/*----------------------------------------------------------------------------*/ /* Copyright (c) FIRST 2009. All Rights Reserved. */ /* Open Source Software - may be modified and shared by FRC teams. The code */ /* must be accompanied by the FIRST BSD license file in $(WIND_BASE)/WPILib. */ /*----------------------------------------------------------------------------*/ #pragma once #include "ErrorBase.h" #include "MotorSafety.h" #include "MotorSafetyHelper.h" #include "PIDOutput.h" #include "SpeedController.h" #include "HAL/Semaphore.hpp" #include "HAL/HAL.hpp" #include "LiveWindow/LiveWindowSendable.h" #include "tables/ITable.h" #include "NetworkCommunication/CANSessionMux.h" #include /** * Luminary Micro Jaguar Speed Control */ class CANJaguar : public MotorSafety, public SpeedController, public ErrorBase, public LiveWindowSendable, public ITableListener { public: // The internal PID control loop in the Jaguar runs at 1kHz. static const int32_t kControllerRate = 1000; static constexpr double kApproxBusVoltage = 12.0; typedef enum {kPercentVbus, kCurrent, kSpeed, kPosition, kVoltage} ControlMode; typedef enum {kCurrentFault = 1, kTemperatureFault = 2, kBusVoltageFault = 4, kGateDriverFault = 8} Faults; typedef enum {kForwardLimit = 1, kReverseLimit = 2} Limits; typedef enum {kPosRef_QuadEncoder = 0, kPosRef_Potentiometer = 1, kPosRef_None = 0xFF} PositionReference; typedef enum {kSpeedRef_Encoder = 0, kSpeedRef_InvEncoder = 2, kSpeedRef_QuadEncoder = 3, kSpeedRef_None = 0xFF} SpeedReference; typedef enum {kNeutralMode_Jumper = 0, kNeutralMode_Brake = 1, kNeutralMode_Coast = 2} NeutralMode; typedef enum {kLimitMode_SwitchInputsOnly = 0, kLimitMode_SoftPositionLimits = 1} LimitMode; explicit CANJaguar(uint8_t deviceNumber, ControlMode controlMode = kPercentVbus); virtual ~CANJaguar(); // SpeedController interface virtual float Get(); virtual void Set(float value, uint8_t syncGroup=0); virtual void Disable(); // PIDOutput interface virtual void PIDWrite(float output); // Other Accessors void SetSpeedReference(SpeedReference reference); SpeedReference GetSpeedReference(); void SetPositionReference(PositionReference reference); PositionReference GetPositionReference(); void SetP(double p); void SetI(double i); void SetD(double d); void SetPID(double p, double i, double d); double GetP(); double GetI(); double GetD(); void EnableControl(double encoderInitialPosition = 0.0); void DisableControl(); void ChangeControlMode(ControlMode controlMode); ControlMode GetControlMode(); float GetBusVoltage(); float GetOutputVoltage(); float GetOutputCurrent(); float GetTemperature(); double GetPosition(); double GetSpeed(); bool GetForwardLimitOK(); bool GetReverseLimitOK(); uint16_t GetFaults(); void SetVoltageRampRate(double rampRate); virtual uint32_t GetFirmwareVersion(); uint8_t GetHardwareVersion(); void ConfigNeutralMode(NeutralMode mode); void ConfigEncoderCodesPerRev(uint16_t codesPerRev); void ConfigPotentiometerTurns(uint16_t turns); void ConfigSoftPositionLimits(double forwardLimitPosition, double reverseLimitPosition); void DisableSoftPositionLimits(); void ConfigLimitMode(LimitMode mode); void ConfigForwardLimit(double forwardLimitPosition); void ConfigReverseLimit(double reverseLimitPosition); void ConfigMaxOutputVoltage(double voltage); void ConfigFaultTime(float faultTime); static void UpdateSyncGroup(uint8_t syncGroup); void SetExpiration(float timeout); float GetExpiration(); bool IsAlive(); void StopMotor(); bool IsSafetyEnabled(); void SetSafetyEnabled(bool enabled); void GetDescription(char *desc); protected: uint8_t packPercentage(uint8_t *buffer, double value); uint8_t packFXP8_8(uint8_t *buffer, double value); uint8_t packFXP16_16(uint8_t *buffer, double value); uint8_t packint16_t(uint8_t *buffer, int16_t value); uint8_t packint32_t(uint8_t *buffer, int32_t value); double unpackPercentage(uint8_t *buffer); double unpackFXP8_8(uint8_t *buffer); double unpackFXP16_16(uint8_t *buffer); int16_t unpackint16_t(uint8_t *buffer); int32_t unpackint32_t(uint8_t *buffer); void sendMessage(uint32_t messageID, const uint8_t *data, uint8_t dataSize, int32_t period = CAN_SEND_PERIOD_NO_REPEAT); void requestMessage(uint32_t messageID, int32_t period = CAN_SEND_PERIOD_NO_REPEAT); bool getMessage(uint32_t messageID, uint32_t mask, uint8_t *data, uint8_t *dataSize); uint8_t m_deviceNumber; float m_value; // Parameters/configuration ControlMode m_controlMode; SpeedReference m_speedReference; PositionReference m_positionReference; double m_p; double m_i; double m_d; NeutralMode m_neutralMode; uint16_t m_encoderCodesPerRev; uint16_t m_potentiometerTurns; LimitMode m_limitMode; double m_forwardLimit; double m_reverseLimit; double m_maxOutputVoltage; double m_voltageRampRate; float m_faultTime; // Which parameters have been verified since they were last set? bool m_controlModeVerified; bool m_speedRefVerified; bool m_posRefVerified; bool m_pVerified; bool m_iVerified; bool m_dVerified; bool m_neutralModeVerified; bool m_encoderCodesPerRevVerified; bool m_potentiometerTurnsVerified; bool m_forwardLimitVerified; bool m_reverseLimitVerified; bool m_limitModeVerified; bool m_maxOutputVoltageVerified; bool m_voltageRampRateVerified; bool m_faultTimeVerified; // Status data float m_busVoltage; float m_outputVoltage; float m_outputCurrent; float m_temperature; double m_position; double m_speed; uint8_t m_limits; uint16_t m_faults; uint32_t m_firmwareVersion; uint8_t m_hardwareVersion; void verify(); MotorSafetyHelper *m_safetyHelper; void ValueChanged(ITable* source, const std::string& key, EntryValue value, bool isNew); void UpdateTable(); void StartLiveWindowMode(); void StopLiveWindowMode(); std::string GetSmartDashboardType(); void InitTable(ITable *subTable); ITable * GetTable(); ITable *m_table; private: void InitCANJaguar(); };