amiro-os / components / proximity / vcnl4020.cpp @ a07a7a1c
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#include <ch.hpp> |
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#include <hal.h> |
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#include <chdebug.h> |
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#include <chprintf.h> |
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#include <amiro/bus/i2c/I2CParams.hpp> |
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#include <amiro/bus/i2c/I2CDriver.hpp> |
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#include <amiro/proximity/vcnl4020.hpp> |
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#include <amiro/Constants.h> |
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using namespace chibios_rt; |
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namespace amiro {
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VCNL4020:: |
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~VCNL4020() { |
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} |
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VCNL4020:: |
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VCNL4020(I2CDriver *driver, const VCNL4020Config *config) :
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BaseStaticThread<256>(),
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driver(driver), |
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config(config), |
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ambient(0x0000u),
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proximity(0x0000u),
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proximityOffset(0x0000u) {
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this->tx_params.addr = VCNL4020::SLA;
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} |
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uint16_t |
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VCNL4020:: |
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getAmbientLight() { |
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return this->ambient; |
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} |
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void
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VCNL4020:: |
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setProximityOffset(uint16_t offset) { |
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this->proximityOffset = offset;
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} |
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uint16_t |
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VCNL4020:: |
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getProximityOffset() { |
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return this->proximityOffset; |
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} |
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EvtSource* |
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VCNL4020:: |
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getEventSource() { |
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return &this->eventSource; |
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} |
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uint16_t |
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VCNL4020:: |
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getProximity() { |
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return this->proximity; |
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} |
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uint16_t |
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VCNL4020:: |
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getProximityScaledWoOffset() { |
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if (this->proximity <= this->proximityOffset) |
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return 0; |
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// Scale factor for the offset-less proximity value, so that we can reach full-scale
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const float scaleFactor = float(0xFFFFu) / float((0xFFFFu - this->proximityOffset)); |
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return uint16_t(float(this->proximity - this->proximityOffset) * scaleFactor); |
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} |
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msg_t |
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VCNL4020:: |
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main(void) {
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I2CDriver *drv = this->driver;
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msg_t res; |
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this->setName("Vcnl4020"); |
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drv->acquireBus(); |
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/* exit if writing configuration fails */
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res = this->writeIRConf();
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drv->releaseBus(); |
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if (res)
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return RDY_RESET;
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//TODO Read calibration from eeprom
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while (!this->shouldTerminate()) { |
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drv->acquireBus(); |
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this->readIntensities();
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drv->releaseBus(); |
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this->eventSource.broadcastFlags(0); |
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this->waitAnyEventTimeout(ALL_EVENTS, CAN::UPDATE_PERIOD);
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} |
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return RDY_OK;
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} |
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msg_t |
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VCNL4020:: |
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writeIRConf() { |
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msg_t res; |
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const VCNL4020Config *cfg = this->config; |
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uint8_t buffer[4];
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this->tx_params.txbuf = buffer;
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this->tx_params.txbytes = 4; |
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this->tx_params.rxbytes = 0; |
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buffer[0] = offsetof(VCNL4020::registers, proximity_rate);
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buffer[1] = cfg->proximity_rate;
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buffer[2] = cfg->ir_led_current_mA > 200 ? 20u : cfg->ir_led_current_mA / 10u; |
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buffer[3] = cfg->ambient_parameter;
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res = this->driver->masterTransmit(&this->tx_params); |
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buffer[0] = offsetof(VCNL4020::registers, command);
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buffer[1] = cfg->command;
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this->tx_params.txbytes = 2; |
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if (!res)
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res = this->driver->masterTransmit(&this->tx_params); |
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return res;
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} |
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msg_t |
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VCNL4020:: |
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readIntensities() { |
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msg_t res; |
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uint8_t buffer[4];
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uint8_t reg = offsetof(VCNL4020::registers, ambient_result); |
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this->tx_params.txbuf = ®
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this->tx_params.txbytes = 1; |
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this->tx_params.rxbuf = buffer;
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this->tx_params.rxbytes = 4; |
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res = this->driver->masterTransmit(&this->tx_params); |
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if (!res) {
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/* update internal values */
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this->ambient = (buffer[0] << 8) | buffer[1]; |
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this->proximity = (buffer[2] << 8) | buffer[3]; |
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} |
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return res;
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} |
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uint8_t |
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VCNL4020:: |
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getCheck(void) {
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int8_t resTx; |
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uint8_t rxBuffer[2]; /** This is a bug workaround: 1 byte is impossible to read on STM32F1*/ |
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const uint8_t txBuffer = uint8_t(offsetof(VCNL4020::registers, revision));
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// Use own datastructure, so that there is now faulty
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// behaviour with the other threads using it
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I2CTxParams tx_params = this->tx_params;
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tx_params.txbuf = &txBuffer; |
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tx_params.txbytes = 1;
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tx_params.rxbytes = 2; /** This is a bug workaround: 1 byte is impossible to read on STM32F1*/ |
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tx_params.rxbuf = rxBuffer; |
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// Read the data
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resTx = this->driver->masterTransmit(&tx_params);
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// Failed to transmit
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if (resTx != RDY_OK || VCNL4020::PRODUCT_ID_REVISION != rxBuffer[0]) { |
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return VCNL4020::CHECK_FAIL;
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} else {
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return VCNL4020::CHECK_OK;
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} |
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} |
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uint8_t |
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VCNL4020:: |
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calibrate() { |
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uint16_t proximityFloorMeanValue; |
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// Get the offset
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msg_t res = calibrateOffset(proximityFloorMeanValue); |
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if (res == CALIB_OK) {
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this->proximityOffset = proximityFloorMeanValue;
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//TODO Write value to eeprom
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return res;
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} else {
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return res;
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} |
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} |
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uint8_t |
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VCNL4020:: |
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calibrateOffset(uint16_t &proximityFloorMeanValue) { |
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uint32_t tmpProximityFloorMeanValue; |
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// Register an event listener, to receive updates
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chibios_rt::EvtListener eventTimerEvtListener; |
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chibios_rt::EvtSource *vcnlEvtSource; |
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vcnlEvtSource = reinterpret_cast<EvtSource *>(this->getEventSource()); |
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vcnlEvtSource->registerOne(&eventTimerEvtListener,0);
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// Get the first values
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tmpProximityFloorMeanValue = this->getProximity();
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// Get the others with a floating mean
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const uint32_t maxValues = 20; |
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for (uint32_t idxMean = 2; idxMean <= maxValues; ++idxMean) { |
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this->waitOneEvent(ALL_EVENTS); /* Wait for a new update */ |
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tmpProximityFloorMeanValue = (((idxMean-1) * tmpProximityFloorMeanValue) + uint32_t(this->getProximity())) / idxMean; |
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} |
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vcnlEvtSource->unregister(&eventTimerEvtListener); |
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// Cast the calculated offset to the temporary member variable
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proximityFloorMeanValue = uint16_t(tmpProximityFloorMeanValue); |
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return CALIB_OK;
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} |
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} /* amiro */
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