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Robot.java
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package team8.tuner;
import com.fasterxml.jackson.databind.ObjectMapper;
import com.fasterxml.jackson.module.jsonSchema.JsonSchema;
import com.fasterxml.jackson.module.jsonSchema.JsonSchemaGenerator;
import edu.wpi.first.wpilibj.*;
import team8.tuner.config.C;
import team8.tuner.config.Config;
import team8.tuner.config.Config.SimpleConfig;
import team8.tuner.controller.Controller;
import team8.tuner.controller.Controller.ControlMode;
import team8.tuner.controller.Spark;
import team8.tuner.controller.Talon;
import team8.tuner.controller.Victor;
import team8.tuner.controller.*;
import team8.tuner.data.CSVWriter;
import team8.tuner.data.LiveGraph;
import java.io.File;
import java.io.IOException;
import java.util.List;
import java.util.stream.Collectors;
public class Robot extends TimedRobot {
//========================================================//
public static final String kConfigFileName = "Drive";
//========================================================//
public static final int kPidSlotIndex = 0;
public static final double kPercentOutputMultiplier = 0.9, kVelocityMultiplier = 0.9;
public static final double kDeadBand = 0.08;
private Config mConfig;
private Controller mMaster;
private List<Controller> mSlaves;
private List<Solenoid> mSolenoids;
private XboxController mInput;
private PowerDistribution mPowerDistribution;
private double mReference;
private boolean mAutomaticControl;
private boolean mExtendSolenoid, mEnableCompressor = true;
private ControlMode mControlMode = ControlMode.DISABLED;
private Compressor mCompressor;
@Override
public void robotInit() {
mCompressor = new Compressor(PneumaticsModuleType.CTREPCM);
mPowerDistribution = new PowerDistribution();
}
@Override
public void simulationInit() {
var mapper = new ObjectMapper();
var generator = new JsonSchemaGenerator(mapper);
try {
JsonSchema schema = generator.generateSchema(Config.class);
mapper.writerWithDefaultPrettyPrinter().writeValue(new File("schema.json"), schema);
} catch (IOException schemaGenerationException) {
schemaGenerationException.printStackTrace();
}
}
@Override
public void autonomousInit() {
scoldUser();
}
@Override
public void teleopInit() {
scoldUser();
}
@Override
public void testInit() {
CSVWriter.init();
mConfig = C.read(Config.class, kConfigFileName);
applyConfig();
LiveGraph.add("isEnabled", true);
}
private void applyConfig() {
System.out.printf("Initializing PID tuner with:%n%s%n", mConfig);
mInput = new XboxController(mConfig.xboxId);
System.out.printf("Using X-Box controller with id: %d%n", mConfig.xboxId);
mMaster = setupController(mConfig.master);
mSlaves = mConfig.slaves.stream()
.map(slaveConfig -> setupSlave(slaveConfig, mMaster))
.collect(Collectors.toUnmodifiableList());
mSolenoids = mConfig.solenoidId.stream().map(solenoidId -> new Solenoid(PneumaticsModuleType.CTREPCM, solenoidId)).collect(Collectors.toUnmodifiableList());
}
@Override
public void testPeriodic() {
handleInput();
periodicData();
applyOutputs();
}
private void periodicData() {
if (mConfig.writeCsv) {
logData("totalPdpCurrent", mPowerDistribution.getTotalCurrent());
logData("totalControllerCurrent", mMaster.getOutputCurrent() + mSlaves.stream().mapToDouble(Controller::getOutputCurrent).sum());
logData("reference", mReference);
logData("output", mMaster.getAppliedPercentOutput());
logData("position", mMaster.getPosition());
logData("velocity", mMaster.getVelocity());
}
}
private void logData(String name, double data) {
CSVWriter.add(name, data);
LiveGraph.add(name, data);
}
private void applyOutputs() {
if (mMaster != null) {
double arbitraryFeedForward;
switch (mControlMode) {
case PERCENT_OUTPUT:
case SMART_MOTION:
case SMART_VELOCITY:
arbitraryFeedForward = mConfig.master.gains.ff;
if (mConfig.master.armFf != null) {
double angle = mMaster.getPosition();
arbitraryFeedForward += mConfig.master.armFf * Math.cos(Math.toRadians(angle - mConfig.master.armComOffset));
}
break;
default:
arbitraryFeedForward = 0.0;
break;
}
mMaster.setOutput(mControlMode, mReference, arbitraryFeedForward);
}
if (mSolenoids != null) {
for (Solenoid solenoid : mSolenoids) {
solenoid.set(mExtendSolenoid);
}
}
// if (mEnableCompressor) {
// mCompressor.start();
// } else {
// mCompressor.stop();
// }
mCompressor.disable();
}
@Override
public void disabledInit() {
mControlMode = ControlMode.DISABLED;
mExtendSolenoid = false;
mEnableCompressor = true;
if (mSolenoids != null) {
mSolenoids.forEach(Solenoid::close);
}
applyOutputs();
if (mConfig != null && mConfig.writeCsv) CSVWriter.write();
LiveGraph.add("isEnabled", false);
}
private void handleInput() {
if (mInput.getAButtonPressed()) {
setSetPoint(mConfig.aSetPoint);
} else if (mInput.getBButtonPressed()) {
setSetPoint(mConfig.bSetPoint);
} else if (mInput.getXButtonPressed()) {
setSetPoint(mConfig.xSetPoint);
} else if (mInput.getYButtonPressed()) {
setSetPoint(mConfig.ySetPoint);
} else if (mInput.getRightBumperPressed()) {
mControlMode = ControlMode.PERCENT_OUTPUT;
mReference = mConfig.percentOutputRun + mConfig.master.gains.ff;
} else if (mInput.getLeftBumperPressed()) {
mControlMode = ControlMode.DISABLED;
mAutomaticControl = false;
System.out.println("Disabling...");
} else {
double percentOutInput = -mInput.getLeftY() * kPercentOutputMultiplier;
double velocityInput = -mInput.getRightY() * kVelocityMultiplier;
if (Math.abs(percentOutInput) > kDeadBand) {
mControlMode = ControlMode.PERCENT_OUTPUT;
mReference = percentOutInput - Math.signum(percentOutInput) * kDeadBand;
mAutomaticControl = false;
} else if (Math.abs(velocityInput) > kDeadBand) {
mControlMode = ControlMode.SMART_VELOCITY;
mReference = (velocityInput - Math.signum(velocityInput) * kDeadBand) * mConfig.master.gains.v;
mAutomaticControl = false;
} else {
if (!mAutomaticControl) {
mControlMode = ControlMode.DISABLED;
}
}
}
if (mInput.getStartButtonPressed())
mExtendSolenoid = !mExtendSolenoid;
else if (mInput.getBackButtonPressed())
mEnableCompressor = !mEnableCompressor;
}
private void setSetPoint(double setPoint) {
mControlMode = ControlMode.SMART_MOTION;
mReference = setPoint;
mAutomaticControl = true;
}
private Controller setupController(SimpleConfig config) {
System.out.printf("Setting up %s with id %d%n", config.type, config.id);
switch (config.type) {
case SPARK:
return new Spark(config);
case FALCON:
return new Falcon(config);
case TALON:
return new Talon(config);
case VICTOR:
return new Victor(config);
default:
throw new IllegalArgumentException("Unknown motor type!");
}
}
private Controller setupSlave(SimpleConfig config, Controller master) {
var slave = setupController(config);
slave.follow(master, config.isInverted);
return slave;
}
private void scoldUser() {
System.err.println("Use test mode!");
}
}