Tasmota/lib/Adafruit_VEML7700/Adafruit_VEML7700.cpp

323 lines
9.3 KiB
C++

/*!
* @file Adafruit_VEML7700.cpp
*
* @mainpage Adafruit VEML7700 I2C Lux Sensor
*
* @section intro_sec Introduction
*
* I2C Driver for the VEML7700 I2C Lux sensor
*
* This is a library for the Adafruit VEML7700 breakout:
* http://www.adafruit.com/
*
* Adafruit invests time and resources providing this open source code,
* please support Adafruit and open-source hardware by purchasing products from
* Adafruit!
*
* @section author Author
*
* Limor Fried (Adafruit Industries)
*
* @section license License
*
* BSD (see license.txt)
*
* @section HISTORY
*
* v1.0 - First release
*/
#include "Arduino.h"
#include <Wire.h>
#include "Adafruit_VEML7700.h"
/*!
* @brief Instantiates a new VEML7700 class
*/
Adafruit_VEML7700::Adafruit_VEML7700(void) {}
/*!
* @brief Setups the hardware for talking to the VEML7700
* @param theWire An optional pointer to an I2C interface
* @return True if initialization was successful, otherwise false.
*/
boolean Adafruit_VEML7700::begin(TwoWire *theWire) {
i2c_dev = new Adafruit_I2CDevice(VEML7700_I2CADDR_DEFAULT, theWire);
if (!i2c_dev->begin()) {
return false;
}
ALS_Config = new Adafruit_I2CRegister(i2c_dev, VEML7700_ALS_CONFIG, 2, LSBFIRST);
ALS_HighThreshold = new Adafruit_I2CRegister(i2c_dev, VEML7700_ALS_THREHOLD_HIGH, 2, LSBFIRST);
ALS_LowThreshold = new Adafruit_I2CRegister(i2c_dev, VEML7700_ALS_THREHOLD_LOW, 2, LSBFIRST);
Power_Saving = new Adafruit_I2CRegister(i2c_dev, VEML7700_ALS_POWER_SAVE, 2, LSBFIRST);
ALS_Data = new Adafruit_I2CRegister(i2c_dev, VEML7700_ALS_DATA, 2, LSBFIRST);
White_Data = new Adafruit_I2CRegister(i2c_dev, VEML7700_WHITE_DATA, 2, LSBFIRST);
Interrupt_Status = new Adafruit_I2CRegister(i2c_dev, VEML7700_INTERRUPTSTATUS, 2, LSBFIRST);
ALS_Shutdown = new Adafruit_I2CRegisterBits(ALS_Config, 1, 0); // # bits, bit_shift
ALS_Interrupt_Enable = new Adafruit_I2CRegisterBits(ALS_Config, 1, 1);
ALS_Persistence = new Adafruit_I2CRegisterBits(ALS_Config, 2, 4);
ALS_Integration_Time = new Adafruit_I2CRegisterBits(ALS_Config, 4, 6);
ALS_Gain = new Adafruit_I2CRegisterBits(ALS_Config, 2, 11);
PowerSave_Enable = new Adafruit_I2CRegisterBits(Power_Saving, 1, 0);
PowerSave_Mode = new Adafruit_I2CRegisterBits(Power_Saving, 2, 1);
enable(false);
interruptEnable(false);
setPersistence(VEML7700_PERS_1);
setGain(VEML7700_GAIN_1);
setIntegrationTime(VEML7700_IT_100MS);
powerSaveEnable(false);
enable(true);
return true;
}
float Adafruit_VEML7700::normalize_resolution(float value) {
// adjust for gain (1x is normalized)
switch (getGain()) {
case VEML7700_GAIN_2:
value /= 2.0; break;
case VEML7700_GAIN_1_4:
value *= 4; break;
case VEML7700_GAIN_1_8:
value *= 8; break;
}
// adjust for integrationtime (100ms is normalized)
switch (getIntegrationTime()) {
case VEML7700_IT_25MS:
value *= 4; break;
case VEML7700_IT_50MS:
value *= 2; break;
case VEML7700_IT_200MS:
value /= 2.0; break;
case VEML7700_IT_400MS:
value /= 4.0; break;
case VEML7700_IT_800MS:
value /= 8.0; break;
}
return value;
}
/*!
* @brief Read the calibrated lux value. See app note lux table on page 5
* @returns Floating point Lux data (ALS multiplied by 0.0576)
*/
float Adafruit_VEML7700::readLux() {
return ( normalize_resolution(ALS_Data->read()) * 0.0576); // see app note lux table on page 5
}
/*!
* @brief Read the lux value with correction for non-linearity at high-lux settings
* @returns Floating point Lux data (ALS multiplied by 0.0576 and corrected for high-lux settings)
*/
float Adafruit_VEML7700::readLuxNormalized() {
float lux = readLux();
// user-provided correction for non-linearities at high lux/white values:
// https://forums.adafruit.com/viewtopic.php?f=19&t=152997&p=758582#p759346
if ((getGain() == VEML7700_GAIN_1_8) && (getIntegrationTime() == VEML7700_IT_25MS)){
lux = 6.0135e-13*pow(lux,4) - 9.3924e-9*pow(lux,3) + 8.1488e-5*pow(lux,2) + 1.0023*lux;
}
return lux;
}
/*!
* @brief Read the raw ALS data
* @returns 16-bit data value from the ALS register
*/
uint16_t Adafruit_VEML7700::readALS() {
return ALS_Data->read();
}
/*!
* @brief Read the white light data
* @returns Floating point 'white light' data multiplied by 0.0576
*/
float Adafruit_VEML7700::readWhite() {
// white_corrected= 2E-15*pow(VEML_white,4) + 4E-12*pow(VEML_white,3) + 9E-06*pow(VEML_white,)2 + 1.0179*VEML_white - 11.052;
return normalize_resolution(White_Data->read()) * 0.0576; // Unclear if this is the right multiplier
}
/*!
* @brief Read the 'white light' value with correction for non-linearity at high-lux settings
* @returns Floating point 'white light' data multiplied by 0.0576 and corrected for high-lux settings
*/
float Adafruit_VEML7700::readWhiteNormalized() {
float white = readWhite();
// user-provided correction for non-linearities at high lux values:
// https://forums.adafruit.com/viewtopic.php?f=19&t=152997&p=758582#p759346
if ((getGain() == VEML7700_GAIN_1_8) && (getIntegrationTime() == VEML7700_IT_25MS)){
white = 2E-15*pow(white,4) + 4E-12*pow(white,3) + 9E-06*pow(white,2) + 1.0179*white - 11.052;
}
return white;
}
/*!
* @brief Enable or disable the sensor
* @param enable The flag to enable/disable
*/
void Adafruit_VEML7700::enable(bool enable) {
ALS_Shutdown->write(!enable);
}
/*!
* @brief Ask if the interrupt is enabled
* @returns True if enabled, false otherwise
*/
bool Adafruit_VEML7700::enabled(void) {
return !ALS_Shutdown->read();
}
/*!
* @brief Enable or disable the interrupt
* @param enable The flag to enable/disable
*/
void Adafruit_VEML7700::interruptEnable(bool enable) {
ALS_Interrupt_Enable->write(enable);
}
/*!
* @brief Ask if the interrupt is enabled
* @returns True if enabled, false otherwise
*/
bool Adafruit_VEML7700::interruptEnabled(void) {
return ALS_Interrupt_Enable->read();
}
/*!
* @brief Set the ALS IRQ persistance setting
* @param pers Persistance constant, can be VEML7700_PERS_1, VEML7700_PERS_2,
* VEML7700_PERS_4 or VEML7700_PERS_8
*/
void Adafruit_VEML7700::setPersistence(uint8_t pers) {
ALS_Persistence->write(pers);
}
/*!
* @brief Get the ALS IRQ persistance setting
* @returns Persistance constant, can be VEML7700_PERS_1, VEML7700_PERS_2,
* VEML7700_PERS_4 or VEML7700_PERS_8
*/
uint8_t Adafruit_VEML7700::getPersistence(void) {
return ALS_Persistence->read();
}
/*!
* @brief Set ALS integration time
* @param it Can be VEML7700_IT_100MS, VEML7700_IT_200MS, VEML7700_IT_400MS,
* VEML7700_IT_800MS, VEML7700_IT_50MS or VEML7700_IT_25MS
*/
void Adafruit_VEML7700::setIntegrationTime(uint8_t it) {
ALS_Integration_Time->write(it);
}
/*!
* @brief Get ALS integration time
* @returns IT index, can be VEML7700_IT_100MS, VEML7700_IT_200MS, VEML7700_IT_400MS,
* VEML7700_IT_800MS, VEML7700_IT_50MS or VEML7700_IT_25MS
*/
uint8_t Adafruit_VEML7700::getIntegrationTime(void) {
return ALS_Integration_Time->read();
}
/*!
* @brief Set ALS gain
* @param gain Can be VEML7700_GAIN_1, VEML7700_GAIN_2, VEML7700_GAIN_1_8 or VEML7700_GAIN_1_4
*/
void Adafruit_VEML7700::setGain(uint8_t gain) {
ALS_Gain->write(gain);
}
/*!
* @brief Get ALS gain
* @returns Gain index, can be VEML7700_GAIN_1, VEML7700_GAIN_2, VEML7700_GAIN_1_8 or VEML7700_GAIN_1_4
*/
uint8_t Adafruit_VEML7700::getGain(void) {
return ALS_Gain->read();
}
/*!
* @brief Enable power save mode
* @param enable True if power save should be enabled
*/
void Adafruit_VEML7700::powerSaveEnable(bool enable) {
PowerSave_Enable->write(enable);
}
/*!
* @brief Check if power save mode is enabled
* @returns True if power save is enabled
*/
bool Adafruit_VEML7700::powerSaveEnabled(void) {
return PowerSave_Enable->read();
}
/*!
* @brief Assign the power save register data
* @param mode The 16-bit data to write to VEML7700_ALS_POWER_SAVE
*/
void Adafruit_VEML7700::setPowerSaveMode(uint8_t mode) {
PowerSave_Mode->write(mode);
}
/*!
* @brief Retrieve the power save register data
* @return 16-bit data from VEML7700_ALS_POWER_SAVE
*/
uint8_t Adafruit_VEML7700::getPowerSaveMode(void) {
return PowerSave_Mode->read();
}
/*!
* @brief Assign the low threshold register data
* @param value The 16-bit data to write to VEML7700_ALS_THREHOLD_LOW
*/
void Adafruit_VEML7700::setLowThreshold(uint16_t value) {
ALS_LowThreshold->write(value);
}
/*!
* @brief Retrieve the low threshold register data
* @return 16-bit data from VEML7700_ALS_THREHOLD_LOW
*/
uint16_t Adafruit_VEML7700::getLowThreshold(void) {
return ALS_LowThreshold->read();
}
/*!
* @brief Assign the high threshold register data
* @param value The 16-bit data to write to VEML7700_ALS_THREHOLD_HIGH
*/
void Adafruit_VEML7700::setHighThreshold(uint16_t value) {
ALS_HighThreshold->write(value);
}
/*!
* @brief Retrieve the high threshold register data
* @return 16-bit data from VEML7700_ALS_THREHOLD_HIGH
*/
uint16_t Adafruit_VEML7700::getHighThreshold(void) {
return ALS_HighThreshold->read();
}
/*!
* @brief Retrieve the interrupt status register data
* @return 16-bit data from VEML7700_INTERRUPTSTATUS
*/
uint16_t Adafruit_VEML7700::interruptStatus(void) {
return Interrupt_Status->read();
}