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upm/src/bmp280/bmp280.cxx
Adelin Dobre a43627454f BMP280: Add string based constructor for Pressure Sensor 
Signed-off-by: Adelin Dobre <adelin.dobre@rinftech.com>
2018-11-08 17:57:26 +02:00

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/*
* Author: Jon Trulson <jtrulson@ics.com>
* Copyright (c) 2016-2017 Intel Corporation.
*
* The MIT License
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sublicense, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
* LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
* OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
* WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
#include <unistd.h>
#include <iostream>
#include <stdexcept>
#include <string>
#include "bmp280.hpp"
#include "upm_string_parser.hpp"
#include "upm_utilities.h"
using namespace upm;
using namespace std;
// conversion from Celsius to Fahrenheit.
static float c2f(float c)
{
return (c * (9.0 / 5.0) + 32.0);
}
BMP280::BMP280(int bus, int addr, int cs) :
m_bmp280(bmp280_init(bus, addr, cs))
{
if (!m_bmp280)
throw std::runtime_error(string(__FUNCTION__)
+ ": bmp280_init() failed");
}
BMP280::BMP280(std::string initStr) : mraaIo(initStr)
{
mraa_io_descriptor* descs = mraaIo.getMraaDescriptors();
std::vector<std::string> upmTokens;
if(!mraaIo.getLeftoverStr().empty()) {
upmTokens = UpmStringParser::parse(mraaIo.getLeftoverStr());
}
m_bmp280 = (bmp280_context)malloc(sizeof(struct _bmp280_context));
if(!m_bmp280) {
throw std::runtime_error(std::string(__FUNCTION__)
+ ": bmp280_init() failed");
}
// zero out context
memset((void *)m_bmp280, 0, sizeof(struct _bmp280_context));
// make sure MRAA is initialized
int mraa_rv;
if ((mraa_rv = mraa_init()) != MRAA_SUCCESS)
{
bmp280_close(m_bmp280);
throw std::runtime_error(std::string(__FUNCTION__)
+ ": mraa_init() failed");
}
if(descs->spis) {
m_bmp280->isSPI = true;
if( !(m_bmp280->spi = descs->spis[0]) ) {
bmp280_close(m_bmp280);
throw std::runtime_error(std::string(__FUNCTION__)
+ ": mraa_spi_init() failed");
}
if(descs->gpios) {
if( !(m_bmp280->gpio = descs->gpios[0]) ) {
bmp280_close(m_bmp280);
throw std::runtime_error(std::string(__FUNCTION__)
+ ": mraa_gpio_init() failed");
}
mraa_gpio_dir(m_bmp280->gpio, MRAA_GPIO_OUT);
} else {
throw std::runtime_error(std::string(__FUNCTION__)
+ ": mraa_gpio_init() failed");
}
mraa_spi_mode(m_bmp280->spi, MRAA_SPI_MODE0);
if (mraa_spi_frequency(m_bmp280->spi, 5000000)) {
bmp280_close(m_bmp280);
throw std::runtime_error(std::string(__FUNCTION__)
+ ": mraa_spi_frequency() failed");
}
// toggle CS on/off so chip switches into SPI mode. For a hw
// CS pin, the first SPI transaction should accomplish this.
_csOn(m_bmp280);
upm_delay_ms(10);
_csOff(m_bmp280);
} else {
// init the i2c context
if(!descs->i2cs) {
throw std::runtime_error(std::string(__FUNCTION__)
+ ": mraa_i2c_init() failed");
} else {
if( !(m_bmp280->i2c = descs->i2cs[0]) )
{
bmp280_close(m_bmp280);
throw std::runtime_error(std::string(__FUNCTION__)
+ ": mraa_i2c_init() failed");
}
}
}
// check the chip id
uint8_t chipID = bmp280_read_reg(m_bmp280, BMP280_REG_CHIPID);
switch(chipID)
{
case BMP280_CHIPID: // BMP280
m_bmp280->isBME = false;
break;
case BME280_CHIPID: // BME280
m_bmp280->isBME = true;
break;
default: // ??
printf("%s: invalid chip id: %02x. Expected either %02x "
"(bmp280) or %02x (bme280)\n",
__FUNCTION__, chipID, BMP280_CHIPID, BME280_CHIPID);
bmp280_close(m_bmp280);
throw std::runtime_error(std::string(__FUNCTION__)
+ ": bmp280_init() failed");
}
// set sleep mode for now
bmp280_set_measure_mode(m_bmp280, BMP280_MODE_SLEEP);
// read calibration data
if (_read_calibration_data(m_bmp280))
{
printf("%s: _read_calibration_data() failed.", __FUNCTION__);
bmp280_close(m_bmp280);
throw std::runtime_error(std::string(__FUNCTION__)
+ ": bmp280_init() failed");
}
// set the default mode to the highest resolution mode
bmp280_set_usage_mode(m_bmp280, BMP280_USAGE_MODE_INDOOR_NAV);
// set the default sea level pressure in hPA
m_bmp280->sea_level_hPA = BMP280_SEA_LEVEL_HPA;
std::string::size_type sz;
for(std::string tok:upmTokens) {
if(tok.substr(0,21) == "setSeaLevelPreassure:") {
float seaLevelhPA = std::stof(tok.substr(21));
setSeaLevelPreassure(seaLevelhPA);
}
if(tok.substr(0,9) == "writeReg:") {
uint8_t reg = std::stoi(tok.substr(9),&sz,0);
tok = tok.substr(9);
uint8_t val = std::stoi(tok.substr(sz+1),nullptr,0);
writeReg(reg, val);
}
if(tok.substr(0,10) == "setFilter:") {
BMP280_FILTER_T filter = (BMP280_FILTER_T)std::stoi(tok.substr(10),nullptr,0);
setFilter(filter);
}
if(tok.substr(0,16) == "setTimerStandby:") {
BMP280_T_SB_T tsb = (BMP280_T_SB_T)std::stoi(tok.substr(16),nullptr,0);
setTimerStandby(tsb);
}
if(tok.substr(0,15) == "setMeasureMode:") {
BMP280_MODES_T mode = (BMP280_MODES_T)std::stoi(tok.substr(15),nullptr,0);
setMeasureMode(mode);
}
if(tok.substr(0,26) == "setOversampleRatePressure:") {
BMP280_OSRS_P_T rate = (BMP280_OSRS_P_T)std::stoi(tok.substr(26),nullptr,0);
setOversampleRatePressure(rate);
}
if(tok.substr(0,29) == "setOversampleRateTemperature:") {
BMP280_OSRS_T_T rate = (BMP280_OSRS_T_T)std::stoi(tok.substr(29),nullptr,0);
setOversampleRateTemperature(rate);
}
if(tok.substr(0,13) == "setUsageMode:") {
BMP280_USAGE_MODE_T mode = (BMP280_USAGE_MODE_T)std::stoi(tok.substr(13),nullptr,0);
setUsageMode(mode);
}
}
}
BMP280::~BMP280()
{
bmp280_close(m_bmp280);
}
void BMP280::update()
{
if (bmp280_update(m_bmp280))
throw std::runtime_error(string(__FUNCTION__)
+ ": bmp280_update() failed");
}
void BMP280::setSeaLevelPreassure(float seaLevelhPA)
{
bmp280_set_sea_level_pressure(m_bmp280, seaLevelhPA);
}
float BMP280::getAltitude()
{
return bmp280_get_altitude(m_bmp280);
}
uint8_t BMP280::readReg(uint8_t reg)
{
return bmp280_read_reg(m_bmp280, reg);
}
int BMP280::readRegs(uint8_t reg, uint8_t *buffer, int len)
{
return bmp280_read_regs(m_bmp280, reg, buffer, len);
}
void BMP280::writeReg(uint8_t reg, uint8_t val)
{
if (bmp280_write_reg(m_bmp280, reg, val))
throw std::runtime_error(string(__FUNCTION__)
+ ": bmp280_write_reg() failed");
}
uint8_t BMP280::getChipID()
{
return bmp280_get_chip_id(m_bmp280);
}
void BMP280::reset()
{
bmp280_reset(m_bmp280);
}
float BMP280::getTemperature(bool fahrenheit)
{
float temperature = bmp280_get_temperature(m_bmp280);
if (fahrenheit)
return c2f(temperature);
else
return temperature;
}
float BMP280::getPressure()
{
return bmp280_get_pressure(m_bmp280);
}
void BMP280::setFilter(BMP280_FILTER_T filter)
{
bmp280_set_filter(m_bmp280, filter);
}
void BMP280::setTimerStandby(BMP280_T_SB_T tsb)
{
bmp280_set_timer_standby(m_bmp280, tsb);
}
void BMP280::setMeasureMode(BMP280_MODES_T mode)
{
bmp280_set_measure_mode(m_bmp280, mode);
}
void BMP280::setOversampleRatePressure(BMP280_OSRS_P_T rate)
{
bmp280_set_oversample_rate_pressure(m_bmp280, rate);
}
void BMP280::setOversampleRateTemperature(BMP280_OSRS_T_T rate)
{
bmp280_set_oversample_rate_temperature(m_bmp280, rate);
}
uint8_t BMP280::getStatus()
{
return bmp280_get_status(m_bmp280);
}
void BMP280::setUsageMode(BMP280_USAGE_MODE_T mode)
{
bmp280_set_usage_mode(m_bmp280, mode);
}
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