forktest - test of fork capabilities

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test of fork capabilities

Dependencies: X_NUCLEO_COMMON ST_INTERFACES

x_nucleo_iks01a1.cpp@8:d49db2c9d9c1, 2015-04-15 (annotated)

Committer:: Wolfgang Betz
Date:: Wed Apr 15 15:56:11 2015 +0200
Revision:: 8:d49db2c9d9c1
Parent:: 7:a2bb3d5e12e9
Child:: 10:cdf47a4b3f2f

Adding example application and board initialization

Who changed what in which revision?

User	Revision	Line number	New contents of line
Wolfgang Betz	3:088aa5839e0d	1	/**
Wolfgang Betz	4:566f2c41dc1d	2	******************************************************************************
Wolfgang Betz	4:566f2c41dc1d	3	* @file x_nucleo_iks01a1.cpp
Wolfgang Betz	4:566f2c41dc1d	4	* @author AST / EST
Wolfgang Betz	4:566f2c41dc1d	5	* @version V0.0.1
Wolfgang Betz	4:566f2c41dc1d	6	* @date 08-October-2014
Wolfgang Betz	4:566f2c41dc1d	7	* @brief Implementation file for the X_NUCLEO_IKS01A1 singleton class
Wolfgang Betz	4:566f2c41dc1d	8	******************************************************************************
Wolfgang Betz	4:566f2c41dc1d	9	* @attention
Wolfgang Betz	4:566f2c41dc1d	10	*
Wolfgang Betz	4:566f2c41dc1d	11	* <h2><center>© COPYRIGHT(c) 2014 STMicroelectronics</center></h2>
Wolfgang Betz	4:566f2c41dc1d	12	*
Wolfgang Betz	4:566f2c41dc1d	13	* Redistribution and use in source and binary forms, with or without modification,
Wolfgang Betz	4:566f2c41dc1d	14	* are permitted provided that the following conditions are met:
Wolfgang Betz	4:566f2c41dc1d	15	* 1. Redistributions of source code must retain the above copyright notice,
Wolfgang Betz	4:566f2c41dc1d	16	* this list of conditions and the following disclaimer.
Wolfgang Betz	4:566f2c41dc1d	17	* 2. Redistributions in binary form must reproduce the above copyright notice,
Wolfgang Betz	4:566f2c41dc1d	18	* this list of conditions and the following disclaimer in the documentation
Wolfgang Betz	4:566f2c41dc1d	19	* and/or other materials provided with the distribution.
Wolfgang Betz	4:566f2c41dc1d	20	* 3. Neither the name of STMicroelectronics nor the names of its contributors
Wolfgang Betz	4:566f2c41dc1d	21	* may be used to endorse or promote products derived from this software
Wolfgang Betz	4:566f2c41dc1d	22	* without specific prior written permission.
Wolfgang Betz	4:566f2c41dc1d	23	*
Wolfgang Betz	4:566f2c41dc1d	24	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
Wolfgang Betz	4:566f2c41dc1d	25	* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
Wolfgang Betz	4:566f2c41dc1d	26	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
Wolfgang Betz	4:566f2c41dc1d	27	* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
Wolfgang Betz	4:566f2c41dc1d	28	* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
Wolfgang Betz	4:566f2c41dc1d	29	* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
Wolfgang Betz	4:566f2c41dc1d	30	* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
Wolfgang Betz	4:566f2c41dc1d	31	* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
Wolfgang Betz	4:566f2c41dc1d	32	* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
Wolfgang Betz	4:566f2c41dc1d	33	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
Wolfgang Betz	4:566f2c41dc1d	34	*
Wolfgang Betz	4:566f2c41dc1d	35	******************************************************************************
Wolfgang Betz	3:088aa5839e0d	36	*/
Wolfgang Betz	3:088aa5839e0d	37
Wolfgang Betz	3:088aa5839e0d	38	/* Includes ------------------------------------------------------------------*/
Wolfgang Betz	3:088aa5839e0d	39	#include "mbed.h"
Wolfgang Betz	3:088aa5839e0d	40	#include "x_nucleo_iks01a1.h"
Wolfgang Betz	4:566f2c41dc1d	41	#include "hts221/hts221_class.h"
Wolfgang Betz	5:8bab0f419849	42	#include "lis3mdl/lis3mdl_class.h"
Wolfgang Betz	6:8d2abd695c52	43	#include "lps25h/lps25h_class.h"
Wolfgang Betz	7:a2bb3d5e12e9	44	#include "lsm6ds0/lsm6ds0_class.h"
Wolfgang Betz	3:088aa5839e0d	45
Wolfgang Betz	3:088aa5839e0d	46	/* Static variables ----------------------------------------------------------*/
Wolfgang Betz	3:088aa5839e0d	47	X_NUCLEO_IKS01A1* X_NUCLEO_IKS01A1::_instance = NULL;
Wolfgang Betz	3:088aa5839e0d	48
Wolfgang Betz	4:566f2c41dc1d	49
Wolfgang Betz	3:088aa5839e0d	50	/* Methods -------------------------------------------------------------------*/
Wolfgang Betz	3:088aa5839e0d	51	/**
Wolfgang Betz	3:088aa5839e0d	52	* @brief Constructor
Wolfgang Betz	3:088aa5839e0d	53	*/
Wolfgang Betz	3:088aa5839e0d	54	X_NUCLEO_IKS01A1::X_NUCLEO_IKS01A1(DevI2C *ext_i2c) : dev_i2c(ext_i2c),
Wolfgang Betz	5:8bab0f419849	55	ht_sensor((new HTS221(dev_i2c))),
Wolfgang Betz	6:8d2abd695c52	56	magnetometer((new LIS3MDL(dev_i2c))),
Wolfgang Betz	7:a2bb3d5e12e9	57	pressure_sensor((new LPS25H(dev_i2c))),
Wolfgang Betz	7:a2bb3d5e12e9	58	gyroscope((new LSM6DS0(dev_i2c)))
Wolfgang Betz	3:088aa5839e0d	59	{
Wolfgang Betz	3:088aa5839e0d	60	}
Wolfgang Betz	3:088aa5839e0d	61
Wolfgang Betz	3:088aa5839e0d	62	/**
Wolfgang Betz	3:088aa5839e0d	63	* @brief Get singleton instance
Wolfgang Betz	8:d49db2c9d9c1	64	* @return a pointer to the initialized singleton instance of class X_NUCLEO_IKS01A1
Wolfgang Betz	3:088aa5839e0d	65	* @param (optional) ext_i2c pointer to instance of DevI2C to be used
Wolfgang Betz	3:088aa5839e0d	66	* for communication on the expansion board.
Wolfgang Betz	3:088aa5839e0d	67	* Taken into account only on the very first call of this function.
Wolfgang Betz	3:088aa5839e0d	68	* If not provided a new DevI2C will be created with standard
Wolfgang Betz	3:088aa5839e0d	69	* configuration parameters.
Wolfgang Betz	3:088aa5839e0d	70	* The used DevI2C object gets saved in instance variable dev_i2c.
Wolfgang Betz	3:088aa5839e0d	71	*/
Wolfgang Betz	3:088aa5839e0d	72	X_NUCLEO_IKS01A1* X_NUCLEO_IKS01A1::Instance(DevI2C *ext_i2c) {
Wolfgang Betz	3:088aa5839e0d	73	if(_instance == NULL) {
Wolfgang Betz	3:088aa5839e0d	74	if(ext_i2c == NULL)
Wolfgang Betz	3:088aa5839e0d	75	ext_i2c = new DevI2C(IKS01A1_PIN_I2C_SDA, IKS01A1_PIN_I2C_SCL);
Wolfgang Betz	3:088aa5839e0d	76	_instance = new X_NUCLEO_IKS01A1(ext_i2c);
Wolfgang Betz	8:d49db2c9d9c1	77
Wolfgang Betz	8:d49db2c9d9c1	78	if(_instance != NULL) {
Wolfgang Betz	8:d49db2c9d9c1	79	bool ret = _instance->Init();
Wolfgang Betz	8:d49db2c9d9c1	80	if(!ret) {
Wolfgang Betz	8:d49db2c9d9c1	81	error("Failed to init X_NUCLEO_IKS01A1 expansion board!\n");
Wolfgang Betz	8:d49db2c9d9c1	82	}
Wolfgang Betz	8:d49db2c9d9c1	83	}
Wolfgang Betz	3:088aa5839e0d	84	}
Wolfgang Betz	8:d49db2c9d9c1	85
Wolfgang Betz	3:088aa5839e0d	86	return _instance;
Wolfgang Betz	3:088aa5839e0d	87	}
Wolfgang Betz	8:d49db2c9d9c1	88
Wolfgang Betz	8:d49db2c9d9c1	89	/**
Wolfgang Betz	8:d49db2c9d9c1	90	* @brief Initialize the singelton HT sensor
Wolfgang Betz	8:d49db2c9d9c1	91	* @return true if initialization successful, false otherwise
Wolfgang Betz	8:d49db2c9d9c1	92	*/
Wolfgang Betz	8:d49db2c9d9c1	93	bool X_NUCLEO_IKS01A1::Init_HT(void) {
Wolfgang Betz	8:d49db2c9d9c1	94	uint8_t ht_id = 0;
Wolfgang Betz	8:d49db2c9d9c1	95	HUM_TEMP_InitTypeDef InitStructure;
Wolfgang Betz	8:d49db2c9d9c1	96
Wolfgang Betz	8:d49db2c9d9c1	97	/* Configure sensor */
Wolfgang Betz	8:d49db2c9d9c1	98	InitStructure.OutputDataRate = HTS221_ODR_12_5Hz;
Wolfgang Betz	8:d49db2c9d9c1	99
Wolfgang Betz	8:d49db2c9d9c1	100	if(ht_sensor.Init(&InitStructure) != HUM_TEMP_OK)
Wolfgang Betz	8:d49db2c9d9c1	101	{
Wolfgang Betz	8:d49db2c9d9c1	102	return false;
Wolfgang Betz	8:d49db2c9d9c1	103	}
Wolfgang Betz	8:d49db2c9d9c1	104
Wolfgang Betz	8:d49db2c9d9c1	105	if(ht_sensor.ReadID(&ht_id) != HUM_TEMP_OK)
Wolfgang Betz	8:d49db2c9d9c1	106	{
Wolfgang Betz	8:d49db2c9d9c1	107	return false;
Wolfgang Betz	8:d49db2c9d9c1	108	}
Wolfgang Betz	8:d49db2c9d9c1	109
Wolfgang Betz	8:d49db2c9d9c1	110	if(ht_id != I_AM_HTS221)
Wolfgang Betz	8:d49db2c9d9c1	111	{
Wolfgang Betz	8:d49db2c9d9c1	112	return false;
Wolfgang Betz	8:d49db2c9d9c1	113	}
Wolfgang Betz	8:d49db2c9d9c1	114
Wolfgang Betz	8:d49db2c9d9c1	115	return true;
Wolfgang Betz	8:d49db2c9d9c1	116	}
Wolfgang Betz	8:d49db2c9d9c1	117
Wolfgang Betz	8:d49db2c9d9c1	118	/**
Wolfgang Betz	8:d49db2c9d9c1	119	* @brief Initialize the singelton magnetometer
Wolfgang Betz	8:d49db2c9d9c1	120	* @return true if initialization successful, false otherwise
Wolfgang Betz	8:d49db2c9d9c1	121	*/
Wolfgang Betz	8:d49db2c9d9c1	122	bool X_NUCLEO_IKS01A1::Init_MAG(void) {
Wolfgang Betz	8:d49db2c9d9c1	123	uint8_t m_id = 0;
Wolfgang Betz	8:d49db2c9d9c1	124	MAGNETO_InitTypeDef InitStructure;
Wolfgang Betz	8:d49db2c9d9c1	125
Wolfgang Betz	8:d49db2c9d9c1	126	/* Configure sensor */
Wolfgang Betz	8:d49db2c9d9c1	127	InitStructure.M_FullScale = LIS3MDL_M_FS_4;
Wolfgang Betz	8:d49db2c9d9c1	128	InitStructure.M_OperatingMode = LIS3MDL_M_MD_CONTINUOUS;
Wolfgang Betz	8:d49db2c9d9c1	129	InitStructure.M_XYOperativeMode = LIS3MDL_M_OM_HP;
Wolfgang Betz	8:d49db2c9d9c1	130	InitStructure.M_OutputDataRate = LIS3MDL_M_DO_80;
Wolfgang Betz	8:d49db2c9d9c1	131
Wolfgang Betz	8:d49db2c9d9c1	132	if(magnetometer.Init(&InitStructure) != MAGNETO_OK)
Wolfgang Betz	8:d49db2c9d9c1	133	{
Wolfgang Betz	8:d49db2c9d9c1	134	return false;
Wolfgang Betz	8:d49db2c9d9c1	135	}
Wolfgang Betz	8:d49db2c9d9c1	136
Wolfgang Betz	8:d49db2c9d9c1	137	if(magnetometer.Read_M_ID(&m_id) != MAGNETO_OK)
Wolfgang Betz	8:d49db2c9d9c1	138	{
Wolfgang Betz	8:d49db2c9d9c1	139	return false;
Wolfgang Betz	8:d49db2c9d9c1	140	}
Wolfgang Betz	8:d49db2c9d9c1	141
Wolfgang Betz	8:d49db2c9d9c1	142	if(m_id != I_AM_LIS3MDL_M)
Wolfgang Betz	8:d49db2c9d9c1	143	{
Wolfgang Betz	8:d49db2c9d9c1	144	return false;
Wolfgang Betz	8:d49db2c9d9c1	145	}
Wolfgang Betz	8:d49db2c9d9c1	146
Wolfgang Betz	8:d49db2c9d9c1	147	return true;
Wolfgang Betz	8:d49db2c9d9c1	148	}
Wolfgang Betz	8:d49db2c9d9c1	149
Wolfgang Betz	8:d49db2c9d9c1	150	/**
Wolfgang Betz	8:d49db2c9d9c1	151	* @brief Initialize the singelton pressure sensor
Wolfgang Betz	8:d49db2c9d9c1	152	* @return true if initialization successful, false otherwise
Wolfgang Betz	8:d49db2c9d9c1	153	*/
Wolfgang Betz	8:d49db2c9d9c1	154	bool X_NUCLEO_IKS01A1::Init_PRESS(void) {
Wolfgang Betz	8:d49db2c9d9c1	155	uint8_t p_id = 0;
Wolfgang Betz	8:d49db2c9d9c1	156	PRESSURE_InitTypeDef InitStructure;
Wolfgang Betz	8:d49db2c9d9c1	157
Wolfgang Betz	8:d49db2c9d9c1	158	/* Configure sensor */
Wolfgang Betz	8:d49db2c9d9c1	159	InitStructure.OutputDataRate = LPS25H_ODR_1Hz;
Wolfgang Betz	8:d49db2c9d9c1	160	InitStructure.BlockDataUpdate = LPS25H_BDU_CONT;
Wolfgang Betz	8:d49db2c9d9c1	161	InitStructure.DiffEnable = LPS25H_DIFF_ENABLE;
Wolfgang Betz	8:d49db2c9d9c1	162	InitStructure.SPIMode = LPS25H_SPI_SIM_3W;
Wolfgang Betz	8:d49db2c9d9c1	163	InitStructure.PressureResolution = LPS25H_P_RES_AVG_32;
Wolfgang Betz	8:d49db2c9d9c1	164	InitStructure.TemperatureResolution = LPS25H_T_RES_AVG_16;
Wolfgang Betz	8:d49db2c9d9c1	165
Wolfgang Betz	8:d49db2c9d9c1	166	if(pressure_sensor.Init(&InitStructure) != PRESSURE_OK)
Wolfgang Betz	8:d49db2c9d9c1	167	{
Wolfgang Betz	8:d49db2c9d9c1	168	return false;
Wolfgang Betz	8:d49db2c9d9c1	169	}
Wolfgang Betz	8:d49db2c9d9c1	170
Wolfgang Betz	8:d49db2c9d9c1	171	if(pressure_sensor.ReadID(&p_id) != PRESSURE_OK)
Wolfgang Betz	8:d49db2c9d9c1	172	{
Wolfgang Betz	8:d49db2c9d9c1	173	return false;
Wolfgang Betz	8:d49db2c9d9c1	174	}
Wolfgang Betz	8:d49db2c9d9c1	175
Wolfgang Betz	8:d49db2c9d9c1	176	if(p_id != I_AM_LPS25H)
Wolfgang Betz	8:d49db2c9d9c1	177	{
Wolfgang Betz	8:d49db2c9d9c1	178	return false;
Wolfgang Betz	8:d49db2c9d9c1	179	}
Wolfgang Betz	8:d49db2c9d9c1	180
Wolfgang Betz	8:d49db2c9d9c1	181	return true;
Wolfgang Betz	8:d49db2c9d9c1	182	}
Wolfgang Betz	8:d49db2c9d9c1	183
Wolfgang Betz	8:d49db2c9d9c1	184	/**
Wolfgang Betz	8:d49db2c9d9c1	185	* @brief Initialize the singelton gyroscope
Wolfgang Betz	8:d49db2c9d9c1	186	* @return true if initialization successful, false otherwise
Wolfgang Betz	8:d49db2c9d9c1	187	*/
Wolfgang Betz	8:d49db2c9d9c1	188	bool X_NUCLEO_IKS01A1::Init_GYRO(void) {
Wolfgang Betz	8:d49db2c9d9c1	189	IMU_6AXES_InitTypeDef InitStructure;
Wolfgang Betz	8:d49db2c9d9c1	190	uint8_t xg_id = 0;
Wolfgang Betz	8:d49db2c9d9c1	191
Wolfgang Betz	8:d49db2c9d9c1	192	/* Configure sensor */
Wolfgang Betz	8:d49db2c9d9c1	193	InitStructure.G_FullScale = LSM6DS0_G_FS_2000;
Wolfgang Betz	8:d49db2c9d9c1	194	InitStructure.G_OutputDataRate = LSM6DS0_G_ODR_119HZ;
Wolfgang Betz	8:d49db2c9d9c1	195	InitStructure.G_X_Axis = LSM6DS0_G_XEN_ENABLE;
Wolfgang Betz	8:d49db2c9d9c1	196	InitStructure.G_Y_Axis = LSM6DS0_G_YEN_ENABLE;
Wolfgang Betz	8:d49db2c9d9c1	197	InitStructure.G_Z_Axis = LSM6DS0_G_ZEN_ENABLE;
Wolfgang Betz	8:d49db2c9d9c1	198
Wolfgang Betz	8:d49db2c9d9c1	199	InitStructure.X_FullScale = LSM6DS0_XL_FS_2G;
Wolfgang Betz	8:d49db2c9d9c1	200	InitStructure.X_OutputDataRate = LSM6DS0_XL_ODR_119HZ;
Wolfgang Betz	8:d49db2c9d9c1	201	InitStructure.X_X_Axis = LSM6DS0_XL_XEN_ENABLE;
Wolfgang Betz	8:d49db2c9d9c1	202	InitStructure.X_Y_Axis = LSM6DS0_XL_YEN_ENABLE;
Wolfgang Betz	8:d49db2c9d9c1	203	InitStructure.X_Z_Axis = LSM6DS0_XL_ZEN_ENABLE;
Wolfgang Betz	8:d49db2c9d9c1	204
Wolfgang Betz	8:d49db2c9d9c1	205	if(gyroscope.Init(&InitStructure) != IMU_6AXES_OK)
Wolfgang Betz	8:d49db2c9d9c1	206	{
Wolfgang Betz	8:d49db2c9d9c1	207	return false;
Wolfgang Betz	8:d49db2c9d9c1	208	}
Wolfgang Betz	8:d49db2c9d9c1	209
Wolfgang Betz	8:d49db2c9d9c1	210	if(gyroscope.Read_XG_ID(&xg_id) != IMU_6AXES_OK)
Wolfgang Betz	8:d49db2c9d9c1	211	{
Wolfgang Betz	8:d49db2c9d9c1	212	return false;
Wolfgang Betz	8:d49db2c9d9c1	213	}
Wolfgang Betz	8:d49db2c9d9c1	214
Wolfgang Betz	8:d49db2c9d9c1	215	if(xg_id != I_AM_LSM6DS0_XG)
Wolfgang Betz	8:d49db2c9d9c1	216	{
Wolfgang Betz	8:d49db2c9d9c1	217	return false;
Wolfgang Betz	8:d49db2c9d9c1	218	}
Wolfgang Betz	8:d49db2c9d9c1	219
Wolfgang Betz	8:d49db2c9d9c1	220	return true;
Wolfgang Betz	8:d49db2c9d9c1	221	}

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Type:	Program
Created:	10 Jul 2019
Imports:	0
Forks:	0
Commits:	93
Dependents:	0
Dependencies:	2
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x_nucleo_iks01a1.cpp@8:d49db2c9d9c1, 2015-04-15 (annotated)

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