void DriveControl() { //Drives la wheels of the robot flightX = flightStick->GetRawAxis(0); //Pull joystick side motion for later use flightY = flightStick->GetRawAxis(1); //Pull joystick forward motion for later use (forward is -, backwards is +) flightZ = flightStick->GetRawAxis(4); //Pull joystick twist motion for later use flightThrottle = ((((shootStick->GetThrottle() - 1)*-1)/2) * .8 + .2); //Pull throttle to modify drive variables //Throttle value is between .2 and 1.0 if (fabs(flightX) < deadZone) { //Deaden x flightX = 0; } if (fabs(flightY) < deadZone) { //Deaden y flightY = 0; } if (fabs(flightZ) < deadZone) { //Deaden z flightZ = 0; } if (flightStick->GetRawButton(strafeButtonChannel)){ //Set drive to strafe mode driveMode = 0; } if (flightStick->GetRawButton(arcadeButtonChannel)){ //Set drive to arcade mode driveMode = 1; } if (flightStick->GetRawButton(fieldButtonChannel)){ //Set drive to field-centric mode driveMode = 2; } if (shootStick->GetRawButton(gyroResetChannel)){ //Reset gyro with the trigger yawGyro->Reset(); } flightX = flightX * flightThrottle; flightY = flightY * flightThrottle; flightZ = flightZ * flightThrottle; if(driveMode == 1){ robotDrive->MecanumDrive_Cartesian(flightZ, flightY, flightX, 0); SmartDashboard::PutString("DriveMode", "Arcade"); } else if(driveMode == 2){ robotDrive->MecanumDrive_Cartesian(flightX, flightY, flightZ, yawGyro->GetAngle()); SmartDashboard::PutString("DriveMode", "Field"); } else{ robotDrive->MecanumDrive_Cartesian(flightX, flightY, flightZ, 0); SmartDashboard::PutString("DriveMode", "Strafe"); } SmartDashboard::PutNumber("GyroAngle", yawGyro->GetAngle()); }
/****************************************************************************** * Function: DisabledPeriodic * * Description: Run the functions that are expected during the period when the * robot is disabled. ******************************************************************************/ void DisabledPeriodic() { Scheduler::GetInstance()->Run(); Light1.Set(1); Light2.Set(1); while(IsDisabled()) { UpdateActuatorCmnds(0,0,false,false,false,false,false,false,false,0,0,0,0,0); ReadAutonSwitch(); UpdateSmartDashboad(Sw1.Get(), Sw2.Get(), Sw3.Get(), Sw4.Get(), BlSw.Get(), (double)AutonState, (double)0, ballarm.GetDistance(), gyroOne.GetAngle(), accel.GetX(), accel.GetY(), accel.GetZ(), (double)0, (double)0); wait(kUpdatePeriod); } }
/****************************************************************************** * Function: TeleopPeriodic * * Description: This is the function that is called during the periodic period * for teleop. ******************************************************************************/ void TeleopPeriodic() { float DrvRY, DrvLY; float BallRollerSpd; float FishTapeSpd; float WenchSpd; float LgtY, LgtZ; double LgtPOV; int LgtP1; bool LgtT0; bool LgtB1,LgtB3,LgtB4,LgtB5,LgtB6,LgtB7,LgtB8,LgtB9,LgtB11,LgtB10,LgtB12; bool XbxB4, XbxB5, XbxB2, XbxB1; bool BallSw; int XbxPOV; double ArmP; double ArmError; double desiredPos; double LoArmCurve; while (IsOperatorControl() && IsEnabled()) { /* Read sensor values here: */ ArmP = ballarm.GetDistance(); BallSw = BlSw.Get(); /* Read Xbox controller commands here: */ DrvLY = -xboxDrive.GetRawAxis(1); DrvRY = -xboxDrive.GetRawAxis(5); XbxB1 = xboxDrive.GetRawButton(1); XbxB2 = xboxDrive.GetRawButton(2); XbxB4 = xboxDrive.GetRawButton(4); XbxB5 = xboxDrive.GetRawButton(5); XbxPOV = xboxDrive.GetPOV(0); /* Read Logictec joystick commands here: */ LgtY = Logitech.GetRawAxis(1); LgtZ = Logitech.GetRawAxis(2); LgtP1 = Logitech.GetPOV(0); LgtT0 = Logitech.GetRawButton(1); LgtB1 = Logitech.GetRawButton(2); LgtB3 = Logitech.GetRawButton(3); LgtB4 = Logitech.GetRawButton(4); LgtB5 = Logitech.GetRawButton(5); LgtB6 = Logitech.GetRawButton(6); LgtB7 = Logitech.GetRawButton(7); LgtB8 = Logitech.GetRawButton(8); LgtB9 = Logitech.GetRawButton(9); LgtB10 = Logitech.GetRawButton(10); LgtB11 = Logitech.GetRawButton(11); LgtB12 = Logitech.GetRawButton(12); LgtPOV = (double)LgtP1; // DriverStation:: //double GetMatchTime(); // SmartDashboard::PutNumber("MatchTime", GetMatchTime()); if(LgtB12 && LgtB10) { ballarm.Reset(); } /* Set the desired position of the ball arm. */ if (LgtB7) { /* This is the middle position of the arm: */ desiredPos = 120; } else if (LgtB8) { /* This is the upper position of the arm: */ desiredPos = 210; } else if((LgtB3) || (LgtB5) ||(LgtB6) || (LgtB9) || (LgtB11)) { /* Default */ desiredPos = 0; } /* Set the ball roller state: */ if (LgtT0 == true && BallSw == true) { BallRollerSpd = 1; } else if (LgtB1 == true) { BallRollerSpd = -1; } else { BallRollerSpd = 0.0; } /* Set the output to the fish tape: */ if (LgtP1 == 180) { FishTapeSpd = -1.0; } else if(LgtP1 == 0) { FishTapeSpd = 1.0; } else { FishTapeSpd = 0.0; } /* Set the output to the lower arm: */ LoArmCurve = LgtY*LowArmGx; // SmartDashboard:: /* Determine the wench state */ if (LgtB4 == true) { WenchSpd = 1; } else if (XbxB4) { WenchSpd = -.5; } else { WenchSpd = 0.0; } /* if(GetMatchTime() < 30) { Light1.Set(0); Light2.Set(0); }*/ /* Output data to the smart dashboard: */ ReadAutonSwitch(); UpdateSmartDashboad(Sw1.Get(), Sw2.Get(), Sw3.Get(), Sw4.Get(), BlSw.Get(), AutonState, 0, ballarm.GetDistance(), gyroOne.GetAngle(), accel.GetX(), accel.GetY(), accel.GetZ(), (double)DrvLY, (double)DrvRY); UpdateActuatorCmnds(BallRollerSpd, desiredPos, LgtB3, LgtB5, LgtB6, LgtB7, LgtB8, LgtB9, LgtB11, DrvLY, DrvRY, FishTapeSpd, LoArmCurve, WenchSpd); /* Force the program to wait a period of time in order to conserve power: */ Wait(kUpdatePeriod); // Wait 5ms for the next update. Scheduler::GetInstance()->Run(); } }
/****************************************************************************** * Function: AutonomousPeriodic * * Description: This is the function that is called during the autonomous period. ******************************************************************************/ void AutonomousPeriodic() { double accelX, desiredPos; float DriveL, DriveR; int AutonStateLocal; double ArmP; double ArmError; // Light1.Set(1); // Light2.Set(1); AutonStateLocal = 0; while (IsAutonomous()) { /* Read sensors here */ accelX = accel.GetX(); // ArmP = ballarm.GetDistance(); if (AutonDisabled == false) { switch (AutonState) { case 2: /* Low bar and rough terrain */ { if (AutonStateLocal == 0) { /* State 1: Raise arm to desired position */ AutonStateLocal = 1; DriveL = 0.6; DriveR = 0.6; desiredPos = 100; } else if (AutonStateLocal == 1 && AutonTime < 1.8) { DriveL = 0.6; DriveR = 0.6; desiredPos = 100; } else if (AutonTime >= 1.8) { AutonDisabled = true; AutonStateLocal = 3; } break; } case 4: /* Low bar and rough terrain */ { if (AutonStateLocal == 0) { /* State 1: Raise arm to desired position */ AutonStateLocal = 1; DriveL = 0.8; DriveR = 0.8; desiredPos = 180; } else if (AutonStateLocal == 1 && AutonTime < 1.8) { DriveL = 0.85; DriveR = 0.85; desiredPos = 180; } else if (AutonTime >= 1.8) { AutonDisabled = true; AutonStateLocal = 3; } break; } case 0: default: { /* Default, no auton */ desiredPos = 0.0; DriveL = 0.0; DriveR = 0.0; break; } } } else { DriveL = 0.0; DriveR = 0.0; desiredPos = 0; AutonStateLocal = 10; } UpdateSmartDashboad(Sw1.Get(), Sw2.Get(), Sw3.Get(), Sw4.Get(), BlSw.Get(), AutonState, 0, ballarm.GetDistance(), gyroOne.GetAngle(), accel.GetX(), accel.GetY(), accel.GetZ(), (double)DriveL, (double)DriveR); UpdateActuatorCmnds(0, desiredPos, false, false, false, false, false, false, false, DriveL, DriveR, 0, 0, 0); Wait(kUpdatePeriod); // Wait 5ms for the next update. AutonTime += kUpdatePeriod; } Scheduler::GetInstance()->Run(); }