/components/magneto/hmc5883l.cpp - AMiRo-OS - Research for Cognitive Interaction

amiro-os / components / magneto / hmc5883l.cpp @ 3f899f5d

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       #include <ch.hpp>
       #include <hal.h>
       #include <chdebug.h>
       #include <amiro/bus/i2c/I2CParams.hpp>
       #include <amiro/bus/i2c/I2CDriver.hpp>
       #include <amiro/magneto/hmc5883l.hpp>
       using namespace chibios_rt;
       namespace amiro {
       HMC5883L::~HMC5883L() {
+      }
       HMC5883L::HMC5883L(I2CDriver *driver, const HMC5883LConfig *config)
           : BaseStaticThread<256>(),
             driver(driver),
             config(config) {
         this->txParams.addr = HMC5883L::SLA;
+      }
       EvtSource*
       HMC5883L::
       getEventSource() {
         return &this->eventSource;
+      }
       msg_t
       HMC5883L::
       main(void) {
         msg_t res;
         this->setName("Hmc5883l");
         /* exit if writing configuration fails */
         res = this->writeConf();
         if (res) {
           return RDY_RESET;
+        }
         while (!this->shouldTerminate()) {
           this->updateSensorData();
           this->eventSource.broadcastFlags(0);
           this->waitAnyEventTimeout(ALL_EVENTS, MS2ST(200));
+        }
         return RDY_OK;
+      }
       int16_t
       HMC5883L::
       getMagnetization(const uint8_t axis) {
         int16_t returnBuffer;
         chSysLock();
         returnBuffer = this->data[axis];
         chSysUnlock();
         return returnBuffer;
+      }
       int32_t
       HMC5883L::
       getMagnetizationGauss(const uint8_t axis) {
         int16_t magLsbBuffer = this->getMagnetization(axis);
         int32_t returnBuffer = 0;
         // The gains are taken from table 9 of the manual
         switch (this->config->ctrlB & GN_7_GA) {
           case HMC5883L::GN_0_GA:
             returnBuffer = int32_t(0.73 * 1000) * int32_t(magLsbBuffer);
             break;
           case HMC5883L::GN_1_GA:
             returnBuffer = int32_t(0.92 * 1000) * int32_t(magLsbBuffer);
             break;
           case HMC5883L::GN_2_GA:
             returnBuffer = int32_t(1.22 * 1000) * int32_t(magLsbBuffer);
             break;
           case HMC5883L::GN_3_GA:
             returnBuffer = int32_t(1.52 * 1000) * int32_t(magLsbBuffer);
             break;
           case HMC5883L::GN_4_GA:
             returnBuffer = int32_t(2.27 * 1000) * int32_t(magLsbBuffer);
             break;
           case HMC5883L::GN_5_GA:
             returnBuffer = int32_t(2.56 * 1000) * int32_t(magLsbBuffer);
             break;
           case HMC5883L::GN_6_GA:
             returnBuffer = int32_t(3.03 * 1000) * int32_t(magLsbBuffer);
             break;
           case HMC5883L::GN_7_GA:
             returnBuffer = int32_t(4.35 * 1000) * int32_t(magLsbBuffer);
             break;
+        }
         return returnBuffer;
+      }
       void
       HMC5883L::
       updateSensorData() {
         const uint8_t sizeOfRxData =  offsetof(HMC5883L::registers, yLsb)
                                     - offsetof(HMC5883L::registers, xMsb)
                                     + 1;
         uint8_t rxBuffer[sizeOfRxData];
         /*Address of data register*/
         uint8_t txBuffer = offsetof(HMC5883L::registers, xMsb); /* Address of XMSB */
         // Define the RXTX structure
         this->txParams.txbuf = &txBuffer;
         this->txParams.txbytes = sizeof(txBuffer);
         this->txParams.rxbuf = rxBuffer;
         this->txParams.rxbytes = sizeof(rxBuffer);
         this->driver->acquireBus();
         this->driver->masterTransmit(&this->txParams);
         this->driver->releaseBus();
         // Copy the bytes in the right order
         chSysLock(); // TODO: check if this is really necessary b/c it inserts a DMB!!
         data[HMC5883L::AXIS_X] = (rxBuffer[0] << 8) + rxBuffer[1];
         data[HMC5883L::AXIS_Z] = (rxBuffer[2] << 8) + rxBuffer[3];
         data[HMC5883L::AXIS_Y] = (rxBuffer[4] << 8) + rxBuffer[5];
         chSysUnlock();
+      }
       uint8_t HMC5883L::getCheck() {
         I2CTxParams txStructure;
         msg_t res;
         const uint8_t txBuffer = offsetof(HMC5883L::registers, idA);
         const uint8_t sizeOfRxData = offsetof(HMC5883L::registers, idC) - offsetof(HMC5883L::registers, idA) + 1;
         uint8_t rxBuffer[sizeOfRxData];
         txStructure.addr = SLA;
         txStructure.txbuf = &txBuffer;
         txStructure.txbytes = sizeof(txBuffer);
         txStructure.rxbuf = rxBuffer;
         txStructure.rxbytes = sizeof(rxBuffer);
         // get the identifier
         this->driver->acquireBus();
         res = this->driver->masterTransmit(&txStructure);
         this->driver->releaseBus();
         // Check
         if (rxBuffer[0] == ID_IRA && rxBuffer[1] == ID_IRB && rxBuffer[2] == ID_IRC && res == RDY_OK) {
           return HMC5883L::CHECK_OK;
         } else {
           return HMC5883L::CHECK_FAIL;
+        }
+      }
       msg_t
       HMC5883L::
       writeConf() {
         uint8_t txBuffer[4];
         msg_t res;
         // write control config
         txBuffer[0] = offsetof(HMC5883L::registers, ctrlA);  /* Address of ctrlA */
         txBuffer[1] = this->config->ctrlA;
         txBuffer[2] = this->config->ctrlB;
         txBuffer[3] = this->config->mode;
         this->txParams.txbuf = txBuffer;
         this->txParams.txbytes = sizeof(txBuffer);
         this->txParams.rxbytes = 0;
         this->driver->acquireBus();
         res = this->driver->masterTransmit(&this->txParams);
         this->driver->releaseBus();
         return res;
+      }
       } /* amiro */