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/*
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* MIT License
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*
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2023-04-18 18:49:40 -04:00
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* Copyright (c) PhotonVision
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in all
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* copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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* SOFTWARE.
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*/
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2022-12-16 17:05:23 -08:00
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package frc.robot;
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import edu.wpi.first.math.controller.PIDController;
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import edu.wpi.first.math.controller.SimpleMotorFeedforward;
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import edu.wpi.first.math.geometry.Pose2d;
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import edu.wpi.first.math.kinematics.ChassisSpeeds;
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import edu.wpi.first.math.kinematics.DifferentialDriveKinematics;
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import edu.wpi.first.math.kinematics.DifferentialDriveWheelSpeeds;
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import edu.wpi.first.wpilibj.Encoder;
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import edu.wpi.first.wpilibj.motorcontrol.MotorControllerGroup;
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import edu.wpi.first.wpilibj.motorcontrol.PWMVictorSPX;
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/**
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* Implements a controller for the drivetrain. Converts a set of chassis motion commands into motor
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* controller PWM values which attempt to speed up or slow down the wheels to match the desired
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* speed.
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*/
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public class Drivetrain {
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// PWM motor controller output definitions
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PWMVictorSPX leftLeader = new PWMVictorSPX(Constants.kDtLeftLeaderPin);
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PWMVictorSPX leftFollower = new PWMVictorSPX(Constants.kDtLeftFollowerPin);
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PWMVictorSPX rightLeader = new PWMVictorSPX(Constants.kDtRightLeaderPin);
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PWMVictorSPX rightFollower = new PWMVictorSPX(Constants.kDtRightFollowerPin);
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MotorControllerGroup leftGroup = new MotorControllerGroup(leftLeader, leftFollower);
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MotorControllerGroup rightGroup = new MotorControllerGroup(rightLeader, rightFollower);
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// Drivetrain wheel speed sensors
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// Used both for speed control and pose estimation.
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Encoder leftEncoder = new Encoder(Constants.kDtLeftEncoderPinA, Constants.kDtLeftEncoderPinB);
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Encoder rightEncoder = new Encoder(Constants.kDtRightEncoderPinA, Constants.kDtRightEncoderPinB);
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// Drivetrain Pose Estimation
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final DrivetrainPoseEstimator poseEst;
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// Kinematics - defines the physical size and shape of the drivetrain, which is
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// required to convert from
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// chassis speed commands to wheel speed commands.
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DifferentialDriveKinematics kinematics = new DifferentialDriveKinematics(Constants.kTrackWidth);
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// Closed-loop PIDF controllers for servoing each side of the drivetrain to a
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// specific speed.
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// Gains are for example purposes only - must be determined for your own robot!
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SimpleMotorFeedforward feedforward = new SimpleMotorFeedforward(1, 3);
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PIDController leftPIDController = new PIDController(8.5, 0, 0);
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PIDController rightPIDController = new PIDController(8.5, 0, 0);
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public Drivetrain() {
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// Set the distance per pulse for the drive encoders. We can simply use the
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// distance traveled for one rotation of the wheel divided by the encoder
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// resolution.
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leftEncoder.setDistancePerPulse(
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2 * Math.PI * Constants.kWheelRadius / Constants.kEncoderResolution);
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rightEncoder.setDistancePerPulse(
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2 * Math.PI * Constants.kWheelRadius / Constants.kEncoderResolution);
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leftEncoder.reset();
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rightEncoder.reset();
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rightGroup.setInverted(true);
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poseEst = new DrivetrainPoseEstimator(leftEncoder.getDistance(), rightEncoder.getDistance());
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}
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/**
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* Given a set of chassis (fwd/rev + rotate) speed commands, perform all periodic tasks to assign
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* new outputs to the motor controllers.
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*
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* @param xSpeed Desired chassis Forward or Reverse speed (in meters/sec). Positive is forward.
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* @param rot Desired chassis rotation speed in radians/sec. Positive is counter-clockwise.
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*/
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public void drive(double xSpeed, double rot) {
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// Convert our fwd/rev and rotate commands to wheel speed commands
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DifferentialDriveWheelSpeeds speeds =
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kinematics.toWheelSpeeds(new ChassisSpeeds(xSpeed, 0, rot));
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// Calculate the feedback (PID) portion of our motor command, based on desired
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// wheel speed
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var leftOutput = leftPIDController.calculate(leftEncoder.getRate(), speeds.leftMetersPerSecond);
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var rightOutput =
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rightPIDController.calculate(rightEncoder.getRate(), speeds.rightMetersPerSecond);
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// Calculate the feedforward (F) portion of our motor command, based on desired
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// wheel speed
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var leftFeedforward = feedforward.calculate(speeds.leftMetersPerSecond);
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var rightFeedforward = feedforward.calculate(speeds.rightMetersPerSecond);
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// Update the motor controllers with our new motor commands
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leftGroup.setVoltage(leftOutput + leftFeedforward);
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rightGroup.setVoltage(rightOutput + rightFeedforward);
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// Update the pose estimator with the most recent sensor readings.
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poseEst.update(leftEncoder.getDistance(), rightEncoder.getDistance());
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}
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/**
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* Force the pose estimator and all sensors to a particular pose. This is useful for indicating to
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* the software when you have manually moved your robot in a particular position on the field (EX:
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* when you place it on the field at the start of the match).
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*
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* @param pose
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*/
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public void resetOdometry(Pose2d pose) {
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leftEncoder.reset();
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rightEncoder.reset();
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poseEst.resetToPose(pose, leftEncoder.getDistance(), rightEncoder.getDistance());
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}
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/** @return The current best-guess at drivetrain Pose on the field. */
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public Pose2d getCtrlsPoseEstimate() {
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return poseEst.getPoseEst();
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}
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}
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