// Copyright (c) FIRST and other WPILib contributors. // Open Source Software; you can modify and/or share it under the terms of // the WPILib BSD license file in the root directory of this project. #pragma once #include #include #include namespace wpi::log { class DataLog; } // namespace wpi::log namespace frc { /** * Provide access to the network communication data to / from the Driver * Station. */ class DriverStation { public: enum Alliance { kRed, kBlue, kInvalid }; enum MatchType { kNone, kPractice, kQualification, kElimination }; /** * Return a reference to the singleton DriverStation. * * @return Reference to the DS instance * @deprecated Use the static methods */ WPI_DEPRECATED("Use static methods") static DriverStation& GetInstance(); static constexpr int kJoystickPorts = 6; /** * The state of one joystick button. %Button indexes begin at 1. * * @param stick The joystick to read. * @param button The button index, beginning at 1. * @return The state of the joystick button. */ static bool GetStickButton(int stick, int button); /** * Whether one joystick button was pressed since the last check. %Button * indexes begin at 1. * * @param stick The joystick to read. * @param button The button index, beginning at 1. * @return Whether the joystick button was pressed since the last check. */ static bool GetStickButtonPressed(int stick, int button); /** * Whether one joystick button was released since the last check. %Button * indexes begin at 1. * * @param stick The joystick to read. * @param button The button index, beginning at 1. * @return Whether the joystick button was released since the last check. */ static bool GetStickButtonReleased(int stick, int button); /** * Get the value of the axis on a joystick. * * This depends on the mapping of the joystick connected to the specified * port. * * @param stick The joystick to read. * @param axis The analog axis value to read from the joystick. * @return The value of the axis on the joystick. */ static double GetStickAxis(int stick, int axis); /** * Get the state of a POV on the joystick. * * @return the angle of the POV in degrees, or -1 if the POV is not pressed. */ static int GetStickPOV(int stick, int pov); /** * The state of the buttons on the joystick. * * @param stick The joystick to read. * @return The state of the buttons on the joystick. */ static int GetStickButtons(int stick); /** * Returns the number of axes on a given joystick port. * * @param stick The joystick port number * @return The number of axes on the indicated joystick */ static int GetStickAxisCount(int stick); /** * Returns the number of POVs on a given joystick port. * * @param stick The joystick port number * @return The number of POVs on the indicated joystick */ static int GetStickPOVCount(int stick); /** * Returns the number of buttons on a given joystick port. * * @param stick The joystick port number * @return The number of buttons on the indicated joystick */ static int GetStickButtonCount(int stick); /** * Returns a boolean indicating if the controller is an xbox controller. * * @param stick The joystick port number * @return A boolean that is true if the controller is an xbox controller. */ static bool GetJoystickIsXbox(int stick); /** * Returns the type of joystick at a given port. * * @param stick The joystick port number * @return The HID type of joystick at the given port */ static int GetJoystickType(int stick); /** * Returns the name of the joystick at the given port. * * @param stick The joystick port number * @return The name of the joystick at the given port */ static std::string GetJoystickName(int stick); /** * Returns the types of Axes on a given joystick port. * * @param stick The joystick port number and the target axis * @param axis The analog axis value to read from the joystick. * @return What type of axis the axis is reporting to be */ static int GetJoystickAxisType(int stick, int axis); /** * Returns if a joystick is connected to the Driver Station. * * This makes a best effort guess by looking at the reported number of axis, * buttons, and POVs attached. * * @param stick The joystick port number * @return true if a joystick is connected */ static bool IsJoystickConnected(int stick); /** * Check if the DS has enabled the robot. * * @return True if the robot is enabled and the DS is connected */ static bool IsEnabled(); /** * Check if the robot is disabled. * * @return True if the robot is explicitly disabled or the DS is not connected */ static bool IsDisabled(); /** * Check if the robot is e-stopped. * * @return True if the robot is e-stopped */ static bool IsEStopped(); /** * Check if the DS is commanding autonomous mode. * * @return True if the robot is being commanded to be in autonomous mode */ static bool IsAutonomous(); /** * Check if the DS is commanding autonomous mode and if it has enabled the * robot. * * @return True if the robot is being commanded to be in autonomous mode and * enabled. */ static bool IsAutonomousEnabled(); /** * Check if the DS is commanding teleop mode. * * @return True if the robot is being commanded to be in teleop mode * @deprecated Use IsTeleop() instead. */ WPI_DEPRECATED("Use IsTeleop() instead") static bool IsOperatorControl(); /** * Check if the DS is commanding teleop mode. * * @return True if the robot is being commanded to be in teleop mode */ static bool IsTeleop(); /** * Check if the DS is commanding teleop mode and if it has enabled the robot. * * @return True if the robot is being commanded to be in teleop mode and * enabled. * @deprecated Use IsTeleopEnabled() instead. */ WPI_DEPRECATED("Use IsTeleopEnabled() instead") static bool IsOperatorControlEnabled(); /** * Check if the DS is commanding teleop mode and if it has enabled the robot. * * @return True if the robot is being commanded to be in teleop mode and * enabled. */ static bool IsTeleopEnabled(); /** * Check if the DS is commanding test mode. * * @return True if the robot is being commanded to be in test mode */ static bool IsTest(); /** * Check if the DS is attached. * * @return True if the DS is connected to the robot */ static bool IsDSAttached(); /** * Has a new control packet from the driver station arrived since the last * time this function was called? * * Warning: If you call this function from more than one place at the same * time, you will not get the intended behavior. * * @return True if the control data has been updated since the last call. */ static bool IsNewControlData(); /** * Is the driver station attached to a Field Management System? * * @return True if the robot is competing on a field being controlled by a * Field Management System */ static bool IsFMSAttached(); /** * Returns the game specific message provided by the FMS. * * @return A string containing the game specific message. */ static std::string GetGameSpecificMessage(); /** * Returns the name of the competition event provided by the FMS. * * @return A string containing the event name */ static std::string GetEventName(); /** * Returns the type of match being played provided by the FMS. * * @return The match type enum (kNone, kPractice, kQualification, * kElimination) */ static MatchType GetMatchType(); /** * Returns the match number provided by the FMS. * * @return The number of the match */ static int GetMatchNumber(); /** * Returns the number of times the current match has been replayed from the * FMS. * * @return The number of replays */ static int GetReplayNumber(); /** * Return the alliance that the driver station says it is on. * * This could return kRed or kBlue. * * @return The Alliance enum (kRed, kBlue or kInvalid) */ static Alliance GetAlliance(); /** * Return the driver station location on the field. * * This could return 1, 2, or 3. * * @return The location of the driver station (1-3, 0 for invalid) */ static int GetLocation(); /** * Wait until a new packet comes from the driver station. * * This blocks on a semaphore, so the waiting is efficient. * * This is a good way to delay processing until there is new driver station * data to act on. * * Checks if new control data has arrived since the last waitForData call * on the current thread. If new data has not arrived, returns immediately. */ static void WaitForData(); /** * Wait until a new packet comes from the driver station, or wait for a * timeout. * * Checks if new control data has arrived since the last waitForData call * on the current thread. If new data has not arrived, returns immediately. * * If the timeout is less then or equal to 0, wait indefinitely. * * Timeout is in milliseconds * * This blocks on a semaphore, so the waiting is efficient. * * This is a good way to delay processing until there is new driver station * data to act on. * * @param timeout Timeout * * @return true if new data, otherwise false */ static bool WaitForData(units::second_t timeout); /** * Return the approximate match time. * * The FMS does not send an official match time to the robots, but does send * an approximate match time. The value will count down the time remaining in * the current period (auto or teleop). * * Warning: This is not an official time (so it cannot be used to dispute ref * calls or guarantee that a function will trigger before the match ends). * * The Practice Match function of the DS approximates the behavior seen on * the field. * * @return Time remaining in current match period (auto or teleop) */ static double GetMatchTime(); /** * Read the battery voltage. * * @return The battery voltage in Volts. */ static double GetBatteryVoltage(); /** * Only to be used to tell the Driver Station what code you claim to be * executing for diagnostic purposes only. * * @param entering If true, starting disabled code; if false, leaving disabled * code. */ static void InDisabled(bool entering); /** * Only to be used to tell the Driver Station what code you claim to be * executing for diagnostic purposes only. * * @param entering If true, starting autonomous code; if false, leaving * autonomous code. */ static void InAutonomous(bool entering); /** * Only to be used to tell the Driver Station what code you claim to be * executing for diagnostic purposes only. * * @param entering If true, starting teleop code; if false, leaving teleop * code. * @deprecated Use InTeleop() instead. */ WPI_DEPRECATED("Use InTeleop() instead") static void InOperatorControl(bool entering); /** * Only to be used to tell the Driver Station what code you claim to be * executing for diagnostic purposes only. * * @param entering If true, starting teleop code; if false, leaving teleop * code. */ static void InTeleop(bool entering); /** * Only to be used to tell the Driver Station what code you claim to be * executing for diagnostic purposes only. * * @param entering If true, starting test code; if false, leaving test code. */ static void InTest(bool entering); /** * Forces WaitForData() to return immediately. */ static void WakeupWaitForData(); /** * Allows the user to specify whether they want joystick connection warnings * to be printed to the console. This setting is ignored when the FMS is * connected -- warnings will always be on in that scenario. * * @param silence Whether warning messages should be silenced. */ static void SilenceJoystickConnectionWarning(bool silence); /** * Returns whether joystick connection warnings are silenced. This will * always return false when connected to the FMS. * * @return Whether joystick connection warnings are silenced. */ static bool IsJoystickConnectionWarningSilenced(); /** * Starts logging DriverStation data to data log. Repeated calls are ignored. * * @param log data log * @param logJoysticks if true, log joystick data */ static void StartDataLog(wpi::log::DataLog& log, bool logJoysticks = true); private: DriverStation() = default; }; } // namespace frc