/*----------------------------------------------------------------------------*/ /* 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. */ /*----------------------------------------------------------------------------*/ #include "PWM.h" //#include "NetworkCommunication/UsageReporting.h" #include "Utility.h" #include "WPIErrors.h" constexpr float PWM::kDefaultPwmPeriod; constexpr float PWM::kDefaultPwmCenter; const int32_t PWM::kDefaultPwmStepsDown; const int32_t PWM::kPwmDisabled; /** * Allocate a PWM given a channel number. * * Checks channel value range and allocates the appropriate channel. * The allocation is only done to help users ensure that they don't double * assign channels. * @param channel The PWM channel number. 0-9 are on-board, 10-19 are on the MXP * port */ PWM::PWM(uint32_t channel) { char buf[64]; if (!CheckPWMChannel(channel)) { snprintf(buf, 64, "PWM Channel %d", channel); wpi_setWPIErrorWithContext(ChannelIndexOutOfRange, buf); return; } sprintf(buf, "pwm/%d", channel); impl = new SimContinuousOutput(buf); m_channel = channel; m_eliminateDeadband = false; m_centerPwm = kPwmDisabled; // In simulation, the same thing. } /** * Optionally eliminate the deadband from a speed controller. * @param eliminateDeadband If true, set the motor curve on the Jaguar to eliminate * the deadband in the middle of the range. Otherwise, keep the full range without * modifying any values. */ void PWM::EnableDeadbandElimination(bool eliminateDeadband) { m_eliminateDeadband = eliminateDeadband; } /** * Set the bounds on the PWM values. * This sets the bounds on the PWM values for a particular each type of controller. The values * determine the upper and lower speeds as well as the deadband bracket. * @param max The Minimum pwm value * @param deadbandMax The high end of the deadband range * @param center The center speed (off) * @param deadbandMin The low end of the deadband range * @param min The minimum pwm value */ void PWM::SetBounds(int32_t max, int32_t deadbandMax, int32_t center, int32_t deadbandMin, int32_t min) { // Nothing to do in simulation. } /** * Set the bounds on the PWM pulse widths. * This sets the bounds on the PWM values for a particular type of controller. The values * determine the upper and lower speeds as well as the deadband bracket. * @param max The max PWM pulse width in ms * @param deadbandMax The high end of the deadband range pulse width in ms * @param center The center (off) pulse width in ms * @param deadbandMin The low end of the deadband pulse width in ms * @param min The minimum pulse width in ms */ void PWM::SetBounds(double max, double deadbandMax, double center, double deadbandMin, double min) { // Nothing to do in simulation. } /** * Set the PWM value based on a position. * * This is intended to be used by servos. * * @pre SetMaxPositivePwm() called. * @pre SetMinNegativePwm() called. * * @param pos The position to set the servo between 0.0 and 1.0. */ void PWM::SetPosition(float pos) { if (pos < 0.0) { pos = 0.0; } else if (pos > 1.0) { pos = 1.0; } impl->Set(pos); } /** * Get the PWM value in terms of a position. * * This is intended to be used by servos. * * @pre SetMaxPositivePwm() called. * @pre SetMinNegativePwm() called. * * @return The position the servo is set to between 0.0 and 1.0. */ float PWM::GetPosition() const { float value = impl->Get(); if (value < 0.0) { return 0.0; } else if (value > 1.0) { return 1.0; } else { return value; } } /** * Set the PWM value based on a speed. * * This is intended to be used by speed controllers. * * @pre SetMaxPositivePwm() called. * @pre SetMinPositivePwm() called. * @pre SetCenterPwm() called. * @pre SetMaxNegativePwm() called. * @pre SetMinNegativePwm() called. * * @param speed The speed to set the speed controller between -1.0 and 1.0. */ void PWM::SetSpeed(float speed) { // clamp speed to be in the range 1.0 >= speed >= -1.0 if (speed < -1.0) { speed = -1.0; } else if (speed > 1.0) { speed = 1.0; } impl->Set(speed); } /** * Get the PWM value in terms of speed. * * This is intended to be used by speed controllers. * * @pre SetMaxPositivePwm() called. * @pre SetMinPositivePwm() called. * @pre SetMaxNegativePwm() called. * @pre SetMinNegativePwm() called. * * @return The most recently set speed between -1.0 and 1.0. */ float PWM::GetSpeed() const { float value = impl->Get(); if (value > 1.0) { return 1.0; } else if (value < -1.0) { return -1.0; } else { return value; } } /** * Set the PWM value directly to the hardware. * * Write a raw value to a PWM channel. * * @param value Raw PWM value. */ void PWM::SetRaw(unsigned short value) { wpi_assert(value == kPwmDisabled); impl->Set(0); } /** * Slow down the PWM signal for old devices. * * @param mult The period multiplier to apply to this channel */ void PWM::SetPeriodMultiplier(PeriodMultiplier mult) { // Do nothing in simulation. } void PWM::ValueChanged(std::shared_ptr source, const std::string& key, EntryValue value, bool isNew) { SetSpeed(value.f); } void PWM::UpdateTable() { if (m_table != nullptr) { m_table->PutNumber("Value", GetSpeed()); } } void PWM::StartLiveWindowMode() { SetSpeed(0); if (m_table != nullptr) { m_table->AddTableListener("Value", this, true); } } void PWM::StopLiveWindowMode() { SetSpeed(0); if (m_table != nullptr) { m_table->RemoveTableListener(this); } } std::string PWM::GetSmartDashboardType() const { return "Speed Controller"; } void PWM::InitTable(std::shared_ptr subTable) { m_table = subTable; UpdateTable(); } std::shared_ptr PWM::GetTable() const { return m_table; }