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// Copyright (c) FIRST and other WPILib contributors.
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// Open Source Software; you can modify and/or share it under the terms of
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// the WPILib BSD license file in the root directory of this project.
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package frc4388.robot.commands;
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import java.io.IOException;
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import java.util.ArrayList;
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import java.util.List;
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import org.opencv.core.Point;
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import edu.wpi.first.math.geometry.Pose2d;
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import edu.wpi.first.wpilibj2.command.CommandBase;
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import frc4388.robot.Constants.ShooterConstants;
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import frc4388.robot.Constants.VisionConstants;
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import frc4388.robot.subsystems.BoomBoom;
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import frc4388.robot.subsystems.Hood;
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import frc4388.robot.subsystems.SwerveDrive;
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import frc4388.robot.subsystems.Turret;
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import frc4388.robot.subsystems.VisionOdometry;
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public class TrackTarget extends CommandBase {
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/** Creates a new TrackTarget. */
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Turret m_turret;
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SwerveDrive m_drive;
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VisionOdometry m_visionOdometry;
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BoomBoom m_boomBoom;
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Hood m_hood;
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// use odometry to find x and y later
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double x;
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double y;
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double distance;
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double vel;
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double hood;
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double average;
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double output;
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Pose2d pos = new Pose2d();
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ArrayList<Point> points = new ArrayList<>();
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// public static Gains m_aimGains;
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public TrackTarget (Turret turret, BoomBoom boomBoom, Hood hood, SwerveDrive drive, VisionOdometry visionOdometry) {
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// Use addRequirements() here to declare subsystem dependencies.
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m_turret = turret;
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m_drive = drive;
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m_boomBoom = boomBoom;
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m_hood = hood;
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m_visionOdometry = visionOdometry;
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addRequirements(m_turret, m_drive, m_visionOdometry);
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}
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// Called when the command is initially scheduled.
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@Override
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public void initialize() {
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x = 0;
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y = 0;
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}
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// Called every time the scheduler runs while the command is scheduled.
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@Override
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public void execute() {
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//m_targetAngle = angleToCenter(x, y, m_drive.getRegGyro().getDegrees());
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m_visionOdometry.setLEDs(true);
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points = m_visionOdometry.getTargetPoints();
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double pointTotal = 0;
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for(Point point : points)
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{
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pointTotal = pointTotal + point.x;
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}
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average = pointTotal/points.size();
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output = average/VisionConstants.LIME_HIXELS * VisionConstants.TURRET_kP;
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m_turret.runTurretWithInput(output);
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try{
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pos = m_visionOdometry.getVisionOdometry();
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distance = Math.hypot(pos.getX(), pos.getY());
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}
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catch (Exception e){
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}
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vel = m_boomBoom.getVelocity(distance);
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hood = m_boomBoom.getHood(distance);
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m_boomBoom.runDrumShooterVelocityPID(vel);
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m_hood.runAngleAdjustPID(hood);
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//m_turret.runshooterRotatePID(m_targetAngle);
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}
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/* public static double angleToCenter(double x, double y, double gyro) {
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double angle = ((Math.atan2(y, x) * (180./Math.PI) - gyro) + 180. + 360.) % 360.; // Finds the angle between the gyro of the robot and the target (positive x is gyro 0)
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return angle;
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}*/
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/**
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* Checks if in hardware deadzone (due to mechanical limitations).
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* @param angle Angle to check.
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* @return True if in hardware deadzone.
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*/
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public static boolean isHardwareDeadzone(double angle) {
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return ((ShooterConstants.HARD_DEADZONE_LEFT > angle) || (angle > ShooterConstants.HARD_DEADZONE_RIGHT));
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}
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/**
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* Checks if in digital deadzone (due to climber).
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* @param angle Angle to check.
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* @return True if in digital deadzone.
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*/
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public static boolean isDigitalDeadzone(double angle) {
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return ((ShooterConstants.DIG_DEADZONE_LEFT < angle) && (angle < ShooterConstants.DIG_DEADZONE_RIGHT));
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}
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// Called once the command ends or is interrupted.
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@Override
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public void end(boolean interrupted) {
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}
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// Returns true when the command should end.
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@Override
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public boolean isFinished() {
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return false;
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}
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}
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Ryan Manley