mirror of
https://github.com/wpilibsuite/allwpilib
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d88c71ffdc
We now use a wrapper (wpi::print) to catch exceptions since we can't patch std::print() to not throw when we ultimately migrate to it. fmtlib and std format/print throw the same exceptions and always have. We previously patched fmt::print() to not throw a write failure exception, but we can't do that for std::print(); wpi::print() is the migration plan.
239 lines
6.2 KiB
C++
239 lines
6.2 KiB
C++
// Copyright (c) FIRST and other WPILib contributors.
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// Open Source Software; you can modify and/or share it under the terms of
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// the WPILib BSD license file in the root directory of this project.
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#include "frc/IterativeRobotBase.h"
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#include <frc/DriverStation.h>
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#include <hal/DriverStation.h>
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#include <hal/FRCUsageReporting.h>
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#include <networktables/NetworkTableInstance.h>
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#include <wpi/print.h>
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#include "frc/DSControlWord.h"
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#include "frc/Errors.h"
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#include "frc/livewindow/LiveWindow.h"
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#include "frc/shuffleboard/Shuffleboard.h"
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#include "frc/smartdashboard/SmartDashboard.h"
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using namespace frc;
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IterativeRobotBase::IterativeRobotBase(units::second_t period)
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: m_period(period),
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m_watchdog(period, [this] { PrintLoopOverrunMessage(); }) {}
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void IterativeRobotBase::RobotInit() {}
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void IterativeRobotBase::DriverStationConnected() {}
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void IterativeRobotBase::SimulationInit() {}
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void IterativeRobotBase::DisabledInit() {}
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void IterativeRobotBase::AutonomousInit() {}
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void IterativeRobotBase::TeleopInit() {}
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void IterativeRobotBase::TestInit() {}
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void IterativeRobotBase::RobotPeriodic() {
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static bool firstRun = true;
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if (firstRun) {
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wpi::print("Default {}() method... Override me!\n", __FUNCTION__);
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firstRun = false;
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}
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}
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void IterativeRobotBase::SimulationPeriodic() {
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static bool firstRun = true;
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if (firstRun) {
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wpi::print("Default {}() method... Override me!\n", __FUNCTION__);
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firstRun = false;
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}
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}
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void IterativeRobotBase::DisabledPeriodic() {
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static bool firstRun = true;
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if (firstRun) {
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wpi::print("Default {}() method... Override me!\n", __FUNCTION__);
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firstRun = false;
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}
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}
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void IterativeRobotBase::AutonomousPeriodic() {
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static bool firstRun = true;
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if (firstRun) {
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wpi::print("Default {}() method... Override me!\n", __FUNCTION__);
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firstRun = false;
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}
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}
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void IterativeRobotBase::TeleopPeriodic() {
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static bool firstRun = true;
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if (firstRun) {
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wpi::print("Default {}() method... Override me!\n", __FUNCTION__);
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firstRun = false;
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}
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}
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void IterativeRobotBase::TestPeriodic() {
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static bool firstRun = true;
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if (firstRun) {
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wpi::print("Default {}() method... Override me!\n", __FUNCTION__);
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firstRun = false;
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}
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}
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void IterativeRobotBase::DisabledExit() {}
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void IterativeRobotBase::AutonomousExit() {}
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void IterativeRobotBase::TeleopExit() {}
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void IterativeRobotBase::TestExit() {}
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void IterativeRobotBase::SetNetworkTablesFlushEnabled(bool enabled) {
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m_ntFlushEnabled = enabled;
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}
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void IterativeRobotBase::EnableLiveWindowInTest(bool testLW) {
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static bool hasReported;
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if (IsTestEnabled()) {
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throw FRC_MakeError(err::IncompatibleMode,
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"Can't configure test mode while in test mode!");
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}
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if (!hasReported && testLW) {
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HAL_Report(HALUsageReporting::kResourceType_SmartDashboard,
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HALUsageReporting::kSmartDashboard_LiveWindow);
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hasReported = true;
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}
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m_lwEnabledInTest = testLW;
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}
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bool IterativeRobotBase::IsLiveWindowEnabledInTest() {
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return m_lwEnabledInTest;
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}
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units::second_t IterativeRobotBase::GetPeriod() const {
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return m_period;
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}
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void IterativeRobotBase::LoopFunc() {
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DriverStation::RefreshData();
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m_watchdog.Reset();
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// Get current mode
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DSControlWord word;
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Mode mode = Mode::kNone;
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if (word.IsDisabled()) {
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mode = Mode::kDisabled;
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} else if (word.IsAutonomous()) {
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mode = Mode::kAutonomous;
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} else if (word.IsTeleop()) {
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mode = Mode::kTeleop;
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} else if (word.IsTest()) {
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mode = Mode::kTest;
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}
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if (!m_calledDsConnected && word.IsDSAttached()) {
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m_calledDsConnected = true;
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DriverStationConnected();
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}
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// If mode changed, call mode exit and entry functions
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if (m_lastMode != mode) {
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// Call last mode's exit function
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if (m_lastMode == Mode::kDisabled) {
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DisabledExit();
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} else if (m_lastMode == Mode::kAutonomous) {
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AutonomousExit();
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} else if (m_lastMode == Mode::kTeleop) {
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TeleopExit();
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} else if (m_lastMode == Mode::kTest) {
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if (m_lwEnabledInTest) {
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LiveWindow::SetEnabled(false);
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Shuffleboard::DisableActuatorWidgets();
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}
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TestExit();
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}
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// Call current mode's entry function
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if (mode == Mode::kDisabled) {
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DisabledInit();
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m_watchdog.AddEpoch("DisabledInit()");
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} else if (mode == Mode::kAutonomous) {
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AutonomousInit();
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m_watchdog.AddEpoch("AutonomousInit()");
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} else if (mode == Mode::kTeleop) {
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TeleopInit();
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m_watchdog.AddEpoch("TeleopInit()");
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} else if (mode == Mode::kTest) {
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if (m_lwEnabledInTest) {
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LiveWindow::SetEnabled(true);
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Shuffleboard::EnableActuatorWidgets();
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}
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TestInit();
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m_watchdog.AddEpoch("TestInit()");
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}
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m_lastMode = mode;
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}
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// Call the appropriate function depending upon the current robot mode
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if (mode == Mode::kDisabled) {
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HAL_ObserveUserProgramDisabled();
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DisabledPeriodic();
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m_watchdog.AddEpoch("DisabledPeriodic()");
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} else if (mode == Mode::kAutonomous) {
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HAL_ObserveUserProgramAutonomous();
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AutonomousPeriodic();
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m_watchdog.AddEpoch("AutonomousPeriodic()");
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} else if (mode == Mode::kTeleop) {
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HAL_ObserveUserProgramTeleop();
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TeleopPeriodic();
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m_watchdog.AddEpoch("TeleopPeriodic()");
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} else if (mode == Mode::kTest) {
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HAL_ObserveUserProgramTest();
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TestPeriodic();
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m_watchdog.AddEpoch("TestPeriodic()");
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}
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RobotPeriodic();
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m_watchdog.AddEpoch("RobotPeriodic()");
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SmartDashboard::UpdateValues();
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m_watchdog.AddEpoch("SmartDashboard::UpdateValues()");
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LiveWindow::UpdateValues();
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m_watchdog.AddEpoch("LiveWindow::UpdateValues()");
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Shuffleboard::Update();
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m_watchdog.AddEpoch("Shuffleboard::Update()");
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if constexpr (IsSimulation()) {
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HAL_SimPeriodicBefore();
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SimulationPeriodic();
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HAL_SimPeriodicAfter();
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m_watchdog.AddEpoch("SimulationPeriodic()");
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}
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m_watchdog.Disable();
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// Flush NetworkTables
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if (m_ntFlushEnabled) {
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nt::NetworkTableInstance::GetDefault().FlushLocal();
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}
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// Warn on loop time overruns
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if (m_watchdog.IsExpired()) {
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m_watchdog.PrintEpochs();
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}
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}
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void IterativeRobotBase::PrintLoopOverrunMessage() {
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FRC_ReportError(err::Error, "Loop time of {:.6f}s overrun", m_period.value());
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}
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void IterativeRobotBase::PrintWatchdogEpochs() {
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m_watchdog.PrintEpochs();
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}
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