amiro-os / devices / DiWheelDrive / DiWheelDrive.cpp @ f3972840
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#include "ch.hpp" |
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#include "hal.h" |
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#include "qei.h" |
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#include "DiWheelDrive.h" |
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#include <chprintf.h> |
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#include <global.hpp> |
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using namespace chibios_rt; |
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using namespace amiro; |
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using namespace types; |
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extern volatile uint32_t shutdown_now; |
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extern Global global;
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DiWheelDrive::DiWheelDrive(CANDriver *can) |
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: ControllerAreaNetworkTx(can, CAN::DI_WHEEL_DRIVE_ID), |
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ControllerAreaNetworkRx(can, CAN::DI_WHEEL_DRIVE_ID), |
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bcCounter(0)
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{ |
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} |
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msg_t DiWheelDrive::receiveMessage(CANRxFrame *frame) { |
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int deviceId = this->decodeDeviceId(frame); |
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switch (deviceId) {
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case CAN::SHELL_REPLY_ID(CAN::DI_WHEEL_DRIVE_ID):
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if (frame->DLC > 0) { |
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sdWrite(&SD1, frame->data8, frame->DLC); |
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return RDY_OK;
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} |
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break;
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case CAN::SHELL_QUERY_ID(CAN::DI_WHEEL_DRIVE_ID):
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if (frame->DLC != 0) { |
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global.sercanmux1.convCan2Serial(frame->data8, frame->DLC); |
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return RDY_OK;
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} else {
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global.sercanmux1.rcvSwitchCmd(this->decodeBoardId(frame));
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return RDY_OK;
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} |
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break;
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case CAN::TARGET_SPEED_ID:
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if (frame->DLC == 8) { |
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global.distcontrol.deactivateController(); |
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kinematic targetVelocity; |
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targetVelocity.x = frame->data32[0];
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targetVelocity.w_z = frame->data32[1];
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global.motorcontrol.setTargetSpeed(targetVelocity); |
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return RDY_OK;
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} |
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break;
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case CAN::TARGET_RPM_ID:
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if (frame->DLC == 8) { |
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global.distcontrol.deactivateController(); |
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global.motorcontrol.setTargetRPM(frame->data32[0], frame->data32[1]); |
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return RDY_OK;
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} |
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break;
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case CAN::SET_ODOMETRY_ID:
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if (frame->DLC == 8) { |
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int32_t robotPositionX = (frame->data8[0] << 8 | frame->data8[1] << 16 | frame->data8[2] << 24); |
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int32_t robotPositionY = (frame->data8[3] << 8 | frame->data8[4] << 16 | frame->data8[5] << 24); |
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int32_t robotPositionF_Z = (frame->data8[6] << 8 | frame->data8[7] << 16); |
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global.odometry.setPosition(float(robotPositionX)*1e-6,float(robotPositionY)*1e-6,float(robotPositionF_Z)*1e-6); |
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return RDY_OK;
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} |
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break;
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case CAN::BROADCAST_SHUTDOWN:
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if (frame->DLC == 2 && frame->data16[0] == CAN::SHUTDOWN_MAGIC) { |
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shutdown_now = 0x4;
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return RDY_OK;
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} |
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break;
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case CAN::CALIBRATE_PROXIMITY_FLOOR:
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// Dont care about the payload but start the calibration
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// TODO Care about the payload. Differ between:
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// 1: Do fresh calibration (Save values to memory and to temporary values)
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// 2: Remove temporary Calibration and get uncalibrated values
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// 3: Load calibration from memory
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this->calibrate();
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break;
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case CAN::TARGET_POSITION_ID:
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if (frame->DLC == 8) { |
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// Robot target position [x] = µm, [f_z] = µrad, [t] = ms
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int32_t robotPositionX = (frame->data8[0] << 8 | frame->data8[1] << 16 | frame->data8[2] << 24); |
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int32_t robotPositionF_Z = (frame->data8[3] << 8 | frame->data8[4] << 16 | frame->data8[5] << 24); |
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uint16_t targetTimeMilliSeconds = (frame->data8[6] | frame->data8[7] << 8); |
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//chprintf((BaseSequentialStream*) &SD1, "\nx=%d\nf_z=%d\nt=%d", robotPositionX, robotPositionF_Z, targetTimeMilliSeconds);
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global.distcontrol.setTargetPosition(robotPositionX, robotPositionF_Z, targetTimeMilliSeconds); |
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return RDY_OK;
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} |
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break;
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case CAN::SET_LINE_FOLLOW_SPEED:
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if (frame->DLC == 8) { |
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uint8_t speedForward = frame->data8[0];
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uint8_t speedSoftLeft0 = frame->data8[1];
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uint8_t speedSoftLeft1 = frame->data8[2];
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uint8_t speedHardLeft0 = frame->data8[3];
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uint8_t speedHardLeft1 = frame->data8[4];
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global.rpmForward[0] = speedForward;
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global.rpmForward[1] = speedForward;
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global.rpmSoftLeft[0] = speedSoftLeft0;
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global.rpmSoftLeft[1] = speedSoftLeft1;
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global.rpmHardLeft[0] = speedHardLeft0;
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global.rpmHardLeft[1] = speedHardLeft1;
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global.rpmSoftRight[0] = global.rpmSoftLeft[1]; |
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global.rpmSoftRight[1] = global.rpmSoftLeft[0]; |
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global.rpmHardRight[0] = global.rpmHardLeft[1]; |
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global.rpmHardRight[1] = global.rpmHardLeft[0]; |
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return RDY_OK;
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} |
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break;
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case CAN::SET_LINE_FOLLOW_MSG:
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chprintf((BaseSequentialStream*) &SD1, "Received Strategy!\n");
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if (frame->DLC == 1) { |
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global.lfStrategy = frame->data8[0];
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global.msgReceived = true;
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return RDY_OK;
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} |
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break;
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case CAN::SET_KINEMATIC_CONST_ID:
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if (frame->DLC == 8) { |
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/* // Set (but do not store) Ed
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global.motorcontrol.setWheelDiameterCorrectionFactor(static_cast<float>(frame->data32[0]), false);
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// Set (but do not store) Eb
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global.motorcontrol.setActualWheelBaseDistance(static_cast<float>(frame->data32[1]), false);
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return RDY_OK;*/
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// Set (but do not store) Ed
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uint32_t ed_int = static_cast<uint32_t>(frame->data32[0]); |
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float ed_float = static_cast<float>(ed_int)/1000000.0; |
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global.motorcontrol.setWheelDiameterCorrectionFactor(ed_float, false);
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// Set (but do not store) Eb
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uint32_t eb_int = static_cast<uint32_t>(frame->data32[1]); |
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float eb_float = static_cast<float>(eb_int)/1000000.0; |
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global.motorcontrol.setActualWheelBaseDistance(eb_float, false);
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//chprintf((BaseSequentialStream*) &SD1, "Edi=%i, Edf=%f, Ebi=%i, Ebf=%f\n", ed_int, ed_float, eb_int, eb_float);
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return RDY_OK;
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} |
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break;
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case CAN::POWER_STATUS_ID:
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if (frame->DLC == 6) { |
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// The power status is evaluated by inherited ControllerAreaNetworkRx object, but depending on the flags the power path controller needs to enabled or disabled.
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types::power_status::ChargingState charging_flags; |
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charging_flags.value = frame->data8[0];
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global.ltc4412.enable(charging_flags.content.diwheeldrive_enable_power_path); |
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// Do not return with RDY_OK, or the inherited ControllerAreaNetworkRx object would not evaluate the rest of this message.
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} |
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break;
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default:
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break;
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} |
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return -1; |
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} |
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msg_t DiWheelDrive::updateSensorVal() { |
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// Update robot velocity values
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kinematic currentVelocity = global.motorcontrol.getCurrentVelocity(); |
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this->actualSpeed[0] = currentVelocity.x; |
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this->actualSpeed[1] = currentVelocity.w_z; |
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// Update odometry values
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this->robotPosition = global.odometry.getPosition();
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// Update proximity values
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for (int idx = 0; idx < 4; ++idx) |
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this->proximityFloorValue[idx] = global.vcnl4020[idx].getProximityScaledWoOffset();
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// Update magnetometer values
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for (uint8_t axis = 0; axis < 3; ++axis) { |
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this->magnetometerValue[axis] = global.hmc5883l.getMagnetizationGauss(axis);
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} |
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// Update gyroscope values
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for (uint8_t axis = 0; axis < 3; ++axis) { |
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this->gyroscopeValue[axis] = global.l3g4200d.getAngularRate(axis);
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} |
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return 0; |
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} |
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void DiWheelDrive::periodicBroadcast() {
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CANTxFrame frame; |
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frame.SID = 0;
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// Send the velocites µm/s of the x axis and µrad/s around z axis: start
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this->encodeDeviceId(&frame, CAN::ACTUAL_SPEED_ID);
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frame.data32[0] = this->actualSpeed[0]; |
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frame.data32[1] = this->actualSpeed[1]; |
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frame.DLC = 8;
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this->transmitMessage(&frame);
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// Send the valocites µm/s of the x axis and µrad/s around z axis: end
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// Send the odometry: start
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BaseThread::sleep(US2ST(10)); // Use to sleep for 10 CAN cycle (@1Mbit), otherwise the cognition-board might not receive all messagee |
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// Set the frame id
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frame.SID = 0;
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this->encodeDeviceId(&frame, CAN::ODOMETRY_ID);
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// Cut of the first byte, which precission is not needed
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int32_t x_mm = (this->robotPosition.x >> 8); |
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int32_t y_mm = (this->robotPosition.y >> 8); |
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int16_t f_z_mrad = int16_t(this->robotPosition.f_z >> 8 ); |
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// Copy the data structure
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memcpy((uint8_t *)&(frame.data8[0]), (uint8_t *)&x_mm, 3); |
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memcpy((uint8_t *)&(frame.data8[3]), (uint8_t *)&y_mm, 3); |
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memcpy((uint8_t *)&(frame.data8[6]), (uint8_t *)&f_z_mrad, 2); |
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frame.DLC = 8;
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this->transmitMessage(&frame);
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// Send the odometry: end
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// Send the proximity values of the floor: start
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BaseThread::sleep(US2ST(10)); // Use to sleep for 10 CAN cycle (@1Mbit), otherwise the cognition-board might not receive all messagee |
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// Set the frame id
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frame.SID = 0;
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this->encodeDeviceId(&frame, CAN::PROXIMITY_FLOOR_ID);
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frame.data16[0] = this->proximityFloorValue[0]; |
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frame.data16[1] = this->proximityFloorValue[1]; |
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frame.data16[2] = this->proximityFloorValue[2]; |
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frame.data16[3] = this->proximityFloorValue[3]; |
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frame.DLC = 8;
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this->transmitMessage(&frame);
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// Send the magnetometer data
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for (uint8_t axis = 0; axis < 3; ++axis) { |
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frame.SID = 0;
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this->encodeDeviceId(&frame, CAN::MAGNETOMETER_X_ID + axis); // Y- and Z-axis have according IDs |
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frame.data32[0] = this->magnetometerValue[axis]; |
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frame.DLC = 4;
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this->transmitMessage(&frame);
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} |
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// Send gyroscope data
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frame.SID = 0;
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this->encodeDeviceId(&frame, CAN::GYROSCOPE_ID);
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frame.data16[0] = this->gyroscopeValue[0]; |
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frame.data16[1] = this->gyroscopeValue[1]; |
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frame.data16[2] = this->gyroscopeValue[2]; |
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frame.DLC = 6;
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this->transmitMessage(&frame);
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// Send the board ID (board ID of DiWheelDrive = Robot ID)
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if (this->bcCounter % 10 == 0) { |
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frame.SID = 0;
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this->encodeDeviceId(&frame, CAN::ROBOT_ID);
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frame.data8[0] = this->robotId; |
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frame.DLC = 1;
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this->transmitMessage(&frame);
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} |
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++this->bcCounter;
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} |
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void DiWheelDrive::calibrate() {
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// Stop sending and receiving of values to indicate the calibration phase
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// eventTimerEvtSource->unregister(&this->eventTimerEvtListener);
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// rxFullCanEvtSource->unregister(&this->rxFullCanEvtListener);
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this->calibrateProximityFloorValues();
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// Start sending and receving of values
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// eventTimerEvtSource->registerOne(&this->eventTimerEvtListener, CAN::PERIODIC_TIMER_ID);
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// rxFullCanEvtSource->registerOne(&this->rxFullCanEvtListener, CAN::RECEIVED_ID);
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} |
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void DiWheelDrive::calibrateProximityFloorValues() {
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uint16_t buffer; |
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for (uint8_t idx = 0; idx < 4; ++idx) { |
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global.vcnl4020[idx].calibrate(); |
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buffer = global.vcnl4020[idx].getProximityOffset(); |
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global.memory.setVcnl4020Offset(buffer,idx); |
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} |
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} |
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ThreadReference DiWheelDrive::start(tprio_t PRIO) { |
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// set the robot ID as the board ID, which is read from the memory
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if (global.memory.getBoardId(&this->robotId) != fileSystemIo::FileSystemIoBase::OK) { |
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this->robotId = 0; |
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} |
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this->ControllerAreaNetworkRx::start(PRIO + 1); |
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this->ControllerAreaNetworkTx::start(PRIO);
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return NULL; |
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} |
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msg_t |
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DiWheelDrive::terminate(void) {
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msg_t ret = RDY_OK; |
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this->ControllerAreaNetworkTx::requestTerminate();
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ret |= this->ControllerAreaNetworkTx::wait();
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this->ControllerAreaNetworkRx::requestTerminate();
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ret |= this->ControllerAreaNetworkRx::wait();
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return ret;
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} |