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https://github.com/wpilibsuite/allwpilib
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Reverted to old driverstation and joystick code because we're not ready for windows drive station yet updated paths to reflect new wpilib organization fixed name of gazebo topic (if you want /gazebo/frc/time use ~/time) included network tables in wpilibJavaSim Added ds script, and improved frcsim script always start gazebo with verbose Change-Id: I3c54b7000019a5985079a88200896a8069e69b86
371 lines
11 KiB
C++
371 lines
11 KiB
C++
/*----------------------------------------------------------------------------*/
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/* Copyright (c) FIRST 2008. All Rights Reserved. */
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/* Open Source Software - may be modified and shared by FRC teams. The code */
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/* must be accompanied by the FIRST BSD license file in $(WIND_BASE)/WPILib. */
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/*----------------------------------------------------------------------------*/
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#include "DriverStation.h"
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#include "Timer.h"
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#include "simulation/MainNode.h"
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//#include "MotorSafetyHelper.h"
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#include "Utility.h"
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#include "WPIErrors.h"
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#include <string.h>
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#include "Log.hpp"
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#include "boost/mem_fn.hpp"
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// set the logging level
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TLogLevel dsLogLevel = logDEBUG;
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#define DS_LOG(level) \
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if (level > dsLogLevel) ; \
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else Log().Get(level)
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const uint32_t DriverStation::kBatteryChannel;
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const uint32_t DriverStation::kJoystickPorts;
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const uint32_t DriverStation::kJoystickAxes;
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const float DriverStation::kUpdatePeriod = 0.02;
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uint8_t DriverStation::m_updateNumber = 0;
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/**
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* DriverStation contructor.
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*
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* This is only called once the first time GetInstance() is called
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*/
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DriverStation::DriverStation() {
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state = msgs::DriverStationPtr(new msgs::DriverStation());
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stateSub = MainNode::Subscribe("~/ds/state",
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&DriverStation::stateCallback, this);
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// TODO: for loop + boost bind
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joysticks[0] = msgs::FRCJoystickPtr(new msgs::FRCJoystick());
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joysticksSub[0] = MainNode::Subscribe("~/ds/joysticks/0",
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&DriverStation::joystickCallback0, this);
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joysticks[1] = msgs::FRCJoystickPtr(new msgs::FRCJoystick());
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joysticksSub[1] = MainNode::Subscribe("~/ds/joysticks/1",
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&DriverStation::joystickCallback1, this);
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joysticks[2] = msgs::FRCJoystickPtr(new msgs::FRCJoystick());
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joysticksSub[2] = MainNode::Subscribe("~/ds/joysticks/2",
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&DriverStation::joystickCallback2, this);
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joysticks[3] = msgs::FRCJoystickPtr(new msgs::FRCJoystick());
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joysticksSub[3] = MainNode::Subscribe("~/ds/joysticks/5",
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&DriverStation::joystickCallback3, this);
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joysticks[4] = msgs::FRCJoystickPtr(new msgs::FRCJoystick());
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joysticksSub[4] = MainNode::Subscribe("~/ds/joysticks/4",
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&DriverStation::joystickCallback4, this);
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joysticks[5] = msgs::FRCJoystickPtr(new msgs::FRCJoystick());
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joysticksSub[5] = MainNode::Subscribe("~/ds/joysticks/5",
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&DriverStation::joystickCallback5, this);
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AddToSingletonList();
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}
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/**
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* Return a pointer to the singleton DriverStation.
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*/
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DriverStation& DriverStation::GetInstance()
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{
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static DriverStation instance;
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return instance;
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}
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/**
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* Read the battery voltage. Hardcoded to 12 volts for Simulation.
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*
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* @return The battery voltage.
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*/
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float DriverStation::GetBatteryVoltage() const
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{
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return 12.0; // 12 volts all the time!
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}
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/**
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* Get the value of the axis on a joystick.
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* This depends on the mapping of the joystick connected to the specified port.
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*
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* @param stick The joystick to read.
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* @param axis The analog axis value to read from the joystick.
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* @return The value of the axis on the joystick.
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*/
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float DriverStation::GetStickAxis(uint32_t stick, uint32_t axis)
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{
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if (axis < 0 || axis > (kJoystickAxes - 1))
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{
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wpi_setWPIError(BadJoystickAxis);
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return 0.0;
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}
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if (stick < 0 || stick > 5)
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{
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wpi_setWPIError(BadJoystickIndex);
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return 0.0;
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}
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std::unique_lock<std::recursive_mutex> lock(m_joystickMutex);
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if (joysticks[stick] == nullptr || axis >= joysticks[stick]->axes().size())
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{
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return 0.0;
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}
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return joysticks[stick]->axes(axis);
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}
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/**
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* The state of a specific button (1 - 12) on the joystick.
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* This method only works in simulation, but is more efficient than GetStickButtons.
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*
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* @param stick The joystick to read.
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* @param button The button number to check.
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* @return If the button is pressed.
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*/
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bool DriverStation::GetStickButton(uint32_t stick, uint32_t button)
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{
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if (stick < 0 || stick >= 6)
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{
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wpi_setWPIErrorWithContext(ParameterOutOfRange, "stick must be between 0 and 5");
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return false;
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}
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std::unique_lock<std::recursive_mutex> lock(m_joystickMutex);
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if (joysticks[stick] == nullptr || button >= joysticks[stick]->buttons().size())
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{
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return false;
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}
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return joysticks[stick]->buttons(button-1);
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}
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/**
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* The state of the buttons on the joystick.
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* 12 buttons (4 msb are unused) from the joystick.
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*
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* @param stick The joystick to read.
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* @return The state of the buttons on the joystick.
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*/
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short DriverStation::GetStickButtons(uint32_t stick)
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{
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if (stick < 0 || stick >= 6)
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{
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wpi_setWPIErrorWithContext(ParameterOutOfRange, "stick must be between 0 and 5");
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return false;
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}
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short btns = 0, btnid;
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std::unique_lock<std::recursive_mutex> lock(m_joystickMutex);
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msgs::FRCJoystickPtr joy = joysticks[stick];
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for (btnid = 0; btnid < joy->buttons().size() && btnid < 12; btnid++)
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{
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if (joysticks[stick]->buttons(btnid))
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{
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btns |= (1 << btnid);
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}
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}
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return btns;
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}
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// 5V divided by 10 bits
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#define kDSAnalogInScaling ((float)(5.0 / 1023.0))
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/**
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* Get an analog voltage from the Driver Station.
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* The analog values are returned as voltage values for the Driver Station analog inputs.
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* These inputs are typically used for advanced operator interfaces consisting of potentiometers
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* or resistor networks representing values on a rotary switch.
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*
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* @param channel The analog input channel on the driver station to read from. Valid range is 1 - 4.
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* @return The analog voltage on the input.
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*/
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float DriverStation::GetAnalogIn(uint32_t channel)
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{
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wpi_setWPIErrorWithContext(UnsupportedInSimulation, "GetAnalogIn");
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return 0.0;
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}
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/**
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* Get values from the digital inputs on the Driver Station.
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* Return digital values from the Drivers Station. These values are typically used for buttons
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* and switches on advanced operator interfaces.
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* @param channel The digital input to get. Valid range is 1 - 8.
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*/
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bool DriverStation::GetDigitalIn(uint32_t channel)
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{
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wpi_setWPIErrorWithContext(UnsupportedInSimulation, "GetDigitalIn");
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return false;
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}
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/**
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* Set a value for the digital outputs on the Driver Station.
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*
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* Control digital outputs on the Drivers Station. These values are typically used for
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* giving feedback on a custom operator station such as LEDs.
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*
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* @param channel The digital output to set. Valid range is 1 - 8.
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* @param value The state to set the digital output.
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*/
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void DriverStation::SetDigitalOut(uint32_t channel, bool value)
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{
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wpi_setWPIErrorWithContext(UnsupportedInSimulation, "SetDigitalOut");
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}
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/**
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* Get a value that was set for the digital outputs on the Driver Station.
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* @param channel The digital ouput to monitor. Valid range is 1 through 8.
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* @return A digital value being output on the Drivers Station.
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*/
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bool DriverStation::GetDigitalOut(uint32_t channel)
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{
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wpi_setWPIErrorWithContext(UnsupportedInSimulation, "GetDigitalOut");
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return false;
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}
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bool DriverStation::IsEnabled() const
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{
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std::unique_lock<std::recursive_mutex> lock(m_stateMutex);
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return state != nullptr ? state->enabled() : false;
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}
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bool DriverStation::IsDisabled() const
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{
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return !IsEnabled();
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}
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bool DriverStation::IsAutonomous() const
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{
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std::unique_lock<std::recursive_mutex> lock(m_stateMutex);
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return state != nullptr ?
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state->state() == msgs::DriverStation_State_AUTO : false;
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}
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bool DriverStation::IsOperatorControl() const
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{
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return !(IsAutonomous() || IsTest());
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}
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bool DriverStation::IsTest() const
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{
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std::unique_lock<std::recursive_mutex> lock(m_stateMutex);
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return state != nullptr ?
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state->state() == msgs::DriverStation_State_TEST : false;
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}
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/**
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* Is the driver station attached to a Field Management System?
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* Note: This does not work with the Blue DS.
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* @return True if the robot is competing on a field being controlled by a Field Management System
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*/
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bool DriverStation::IsFMSAttached() const
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{
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return false; // No FMS in simulation
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}
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/**
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* Return the alliance that the driver station says it is on.
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* This could return kRed or kBlue
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* @return The Alliance enum
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*/
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DriverStation::Alliance DriverStation::GetAlliance() const
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{
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// if (m_controlData->dsID_Alliance == 'R') return kRed;
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// if (m_controlData->dsID_Alliance == 'B') return kBlue;
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// wpi_assert(false);
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return kInvalid; // TODO: Support alliance colors
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}
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/**
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* Return the driver station location on the field
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* This could return 1, 2, or 3
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* @return The location of the driver station
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*/
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uint32_t DriverStation::GetLocation() const
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{
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return -1; // TODO: Support locations
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}
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/**
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* Wait until a new packet comes from the driver station
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* This blocks on a semaphore, so the waiting is efficient.
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* This is a good way to delay processing until there is new driver station data to act on
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*/
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void DriverStation::WaitForData()
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{
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std::unique_lock<std::mutex> lock(m_waitForDataMutex);
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m_waitForDataCond.wait(lock);
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}
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/**
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* Return the approximate match time
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* The FMS does not currently send the official match time to the robots
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* This returns the time since the enable signal sent from the Driver Station
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* At the beginning of autonomous, the time is reset to 0.0 seconds
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* At the beginning of teleop, the time is reset to +15.0 seconds
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* If the robot is disabled, this returns 0.0 seconds
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* Warning: This is not an official time (so it cannot be used to argue with referees)
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* @return Match time in seconds since the beginning of autonomous
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*/
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double DriverStation::GetMatchTime() const
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{
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if (m_approxMatchTimeOffset < 0.0)
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return 0.0;
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return Timer::GetFPGATimestamp() - m_approxMatchTimeOffset;
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}
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/**
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* Report an error to the DriverStation messages window.
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* The error is also printed to the program console.
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*/
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void DriverStation::ReportError(std::string error)
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{
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std::cout << error << std::endl;
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}
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/**
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* Return the team number that the Driver Station is configured for
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* @return The team number
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*/
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uint16_t DriverStation::GetTeamNumber() const
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{
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return 348;
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}
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void DriverStation::stateCallback(const msgs::ConstDriverStationPtr &msg)
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{
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{
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std::unique_lock<std::recursive_mutex> lock(m_stateMutex);
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*state = *msg;
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}
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m_waitForDataCond.notify_all();
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}
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void DriverStation::joystickCallback(const msgs::ConstFRCJoystickPtr &msg,
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int i)
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{
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std::unique_lock<std::recursive_mutex> lock(m_joystickMutex);
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*(joysticks[i]) = *msg;
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}
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void DriverStation::joystickCallback0(const msgs::ConstFRCJoystickPtr &msg)
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{
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joystickCallback(msg, 0);
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}
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void DriverStation::joystickCallback1(const msgs::ConstFRCJoystickPtr &msg)
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{
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joystickCallback(msg, 1);
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}
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void DriverStation::joystickCallback2(const msgs::ConstFRCJoystickPtr &msg)
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{
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joystickCallback(msg, 2);
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}
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void DriverStation::joystickCallback3(const msgs::ConstFRCJoystickPtr &msg)
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{
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joystickCallback(msg, 3);
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}
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void DriverStation::joystickCallback4(const msgs::ConstFRCJoystickPtr &msg)
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{
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joystickCallback(msg, 4);
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}
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void DriverStation::joystickCallback5(const msgs::ConstFRCJoystickPtr &msg)
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{
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joystickCallback(msg, 5);
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}
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