wpilibc/athena/src/SampleRobot.cpp - RealtimeRoboticsGroup/test - Gitiles

 /*----------------------------------------------------------------------------*/
 /* Copyright (c) FIRST 2008-2017. 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 "SampleRobot.h"

 #include "DriverStation.h"
 #include "LiveWindow/LiveWindow.h"
 #include "Timer.h"
 #include "networktables/NetworkTable.h"

 using namespace frc;

 SampleRobot::SampleRobot() : m_robotMainOverridden(true) {}

 /**
  * Robot-wide initialization code should go here.
  *
  * Users should override this method for default Robot-wide initialization which
  * will be called when the robot is first powered on. It will be called exactly
  * one time.
  *
  * Warning: the Driver Station "Robot Code" light and FMS "Robot Ready"
  * indicators will be off until RobotInit() exits. Code in RobotInit() that
  * waits for enable will cause the robot to never indicate that the code is
  * ready, causing the robot to be bypassed in a match.
  */
 void SampleRobot::RobotInit() {
   std::printf("Default %s() method... Override me!\n", __FUNCTION__);
 }

 /**
  * Disabled should go here.
  *
  * Programmers should override this method to run code that should run while the
  * field is disabled.
  */
 void SampleRobot::Disabled() {
   std::printf("Default %s() method... Override me!\n", __FUNCTION__);
 }

 /**
  * Autonomous should go here.
  *
  * Programmers should override this method to run code that should run while the
  * field is in the autonomous period. This will be called once each time the
  * robot enters the autonomous state.
  */
 void SampleRobot::Autonomous() {
   std::printf("Default %s() method... Override me!\n", __FUNCTION__);
 }

 /**
  * Operator control (tele-operated) code should go here.
  *
  * Programmers should override this method to run code that should run while the
  * field is in the Operator Control (tele-operated) period. This is called once
  * each time the robot enters the teleop state.
  */
 void SampleRobot::OperatorControl() {
   std::printf("Default %s() method... Override me!\n", __FUNCTION__);
 }

 /**
  * Test program should go here.
  *
  * Programmers should override this method to run code that executes while the
  * robot is in test mode. This will be called once whenever the robot enters
  * test mode
  */
 void SampleRobot::Test() {
   std::printf("Default %s() method... Override me!\n", __FUNCTION__);
 }

 /**
  * Robot main program for free-form programs.
  *
  * This should be overridden by user subclasses if the intent is to not use the
  * Autonomous() and OperatorControl() methods. In that case, the program is
  * responsible for sensing when to run the autonomous and operator control
  * functions in their program.
  *
  * This method will be called immediately after the constructor is called. If it
  * has not been overridden by a user subclass (i.e. the default version runs),
  * then the Autonomous() and OperatorControl() methods will be called.
  */
 void SampleRobot::RobotMain() { m_robotMainOverridden = false; }

 /**
  * Start a competition.
  *
  * This code needs to track the order of the field starting to ensure that
  * everything happens in the right order. Repeatedly run the correct method,
  * either Autonomous or OperatorControl or Test when the robot is enabled.
  * After running the correct method, wait for some state to change, either the
  * other mode starts or the robot is disabled. Then go back and wait for the
  * robot to be enabled again.
  */
 void SampleRobot::StartCompetition() {
   LiveWindow* lw = LiveWindow::GetInstance();

   HAL_Report(HALUsageReporting::kResourceType_Framework,
              HALUsageReporting::kFramework_Simple);

   NetworkTable::GetTable("LiveWindow")
       ->GetSubTable("~STATUS~")
       ->PutBoolean("LW Enabled", false);

   RobotInit();

   // Tell the DS that the robot is ready to be enabled
   HAL_ObserveUserProgramStarting();

   RobotMain();

   if (!m_robotMainOverridden) {
     // first and one-time initialization
     lw->SetEnabled(false);

     while (true) {
       if (IsDisabled()) {
         m_ds.InDisabled(true);
         Disabled();
         m_ds.InDisabled(false);
         while (IsDisabled()) m_ds.WaitForData();
       } else if (IsAutonomous()) {
         m_ds.InAutonomous(true);
         Autonomous();
         m_ds.InAutonomous(false);
         while (IsAutonomous() && IsEnabled()) m_ds.WaitForData();
       } else if (IsTest()) {
         lw->SetEnabled(true);
         m_ds.InTest(true);
         Test();
         m_ds.InTest(false);
         while (IsTest() && IsEnabled()) m_ds.WaitForData();
         lw->SetEnabled(false);
       } else {
         m_ds.InOperatorControl(true);
         OperatorControl();
         m_ds.InOperatorControl(false);
         while (IsOperatorControl() && IsEnabled()) m_ds.WaitForData();
       }
     }
   }
 }
	/----------------------------------------------------------------------------/
	/* Copyright (c) FIRST 2008-2017. 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 "SampleRobot.h"

	#include "DriverStation.h"
	#include "LiveWindow/LiveWindow.h"
	#include "Timer.h"
	#include "networktables/NetworkTable.h"

	using namespace frc;

	SampleRobot::SampleRobot() : m_robotMainOverridden(true) {}

	/**
	* Robot-wide initialization code should go here.
	*
	* Users should override this method for default Robot-wide initialization which
	* will be called when the robot is first powered on. It will be called exactly
	* one time.
	*
	* Warning: the Driver Station "Robot Code" light and FMS "Robot Ready"
	* indicators will be off until RobotInit() exits. Code in RobotInit() that
	* waits for enable will cause the robot to never indicate that the code is
	* ready, causing the robot to be bypassed in a match.
	*/
	void SampleRobot::RobotInit() {
	std::printf("Default %s() method... Override me!\n", __FUNCTION__);
	}

	/**
	* Disabled should go here.
	*
	* Programmers should override this method to run code that should run while the
	* field is disabled.
	*/
	void SampleRobot::Disabled() {
	std::printf("Default %s() method... Override me!\n", __FUNCTION__);
	}

	/**
	* Autonomous should go here.
	*
	* Programmers should override this method to run code that should run while the
	* field is in the autonomous period. This will be called once each time the
	* robot enters the autonomous state.
	*/
	void SampleRobot::Autonomous() {
	std::printf("Default %s() method... Override me!\n", __FUNCTION__);
	}

	/**
	* Operator control (tele-operated) code should go here.
	*
	* Programmers should override this method to run code that should run while the
	* field is in the Operator Control (tele-operated) period. This is called once
	* each time the robot enters the teleop state.
	*/
	void SampleRobot::OperatorControl() {
	std::printf("Default %s() method... Override me!\n", __FUNCTION__);
	}

	/**
	* Test program should go here.
	*
	* Programmers should override this method to run code that executes while the
	* robot is in test mode. This will be called once whenever the robot enters
	* test mode
	*/
	void SampleRobot::Test() {
	std::printf("Default %s() method... Override me!\n", __FUNCTION__);
	}

	/**
	* Robot main program for free-form programs.
	*
	* This should be overridden by user subclasses if the intent is to not use the
	* Autonomous() and OperatorControl() methods. In that case, the program is
	* responsible for sensing when to run the autonomous and operator control
	* functions in their program.
	*
	* This method will be called immediately after the constructor is called. If it
	* has not been overridden by a user subclass (i.e. the default version runs),
	* then the Autonomous() and OperatorControl() methods will be called.
	*/
	void SampleRobot::RobotMain() { m_robotMainOverridden = false; }

	/**
	* Start a competition.
	*
	* This code needs to track the order of the field starting to ensure that
	* everything happens in the right order. Repeatedly run the correct method,
	* either Autonomous or OperatorControl or Test when the robot is enabled.
	* After running the correct method, wait for some state to change, either the
	* other mode starts or the robot is disabled. Then go back and wait for the
	* robot to be enabled again.
	*/
	void SampleRobot::StartCompetition() {
	LiveWindow* lw = LiveWindow::GetInstance();

	HAL_Report(HALUsageReporting::kResourceType_Framework,
	HALUsageReporting::kFramework_Simple);

	NetworkTable::GetTable("LiveWindow")
	->GetSubTable("~STATUS~")
	->PutBoolean("LW Enabled", false);

	RobotInit();

	// Tell the DS that the robot is ready to be enabled
	HAL_ObserveUserProgramStarting();

	RobotMain();

	if (!m_robotMainOverridden) {
	// first and one-time initialization
	lw->SetEnabled(false);

	while (true) {
	if (IsDisabled()) {
	m_ds.InDisabled(true);
	Disabled();
	m_ds.InDisabled(false);
	while (IsDisabled()) m_ds.WaitForData();
	} else if (IsAutonomous()) {
	m_ds.InAutonomous(true);
	Autonomous();
	m_ds.InAutonomous(false);
	while (IsAutonomous() && IsEnabled()) m_ds.WaitForData();
	} else if (IsTest()) {
	lw->SetEnabled(true);
	m_ds.InTest(true);
	Test();
	m_ds.InTest(false);
	while (IsTest() && IsEnabled()) m_ds.WaitForData();
	lw->SetEnabled(false);
	} else {
	m_ds.InOperatorControl(true);
	OperatorControl();
	m_ds.InOperatorControl(false);
	while (IsOperatorControl() && IsEnabled()) m_ds.WaitForData();
	}
	}
	}
	}