| /*----------------------------------------------------------------------------*/ | |
| /* Copyright (c) FIRST 2008. 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. */ | |
| /*----------------------------------------------------------------------------*/ | |
| #ifndef QUAD_ENCODER_H_ | |
| #define QUAD_ENCODER_H_ | |
| #include "ChipObject.h" | |
| #include "CounterBase.h" | |
| #include "SensorBase.h" | |
| #include "Counter.h" | |
| #include "PIDSource.h" | |
| #include "LiveWindow/LiveWindowSendable.h" | |
| class DigitalSource; | |
| /** | |
| * Class to read quad encoders. | |
| * Quadrature encoders are devices that count shaft rotation and can sense direction. The output of | |
| * the QuadEncoder class is an integer that can count either up or down, and can go negative for | |
| * reverse direction counting. When creating QuadEncoders, a direction is supplied that changes the | |
| * sense of the output to make code more readable if the encoder is mounted such that forward movement | |
| * generates negative values. Quadrature encoders have two digital outputs, an A Channel and a B Channel | |
| * that are out of phase with each other to allow the FPGA to do direction sensing. | |
| */ | |
| class Encoder: public SensorBase, public CounterBase, public PIDSource, public LiveWindowSendable | |
| { | |
| public: | |
| typedef enum {kDistance, kRate} PIDSourceParameter; | |
| Encoder(UINT32 aChannel, UINT32 bChannel, bool reverseDirection=false, EncodingType encodingType = k4X); | |
| Encoder(UINT8 aModuleNumber, UINT32 aChannel, UINT8 bModuleNumber, UINT32 _bChannel, bool reverseDirection=false, EncodingType encodingType = k4X); | |
| Encoder(DigitalSource *aSource, DigitalSource *bSource, bool reverseDirection=false, EncodingType encodingType = k4X); | |
| Encoder(DigitalSource &aSource, DigitalSource &bSource, bool reverseDirection=false, EncodingType encodingType = k4X); | |
| virtual ~Encoder(); | |
| // CounterBase interface | |
| void Start(); | |
| INT32 Get(); | |
| INT32 GetRaw(); | |
| void Reset(); | |
| void Stop(); | |
| double GetPeriod(); | |
| void SetMaxPeriod(double maxPeriod); | |
| bool GetStopped(); | |
| bool GetDirection(); | |
| double GetDistance(); | |
| double GetRate(); | |
| void SetMinRate(double minRate); | |
| void SetDistancePerPulse(double distancePerPulse); | |
| void SetReverseDirection(bool reverseDirection); | |
| void SetPIDSourceParameter(PIDSourceParameter pidSource); | |
| double PIDGet(); | |
| void UpdateTable(); | |
| void StartLiveWindowMode(); | |
| void StopLiveWindowMode(); | |
| std::string GetSmartDashboardType(); | |
| void InitTable(ITable *subTable); | |
| ITable * GetTable(); | |
| private: | |
| void InitEncoder(bool _reverseDirection, EncodingType encodingType); | |
| double DecodingScaleFactor(); | |
| DigitalSource *m_aSource; // the A phase of the quad encoder | |
| DigitalSource *m_bSource; // the B phase of the quad encoder | |
| bool m_allocatedASource; // was the A source allocated locally? | |
| bool m_allocatedBSource; // was the B source allocated locally? | |
| tEncoder* m_encoder; | |
| UINT8 m_index; | |
| double m_distancePerPulse; // distance of travel for each encoder tick | |
| Counter *m_counter; // Counter object for 1x and 2x encoding | |
| EncodingType m_encodingType; // Encoding type | |
| PIDSourceParameter m_pidSource;// Encoder parameter that sources a PID controller | |
| ITable *m_table; | |
| }; | |
| #endif | |