astatin3/photonvision-2025.0.0-beta-6
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photonvision-2025.0.0-beta-6/photonlib-java-examples/aimandrange/src/main/java/frc/robot/Robot.java
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astatin3 9e4ab26005 Initial commit
2024-12-09 08:01:09 -07:00

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/*
* MIT License
*
* Copyright (c) PhotonVision
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
package frc.robot;
import static frc.robot.Constants.Vision.*;
import edu.wpi.first.math.geometry.Pose2d;
import edu.wpi.first.math.geometry.Rotation2d;
import edu.wpi.first.math.util.Units;
import edu.wpi.first.wpilibj.TimedRobot;
import edu.wpi.first.wpilibj.XboxController;
import edu.wpi.first.wpilibj.simulation.BatterySim;
import edu.wpi.first.wpilibj.simulation.RoboRioSim;
import edu.wpi.first.wpilibj.smartdashboard.SmartDashboard;
import frc.robot.subsystems.drivetrain.SwerveDrive;
import org.photonvision.PhotonCamera;
import org.photonvision.PhotonUtils;
public class Robot extends TimedRobot {
private SwerveDrive drivetrain;
private VisionSim visionSim;
private PhotonCamera camera;
private final double VISION_TURN_kP = 0.01;
private final double VISION_DES_ANGLE_deg = 0.0;
private final double VISION_STRAFE_kP = 0.5;
private final double VISION_DES_RANGE_m = 1.25;
private XboxController controller;
@Override
public void robotInit() {
drivetrain = new SwerveDrive();
camera = new PhotonCamera(kCameraName);
visionSim = new VisionSim(camera);
controller = new XboxController(0);
}
@Override
public void robotPeriodic() {
// Update drivetrain subsystem
drivetrain.periodic();
// Log values to the dashboard
drivetrain.log();
}
@Override
public void disabledPeriodic() {
drivetrain.stop();
}
@Override
public void teleopInit() {
resetPose();
}
@Override
public void teleopPeriodic() {
// Calculate drivetrain commands from Joystick values
double forward = -controller.getLeftY() * Constants.Swerve.kMaxLinearSpeed;
double strafe = -controller.getLeftX() * Constants.Swerve.kMaxLinearSpeed;
double turn = -controller.getRightX() * Constants.Swerve.kMaxAngularSpeed;
// Read in relevant data from the Camera
boolean targetVisible = false;
double targetYaw = 0.0;
double targetRange = 0.0;
var results = camera.getAllUnreadResults();
if (!results.isEmpty()) {
// Camera processed a new frame since last
// Get the last one in the list.
var result = results.get(results.size() - 1);
if (result.hasTargets()) {
// At least one AprilTag was seen by the camera
for (var target : result.getTargets()) {
if (target.getFiducialId() == 7) {
// Found Tag 7, record its information
targetYaw = target.getYaw();
targetRange =
PhotonUtils.calculateDistanceToTargetMeters(
0.5, // Measured with a tape measure, or in CAD.
1.435, // From 2024 game manual for ID 7
Units.degreesToRadians(-30.0), // Measured with a protractor, or in CAD.
Units.degreesToRadians(target.getPitch()));
targetVisible = true;
}
}
}
}
// Auto-align when requested
if (controller.getAButton() && targetVisible) {
// Driver wants auto-alignment to tag 7
// And, tag 7 is in sight, so we can turn toward it.
// Override the driver's turn and fwd/rev command with an automatic one
// That turns toward the tag, and gets the range right.
turn =
(VISION_DES_ANGLE_deg - targetYaw) * VISION_TURN_kP * Constants.Swerve.kMaxAngularSpeed;
forward =
(VISION_DES_RANGE_m - targetRange) * VISION_STRAFE_kP * Constants.Swerve.kMaxLinearSpeed;
}
// Command drivetrain motors based on target speeds
drivetrain.drive(forward, strafe, turn);
// Put debug information to the dashboard
SmartDashboard.putBoolean("Vision Target Visible", targetVisible);
SmartDashboard.putNumber("Vision Target Range (m)", targetRange);
}
@Override
public void simulationPeriodic() {
// Update drivetrain simulation
drivetrain.simulationPeriodic();
// Update camera simulation
visionSim.simulationPeriodic(drivetrain.getSimPose());
var debugField = visionSim.getSimDebugField();
debugField.getObject("EstimatedRobot").setPose(drivetrain.getPose());
debugField.getObject("EstimatedRobotModules").setPoses(drivetrain.getModulePoses());
// Calculate battery voltage sag due to current draw
var batteryVoltage =
BatterySim.calculateDefaultBatteryLoadedVoltage(drivetrain.getCurrentDraw());
// Using max(0.1, voltage) here isn't a *physically correct* solution,
// but it avoids problems with battery voltage measuring 0.
RoboRioSim.setVInVoltage(Math.max(0.1, batteryVoltage));
}
public void resetPose() {
// Example Only - startPose should be derived from some assumption
// of where your robot was placed on the field.
// The first pose in an autonomous path is often a good choice.
var startPose = new Pose2d(1, 1, new Rotation2d());
drivetrain.resetPose(startPose, true);
visionSim.resetSimPose(startPose);
}
}
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