/*----------------------------------------------------------------------------*/ /* Copyright (c) 2008-2018 FIRST. 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 "RobotBase.h" #include #include #include #include "DriverStation.h" #include "HLUsageReporting.h" #include "Internal/HardwareHLReporting.h" #include "LiveWindow/LiveWindow.h" #include "RobotState.h" #include "SmartDashboard/SmartDashboard.h" #include "Utility.h" #include "WPILibVersion.h" using namespace frc; std::thread::id RobotBase::m_threadId; /** * Constructor for a generic robot program. * * User code should be placed in the constructor that runs before the Autonomous * or Operator Control period starts. The constructor will run to completion * before Autonomous is entered. * * This must be used to ensure that the communications code starts. In the * future it would be nice to put this code into it's own task that loads on * boot so ensure that it runs. */ RobotBase::RobotBase() : m_ds(DriverStation::GetInstance()) { m_threadId = std::this_thread::get_id(); RobotState::SetImplementation(DriverStation::GetInstance()); HLUsageReporting::SetImplementation(new HardwareHLReporting()); auto inst = nt::NetworkTableInstance::GetDefault(); inst.SetNetworkIdentity("Robot"); inst.StartServer("/home/lvuser/networktables.ini"); SmartDashboard::init(); std::FILE* file = nullptr; file = std::fopen("/tmp/frc_versions/FRC_Lib_Version.ini", "w"); if (file != nullptr) { std::fputs("C++ ", file); std::fputs(GetWPILibVersion(), file); std::fclose(file); } // First and one-time initialization inst.GetTable("LiveWindow") ->GetSubTable(".status") ->GetEntry("LW Enabled") .SetBoolean(false); LiveWindow::GetInstance()->SetEnabled(false); } /** * Determine if the Robot is currently enabled. * * @return True if the Robot is currently enabled by the field controls. */ bool RobotBase::IsEnabled() const { return m_ds.IsEnabled(); } /** * Determine if the Robot is currently disabled. * * @return True if the Robot is currently disabled by the field controls. */ bool RobotBase::IsDisabled() const { return m_ds.IsDisabled(); } /** * Determine if the robot is currently in Autonomous mode. * * @return True if the robot is currently operating Autonomously as determined * by the field controls. */ bool RobotBase::IsAutonomous() const { return m_ds.IsAutonomous(); } /** * Determine if the robot is currently in Operator Control mode. * * @return True if the robot is currently operating in Tele-Op mode as * determined by the field controls. */ bool RobotBase::IsOperatorControl() const { return m_ds.IsOperatorControl(); } /** * Determine if the robot is currently in Test mode. * * @return True if the robot is currently running tests as determined by the * field controls. */ bool RobotBase::IsTest() const { return m_ds.IsTest(); } /** * Indicates if new data is available from the driver station. * * @return Has new data arrived over the network since the last time this * function was called? */ bool RobotBase::IsNewDataAvailable() const { return m_ds.IsNewControlData(); } /** * Gets the ID of the main robot thread. */ std::thread::id RobotBase::GetThreadId() { return m_threadId; }