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zaphod/ZaphodRobot.cpp

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#include "ZaphodRobot.h"
#include "ZaphodBase.h"
ZaphodRobot::ZaphodRobot():
ControlSystem(new JoystickController()),
shooter(new ZaphodShooter()),
collector(new ZaphodCollector()),
compressorSystem(new ZaphodCompressor())
{
left1 = new Jaguar(DRIVE_LEFT_SIDECAR, DRIVE_LEFT_MOTOR_ONE);
left2 = new Jaguar(DRIVE_LEFT_SIDECAR, DRIVE_LEFT_MOTOR_TWO);
left3 = new Jaguar(DRIVE_LEFT_SIDECAR, DRIVE_LEFT_MOTOR_THREE);
right1 = new Jaguar(DRIVE_RIGHT_SIDECAR, DRIVE_RIGHT_MOTOR_ONE);
right2 = new Jaguar(DRIVE_RIGHT_SIDECAR, DRIVE_RIGHT_MOTOR_ONE);
right3 = new Jaguar(DRIVE_RIGHT_SIDECAR, DRIVE_RIGHT_MOTOR_ONE);
frontSonarLeftD = new DigitalOutput(SONAR_LEFT_DIO_SIDECAR, SONAR_FRONT_LEFT_DIO);
frontSonarRightD = new DigitalOutput(SONAR_RIGHT_DIO_SIDECAR, SONAR_FRONT_RIGHT_DIO);
rearSonarLeftD = new DigitalOutput(SONAR_LEFT_DIO_SIDECAR, SONAR_REAR_LEFT_DIO);
rearSonarRightD = new DigitalOutput(SONAR_RIGHT_DIO_SIDECAR, SONAR_REAR_RIGHT_DIO);
frontSonarLeftA = new AnalogChannel(SONAR_FRONT_LEFT_ANA);
frontSonarRightA = new AnalogChannel(SONAR_FRONT_RIGHT_ANA);
rearSonarLeftA = new AnalogChannel(SONAR_REAR_LEFT_ANA);
rearSonarRightA = new AnalogChannel(SONAR_REAR_RIGHT_ANA);
}
//Functions to get sonar values and return as INCH values
float ZaphodRobot::getFrontSonar()
{
frontSonarLeftD->Set(1);
frontSonarLeftV = (frontSonarLeftA->GetAverageVoltage()/0.00488f)/2.54f;
frontSonarLeftD->Set(0);
//Probably need some sort of delay here
frontSonarRightD->Set(1);
frontSonarRightV = (frontSonarRightA->GetAverageVoltage()/0.00488f)/2.54f;
frontSonarRightD->Set(0);
//Returns the average (useful for throwing out useless readings)
return (frontSonarRightV+frontSonarLeftV)/2;
}
float ZaphodRobot::getRearSonar()
{
rearSonarLeftD->Set(1);
rearSonarLeftV = (rearSonarLeftA->GetAverageVoltage()/0.00488f)/2.54f;
rearSonarLeftD->Set(0);
//Probably need some sort of delay here
rearSonarRightD->Set(1);
rearSonarRightV = (rearSonarRightA->GetAverageVoltage()/0.00488f)/2.54f;
rearSonarRightD->Set(0);
//Returns the average (useful for throwing out useless readings)
return (rearSonarRightV+rearSonarLeftV)/2;
}
bool ZaphodRobot::checkJoystickValues()
{
float x = ControlSystem->rightJoystickAxisValues[1];
float y = ControlSystem->rightJoystickAxisValues[2];
if((-.1 < x && x < .1) && (-.1 < y && y < .1))
{
return true;
}
else
{
return false;
}
}
void ZaphodRobot::driveRobot(float x, float y)
{
if(y>1.0f){
y=1.0f;
}else if(y!=0.0f&&y<-1.0f){
y=-1.0f;
}
float leftPower=((y+x)/2+1)*127+1;
float rightPower=((y-x)/2+1)*127+1;
right1->SetRaw(int(rightPower));
right2->SetRaw(int(rightPower));
right3->SetRaw(int(rightPower));
left1->SetRaw(int(leftPower));
left2->SetRaw(int(leftPower));
left3->SetRaw(int(leftPower));
}
//Main function used to handle periodic tasks on the robot
void ZaphodRobot::handler()
{
//Periodic tasks that should be run by every loop
ControlSystem->updateJoysticks();
shooter->updateShooterPosition();
//TODO Need to implement a timing system to not break the spike (this function doesn't run the compressor at the moment)
compressorSystem->compressorSystemPeriodic();
collector->updateCollector(shooter->isShooting, shooter->getAngle());
driveRobot(ControlSystem->rightJoystickAxisValues[3]+ControlSystem->rightJoystickAxisValues[1], -ControlSystem->rightJoystickAxisValues[2]);
//Button assignments to actions
if(ControlSystem->leftJoystickValues[SHOOTER_FIRE])
{
shooter->startShootingSequence(ControlSystem->throttle);
}
if(ControlSystem->rightJoystickValues[COLLECTOR_INTAKE])
{
collector->collectBall();
}
if(ControlSystem->rightJoystickValues[COLLECTOR_OUTTAKE])
{
collector->releaseBall();
}
if(ControlSystem->rightJoystickValues[COLLECTOR_EXTEND])
{
compressorSystem->extendCollector();
}
if(ControlSystem->rightJoystickValues[COLLECTOR_RETRACT])
{
compressorSystem->retractCollector();
}
}