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

 /*----------------------------------------------------------------------------*/
 /* Copyright (c) FIRST 2008-2016. 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 the root directory of */
 /* the project.                                                               */
 /*----------------------------------------------------------------------------*/

 #include "Notifier.h"
 #include "Timer.h"
 #include "Utility.h"
 #include "WPIErrors.h"
 #include "HAL/HAL.hpp"

 /**
  * Create a Notifier for timer event notification.
  * @param handler The handler is called at the notification time which is set
  * using StartSingle or StartPeriodic.
  */
 Notifier::Notifier(TimerEventHandler handler) {
   if (handler == nullptr)
     wpi_setWPIErrorWithContext(NullParameter, "handler must not be nullptr");
   m_handler = handler;
   int32_t status = 0;
   m_notifier = initializeNotifier(&Notifier::Notify, this, &status);
   wpi_setErrorWithContext(status, getHALErrorMessage(status));
 }

 /**
  * Free the resources for a timer event.
  */
 Notifier::~Notifier() {
   int32_t status = 0;
   cleanNotifier(m_notifier, &status);
   wpi_setErrorWithContext(status, getHALErrorMessage(status));

   /* Acquire the mutex; this makes certain that the handler is not being
    * executed by the interrupt manager.
    */
   std::lock_guard<priority_mutex> lock(m_handlerMutex);
 }

 /**
  * Update the HAL alarm time.
  */
 void Notifier::UpdateAlarm() {
   int32_t status = 0;
   updateNotifierAlarm(m_notifier, (uint64_t)(m_expirationTime * 1e6), &status);
   wpi_setErrorWithContext(status, getHALErrorMessage(status));
 }

 /**
  * Notify is called by the HAL layer.  We simply need to pass it through to
  * the user handler.
  */
 void Notifier::Notify(uint64_t currentTimeInt, void *param) {
   Notifier* notifier = static_cast<Notifier*>(param);

   notifier->m_processMutex.lock();
   if (notifier->m_periodic) {
     notifier->m_expirationTime += notifier->m_period;
     notifier->UpdateAlarm();
   }

   auto handler = notifier->m_handler;

   notifier->m_handlerMutex.lock();
   notifier->m_processMutex.unlock();

   if (handler) handler();
   notifier->m_handlerMutex.unlock();
 }

 /**
  * Register for single event notification.
  * A timer event is queued for a single event after the specified delay.
  * @param delay Seconds to wait before the handler is called.
  */
 void Notifier::StartSingle(double delay) {
   std::lock_guard<priority_mutex> sync(m_processMutex);
   m_periodic = false;
   m_period = delay;
   m_expirationTime = GetClock() + m_period;
   UpdateAlarm();
 }

 /**
  * Register for periodic event notification.
  * A timer event is queued for periodic event notification. Each time the
  * interrupt occurs, the event will be immediately requeued for the same time
  * interval.
  * @param period Period in seconds to call the handler starting one period after
  * the call to this method.
  */
 void Notifier::StartPeriodic(double period) {
   std::lock_guard<priority_mutex> sync(m_processMutex);
   m_periodic = true;
   m_period = period;
   m_expirationTime = GetClock() + m_period;
   UpdateAlarm();
 }

 /**
  * Stop timer events from occuring.
  * Stop any repeating timer events from occuring. This will also remove any
  * single notification events from the queue.
  * If a timer-based call to the registered handler is in progress, this function
  * will block until the handler call is complete.
  */
 void Notifier::Stop() {
   int32_t status = 0;
   stopNotifierAlarm(m_notifier, &status);
   wpi_setErrorWithContext(status, getHALErrorMessage(status));

   // Wait for a currently executing handler to complete before returning from
   // Stop()
   std::lock_guard<priority_mutex> sync(m_handlerMutex);
 }
	/----------------------------------------------------------------------------/
	/* Copyright (c) FIRST 2008-2016. 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 the root directory of */
	/* the project. */
	/----------------------------------------------------------------------------/

	#include "Notifier.h"
	#include "Timer.h"
	#include "Utility.h"
	#include "WPIErrors.h"
	#include "HAL/HAL.hpp"

	/**
	* Create a Notifier for timer event notification.
	* @param handler The handler is called at the notification time which is set
	* using StartSingle or StartPeriodic.
	*/
	Notifier::Notifier(TimerEventHandler handler) {
	if (handler == nullptr)
	wpi_setWPIErrorWithContext(NullParameter, "handler must not be nullptr");
	m_handler = handler;
	int32_t status = 0;
	m_notifier = initializeNotifier(&Notifier::Notify, this, &status);
	wpi_setErrorWithContext(status, getHALErrorMessage(status));
	}

	/**
	* Free the resources for a timer event.
	*/
	Notifier::~Notifier() {
	int32_t status = 0;
	cleanNotifier(m_notifier, &status);
	wpi_setErrorWithContext(status, getHALErrorMessage(status));

	/* Acquire the mutex; this makes certain that the handler is not being
	* executed by the interrupt manager.
	*/
	std::lock_guard<priority_mutex> lock(m_handlerMutex);
	}

	/**
	* Update the HAL alarm time.
	*/
	void Notifier::UpdateAlarm() {
	int32_t status = 0;
	updateNotifierAlarm(m_notifier, (uint64_t)(m_expirationTime * 1e6), &status);
	wpi_setErrorWithContext(status, getHALErrorMessage(status));
	}

	/**
	* Notify is called by the HAL layer. We simply need to pass it through to
	* the user handler.
	*/
	void Notifier::Notify(uint64_t currentTimeInt, void *param) {
	Notifier* notifier = static_cast<Notifier*>(param);

	notifier->m_processMutex.lock();
	if (notifier->m_periodic) {
	notifier->m_expirationTime += notifier->m_period;
	notifier->UpdateAlarm();
	}

	auto handler = notifier->m_handler;

	notifier->m_handlerMutex.lock();
	notifier->m_processMutex.unlock();

	if (handler) handler();
	notifier->m_handlerMutex.unlock();
	}

	/**
	* Register for single event notification.
	* A timer event is queued for a single event after the specified delay.
	* @param delay Seconds to wait before the handler is called.
	*/
	void Notifier::StartSingle(double delay) {
	std::lock_guard<priority_mutex> sync(m_processMutex);
	m_periodic = false;
	m_period = delay;
	m_expirationTime = GetClock() + m_period;
	UpdateAlarm();
	}

	/**
	* Register for periodic event notification.
	* A timer event is queued for periodic event notification. Each time the
	* interrupt occurs, the event will be immediately requeued for the same time
	* interval.
	* @param period Period in seconds to call the handler starting one period after
	* the call to this method.
	*/
	void Notifier::StartPeriodic(double period) {
	std::lock_guard<priority_mutex> sync(m_processMutex);
	m_periodic = true;
	m_period = period;
	m_expirationTime = GetClock() + m_period;
	UpdateAlarm();
	}

	/**
	* Stop timer events from occuring.
	* Stop any repeating timer events from occuring. This will also remove any
	* single notification events from the queue.
	* If a timer-based call to the registered handler is in progress, this function
	* will block until the handler call is complete.
	*/
	void Notifier::Stop() {
	int32_t status = 0;
	stopNotifierAlarm(m_notifier, &status);
	wpi_setErrorWithContext(status, getHALErrorMessage(status));

	// Wait for a currently executing handler to complete before returning from
	// Stop()
	std::lock_guard<priority_mutex> sync(m_handlerMutex);
	}