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Branches Tags
KeshavAnandCode:master KeshavAnandCode:LimelightPID KeshavAnandCode:SpindexerUpgrades KeshavAnandCode:Targeting KeshavAnandCode:SpindexerPosUpdate KeshavAnandCode:SpindexerRefactor KeshavAnandCode:danielv2 KeshavAnandCode:organize/expand KeshavAnandCode:extracontrolhub KeshavAnandCode:daniel
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compare: KeshavAnandCode:8840205fb3d010e2c3130b7556b17597d0972c18
Branches Tags
KeshavAnandCode:master KeshavAnandCode:LimelightPID KeshavAnandCode:SpindexerUpgrades KeshavAnandCode:Targeting KeshavAnandCode:SpindexerPosUpdate KeshavAnandCode:SpindexerRefactor KeshavAnandCode:danielv2 KeshavAnandCode:organize/expand KeshavAnandCode:extracontrolhub KeshavAnandCode:daniel

28 Commits
LimelightP ... 8840205fb3

Author SHA1 Message Date
KeshavAnandCode
8840205fb3 Fully Merged Presumably 2026-01-29 15:25:12 -06:00
KeshavAnandCode
6b71bb17f4 Merge branch 'auto9Ball' 
# Conflicts:
#	TeamCode/src/main/java/org/firstinspires/ftc/teamcode/autonomous/Auto_LT_12Ball.java
 2026-01-29 15:21:33 -06:00
DanTheMan-byte
f8369b51ed working teleop in progress 2026-01-29 15:20:02 -06:00
KeshavAnandCode
6c6ea03cac For Daniel to update Poses 2026-01-29 15:11:09 -06:00
DanTheMan-byte
c1dda240d3 stash 2026-01-29 14:19:01 -06:00
DanTheMan-byte
68e4fdb14d stash 2026-01-29 13:58:27 -06:00
abhiram vishnubhotla
66c5de1b26 Update Spindexer.java 2026-01-29 11:09:55 -06:00
Matt9150
3f4fee0e24 Add functions to get the ball color to spindexer. Attempt to make shoot all in teleop work better. 2026-01-29 09:25:39 -06:00
DanTheMan-byte
53290a5982 working auto 2026-01-28 20:22:25 -06:00
DanTheMan-byte
7ae7574703 Merge branch 'SpindexerUpgradesInWork' into auto9Ball 
# Conflicts:
#	TeamCode/src/main/java/org/firstinspires/ftc/teamcode/constants/ServoPositions.java
#	build.dependencies.gradle
 2026-01-28 19:43:20 -06:00
DanTheMan-byte
66bb5c747f before merge 2026-01-28 19:42:08 -06:00
DanTheMan-byte
661730ef18 stash 2026-01-28 19:31:52 -06:00
Matt9150
159b130b5f Integrate shootAll on the Robot. This version was working except with 1 ball. 2026-01-28 17:33:37 -06:00
KeshavAnandCode
8bc0b1043a NOT WORKING indexed auto WIP 2026-01-28 17:27:26 -06:00
KeshavAnandCode
7a50aa5065 unindexed works-ish jhust some static variables and stuff ig 2026-01-28 16:18:36 -06:00
DanTheMan-byte
641d947ec6 last edit 2026-01-28 15:36:44 -06:00
DanTheMan-byte
5d0a569f82 spindex progress: not good 2026-01-28 15:23:17 -06:00
DanTheMan-byte
f767e82e31 changed servo positions 2026-01-28 13:38:04 -06:00
Matt9150
d088fba20a Create shootAll state machine in spindexer and call from TeleOpV3. Experiment with averaging tiles in Targeting, which is permanently disabled at the moment. 2026-01-28 13:06:53 -06:00
Matt9150
2a45eee878 Update spindexer positions after repair. 2026-01-28 00:45:21 -06:00
KeshavAnandCode
486bde729d Wip 2026-01-27 19:28:55 -06:00
DanTheMan-byte
a6fe8c14e6 @Matt please take a look at this code 2026-01-27 18:51:24 -06:00
DanTheMan-byte
2fd87c9093 @Matt please take a look at this code 2026-01-27 18:38:41 -06:00
KeshavAnandCode
80f095cd57 Fixed some stuff presumably..untested 2026-01-27 17:47:25 -06:00
DanTheMan-byte
1715fa96cb updated dash version 2026-01-27 16:44:55 -06:00
DanTheMan-byte
dea9a10b08 added targeting information and unjaming code (both untested) 2026-01-27 16:36:46 -06:00
DanTheMan-byte
0549902505 a lot of changes happened in a galaxy far far away 2026-01-27 15:54:08 -06:00
DanTheMan-byte
cfb51cfa15 pipeline fixes 2026-01-27 13:21:51 -06:00
25 changed files with 2646 additions and 574 deletions
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921
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/autonomous/Auto_LT_Close_12Ball.java Normal file
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package org.firstinspires.ftc.teamcode.autonomous;
import static org.firstinspires.ftc.teamcode.constants.Color.redAlliance;
import static org.firstinspires.ftc.teamcode.constants.Poses.bShootH;
import static org.firstinspires.ftc.teamcode.constants.Poses.bShootX;
import static org.firstinspires.ftc.teamcode.constants.Poses.bShootY;
import static org.firstinspires.ftc.teamcode.constants.Poses.bh1;
import static org.firstinspires.ftc.teamcode.constants.Poses.bh2a;
import static org.firstinspires.ftc.teamcode.constants.Poses.bh2b;
import static org.firstinspires.ftc.teamcode.constants.Poses.bh3a;
import static org.firstinspires.ftc.teamcode.constants.Poses.bh3b;
import static org.firstinspires.ftc.teamcode.constants.Poses.bh4a;
import static org.firstinspires.ftc.teamcode.constants.Poses.bh4b;
import static org.firstinspires.ftc.teamcode.constants.Poses.bhPrep;
import static org.firstinspires.ftc.teamcode.constants.Poses.bx1;
import static org.firstinspires.ftc.teamcode.constants.Poses.bx2a;
import static org.firstinspires.ftc.teamcode.constants.Poses.bx2b;
import static org.firstinspires.ftc.teamcode.constants.Poses.bx3a;
import static org.firstinspires.ftc.teamcode.constants.Poses.bx3b;
import static org.firstinspires.ftc.teamcode.constants.Poses.bx4a;
import static org.firstinspires.ftc.teamcode.constants.Poses.bx4b;
import static org.firstinspires.ftc.teamcode.constants.Poses.bxPrep;
import static org.firstinspires.ftc.teamcode.constants.Poses.by1;
import static org.firstinspires.ftc.teamcode.constants.Poses.by2a;
import static org.firstinspires.ftc.teamcode.constants.Poses.by2b;
import static org.firstinspires.ftc.teamcode.constants.Poses.by3a;
import static org.firstinspires.ftc.teamcode.constants.Poses.by3b;
import static org.firstinspires.ftc.teamcode.constants.Poses.by4a;
import static org.firstinspires.ftc.teamcode.constants.Poses.by4b;
import static org.firstinspires.ftc.teamcode.constants.Poses.byPrep;
import static org.firstinspires.ftc.teamcode.constants.Poses.rShootH;
import static org.firstinspires.ftc.teamcode.constants.Poses.rShootX;
import static org.firstinspires.ftc.teamcode.constants.Poses.rShootY;
import static org.firstinspires.ftc.teamcode.constants.Poses.rh1;
import static org.firstinspires.ftc.teamcode.constants.Poses.rh2a;
import static org.firstinspires.ftc.teamcode.constants.Poses.rh2b;
import static org.firstinspires.ftc.teamcode.constants.Poses.rh3a;
import static org.firstinspires.ftc.teamcode.constants.Poses.rh3b;
import static org.firstinspires.ftc.teamcode.constants.Poses.rh4a;
import static org.firstinspires.ftc.teamcode.constants.Poses.rh4b;
import static org.firstinspires.ftc.teamcode.constants.Poses.rhPrep;
import static org.firstinspires.ftc.teamcode.constants.Poses.rx1;
import static org.firstinspires.ftc.teamcode.constants.Poses.rx2a;
import static org.firstinspires.ftc.teamcode.constants.Poses.rx2b;
import static org.firstinspires.ftc.teamcode.constants.Poses.rx3a;
import static org.firstinspires.ftc.teamcode.constants.Poses.rx3b;
import static org.firstinspires.ftc.teamcode.constants.Poses.rx4a;
import static org.firstinspires.ftc.teamcode.constants.Poses.rx4b;
import static org.firstinspires.ftc.teamcode.constants.Poses.rxPrep;
import static org.firstinspires.ftc.teamcode.constants.Poses.ry1;
import static org.firstinspires.ftc.teamcode.constants.Poses.ry2a;
import static org.firstinspires.ftc.teamcode.constants.Poses.ry2b;
import static org.firstinspires.ftc.teamcode.constants.Poses.ry3a;
import static org.firstinspires.ftc.teamcode.constants.Poses.ry3b;
import static org.firstinspires.ftc.teamcode.constants.Poses.ry4a;
import static org.firstinspires.ftc.teamcode.constants.Poses.ry4b;
import static org.firstinspires.ftc.teamcode.constants.Poses.ryPrep;
import static org.firstinspires.ftc.teamcode.constants.Poses.teleStart;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.transferServo_in;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.transferServo_out;
import androidx.annotation.NonNull;
import com.acmerobotics.dashboard.FtcDashboard;
import com.acmerobotics.dashboard.config.Config;
import com.acmerobotics.dashboard.telemetry.MultipleTelemetry;
import com.acmerobotics.dashboard.telemetry.TelemetryPacket;
import com.acmerobotics.roadrunner.Action;
import com.acmerobotics.roadrunner.ParallelAction;
import com.acmerobotics.roadrunner.Pose2d;
import com.acmerobotics.roadrunner.TrajectoryActionBuilder;
import com.acmerobotics.roadrunner.TranslationalVelConstraint;
import com.acmerobotics.roadrunner.Vector2d;
import com.acmerobotics.roadrunner.ftc.Actions;
import com.qualcomm.robotcore.eventloop.opmode.Autonomous;
import com.qualcomm.robotcore.eventloop.opmode.LinearOpMode;
import org.firstinspires.ftc.teamcode.constants.Poses_V2;
import org.firstinspires.ftc.teamcode.libs.RR.MecanumDrive;
import org.firstinspires.ftc.teamcode.utils.Flywheel;
import org.firstinspires.ftc.teamcode.utils.Robot;
import org.firstinspires.ftc.teamcode.utils.Servos;
import org.firstinspires.ftc.teamcode.utils.Spindexer;
import org.firstinspires.ftc.teamcode.utils.Targeting;
import org.firstinspires.ftc.teamcode.utils.Turret;
@Config
@Autonomous(preselectTeleOp = "TeleopV3")
public class Auto_LT_Close_12Ball extends LinearOpMode {
public static double shoot0Vel = 2300, shoot0Hood = 0.93;
public static double autoSpinStartPos = 0.2;
public static double shoot0SpinSpeedIncrease = 0.014;
public static double spindexerSpeedIncrease = 0.02;
public static double obeliskTurrPos = 0.53;
public static double normalIntakeTime = 3.0;
public static double shoot1Turr = 0.57;
public static double shoot0XTolerance = 1.0;
public static double turretShootPos = 0.53;
public static double shootAllTime = 1.8;
public static double shoot0Time = 1.6;
public static double intake1Time = 3.0;
public static double flywheel0Time = 3.5;
public static double pickup1Speed = 25;
// ---- SECOND SHOT / PICKUP ----
public static double shoot1Vel = 2300;
public static double shoot1Hood = 0.93;
public static double shootAllVelocity = 2500;
public static double shootAllHood = 0.78;
// ---- PICKUP TIMING ----
public static double pickup1Time = 3.0;
// ---- PICKUP POSITION TOLERANCES ----
public static double pickup1XTolerance = 2.0;
public static double pickup1YTolerance = 2.0;
// ---- OBELISK DETECTION ----
public static double obelisk1Time = 1.5;
public static double obelisk1XTolerance = 2.0;
public static double obelisk1YTolerance = 2.0;
public static double shoot1ToleranceX = 2.0;
public static double shoot1ToleranceY = 2.0;
public static double shoot1Time = 2.0;
public static double shootCycleTime = 2.5;
public int motif = 0;
Robot robot;
MultipleTelemetry TELE;
MecanumDrive drive;
Servos servos;
Spindexer spindexer;
Flywheel flywheel;
Turret turret;
Targeting targeting;
Targeting.Settings targetingSettings;
private double x1, y1, h1;
private double x2a, y2a, h2a, t2a;
private double x2b, y2b, h2b, t2b;
private double x2c, y2c, h2c, t2c;
private double x3a, y3a, h3a;
private double x3b, y3b, h3b;
private double x4a, y4a, h4a;
private double x4b, y4b, h4b;
private double xShoot, yShoot, hShoot;
private double xGate, yGate, hGate;
private double xPrep, yPrep, hPrep;
private double shoot1Tangent;
public Action prepareShootAll(double time) {
return new Action() {
double stamp = 0.0;
int ticker = 0;
@Override
public boolean run(@NonNull TelemetryPacket telemetryPacket) {
if (ticker == 0) {
stamp = System.currentTimeMillis();
}
ticker++;
robot.spin1.setPosition(autoSpinStartPos);
robot.spin2.setPosition(1 - autoSpinStartPos);
robot.transferServo.setPosition(transferServo_out);
turret.manualSetTurret(turretShootPos);
robot.intake.setPower(-((System.currentTimeMillis() - stamp)) / 1000);
drive.updatePoseEstimate();
teleStart = drive.localizer.getPose();
TELE.addData("Velocity", flywheel.getVelo());
TELE.addData("Hood", robot.hood.getPosition());
TELE.update();
return (System.currentTimeMillis() - stamp) < (time * 1000);
}
};
}
public Action shootAll(int vel, double shootTime, double spindexSpeed) {
return new Action() {
int ticker = 1;
double stamp = 0.0;
double velo = vel;
int shooterTicker = 0;
@Override
public boolean run(@NonNull TelemetryPacket telemetryPacket) {
TELE.addData("Velocity", flywheel.getVelo());
TELE.addData("Hood", robot.hood.getPosition());
TELE.update();
flywheel.manageFlywheel(vel);
velo = flywheel.getVelo();
drive.updatePoseEstimate();
Poses_V2.teleStart = drive.localizer.getPose();
robot.intake.setPower(-0.3);
if (ticker == 1) {
stamp = getRuntime();
}
ticker++;
robot.intake.setPower(0);
drive.updatePoseEstimate();
teleStart = drive.localizer.getPose();
if (getRuntime() - stamp < shootTime) {
if (shooterTicker == 0 && !servos.spinEqual(autoSpinStartPos)) {
robot.spin1.setPosition(autoSpinStartPos);
robot.spin2.setPosition(1 - autoSpinStartPos);
} else {
robot.transferServo.setPosition(transferServo_in);
shooterTicker++;
double prevSpinPos = robot.spin1.getPosition();
robot.spin1.setPosition(prevSpinPos + spindexSpeed);
robot.spin2.setPosition(1 - prevSpinPos - spindexSpeed);
}
return true;
} else {
robot.transferServo.setPosition(transferServo_out);
//spindexPos = spindexer_intakePos1;
spindexer.resetSpindexer();
spindexer.processIntake();
return false;
}
}
};
}
public Action shootAllAuto(double shootTime, double spindexSpeed) {
return new Action() {
int ticker = 1;
double stamp = 0.0;
double velo = 0.0;
int shooterTicker = 0;
@Override
public boolean run(@NonNull TelemetryPacket telemetryPacket) {
TELE.addData("Velocity", flywheel.getVelo());
TELE.addData("Hood", robot.hood.getPosition());
TELE.update();
velo = flywheel.getVelo();
drive.updatePoseEstimate();
Poses_V2.teleStart = drive.localizer.getPose();
robot.intake.setPower(-0.3);
if (ticker == 1) {
stamp = getRuntime();
}
ticker++;
robot.intake.setPower(0);
drive.updatePoseEstimate();
teleStart = drive.localizer.getPose();
if (getRuntime() - stamp < shootTime) {
if (shooterTicker == 0 && !servos.spinEqual(autoSpinStartPos)) {
robot.spin1.setPosition(autoSpinStartPos);
robot.spin2.setPosition(1 - autoSpinStartPos);
} else {
robot.transferServo.setPosition(transferServo_in);
shooterTicker++;
double prevSpinPos = robot.spin1.getPosition();
robot.spin1.setPosition(prevSpinPos + spindexSpeed);
robot.spin2.setPosition(1 - prevSpinPos - spindexSpeed);
}
return true;
} else {
robot.transferServo.setPosition(transferServo_out);
//spindexPos = spindexer_intakePos1;
spindexer.resetSpindexer();
spindexer.processIntake();
return false;
}
}
};
}
public Action intake(double intakeTime) {
return new Action() {
double stamp = 0.0;
int ticker = 0;
@Override
public boolean run(@NonNull TelemetryPacket telemetryPacket) {
if (ticker == 0) {
stamp = System.currentTimeMillis();
}
ticker++;
spindexer.processIntake();
robot.intake.setPower(1);
motif = turret.detectObelisk();
spindexer.ballCounterLight();
drive.updatePoseEstimate();
teleStart = drive.localizer.getPose();
TELE.addData("Velocity", flywheel.getVelo());
TELE.addData("Hood", robot.hood.getPosition());
TELE.update();
return (System.currentTimeMillis() - stamp) < (intakeTime * 1000);
}
};
}
public Action detectObelisk(
double time,
double posX,
double posY,
double posXTolerance,
double posYTolerance,
double turrPos
) {
boolean timeFallback = (time != 0.501);
boolean posXFallback = (posX != 0.501);
boolean posYFallback = (posY != 0.501);
return new Action() {
double stamp = 0.0;
int ticker = 0;
@Override
public boolean run(@NonNull TelemetryPacket telemetryPacket) {
drive.updatePoseEstimate();
Pose2d currentPose = drive.localizer.getPose();
if (ticker == 0) {
stamp = System.currentTimeMillis();
}
ticker++;
motif = turret.detectObelisk();
robot.turr1.setPosition(turrPos);
robot.turr2.setPosition(1 - turrPos);
boolean timeDone = timeFallback && (System.currentTimeMillis() - stamp) > time * 1000;
boolean xDone = posXFallback && Math.abs(currentPose.position.x - posX) < posXTolerance;
boolean yDone = posYFallback && Math.abs(currentPose.position.y - posY) < posYTolerance;
boolean shouldFinish = timeDone || xDone || yDone;
drive.updatePoseEstimate();
teleStart = drive.localizer.getPose();
TELE.addData("Velocity", flywheel.getVelo());
TELE.addData("Hood", robot.hood.getPosition());
TELE.update();
return !shouldFinish;
}
};
}
public Action manageFlywheel(
double vel,
double hoodPos,
double time,
double posX,
double posY,
double posXTolerance,
double posYTolerance
) {
boolean timeFallback = (time != 0.501);
boolean posXFallback = (posX != 0.501);
boolean posYFallback = (posY != 0.501);
return new Action() {
double stamp = 0.0;
int ticker = 0;
@Override
public boolean run(@NonNull TelemetryPacket telemetryPacket) {
drive.updatePoseEstimate();
Pose2d currentPose = drive.localizer.getPose();
if (ticker == 0) {
stamp = System.currentTimeMillis();
}
ticker++;
flywheel.manageFlywheel(vel);
robot.hood.setPosition(hoodPos);
boolean timeDone = timeFallback && (System.currentTimeMillis() - stamp) > time * 1000;
boolean xDone = posXFallback && Math.abs(currentPose.position.x - posX) < posXTolerance;
boolean yDone = posYFallback && Math.abs(currentPose.position.y - posY) < posYTolerance;
boolean shouldFinish = timeDone || xDone || yDone;
drive.updatePoseEstimate();
teleStart = drive.localizer.getPose();
TELE.addData("Velocity", flywheel.getVelo());
TELE.addData("Hood", robot.hood.getPosition());
TELE.update();
return !shouldFinish;
}
};
}
public Action manageShooterAuto(
double time,
double posX,
double posY,
double posXTolerance,
double posYTolerance
) {
boolean timeFallback = (time != 0.501);
boolean posXFallback = (posX != 0.501);
boolean posYFallback = (posY != 0.501);
return new Action() {
double stamp = 0.0;
int ticker = 0;
@Override
public boolean run(@NonNull TelemetryPacket telemetryPacket) {
drive.updatePoseEstimate();
Pose2d currentPose = drive.localizer.getPose();
if (ticker == 0) {
stamp = System.currentTimeMillis();
}
ticker++;
double robotX = drive.localizer.getPose().position.x;
double robotY = drive.localizer.getPose().position.y;
double robotHeading = drive.localizer.getPose().heading.toDouble();
double goalX = -15;
double goalY = 0;
double dx = robotX - goalX; // delta x from robot to goal
double dy = robotY - goalY; // delta y from robot to goal
Pose2d deltaPose = new Pose2d(dx, dy, robotHeading);
double distanceToGoal = Math.sqrt(dx * dx + dy * dy);
targetingSettings = targeting.calculateSettings
(robotX, robotY, robotHeading, 0.0, false);
turret.trackGoal(deltaPose);
robot.hood.setPosition(targetingSettings.hoodAngle);
flywheel.manageFlywheel(targetingSettings.flywheelRPM);
boolean timeDone = timeFallback && (System.currentTimeMillis() - stamp) > time * 1000;
boolean xDone = posXFallback && Math.abs(currentPose.position.x - posX) < posXTolerance;
boolean yDone = posYFallback && Math.abs(currentPose.position.y - posY) < posYTolerance;
boolean shouldFinish = timeDone || xDone || yDone;
drive.updatePoseEstimate();
teleStart = drive.localizer.getPose();
TELE.addData("Velocity", flywheel.getVelo());
TELE.addData("Hood", robot.hood.getPosition());
TELE.update();
return !shouldFinish;
}
};
}
public Action manageFlywheelAuto(
double time,
double posX,
double posY,
double posXTolerance,
double posYTolerance
) {
boolean timeFallback = (time != 0.501);
boolean posXFallback = (posX != 0.501);
boolean posYFallback = (posY != 0.501);
return new Action() {
double stamp = 0.0;
int ticker = 0;
@Override
public boolean run(@NonNull TelemetryPacket telemetryPacket) {
drive.updatePoseEstimate();
Pose2d currentPose = drive.localizer.getPose();
if (ticker == 0) {
stamp = System.currentTimeMillis();
}
ticker++;
double robotX = drive.localizer.getPose().position.x;
double robotY = drive.localizer.getPose().position.y;
double robotHeading = drive.localizer.getPose().heading.toDouble();
double goalX = -15;
double goalY = 0;
double dx = robotX - goalX; // delta x from robot to goal
double dy = robotY - goalY; // delta y from robot to goal
Pose2d deltaPose = new Pose2d(dx, dy, robotHeading);
double distanceToGoal = Math.sqrt(dx * dx + dy * dy);
targetingSettings = targeting.calculateSettings
(robotX, robotY, robotHeading, 0.0, false);
robot.hood.setPosition(targetingSettings.hoodAngle);
flywheel.manageFlywheel(targetingSettings.flywheelRPM);
boolean timeDone = timeFallback && (System.currentTimeMillis() - stamp) > time * 1000;
boolean xDone = posXFallback && Math.abs(currentPose.position.x - posX) < posXTolerance;
boolean yDone = posYFallback && Math.abs(currentPose.position.y - posY) < posYTolerance;
boolean shouldFinish = timeDone || xDone || yDone;
drive.updatePoseEstimate();
teleStart = drive.localizer.getPose();
TELE.addData("Velocity", flywheel.getVelo());
TELE.addData("Hood", robot.hood.getPosition());
TELE.update();
return !shouldFinish;
}
};
}
@Override
public void runOpMode() throws InterruptedException {
robot = new Robot(hardwareMap);
TELE = new MultipleTelemetry(
telemetry, FtcDashboard.getInstance().getTelemetry()
);
flywheel = new Flywheel(hardwareMap);
targeting = new Targeting();
targetingSettings = new Targeting.Settings(0.0, 0.0);
spindexer = new Spindexer(hardwareMap);
servos = new Servos(hardwareMap);
robot.limelight.pipelineSwitch(1);
turret = new Turret(robot, TELE, robot.limelight);
turret.manualSetTurret(0.4);
drive = new MecanumDrive(hardwareMap, new Pose2d(0, 0, 0));
robot.spin1.setPosition(autoSpinStartPos);
robot.spin2.setPosition(1 - autoSpinStartPos);
robot.transferServo.setPosition(transferServo_out);
TrajectoryActionBuilder shoot0 = null;
TrajectoryActionBuilder pickup1 = null;
TrajectoryActionBuilder shoot1 = null;
TrajectoryActionBuilder pickup2 = null;
TrajectoryActionBuilder shoot2 = null;
TrajectoryActionBuilder pickup3 = null;
TrajectoryActionBuilder shoot3 = null;
robot.limelight.start();
robot.light.setPosition(1);
while (opModeInInit()) {
robot.hood.setPosition(shoot0Hood);
if (gamepad2.crossWasPressed()) {
redAlliance = !redAlliance;
}
if (redAlliance) {
robot.light.setPosition(0.28);
// ---- FIRST SHOT ----
x1 = rx1;
y1 = ry1;
h1 = rh1;
// ---- PICKUP PATH ----
x2a = rx2a;
y2a = ry2a;
h2a = rh2a;
x2b = rx2b;
y2b = ry2b;
h2b = rh2b;
x3a = rx3a;
y3a = ry3a;
h3a = rh3a;
x3b = rx3b;
y3b = ry3b;
h3b = rh3b;
x4a = rx4a;
y4a = ry4a;
h4a = rh4a;
x4b = rx4b;
y4b = ry4b;
h4b = rh4b;
xPrep = rxPrep;
yPrep = ryPrep;
hPrep = rhPrep;
xShoot = rShootX;
yShoot = rShootY;
hShoot = rShootH;
} else {
robot.light.setPosition(0.6);
// ---- FIRST SHOT ----
x1 = bx1;
y1 = by1;
h1 = bh1;
// ---- PICKUP PATH ----
x2a = bx2a;
y2a = by2a;
h2a = bh2a;
x2b = bx2b;
y2b = by2b;
h2b = bh2b;
x3a = bx3a;
y3a = by3a;
h3a = bh3a;
x3b = bx3b;
y3b = by3b;
h3b = bh3b;
x4a = bx4a;
y4a = by4a;
h4a = bh4a;
x4b = bx4b;
y4b = by4b;
h4b = bh4b;
xPrep = bxPrep;
yPrep = byPrep;
hPrep = bhPrep;
xShoot = bShootX;
yShoot = bShootY;
hShoot = bShootH;
}
shoot0 = drive.actionBuilder(new Pose2d(0, 0, 0))
.strafeToLinearHeading(new Vector2d(x1, y1), h1);
pickup1 = drive.actionBuilder(new Pose2d(x1, y1, h1))
.strafeToLinearHeading(new Vector2d(x2a, y2a), h2a)
.strafeToLinearHeading(new Vector2d(x2b, y2b), h2b,
new TranslationalVelConstraint(pickup1Speed));
shoot1 = drive.actionBuilder(new Pose2d(x2b, y2b, h2b))
.strafeToLinearHeading(new Vector2d(xPrep, yPrep), hPrep)
.strafeToLinearHeading(new Vector2d(xShoot, yShoot), hShoot);
pickup2 = drive.actionBuilder(new Pose2d(xShoot, yShoot, hShoot))
.strafeToLinearHeading(new Vector2d(x3a, y3a), h3a)
.strafeToLinearHeading(new Vector2d(x3b, y3b), h3b,
new TranslationalVelConstraint(pickup1Speed));
shoot2 = drive.actionBuilder(new Pose2d(x3b, y3b, h3b))
.strafeToLinearHeading(new Vector2d(xPrep, yPrep), hPrep)
.strafeToLinearHeading(new Vector2d(xShoot, yShoot), hShoot);
pickup3 = drive.actionBuilder(new Pose2d(x1, y1, h1))
.strafeToLinearHeading(new Vector2d(x4a, y4a), h4a)
.strafeToLinearHeading(new Vector2d(x4b, y4b), h4b,
new TranslationalVelConstraint(pickup1Speed));
shoot3 = drive.actionBuilder(new Pose2d(x4b, y4b, h4b))
.strafeToLinearHeading(new Vector2d(xPrep, yPrep), hPrep)
.strafeToLinearHeading(new Vector2d(xShoot, yShoot), hShoot);
TELE.addData("Red?", redAlliance);
TELE.update();
}
waitForStart();
if (isStopRequested()) return;
if (opModeIsActive()) {
robot.transfer.setPower(1);
assert shoot0 != null;
Actions.runBlocking(
new ParallelAction(
shoot0.build(),
manageFlywheel(
shoot0Vel,
shoot0Hood,
flywheel0Time,
x1,
0.501,
shoot0XTolerance,
0.501
)
)
);
Actions.runBlocking(
shootAll((int) shoot0Vel, shoot0Time, shoot0SpinSpeedIncrease)
);
Actions.runBlocking(
new ParallelAction(
pickup1.build(),
manageFlywheel(
shootAllVelocity,
shootAllHood,
pickup1Time,
x2b,
y2b,
pickup1XTolerance,
pickup1YTolerance
),
intake(intake1Time)
)
);
Actions.runBlocking(
new ParallelAction(
manageFlywheel(
shootAllVelocity,
shootAllHood,
shoot1Time,
0.501,
0.501,
0.501,
0.501
),
shoot1.build(),
prepareShootAll(shoot1Time)
)
);
Actions.runBlocking(
new ParallelAction(
manageShooterAuto(
shootAllTime,
0.501,
0.501,
0.501,
0.501
),
shootAllAuto(shootAllTime, spindexerSpeedIncrease)
)
);
Actions.runBlocking(
new ParallelAction(
pickup2.build(),
manageShooterAuto(
normalIntakeTime,
x2b,
y2b,
pickup1XTolerance,
pickup1YTolerance
),
intake(normalIntakeTime)
)
);
Actions.runBlocking(
new ParallelAction(
manageFlywheelAuto(
shootCycleTime,
0.501,
0.501,
0.501,
0.501
),
shoot2.build(),
prepareShootAll(shootCycleTime)
)
);
Actions.runBlocking(
new ParallelAction(
manageShooterAuto(
shootAllTime,
0.501,
0.501,
0.501,
0.501
),
shootAllAuto(shootAllTime, spindexerSpeedIncrease)
)
);
Actions.runBlocking(
new ParallelAction(
pickup3.build(),
manageShooterAuto(
normalIntakeTime,
x2b,
y2b,
pickup1XTolerance,
pickup1YTolerance
),
intake(normalIntakeTime)
)
);
Actions.runBlocking(
new ParallelAction(
manageFlywheelAuto(
shootCycleTime,
0.501,
0.501,
0.501,
0.501
),
shoot3.build(),
prepareShootAll(shootCycleTime)
)
);
Actions.runBlocking(
new ParallelAction(
manageShooterAuto(
shootAllTime,
0.501,
0.501,
0.501,
0.501
),
shootAllAuto(shootAllTime, spindexerSpeedIncrease)
)
);
TELE.addLine("finished");
TELE.update();
sleep(2000);
}
}
}

804
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/autonomous/Auto_LT_Close_GateCycle.java Normal file
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@@ -0,0 +1,804 @@
package org.firstinspires.ftc.teamcode.autonomous;
import static org.firstinspires.ftc.teamcode.constants.Color.redAlliance;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.bHGate;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.bShoot1Tangent;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.bShootH;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.bShootX;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.bShootY;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.bXGate;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.bYGate;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.bh1;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.bh2a;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.bh2b;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.bh2c;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.bt2a;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.bt2b;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.bt2c;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.bx1;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.bx2a;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.bx2b;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.bx2c;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.by1;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.by2a;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.by2b;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.by2c;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.rHGate;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.rShoot1Tangent;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.rShootH;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.rShootX;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.rShootY;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.rXGate;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.rYGate;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.rh1;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.rh2a;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.rh2b;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.rh2c;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.rt2a;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.rt2b;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.rt2c;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.rx1;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.rx2a;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.rx2b;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.rx2c;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.ry1;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.ry2a;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.ry2b;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.ry2c;
import static org.firstinspires.ftc.teamcode.constants.Poses_V2.teleStart;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.transferServo_in;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.transferServo_out;
import androidx.annotation.NonNull;
import com.acmerobotics.dashboard.FtcDashboard;
import com.acmerobotics.dashboard.config.Config;
import com.acmerobotics.dashboard.telemetry.MultipleTelemetry;
import com.acmerobotics.dashboard.telemetry.TelemetryPacket;
import com.acmerobotics.roadrunner.Action;
import com.acmerobotics.roadrunner.ParallelAction;
import com.acmerobotics.roadrunner.Pose2d;
import com.acmerobotics.roadrunner.TrajectoryActionBuilder;
import com.acmerobotics.roadrunner.TranslationalVelConstraint;
import com.acmerobotics.roadrunner.Vector2d;
import com.acmerobotics.roadrunner.ftc.Actions;
import com.qualcomm.robotcore.eventloop.opmode.Autonomous;
import com.qualcomm.robotcore.eventloop.opmode.LinearOpMode;
import com.qualcomm.robotcore.hardware.Servo;
import org.firstinspires.ftc.teamcode.libs.RR.MecanumDrive;
import org.firstinspires.ftc.teamcode.utils.Flywheel;
import org.firstinspires.ftc.teamcode.utils.Robot;
import org.firstinspires.ftc.teamcode.utils.Servos;
import org.firstinspires.ftc.teamcode.utils.Spindexer;
import org.firstinspires.ftc.teamcode.utils.Targeting;
import org.firstinspires.ftc.teamcode.utils.Turret;
@Autonomous(preselectTeleOp = "TeleopV3")
@Config
public class Auto_LT_Close_GateCycle extends LinearOpMode {
public static double shoot0Vel = 2300, shoot0Hood = 0.93;
public static double autoSpinStartPos = 0.2;
public static double shoot0SpinSpeedIncrease = 0.014;
public static double spindexerSpeedIncrease = 0.02;
public static double obeliskTurrPos = 0.53;
public static double gatePickupTime = 3.0;
public static double shoot1Turr = 0.57;
public static double shoot0XTolerance = 1.0;
public static double turretShootPos = 0.72;
public static double shootAllTime = 1.8;
public static double shoot0Time = 1.6;
public static double intake1Time = 3.0;
public static double flywheel0Time = 3.5;
public static double pickup1Speed = 80.0;
// ---- SECOND SHOT / PICKUP ----
public static double shoot1Vel = 2300;
public static double shoot1Hood = 0.93;
public static double shootAllVelocity = 2500;
public static double shootAllHood = 0.78;
// ---- PICKUP TIMING ----
public static double pickup1Time = 3.0;
// ---- PICKUP POSITION TOLERANCES ----
public static double pickup1XTolerance = 2.0;
public static double pickup1YTolerance = 2.0;
// ---- OBELISK DETECTION ----
public static double obelisk1Time = 1.5;
public static double obelisk1XTolerance = 2.0;
public static double obelisk1YTolerance = 2.0;
public static double shoot1ToleranceX = 2.0;
public static double shoot1ToleranceY = 2.0;
public static double shoot1Time = 2.0;
public static double shootCycleTime = 2.5;
public int motif = 0;
Robot robot;
MultipleTelemetry TELE;
MecanumDrive drive;
Servos servos;
Spindexer spindexer;
Flywheel flywheel;
Turret turret;
Targeting targeting;
Targeting.Settings targetingSettings;
private double x1, y1, h1;
private double x2a, y2a, h2a, t2a;
private double x2b, y2b, h2b, t2b;
private double x2c, y2c, h2c, t2c;
private double xShoot, yShoot, hShoot;
private double xGate, yGate, hGate;
private double shoot1Tangent;
public Action prepareShootAll(double time) {
return new Action() {
double stamp = 0.0;
int ticker = 0;
@Override
public boolean run(@NonNull TelemetryPacket telemetryPacket) {
if (ticker == 0) {
stamp = System.currentTimeMillis();
}
ticker++;
robot.spin1.setPosition(autoSpinStartPos);
robot.spin2.setPosition(1 - autoSpinStartPos);
robot.transferServo.setPosition(transferServo_out);
turret.manualSetTurret(turretShootPos);
robot.intake.setPower(-((System.currentTimeMillis() - stamp)) / 1000);
return (System.currentTimeMillis() - stamp) < (time * 1000);
}
};
}
public Action shootAll(int vel, double shootTime, double spindexSpeed) {
return new Action() {
int ticker = 1;
double stamp = 0.0;
double velo = vel;
int shooterTicker = 0;
@Override
public boolean run(@NonNull TelemetryPacket telemetryPacket) {
TELE.addData("Velocity", velo);
TELE.addLine("shooting");
TELE.update();
flywheel.manageFlywheel(vel);
velo = flywheel.getVelo();
drive.updatePoseEstimate();
teleStart = drive.localizer.getPose();
robot.intake.setPower(-0.3);
if (ticker == 1) {
stamp = getRuntime();
}
ticker++;
robot.intake.setPower(0);
if (getRuntime() - stamp < shootTime) {
if (shooterTicker == 0 && !servos.spinEqual(autoSpinStartPos)) {
robot.spin1.setPosition(autoSpinStartPos);
robot.spin2.setPosition(1 - autoSpinStartPos);
} else {
robot.transferServo.setPosition(transferServo_in);
shooterTicker++;
double prevSpinPos = robot.spin1.getPosition();
robot.spin1.setPosition(prevSpinPos + spindexSpeed);
robot.spin2.setPosition(1 - prevSpinPos - spindexSpeed);
}
return true;
} else {
robot.transferServo.setPosition(transferServo_out);
//spindexPos = spindexer_intakePos1;
spindexer.resetSpindexer();
spindexer.processIntake();
return false;
}
}
};
}
public Action shootAllAuto(double shootTime, double spindexSpeed) {
return new Action() {
int ticker = 1;
double stamp = 0.0;
double velo = 0.0;
int shooterTicker = 0;
@Override
public boolean run(@NonNull TelemetryPacket telemetryPacket) {
TELE.addData("Velocity", velo);
TELE.addLine("shooting");
TELE.update();
velo = flywheel.getVelo();
drive.updatePoseEstimate();
teleStart = drive.localizer.getPose();
robot.intake.setPower(-0.3);
if (ticker == 1) {
stamp = getRuntime();
}
ticker++;
robot.intake.setPower(0);
if (getRuntime() - stamp < shootTime) {
if (shooterTicker == 0 && !servos.spinEqual(autoSpinStartPos)) {
robot.spin1.setPosition(autoSpinStartPos);
robot.spin2.setPosition(1 - autoSpinStartPos);
} else {
robot.transferServo.setPosition(transferServo_in);
shooterTicker++;
double prevSpinPos = robot.spin1.getPosition();
robot.spin1.setPosition(prevSpinPos + spindexSpeed);
robot.spin2.setPosition(1 - prevSpinPos - spindexSpeed);
}
return true;
} else {
robot.transferServo.setPosition(transferServo_out);
//spindexPos = spindexer_intakePos1;
spindexer.resetSpindexer();
spindexer.processIntake();
return false;
}
}
};
}
public Action intake(double intakeTime) {
return new Action() {
double stamp = 0.0;
int ticker = 0;
@Override
public boolean run(@NonNull TelemetryPacket telemetryPacket) {
if (ticker == 0) {
stamp = System.currentTimeMillis();
}
ticker++;
spindexer.processIntake();
robot.intake.setPower(1);
motif = turret.detectObelisk();
spindexer.ballCounterLight();
return (System.currentTimeMillis() - stamp) < (intakeTime * 1000);
}
};
}
public Action detectObelisk(
double time,
double posX,
double posY,
double posXTolerance,
double posYTolerance,
double turrPos
) {
boolean timeFallback = (time != 0.501);
boolean posXFallback = (posX != 0.501);
boolean posYFallback = (posY != 0.501);
return new Action() {
double stamp = 0.0;
int ticker = 0;
@Override
public boolean run(@NonNull TelemetryPacket telemetryPacket) {
drive.updatePoseEstimate();
Pose2d currentPose = drive.localizer.getPose();
if (ticker == 0) {
stamp = System.currentTimeMillis();
}
ticker++;
motif = turret.detectObelisk();
robot.turr1.setPosition(turrPos);
robot.turr2.setPosition(1 - turrPos);
boolean timeDone = timeFallback && (System.currentTimeMillis() - stamp) > time * 1000;
boolean xDone = posXFallback && Math.abs(currentPose.position.x - posX) < posXTolerance;
boolean yDone = posYFallback && Math.abs(currentPose.position.y - posY) < posYTolerance;
boolean shouldFinish = timeDone || xDone || yDone;
return !shouldFinish;
}
};
}
public Action manageFlywheel(
double vel,
double hoodPos,
double time,
double posX,
double posY,
double posXTolerance,
double posYTolerance
) {
boolean timeFallback = (time != 0.501);
boolean posXFallback = (posX != 0.501);
boolean posYFallback = (posY != 0.501);
return new Action() {
double stamp = 0.0;
int ticker = 0;
@Override
public boolean run(@NonNull TelemetryPacket telemetryPacket) {
drive.updatePoseEstimate();
Pose2d currentPose = drive.localizer.getPose();
if (ticker == 0) {
stamp = System.currentTimeMillis();
}
ticker++;
flywheel.manageFlywheel(vel);
robot.hood.setPosition(hoodPos);
boolean timeDone = timeFallback && (System.currentTimeMillis() - stamp) > time * 1000;
boolean xDone = posXFallback && Math.abs(currentPose.position.x - posX) < posXTolerance;
boolean yDone = posYFallback && Math.abs(currentPose.position.y - posY) < posYTolerance;
boolean shouldFinish = timeDone || xDone || yDone;
return !shouldFinish;
}
};
}
public Action manageShooterAuto(
double time,
double posX,
double posY,
double posXTolerance,
double posYTolerance
) {
boolean timeFallback = (time != 0.501);
boolean posXFallback = (posX != 0.501);
boolean posYFallback = (posY != 0.501);
return new Action() {
double stamp = 0.0;
int ticker = 0;
@Override
public boolean run(@NonNull TelemetryPacket telemetryPacket) {
drive.updatePoseEstimate();
Pose2d currentPose = drive.localizer.getPose();
if (ticker == 0) {
stamp = System.currentTimeMillis();
}
ticker++;
double robotX = drive.localizer.getPose().position.x;
double robotY = drive.localizer.getPose().position.y;
double robotHeading = drive.localizer.getPose().heading.toDouble();
double goalX = -15;
double goalY = 0;
double dx = robotX - goalX; // delta x from robot to goal
double dy = robotY - goalY; // delta y from robot to goal
Pose2d deltaPose = new Pose2d(dx, dy, robotHeading);
double distanceToGoal = Math.sqrt(dx * dx + dy * dy);
targetingSettings = targeting.calculateSettings
(robotX, robotY, robotHeading, 0.0, false);
turret.trackGoal(deltaPose);
robot.hood.setPosition(targetingSettings.hoodAngle);
flywheel.manageFlywheel(targetingSettings.flywheelRPM);
boolean timeDone = timeFallback && (System.currentTimeMillis() - stamp) > time * 1000;
boolean xDone = posXFallback && Math.abs(currentPose.position.x - posX) < posXTolerance;
boolean yDone = posYFallback && Math.abs(currentPose.position.y - posY) < posYTolerance;
boolean shouldFinish = timeDone || xDone || yDone;
return !shouldFinish;
}
};
}
public Action manageFlywheelAuto(
double time,
double posX,
double posY,
double posXTolerance,
double posYTolerance
) {
boolean timeFallback = (time != 0.501);
boolean posXFallback = (posX != 0.501);
boolean posYFallback = (posY != 0.501);
return new Action() {
double stamp = 0.0;
int ticker = 0;
@Override
public boolean run(@NonNull TelemetryPacket telemetryPacket) {
drive.updatePoseEstimate();
Pose2d currentPose = drive.localizer.getPose();
if (ticker == 0) {
stamp = System.currentTimeMillis();
}
ticker++;
double robotX = drive.localizer.getPose().position.x;
double robotY = drive.localizer.getPose().position.y;
double robotHeading = drive.localizer.getPose().heading.toDouble();
double goalX = -15;
double goalY = 0;
double dx = robotX - goalX; // delta x from robot to goal
double dy = robotY - goalY; // delta y from robot to goal
Pose2d deltaPose = new Pose2d(dx, dy, robotHeading);
double distanceToGoal = Math.sqrt(dx * dx + dy * dy);
targetingSettings = targeting.calculateSettings
(robotX, robotY, robotHeading, 0.0, false);
robot.hood.setPosition(targetingSettings.hoodAngle);
flywheel.manageFlywheel(targetingSettings.flywheelRPM);
boolean timeDone = timeFallback && (System.currentTimeMillis() - stamp) > time * 1000;
boolean xDone = posXFallback && Math.abs(currentPose.position.x - posX) < posXTolerance;
boolean yDone = posYFallback && Math.abs(currentPose.position.y - posY) < posYTolerance;
boolean shouldFinish = timeDone || xDone || yDone;
return !shouldFinish;
}
};
}
@Override
public void runOpMode() throws InterruptedException {
hardwareMap.get(Servo.class, "light").setPosition(0);
robot = new Robot(hardwareMap);
TELE = new MultipleTelemetry(
telemetry, FtcDashboard.getInstance().getTelemetry()
);
flywheel = new Flywheel(hardwareMap);
targeting = new Targeting();
targetingSettings = new Targeting.Settings(0.0, 0.0);
spindexer = new Spindexer(hardwareMap);
servos = new Servos(hardwareMap);
robot.limelight.pipelineSwitch(1);
turret = new Turret(robot, TELE, robot.limelight);
turret.manualSetTurret(0.4);
drive = new MecanumDrive(hardwareMap, new Pose2d(0, 0, 0));
TrajectoryActionBuilder shoot0 = null;
TrajectoryActionBuilder pickup1 = null;
TrajectoryActionBuilder shoot1 = null;
TrajectoryActionBuilder gatePickup = null;
TrajectoryActionBuilder shootCycle = null;
robot.spin1.setPosition(autoSpinStartPos);
robot.spin2.setPosition(1 - autoSpinStartPos);
robot.transferServo.setPosition(transferServo_out);
robot.light.setPosition(1);
while (opModeInInit()) {
robot.hood.setPosition(shoot0Hood);
if (gamepad2.crossWasPressed()) {
redAlliance = !redAlliance;
}
if (redAlliance) {
robot.light.setPosition(0.28);
// ---- FIRST SHOT ----
x1 = rx1;
y1 = ry1;
h1 = rh1;
// ---- PICKUP PATH ----
x2a = rx2a;
y2a = ry2a;
h2a = rh2a;
t2a = rt2a;
x2b = rx2b;
y2b = ry2b;
h2b = rh2b;
t2b = rt2b;
x2c = rx2c;
y2c = ry2c;
h2c = rh2c;
t2c = rt2c;
xShoot = rShootX;
yShoot = rShootY;
hShoot = rShootH;
shoot1Tangent = rShoot1Tangent;
xGate = rXGate;
yGate = rYGate;
hGate = rHGate;
} else {
robot.light.setPosition(0.6);
// ---- FIRST SHOT ----
x1 = bx1;
y1 = by1;
h1 = bh1;
// ---- PICKUP PATH ----
x2a = bx2a;
y2a = by2a;
h2a = bh2a;
t2a = bt2a;
x2b = bx2b;
y2b = by2b;
h2b = bh2b;
t2b = bt2b;
x2c = bx2c;
y2c = by2c;
h2c = bh2c;
t2c = bt2c;
xShoot = bShootX;
yShoot = bShootY;
hShoot = bShootH;
shoot1Tangent = bShoot1Tangent;
xGate = bXGate;
yGate = bYGate;
hGate = bHGate;
}
shoot0 = drive.actionBuilder(new Pose2d(0, 0, 0))
.strafeToLinearHeading(new Vector2d(x1, y1), h1);
pickup1 = drive.actionBuilder(new Pose2d(x1, y1, h1))
.strafeToLinearHeading(new Vector2d(x2a, y2a), h2a)
.strafeToLinearHeading(new Vector2d(x2b, y2b), h2b,
new TranslationalVelConstraint(pickup1Speed));
shoot1 = drive.actionBuilder(new Pose2d(x2b, y2b, h2b))
.setReversed(true)
.splineTo(new Vector2d(x2a, y2a), shoot1Tangent)
.splineToSplineHeading(new Pose2d(xShoot, yShoot, hShoot), shoot1Tangent);
gatePickup = drive.actionBuilder(new Pose2d(xShoot, yShoot, hShoot))
.strafeToLinearHeading(new Vector2d(xGate, yGate), hGate);
shootCycle = drive.actionBuilder(new Pose2d(xGate, yGate, hGate))
.strafeToLinearHeading(new Vector2d(xShoot, yShoot), hShoot);
}
waitForStart();
if (isStopRequested()) return;
if (opModeIsActive()) {
robot.transfer.setPower(1);
assert shoot0 != null;
Actions.runBlocking(
new ParallelAction(
shoot0.build(),
manageFlywheel(
shoot0Vel,
shoot0Hood,
flywheel0Time,
x1,
0.501,
shoot0XTolerance,
0.501
)
)
);
Actions.runBlocking(
shootAll((int) shoot0Vel, shoot0Time, shoot0SpinSpeedIncrease)
);
Actions.runBlocking(
new ParallelAction(
pickup1.build(),
manageFlywheel(
shootAllVelocity,
shootAllHood,
pickup1Time,
x2b,
y2b,
pickup1XTolerance,
pickup1YTolerance
),
intake(intake1Time),
detectObelisk(
obelisk1Time,
x2b,
y2c,
obelisk1XTolerance,
obelisk1YTolerance,
obeliskTurrPos
)
)
);
motif = turret.detectObelisk();
Actions.runBlocking(
new ParallelAction(
manageFlywheel(
shootAllVelocity,
shootAllHood,
shoot1Time,
0.501,
0.501,
0.501,
0.501
),
shoot1.build(),
prepareShootAll(shoot1Time)
)
);
Actions.runBlocking(
new ParallelAction(
manageShooterAuto(
shootAllTime,
0.501,
0.501,
0.501,
0.501
),
shootAllAuto(shootAllTime, spindexerSpeedIncrease)
)
);
while (opModeIsActive()) {
Actions.runBlocking(
new ParallelAction(
gatePickup.build(),
manageShooterAuto(
gatePickupTime,
x2b,
y2b,
pickup1XTolerance,
pickup1YTolerance
),
intake(gatePickupTime)
)
);
Actions.runBlocking(
new ParallelAction(
manageFlywheelAuto(
shootCycleTime,
0.501,
0.501,
0.501,
0.501
),
shootCycle.build(),
prepareShootAll(shootCycleTime)
)
);
Actions.runBlocking(
new ParallelAction(
manageShooterAuto(
shootAllTime,
0.501,
0.501,
0.501,
0.501
),
shootAllAuto(shootAllTime, spindexerSpeedIncrease)
)
);
}
}
}
}

20
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/autonomous/AutoClose_V3.java → TeamCode/src/main/java/org/firstinspires/ftc/teamcode/autonomous/disabled/AutoClose_V3.java
View File

@@ -1,4 +1,4 @@
package org.firstinspires.ftc.teamcode.autonomous;
package org.firstinspires.ftc.teamcode.autonomous.disabled;
import static org.firstinspires.ftc.teamcode.constants.Color.*;
import static org.firstinspires.ftc.teamcode.constants.Poses.*;
@@ -21,6 +21,7 @@ import com.acmerobotics.roadrunner.ftc.Actions;
import com.qualcomm.hardware.limelightvision.LLResult;
import com.qualcomm.hardware.limelightvision.LLResultTypes;
import com.qualcomm.robotcore.eventloop.opmode.Autonomous;
import com.qualcomm.robotcore.eventloop.opmode.Disabled;
import com.qualcomm.robotcore.eventloop.opmode.LinearOpMode;
import org.firstinspires.ftc.robotcore.external.navigation.DistanceUnit;
@@ -31,6 +32,7 @@ import org.firstinspires.ftc.teamcode.utils.Servos;
import java.util.List;
@Disabled
@Config
@Autonomous(preselectTeleOp = "TeleopV3")
public class AutoClose_V3 extends LinearOpMode {
@@ -133,8 +135,8 @@ public class AutoClose_V3 extends LinearOpMode {
robot.shooter2.setPower(powPID);
spinPID = servo.setSpinPos(spindexer);
robot.spin1.setPower(spinPID);
robot.spin2.setPower(-spinPID);
robot.spin1.setPosition(spinPID);
robot.spin2.setPosition(-spinPID);
TELE.addData("Velocity", velo);
TELE.addLine("spindex");
TELE.update();
@@ -143,8 +145,8 @@ public class AutoClose_V3 extends LinearOpMode {
teleStart = drive.localizer.getPose();
if (servo.spinEqual(spindexer)){
robot.spin1.setPower(0);
robot.spin2.setPower(0);
robot.spin1.setPosition(0);
robot.spin2.setPosition(0);
return false;
} else {
return true;
@@ -224,8 +226,8 @@ public class AutoClose_V3 extends LinearOpMode {
if (!servo.spinEqual(position)){
double spinPID = servo.setSpinPos(position);
robot.spin1.setPower(spinPID);
robot.spin2.setPower(-spinPID);
robot.spin1.setPosition(spinPID);
robot.spin2.setPosition(-spinPID);
}
if (s1D < 43 && servo.spinEqual(position) && getRuntime() - stamp > 0.5){
@@ -259,8 +261,8 @@ public class AutoClose_V3 extends LinearOpMode {
robot.intake.setPower(1);
if ((s1D < 43.0 && s2D < 60.0 && s3D < 33.0) || getRuntime() - stamp > intakeTime) {
robot.spin1.setPower(0);
robot.spin2.setPower(0);
robot.spin1.setPosition(0);
robot.spin2.setPosition(0);
if (getRuntime() - stamp - intakeTime < 1){
pow = -2*(getRuntime() - stamp - intakeTime);
return true;

24
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/autonomous/AutoFar_V1.java → TeamCode/src/main/java/org/firstinspires/ftc/teamcode/autonomous/disabled/AutoFar_V1.java
View File

@@ -1,4 +1,4 @@
package org.firstinspires.ftc.teamcode.autonomous;
package org.firstinspires.ftc.teamcode.autonomous.disabled;
import static org.firstinspires.ftc.teamcode.constants.Color.*;
import static org.firstinspires.ftc.teamcode.constants.Poses.*;
@@ -21,6 +21,7 @@ import com.acmerobotics.roadrunner.ftc.Actions;
import com.qualcomm.hardware.limelightvision.LLResult;
import com.qualcomm.hardware.limelightvision.LLResultTypes;
import com.qualcomm.robotcore.eventloop.opmode.Autonomous;
import com.qualcomm.robotcore.eventloop.opmode.Disabled;
import com.qualcomm.robotcore.eventloop.opmode.LinearOpMode;
import org.firstinspires.ftc.robotcore.external.navigation.DistanceUnit;
@@ -30,9 +31,10 @@ import org.firstinspires.ftc.teamcode.utils.Robot;
import org.firstinspires.ftc.teamcode.utils.Servos;
import java.util.List;
@Disabled
@Config
@Autonomous(preselectTeleOp = "TeleopV3")
@Autonomous
public class AutoFar_V1 extends LinearOpMode {
Robot robot;
MultipleTelemetry TELE;
@@ -133,8 +135,8 @@ public class AutoFar_V1 extends LinearOpMode {
robot.shooter2.setPower(powPID);
spinPID = servo.setSpinPos(spindexer);
robot.spin1.setPower(spinPID);
robot.spin2.setPower(-spinPID);
robot.spin1.setPosition(spinPID);
robot.spin2.setPosition(-spinPID);
TELE.addData("Velocity", velo);
TELE.addLine("spindex");
TELE.update();
@@ -143,8 +145,8 @@ public class AutoFar_V1 extends LinearOpMode {
teleStart = drive.localizer.getPose();
if (servo.spinEqual(spindexer)){
robot.spin1.setPower(0);
robot.spin2.setPower(0);
robot.spin1.setPosition(0);
robot.spin2.setPosition(0);
return false;
} else {
return true;
@@ -224,8 +226,8 @@ public class AutoFar_V1 extends LinearOpMode {
if (!servo.spinEqual(position)){
double spinPID = servo.setSpinPos(position);
robot.spin1.setPower(spinPID);
robot.spin2.setPower(-spinPID);
robot.spin1.setPosition(spinPID);
robot.spin2.setPosition(-spinPID);
}
if (s1D < 43 && servo.spinEqual(position) && getRuntime() - stamp > 0.5){
@@ -259,8 +261,8 @@ public class AutoFar_V1 extends LinearOpMode {
robot.intake.setPower(1);
if ((s1D < 43.0 && s2D < 60.0 && s3D < 33.0) || getRuntime() - stamp > intakeTime) {
robot.spin1.setPower(0);
robot.spin2.setPower(0);
robot.spin1.setPosition(0);
robot.spin2.setPosition(0);
if (getRuntime() - stamp - intakeTime < 1){
pow = -2*(getRuntime() - stamp - intakeTime);
return true;

50
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/autonomous/ProtoAutoClose_V3.java → TeamCode/src/main/java/org/firstinspires/ftc/teamcode/autonomous/disabled/ProtoAutoClose_V3.java
View File

@@ -1,4 +1,4 @@
package org.firstinspires.ftc.teamcode.autonomous;
package org.firstinspires.ftc.teamcode.autonomous.disabled;
import static org.firstinspires.ftc.teamcode.constants.Color.redAlliance;
import static org.firstinspires.ftc.teamcode.constants.Poses.bh1;
@@ -72,6 +72,7 @@ import com.acmerobotics.roadrunner.ftc.Actions;
import com.qualcomm.hardware.limelightvision.LLResult;
import com.qualcomm.hardware.limelightvision.LLResultTypes;
import com.qualcomm.robotcore.eventloop.opmode.Autonomous;
import com.qualcomm.robotcore.eventloop.opmode.Disabled;
import com.qualcomm.robotcore.eventloop.opmode.LinearOpMode;
import org.firstinspires.ftc.robotcore.external.navigation.DistanceUnit;
@@ -81,7 +82,7 @@ import org.firstinspires.ftc.teamcode.utils.Robot;
import org.firstinspires.ftc.teamcode.utils.Servos;
import java.util.List;
@Disabled
@Config
@Autonomous(preselectTeleOp = "TeleopV3")
public class ProtoAutoClose_V3 extends LinearOpMode {
@@ -182,8 +183,8 @@ public class ProtoAutoClose_V3 extends LinearOpMode {
velo = flywheel.getVelo();
spinPID = servo.setSpinPos(spindexer);
robot.spin1.setPower(spinPID);
robot.spin2.setPower(-spinPID);
robot.spin1.setPosition(spinPID);
robot.spin2.setPosition(-spinPID);
TELE.addData("Velocity", velo);
TELE.addLine("spindex");
TELE.update();
@@ -192,8 +193,8 @@ public class ProtoAutoClose_V3 extends LinearOpMode {
teleStart = drive.localizer.getPose();
if (servo.spinEqual(spindexer)) {
robot.spin1.setPower(0);
robot.spin2.setPower(0);
robot.spin1.setPosition(0);
robot.spin2.setPosition(0);
return false;
} else {
@@ -203,6 +204,7 @@ public class ProtoAutoClose_V3 extends LinearOpMode {
};
}
public Action Shoot(int vel) {
return new Action() {
int ticker = 1;
@@ -240,8 +242,8 @@ public class ProtoAutoClose_V3 extends LinearOpMode {
robot.transferServo.setPosition(transferServo_in);
robot.spin1.setPower(-spinPow);
robot.spin2.setPower(spinPow);
robot.spin1.setPosition(-spinPow);
robot.spin2.setPosition(spinPow);
return true;
} else {
@@ -271,12 +273,12 @@ public class ProtoAutoClose_V3 extends LinearOpMode {
if (ticker % 12 < 6) {
robot.spin1.setPower(-1);
robot.spin2.setPower(1);
robot.spin1.setPosition(-1);
robot.spin2.setPosition(1);
} else {
robot.spin1.setPower(1);
robot.spin2.setPower(-1);
robot.spin1.setPosition(1);
robot.spin2.setPosition(-1);
}
if (getRuntime() - stamp > jamTime+0.4) {
@@ -317,20 +319,20 @@ public class ProtoAutoClose_V3 extends LinearOpMode {
if (ticker % 60 < 12) {
robot.spin1.setPower(-1);
robot.spin2.setPower(1);
robot.spin1.setPosition(-1);
robot.spin2.setPosition(1);
} else if (ticker % 60 < 30) {
robot.spin1.setPower(-0.5);
robot.spin2.setPower(0.5);
robot.spin1.setPosition(-0.5);
robot.spin2.setPosition(0.5);
}
else if (ticker % 60 < 42) {
robot.spin1.setPower(1);
robot.spin2.setPower(-1);
robot.spin1.setPosition(1);
robot.spin2.setPosition(-1);
}
else {
robot.spin1.setPower(0.5);
robot.spin2.setPower(-0.5);
robot.spin1.setPosition(0.5);
robot.spin2.setPosition(-0.5);
}
robot.intake.setPower(1);
TELE.addData("Reverse?", reverse);
@@ -338,11 +340,11 @@ public class ProtoAutoClose_V3 extends LinearOpMode {
if (getRuntime() - stamp > intakeTime) {
if (reverse) {
robot.spin1.setPower(-1);
robot.spin2.setPower(1);
robot.spin1.setPosition(-1);
robot.spin2.setPosition(1);
} else {
robot.spin1.setPower(1);
robot.spin2.setPower(-1);
robot.spin1.setPosition(1);
robot.spin2.setPosition(-1);
}
return false;
} else {

6
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/constants/Color.java
View File

@@ -1,5 +1,11 @@
package org.firstinspires.ftc.teamcode.constants;
import com.acmerobotics.dashboard.config.Config;
@Config
public class Color {
public static boolean redAlliance = true;
public static double Light0 = 0.28, Light1 = 0.67, Light2 = 0.36, Light3 = 0.5;
public static double colorFilterAlpha = 0.15;
}

17
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/constants/Poses.java
View File

@@ -14,17 +14,17 @@ public class Poses {
public static Pose2d goalPose = new Pose2d(-10, 0, 0);
public static double rx1 = 40, ry1 = -7, rh1 = 0;
public static double rx1 = 20, ry1 = 0.5, rh1 = Math.toRadians(0.1);
public static double rx2a = 41, ry2a = 18, rh2a = Math.toRadians(140);
public static double rx2b = 23, ry2b = 36, rh2b = Math.toRadians(140);
public static double rx2b = 23, ry2b = 36, rh2b = Math.toRadians(140.1);
public static double rx2c = 34, ry2c = 50, rh2c = Math.toRadians(140);
public static double rx3a = 55, ry3a = 39, rh3a = Math.toRadians(140);
public static double rx3b = 33, ry3b = 61, rh3b = Math.toRadians(140);
public static double rx3b = 38, ry3b = 56, rh3b = Math.toRadians(140.1);
public static double rx4a = 72, ry4a = 55, rh4a = Math.toRadians(140);
public static double rx4b = 48, ry4b = 79, rh4b = Math.toRadians(140);
public static double rx4a = 72, ry4a = 65, rh4a = Math.toRadians(145);
public static double rx4b = 37, ry4b = 85, rh4b = Math.toRadians(145.1);
public static double bx1 = 40, by1 = 7, bh1 = 0;
public static double bx2a = 45, by2a = -18, bh2a = Math.toRadians(-140);
@@ -38,6 +38,13 @@ public class Poses {
public static double bx4b = 48, by4b = -79, bh4b = Math.toRadians(-140);
public static double rfx1 = 10, rfy1 = 0, rfh1 = 0; //TODO: test this
public static double rShootX = 40, rShootY = -7, rShootH = Math.toRadians(50);
public static double rxPrep = 45, ryPrep = 10, rhPrep = Math.toRadians(50);
public static double bShootX = 20, bShootY = 30, bShootH = Math.toRadians(140);
public static double bxPrep = 50, byPrep = -10, bhPrep = Math.toRadians(140);
public static Pose2d teleStart = new Pose2d(0, 0, 0);
}

86
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/constants/Poses_LT_Indexed.java Normal file
View File

@@ -0,0 +1,86 @@
package org.firstinspires.ftc.teamcode.constants;
import com.acmerobotics.dashboard.config.Config;
import com.acmerobotics.roadrunner.Pose2d;
@Config
public class Poses_LT_Indexed {
// ================= FIELD / GOAL =================
public static double goalHeight = 42; // inches
public static double turretHeight = 12;
public static double relativeGoalHeight = goalHeight - turretHeight;
public static Pose2d goalPose = new Pose2d(-10, 0, 0);
public static Pose2d teleStart = new Pose2d(0, 0, 0);
// =================================================
// ================= RED ALLIANCE ==================
// =================================================
// -------- FIRST SHOT --------
public static double rx1 = 20, ry1 = 0, rh1 = 0;
// -------- PICKUP 1 --------
public static double rx2a = 55, ry2a = 39, rh2a = Math.toRadians(140), rt2a = Math.toRadians(Math.PI / 2);
public static double rx2b = 33, ry2b = 61, rh2b = Math.toRadians(140), rt2b = Math.toRadians(Math.PI / 2);
public static double rx2c = 34, ry2c = 50, rh2c = Math.toRadians(140), rt2c = Math.toRadians(Math.PI / 2);
// -------- OPEN GATE --------
public static double rXGate = 30, rYGate = 63, rHGate = Math.toRadians(179);
// -------- PICKUP 2 --------
public static double rx3 = 0, ry3 = 0, rh3 = 0, rt3 = 0;
public static double rx3a = 55, ry3a = 39, rh3a = Math.toRadians(140);
public static double rx3b = 33, ry3b = 61, rh3b = Math.toRadians(140);
// -------- PICKUP 3 --------
public static double rx4a = 72, ry4a = 55, rh4a = Math.toRadians(140);
public static double rx4b = 48, ry4b = 79, rh4b = Math.toRadians(140);
public static double rx5a = 0, ry5a = 0, rh5a = 0;
public static double rx5b = 0, ry5b = 0, rh5b = 0;
// -------- SHOOT --------
public static double rShootX = 40, rShootY = 7, rShootH = Math.toRadians(140);
public static double rShoot1Tangent = Math.toRadians(0);
// -------- PARK --------
public static double rXPark = 0, rYPark = 0, rHPark = 0;
// =================================================
// ================= BLUE ALLIANCE =================
// =================================================
// -------- FIRST SHOT --------
public static double bx1 = 20, by1 = 0, bh1 = 0;
// -------- PICKUP 1 --------
public static double bx2a = 45, by2a = -18, bh2a = Math.toRadians(-140), bt2a = Math.toRadians(140);
public static double bx2b = 25, by2b = -38, bh2b = Math.toRadians(-140), bt2b = Math.toRadians(140);
public static double bx2c = 34, by2c = -50, bh2c = Math.toRadians(-140), bt2c = Math.toRadians(140);
// -------- OPEN GATE --------
public static double bXGate = 25, bYGate = 69, bHGate = Math.toRadians(165);
// -------- PICKUP 2 --------
public static double bx3 = 0, by3 = 0, bh3 = 0, bt3 = 0;
public static double bx3a = 55, by3a = -43, bh3a = Math.toRadians(-140);
public static double bx3b = 37, by3b = -61, bh3b = Math.toRadians(-140);
// -------- PICKUP 3 --------
public static double bx4a = 72, by4a = -55, bh4a = Math.toRadians(-140);
public static double bx4b = 48, by4b = -79, bh4b = Math.toRadians(-140);
public static double bx5a = 0, by5a = 0, bh5a = 0;
public static double bx5b = 0, by5b = 0, bh5b = 0;
// -------- SHOOT --------
public static double bShootX = 20, bShootY = 30, bShootH = Math.toRadians(140);
public static double bShoot1Tangent = Math.toRadians(0);
// -------- PARK --------
public static double bXPark = 0, bYPark = 0, bHPark = 0;
}

56
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/constants/Poses_V2.java Normal file
View File

@@ -0,0 +1,56 @@
package org.firstinspires.ftc.teamcode.constants;
import com.acmerobotics.dashboard.config.Config;
import com.acmerobotics.roadrunner.Pose2d;
@Config
public class Poses_V2 {
public static double goalHeight = 42; //in inches
public static double turretHeight = 12;
public static double relativeGoalHeight = goalHeight - turretHeight;
public static Pose2d goalPose = new Pose2d(-10, 0, 0);
public static double rx1 = 20, ry1 = 0, rh1 = 0;
public static double rx2a = 55, ry2a = 39, rh2a = Math.toRadians(140), rt2a = Math.toRadians(Math.PI/2);
public static double rx2b = 33, ry2b = 61, rh2b = Math.toRadians(140), rt2b = Math.toRadians(Math.PI/2);
public static double rx2c = 34, ry2c = 50, rh2c = Math.toRadians(140), rt2c = Math.toRadians(Math.PI/2);
public static double rXGate = 30, rYGate = 63, rHGate = Math.toRadians(179);
public static double rx3a = 55, ry3a = 39, rh3a = Math.toRadians(140);
public static double rx3b = 33, ry3b = 61, rh3b = Math.toRadians(140);
public static double rx4a = 72, ry4a = 55, rh4a = Math.toRadians(140);
public static double rx4b = 48, ry4b = 79, rh4b = Math.toRadians(140);
public static double bx1 = 20, by1 = 0, bh1 = 0;
public static double bx2a = 45, by2a = -18, bh2a = Math.toRadians(-140), bt2a = Math.toRadians(140);
public static double bx2b = 25, by2b = -38, bh2b = Math.toRadians(-140), bt2b = Math.toRadians(140);
public static double bx2c = 34, by2c = -50, bh2c = Math.toRadians(-140), bt2c = Math.toRadians(140);
public static double rShootX = 40, rShootY = 7, rShootH = Math.toRadians(140);
public static double bShootX = 20, bShootY = 30, bShootH = Math.toRadians(140);
public static double bXGate = 25, bYGate = 69, bHGate = Math.toRadians(165);
public static double bx3a = 55, by3a = -43, bh3a = Math.toRadians(-140);
public static double bx3b = 37, by3b = -61, bh3b = Math.toRadians(-140);
public static double bx4a = 72, by4a = -55, bh4a = Math.toRadians(-140);
public static double bx4b = 48, by4b = -79, bh4b = Math.toRadians(-140);
public static double rfx1 = 10, rfy1 = 0, rfh1 = 0; //TODO: test this
public static double rShoot1Tangent = Math.toRadians(0);
public static double bShoot1Tangent = Math.toRadians(0);
public static Pose2d teleStart = new Pose2d(0, 0, 0);
}

17
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/constants/ServoPositions.java
View File

@@ -5,16 +5,21 @@ import com.acmerobotics.dashboard.config.Config;
@Config
public class ServoPositions {
public static double spindexer_intakePos1 = 0.18;
public static double spindexer_intakePos1 = 0.05; //0.13;
public static double spindexer_intakePos2 = 0.36;//0.5;
public static double spindexer_intakePos2 = 0.24; //0.33;//0.5;
public static double spindexer_intakePos3 = 0.54;//0.66;
public static double spindexer_intakePos3 = 0.43; //0.53;//0.66;
public static double spindexer_outtakeBall3 = 0.47;
public static double spindexer_outtakeBall3 = 0.71; //0.65; //0.24;
public static double spindexer_outtakeBall2 = 0.31;
public static double spindexer_outtakeBall1 = 0.15;
public static double spindexer_outtakeBall2 = 0.53; //0.46; //0.6;
public static double spindexer_outtakeBall1 = 0.35; //0.27; //0.4;
public static double spinStartPos = spindexer_outtakeBall3 - 0.1;
public static double shootAllAutoSpinStartPos = 0.2;
public static double shootAllSpindexerSpeedIncrease = 0.02;
public static double shootAllTime = 1.8;
public static double transferServo_out = 0.15;

275
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/libs/RR/MecanumDrive.java
View File

@@ -5,9 +5,7 @@ import androidx.annotation.NonNull;
import com.acmerobotics.dashboard.canvas.Canvas;
import com.acmerobotics.dashboard.config.Config;
import com.acmerobotics.dashboard.telemetry.TelemetryPacket;
import com.acmerobotics.roadrunner.AccelConstraint;
import com.acmerobotics.roadrunner.Action;
import com.acmerobotics.roadrunner.Actions;
import com.acmerobotics.roadrunner.*;
import com.acmerobotics.roadrunner.AngularVelConstraint;
import com.acmerobotics.roadrunner.DualNum;
import com.acmerobotics.roadrunner.HolonomicController;
@@ -16,20 +14,12 @@ import com.acmerobotics.roadrunner.MinVelConstraint;
import com.acmerobotics.roadrunner.MotorFeedforward;
import com.acmerobotics.roadrunner.Pose2d;
import com.acmerobotics.roadrunner.Pose2dDual;
import com.acmerobotics.roadrunner.PoseVelocity2d;
import com.acmerobotics.roadrunner.PoseVelocity2dDual;
import com.acmerobotics.roadrunner.ProfileAccelConstraint;
import com.acmerobotics.roadrunner.ProfileParams;
import com.acmerobotics.roadrunner.Rotation2d;
import com.acmerobotics.roadrunner.Time;
import com.acmerobotics.roadrunner.TimeTrajectory;
import com.acmerobotics.roadrunner.TimeTurn;
import com.acmerobotics.roadrunner.TrajectoryActionBuilder;
import com.acmerobotics.roadrunner.TrajectoryBuilderParams;
import com.acmerobotics.roadrunner.TurnConstraints;
import com.acmerobotics.roadrunner.Twist2d;
import com.acmerobotics.roadrunner.Twist2dDual;
import com.acmerobotics.roadrunner.Vector2d;
import com.acmerobotics.roadrunner.VelConstraint;
import com.acmerobotics.roadrunner.ftc.DownsampledWriter;
import com.acmerobotics.roadrunner.ftc.Encoder;
@@ -56,131 +46,13 @@ import org.firstinspires.ftc.teamcode.libs.RR.messages.MecanumCommandMessage;
import org.firstinspires.ftc.teamcode.libs.RR.messages.MecanumLocalizerInputsMessage;
import org.firstinspires.ftc.teamcode.libs.RR.messages.PoseMessage;
import java.lang.Math;
import java.util.Arrays;
import java.util.LinkedList;
import java.util.List;
@Config
public final class MecanumDrive {
public static Params PARAMS = new Params();
public final MecanumKinematics kinematics = new MecanumKinematics(
PARAMS.inPerTick * PARAMS.trackWidthTicks, PARAMS.inPerTick / PARAMS.lateralInPerTick);
public final TurnConstraints defaultTurnConstraints = new TurnConstraints(
PARAMS.maxAngVel, -PARAMS.maxAngAccel, PARAMS.maxAngAccel);
public final VelConstraint defaultVelConstraint =
new MinVelConstraint(Arrays.asList(
kinematics.new WheelVelConstraint(PARAMS.maxWheelVel),
new AngularVelConstraint(PARAMS.maxAngVel)
));
public final AccelConstraint defaultAccelConstraint =
new ProfileAccelConstraint(PARAMS.minProfileAccel, PARAMS.maxProfileAccel);
public final DcMotorEx leftFront, leftBack, rightBack, rightFront;
public final VoltageSensor voltageSensor;
public final LazyImu lazyImu;
public final Localizer localizer;
private final LinkedList<Pose2d> poseHistory = new LinkedList<>();
private final DownsampledWriter estimatedPoseWriter = new DownsampledWriter("ESTIMATED_POSE", 50_000_000);
private final DownsampledWriter targetPoseWriter = new DownsampledWriter("TARGET_POSE", 50_000_000);
private final DownsampledWriter driveCommandWriter = new DownsampledWriter("DRIVE_COMMAND", 50_000_000);
private final DownsampledWriter mecanumCommandWriter = new DownsampledWriter("MECANUM_COMMAND", 50_000_000);
public MecanumDrive(HardwareMap hardwareMap, Pose2d pose) {
LynxFirmware.throwIfModulesAreOutdated(hardwareMap);
for (LynxModule module : hardwareMap.getAll(LynxModule.class)) {
module.setBulkCachingMode(LynxModule.BulkCachingMode.AUTO);
}
// TODO: make sure your config has motors with these names (or change them)
// see https://ftc-docs.firstinspires.org/en/latest/hardware_and_software_configuration/configuring/index.html
leftFront = hardwareMap.get(DcMotorEx.class, "fl");
leftBack = hardwareMap.get(DcMotorEx.class, "bl");
rightBack = hardwareMap.get(DcMotorEx.class, "br");
rightFront = hardwareMap.get(DcMotorEx.class, "fr");
leftFront.setZeroPowerBehavior(DcMotor.ZeroPowerBehavior.BRAKE);
leftBack.setZeroPowerBehavior(DcMotor.ZeroPowerBehavior.BRAKE);
rightBack.setZeroPowerBehavior(DcMotor.ZeroPowerBehavior.BRAKE);
rightFront.setZeroPowerBehavior(DcMotor.ZeroPowerBehavior.BRAKE);
// TODO: reverse motor directions if needed
//
leftFront.setDirection(DcMotorSimple.Direction.REVERSE);
leftBack.setDirection(DcMotorSimple.Direction.REVERSE);
// TODO: make sure your config has an IMU with this name (can be BNO or BHI)
// see https://ftc-docs.firstinspires.org/en/latest/hardware_and_software_configuration/configuring/index.html
lazyImu = new LazyHardwareMapImu(hardwareMap, "imu", new RevHubOrientationOnRobot(
PARAMS.logoFacingDirection, PARAMS.usbFacingDirection));
voltageSensor = hardwareMap.voltageSensor.iterator().next();
localizer = new PinpointLocalizer(hardwareMap, PARAMS.inPerTick, pose);
FlightRecorder.write("MECANUM_PARAMS", PARAMS);
}
public void setDrivePowers(PoseVelocity2d powers) {
MecanumKinematics.WheelVelocities<Time> wheelVels = new MecanumKinematics(1).inverse(
PoseVelocity2dDual.constant(powers, 1));
double maxPowerMag = 1;
for (DualNum<Time> power : wheelVels.all()) {
maxPowerMag = Math.max(maxPowerMag, power.value());
}
leftFront.setPower(wheelVels.leftFront.get(0) / maxPowerMag);
leftBack.setPower(wheelVels.leftBack.get(0) / maxPowerMag);
rightBack.setPower(wheelVels.rightBack.get(0) / maxPowerMag);
rightFront.setPower(wheelVels.rightFront.get(0) / maxPowerMag);
}
public PoseVelocity2d updatePoseEstimate() {
PoseVelocity2d vel = localizer.update();
poseHistory.add(localizer.getPose());
while (poseHistory.size() > 100) {
poseHistory.removeFirst();
}
estimatedPoseWriter.write(new PoseMessage(localizer.getPose()));
return vel;
}
private void drawPoseHistory(Canvas c) {
double[] xPoints = new double[poseHistory.size()];
double[] yPoints = new double[poseHistory.size()];
int i = 0;
for (Pose2d t : poseHistory) {
xPoints[i] = t.position.x;
yPoints[i] = t.position.y;
i++;
}
c.setStrokeWidth(1);
c.setStroke("#3F51B5");
c.strokePolyline(xPoints, yPoints);
}
public TrajectoryActionBuilder actionBuilder(Pose2d beginPose) {
return new TrajectoryActionBuilder(
TurnAction::new,
FollowTrajectoryAction::new,
new TrajectoryBuilderParams(
1e-6,
new ProfileParams(
0.25, 0.1, 1e-2
)
),
beginPose, 0.0,
defaultTurnConstraints,
defaultVelConstraint, defaultAccelConstraint
);
}
public static class Params {
// IMU orientation
// TODO: fill in these values based on
@@ -206,8 +78,8 @@ public final class MecanumDrive {
public double maxProfileAccel = 180;
// turn profile parameters (in radians)
public double maxAngVel = 4 * Math.PI; // shared with path
public double maxAngAccel = 4 * Math.PI;
public double maxAngVel = 4* Math.PI; // shared with path
public double maxAngAccel = 4* Math.PI;
// path controller gains
public double axialGain = 4;
@@ -219,6 +91,35 @@ public final class MecanumDrive {
public double headingVelGain = 0.0; // shared with turn
}
public static Params PARAMS = new Params();
public final MecanumKinematics kinematics = new MecanumKinematics(
PARAMS.inPerTick * PARAMS.trackWidthTicks, PARAMS.inPerTick / PARAMS.lateralInPerTick);
public final TurnConstraints defaultTurnConstraints = new TurnConstraints(
PARAMS.maxAngVel, -PARAMS.maxAngAccel, PARAMS.maxAngAccel);
public final VelConstraint defaultVelConstraint =
new MinVelConstraint(Arrays.asList(
kinematics.new WheelVelConstraint(PARAMS.maxWheelVel),
new AngularVelConstraint(PARAMS.maxAngVel)
));
public final AccelConstraint defaultAccelConstraint =
new ProfileAccelConstraint(PARAMS.minProfileAccel, PARAMS.maxProfileAccel);
public final DcMotorEx leftFront, leftBack, rightBack, rightFront;
public final VoltageSensor voltageSensor;
public final LazyImu lazyImu;
public final Localizer localizer;
private final LinkedList<Pose2d> poseHistory = new LinkedList<>();
private final DownsampledWriter estimatedPoseWriter = new DownsampledWriter("ESTIMATED_POSE", 50_000_000);
private final DownsampledWriter targetPoseWriter = new DownsampledWriter("TARGET_POSE", 50_000_000);
private final DownsampledWriter driveCommandWriter = new DownsampledWriter("DRIVE_COMMAND", 50_000_000);
private final DownsampledWriter mecanumCommandWriter = new DownsampledWriter("MECANUM_COMMAND", 50_000_000);
public class DriveLocalizer implements Localizer {
public final Encoder leftFront, leftBack, rightBack, rightFront;
public final IMU imu;
@@ -243,13 +144,13 @@ public final class MecanumDrive {
}
@Override
public Pose2d getPose() {
return pose;
public void setPose(Pose2d pose) {
this.pose = pose;
}
@Override
public void setPose(Pose2d pose) {
this.pose = pose;
public Pose2d getPose() {
return pose;
}
@Override
@@ -315,11 +216,64 @@ public final class MecanumDrive {
}
}
public MecanumDrive(HardwareMap hardwareMap, Pose2d pose) {
LynxFirmware.throwIfModulesAreOutdated(hardwareMap);
for (LynxModule module : hardwareMap.getAll(LynxModule.class)) {
module.setBulkCachingMode(LynxModule.BulkCachingMode.AUTO);
}
// TODO: make sure your config has motors with these names (or change them)
// see https://ftc-docs.firstinspires.org/en/latest/hardware_and_software_configuration/configuring/index.html
leftFront = hardwareMap.get(DcMotorEx.class, "fl");
leftBack = hardwareMap.get(DcMotorEx.class, "bl");
rightBack = hardwareMap.get(DcMotorEx.class, "br");
rightFront = hardwareMap.get(DcMotorEx.class, "fr");
leftFront.setZeroPowerBehavior(DcMotor.ZeroPowerBehavior.BRAKE);
leftBack.setZeroPowerBehavior(DcMotor.ZeroPowerBehavior.BRAKE);
rightBack.setZeroPowerBehavior(DcMotor.ZeroPowerBehavior.BRAKE);
rightFront.setZeroPowerBehavior(DcMotor.ZeroPowerBehavior.BRAKE);
// TODO: reverse motor directions if needed
//
leftFront.setDirection(DcMotorSimple.Direction.REVERSE);
leftBack.setDirection(DcMotorSimple.Direction.REVERSE);
// TODO: make sure your config has an IMU with this name (can be BNO or BHI)
// see https://ftc-docs.firstinspires.org/en/latest/hardware_and_software_configuration/configuring/index.html
lazyImu = new LazyHardwareMapImu(hardwareMap, "imu", new RevHubOrientationOnRobot(
PARAMS.logoFacingDirection, PARAMS.usbFacingDirection));
voltageSensor = hardwareMap.voltageSensor.iterator().next();
localizer = new PinpointLocalizer(hardwareMap, PARAMS.inPerTick, pose);
FlightRecorder.write("MECANUM_PARAMS", PARAMS);
}
public void setDrivePowers(PoseVelocity2d powers) {
MecanumKinematics.WheelVelocities<Time> wheelVels = new MecanumKinematics(1).inverse(
PoseVelocity2dDual.constant(powers, 1));
double maxPowerMag = 1;
for (DualNum<Time> power : wheelVels.all()) {
maxPowerMag = Math.max(maxPowerMag, power.value());
}
leftFront.setPower(wheelVels.leftFront.get(0) / maxPowerMag);
leftBack.setPower(wheelVels.leftBack.get(0) / maxPowerMag);
rightBack.setPower(wheelVels.rightBack.get(0) / maxPowerMag);
rightFront.setPower(wheelVels.rightFront.get(0) / maxPowerMag);
}
public final class FollowTrajectoryAction implements Action {
public final TimeTrajectory timeTrajectory;
private final double[] xPoints, yPoints;
private double beginTs = -1;
private final double[] xPoints, yPoints;
public FollowTrajectoryAction(TimeTrajectory t) {
timeTrajectory = t;
@@ -496,4 +450,51 @@ public final class MecanumDrive {
c.fillCircle(turn.beginPose.position.x, turn.beginPose.position.y, 2);
}
}
public PoseVelocity2d updatePoseEstimate() {
PoseVelocity2d vel = localizer.update();
poseHistory.add(localizer.getPose());
while (poseHistory.size() > 100) {
poseHistory.removeFirst();
}
estimatedPoseWriter.write(new PoseMessage(localizer.getPose()));
return vel;
}
private void drawPoseHistory(Canvas c) {
double[] xPoints = new double[poseHistory.size()];
double[] yPoints = new double[poseHistory.size()];
int i = 0;
for (Pose2d t : poseHistory) {
xPoints[i] = t.position.x;
yPoints[i] = t.position.y;
i++;
}
c.setStrokeWidth(1);
c.setStroke("#3F51B5");
c.strokePolyline(xPoints, yPoints);
}
public TrajectoryActionBuilder actionBuilder(Pose2d beginPose) {
return new TrajectoryActionBuilder(
TurnAction::new,
FollowTrajectoryAction::new,
new TrajectoryBuilderParams(
1e-6,
new ProfileParams(
0.25, 0.1, 1e-2
)
),
beginPose, 0.0,
defaultTurnConstraints,
defaultVelConstraint, defaultAccelConstraint
);
}
}

8
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/teleop/TeleopV2.java
View File

@@ -162,11 +162,11 @@ public class TeleopV2 extends LinearOpMode {
//TODO: make sure changing position works throughout opmode
if (!servo.spinEqual(spindexPos)){
spindexPID = servo.setSpinPos(spindexPos);
robot.spin1.setPower(spindexPID);
robot.spin2.setPower(-spindexPID);
robot.spin1.setPosition(spindexPID);
robot.spin2.setPosition(-spindexPID);
} else{
robot.spin1.setPower(0);
robot.spin2.setPower(0);
robot.spin1.setPosition(0);
robot.spin2.setPosition(0);
}
//INTAKE:

421
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/teleop/TeleopV3.java
View File

@@ -1,7 +1,13 @@
package org.firstinspires.ftc.teamcode.teleop;
import static org.firstinspires.ftc.teamcode.constants.Color.redAlliance;
import static org.firstinspires.ftc.teamcode.constants.Poses.teleStart;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.spinStartPos;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.spindexer_intakePos1;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.spindexer_intakePos2;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.spindexer_intakePos3;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.spindexer_outtakeBall2;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.spindexer_outtakeBall3;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.transferServo_in;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.transferServo_out;
import static org.firstinspires.ftc.teamcode.utils.Servos.spinD;
@@ -26,6 +32,7 @@ import com.qualcomm.robotcore.eventloop.opmode.TeleOp;
import com.qualcomm.robotcore.hardware.DcMotor;
import org.firstinspires.ftc.robotcore.external.navigation.DistanceUnit;
import org.firstinspires.ftc.teamcode.constants.ServoPositions;
import org.firstinspires.ftc.teamcode.libs.RR.MecanumDrive;
import org.firstinspires.ftc.teamcode.utils.Flywheel;
import org.firstinspires.ftc.teamcode.utils.Robot;
@@ -121,6 +128,8 @@ public class TeleopV3 extends LinearOpMode {
private int tickerA = 1;
private boolean transferIn = false;
boolean turretInterpolate = false;
public static double spinSpeedIncrease = 0.03;
public static int resetSpinTicks = 4;
public static double velPrediction(double distance) {
if (distance < 30) {
@@ -139,13 +148,15 @@ public class TeleopV3 extends LinearOpMode {
@Override
public void runOpMode() throws InterruptedException {
robot = new Robot(hardwareMap);
robot.light.setPosition(0);
List<LynxModule> allHubs = hardwareMap.getAll(LynxModule.class);
for (LynxModule hub : allHubs) {
hub.setBulkCachingMode(LynxModule.BulkCachingMode.MANUAL);
}
robot = new Robot(hardwareMap);
TELE = new MultipleTelemetry(telemetry, FtcDashboard.getInstance().getTelemetry());
servo = new Servos(hardwareMap);
flywheel = new Flywheel(hardwareMap);
@@ -167,7 +178,15 @@ public class TeleopV3 extends LinearOpMode {
// robot.limelight.start();
Turret turret = new Turret(robot, TELE, robot.limelight);
waitForStart();
robot.light.setPosition(1);
while (opModeInInit()){
robot.limelight.start();
if (redAlliance) {
robot.limelight.pipelineSwitch(4);
} else {
robot.limelight.pipelineSwitch(2);
}
}
waitForStart();
if (isStopRequested()) return;
@@ -175,6 +194,12 @@ public class TeleopV3 extends LinearOpMode {
robot.transferServo.setPosition(transferServo_out);
while (opModeIsActive()) {
//LIMELIGHT START
TELE.addData("Is limelight on?", robot.limelight.getStatus());
// LIGHT COLORS
spindexer.ballCounterLight();
//DRIVETRAIN:
double y = 0.0;
@@ -233,65 +258,63 @@ public class TeleopV3 extends LinearOpMode {
//TODO: Use color sensors to switch between positions...switch after ball detected in
if (autoSpintake) {
if (gamepad1.right_bumper){
shootAll = false;
robot.transferServo.setPosition(transferServo_out);
if (!servo.spinEqual(spindexPos) && !gamepad1.right_bumper) {
spinCurrentPos = servo.getSpinPos();
double spindexPID = spinPID.calculate(spinCurrentPos, spindexPos);
robot.spin1.setPower(spindexPID);
robot.spin2.setPower(-spindexPID);
}
if (gamepad1.right_bumper) {
intakeTicker++;
if (intakeTicker % 20 < 2) {
robot.spin1.setPower(-1);
robot.spin2.setPower(1);
} else if (intakeTicker % 20 < 10) {
robot.spin1.setPower(-0.5);
robot.spin2.setPower(0.5);
} else if (intakeTicker % 20 < 12) {
robot.spin1.setPower(1);
robot.spin2.setPower(-1);
} else {
robot.spin1.setPower(0.5);
robot.spin2.setPower(-0.5);
}
robot.intake.setPower(1);
intakeStamp = getRuntime();
TELE.addData("Reverse?", reverse);
TELE.update();
} else {
if (!servo.spinEqual(spindexPos)) {
spinCurrentPos = servo.getSpinPos();
double spindexPID = spinPID.calculate(spinCurrentPos, spindexPos);
robot.spin1.setPower(spindexPID);
robot.spin2.setPower(-spindexPID);
} else {
robot.spin1.setPower(0);
robot.spin2.setPower(0);
}
spindexPos = spindexer_intakePos1;
robot.intake.setPower(0);
intakeTicker = 0;
}
}
// if (autoSpintake) {
//
// if (!servo.spinEqual(spindexPos) && !gamepad1.right_bumper) {
//
//
// robot.spin1.setPosition(spindexPos);
// robot.spin2.setPosition(1-spindexPos);
//
// }
//
// if (gamepad1.right_bumper) {
//
// shootAll = false;
//
// intakeTicker++;
//
//// if (intakeTicker % 20 < 2) {
////
//// robot.spin1.setPower(-1);
//// robot.spin2.setPower(1);
////
//// } else if (intakeTicker % 20 < 10) {
//// robot.spin1.setPower(-0.5);
//// robot.spin2.setPower(0.5);
//// } else if (intakeTicker % 20 < 12) {
//// robot.spin1.setPower(1);
//// robot.spin2.setPower(-1);
//// } else {
//// robot.spin1.setPower(0.5);
//// robot.spin2.setPower(-0.5);
//// }
//
// robot.intake.setPower(1);
// intakeStamp = getRuntime();
// TELE.addData("Reverse?", reverse);
// TELE.update();
// } else {
// if (!servo.spinEqual(spindexPos)) {
// robot.spin1.setPosition(spindexPos);
// robot.spin2.setPosition(1-spindexPos);
//
// }
//
// spindexPos = spindexer_intakePos1;
//
// robot.intake.setPower(0);
//
// intakeTicker = 0;
// }
// }
//COLOR:
double s1D = robot.color1.getDistance(DistanceUnit.MM);
@@ -506,129 +529,177 @@ public class TeleopV3 extends LinearOpMode {
// }
// }
if (gamepad1.left_bumper && !enableSpindexerManager) {
//if (gamepad1.left_bumper && !enableSpindexerManager) {
robot.transferServo.setPosition(transferServo_out);
// robot.transferServo.setPosition(transferServo_out);
autoSpintake = false;
intakeTicker++;
if (intakeTicker % 10 < 1) {
robot.spin1.setPower(-1);
robot.spin2.setPower(1);
} else if (intakeTicker % 10 < 5) {
robot.spin1.setPower(-0.5);
robot.spin2.setPower(0.5);
} else if (intakeTicker % 10 < 6) {
robot.spin1.setPower(1);
robot.spin2.setPower(-1);
} else {
robot.spin1.setPower(0.5);
robot.spin2.setPower(-0.5);
}
intake = false;
reject = false;
robot.intake.setPower(0.5);
}
if (gamepad1.leftBumperWasReleased() && !enableSpindexerManager) {
shootStamp = getRuntime();
shootAll = true;
shooterTicker = 0;
}
if (shootAll && !enableSpindexerManager) {
TELE.addData("100% works", shootOrder);
intake = false;
reject = false;
shooterTicker++;
spindexPos = spindexer_intakePos1;
if (getRuntime() - shootStamp < 3.5) {
robot.transferServo.setPosition(transferServo_in);
autoSpintake = false;
robot.spin1.setPower(-spinPow);
robot.spin2.setPower(spinPow);
} else {
robot.transferServo.setPosition(transferServo_out);
spindexPos = spindexer_intakePos1;
shootAll = false;
autoSpintake = true;
robot.transferServo.setPosition(transferServo_out);
}
}
// autoSpintake = false;
//
// intakeTicker++;
//
// if (intakeTicker % 10 < 1) {
//
// robot.spin1.setPower(-1);
// robot.spin2.setPower(1);
//
// } else if (intakeTicker % 10 < 5) {
// robot.spin1.setPower(-0.5);
// robot.spin2.setPower(0.5);
// } else if (intakeTicker % 10 < 6) {
// robot.spin1.setPower(1);
// robot.spin2.setPower(-1);
// } else {
// robot.spin1.setPower(0.5);
// robot.spin2.setPower(-0.5);
// }
//
// intake = false;
// reject = false;
//
// robot.intake.setPower(0.5);
//
// }
//
// if (gamepad1.leftBumperWasReleased() && !enableSpindexerManager) {
// shootStamp = getRuntime();
// shootAll = true;
//
// shooterTicker = 0;
// }
//
// if (shootAll && !enableSpindexerManager) {
//
// TELE.addData("100% works", shootOrder);
//
// intake = false;
// reject = false;
//
// shooterTicker++;
//
// spindexPos = spindexer_intakePos1;
//
// if (getRuntime() - shootStamp < 3.5) {
//
// robot.transferServo.setPosition(transferServo_in);
//
// autoSpintake = false;
//
// robot.spin1.setPower(-spinPow);
// robot.spin2.setPower(spinPow);
//
// } else {
// robot.transferServo.setPosition(transferServo_out);
// spindexPos = spindexer_intakePos1;
//
// shootAll = false;
//
// autoSpintake = true;
//
// robot.transferServo.setPosition(transferServo_out);
// }
//
// }
if (enableSpindexerManager) {
if (!shootAll) {
//if (!shootAll) {
spindexer.processIntake();
}
//}
// RIGHT_BUMPER
if (gamepad1.right_bumper) {
if (gamepad1.right_bumper && intakeTicker > resetSpinTicks) {
robot.intake.setPower(1);
} else {
robot.intake.setPower(0);
}
// LEFT_BUMPER
if (!shootAll &&
(gamepad1.leftBumperWasReleased() ||
gamepad1.leftBumperWasPressed() ||
gamepad1.left_bumper)) {
if (!shootAll && gamepad1.leftBumperWasReleased()) {
shootStamp = getRuntime();
shootAll = true;
shooterTicker = 0;
}
intakeTicker++;
if (shootAll) {
intakeTicker = 0;
intake = false;
reject = false;
shooterTicker++;
// if (servo.getSpinPos() < spindexer_outtakeBall2 + 0.4) {
//
// if (shooterTicker == 0){
// robot.transferServo.setPosition(transferServo_out);
// robot.spin1.setPosition(spinStartPos);
// robot.spin2.setPosition(1-spinStartPos);
// if (servo.spinEqual(spinStartPos)){
// shooterTicker++;
// }
// TELE.addLine("starting to shoot");
// } else {
// robot.transferServo.setPosition(transferServo_in);
// shooterTicker++;
// double prevSpinPos = servo.getSpinPos();
// robot.spin1.setPosition(prevSpinPos + spinSpeedIncrease);
// robot.spin2.setPosition(1 - prevSpinPos - spinSpeedIncrease);
// TELE.addLine("shooting");
// }
// TODO: Change starting position based on desired order to shoot green ball
spindexPos = spindexer_intakePos1;
// //robot.intake.setPower(-0.3);
// if (getRuntime() - shootStamp < 3.0) {
//
// if (shooterTicker == 0 && !servo.spinEqual(ServoPositions.shootAllAutoSpinStartPos)) {
// robot.spin1.setPosition(ServoPositions.shootAllAutoSpinStartPos);
// robot.spin2.setPosition(1 - ServoPositions.shootAllAutoSpinStartPos);
// } else {
// shooterTicker++;
// //robot.intake.setPower(0.0);
// robot.transferServo.setPosition(transferServo_in);
// double prevSpinPos = robot.spin1.getPosition();
// robot.spin1.setPosition(prevSpinPos + ServoPositions.shootAllSpindexerSpeedIncrease);
// robot.spin2.setPosition(1 - prevSpinPos - ServoPositions.shootAllAutoSpinStartPos);
// }
//
// } else {
// robot.transferServo.setPosition(transferServo_out);
// //spindexPos = spindexer_intakePos1;
// shootAll = false;
// spindexer.resetSpindexer();
// spindexer.processIntake();
//
// }
if (getRuntime() - shootStamp < 3.5) {
if (shooterTicker == 0) {
spindexer.prepareShootAll();
TELE.addLine("preparing to shoot");
} else if (shooterTicker == 2) {
//robot.transferServo.setPosition(transferServo_in);
spindexer.shootAll();
TELE.addLine("starting to shoot");
} else if (!spindexer.shootAllComplete()) {
robot.transferServo.setPosition(transferServo_in);
robot.spin1.setPower(-spinPow);
robot.spin2.setPower(spinPow);
TELE.addLine("shoot");
} else {
robot.transferServo.setPosition(transferServo_out);
//spindexPos = spindexer_intakePos1;
shootAll = false;
robot.transferServo.setPosition(transferServo_out);
spindexer.resetSpindexer();
spindexer.processIntake();
//spindexer.processIntake();
TELE.addLine("stop shooting");
}
shooterTicker++;
//spindexer.processIntake();
}
if (gamepad1.left_stick_button){
robot.transferServo.setPosition(transferServo_out);
//spindexPos = spindexer_intakePos1;
shootAll = false;
spindexer.resetSpindexer();
spindexer.processIntake();
}
}
@@ -804,42 +875,40 @@ public class TeleopV3 extends LinearOpMode {
hub.clearBulkCache();
}
//
TELE.addData("Spin1Green", green1 + ": " + ballIn(1));
TELE.addData("Spin2Green", green2 + ": " + ballIn(2));
TELE.addData("Spin3Green", green3 + ": " + ballIn(3));
TELE.addData("pose", drive.localizer.getPose());
TELE.addData("heading", drive.localizer.getPose().heading.toDouble());
TELE.addData("distanceToGoal", distanceToGoal);
TELE.addData("hood", robot.hood.getPosition());
TELE.addData("targetVel", vel);
TELE.addData("Velocity", flywheel.getVelo());
TELE.addData("Velo1", flywheel.velo1);
TELE.addData("Velo2", flywheel.velo2);
TELE.addData("shootOrder", shootOrder);
TELE.addData("oddColor", oddBallColor);
// Spindexer Debug
// TELE.addData("Spin1Green", green1 + ": " + ballIn(1));
// TELE.addData("Spin2Green", green2 + ": " + ballIn(2));
// TELE.addData("Spin3Green", green3 + ": " + ballIn(3));
//
// TELE.addData("pose", drive.localizer.getPose());
// TELE.addData("heading", drive.localizer.getPose().heading.toDouble());
// TELE.addData("distanceToGoal", distanceToGoal);
// TELE.addData("hood", robot.hood.getPosition());
// TELE.addData("targetVel", vel);
// TELE.addData("Velocity", flywheel.getVelo());
// TELE.addData("Velo1", flywheel.velo1);
// TELE.addData("Velo2", flywheel.velo2);
// TELE.addData("shootOrder", shootOrder);
// TELE.addData("oddColor", oddBallColor);
//
// // Spindexer Debug
TELE.addData("spinEqual", servo.spinEqual(spindexer_intakePos1));
TELE.addData("spinCommmandedPos", spindexer.commandedIntakePosition);
TELE.addData("spinIntakeState", spindexer.currentIntakeState);
TELE.addData("spinTestCounter", spindexer.counter);
TELE.addData("autoSpintake", autoSpintake);
//TELE.addData("distanceRearCenter", spindexer.distanceRearCenter);
//TELE.addData("distanceFrontDriver", spindexer.distanceFrontDriver);
//TELE.addData("distanceFrontPassenger", spindexer.distanceFrontPassenger);
TELE.addData("shootall commanded", shootAll);
// Targeting Debug
TELE.addData("robotX", robotX);
TELE.addData("robotY", robotY);
TELE.addData("robotInchesX", targeting.robotInchesX);
TELE.addData( "robotInchesY", targeting.robotInchesY);
TELE.addData("Targeting Interpolate", turretInterpolate);
//
// TELE.addData("shootall commanded", shootAll);
// // Targeting Debug
// TELE.addData("robotX", robotX);
// TELE.addData("robotY", robotY);
// TELE.addData("robotInchesX", targeting.robotInchesX);
// TELE.addData( "robotInchesY", targeting.robotInchesY);
// TELE.addData("Targeting Interpolate", turretInterpolate);
TELE.addData("Targeting GridX", targeting.robotGridX);
TELE.addData("Targeting GridY", targeting.robotGridY);
TELE.addData("Targeting FlyWheel", targetingSettings.flywheelRPM);
TELE.addData("Targeting HoodAngle", targetingSettings.hoodAngle);
TELE.addData("timeSinceStamp", getRuntime() - shootStamp);
// TELE.addData("timeSinceStamp", getRuntime() - shootStamp);
TELE.update();

17
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/tests/ColorTest.java
View File

@@ -1,5 +1,7 @@
package org.firstinspires.ftc.teamcode.tests;
import static org.firstinspires.ftc.teamcode.constants.Color.colorFilterAlpha;
import com.acmerobotics.dashboard.FtcDashboard;
import com.acmerobotics.dashboard.config.Config;
import com.acmerobotics.dashboard.telemetry.MultipleTelemetry;
@@ -18,6 +20,9 @@ public class ColorTest extends LinearOpMode {
public void runOpMode() throws InterruptedException {
robot = new Robot(hardwareMap);
TELE = new MultipleTelemetry(telemetry, FtcDashboard.getInstance().getTelemetry());
double color1Distance = 0;
double color2Distance = 0;
double color3Distance = 0;
waitForStart();
if (isStopRequested()) return;
@@ -26,28 +31,34 @@ public class ColorTest extends LinearOpMode {
double green1 = robot.color1.getNormalizedColors().green;
double blue1 = robot.color1.getNormalizedColors().blue;
double red1 = robot.color1.getNormalizedColors().red;
double dist1 = robot.color1.getDistance(DistanceUnit.MM);
color1Distance = (colorFilterAlpha * dist1) + ((1-colorFilterAlpha) * color1Distance);
TELE.addData("Color1 toColor", robot.color1.getNormalizedColors().toColor());
TELE.addData("Color1 green", green1 / (green1 + blue1 + red1));
TELE.addData("Color1 distance (mm)", robot.color1.getDistance(DistanceUnit.MM));
TELE.addData("Color1 distance (mm)", color1Distance);
// ----- COLOR 2 -----
double green2 = robot.color2.getNormalizedColors().green;
double blue2 = robot.color2.getNormalizedColors().blue;
double red2 = robot.color2.getNormalizedColors().red;
double dist2 = robot.color2.getDistance(DistanceUnit.MM);
color2Distance = (colorFilterAlpha * dist2) + ((1-colorFilterAlpha) * color2Distance);
TELE.addData("Color2 toColor", robot.color2.getNormalizedColors().toColor());
TELE.addData("Color2 green", green2 / (green2 + blue2 + red2));
TELE.addData("Color2 distance (mm)", robot.color2.getDistance(DistanceUnit.MM));
TELE.addData("Color2 distance (mm)", color2Distance);
// ----- COLOR 3 -----
double green3 = robot.color3.getNormalizedColors().green;
double blue3 = robot.color3.getNormalizedColors().blue;
double red3 = robot.color3.getNormalizedColors().red;
double dist3 = robot.color3.getDistance(DistanceUnit.MM);
color3Distance = (colorFilterAlpha * dist3) + ((1-colorFilterAlpha) * color3Distance);
TELE.addData("Color3 toColor", robot.color3.getNormalizedColors().toColor());
TELE.addData("Color3 green", green3 / (green3 + blue3 + red3));
TELE.addData("Color3 distance (mm)", robot.color3.getDistance(DistanceUnit.MM));
TELE.addData("Color3 distance (mm)", color3Distance);
TELE.update();
}

23
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/tests/IntakeTest.java
View File

@@ -16,8 +16,7 @@ import org.firstinspires.ftc.teamcode.utils.Servos;
import java.util.ArrayList;
import java.util.List;
@Config
@TeleOp
public class IntakeTest extends LinearOpMode {
Robot robot;
MultipleTelemetry TELE;
@@ -72,19 +71,19 @@ public class IntakeTest extends LinearOpMode {
initPos = currentPos;
}
if (reverse){
robot.spin1.setPower(manualPow);
robot.spin2.setPower(-manualPow);
robot.spin1.setPosition(manualPow);
robot.spin2.setPosition(-manualPow);
} else {
robot.spin1.setPower(-manualPow);
robot.spin2.setPower(manualPow);
robot.spin1.setPosition(-manualPow);
robot.spin2.setPosition(manualPow);
}
robot.intake.setPower(1);
stamp = getRuntime();
TELE.addData("Reverse?", reverse);
TELE.update();
} else {
robot.spin1.setPower(0);
robot.spin2.setPower(0);
robot.spin1.setPosition(0);
robot.spin2.setPosition(0);
if (getRuntime() - stamp < 1) {
robot.intake.setPower(-(getRuntime() - stamp)*2);
@@ -191,15 +190,15 @@ public class IntakeTest extends LinearOpMode {
if (!atTarget) {
powPID = servo.setSpinPos(spindexerPos);
robot.spin1.setPower(powPID);
robot.spin2.setPower(-powPID);
robot.spin1.setPosition(powPID);
robot.spin2.setPosition(-powPID);
steadySpin = false;
wasMoving = true; // remember we were moving
stamp = getRuntime();
} else {
robot.spin1.setPower(0);
robot.spin2.setPower(0);
robot.spin1.setPosition(0);
robot.spin2.setPosition(0);
steadySpin = true;
wasMoving = false;
}

2
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/tests/LimelightTest.java
View File

@@ -17,7 +17,7 @@ public class LimelightTest extends LinearOpMode {
MultipleTelemetry TELE;
Turret turret;
Robot robot;
public static int pipeline = 0; //0 is for test; 1 for obelisk; 2 is for blue track; 3 is for red track
public static int pipeline = 0; //0 is for test; 1 for obelisk; 2 is for blue track; 4 is for red track; DO NOT USE 3
public static int mode = 0; //0 for bare testing, 1 for obelisk, 2 for blue track, 3 for red track
public static boolean turretMode = false;
public static double turretPos = 0.501;

6
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/tests/PIDServoTest.java
View File

@@ -9,8 +9,6 @@ import com.qualcomm.robotcore.eventloop.opmode.TeleOp;
import org.firstinspires.ftc.teamcode.utils.Robot;
@TeleOp
@Config
public class PIDServoTest extends LinearOpMode {
public static double p = 2, i = 0, d = 0, f = 0;
@@ -47,8 +45,8 @@ public class PIDServoTest extends LinearOpMode {
double pid = controller.calculate(pos, target);
robot.spin1.setPower(pid);
robot.spin2.setPower(-pid);
robot.spin1.setPosition(pid);
robot.spin2.setPosition(-pid);
}
telemetry.addData("pos", pos);

27
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/tests/ShooterTest.java
View File

@@ -1,8 +1,11 @@
package org.firstinspires.ftc.teamcode.tests;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.spinStartPos;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.spindexer_intakePos1;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.spindexer_outtakeBall1;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.transferServo_in;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.transferServo_out;
import static org.firstinspires.ftc.teamcode.teleop.TeleopV3.spinSpeedIncrease;
import com.acmerobotics.dashboard.FtcDashboard;
import com.acmerobotics.dashboard.config.Config;
@@ -13,6 +16,7 @@ import com.qualcomm.robotcore.hardware.DcMotorEx;
import org.firstinspires.ftc.teamcode.utils.Flywheel;
import org.firstinspires.ftc.teamcode.utils.Robot;
import org.firstinspires.ftc.teamcode.utils.Servos;
import org.firstinspires.ftc.teamcode.utils.Spindexer;
@Config
@@ -36,6 +40,7 @@ public class ShooterTest extends LinearOpMode {
public static boolean intake = false;
Robot robot;
Flywheel flywheel;
Servos servo;
double shootStamp = 0.0;
boolean shootAll = false;
@@ -45,6 +50,7 @@ public class ShooterTest extends LinearOpMode {
public static boolean enableHoodAutoOpen = false;
public double hoodAdjust = 0.0;
public static double hoodAdjustFactor = 1.0;
private int shooterTicker = 0;
Spindexer spindexer ;
@Override
@@ -55,6 +61,7 @@ public class ShooterTest extends LinearOpMode {
DcMotorEx rightShooter = robot.shooter2;
flywheel = new Flywheel(hardwareMap);
spindexer = new Spindexer(hardwareMap);
servo = new Servos(hardwareMap);
MultipleTelemetry TELE = new MultipleTelemetry(
telemetry, FtcDashboard.getInstance().getTelemetry()
@@ -95,6 +102,7 @@ public class ShooterTest extends LinearOpMode {
shootAll = true;
shoot = false;
robot.transfer.setPower(transferPower);
shooterTicker = 0;
}
if (shootAll) {
@@ -103,24 +111,31 @@ public class ShooterTest extends LinearOpMode {
// TODO: Change starting position based on desired order to shoot green ball
//spindexPos = spindexer_intakePos1;
if (getRuntime() - shootStamp < 3.5) {
robot.transferServo.setPosition(transferServo_in);
if (shooterTicker == 0 && !servo.spinEqual(spinStartPos)){
robot.spin1.setPosition(spinStartPos);
robot.spin2.setPosition(1-spinStartPos);
} else {
robot.transferServo.setPosition(transferServo_in);
shooterTicker++;
double prevSpinPos = robot.spin1.getPosition();
robot.spin1.setPosition(prevSpinPos + spinSpeedIncrease);
robot.spin2.setPosition(1 - prevSpinPos - spinSpeedIncrease);
}
robot.spin1.setPower(-spinPow);
robot.spin2.setPower(spinPow);
} else {
robot.transferServo.setPosition(transferServo_out);
//spindexPos = spindexer_intakePos1;
shootAll = false;
shooterTicker = 0;
robot.transferServo.setPosition(transferServo_out);
robot.transfer.setPower(0);
robot.spin1.setPower(0);
robot.spin2.setPower(0);
spindexer.resetSpindexer();
spindexer.processIntake();

25
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/utils/PositionalServoProgrammer.java
View File

@@ -18,14 +18,10 @@ public class PositionalServoProgrammer extends LinearOpMode {
Servos servo;
public static double spindexPos = 0.501;
public static double spindexPow = 0.0;
public static double spinHoldPow = 0.0;
public static double turretPos = 0.501;
public static double turretPow = 0.0;
public static double turrHoldPow = 0.0;
public static double transferPos = 0.501;
public static double hoodPos = 0.501;
public static int mode = 0; //0 for positional, 1 for power
public static double light = 0.501;
Turret turret;
@@ -35,22 +31,13 @@ public class PositionalServoProgrammer extends LinearOpMode {
TELE = new MultipleTelemetry(telemetry, FtcDashboard.getInstance().getTelemetry());
servo = new Servos(hardwareMap);
turret = new Turret(robot, TELE, robot.limelight );
waitForStart();
if (isStopRequested()) return;
while (opModeIsActive()){
if (spindexPos != 0.501 && !servo.spinEqual(spindexPos) && mode == 0){
double pos = servo.setSpinPos(spindexPos);
robot.spin1.setPower(pos);
robot.spin2.setPower(-pos);
} else if (mode == 0){
robot.spin1.setPower(spinHoldPow);
robot.spin2.setPower(spinHoldPow);
} else {
robot.spin1.setPower(spindexPow);
robot.spin2.setPower(-spindexPow);
if (spindexPos != 0.501 && !servo.spinEqual(spindexPos)){
robot.spin1.setPosition(spindexPos);
robot.spin2.setPosition(1-spindexPos);
}
if (turretPos != 0.501){
robot.turr1.setPosition(turretPos);
@@ -62,6 +49,9 @@ public class PositionalServoProgrammer extends LinearOpMode {
if (hoodPos != 0.501){
robot.hood.setPosition(hoodPos);
}
if (light !=0.501){
robot.light.setPosition(light);
}
// To check configuration of spindexer:
// Set "mode" to 1 and spindexPow to 0.1
// If the spindexer is turning clockwise, the servos are reversed. Swap the configuration of the two servos, DO NOT TOUCH THE ACTUAL CODE
@@ -79,7 +69,6 @@ public class PositionalServoProgrammer extends LinearOpMode {
TELE.addData("spindexer voltage 2", robot.spin2Pos.getVoltage());
TELE.addData("hood pos", robot.hood.getPosition());
TELE.addData("transferServo voltage", robot.transferServoPos.getVoltage());
TELE.addData("spindexer pow", robot.spin1.getPower());
TELE.addData("tpos ", turret.getTurrPos() );
TELE.update();
}

17
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/utils/Robot.java
View File

@@ -1,6 +1,7 @@
package org.firstinspires.ftc.teamcode.utils;
import com.acmerobotics.dashboard.config.Config;
import com.arcrobotics.ftclib.hardware.ServoEx;
import com.qualcomm.hardware.limelightvision.Limelight3A;
import com.qualcomm.hardware.rev.RevColorSensorV3;
import com.qualcomm.robotcore.hardware.AnalogInput;
@@ -40,8 +41,10 @@ public class Robot {
public Servo transferServo;
public Servo turr1;
public Servo turr2;
public CRServo spin1;
public CRServo spin2;
public Servo spin1;
public Servo spin2;
public AnalogInput spin1Pos;
public AnalogInput spin2Pos;
public AnalogInput turr1Pos;
@@ -52,6 +55,7 @@ public class Robot {
public RevColorSensorV3 color2;
public RevColorSensorV3 color3;
public Limelight3A limelight;
public Servo light;
public Robot(HardwareMap hardwareMap) {
@@ -93,17 +97,14 @@ public class Robot {
turr1Pos = hardwareMap.get(AnalogInput.class, "t1Pos"); // Encoder of turret plugged in intake port
//TODO: check spindexer configuration (both servo and analog input) - check comments in PositionalServoProgrammer
spin1 = hardwareMap.get(CRServo.class, "spin1");
spin1 = hardwareMap.get(Servo.class, "spin2");
spin1Pos = hardwareMap.get(AnalogInput.class, "spin1Pos");
spin2 = hardwareMap.get(CRServo.class, "spin2");
spin2 = hardwareMap.get(Servo.class, "spin1");
spin2Pos = hardwareMap.get(AnalogInput.class, "spin2Pos");
spin1.setDirection(DcMotorSimple.Direction.REVERSE);
spin2.setDirection(DcMotorSimple.Direction.REVERSE);
transfer = hardwareMap.get(DcMotorEx.class, "transfer");
transferServo = hardwareMap.get(Servo.class, "transferServo");
@@ -125,5 +126,7 @@ public class Robot {
webcam = hardwareMap.get(WebcamName.class, "Webcam 1");
aprilTagProcessor = AprilTagProcessor.easyCreateWithDefaults();
}
light = hardwareMap.get(Servo.class, "light");
}
}

11
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/utils/Servos.java
View File

@@ -10,8 +10,8 @@ public class Servos {
// TODO: get PIDF constants
public static double spinP = 2.0, spinI = 0, spinD = 0.3, spinF = 0.02;
public static double turrP = 1.1, turrI = 0.25, turrD = 0.0625, turrF = 0;
public static double spin_scalar = 1.0086;
public static double spin_restPos = 0.0;
public static double spin_scalar = 1.112;
public static double spin_restPos = 0.155;
public static double turret_scalar = 1.009;
public static double turret_restPos = 0.0;
Robot robot;
@@ -27,16 +27,14 @@ public class Servos {
}
// In the code below, encoder = robot.servo.getVoltage()
// TODO: set the restPos and scalar
public double getSpinPos() {
return spin_scalar * ((robot.spin1Pos.getVoltage() - spin_restPos) / 3.3);
}
//TODO: PID warp so 0 and 1 are usable positions
public double setSpinPos(double pos) {
spinPID.setPIDF(spinP, spinI, spinD, spinF);
return spinPID.calculate(this.getSpinPos(), pos);
return pos;
}
public boolean spinEqual(double pos) {
@@ -45,7 +43,6 @@ public class Servos {
public double getTurrPos() {
return 1.0;
}
public double setTurrPos(double pos) {

202
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/utils/Spindexer.java
View File

@@ -4,6 +4,7 @@ import com.acmerobotics.dashboard.telemetry.MultipleTelemetry;
import com.arcrobotics.ftclib.controller.PIDFController;
import com.qualcomm.robotcore.hardware.HardwareMap;
import static org.firstinspires.ftc.teamcode.constants.Color.*;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.spindexer_intakePos1;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.spindexer_intakePos2;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.spindexer_intakePos3;
@@ -38,6 +39,11 @@ public class Spindexer {
public double distanceFrontDriver = 0.0;
public double distanceFrontPassenger = 0.0;
public double spindexerWiggle = 0.01;
public double spindexerOuttakeWiggle = 0.01;
private double prevPos = 0.0;
public double spindexerPosOffset = 0.00;
public Types.Motif desiredMotif = Types.Motif.NONE;
// For Use
enum RotatedBallPositionNames {
@@ -67,15 +73,18 @@ public class Spindexer {
SHOOTWAIT,
SHOOT_ALL_PREP,
SHOOT_ALL_READY
};
}
int shootWaitCount = 0;
public IntakeState currentIntakeState = IntakeState.UNKNOWN_START;
public IntakeState prevIntakeState = IntakeState.UNKNOWN_START;
public int unknownColorDetect = 0;
enum BallColor {
public enum BallColor {
UNKNOWN,
GREEN,
PURPLE
};
}
class BallPosition {
boolean isEmpty = true;
@@ -106,7 +115,9 @@ public class Spindexer {
double[] outakePositions =
{spindexer_outtakeBall1, spindexer_outtakeBall2, spindexer_outtakeBall3};
{spindexer_outtakeBall1+spindexerPosOffset,
spindexer_outtakeBall2+spindexerPosOffset,
spindexer_outtakeBall3+spindexerPosOffset};
double[] intakePositions =
{spindexer_intakePos1, spindexer_intakePos2, spindexer_intakePos3};
@@ -150,12 +161,15 @@ public class Spindexer {
int spindexerBallPos = 0;
// Read Distances
distanceRearCenter = robot.color1.getDistance(DistanceUnit.MM);
distanceFrontDriver = robot.color2.getDistance(DistanceUnit.MM);
distanceFrontPassenger = robot.color3.getDistance(DistanceUnit.MM);
double dRearCenter = robot.color1.getDistance(DistanceUnit.MM);
distanceRearCenter = (colorFilterAlpha * dRearCenter) + ((1-colorFilterAlpha) * distanceRearCenter);
double dFrontDriver = robot.color2.getDistance(DistanceUnit.MM);
distanceFrontDriver = (colorFilterAlpha * dFrontDriver) + ((1-colorFilterAlpha) * distanceFrontDriver);
double dFrontPassenger = robot.color3.getDistance(DistanceUnit.MM);
distanceFrontPassenger = (colorFilterAlpha * dFrontPassenger) + ((1-colorFilterAlpha) * distanceFrontPassenger);
// Position 1
if (distanceRearCenter < 43) {
if (distanceRearCenter < 60) {
// Mark Ball Found
newPos1Detection = true;
@@ -169,17 +183,17 @@ public class Spindexer {
double gP = green / (green + red + blue);
// FIXIT - Add filtering to improve accuracy.
if (gP >= 0.4) {
ballPositions[commandedIntakePosition].ballColor = BallColor.PURPLE; // purple
if (gP >= 0.38) {
ballPositions[commandedIntakePosition].ballColor = BallColor.GREEN; // green
} else {
ballPositions[commandedIntakePosition].ballColor = BallColor.GREEN; // purple
ballPositions[commandedIntakePosition].ballColor = BallColor.PURPLE; // purple
}
}
}
// Position 2
// Find which ball position this is in the spindexer
spindexerBallPos = RotatedBallPositions[commandedIntakePosition][RotatedBallPositionNames.FRONTDRIVER.ordinal()];
if (distanceFrontDriver < 60) {
if (distanceFrontDriver < 50) {
// reset FoundEmpty because looking for 3 in a row before reset
ballPositions[spindexerBallPos].foundEmpty = 0;
if (detectFrontColor) {
@@ -190,9 +204,9 @@ public class Spindexer {
double gP = green / (green + red + blue);
if (gP >= 0.4) {
ballPositions[spindexerBallPos].ballColor = BallColor.PURPLE; // purple
ballPositions[spindexerBallPos].ballColor = BallColor.GREEN; // green
} else {
ballPositions[spindexerBallPos].ballColor = BallColor.GREEN; // purple
ballPositions[spindexerBallPos].ballColor = BallColor.PURPLE; // purple
}
}
} else {
@@ -207,7 +221,7 @@ public class Spindexer {
// Position 3
spindexerBallPos = RotatedBallPositions[commandedIntakePosition][RotatedBallPositionNames.FRONTPASSENGER.ordinal()];
if (distanceFrontPassenger < 33) {
if (distanceFrontPassenger < 29) {
// reset FoundEmpty because looking for 3 in a row before reset
ballPositions[spindexerBallPos].foundEmpty = 0;
@@ -218,10 +232,10 @@ public class Spindexer {
double gP = green / (green + red + blue);
if (gP >= 0.4) {
ballPositions[spindexerBallPos].ballColor = BallColor.PURPLE; // purple
if (gP >= 0.42) {
ballPositions[spindexerBallPos].ballColor = BallColor.GREEN; // green
} else {
ballPositions[spindexerBallPos].ballColor = BallColor.GREEN; // purple
ballPositions[spindexerBallPos].ballColor = BallColor.PURPLE; // purple
}
}
} else {
@@ -245,19 +259,51 @@ public class Spindexer {
return newPos1Detection;
}
public void moveSpindexerToPos(double pos) {
spinCurrentPos = servos.getSpinPos();
double spindexPID = spinPID.calculate(spinCurrentPos, pos);
robot.spin1.setPower(spindexPID);
robot.spin2.setPower(-spindexPID);
// Has code to unjam spindexer
private void moveSpindexerToPos(double pos) {
robot.spin1.setPosition(pos);
robot.spin2.setPosition(1-pos);
double currentPos = servos.getSpinPos();
if (!servos.spinEqual(pos) && Math.abs(prevPos - currentPos) <= 0){
// if (currentPos > pos){
// robot.spin1.setPosition(servos.getSpinPos() + 0.05);
// robot.spin2.setPosition(1 - servos.getSpinPos() - 0.05);
// } else {
// robot.spin1.setPosition(servos.getSpinPos() - 0.05);
// robot.spin2.setPosition(1 - servos.getSpinPos() + 0.05);
// }
}
prevPos = currentPos;
}
public void stopSpindexer() {
robot.spin1.setPower(0);
robot.spin2.setPower(0);
}
public void ballCounterLight(){
int counter = 0;
if (!ballPositions[0].isEmpty){
counter++;
}
if (!ballPositions[1].isEmpty){
counter++;
}
if (!ballPositions[2].isEmpty){
counter++;
}
if (counter == 3){
robot.light.setPosition(Light3);
} else if (counter == 2){
robot.light.setPosition(Light2);
} else if (counter == 1){
robot.light.setPosition(Light1);
} else {
robot.light.setPosition(Light0);
}
}
public boolean slotIsEmpty(int slot){
return !ballPositions[slot].isEmpty;
}
public boolean isFull () {
@@ -269,7 +315,7 @@ public class Spindexer {
case UNKNOWN_START:
// For now just set position ONE if UNKNOWN
commandedIntakePosition = 0;
servos.setSpinPos(intakePositions[0]);
moveSpindexerToPos(intakePositions[0]);
currentIntakeState = Spindexer.IntakeState.UNKNOWN_MOVE;
break;
case UNKNOWN_MOVE:
@@ -298,34 +344,32 @@ public class Spindexer {
currentIntakeState = Spindexer.IntakeState.FINDNEXT;
} else {
// Maintain Position
moveSpindexerToPos(intakePositions[commandedIntakePosition]);
spindexerWiggle *= -1.0;
moveSpindexerToPos(intakePositions[commandedIntakePosition]+spindexerWiggle);
}
break;
case FINDNEXT:
// Find Next Open Position and start movement
double currentSpindexerPos = servos.getSpinPos();
double commandedtravelDistance = 2.0;
//double proposedTravelDistance = Math.abs(intakePositions[0] - currentSpindexerPos);
double proposedTravelDistance = Math.abs(intakePositions[0] - currentSpindexerPos);
//if (ballPositions[0].isEmpty && (proposedTravelDistance < commandedtravelDistance)) {
if (ballPositions[0].isEmpty) {
// Position 1
commandedIntakePosition = 0;
servos.setSpinPos(intakePositions[commandedIntakePosition]);
currentIntakeState = Spindexer.IntakeState.MOVING;
}
//proposedTravelDistance = Math.abs(intakePositions[1] - currentSpindexerPos);
proposedTravelDistance = Math.abs(intakePositions[1] - currentSpindexerPos);
//if (ballPositions[1].isEmpty && (proposedTravelDistance < commandedtravelDistance)) {
if (ballPositions[1].isEmpty) {
// Position 2
commandedIntakePosition = 1;
servos.setSpinPos(intakePositions[commandedIntakePosition]);
currentIntakeState = Spindexer.IntakeState.MOVING;
}
//proposedTravelDistance = Math.abs(intakePositions[2] - currentSpindexerPos);
proposedTravelDistance = Math.abs(intakePositions[2] - currentSpindexerPos);
if (ballPositions[2].isEmpty) {
// Position 3
commandedIntakePosition = 2;
servos.setSpinPos(intakePositions[commandedIntakePosition]);
currentIntakeState = Spindexer.IntakeState.MOVING;
}
if (currentIntakeState != Spindexer.IntakeState.MOVING) {
@@ -356,29 +400,29 @@ public class Spindexer {
currentIntakeState = Spindexer.IntakeState.FINDNEXT;
}
// Maintain Position
moveSpindexerToPos(intakePositions[commandedIntakePosition]);
spindexerWiggle *= -1.0;
moveSpindexerToPos(intakePositions[commandedIntakePosition]+spindexerWiggle);
break;
case SHOOT_ALL_PREP:
// We get here with function call to prepareToShootMotif
// Stopping when we get to the new position
if (servos.spinEqual(intakePositions[commandedIntakePosition])) {
currentIntakeState = Spindexer.IntakeState.SHOOT_ALL_READY;
} else {
commandedIntakePosition = 0;
if (!servos.spinEqual(outakePositions[commandedIntakePosition])) {
// Keep moving the spindexer
moveSpindexerToPos(intakePositions[commandedIntakePosition]); // Possible error: should it be using "outakePositions" instead of "intakePositions"
moveSpindexerToPos(outakePositions[commandedIntakePosition]); // Possible error: should it be using "outakePositions" instead of "intakePositions"
}
break;
case SHOOT_ALL_READY:
case SHOOT_ALL_READY: // Not used
// Double Check Colors
//detectBalls(false, false); // Minimize hardware calls
if (ballPositions[0].isEmpty && ballPositions[1].isEmpty && ballPositions[2].isEmpty) {
// All ball shot move to intake state
currentIntakeState = Spindexer.IntakeState.FINDNEXT;
currentIntakeState = Spindexer.IntakeState.SHOOTNEXT;
}
// Maintain Position
moveSpindexerToPos(intakePositions[commandedIntakePosition]);
moveSpindexerToPos(outakePositions[commandedIntakePosition]);
break;
case SHOOTNEXT:
@@ -386,23 +430,20 @@ public class Spindexer {
if (!ballPositions[0].isEmpty) {
// Position 1
commandedIntakePosition = 0;
servos.setSpinPos(outakePositions[commandedIntakePosition]);
currentIntakeState = Spindexer.IntakeState.SHOOTMOVING;
} else if (ballPositions[1].isEmpty) { // Possible error: should it be !ballPosition[1].isEmpty?
} else if (!ballPositions[1].isEmpty) {
// Position 2
commandedIntakePosition = 1;
servos.setSpinPos(outakePositions[commandedIntakePosition]);
currentIntakeState = Spindexer.IntakeState.SHOOTMOVING;
} else if (ballPositions[2].isEmpty) { // Possible error: should it be !ballPosition[2].isEmpty?
} else if (!ballPositions[2].isEmpty) {
// Position 3
commandedIntakePosition = 2;
servos.setSpinPos(intakePositions[commandedIntakePosition]); // Possible error: should it be using "outakePositions" instead of "intakePositions"
currentIntakeState = Spindexer.IntakeState.SHOOTMOVING;
} else {
// Empty return to intake state
currentIntakeState = IntakeState.FINDNEXT;
}
moveSpindexerToPos(intakePositions[commandedIntakePosition]); // Possible error: should it be using "outakePositions" instead of "intakePositions"
moveSpindexerToPos(outakePositions[commandedIntakePosition]);
break;
case SHOOTMOVING:
@@ -411,25 +452,39 @@ public class Spindexer {
currentIntakeState = Spindexer.IntakeState.SHOOTWAIT;
} else {
// Keep moving the spindexer
moveSpindexerToPos(intakePositions[commandedIntakePosition]); // Possible error: should it be using "outakePositions" instead of "intakePositions"
moveSpindexerToPos(outakePositions[commandedIntakePosition]);
}
break;
case SHOOTWAIT:
double shootWaitMax = 4;
// Stopping when we get to the new position
if (servos.spinEqual(intakePositions[commandedIntakePosition])) {
currentIntakeState = Spindexer.IntakeState.INTAKE;
stopSpindexer();
//detectBalls(true, false);
if (prevIntakeState != currentIntakeState) {
if (commandedIntakePosition==2) {
shootWaitMax = 5;
}
shootWaitCount = 0;
} else {
// Keep moving the spindexer
moveSpindexerToPos(intakePositions[commandedIntakePosition]);
shootWaitCount++;
}
// wait 10 cycles
if (shootWaitCount > shootWaitMax) {
currentIntakeState = Spindexer.IntakeState.SHOOTNEXT;
ballPositions[commandedIntakePosition].isEmpty = true;
shootWaitCount = 0;
//stopSpindexer();
//detectBalls(true, false);
}
// Keep moving the spindexer
spindexerOuttakeWiggle *= -1.01;
moveSpindexerToPos(outakePositions[commandedIntakePosition]+spindexerOuttakeWiggle);
break;
default:
// Statements to execute if no case matches
}
prevIntakeState = currentIntakeState;
//TELE.addData("commandedIntakePosition", commandedIntakePosition);
//TELE.update();
// Signal a successful intake
@@ -458,7 +513,7 @@ public class Spindexer {
} else if (ballPositions[1].ballColor == BallColor.GREEN) {
return 1;
} else {
return 3;
return 2;
}
//break;
case PPG:
@@ -481,6 +536,25 @@ public class Spindexer {
commandedIntakePosition = bestFitMotif();
}
public void prepareShootAll(){
currentIntakeState = Spindexer.IntakeState.SHOOT_ALL_PREP;
}
public void shootAll () {
ballPositions[0].isEmpty = false;
ballPositions[1].isEmpty = false;
ballPositions[2].isEmpty = false;
currentIntakeState = Spindexer.IntakeState.SHOOTNEXT;
}
public boolean shootAllComplete ()
{
return ((currentIntakeState != Spindexer.IntakeState.SHOOT_ALL_PREP) &&
(currentIntakeState != Spindexer.IntakeState.SHOOT_ALL_READY) &&
(currentIntakeState != Spindexer.IntakeState.SHOOTMOVING) &&
(currentIntakeState != Spindexer.IntakeState.SHOOTNEXT) &&
(currentIntakeState != Spindexer.IntakeState.SHOOTWAIT));
}
void shootAllToIntake () {
currentIntakeState = Spindexer.IntakeState.FINDNEXT;
}
@@ -488,4 +562,16 @@ public class Spindexer {
public void update()
{
}
public BallColor GetFrontDriverColor () {
return ballPositions[RotatedBallPositions[commandedIntakePosition][RotatedBallPositionNames.FRONTDRIVER.ordinal()]].ballColor;
}
public BallColor GetFrontPassengerColor () {
return ballPositions[RotatedBallPositions[commandedIntakePosition][RotatedBallPositionNames.FRONTPASSENGER.ordinal()]].ballColor;
}
public BallColor GetRearCenterColor () {
return ballPositions[RotatedBallPositions[commandedIntakePosition][RotatedBallPositionNames.REARCENTER.ordinal()]].ballColor;
}
}

174
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/utils/Targeting.java
View File

@@ -67,19 +67,19 @@ public class Targeting {
KNOWNTARGETING[3][4] = new Settings (3100.0, 0.47);
KNOWNTARGETING[3][5] = new Settings (3100.0, 0.47);
// ROW 4
KNOWNTARGETING[4][0] = new Settings (4540.0, 0.1);
KNOWNTARGETING[4][1] = new Settings (4541.0, 0.1);
KNOWNTARGETING[4][2] = new Settings (4542.0, 0.1);
KNOWNTARGETING[4][3] = new Settings (4543.0, 0.1);
KNOWNTARGETING[4][4] = new Settings (4544.0, 0.1);
KNOWNTARGETING[4][5] = new Settings (4545.0, 0.1);
// ROW 1
KNOWNTARGETING[5][0] = new Settings (4550.0, 0.1);
KNOWNTARGETING[5][1] = new Settings (4551.0, 0.1);
KNOWNTARGETING[5][2] = new Settings (4552.0, 0.1);
KNOWNTARGETING[5][3] = new Settings (4553.0, 0.1);
KNOWNTARGETING[5][4] = new Settings (4554.0, 0.1);
KNOWNTARGETING[5][5] = new Settings (4555.0, 0.1);
KNOWNTARGETING[4][0] = new Settings (3100, 0.49);
KNOWNTARGETING[4][1] = new Settings (3100, 0.49);
KNOWNTARGETING[4][2] = new Settings (3100, 0.5);
KNOWNTARGETING[4][3] = new Settings (3200, 0.5);
KNOWNTARGETING[4][4] = new Settings (3250, 0.49);
KNOWNTARGETING[4][5] = new Settings (3300, 0.49);
// ROW 5
KNOWNTARGETING[5][0] = new Settings (3200, 0.48);
KNOWNTARGETING[5][1] = new Settings (3200, 0.48);
KNOWNTARGETING[5][2] = new Settings (3300, 0.48);
KNOWNTARGETING[5][3] = new Settings (3350, 0.48);
KNOWNTARGETING[5][4] = new Settings (3350, 0.48);
KNOWNTARGETING[5][5] = new Settings (3350, 0.48);
}
public Targeting()
@@ -107,61 +107,81 @@ public class Targeting {
// Determine if we need to interpolate based on tile position.
// if near upper or lower quarter or tile interpolate with next tile.
int x0 = 0;
int y0 = 0;
int x1 = 0;
int y1 = 0;
// interpolate = false;
// if ((remX > TILE_UPPER_QUARTILE) && (remY > TILE_UPPER_QUARTILE) &&
// (robotGridX < 5) && (robotGridY <5)) {
// // +X, +Y
// interpolate = true;
// x1 = robotGridX + 1;
// y1 = robotGridY + 1;
// } else if ((remX < TILE_LOWER_QUARTILE) && (remY < TILE_LOWER_QUARTILE) &&
// (robotGridX > 0) && (robotGridY > 0)) {
// // -X, -Y
// interpolate = true;
// x1 = robotGridX - 1;
// y1 = robotGridY - 1;
// } else if ((remX > TILE_UPPER_QUARTILE) && (remY < TILE_LOWER_QUARTILE) &&
// (robotGridX < 5) && (robotGridY > 0)) {
// // +X, -Y
// interpolate = true;
// x1 = robotGridX + 1;
// y1 = robotGridY - 1;
// } else if ((remX < TILE_LOWER_QUARTILE) && (remY > TILE_UPPER_QUARTILE) &&
// (robotGridX > 0) && (robotGridY < 5)) {
// // -X, +Y
// interpolate = true;
// x1 = robotGridX - 1;
// y1 = robotGridY + 1;
// } else if ((remX < TILE_LOWER_QUARTILE) && (robotGridX > 0)) {
// // -X, Y
// interpolate = true;
// x1 = robotGridX - 1;
// y1 = robotGridY;
// } else if ((remY < TILE_LOWER_QUARTILE) && (robotGridY > 0)) {
// // X, -Y
// interpolate = true;
// x1 = robotGridX;
// y1 = robotGridY - 1;
// } else if ((remX > TILE_UPPER_QUARTILE) && (robotGridX < 5)) {
// // +X, Y
// interpolate = true;
// x1 = robotGridX + 1;
// y1 = robotGridY;
// } else if ((remY > TILE_UPPER_QUARTILE) && (robotGridY < 5)) {
// // X, +Y
// interpolate = true;
// x1 = robotGridX;
// y1 = robotGridY + 1;
// }
interpolate = false;
if ((remX > TILE_UPPER_QUARTILE) && (remY > TILE_UPPER_QUARTILE) &&
(robotGridX < 5) && (robotGridY <5)) {
// +X, +Y
interpolate = true;
x0 = robotGridX;
x1 = robotGridX + 1;
y0 = robotGridY;
y1 = robotGridY + 1;
} else if ((remX < TILE_LOWER_QUARTILE) && (remY < TILE_LOWER_QUARTILE) &&
(robotGridX > 0) && (robotGridY > 0)) {
// -X, -Y
interpolate = true;
x0 = robotGridX - 1;
x1 = robotGridX;
y0 = robotGridY - 1;
y1 = robotGridY;
} else if ((remX > TILE_UPPER_QUARTILE) && (remY < TILE_LOWER_QUARTILE) &&
(robotGridX < 5) && (robotGridY > 0)) {
// +X, -Y
interpolate = true;
x0 = robotGridX;
x1 = robotGridX + 1;
y0 = robotGridY - 1;
y1 = robotGridY;
} else if ((remX < TILE_LOWER_QUARTILE) && (remY > TILE_UPPER_QUARTILE) &&
(robotGridX > 0) && (robotGridY < 5)) {
// -X, +Y
interpolate = true;
x0 = robotGridX - 1;
x1 = robotGridX;
y0 = robotGridY;
y1 = robotGridY + 1;
} else if ((remX < TILE_LOWER_QUARTILE) && (robotGridX > 0)) {
// -X, Y
interpolate = true;
x0 = robotGridX - 1;
x1 = robotGridX;
y0 = robotGridY;
y1 = robotGridY;
} else if ((remY < TILE_LOWER_QUARTILE) && (robotGridY > 0)) {
// X, -Y
interpolate = true;
x0 = robotGridX;
x1 = robotGridX;
y0 = robotGridY - 1;
y1 = robotGridY;
} else if ((remX > TILE_UPPER_QUARTILE) && (robotGridX < 5)) {
// +X, Y
interpolate = true;
x0 = robotGridX;
x1 = robotGridX + 1;
y0 = robotGridY;
y1 = robotGridY;
} else if ((remY > TILE_UPPER_QUARTILE) && (robotGridY < 5)) {
// X, +Y
interpolate = true;
x0 = robotGridX;
x1 = robotGridX;
y0 = robotGridY;
y1 = robotGridY + 1;
} else {
interpolate = false;
}
//clamp
robotGridX = Math.max(0, Math.min(gridX, KNOWNTARGETING[0].length - 1));
robotGridY = Math.max(0, Math.min(gridY, KNOWNTARGETING.length - 1));
// basic search
if(!interpolate) {
if(true) { //!interpolate) {
if ((robotGridY < 6) && (robotGridX <6)) {
recommendedSettings.flywheelRPM = KNOWNTARGETING[robotGridX][robotGridY].flywheelRPM;
recommendedSettings.hoodAngle = KNOWNTARGETING[robotGridX][robotGridY].hoodAngle;
@@ -170,27 +190,29 @@ public class Targeting {
} else {
// bilinear interpolation
int x0 = robotGridX;
//int x0 = robotGridX;
//int x1 = Math.min(x0 + 1, KNOWNTARGETING[0].length - 1);
int y0 = robotGridY;
//int y0 = robotGridY;
//int y1 = Math.min(y0 + 1, KNOWNTARGETING.length - 1);
double x = (robotInchesX - (x0 * tileSize)) / tileSize;
double y = (robotInchesY - (y0 * tileSize)) / tileSize;
// double x = (robotInchesX - (x0 * tileSize)) / tileSize;
// double y = (robotInchesY - (y0 * tileSize)) / tileSize;
double rpm00 = KNOWNTARGETING[y0][x0].flywheelRPM;
double rpm10 = KNOWNTARGETING[y0][x1].flywheelRPM;
double rpm01 = KNOWNTARGETING[y1][x0].flywheelRPM;
double rpm11 = KNOWNTARGETING[y1][x1].flywheelRPM;
double angle00 = KNOWNTARGETING[y0][x0].hoodAngle;
double angle10 = KNOWNTARGETING[y0][x1].hoodAngle;
double angle01 = KNOWNTARGETING[y1][x0].hoodAngle;
double angle11 = KNOWNTARGETING[y1][x1].hoodAngle;
recommendedSettings.flywheelRPM = (1 - x) * (1 - y) * rpm00 + x * (1 - y) * rpm10 + (1 - x) * y * rpm01 + x * y * rpm11;
recommendedSettings.hoodAngle = (1 - x) * (1 - y) * angle00 + x * (1 - y) * angle10 + (1 - x) * y * angle01 + x * y * angle11;
// double rpm00 = KNOWNTARGETING[y0][x0].flywheelRPM;
// double rpm10 = KNOWNTARGETING[y0][x1].flywheelRPM;
// double rpm01 = KNOWNTARGETING[y1][x0].flywheelRPM;
// double rpm11 = KNOWNTARGETING[y1][x1].flywheelRPM;
//
// double angle00 = KNOWNTARGETING[y0][x0].hoodAngle;
// double angle10 = KNOWNTARGETING[y0][x1].hoodAngle;
// double angle01 = KNOWNTARGETING[y1][x0].hoodAngle;
// double angle11 = KNOWNTARGETING[y1][x1].hoodAngle;
// recommendedSettings.flywheelRPM = (1 - x) * (1 - y) * rpm00 + x * (1 - y) * rpm10 + (1 - x) * y * rpm01 + x * y * rpm11;
// recommendedSettings.hoodAngle = (1 - x) * (1 - y) * angle00 + x * (1 - y) * angle10 + (1 - x) * y * angle01 + x * y * angle11;
// Average target tiles
recommendedSettings.flywheelRPM = (KNOWNTARGETING[x0][y0].flywheelRPM + KNOWNTARGETING[x1][y1].flywheelRPM)/2.0;
recommendedSettings.hoodAngle = (KNOWNTARGETING[x0][y0].hoodAngle + KNOWNTARGETING[x1][y1].hoodAngle)/2.0;
return recommendedSettings;
}
}

9
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/utils/Turret.java
View File

@@ -61,12 +61,6 @@ public class Turret {
this.TELE = tele;
this.robot = rob;
this.webcam = cam;
webcam.start();
if (redAlliance) {
webcam.pipelineSwitch(3);
} else {
webcam.pipelineSwitch(2);
}
bearingPID = new PIDController(B_PID_P, B_PID_I, B_PID_D);
}
@@ -119,17 +113,14 @@ public class Turret {
}
public double getTy() {
limelightRead();
return ty;
}
public double getLimelightX() {
limelightRead();
return limelightPosX;
}
public double getLimelightY() {
limelightRead();
return limelightPosY;
}

2
build.dependencies.gradle
View File

@@ -29,7 +29,7 @@ dependencies {
implementation "com.acmerobotics.roadrunner:ftc:0.1.25" //RR
implementation "com.acmerobotics.roadrunner:core:1.0.1" //RR
implementation "com.acmerobotics.roadrunner:actions:1.0.1" //RR
implementation "com.acmerobotics.dashboard:dashboard:0.4.17" //FTC Dash
implementation "com.acmerobotics.dashboard:dashboard:0.5.1" //FTC Dash
implementation 'org.ftclib.ftclib:core:2.1.1' // FTC LIB