VL53L1 - Fork, renaming of VL53L1CB-2

ST Expansion SW Team » Code » VL53L1

Fork, renaming of VL53L1CB-2

Dependencies: X_NUCLEO_COMMON ST_INTERFACES

inc/ToF_I2C.h@13:3f1b341901dd, 2021-06-11 (annotated)

Committer:: Charles MacNeill
Date:: Fri Jun 11 17:08:27 2021 +0100
Revision:: 13:3f1b341901dd
Parent:: 3:bb32dc22b2f8

changing case of vl53l1cb.* so it works in linux

Who changed what in which revision?

User	Revision	Line number	New contents of line
charlesmn	0:3ac96e360672	1	/* Define to prevent from recursive inclusion --------------------------------*/
charlesmn	0:3ac96e360672	2	#ifndef __DEV_ToF_I2C_H
charlesmn	0:3ac96e360672	3	#define __DEV_ToF_I2C_H
charlesmn	0:3ac96e360672	4
charlesmn	0:3ac96e360672	5	/* Includes ------------------------------------------------------------------*/
charlesmn	0:3ac96e360672	6
charlesmn	0:3ac96e360672	7	#include "mbed.h"
charlesmn	0:3ac96e360672	8
charlesmn	0:3ac96e360672	9	#include "pinmap.h"
charlesmn	0:3ac96e360672	10
charlesmn	0:3ac96e360672	11	static int mutex =0;
charlesmn	0:3ac96e360672	12
charlesmn	0:3ac96e360672	13	//Class replacing DevI2C class as it was not implementing a 16bit address registers
charlesmn	0:3ac96e360672	14	class ToF_DevI2C : public I2C
charlesmn	0:3ac96e360672	15	{
charlesmn	0:3ac96e360672	16	public:
charlesmn	0:3ac96e360672	17	/** Create a DevI2C Master interface, connected to the specified pins
charlesmn	0:3ac96e360672	18	*
charlesmn	0:3ac96e360672	19	* @param sda I2C data line pin
charlesmn	0:3ac96e360672	20	* @param scl I2C clock line pin
charlesmn	0:3ac96e360672	21	*/
charlesmn	0:3ac96e360672	22	ToF_DevI2C(PinName sda, PinName scl) : I2C(sda, scl) { printf ("hello\n");}
charlesmn	0:3ac96e360672	23
charlesmn	0:3ac96e360672	24	/**
charlesmn	0:3ac96e360672	25	* @brief Writes a buffer towards the I2C peripheral device.
charlesmn	0:3ac96e360672	26	* @param pBuffer pointer to the byte-array data to send
charlesmn	0:3ac96e360672	27	* @param DeviceAddr specifies the peripheral device slave address.
charlesmn	0:3ac96e360672	28	* @param RegisterAddr specifies the internal address register
charlesmn	0:3ac96e360672	29	* where to start writing to (must be correctly masked).
charlesmn	0:3ac96e360672	30	* @param NumByteToWrite number of bytes to be written.
charlesmn	0:3ac96e360672	31	* @retval 0 if ok,
charlesmn	0:3ac96e360672	32	* @retval -1 if an I2C error has occured, or
charlesmn	0:3ac96e360672	33	* @retval -2 on temporary buffer overflow (i.e. NumByteToWrite was too high)
charlesmn	0:3ac96e360672	34	* @note On some devices if NumByteToWrite is greater
charlesmn	0:3ac96e360672	35	* than one, the RegisterAddr must be masked correctly!
charlesmn	0:3ac96e360672	36	*/
charlesmn	0:3ac96e360672	37	/*
charlesmn	0:3ac96e360672	38	int v53l1x_i2c_write(uint8_t* pBuffer, uint8_t DeviceAddr, uint16_t RegisterAddr,
charlesmn	0:3ac96e360672	39	uint16_t NumByteToWrite) {
charlesmn	0:3ac96e360672	40	int ret;
charlesmn	0:3ac96e360672	41	uint8_t tmp[TEMP_BUF_SIZE];
charlesmn	0:3ac96e360672	42
charlesmn	0:3ac96e360672	43	if(NumByteToWrite >= TEMP_BUF_SIZE) return -2;
charlesmn	0:3ac96e360672	44
charlesmn	0:3ac96e360672	45	// First, send device address. Then, send data and STOP condition
charlesmn	0:3ac96e360672	46	tmp[0] = RegisterAddr >> 8;
charlesmn	0:3ac96e360672	47	tmp[1] = RegisterAddr & 0x0FF;
charlesmn	0:3ac96e360672	48	memcpy(tmp+2, pBuffer, NumByteToWrite);
charlesmn	0:3ac96e360672	49	while ( mutex )
charlesmn	0:3ac96e360672	50	{
charlesmn	0:3ac96e360672	51	wait_ms(1);
charlesmn	0:3ac96e360672	52	}
charlesmn	0:3ac96e360672	53	mutex = 1;
charlesmn	0:3ac96e360672	54
charlesmn	0:3ac96e360672	55	ret = write(DeviceAddr, (const char*)tmp, NumByteToWrite+2, false);
charlesmn	0:3ac96e360672	56	mutex = 0;
charlesmn	0:3ac96e360672	57	if(ret)
charlesmn	0:3ac96e360672	58	{
charlesmn	0:3ac96e360672	59	wait_ms(1);
charlesmn	0:3ac96e360672	60	ret = write(DeviceAddr, (const char*)tmp, NumByteToWrite+2, false);
charlesmn	0:3ac96e360672	61	if(ret)
charlesmn	0:3ac96e360672	62	{
charlesmn	0:3ac96e360672	63	printf("***************** v53l1x_i2c_write twice times %d %d %d %d\n",DeviceAddr,RegisterAddr,NumByteToWrite,ret);
charlesmn	0:3ac96e360672	64	}
charlesmn	0:3ac96e360672	65	// printf("v53l1x_i2c_write %d %d %d %d\n",DeviceAddr,RegisterAddr,NumByteToWrite,ret);
charlesmn	0:3ac96e360672	66	return -1;
charlesmn	0:3ac96e360672	67	}
charlesmn	0:3ac96e360672	68	return 0;
charlesmn	0:3ac96e360672	69	}
charlesmn	0:3ac96e360672	70	*/
charlesmn	0:3ac96e360672	71
charlesmn	0:3ac96e360672	72	/**
charlesmn	0:3ac96e360672	73	* @brief Reads a buffer from the I2C peripheral device.
charlesmn	0:3ac96e360672	74	* @param pBuffer pointer to the byte-array to read data in to
charlesmn	0:3ac96e360672	75	* @param DeviceAddr specifies the peripheral device slave address.
charlesmn	0:3ac96e360672	76	* @param RegisterAddr specifies the internal address register
charlesmn	0:3ac96e360672	77	* where to start reading from (must be correctly masked).
charlesmn	0:3ac96e360672	78	* @param NumByteToRead number of bytes to be read.
charlesmn	0:3ac96e360672	79	* @retval 0 if ok,
charlesmn	0:3ac96e360672	80	* @retval -1 if an I2C error has occured
charlesmn	0:3ac96e360672	81	* @note On some devices if NumByteToWrite is greater
charlesmn	0:3ac96e360672	82	* than one, the RegisterAddr must be masked correctly!
charlesmn	0:3ac96e360672	83	*/
charlesmn	0:3ac96e360672	84	/*
charlesmn	0:3ac96e360672	85	int v53l1x_i2c_read(uint8_t* pBuffer, uint8_t DeviceAddr, uint16_t RegisterAddr,
charlesmn	0:3ac96e360672	86	uint16_t NumByteToRead) {
charlesmn	0:3ac96e360672	87	int ret;
charlesmn	0:3ac96e360672	88
charlesmn	0:3ac96e360672	89
charlesmn	0:3ac96e360672	90	// Read data, with STOP condition
charlesmn	0:3ac96e360672	91	ret = read(DeviceAddr, (char*)pBuffer, NumByteToRead, false);
charlesmn	0:3ac96e360672	92
charlesmn	0:3ac96e360672	93	// printf("class v53l1x_i2c_read read %d %d %d\n",pBuffer[0],pBuffer[1],pBuffer[2]);
charlesmn	0:3ac96e360672	94
charlesmn	0:3ac96e360672	95
charlesmn	0:3ac96e360672	96	if(ret)
charlesmn	0:3ac96e360672	97	{
charlesmn	0:3ac96e360672	98	printf("********************* class v53l1x_i2c_read %d %d %d %d\n",DeviceAddr,RegisterAddr,NumByteToRead,ret);
charlesmn	0:3ac96e360672	99	return -1;
charlesmn	0:3ac96e360672	100	}
charlesmn	0:3ac96e360672	101	return 0;
charlesmn	0:3ac96e360672	102	}
charlesmn	0:3ac96e360672	103	*/
charlesmn	0:3ac96e360672	104
charlesmn	0:3ac96e360672	105	int ToF_i2c_write(uint8_t* pBuffer, uint8_t DeviceAddr, uint16_t RegisterAddr,
charlesmn	0:3ac96e360672	106	uint16_t NumByteToWrite) {
charlesmn	0:3ac96e360672	107	int ret;
charlesmn	0:3ac96e360672	108	uint8_t tmp[TEMP_BUF_SIZE];
charlesmn	0:3ac96e360672	109
charlesmn	0:3ac96e360672	110	if(NumByteToWrite >= TEMP_BUF_SIZE) return -2;
charlesmn	0:3ac96e360672	111
charlesmn	0:3ac96e360672	112	// First, send device address. Then, send data and STOP condition
charlesmn	0:3ac96e360672	113	tmp[0] = RegisterAddr >> 8;
charlesmn	0:3ac96e360672	114	tmp[1] = RegisterAddr & 0x0FF;
charlesmn	0:3ac96e360672	115	memcpy(tmp+2, pBuffer, NumByteToWrite);
charlesmn	0:3ac96e360672	116
charlesmn	0:3ac96e360672	117	ret = write(DeviceAddr, (const char*)tmp, NumByteToWrite+2, false);
charlesmn	0:3ac96e360672	118
charlesmn	0:3ac96e360672	119	if(ret) return -1;
charlesmn	0:3ac96e360672	120	return 0;
charlesmn	0:3ac96e360672	121	}
charlesmn	0:3ac96e360672	122
charlesmn	0:3ac96e360672	123	/**
charlesmn	0:3ac96e360672	124	* @brief Reads a buffer from the I2C peripheral device.
charlesmn	0:3ac96e360672	125	* @param pBuffer pointer to the byte-array to read data in to
charlesmn	0:3ac96e360672	126	* @param DeviceAddr specifies the peripheral device slave address.
charlesmn	0:3ac96e360672	127	* @param RegisterAddr specifies the internal address register
charlesmn	0:3ac96e360672	128	* where to start reading from (must be correctly masked).
charlesmn	0:3ac96e360672	129	* @param NumByteToRead number of bytes to be read.
charlesmn	0:3ac96e360672	130	* @retval 0 if ok,
charlesmn	0:3ac96e360672	131	* @retval -1 if an I2C error has occured
charlesmn	0:3ac96e360672	132	* @note On some devices if NumByteToWrite is greater
charlesmn	0:3ac96e360672	133	* than one, the RegisterAddr must be masked correctly!
charlesmn	0:3ac96e360672	134	*/
charlesmn	0:3ac96e360672	135	int ToF_i2c_read(uint8_t* pBuffer, uint8_t DeviceAddr, uint16_t RegisterAddr,
charlesmn	0:3ac96e360672	136	uint16_t NumByteToRead) {
charlesmn	0:3ac96e360672	137	int ret;
charlesmn	0:3ac96e360672	138	uint8_t ExpanderData[2];
charlesmn	0:3ac96e360672	139	ExpanderData[0] = RegisterAddr >> 8;
charlesmn	0:3ac96e360672	140	ExpanderData[1] = RegisterAddr & 0x0FF;
charlesmn	0:3ac96e360672	141	/* Send device address, with no STOP condition */
charlesmn	0:3ac96e360672	142	ret = write(DeviceAddr, (const char*)ExpanderData, 2, true);
charlesmn	0:3ac96e360672	143	if(!ret) {
charlesmn	0:3ac96e360672	144	/* Read data, with STOP condition */
charlesmn	0:3ac96e360672	145	ret = read(DeviceAddr, (char*)pBuffer, NumByteToRead, false);
charlesmn	0:3ac96e360672	146	}
charlesmn	0:3ac96e360672	147
charlesmn	0:3ac96e360672	148	if(ret) return -1;
charlesmn	0:3ac96e360672	149	return 0;
charlesmn	0:3ac96e360672	150	}
charlesmn	0:3ac96e360672	151
charlesmn	0:3ac96e360672	152	private:
charlesmn	0:3ac96e360672	153	static const unsigned int TEMP_BUF_SIZE = 256;
charlesmn	0:3ac96e360672	154	};
charlesmn	0:3ac96e360672	155
charlesmn	0:3ac96e360672	156	#endif /* __DEV_53L1X_I2C_H */

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Type:	Library
Created:	09 Nov 2020
Imports:	11
Forks:	0
Commits:	14
Dependents:	1
Dependencies:	2
Followers:	63

inc/ToF_I2C.h@13:3f1b341901dd, 2021-06-11 (annotated)

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