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allwpilib/wpilibc/Athena/src/IterativeRobot.cpp
Fredric Silberberg 6d854afb0e WPILib Reorganization 
This is a major restructuring of the WPILib repository to simply build
procedures and remove the remnants of Maven from everything except the
eclipse plugins. Gradle files have been largely simplified or rewritten,
taking advantage of splitting up parts of the build into separate build
files for ease of reading.

The eclipse plugins are now in a separate project, as is ntcore. All
dependencies are resolved via Maven dependencies, with the
Jenkins-maintained WPILib repo. Project structures have also been
simplified: we no longer have separate subprojects inside wpilibc and
wpilibj. Where possible, these changes hav been done with git renames,
to make sure we still have full history for all repositories. Other
unrelated subprojects have also been broken out: OutlineViewer is now a
separate project.

Change-Id: Ib4e2a6e1a2f66427a14f16612b0e0d69ed661878
2015-11-21 18:26:49 -05:00

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/*----------------------------------------------------------------------------*/
/* 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 "IterativeRobot.h"
#include "DriverStation.h"
//#include "NetworkCommunication/UsageReporting.h"
#include "HAL/HAL.hpp"
#include "SmartDashboard/SmartDashboard.h"
#include "LiveWindow/LiveWindow.h"
#include "networktables/NetworkTable.h"
constexpr double IterativeRobot::kDefaultPeriod;
/**
* Provide an alternate "main loop" via StartCompetition().
*
* This specific StartCompetition() implements "main loop" behaviour synced with
* the DS packets
*/
void IterativeRobot::StartCompetition() {
HALReport(HALUsageReporting::kResourceType_Framework,
HALUsageReporting::kFramework_Iterative);
LiveWindow *lw = LiveWindow::GetInstance();
// first and one-time initialization
SmartDashboard::init();
NetworkTable::GetTable("LiveWindow")
->GetSubTable("~STATUS~")
->PutBoolean("LW Enabled", false);
RobotInit();
// Tell the DS that the robot is ready to be enabled
HALNetworkCommunicationObserveUserProgramStarting();
// loop forever, calling the appropriate mode-dependent function
lw->SetEnabled(false);
while (true) {
// Call the appropriate function depending upon the current robot mode
if (IsDisabled()) {
// call DisabledInit() if we are now just entering disabled mode from
// either a different mode or from power-on
if (!m_disabledInitialized) {
lw->SetEnabled(false);
DisabledInit();
m_disabledInitialized = true;
// reset the initialization flags for the other modes
m_autonomousInitialized = false;
m_teleopInitialized = false;
m_testInitialized = false;
}
HALNetworkCommunicationObserveUserProgramDisabled();
DisabledPeriodic();
} else if (IsAutonomous()) {
// call AutonomousInit() if we are now just entering autonomous mode from
// either a different mode or from power-on
if (!m_autonomousInitialized) {
lw->SetEnabled(false);
AutonomousInit();
m_autonomousInitialized = true;
// reset the initialization flags for the other modes
m_disabledInitialized = false;
m_teleopInitialized = false;
m_testInitialized = false;
}
HALNetworkCommunicationObserveUserProgramAutonomous();
AutonomousPeriodic();
} else if (IsTest()) {
// call TestInit() if we are now just entering test mode from
// either a different mode or from power-on
if (!m_testInitialized) {
lw->SetEnabled(true);
TestInit();
m_testInitialized = true;
// reset the initialization flags for the other modes
m_disabledInitialized = false;
m_autonomousInitialized = false;
m_teleopInitialized = false;
}
HALNetworkCommunicationObserveUserProgramTest();
TestPeriodic();
} else {
// call TeleopInit() if we are now just entering teleop mode from
// either a different mode or from power-on
if (!m_teleopInitialized) {
lw->SetEnabled(false);
TeleopInit();
m_teleopInitialized = true;
// reset the initialization flags for the other modes
m_disabledInitialized = false;
m_autonomousInitialized = false;
m_testInitialized = false;
Scheduler::GetInstance()->SetEnabled(true);
}
HALNetworkCommunicationObserveUserProgramTeleop();
TeleopPeriodic();
}
// wait for driver station data so the loop doesn't hog the CPU
m_ds.WaitForData();
}
}
/**
* 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 IterativeRobot::RobotInit() {
printf("Default %s() method... Overload me!\n", __FUNCTION__);
}
/**
* Initialization code for disabled mode should go here.
*
* Users should override this method for initialization code which will be
* called each time
* the robot enters disabled mode.
*/
void IterativeRobot::DisabledInit() {
printf("Default %s() method... Overload me!\n", __FUNCTION__);
}
/**
* Initialization code for autonomous mode should go here.
*
* Users should override this method for initialization code which will be
* called each time
* the robot enters autonomous mode.
*/
void IterativeRobot::AutonomousInit() {
printf("Default %s() method... Overload me!\n", __FUNCTION__);
}
/**
* Initialization code for teleop mode should go here.
*
* Users should override this method for initialization code which will be
* called each time
* the robot enters teleop mode.
*/
void IterativeRobot::TeleopInit() {
printf("Default %s() method... Overload me!\n", __FUNCTION__);
}
/**
* Initialization code for test mode should go here.
*
* Users should override this method for initialization code which will be
* called each time
* the robot enters test mode.
*/
void IterativeRobot::TestInit() {
printf("Default %s() method... Overload me!\n", __FUNCTION__);
}
/**
* Periodic code for disabled mode should go here.
*
* Users should override this method for code which will be called periodically
* at a regular
* rate while the robot is in disabled mode.
*/
void IterativeRobot::DisabledPeriodic() {
static bool firstRun = true;
if (firstRun) {
printf("Default %s() method... Overload me!\n", __FUNCTION__);
firstRun = false;
}
delayTicks(1);
}
/**
* Periodic code for autonomous mode should go here.
*
* Users should override this method for code which will be called periodically
* at a regular
* rate while the robot is in autonomous mode.
*/
void IterativeRobot::AutonomousPeriodic() {
static bool firstRun = true;
if (firstRun) {
printf("Default %s() method... Overload me!\n", __FUNCTION__);
firstRun = false;
}
delayTicks(1);
}
/**
* Periodic code for teleop mode should go here.
*
* Users should override this method for code which will be called periodically
* at a regular
* rate while the robot is in teleop mode.
*/
void IterativeRobot::TeleopPeriodic() {
static bool firstRun = true;
if (firstRun) {
printf("Default %s() method... Overload me!\n", __FUNCTION__);
firstRun = false;
}
delayTicks(1);
}
/**
* Periodic code for test mode should go here.
*
* Users should override this method for code which will be called periodically
* at a regular
* rate while the robot is in test mode.
*/
void IterativeRobot::TestPeriodic() {
static bool firstRun = true;
if (firstRun) {
printf("Default %s() method... Overload me!\n", __FUNCTION__);
firstRun = false;
}
delayTicks(1);
}
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