
+ return (x);
+#endif // __DEV_SPI_BIG_ENDIAN
+ }
+
+ inline uint16_t ntohs(uint16_t x) {
+ return htons(x);
+ }
+};
+
+#endif /* __DEV_SPI_H */
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/x_nucleo_iks01a2_targets.h Tue Oct 03 12:21:11 2017 +0000 @@ -0,0 +1,54 @@ +/** + ****************************************************************************** + * @file x_nucleo_iks01a2_targets.h + * @author CLab + * @version V1.0.0 + * @date 9-August-2016 + * @brief This header file is intended to manage the differences between + * the different supported base-boards which might mount the + * X_NUCLEO_IKS01A2 MEMS Inertial & Environmental Nucleo Expansion Board. + ****************************************************************************** + * @attention + * + * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2> + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * 1. Redistributions of source code must retain the above copyright notice, + * this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following disclaimer in the documentation + * and/or other materials provided with the distribution. + * 3. Neither the name of STMicroelectronics nor the names of its contributors + * may be used to endorse or promote products derived from this software + * without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" + * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE + * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE + * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL + * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR + * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER + * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, + * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE + * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + * + ****************************************************************************** + */ + +/* Define to prevent from recursive inclusion --------------------------------*/ +#ifndef _X_NUCLEO_IKS01A2_TARGETS_H_ +#define _X_NUCLEO_IKS01A2_TARGETS_H_ + +/*** I2C ***/ +/* Use Arduino I2C Connectors */ +#define IKS01A2_PIN_I2C_SDA (D14) +#define IKS01A2_PIN_I2C_SCL (D15) + +/* LSM6DSL INT1 */ +#define IKS01A2_PIN_LSM6DSL_INT1 (D4) +/* LSM6DSL INT2 */ +#define IKS01A2_PIN_LSM6DSL_INT2 (D5) + +#endif // _X_NUCLEO_IKS01A2_TARGETS_H_