wpilibc/Athena/src/Relay.cpp - RealtimeRoboticsGroup/test - Gitiles

 /*----------------------------------------------------------------------------*/
 /* 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 "Relay.h"

 #include "MotorSafetyHelper.h"
 #include "Resource.h"
 #include "WPIErrors.h"
 #include "LiveWindow/LiveWindow.h"
 #include "HAL/HAL.hpp"

 #include <sstream>

 // Allocate each direction separately.
 static std::unique_ptr<Resource> relayChannels;

 /**
  * Relay constructor given a channel.
  *
  * This code initializes the relay and reserves all resources that need to be
  * locked. Initially the relay is set to both lines at 0v.
  * @param channel The channel number (0-3).
  * @param direction The direction that the Relay object will control.
  */
 Relay::Relay(uint32_t channel, Relay::Direction direction)
     : m_channel(channel), m_direction(direction) {
   std::stringstream buf;
   Resource::CreateResourceObject(relayChannels,
                                  dio_kNumSystems * kRelayChannels * 2);
   if (!SensorBase::CheckRelayChannel(m_channel)) {
     buf << "Relay Channel " << m_channel;
     wpi_setWPIErrorWithContext(ChannelIndexOutOfRange, buf.str());
     return;
   }

   if (m_direction == kBothDirections || m_direction == kForwardOnly) {
     buf << "Forward Relay " << m_channel;
     if (relayChannels->Allocate(m_channel * 2, buf.str()) ==
         std::numeric_limits<uint32_t>::max()) {
       CloneError(*relayChannels);
       return;
     }

     HALReport(HALUsageReporting::kResourceType_Relay, m_channel);
   }
   if (m_direction == kBothDirections || m_direction == kReverseOnly) {
     buf << "Reverse Relay " << m_channel;
     if (relayChannels->Allocate(m_channel * 2 + 1, buf.str()) ==
         std::numeric_limits<uint32_t>::max()) {
       CloneError(*relayChannels);
       return;
     }

     HALReport(HALUsageReporting::kResourceType_Relay, m_channel + 128);
   }

   int32_t status = 0;
   setRelayForward(m_relay_ports[m_channel], false, &status);
   setRelayReverse(m_relay_ports[m_channel], false, &status);
   wpi_setErrorWithContext(status, getHALErrorMessage(status));

   m_safetyHelper = std::make_unique<MotorSafetyHelper>(this);
   m_safetyHelper->SetSafetyEnabled(false);

   LiveWindow::GetInstance()->AddActuator("Relay", 1, m_channel, this);
 }

 /**
  * Free the resource associated with a relay.
  * The relay channels are set to free and the relay output is turned off.
  */
 Relay::~Relay() {
   int32_t status = 0;
   setRelayForward(m_relay_ports[m_channel], false, &status);
   setRelayReverse(m_relay_ports[m_channel], false, &status);
   wpi_setErrorWithContext(status, getHALErrorMessage(status));

   if (m_direction == kBothDirections || m_direction == kForwardOnly) {
     relayChannels->Free(m_channel * 2);
   }
   if (m_direction == kBothDirections || m_direction == kReverseOnly) {
     relayChannels->Free(m_channel * 2 + 1);
   }
   if (m_table != nullptr) m_table->RemoveTableListener(this);
 }

 /**
  * Set the relay state.
  *
  * Valid values depend on which directions of the relay are controlled by the
  * object.
  *
  * When set to kBothDirections, the relay can be any of the four states:
  * 	 0v-0v, 0v-12v, 12v-0v, 12v-12v
  *
  * When set to kForwardOnly or kReverseOnly, you can specify the constant for
  * the
  * 	 direction or you can simply specify kOff and kOn.  Using only kOff and
  * kOn is
  * 	 recommended.
  *
  * @param value The state to set the relay.
  */
 void Relay::Set(Relay::Value value) {
   if (StatusIsFatal()) return;

   int32_t status = 0;

   switch (value) {
     case kOff:
       if (m_direction == kBothDirections || m_direction == kForwardOnly) {
         setRelayForward(m_relay_ports[m_channel], false, &status);
       }
       if (m_direction == kBothDirections || m_direction == kReverseOnly) {
         setRelayReverse(m_relay_ports[m_channel], false, &status);
       }
       break;
     case kOn:
       if (m_direction == kBothDirections || m_direction == kForwardOnly) {
         setRelayForward(m_relay_ports[m_channel], true, &status);
       }
       if (m_direction == kBothDirections || m_direction == kReverseOnly) {
         setRelayReverse(m_relay_ports[m_channel], true, &status);
       }
       break;
     case kForward:
       if (m_direction == kReverseOnly) {
         wpi_setWPIError(IncompatibleMode);
         break;
       }
       if (m_direction == kBothDirections || m_direction == kForwardOnly) {
         setRelayForward(m_relay_ports[m_channel], true, &status);
       }
       if (m_direction == kBothDirections) {
         setRelayReverse(m_relay_ports[m_channel], false, &status);
       }
       break;
     case kReverse:
       if (m_direction == kForwardOnly) {
         wpi_setWPIError(IncompatibleMode);
         break;
       }
       if (m_direction == kBothDirections) {
         setRelayForward(m_relay_ports[m_channel], false, &status);
       }
       if (m_direction == kBothDirections || m_direction == kReverseOnly) {
         setRelayReverse(m_relay_ports[m_channel], true, &status);
       }
       break;
   }

   wpi_setErrorWithContext(status, getHALErrorMessage(status));
 }

 /**
  * Get the Relay State
  *
  * Gets the current state of the relay.
  *
  * When set to kForwardOnly or kReverseOnly, value is returned as kOn/kOff not
  * kForward/kReverse (per the recommendation in Set)
  *
  * @return The current state of the relay as a Relay::Value
  */
 Relay::Value Relay::Get() const {
   int32_t status;

   if (getRelayForward(m_relay_ports[m_channel], &status)) {
     if (getRelayReverse(m_relay_ports[m_channel], &status)) {
       return kOn;
     } else {
       if (m_direction == kForwardOnly) {
         return kOn;
       } else {
         return kForward;
       }
     }
   } else {
     if (getRelayReverse(m_relay_ports[m_channel], &status)) {
       if (m_direction == kReverseOnly) {
         return kOn;
       } else {
         return kReverse;
       }
     } else {
       return kOff;
     }
   }

   wpi_setErrorWithContext(status, getHALErrorMessage(status));
 }

 uint32_t Relay::GetChannel() const {
   return m_channel;
 }

 /**
  * Set the expiration time for the Relay object
  * @param timeout The timeout (in seconds) for this relay object
  */
 void Relay::SetExpiration(float timeout) {
   m_safetyHelper->SetExpiration(timeout);
 }

 /**
  * Return the expiration time for the relay object.
  * @return The expiration time value.
  */
 float Relay::GetExpiration() const { return m_safetyHelper->GetExpiration(); }

 /**
  * Check if the relay object is currently alive or stopped due to a timeout.
  * @returns a bool value that is true if the motor has NOT timed out and should
  * still be running.
  */
 bool Relay::IsAlive() const { return m_safetyHelper->IsAlive(); }

 /**
  * Stop the motor associated with this PWM object.
  * This is called by the MotorSafetyHelper object when it has a timeout for this
  * relay and needs to stop it from running.
  */
 void Relay::StopMotor() { Set(kOff); }

 /**
  * Enable/disable motor safety for this device
  * Turn on and off the motor safety option for this relay object.
  * @param enabled True if motor safety is enforced for this object
  */
 void Relay::SetSafetyEnabled(bool enabled) {
   m_safetyHelper->SetSafetyEnabled(enabled);
 }

 /**
  * Check if motor safety is enabled for this object
  * @returns True if motor safety is enforced for this object
  */
 bool Relay::IsSafetyEnabled() const {
   return m_safetyHelper->IsSafetyEnabled();
 }

 void Relay::GetDescription(std::ostringstream& desc) const {
   desc << "Relay " << GetChannel();
 }

 void Relay::ValueChanged(ITable* source, llvm::StringRef key,
                          std::shared_ptr<nt::Value> value, bool isNew) {
   if (!value->IsString()) return;
   if (value->GetString() == "Off") Set(kOff);
   else if (value->GetString() == "Forward") Set(kForward);
   else if (value->GetString() == "Reverse") Set(kReverse);
   else if (value->GetString() == "On") Set(kOn);
 }

 void Relay::UpdateTable() {
   if (m_table != nullptr) {
     if (Get() == kOn) {
       m_table->PutString("Value", "On");
     } else if (Get() == kForward) {
       m_table->PutString("Value", "Forward");
     } else if (Get() == kReverse) {
       m_table->PutString("Value", "Reverse");
     } else {
       m_table->PutString("Value", "Off");
     }
   }
 }

 void Relay::StartLiveWindowMode() {
   if (m_table != nullptr) {
     m_table->AddTableListener("Value", this, true);
   }
 }

 void Relay::StopLiveWindowMode() {
   if (m_table != nullptr) {
     m_table->RemoveTableListener(this);
   }
 }

 std::string Relay::GetSmartDashboardType() const { return "Relay"; }

 void Relay::InitTable(std::shared_ptr<ITable> subTable) {
   m_table = subTable;
   UpdateTable();
 }

 std::shared_ptr<ITable> Relay::GetTable() const { return m_table; }
	/----------------------------------------------------------------------------/
	/* 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 "Relay.h"

	#include "MotorSafetyHelper.h"
	#include "Resource.h"
	#include "WPIErrors.h"
	#include "LiveWindow/LiveWindow.h"
	#include "HAL/HAL.hpp"

	#include <sstream>

	// Allocate each direction separately.
	static std::unique_ptr<Resource> relayChannels;

	/**
	* Relay constructor given a channel.
	*
	* This code initializes the relay and reserves all resources that need to be
	* locked. Initially the relay is set to both lines at 0v.
	* @param channel The channel number (0-3).
	* @param direction The direction that the Relay object will control.
	*/
	Relay::Relay(uint32_t channel, Relay::Direction direction)
	: m_channel(channel), m_direction(direction) {
	std::stringstream buf;
	Resource::CreateResourceObject(relayChannels,
	dio_kNumSystems * kRelayChannels * 2);
	if (!SensorBase::CheckRelayChannel(m_channel)) {
	buf << "Relay Channel " << m_channel;
	wpi_setWPIErrorWithContext(ChannelIndexOutOfRange, buf.str());
	return;
	}

	if (m_direction == kBothDirections \|\| m_direction == kForwardOnly) {
	buf << "Forward Relay " << m_channel;
	if (relayChannels->Allocate(m_channel * 2, buf.str()) ==
	std::numeric_limits<uint32_t>::max()) {
	CloneError(*relayChannels);
	return;
	}

	HALReport(HALUsageReporting::kResourceType_Relay, m_channel);
	}
	if (m_direction == kBothDirections \|\| m_direction == kReverseOnly) {
	buf << "Reverse Relay " << m_channel;
	if (relayChannels->Allocate(m_channel * 2 + 1, buf.str()) ==
	std::numeric_limits<uint32_t>::max()) {
	CloneError(*relayChannels);
	return;
	}

	HALReport(HALUsageReporting::kResourceType_Relay, m_channel + 128);
	}

	int32_t status = 0;
	setRelayForward(m_relay_ports[m_channel], false, &status);
	setRelayReverse(m_relay_ports[m_channel], false, &status);
	wpi_setErrorWithContext(status, getHALErrorMessage(status));

	m_safetyHelper = std::make_unique<MotorSafetyHelper>(this);
	m_safetyHelper->SetSafetyEnabled(false);

	LiveWindow::GetInstance()->AddActuator("Relay", 1, m_channel, this);
	}

	/**
	* Free the resource associated with a relay.
	* The relay channels are set to free and the relay output is turned off.
	*/
	Relay::~Relay() {
	int32_t status = 0;
	setRelayForward(m_relay_ports[m_channel], false, &status);
	setRelayReverse(m_relay_ports[m_channel], false, &status);
	wpi_setErrorWithContext(status, getHALErrorMessage(status));

	if (m_direction == kBothDirections \|\| m_direction == kForwardOnly) {
	relayChannels->Free(m_channel * 2);
	}
	if (m_direction == kBothDirections \|\| m_direction == kReverseOnly) {
	relayChannels->Free(m_channel * 2 + 1);
	}
	if (m_table != nullptr) m_table->RemoveTableListener(this);
	}

	/**
	* Set the relay state.
	*
	* Valid values depend on which directions of the relay are controlled by the
	* object.
	*
	* When set to kBothDirections, the relay can be any of the four states:
	* 0v-0v, 0v-12v, 12v-0v, 12v-12v
	*
	* When set to kForwardOnly or kReverseOnly, you can specify the constant for
	* the
	* direction or you can simply specify kOff and kOn. Using only kOff and
	* kOn is
	* recommended.
	*
	* @param value The state to set the relay.
	*/
	void Relay::Set(Relay::Value value) {
	if (StatusIsFatal()) return;

	int32_t status = 0;

	switch (value) {
	case kOff:
	if (m_direction == kBothDirections \|\| m_direction == kForwardOnly) {
	setRelayForward(m_relay_ports[m_channel], false, &status);
	}
	if (m_direction == kBothDirections \|\| m_direction == kReverseOnly) {
	setRelayReverse(m_relay_ports[m_channel], false, &status);
	}
	break;
	case kOn:
	if (m_direction == kBothDirections \|\| m_direction == kForwardOnly) {
	setRelayForward(m_relay_ports[m_channel], true, &status);
	}
	if (m_direction == kBothDirections \|\| m_direction == kReverseOnly) {
	setRelayReverse(m_relay_ports[m_channel], true, &status);
	}
	break;
	case kForward:
	if (m_direction == kReverseOnly) {
	wpi_setWPIError(IncompatibleMode);
	break;
	}
	if (m_direction == kBothDirections \|\| m_direction == kForwardOnly) {
	setRelayForward(m_relay_ports[m_channel], true, &status);
	}
	if (m_direction == kBothDirections) {
	setRelayReverse(m_relay_ports[m_channel], false, &status);
	}
	break;
	case kReverse:
	if (m_direction == kForwardOnly) {
	wpi_setWPIError(IncompatibleMode);
	break;
	}
	if (m_direction == kBothDirections) {
	setRelayForward(m_relay_ports[m_channel], false, &status);
	}
	if (m_direction == kBothDirections \|\| m_direction == kReverseOnly) {
	setRelayReverse(m_relay_ports[m_channel], true, &status);
	}
	break;
	}

	wpi_setErrorWithContext(status, getHALErrorMessage(status));
	}

	/**
	* Get the Relay State
	*
	* Gets the current state of the relay.
	*
	* When set to kForwardOnly or kReverseOnly, value is returned as kOn/kOff not
	* kForward/kReverse (per the recommendation in Set)
	*
	* @return The current state of the relay as a Relay::Value
	*/
	Relay::Value Relay::Get() const {
	int32_t status;

	if (getRelayForward(m_relay_ports[m_channel], &status)) {
	if (getRelayReverse(m_relay_ports[m_channel], &status)) {
	return kOn;
	} else {
	if (m_direction == kForwardOnly) {
	return kOn;
	} else {
	return kForward;
	}
	}
	} else {
	if (getRelayReverse(m_relay_ports[m_channel], &status)) {
	if (m_direction == kReverseOnly) {
	return kOn;
	} else {
	return kReverse;
	}
	} else {
	return kOff;
	}
	}

	wpi_setErrorWithContext(status, getHALErrorMessage(status));
	}

	uint32_t Relay::GetChannel() const {
	return m_channel;
	}

	/**
	* Set the expiration time for the Relay object
	* @param timeout The timeout (in seconds) for this relay object
	*/
	void Relay::SetExpiration(float timeout) {
	m_safetyHelper->SetExpiration(timeout);
	}

	/**
	* Return the expiration time for the relay object.
	* @return The expiration time value.
	*/
	float Relay::GetExpiration() const { return m_safetyHelper->GetExpiration(); }

	/**
	* Check if the relay object is currently alive or stopped due to a timeout.
	* @returns a bool value that is true if the motor has NOT timed out and should
	* still be running.
	*/
	bool Relay::IsAlive() const { return m_safetyHelper->IsAlive(); }

	/**
	* Stop the motor associated with this PWM object.
	* This is called by the MotorSafetyHelper object when it has a timeout for this
	* relay and needs to stop it from running.
	*/
	void Relay::StopMotor() { Set(kOff); }

	/**
	* Enable/disable motor safety for this device
	* Turn on and off the motor safety option for this relay object.
	* @param enabled True if motor safety is enforced for this object
	*/
	void Relay::SetSafetyEnabled(bool enabled) {
	m_safetyHelper->SetSafetyEnabled(enabled);
	}

	/**
	* Check if motor safety is enabled for this object
	* @returns True if motor safety is enforced for this object
	*/
	bool Relay::IsSafetyEnabled() const {
	return m_safetyHelper->IsSafetyEnabled();
	}

	void Relay::GetDescription(std::ostringstream& desc) const {
	desc << "Relay " << GetChannel();
	}

	void Relay::ValueChanged(ITable* source, llvm::StringRef key,
	std::shared_ptr<nt::Value> value, bool isNew) {
	if (!value->IsString()) return;
	if (value->GetString() == "Off") Set(kOff);
	else if (value->GetString() == "Forward") Set(kForward);
	else if (value->GetString() == "Reverse") Set(kReverse);
	else if (value->GetString() == "On") Set(kOn);
	}

	void Relay::UpdateTable() {
	if (m_table != nullptr) {
	if (Get() == kOn) {
	m_table->PutString("Value", "On");
	} else if (Get() == kForward) {
	m_table->PutString("Value", "Forward");
	} else if (Get() == kReverse) {
	m_table->PutString("Value", "Reverse");
	} else {
	m_table->PutString("Value", "Off");
	}
	}
	}

	void Relay::StartLiveWindowMode() {
	if (m_table != nullptr) {
	m_table->AddTableListener("Value", this, true);
	}
	}

	void Relay::StopLiveWindowMode() {
	if (m_table != nullptr) {
	m_table->RemoveTableListener(this);
	}
	}

	std::string Relay::GetSmartDashboardType() const { return "Relay"; }

	void Relay::InitTable(std::shared_ptr<ITable> subTable) {
	m_table = subTable;
	UpdateTable();
	}

	std::shared_ptr<ITable> Relay::GetTable() const { return m_table; }