#pragma once #ifdef __vxworks #include #else #include #endif enum Mode { kTwoPulse = 0, kSemiperiod = 1, kPulseLength = 2, kExternalDirection = 3 }; enum tSPIConstants { kReceiveFIFODepth = 512, kTransmitFIFODepth = 512 }; enum tFrameMode { kChipSelect, kPreLatchPulse, kPostLatchPulse, kPreAndPostLatchPulse }; extern "C" { void* initializeDigitalPort(void* port_pointer, int32_t *status); bool checkDigitalModule(uint8_t module); bool checkPWMChannel(void* digital_port_pointer); bool checkRelayChannel(void* digital_port_pointer); void setPWM(void* digital_port_pointer, unsigned short value, int32_t *status); unsigned short getPWM(void* digital_port_pointer, int32_t *status); void setPWMPeriodScale(void* digital_port_pointer, uint32_t squelchMask, int32_t *status); void* allocatePWM(int32_t *status); void* allocatePWMWithModule(uint8_t module, int32_t *status); void freePWM(void* pwmGenerator, int32_t *status); void freePWMWithModule(uint8_t module, void* pwmGenerator, int32_t *status); void setPWMRate(double rate, int32_t *status); void setPWMRateWithModule(uint8_t module, double rate, int32_t *status); void setPWMDutyCycle(void* pwmGenerator, double dutyCycle, int32_t *status); void setPWMDutyCycleWithModule(uint8_t module, void* pwmGenerator, double dutyCycle, int32_t *status); void setPWMOutputChannel(void* pwmGenerator, uint32_t pin, int32_t *status); void setPWMOutputChannelWithModule(uint8_t module, void* pwmGenerator, uint32_t pin, int32_t *status); void setRelayForward(void* digital_port_pointer, bool on, int32_t *status); void setRelayReverse(void* digital_port_pointer, bool on, int32_t *status); bool getRelayForward(void* digital_port_pointer, int32_t *status); bool getRelayReverse(void* digital_port_pointer, int32_t *status); bool allocateDIO(void* digital_port_pointer, bool input, int32_t *status); void freeDIO(void* digital_port_pointer, int32_t *status); void setDIO(void* digital_port_pointer, short value, int32_t *status); bool getDIO(void* digital_port_pointer, int32_t *status); bool getDIODirection(void* digital_port_pointer, int32_t *status); void pulse(void* digital_port_pointer, double pulseLength, int32_t *status); bool isPulsing(void* digital_port_pointer, int32_t *status); bool isAnyPulsing(int32_t *status); bool isAnyPulsingWithModule(uint8_t module, int32_t *status); void* initializeCounter(Mode mode, uint32_t *index, int32_t *status); void freeCounter(void* counter_pointer, int32_t *status); void setCounterAverageSize(void* counter_pointer, int32_t size, int32_t *status); void setCounterUpSourceWithModule(void* counter_pointer, uint8_t module, uint32_t pin, bool analogTrigger, int32_t *status); // TODO: Without Module void setCounterUpSourceEdge(void* counter_pointer, bool risingEdge, bool fallingEdge, int32_t *status); void clearCounterUpSource(void* counter_pointer, int32_t *status); void setCounterDownSourceWithModule(void* counter_pointer, uint8_t module, uint32_t pin, bool analogTrigger, int32_t *status); // TODO: Without Module void setCounterDownSourceEdge(void* counter_pointer, bool risingEdge, bool fallingEdge, int32_t *status); void clearCounterDownSource(void* counter_pointer, int32_t *status); void setCounterUpDownMode(void* counter_pointer, int32_t *status); void setCounterExternalDirectionMode(void* counter_pointer, int32_t *status); void setCounterSemiPeriodMode(void* counter_pointer, bool highSemiPeriod, int32_t *status); void setCounterPulseLengthMode(void* counter_pointer, double threshold, int32_t *status); int32_t getCounterSamplesToAverage(void* counter_pointer, int32_t *status); void setCounterSamplesToAverage(void* counter_pointer, int samplesToAverage, int32_t *status); void startCounter(void* counter_pointer, int32_t *status); void stopCounter(void* counter_pointer, int32_t *status); void resetCounter(void* counter_pointer, int32_t *status); int32_t getCounter(void* counter_pointer, int32_t *status); double getCounterPeriod(void* counter_pointer, int32_t *status); void setCounterMaxPeriod(void* counter_pointer, double maxPeriod, int32_t *status); void setCounterUpdateWhenEmpty(void* counter_pointer, bool enabled, int32_t *status); bool getCounterStopped(void* counter_pointer, int32_t *status); bool getCounterDirection(void* counter_pointer, int32_t *status); void setCounterReverseDirection(void* counter_pointer, bool reverseDirection, int32_t *status); void* initializeEncoder(uint8_t port_a_module, uint32_t port_a_pin, bool port_a_analog_trigger, uint8_t port_b_module, uint32_t port_b_pin, bool port_b_analog_trigger, bool reverseDirection, int32_t *index, int32_t *status); // TODO: fix routing void freeEncoder(void* encoder_pointer, int32_t *status); void startEncoder(void* encoder_pointer, int32_t *status); void stopEncoder(void* encoder_pointer, int32_t *status); void resetEncoder(void* encoder_pointer, int32_t *status); int32_t getEncoder(void* encoder_pointer, int32_t *status); // Raw value double getEncoderPeriod(void* encoder_pointer, int32_t *status); void setEncoderMaxPeriod(void* encoder_pointer, double maxPeriod, int32_t *status); bool getEncoderStopped(void* encoder_pointer, int32_t *status); bool getEncoderDirection(void* encoder_pointer, int32_t *status); void setEncoderReverseDirection(void* encoder_pointer, bool reverseDirection, int32_t *status); void setEncoderSamplesToAverage(void* encoder_pointer, uint32_t samplesToAverage, int32_t *status); uint32_t getEncoderSamplesToAverage(void* encoder_pointer, int32_t *status); uint16_t getLoopTiming(int32_t *status); uint16_t getLoopTimingWithModule(uint8_t module, int32_t *status); void* initializeSPI(uint8_t sclk_routing_module, uint32_t sclk_routing_pin, uint8_t mosi_routing_module, uint32_t mosi_routing_pin, uint8_t miso_routing_module, uint32_t miso_routing_pin, int32_t *status); void cleanSPI(void* spi_pointer, int32_t *status); void setSPIBitsPerWord(void* spi_pointer, uint32_t bits, int32_t *status); uint32_t getSPIBitsPerWord(void* spi_pointer, int32_t *status); void setSPIClockRate(void* spi_pointer, double hz, int32_t *status); void setSPIMSBFirst(void* spi_pointer, int32_t *status); void setSPILSBFirst(void* spi_pointer, int32_t *status); void setSPISampleDataOnFalling(void* spi_pointer, int32_t *status); void setSPISampleDataOnRising(void* spi_pointer, int32_t *status); void setSPISlaveSelect(void* spi_pointer, uint8_t ss_routing_module, uint32_t ss_routing_pin, int32_t *status); void setSPILatchMode(void* spi_pointer, tFrameMode mode, int32_t *status); tFrameMode getSPILatchMode(void* spi_pointer, int32_t *status); void setSPIFramePolarity(void* spi_pointer, bool activeLow, int32_t *status); bool getSPIFramePolarity(void* spi_pointer, int32_t *status); void setSPIClockActiveLow(void* spi_pointer, int32_t *status); void setSPIClockActiveHigh(void* spi_pointer, int32_t *status); void applySPIConfig(void* spi_pointer, int32_t *status); uint16_t getSPIOutputFIFOAvailable(void* spi_pointer, int32_t *status); uint16_t getSPINumReceived(void* spi_pointer, int32_t *status); bool isSPIDone(void* spi_pointer, int32_t *status); bool hadSPIReceiveOverflow(void* spi_pointer, int32_t *status); void writeSPI(void* spi_pointer, uint32_t data, int32_t *status); uint32_t readSPI(void* spi_pointer, bool initiate, int32_t *status); void resetSPI(void* spi_pointer, int32_t *status); void clearSPIReceivedData(void* spi_pointer, int32_t *status); void i2CInitialize(uint8_t port, int32_t *status); int i2CTransaction(uint8_t port, uint8_t deviceAddress, uint8_t *dataToSend, uint8_t sendSize, uint8_t *dataReceived, uint8_t receiveSize); int i2CWrite(uint8_t port, uint8_t deviceAddress, uint8_t *dataToSend, uint8_t sendSize); int i2CRead(uint8_t port, uint8_t deviceAddress, uint8_t *buffer, uint8_t count); void i2CClose(uint8_t port); //// Float JNA Hack // double void setPWMRateIntHack(int rate, int32_t *status); void setPWMRateWithModuleIntHack(uint8_t module, int32_t rate, int32_t *status); void setPWMDutyCycleIntHack(void* pwmGenerator, int32_t dutyCycle, int32_t *status); void setPWMDutyCycleWithModuleIntHack(uint8_t module, void* pwmGenerator, int32_t dutyCycle, int32_t *status); }