mirror of
https://github.com/Team4388/2023WayOfTheRobot.git
synced 2026-06-09 00:37:59 -06:00
aarav18
129 lines
3.3 KiB
Java
129 lines
3.3 KiB
Java
// 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.subsystems;
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import java.util.ArrayList;
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import org.photonvision.PhotonCamera;
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import org.photonvision.common.hardware.VisionLEDMode;
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import org.photonvision.targeting.PhotonPipelineResult;
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import org.photonvision.targeting.PhotonTrackedTarget;
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import edu.wpi.first.wpilibj.smartdashboard.SmartDashboard;
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import edu.wpi.first.wpilibj2.command.SubsystemBase;
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import frc4388.robot.Constants.VisionConstants;
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public class Limelight extends SubsystemBase {
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private PhotonCamera cam;
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private boolean lightOn;
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/** Creates a new Limelight. */
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public Limelight() {
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cam = new PhotonCamera(VisionConstants.NAME);
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cam.setDriverMode(false);
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}
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public void setLEDs(boolean on) {
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lightOn = on;
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cam.setLED(lightOn ? VisionLEDMode.kOn : VisionLEDMode.kOff);
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}
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public void toggleLEDs() {
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lightOn = !lightOn;
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cam.setLED(lightOn ? VisionLEDMode.kOn : VisionLEDMode.kOff);
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}
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public void setDriverMode(boolean driverMode) {
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cam.setDriverMode(driverMode);
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}
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public void setToLimePipeline() {
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cam.setPipelineIndex(1);
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}
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public void setToAprilPipeline() {
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cam.setPipelineIndex(0);
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}
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// ! might need to find midpoint instead of entire target
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public PhotonTrackedTarget getAprilPoint() {
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setToAprilPipeline();
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if (!cam.isConnected()) return null;
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PhotonPipelineResult result = cam.getLatestResult();
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if (!result.hasTargets()) return null;
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return result.getBestTarget();
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}
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public double getDistanceToApril() {
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PhotonTrackedTarget aprilPoint = getAprilPoint();
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if (aprilPoint == null) return -1;
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double aprilHeight = VisionConstants.APRIL_HEIGHT - VisionConstants.LIME_HEIGHT;
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double theta = 35.0 + aprilPoint.getPitch();
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double distanceToApril = aprilHeight / Math.tan(Math.toRadians(theta));
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return distanceToApril;
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}
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public PhotonTrackedTarget getLowestTape() {
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setToLimePipeline();
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if (!cam.isConnected()) return null;
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PhotonPipelineResult result = cam.getLatestResult();
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if (!result.hasTargets()) return null;
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ArrayList<PhotonTrackedTarget> points = (ArrayList<PhotonTrackedTarget>) result.getTargets();
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PhotonTrackedTarget lowest = points.get(0);
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for (PhotonTrackedTarget point : points) {
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if (point.getPitch() < lowest.getPitch()) {
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lowest = point;
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}
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}
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return lowest;
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}
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public int getNumTapes() {
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setToLimePipeline();
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PhotonPipelineResult result = cam.getLatestResult();
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return result.getTargets().size();
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}
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public double getDistanceToTape() {
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PhotonTrackedTarget tapePoint = getLowestTape();
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if (tapePoint == null) return -1;
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double tapeHeight = VisionConstants.MID_TAPE_HEIGHT - VisionConstants.LIME_HEIGHT;
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double theta = 35.0 + tapePoint.getPitch();
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double distanceToTape = tapeHeight / Math.tan(Math.toRadians(theta));
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return distanceToTape;
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}
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int ctr = 0;
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@Override
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public void periodic() {
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// This method will be called once per scheduler run
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if (ctr % 50 == 0) {
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SmartDashboard.putNumber("Horizontal Distance", getDistanceToTape());
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}
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ctr++;
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}
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}
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