#include "Drivetrain.h" #include "../RobotMap.h" #include "../Commands/Drivetrain/Drive.h" Drivetrain::Drivetrain(): Subsystem("Drivetrain"){ rightFront = new CANTalon(DRIVE_FRONT_RIGHT_CAN); leftFront = new CANTalon(DRIVE_FRONT_LEFT_CAN); rightRear = new CANTalon(DRIVE_BACK_RIGHT_CAN); leftRear = new CANTalon(DRIVE_BACK_LEFT_CAN); gyro = new Gyro(DRIVE_GYRO_ANALOG); } void Drivetrain::InitDefaultCommand(){ SetDefaultCommand(new Drive()); } void Drivetrain::DriveMecanum(double x, double y, double z, double sensitivity, bool driveStraight){ //TODO: Find the correct value for kP double kP=0.02; double correctX = -(sensitivity*(pow(x, 3))+(1-sensitivity)*x); double correctY = -(sensitivity*(pow(y, 3))+(1-sensitivity)*y); double correctZ; if(driveStraight){ correctZ = -gyro->GetAngle()*kP; }else{ correctZ = -z * 0.5; } if(DentRobot::oi->GetLeftStick()->GetRawButton(9)){ correctY /= SmartDashboard::GetNumber("DriveSpeedReductionThresh"); } rightFront->Set((-correctX + correctY - correctZ)); leftFront->Set((correctX + correctY + correctZ)*-1); rightRear->Set((correctX + correctY - correctZ)); leftRear->Set((-correctX + correctY + correctZ)*-1); } //Used in pretest void Drivetrain::TestMotor(e_motors motor, double power){ switch(motor){ case FRONTRIGHT: rightFront->Set(power); break; case FRONTLEFT: leftFront->Set(power); break; case BACKRIGHT: rightRear->Set(power); break; case BACKLEFT: leftRear->Set(power); break; default: break; } } void Drivetrain::ResetGyro(){ gyro->Reset(); } // vim: ts=2:sw=2:et