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base: KeshavAnandCode:894a8d26fba081f4db02ec7ba79ccd683f753ab1
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KeshavAnandCode:master KeshavAnandCode:daniel
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compare: KeshavAnandCode:daniel
Branches Tags
KeshavAnandCode:master KeshavAnandCode:daniel

50 Commits
894a8d26fb ... daniel

Author SHA1 Message Date
DanTheMan-byte
d32033a015 here you go keshav 2025-11-30 16:42:45 -06:00
DanTheMan-byte
a869d4b7a0 pid is good, fix color 2025-11-29 18:14:03 -06:00
DanTheMan-byte
00966f98ba transfer changes 2025-11-29 14:29:26 -06:00
KeshavAnandCode
88e1c428a5 Auto 2025-11-29 14:11:37 -06:00
DanTheMan-byte
4bbe5f218c changes to PID 2025-11-28 19:21:54 -06:00
DanTheMan-byte
b0bc7b7b5b changes to PID 2025-11-28 18:58:15 -06:00
DanTheMan-byte
46f1bd5191 changes to PID 2025-11-28 18:38:03 -06:00
DanTheMan-byte
087c629d08 changes to PID 2025-11-28 18:35:58 -06:00
DanTheMan-byte
c91828f899 changes in 11/28 2025-11-28 18:23:03 -06:00
DanTheMan-byte
84c9b08205 11/26 edits 2025-11-26 19:03:43 -06:00
DanTheMan-byte
d639530fa9 lot of stuff to test tomorrow 2025-11-25 22:58:51 -06:00
DanTheMan-byte
bfa8b52ebc color sensor test 2025-11-25 21:39:17 -06:00
DanTheMan-byte
3b342d1656 color sensor progress 2025-11-24 19:16:17 -06:00
DanTheMan-byte
582ea86ac5 latest push 2025-11-24 17:56:14 -06:00
DanTheMan-byte
77b42acdda encoder velocity finalized - adjusted color values 2025-11-20 21:11:06 -06:00
DanTheMan-byte
8d75b245e3 velocity math: to test 2025-11-18 22:47:58 -06:00
DanTheMan-byte
e5ba0947e3 test 2025-11-18 19:27:15 -06:00
DanTheMan-byte
f8222e292f fly wheel by velocity 2025-11-16 20:20:13 -06:00
DanTheMan-byte
31b98cc8a1 fly wheel by velocity 2025-11-16 19:37:29 -06:00
DanTheMan-byte
b6c8ea1a28 fly wheel by velocity - in progress 2025-11-13 22:18:29 -06:00
DanTheMan-byte
5e41560fd5 moved in red again 2025-11-13 19:15:36 -06:00
DanTheMan-byte
8aa1954fbf moved in ServoPositions 2025-11-13 19:13:47 -06:00
DanTheMan-byte
7246e648d9 moved in poses 2025-11-13 19:13:02 -06:00
DanTheMan-byte
dedc7e9b97 moved in blue 2025-11-13 19:12:02 -06:00
DanTheMan-byte
2e456f653d moved in shooter 2025-11-13 19:11:01 -06:00
DanTheMan-byte
f08afd928a goofy changes 2025-11-13 19:08:28 -06:00
DanTheMan-byte
0df3a68920 moved in Red 2025-11-11 20:58:20 -06:00
DanTheMan-byte
abe5d0899f moved in transfer 2025-11-11 20:53:59 -06:00
DanTheMan-byte
7f968de6a8 moved in tele 2025-11-11 20:52:55 -06:00
DanTheMan-byte
331ec2fa0b Merge remote-tracking branch 'origin/daniel' into daniel 
# Conflicts:
#	TeamCode/src/main/java/org/firstinspires/ftc/teamcode/subsystems/Shooter.java
#	TeamCode/src/main/java/org/firstinspires/ftc/teamcode/subsystems/Transfer.java
#	TeamCode/src/main/java/org/firstinspires/ftc/teamcode/teleop/TeleopV1.java
#	TeamCode/src/main/java/org/firstinspires/ftc/teamcode/utils/ConfigureColorRangefinder.java
 2025-11-11 20:47:51 -06:00
DanTheMan-byte
deda28dd37 rejecter 2025-11-11 20:46:37 -06:00
DanTheMan-byte
9e3aadc8de color test 2025-11-11 20:46:34 -06:00
DanTheMan-byte
37fa917b68 color test 2025-11-11 20:46:33 -06:00
DanTheMan-byte
40e415a967 teleop ground logic 2025-11-11 20:46:30 -06:00
DanTheMan-byte
b026a597b4 commit 1 2025-11-11 20:46:24 -06:00
DanTheMan-byte
0cdae76697 spindex class - 11/1 2025-11-11 20:46:19 -06:00
DanTheMan-byte
7e01e52f6d as commit test 2025-11-11 20:46:15 -06:00
DanTheMan-byte
a7031232cf intake coded 2025-11-11 20:46:08 -06:00
KeshavAnandCode
6ad7d46580 Ready Daniel??? 2025-11-11 20:46:02 -06:00
DanTheMan-byte
ee2208922b rejecter 2025-11-07 20:22:41 -06:00
DanTheMan-byte
03d72af8d2 color test 2025-11-06 22:27:02 -06:00
DanTheMan-byte
bb821d9108 color test 2025-11-06 19:21:56 -06:00
DanTheMan-byte
c517443459 teleop ground logic 2025-11-04 21:29:46 -06:00
DanTheMan-byte
34f2f4b593 commit 1 2025-11-04 20:28:17 -06:00
DanTheMan-byte
de096a925c Merge branch 'master' into daniel 
# Conflicts:
#	TeamCode/src/main/java/org/firstinspires/ftc/teamcode/subsystems/Intake.java
#	TeamCode/src/main/java/org/firstinspires/ftc/teamcode/utils/Robot.java
 2025-11-04 19:42:06 -06:00
DanTheMan-byte
96f4f1c639 spindex class - 11/1 2025-11-01 20:38:06 -05:00
DanTheMan-byte
77a68937f1 as commit test 2025-11-01 20:16:30 -05:00
DanTheMan-byte
a1b1cb99f6 as commit test 2025-11-01 17:38:30 -05:00
DanTheMan-byte
e7c18a671a intake coded 2025-11-01 17:34:47 -05:00
KeshavAnandCode
0c81ca6a1a Ready Daniel??? 2025-11-01 16:56:39 -05:00
29 changed files with 3663 additions and 392 deletions
Expand all files Collapse all files

13
TeamCode/build.gradle
View File

@@ -23,19 +23,6 @@ android {
}
}
repositories {
maven {
url = 'https://maven.brott.dev/'
}
}
dependencies {
implementation project(':FtcRobotController')
implementation "com.acmerobotics.roadrunner:ftc:0.1.25"
implementation "com.acmerobotics.roadrunner:core:1.0.1"
implementation "com.acmerobotics.roadrunner:actions:1.0.1"
implementation "com.acmerobotics.dashboard:dashboard:0.5.1"
implementation 'org.ftclib.ftclib:core:2.1.1' // core
}

478
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/autonomous/Blue.java Normal file
View File

@@ -0,0 +1,478 @@
package org.firstinspires.ftc.teamcode.autonomous;
import static org.firstinspires.ftc.teamcode.constants.Poses.h1;
import static org.firstinspires.ftc.teamcode.constants.Poses.h2;
import static org.firstinspires.ftc.teamcode.constants.Poses.h2_b;
import static org.firstinspires.ftc.teamcode.constants.Poses.h3;
import static org.firstinspires.ftc.teamcode.constants.Poses.teleStart;
import static org.firstinspires.ftc.teamcode.constants.Poses.x1;
import static org.firstinspires.ftc.teamcode.constants.Poses.x2;
import static org.firstinspires.ftc.teamcode.constants.Poses.x2_b;
import static org.firstinspires.ftc.teamcode.constants.Poses.x3;
import static org.firstinspires.ftc.teamcode.constants.Poses.y1;
import static org.firstinspires.ftc.teamcode.constants.Poses.y2;
import static org.firstinspires.ftc.teamcode.constants.Poses.y2_b;
import static org.firstinspires.ftc.teamcode.constants.Poses.y3;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.*;
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.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.libs.RR.MecanumDrive;
import org.firstinspires.ftc.teamcode.subsystems.AprilTag;
import org.firstinspires.ftc.teamcode.subsystems.Intake;
import org.firstinspires.ftc.teamcode.subsystems.Shooter;
import org.firstinspires.ftc.teamcode.subsystems.Spindexer;
import org.firstinspires.ftc.teamcode.subsystems.Transfer;
import org.firstinspires.ftc.teamcode.utils.Robot;
@Config
@Autonomous (preselectTeleOp = "TeleopV1")
public class Blue extends LinearOpMode {
Robot robot;
MultipleTelemetry TELE;
MecanumDrive drive;
AprilTag aprilTag;
Shooter shooter;
public static double angle = 0.1;
Spindexer spindexer;
Transfer transfer;
public class shooterOn implements Action {
int ticker = 1;
double stamp = 0.0;
@Override
public boolean run(@NonNull TelemetryPacket telemetryPacket) {
if (ticker ==1){
stamp = getRuntime();
}
ticker ++;
if (getRuntime() - stamp < 0.2){
return true;
} else if (getRuntime() - stamp < 0.4) {
shooter.setManualPower(1);
shooter.update();
return true;
} else {
return false;
}
}
}
@Override
public void runOpMode() throws InterruptedException {
robot = new Robot(hardwareMap);
TELE = new MultipleTelemetry(
telemetry, FtcDashboard.getInstance().getTelemetry()
);
drive = new MecanumDrive(hardwareMap, new Pose2d(
0,0,0
));
aprilTag = new AprilTag(robot, TELE);
shooter = new Shooter(robot, TELE);
spindexer = new Spindexer(robot, TELE);
spindexer.outtake3();
shooter.setShooterMode("MANUAL");
shooter.sethoodPosition(0.53);
transfer = new Transfer(robot);
transfer.setTransferPosition(transferServo_out);
Intake intake = new Intake(robot);
robot.hood.setPosition(hoodDefault);
TrajectoryActionBuilder traj1 = drive.actionBuilder(new Pose2d(0, 0, 0))
.strafeToLinearHeading(new Vector2d(x1, y1), h1 );
TrajectoryActionBuilder traj2 = drive.actionBuilder(new Pose2d(x1, y1, h1))
.turnTo(Math.toRadians(-135))
.strafeToLinearHeading(new Vector2d(x2, -y2), -h2 );
TrajectoryActionBuilder traj3 = drive.actionBuilder(new Pose2d(x2, -y2, -h2))
.strafeToLinearHeading(new Vector2d(x1, y1), h1 );
TrajectoryActionBuilder traj4 = drive.actionBuilder(new Pose2d(x1, y1, h1))
.strafeToLinearHeading(new Vector2d(x2_b, -y2_b), -h2_b )
.strafeToLinearHeading(new Vector2d(x3, -y3), -h3 );
TrajectoryActionBuilder traj5 = drive.actionBuilder(new Pose2d(x3, -y3, -h3))
.strafeToLinearHeading(new Vector2d(x1, y1), h1 );
TrajectoryActionBuilder traj6 = drive.actionBuilder(new Pose2d(x1, y1, h1))
.strafeToLinearHeading(new Vector2d(x1, y1-30), h1 );
while(opModeInInit()) {
if (gamepad2.dpadUpWasPressed()){
hoodDefault -= 0.01;
}
if (gamepad2.dpadDownWasPressed()){
hoodDefault += 0.01;
}
robot.hood.setPosition(hoodDefault);
shooter.setTurretPosition(turret_blue);
aprilTag.initTelemetry();
aprilTag.update();
shooter.update();
TELE.addData("hood", hoodDefault);
TELE.update();
}
waitForStart();
if (isStopRequested()) return;
if (opModeIsActive()){
robot.hood.setPosition(hoodDefault);
transfer.setTransferPower(1);
transfer.update();
Actions.runBlocking(
new ParallelAction(
traj1.build(),
new shooterOn()
)
);
transfer.setTransferPower(1);
transfer.update();
shooter.setManualPower(1);
double stamp = getRuntime();
stamp = getRuntime();
while (getRuntime()-stamp<4.5) {
shooter.moveTurret(0.3);
double time = getRuntime()-stamp;
if (time < 0.3) {
transfer.transferOut();
transfer.setTransferPower(1);
} else if (time < 1) {
spindexer.outtake3();
} else if (time < 1.4) {
transfer.transferIn();
} else if (time < 2.6) {
transfer.transferOut();
spindexer.outtake2();
} else if (time < 3.0) {
transfer.transferIn();
} else if (time < 4.0) {
transfer.transferOut();
spindexer.outtake1();
} else if (time < 4.4) {
transfer.transferIn();
} else {
transfer.transferOut();
spindexer.outtake3();
shooter.setManualPower(1);
}
transfer.update();
shooter.update();
spindexer.update();
}
spindexer.outtake3();
robot.intake.setPower(1);
Actions.runBlocking(
traj2.build()
);
Actions.runBlocking(
traj3.build()
);
shooter.setManualPower(1);
robot.intake.setPower(0);
spindexer.outtake3();
stamp = getRuntime();
shooter.setManualPower(1);
while (getRuntime()-stamp<4.5) {
shooter.moveTurret(0.3);
double time = getRuntime()-stamp;
if (time < 0.3) {
transfer.transferOut();
transfer.setTransferPower(1);
} else if (time < 1) {
spindexer.outtake3();
} else if (time < 1.4) {
transfer.transferIn();
} else if (time < 2.6) {
transfer.transferOut();
spindexer.outtake2();
} else if (time < 3.0) {
transfer.transferIn();
} else if (time < 4.0) {
transfer.transferOut();
spindexer.outtake1();
} else if (time < 4.4) {
transfer.transferIn();
} else {
transfer.transferOut();
spindexer.outtake3();
shooter.setManualPower(1);
}
transfer.update();
shooter.update();
spindexer.update();
}
spindexer.outtake3();
robot.intake.setPower(1);
Actions.runBlocking(
traj4.build()
);
Actions.runBlocking(
traj5.build()
);
shooter.setManualPower(1);
robot.intake.setPower(0);
stamp = getRuntime();
shooter.setManualPower(1);
while (getRuntime()-stamp<4.5) {
shooter.moveTurret(0.3);
double time = getRuntime()-stamp;
if (time < 0.3) {
transfer.transferOut();
transfer.setTransferPower(1);
} else if (time < 1) {
spindexer.outtake3();
} else if (time < 1.4) {
transfer.transferIn();
} else if (time < 2.6) {
transfer.transferOut();
spindexer.outtake2();
} else if (time < 3.0) {
transfer.transferIn();
} else if (time < 4.0) {
transfer.transferOut();
spindexer.outtake1();
} else if (time < 4.4) {
transfer.transferIn();
} else {
transfer.transferOut();
spindexer.outtake3();
shooter.setManualPower(1);
}
transfer.update();
shooter.update();
spindexer.update();
}
spindexer.outtake3();
Actions.runBlocking(
traj6.build()
);
drive.updatePoseEstimate();
teleStart = drive.localizer.getPose();
TELE.addLine("finished");
TELE.update();
sleep (2000);
}
}
}

431
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/autonomous/Red.java Normal file
View File

@@ -0,0 +1,431 @@
package org.firstinspires.ftc.teamcode.autonomous;
import static org.firstinspires.ftc.teamcode.constants.Poses.*;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.*;
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.SequentialAction;
import com.acmerobotics.roadrunner.TrajectoryActionBuilder;
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.ServoPositions;
import org.firstinspires.ftc.teamcode.libs.RR.MecanumDrive;
import org.firstinspires.ftc.teamcode.subsystems.AprilTag;
import org.firstinspires.ftc.teamcode.subsystems.Intake;
import org.firstinspires.ftc.teamcode.subsystems.Shooter;
import org.firstinspires.ftc.teamcode.subsystems.Spindexer;
import org.firstinspires.ftc.teamcode.subsystems.Transfer;
import org.firstinspires.ftc.teamcode.utils.Robot;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.*;
@Config
@Autonomous
public class Red extends LinearOpMode {
Robot robot;
MultipleTelemetry TELE;
MecanumDrive drive;
AprilTag aprilTag;
Shooter shooter;
public static double angle = 0.1;
Spindexer spindexer;
Transfer transfer;
@Override
public void runOpMode() throws InterruptedException {
robot = new Robot(hardwareMap);
TELE = new MultipleTelemetry(
telemetry, FtcDashboard.getInstance().getTelemetry()
);
drive = new MecanumDrive(hardwareMap, new Pose2d(
0,0,0
));
aprilTag = new AprilTag(robot, TELE);
shooter = new Shooter(robot, TELE);
spindexer = new Spindexer(robot, TELE);
spindexer.outtake3();
shooter.setShooterMode("MANUAL");
shooter.sethoodPosition(hoodDefault);
transfer = new Transfer(robot);
transfer.setTransferPosition(transferServo_out);
Intake intake = new Intake(robot);
robot.hood.setPosition(hoodDefault);
TrajectoryActionBuilder shoot0 = drive.actionBuilder(new Pose2d(0, 0, 0))
.strafeToLinearHeading(new Vector2d(x1, y1), h1 );
TrajectoryActionBuilder pickup1 = drive.actionBuilder(new Pose2d(x1, y1, h1))
.turnTo(Math.toRadians(135))
.strafeToLinearHeading(new Vector2d(x2, y2), h2 );
TrajectoryActionBuilder shoot1 = drive.actionBuilder(new Pose2d(x2, y2, h2))
.strafeToLinearHeading(new Vector2d(x1, y1), h1 );
TrajectoryActionBuilder pickup2 = drive.actionBuilder(new Pose2d(x1, y1, h1))
.strafeToLinearHeading(new Vector2d(x2_b, y2_b), h2_b )
.strafeToLinearHeading(new Vector2d(x3, y3), h3 );
TrajectoryActionBuilder shoot2 = drive.actionBuilder(new Pose2d(x3, y3, h3))
.strafeToLinearHeading(new Vector2d(x1, y1), h1 );
TrajectoryActionBuilder park = drive.actionBuilder(new Pose2d(x1, y1, h1))
.strafeToLinearHeading(new Vector2d(x1, y1+30), h1 );
while(opModeInInit()) {
if (gamepad2.dpadUpWasPressed()){
hoodDefault -= 0.01;
}
if (gamepad2.dpadDownWasPressed()){
hoodDefault += 0.01;
}
robot.hood.setPosition(hoodDefault);
shooter.setTurretPosition(turret_red);
aprilTag.initTelemetry();
aprilTag.update();
shooter.update();
TELE.update();
}
waitForStart();
if (isStopRequested()) return;
if (opModeIsActive()){
robot.hood.setPosition(hoodDefault);
transfer.setTransferPower(1);
transfer.update();
Actions.runBlocking(
new ParallelAction(
shoot0.build()
)
);
transfer.setTransferPower(1);
transfer.update();
shooter.setManualPower(1);
double stamp = getRuntime();
stamp = getRuntime();
while (getRuntime()-stamp<4.5) {
shooter.moveTurret(0.31);
double time = getRuntime()-stamp;
if (time < 0.3) {
transfer.transferOut();
transfer.setTransferPower(1);
} else if (time < 1) {
spindexer.outtake3();
} else if (time < 1.4) {
transfer.transferIn();
} else if (time < 2.6) {
transfer.transferOut();
spindexer.outtake2();
} else if (time < 3.0) {
transfer.transferIn();
} else if (time < 4.0) {
transfer.transferOut();
spindexer.outtake1();
} else if (time < 4.4) {
transfer.transferIn();
} else {
transfer.transferOut();
spindexer.outtake3();
shooter.setManualPower(0);
}
transfer.update();
shooter.update();
spindexer.update();
}
spindexer.outtake3();
robot.intake.setPower(1);
Actions.runBlocking(
pickup1.build()
);
Actions.runBlocking(
shoot1.build()
);
shooter.setManualPower(1);
robot.intake.setPower(0);
spindexer.outtake3();
stamp = getRuntime();
shooter.setManualPower(1);
while (getRuntime()-stamp<4.5) {
shooter.moveTurret(0.31);
double time = getRuntime()-stamp;
if (time < 0.3) {
transfer.transferOut();
transfer.setTransferPower(1);
} else if (time < 1) {
spindexer.outtake3();
} else if (time < 1.4) {
transfer.transferIn();
} else if (time < 2.6) {
transfer.transferOut();
spindexer.outtake2();
} else if (time < 3.0) {
transfer.transferIn();
} else if (time < 4.0) {
transfer.transferOut();
spindexer.outtake1();
} else if (time < 4.4) {
transfer.transferIn();
} else {
transfer.transferOut();
spindexer.outtake3();
shooter.setManualPower(0);
}
transfer.update();
shooter.update();
spindexer.update();
}
spindexer.outtake3();
robot.intake.setPower(1);
Actions.runBlocking(
pickup2.build()
);
Actions.runBlocking(
shoot2.build()
);
shooter.setManualPower(1);
robot.intake.setPower(0);
stamp = getRuntime();
shooter.setManualPower(1);
while (getRuntime()-stamp<4.5) {
shooter.moveTurret(0.31);
double time = getRuntime()-stamp;
if (time < 0.3) {
transfer.transferOut();
transfer.setTransferPower(1);
} else if (time < 1) {
spindexer.outtake3();
} else if (time < 1.4) {
transfer.transferIn();
} else if (time < 2.6) {
transfer.transferOut();
spindexer.outtake2();
} else if (time < 3.0) {
transfer.transferIn();
} else if (time < 4.0) {
transfer.transferOut();
spindexer.outtake1();
} else if (time < 4.4) {
transfer.transferIn();
} else {
transfer.transferOut();
spindexer.outtake3();
shooter.setManualPower(0);
}
transfer.update();
shooter.update();
spindexer.update();
}
spindexer.outtake3();
Actions.runBlocking(
park.build()
);
drive.updatePoseEstimate();
teleStart = drive.localizer.getPose();
TELE.addLine("finished");
TELE.update();
sleep (2000);
}
}
}

298
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/autonomous/redDaniel.java Normal file
View File

@@ -0,0 +1,298 @@
package org.firstinspires.ftc.teamcode.autonomous;
import static org.firstinspires.ftc.teamcode.constants.Poses.*;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.*;
import static org.firstinspires.ftc.teamcode.constants.ShooterVars.*;
import static org.firstinspires.ftc.teamcode.utils.PositionalServoProgrammer.*;
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.ParallelAction;
import com.acmerobotics.roadrunner.Pose2d;
import com.acmerobotics.roadrunner.TrajectoryActionBuilder;
import com.acmerobotics.roadrunner.Vector2d;
import com.qualcomm.robotcore.eventloop.opmode.Autonomous;
import com.qualcomm.robotcore.eventloop.opmode.LinearOpMode;
import com.acmerobotics.roadrunner.Action;
import com.acmerobotics.roadrunner.ftc.Actions;
import org.firstinspires.ftc.teamcode.libs.RR.MecanumDrive;
import org.firstinspires.ftc.teamcode.subsystems.AprilTag;
import org.firstinspires.ftc.teamcode.utils.Robot;
@Config
@Autonomous
public class redDaniel extends LinearOpMode {
Robot robot;
MultipleTelemetry TELE;
MecanumDrive drive;
AprilTag aprilTag;
int b1 = 0; // 0 = no ball, 1 = green, 2 = purple
int b2 = 0;// 0 = no ball, 1 = green, 2 = purple
int b3 = 0;// 0 = no ball, 1 = green, 2 = purple
// TODO: change this velocity PID
public Action initShooter(int velocity){
return new Action(){
double velo = 0.0;
double initPos = 0.0;
double stamp = 0.0;
double powPID = 0.0;
double ticker = 0.0;
public boolean run(@NonNull TelemetryPacket telemetryPacket){
velo = -60 * ((((double) robot.shooter1.getCurrentPosition() / 2048) - initPos) / (getRuntime() - stamp));
stamp = getRuntime();
initPos = (double) robot.shooter1.getCurrentPosition() / 2048;
if (Math.abs(velocity - velo) > initTolerance) {
powPID = (double) velocity / maxVel;
ticker = getRuntime();
} else if (velocity - velTolerance > velo) {
powPID = powPID + 0.0001;
ticker = getRuntime();
} else if (velocity + velTolerance < velo) {
powPID = powPID - 0.0001;
ticker = getRuntime();
}
robot.shooter1.setPower(powPID);
robot.shooter2.setPower(powPID);
robot.transfer.setPower((powPID / 4) + 0.75);
return getRuntime() - ticker < 0.5;
}
};
}
public void Obelisk (){
// TODO: write the code to detect order
}
public Action Shoot(double spindexer){
return new Action() {
boolean transfer = false;
@Override
public boolean run(@NonNull TelemetryPacket telemetryPacket) {
robot.spin1.setPosition(spindexer);
robot.spin2.setPosition(1-spindexer);
if (scalar*((robot.spin1Pos.getVoltage() - restPos) / 3.3) < spindexer + 0.01 && scalar*((robot.spin1Pos.getVoltage() - restPos) / 3.3) > spindexer - 0.01){
robot.transferServo.setPosition(transferServo_in);
transfer = true;
}
if (scalar*((robot.transferServoPos.getVoltage() - restPos) / 3.3) < transferServo_in + 0.01 && scalar*((robot.transferServoPos.getVoltage() - restPos) / 3.3) > transferServo_in - 0.01 && transfer){
robot.transferServo.setPosition(transferServo_out);
return false;
}
return true;
}
};
}
public Action intake (){
return new Action() {
double position = 0.0;
final double intakeTime = 4.0; // TODO: change this so it serves as a backup
final double stamp = getRuntime();
@Override
public boolean run(@NonNull TelemetryPacket telemetryPacket) {
if ((getRuntime() % 0.3) >0.15) {
position = spindexer_intakePos1 + 0.02;
} else {
position = spindexer_intakePos1 - 0.02;
}
robot.spin1.setPosition(position);
robot.spin2.setPosition(1-position);
robot.intake.setPower(1);
return !(robot.pin1.getState() && robot.pin3.getState() && robot.pin5.getState()) || getRuntime() - stamp > intakeTime;
}
};
}
public Action ColorDetect (){
return new Action() {
int t1 = 0;
int t2 = 0;
int t3 = 0;
int tP1 = 0;
int tP2 = 0;
int tP3 = 0;
final double stamp = getRuntime();
final double detectTime = 3.0;
double position = 0.0;
@Override
public boolean run(@NonNull TelemetryPacket telemetryPacket) {
if ((getRuntime() % 0.3) >0.15) {
position = spindexer_intakePos1 + 0.02;
} else {
position = spindexer_intakePos1 - 0.02;
}
robot.spin1.setPosition(position);
robot.spin2.setPosition(1-position);
if (robot.pin1.getState()) {
t1 += 1;
if (robot.pin0.getState()){
tP1 += 1;
}
}
if (robot.pin3.getState()) {
t2 += 1;
if (robot.pin0.getState()){
tP2 += 1;
}
}
if (robot.pin5.getState()) {
t3 += 1;
if (robot.pin0.getState()){
tP3 += 1;
}
}
if (t1 > 20){
if (tP1 > 20){
b1 = 2;
} else {
b1 = 1;
}
}
if (t2 > 20){
if (tP2 > 20){
b2 = 2;
} else {
b2 = 1;
}
}
if (t3 > 20){
if (tP3 > 20){
b3 = 2;
} else {
b3 = 1;
}
}
return !(b1 + b2 + b3 >= 5) || (getRuntime() - stamp < detectTime);
}
};
}
@Override
public void runOpMode() throws InterruptedException {
robot = new Robot(hardwareMap);
TELE = new MultipleTelemetry(
telemetry, FtcDashboard.getInstance().getTelemetry()
);
drive = new MecanumDrive(hardwareMap, new Pose2d(
0, 0, 0
));
aprilTag = new AprilTag(robot, TELE);
TrajectoryActionBuilder shoot0 = drive.actionBuilder(new Pose2d(0, 0, 0))
.strafeToLinearHeading(new Vector2d(x1, y1), h1);
TrajectoryActionBuilder pickup1 = drive.actionBuilder(new Pose2d(x1, y1, h1))
.turnTo(Math.toRadians(h2))
.strafeToLinearHeading(new Vector2d(x2, y2), h2);
TrajectoryActionBuilder shoot1 = drive.actionBuilder(new Pose2d(x2, y2, h2))
.strafeToLinearHeading(new Vector2d(x1, y1), h1);
TrajectoryActionBuilder pickup2 = drive.actionBuilder(new Pose2d(x1, y1, h1))
.strafeToLinearHeading(new Vector2d(x2_b, y2_b), h2_b)
.strafeToLinearHeading(new Vector2d(x3, y3), h3);
TrajectoryActionBuilder shoot2 = drive.actionBuilder(new Pose2d(x3, y3, h3))
.strafeToLinearHeading(new Vector2d(x1, y1), h1);
TrajectoryActionBuilder park = drive.actionBuilder(new Pose2d(x1, y1, h1))
.strafeToLinearHeading(new Vector2d(x1, y1 + 30), h1);
while (opModeInInit()) {
if (gamepad2.dpadUpWasPressed()) {
hoodDefault -= 0.01;
}
if (gamepad2.dpadDownWasPressed()) {
hoodDefault += 0.01;
}
robot.hood.setPosition(hoodDefault);
robot.turr1.setPosition(turret_red);
robot.turr2.setPosition(1 - turret_red);
robot.transferServo.setPosition(transferServo_out);
aprilTag.initTelemetry();
aprilTag.update();
TELE.update();
}
waitForStart();
if (isStopRequested()) return;
if (opModeIsActive()) {
robot.hood.setPosition(hoodDefault);
Actions.runBlocking(
new ParallelAction(
shoot0.build()
)
);
Actions.runBlocking(
pickup1.build()
);
Actions.runBlocking(
shoot1.build()
);
Actions.runBlocking(
pickup2.build()
);
Actions.runBlocking(
shoot2.build()
);
Actions.runBlocking(
park.build()
);
drive.updatePoseEstimate();
teleStart = drive.localizer.getPose();
TELE.addLine("finished");
TELE.update();
sleep(2000);
}
}
}

4
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package org.firstinspires.ftc.teamcode.constants;
public class Color {
}

29
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/constants/Poses.java Normal file
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package org.firstinspires.ftc.teamcode.constants;
import com.acmerobotics.dashboard.config.Config;
import com.acmerobotics.roadrunner.Pose2d;
@Config
public class Poses {
public static double goalHeight = 42; //in inches
public static double turretHeight = 12;
public static double relativeGoalHeight = goalHeight - turretHeight;
public static double x1 = 50, y1 = 0, h1 = 0;
public static double x2 = 31, y2 = 32, h2 = Math.toRadians(140);
public static double x2_b = 58, y2_b = 42, h2_b = Math.toRadians(140);
public static double x3 = 34, y3 = 58, h3 = Math.toRadians(140);
public static Pose2d teleStart = new Pose2d(x1,-10,0);
}

34
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/constants/ServoPositions.java Normal file
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package org.firstinspires.ftc.teamcode.constants;
import com.acmerobotics.dashboard.config.Config;
@Config
public class ServoPositions {
public static double spindexer_intakePos1 = 0.665;
public static double spindexer_intakePos3 = 0.29;
public static double spindexer_intakePos2 = 0.99;
public static double spindexer_outtakeBall3 = 0.845;
public static double spindexer_outtakeBall2 = 0.48;
public static double spindexer_outtakeBall1 = 0.1;
public static double transferServo_out = 0.15;
public static double transferServo_in = 0.38;
public static double hoodDefault = 0.35;
public static double hoodHigh = 0.21;
public static double hoodLow = 1.0;
public static double turret_red = 0.43;
public static double turret_blue = 0.4;
}

16
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package org.firstinspires.ftc.teamcode.constants;
import com.acmerobotics.dashboard.config.Config;
@Config
public class ShooterVars {
public static double turret_GearRatio = 0.9974;
public static double turret_Range = 355;
public static int velTolerance = 300;
public static int initTolerance = 1000;
public static int maxVel = 4000;
}

203
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/readme.md
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## TeamCode Module
# Team FTC Git Workflow Guide
Welcome!
This module, TeamCode, is the place where you will write/paste the code for your team's
robot controller App. This module is currently empty (a clean slate) but the
process for adding OpModes is straightforward.
## 1. Cloning the Repository
## Creating your own OpModes
1. Open a terminal (or the terminal inside Android Studio).
2. Navigate to the folder where you want to keep the project.
3. Run:
The easiest way to create your own OpMode is to copy a Sample OpMode and make it your own.
```bash
git clone https://github.com/KeshavAnandCode/DecodeFTCMain.git
cd DecodeFTCMain
```
Sample opmodes exist in the FtcRobotController module.
To locate these samples, find the FtcRobotController module in the "Project/Android" tab.
4. Verify your remotes:
Expand the following tree elements:
FtcRobotController/java/org.firstinspires.ftc.robotcontroller/external/samples
```bash
git remote -v
```
### Naming of Samples
You should see:
```
origin https://github.com/KeshavAnandCode/DecodeFTCMain.git (fetch)
origin https://github.com/KeshavAnandCode/DecodeFTCMain.git (push)
upstream https://github.com/FIRST-Tech-Challenge/FtcRobotController.git (fetch)
upstream https://github.com/FIRST-Tech-Challenge/FtcRobotController.git (push)
```
To gain a better understanding of how the samples are organized, and how to interpret the
naming system, it will help to understand the conventions that were used during their creation.
---
These conventions are described (in detail) in the sample_conventions.md file in this folder.
## 2. Keeping `master` Clean
To summarize: A range of different samples classes will reside in the java/external/samples.
The class names will follow a naming convention which indicates the purpose of each class.
The prefix of the name will be one of the following:
- `master` should only contain clean, tested code.
- Nobody should ever code directly on `master`.
- To stay up to date:
Basic: This is a minimally functional OpMode used to illustrate the skeleton/structure
of a particular style of OpMode. These are bare bones examples.
```bash
git checkout master
git fetch upstream
git merge upstream/master
git push origin master
```
Sensor: This is a Sample OpMode that shows how to use a specific sensor.
It is not intended to drive a functioning robot, it is simply showing the minimal code
required to read and display the sensor values.
---
Robot: This is a Sample OpMode that assumes a simple two-motor (differential) drive base.
It may be used to provide a common baseline driving OpMode, or
to demonstrate how a particular sensor or concept can be used to navigate.
## 3. Creating a Feature Branch
Concept: This is a sample OpMode that illustrates performing a specific function or concept.
These may be complex, but their operation should be explained clearly in the comments,
or the comments should reference an external doc, guide or tutorial.
Each OpMode should try to only demonstrate a single concept so they are easy to
locate based on their name. These OpModes may not produce a drivable robot.
Whenever you start a new task (feature, fix, experiment):
After the prefix, other conventions will apply:
1. Update `master` (see above).
2. Create a new branch from `master`:
* Sensor class names are constructed as: Sensor - Company - Type
* Robot class names are constructed as: Robot - Mode - Action - OpModetype
* Concept class names are constructed as: Concept - Topic - OpModetype
```bash
git checkout master
git pull origin master
git checkout -b feature/short-description
```
Once you are familiar with the range of samples available, you can choose one to be the
basis for your own robot. In all cases, the desired sample(s) needs to be copied into
your TeamCode module to be used.
### Branch Naming Standard
This is done inside Android Studio directly, using the following steps:
1) Locate the desired sample class in the Project/Android tree.
2) Right click on the sample class and select "Copy"
3) Expand the TeamCode/java folder
4) Right click on the org.firstinspires.ftc.teamcode folder and select "Paste"
5) You will be prompted for a class name for the copy.
Choose something meaningful based on the purpose of this class.
Start with a capital letter, and remember that there may be more similar classes later.
Once your copy has been created, you should prepare it for use on your robot.
This is done by adjusting the OpMode's name, and enabling it to be displayed on the
Driver Station's OpMode list.
Each OpMode sample class begins with several lines of code like the ones shown below:
Branches **must** follow the format:
```
@TeleOp(name="Template: Linear OpMode", group="Linear Opmode")
@Disabled
<type>/<short-description>
```
The name that will appear on the driver station's "opmode list" is defined by the code:
``name="Template: Linear OpMode"``
You can change what appears between the quotes to better describe your opmode.
The "group=" portion of the code can be used to help organize your list of OpModes.
Where `<type>` is one of:
- `feature/` → new functionality
- `fix/` → bug fixes
- `experiment/` → prototypes or tests
- `docs/` → documentation updates
- `chore/` → maintenance or cleanup
As shown, the current OpMode will NOT appear on the driver station's OpMode list because of the
``@Disabled`` annotation which has been included.
This line can simply be deleted , or commented out, to make the OpMode visible.
Examples:
- `feature/autonomous-path`
- `fix/motor-init`
- `experiment/vision-test`
- `docs/setup-instructions`
- `chore/gradle-update`
## ADVANCED Multi-Team App management: Cloning the TeamCode Module
**Rules for names:**
- Use lowercase letters and hyphens (`-`) only.
- Keep it short but clear (35 words).
- One branch = one task. Never mix unrelated work.
In some situations, you have multiple teams in your club and you want them to all share
a common code organization, with each being able to *see* the others code but each having
their own team module with their own code that they maintain themselves.
---
In this situation, you might wish to clone the TeamCode module, once for each of these teams.
Each of the clones would then appear along side each other in the Android Studio module list,
together with the FtcRobotController module (and the original TeamCode module).
## 4. Working on Your Branch
Selective Team phones can then be programmed by selecting the desired Module from the pulldown list
prior to clicking to the green Run arrow.
- Make changes in Android Studio.
- Stage and commit your changes:
Warning: This is not for the inexperienced Software developer.
You will need to be comfortable with File manipulations and managing Android Studio Modules.
These changes are performed OUTSIDE of Android Studios, so close Android Studios before you do this.
```bash
git add .
git commit -m "short message about what changed"
```
Also.. Make a full project backup before you start this :)
- Push your branch to GitHub:
To clone TeamCode, do the following:
```bash
git push origin feature/short-description
```
Note: Some names start with "Team" and others start with "team". This is intentional.
---
1) Using your operating system file management tools, copy the whole "TeamCode"
folder to a sibling folder with a corresponding new name, eg: "Team0417".
## 5. Sharing Your Work
2) In the new Team0417 folder, delete the TeamCode.iml file.
- Once your branch is ready:
1. Open a Pull Request (PR) on GitHub to merge into `master`.
2. At least one teammate should review before merging.
3) the new Team0417 folder, rename the "src/main/java/org/firstinspires/ftc/teamcode" folder
to a matching name with a lowercase 'team' eg: "team0417".
---
4) In the new Team0417/src/main folder, edit the "AndroidManifest.xml" file, change the line that
contains
package="org.firstinspires.ftc.teamcode"
to be
package="org.firstinspires.ftc.team0417"
## 6. Branching Rules
5) Add: include ':Team0417' to the "/settings.gradle" file.
**Do:**
- Always branch from `master`.
- Follow the naming standard exactly.
- Keep branches small and focused.
- Delete branches after theyre merged.
6) Open up Android Studios and clean out any old files by using the menu to "Build/Clean Project""
**Dont:**
- Dont push commits directly to `master`.
- Dont leave unfinished work on `master`.
- Dont mix unrelated changes in one branch.
---
## 7. Example Workflow
```bash
# Get latest code
git checkout master
git fetch upstream
git merge upstream/master
git push origin master
# Start a new feature
git checkout -b feature/teleop-improvements
# Work on code, then commit
git add .
git commit -m "improved joystick scaling in TeleOp"
# Push branch
git push origin feature/teleop-improvements
```

238
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/subsystems/AprilTag.java Normal file
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package org.firstinspires.ftc.teamcode.subsystems;
import com.acmerobotics.dashboard.telemetry.MultipleTelemetry;
import org.firstinspires.ftc.teamcode.utils.Robot;
import org.firstinspires.ftc.teamcode.subsystems.Subsystem;
import org.firstinspires.ftc.vision.VisionPortal;
import org.firstinspires.ftc.vision.apriltag.AprilTagDetection;
import org.firstinspires.ftc.vision.apriltag.AprilTagProcessor;
import java.util.ArrayList;
import java.util.Collections;
import java.util.List;
public class AprilTag implements Subsystem {
private AprilTagProcessor aprilTag;
private VisionPortal visionPortal;
private MultipleTelemetry TELE;
private boolean teleOn = false;
private int detections = 0;
List<AprilTagDetection> currentDetections;
ArrayList<ArrayList<Double>> Data = new ArrayList<>();
public AprilTag(Robot robot, MultipleTelemetry tele) {
this.aprilTag = robot.aprilTagProcessor;
this.TELE = tele;
}
@Override
public void update() {
currentDetections = aprilTag.getDetections();
UpdateData();
if(teleOn){
tagTELE();
initTelemetry();
}
}
public void initTelemetry (){
TELE.addData("Camera Preview", "Check Driver Station for stream");
TELE.addData("Status", "Initialized - Press START");
}
public void tagTELE () {
TELE.addData("# AprilTags Detected", detections);
// Display info for each detected tag
for (ArrayList<Double> detection : Data) {
if (detection.get(0) ==1) {
// Known AprilTag with metadata
TELE.addLine(String.format("\n==== (ID %d) %s ====",
detection.get(1).intValue(), ""));
TELE.addLine(String.format("XYZ: %6.1f %6.1f %6.1f (inch)",
detection.get(2),
detection.get(3),
detection.get(4)));
TELE.addData("Distance", getDistance(detection.get(1).intValue()));
TELE.addLine(String.format("PRY: %6.1f %6.1f %6.1f (deg)",
detection.get(5),
detection.get(6),
detection.get(7)));
TELE.addLine(String.format("RBE: %6.1f %6.1f %6.1f (inch, deg, deg)",
detection.get(8),
detection.get(9),
detection.get(10)));
}
}
}
public void turnTelemetryOn(boolean bool) {
teleOn = bool;
}
public void UpdateData () {
Data.clear(); // <--- THIS FIXES YOUR ISSUE
detections = currentDetections.size();
for (AprilTagDetection detection : currentDetections) {
ArrayList<Double> detectionData = new ArrayList<Double>();
if (detection.metadata != null) {
detectionData.add(1.0);
// Known AprilTag with metadata
detectionData.add( (double) detection.id);
detectionData.add(detection.ftcPose.x);
detectionData.add(detection.ftcPose.y);
detectionData.add(detection.ftcPose.z);
detectionData.add(detection.ftcPose.pitch);
detectionData.add(detection.ftcPose.roll);
detectionData.add(detection.ftcPose.yaw);
detectionData.add(detection.ftcPose.range);
detectionData.add(detection.ftcPose.bearing);
detectionData.add(detection.ftcPose.elevation);
} else {
detectionData.add(0, 0.0);
}
Data.add(detectionData);
}
}
public int getDetectionCount() {
return detections;
}
public boolean isDetected (int id){
return (!filterID(Data, (double) id ).isEmpty());
}
public double getDistance(int id) {
ArrayList<Double> d = filterID(Data, (double) id);
if (d.size() >= 5) {
double x = d.get(2);
double y = d.get(3);
double z = d.get(4);
return Math.sqrt(x*x + y*y + z*z);
}
return -1; // tag not found
}
// Returns the position as [x, y, z]
public List<Double> getPosition(int id) {
ArrayList<Double> d = filterID(Data, (double) id);
if (d.size() >= 5) {
List<Double> pos = new ArrayList<>();
pos.add(d.get(2));
pos.add(d.get(3));
pos.add(d.get(4));
return pos;
}
return Collections.emptyList();
}
// Returns orientation as [pitch, roll, yaw]
public List<Double> getOrientation(int id) {
ArrayList<Double> d = filterID(Data, (double) id);
if (d.size() >= 8) {
List<Double> ori = new ArrayList<>();
ori.add(d.get(5));
ori.add(d.get(6));
ori.add(d.get(7));
return ori;
}
return Collections.emptyList();
}
// Returns range, bearing, elevation as [range, bearing, elevation]
public List<Double> getRBE(int id) {
ArrayList<Double> d = filterID(Data, (double) id);
if (d.size() >= 11) {
List<Double> rbe = new ArrayList<>();
rbe.add(d.get(8));
rbe.add(d.get(9));
rbe.add(d.get(10));
return rbe;
}
return Collections.emptyList();
}
// Returns full raw data for debugging or custom processing
public ArrayList<Double> getRawData(int id) {
return filterID(Data, (double) id);
}
public static ArrayList<Double> filterID(ArrayList<ArrayList<Double>> data, double x) {
for (ArrayList<Double> innerList : data) {
// Ensure it has a second element
if (innerList.size() > 1 && Math.abs(innerList.get(1) - x) < 1e-9) {
return innerList; // Return the first match
}
}
// Return an empty ArrayList if no match found
return new ArrayList<>();
}
}

106
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/subsystems/AprilTagWebcam.java
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package org.firstinspires.ftc.teamcode.subsystems;
import android.util.Size;
import com.acmerobotics.dashboard.telemetry.MultipleTelemetry;
import com.qualcomm.robotcore.hardware.HardwareMap;
import org.firstinspires.ftc.robotcore.external.hardware.camera.WebcamName;
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit;
import org.firstinspires.ftc.robotcore.external.navigation.DistanceUnit;
import org.firstinspires.ftc.vision.VisionPortal;
import org.firstinspires.ftc.vision.apriltag.AprilTagDetection;
import org.firstinspires.ftc.vision.apriltag.AprilTagProcessor;
import java.util.ArrayList;
import java.util.List;
public class AprilTagWebcam {
private AprilTagProcessor aprilTagProcessor;
private VisionPortal visionPortal;
private List<AprilTagDetection> detectedTags = new ArrayList<>();
private MultipleTelemetry telemetry;
public void init(Robot robot, MultipleTelemetry TELE){
this.telemetry = TELE;
aprilTagProcessor = new AprilTagProcessor.Builder()
.setDrawTagID(true)
.setDrawTagOutline(true)
.setDrawAxes(true)
.setDrawCubeProjection(true)
.setOutputUnits(DistanceUnit.INCH, AngleUnit.DEGREES)
.build();
VisionPortal.Builder builder = new VisionPortal.Builder();
builder.setCamera(robot.webcamName);
builder.setCameraResolution(new Size(640, 480));
builder.addProcessor(aprilTagProcessor);
visionPortal = builder.build();
}
public void update() {
detectedTags = aprilTagProcessor.getDetections();
}
public List<AprilTagDetection> getDetectedTags() {
return detectedTags;
}
public AprilTagDetection getTagById(int id){
for (AprilTagDetection detection : detectedTags) {
if (detection.id ==id){
return detection;
}
}
return null;
}
public void stop(){
if (visionPortal != null){
visionPortal.close();
}
}
//Helper Functions
public void displayDetectionTelemetry (AprilTagDetection detectedId){
if (detectedId ==null){return;}
if (detectedId.metadata != null) {
telemetry.addLine(String.format("\n==== (ID %d) %s", detectedId.id, detectedId.metadata.name));
telemetry.addLine(String.format("XYZ %6.1f %6.1f %6.1f (inch)", detectedId.ftcPose.x, detectedId.ftcPose.y, detectedId.ftcPose.z));
telemetry.addLine(String.format("PRY %6.1f %6.1f %6.1f (deg)", detectedId.ftcPose.pitch, detectedId.ftcPose.roll, detectedId.ftcPose.yaw));
telemetry.addLine(String.format("RBE %6.1f %6.1f %6.1f (inch, deg, deg)", detectedId.ftcPose.range, detectedId.ftcPose.bearing, detectedId.ftcPose.elevation));
} else {
telemetry.addLine(String.format("\n==== (ID %d) Unknown", detectedId.id));
telemetry.addLine(String.format("Center %6.0f %6.0f (pixels)", detectedId.center.x, detectedId.center.y));
}
}
public void displayAllTelemetry (){
if (detectedTags ==null){return;}
telemetry.addData("# AprilTags Detected", detectedTags.size());
for (AprilTagDetection detection : detectedTags) {
if (detection.metadata != null) {
telemetry.addLine(String.format("\n==== (ID %d) %s", detection.id, detection.metadata.name));
telemetry.addLine(String.format("XYZ %6.1f %6.1f %6.1f (inch)", detection.ftcPose.x, detection.ftcPose.y, detection.ftcPose.z));
telemetry.addLine(String.format("PRY %6.1f %6.1f %6.1f (deg)", detection.ftcPose.pitch, detection.ftcPose.roll, detection.ftcPose.yaw));
telemetry.addLine(String.format("RBE %6.1f %6.1f %6.1f (inch, deg, deg)", detection.ftcPose.range, detection.ftcPose.bearing, detection.ftcPose.elevation));
} else {
telemetry.addLine(String.format("\n==== (ID %d) Unknown", detection.id));
telemetry.addLine(String.format("Center %6.0f %6.0f (pixels)", detection.center.x, detection.center.y));
}
} // end for() loop
}
}

40
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/subsystems/Drivetrain.java
View File

@@ -4,25 +4,31 @@ import com.acmerobotics.dashboard.telemetry.MultipleTelemetry;
import com.arcrobotics.ftclib.gamepad.GamepadEx;
import com.arcrobotics.ftclib.gamepad.GamepadKeys;
import com.qualcomm.robotcore.hardware.DcMotorEx;
import com.qualcomm.robotcore.hardware.Gamepad;
import org.firstinspires.ftc.teamcode.utils.Robot;
import org.firstinspires.ftc.teamcode.subsystems.Subsystem;
import java.util.Objects;
public class Drivetrain {
public class Drivetrain implements Subsystem {
private final GamepadEx gamepad;
public MultipleTelemetry TELE;
private String Mode = "Default";
private final DcMotorEx fl;
private final DcMotorEx fr;
private final DcMotorEx bl;
private final DcMotorEx br;
public MultipleTelemetry TELE;
private String Mode = "Default";
private double defaultSpeed = 0.7;
private double slowSpeed = 0.3;
public Drivetrain(Robot robot, MultipleTelemetry tele, GamepadEx gamepad1) {
public Drivetrain(Robot robot, MultipleTelemetry tele, GamepadEx gamepad1){
this.fl = robot.frontLeft;
this.fr = robot.frontRight;
@@ -33,21 +39,23 @@ public class Drivetrain {
this.TELE = tele;
}
public void setMode(String mode) {
public void setMode (String mode){
this.Mode = mode;
}
public void setDefaultSpeed(double speed) {
public void setDefaultSpeed (double speed){
this.defaultSpeed = speed;
}
public void setSlowSpeed(double speed) {
public void setSlowSpeed (double speed){
this.slowSpeed = speed;
}
public void RobotCentric(double fwd, double strafe, double turn, double turbo) {
public void RobotCentric(double fwd, double strafe, double turn, double turbo){
double y = -fwd; // Remember, Y stick value is reversed
double x = strafe * 1.1; // Counteract imperfect strafing
@@ -62,13 +70,15 @@ public class Drivetrain {
double frontRightPower = (y - x - rx) / denominator;
double backRightPower = (y + x - rx) / denominator;
fl.setPower(frontLeftPower * turbo);
bl.setPower(backLeftPower * turbo);
fr.setPower(frontRightPower * turbo);
br.setPower(backRightPower * turbo);
fl.setPower(frontLeftPower*turbo);
bl.setPower(backLeftPower*turbo);
fr.setPower(frontRightPower*turbo);
br.setPower(backRightPower*turbo);
}
@Override
public void update() {
if (Objects.equals(Mode, "Default")) {
@@ -78,7 +88,7 @@ public class Drivetrain {
gamepad.getRightX(),
gamepad.getLeftX(),
(gamepad.getTrigger(
GamepadKeys.Trigger.RIGHT_TRIGGER) * (1 - defaultSpeed)
GamepadKeys.Trigger.RIGHT_TRIGGER) * (1-defaultSpeed)
- gamepad.getTrigger(GamepadKeys.Trigger.LEFT_TRIGGER) * slowSpeed
+ defaultSpeed
)
@@ -86,4 +96,4 @@ public class Drivetrain {
}
}
}
}

80
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/subsystems/Intake.java Normal file
View File

@@ -0,0 +1,80 @@
package org.firstinspires.ftc.teamcode.subsystems;
import com.acmerobotics.dashboard.telemetry.MultipleTelemetry;
import com.arcrobotics.ftclib.gamepad.GamepadEx;
import com.qualcomm.robotcore.hardware.DcMotorEx;
import com.qualcomm.robotcore.hardware.Gamepad;
import org.firstinspires.ftc.teamcode.utils.Robot;
public class Intake implements Subsystem {
private GamepadEx gamepad;
public MultipleTelemetry TELE;
private DcMotorEx intake;
private double intakePower = 1.0;
private int intakeState = 0;
public Intake (Robot robot){
this.intake = robot.intake;
}
public int getIntakeState() {
return intakeState;
}
public void toggle(){
if (intakeState !=0){
intakeState = 0;
} else {
intakeState = 1;
}
}
public void intakeMinPower(){
intakeState = 2;
}
public void intake(){
intakeState =1;
}
public void reverse(){
intakeState =-1;
}
public void stop(){
intakeState =0;
}
@Override
public void update() {
if (intakeState == 1){
intake.setPower(intakePower);
} else if (intakeState == -1){
intake.setPower(-intakePower);
} else if (intakeState == 2){
intake.setPower(intakePower);
}else {
intake.setPower(0);
}
}
}

25
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/subsystems/Robot.java
View File

@@ -1,25 +0,0 @@
package org.firstinspires.ftc.teamcode.subsystems;
import com.qualcomm.robotcore.hardware.DcMotorEx;
import com.qualcomm.robotcore.hardware.DcMotorSimple;
import com.qualcomm.robotcore.hardware.HardwareMap;
import org.firstinspires.ftc.robotcore.external.hardware.camera.WebcamName;
public class Robot {
public DcMotorEx shooter1;
public DcMotorEx shooter2;
public WebcamName webcamName;
public Robot(HardwareMap hardwareMap) {
webcamName = hardwareMap.get(WebcamName.class, "Webcam 1");
shooter1 = hardwareMap.get(DcMotorEx.class, "shooter1");
shooter2 = hardwareMap.get(DcMotorEx.class, "shooter2");
shooter1.setDirection(DcMotorSimple.Direction.REVERSE);
}
}

248
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/subsystems/Shooter.java Normal file
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@@ -0,0 +1,248 @@
package org.firstinspires.ftc.teamcode.subsystems;
import static org.firstinspires.ftc.teamcode.tests.ShooterTest.*;
import com.acmerobotics.dashboard.telemetry.MultipleTelemetry;
import com.acmerobotics.roadrunner.Pose2d;
import com.arcrobotics.ftclib.controller.PIDController;
import com.arcrobotics.ftclib.controller.PIDFController;
import com.qualcomm.robotcore.hardware.DcMotor;
import com.qualcomm.robotcore.hardware.DcMotorEx;
import com.qualcomm.robotcore.hardware.PIDCoefficients;
import com.qualcomm.robotcore.hardware.Servo;
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit;
import org.firstinspires.ftc.teamcode.constants.Poses;
import org.firstinspires.ftc.teamcode.utils.Robot;
import java.util.Objects;
public class Shooter implements Subsystem {
private final DcMotorEx fly1;
private final DcMotorEx fly2;
private final DcMotorEx encoder;
private final Servo hoodServo;
private final Servo turret1;
private final Servo turret2;
private final MultipleTelemetry telemetry;
private boolean telemetryOn = false;
private double manualPower = 0.0;
private double hoodPos = 0.0;
private double turretPos = 0.0;
private double velocity = 0.0;
private double posPower = 0.0;
public double velo = 0.0;
private int targetPosition = 0;
public double powPID = 1.0;
private double p = 0.0003, i = 0, d = 0.00001, f=0;
private PIDFController controller;
private double pow = 0.0;
private String shooterMode = "AUTO";
private String turretMode = "AUTO";
public Shooter(Robot robot, MultipleTelemetry TELE) {
this.fly1 = robot.shooter1;
this.fly2 = robot.shooter2;
this.telemetry = TELE;
this.hoodServo = robot.hood;
// Reset encoders
fly1.setMode(DcMotor.RunMode.STOP_AND_RESET_ENCODER);
fly2.setMode(DcMotor.RunMode.STOP_AND_RESET_ENCODER);
fly1.setMode(DcMotor.RunMode.RUN_USING_ENCODER);
fly1.setMode(DcMotor.RunMode.RUN_USING_ENCODER);
controller = new PIDFController(p, i, d, f);
controller.setPIDF(p, i, d, f);
this.turret1 = robot.turr1;
this.turret2 = robot.turr2;
this.encoder = robot.shooterEncoder;
}
public double gethoodPosition() {
return (hoodServo.getPosition());
}
public void sethoodPosition(double pos) { hoodPos = pos; }
public double getTurretPosition() {
return ((turret1.getPosition() + (1 - turret2.getPosition())) / 2);
}
public void setTurretPosition(double pos) { turretPos = pos; }
public double getVelocity(double vel) {
return vel;
}
public void setVelocity(double vel) { velocity = vel; }
public void setPosPower(double power) { posPower = power; }
public void setTargetPosition(int pos) {
targetPosition = pos;
}
public void setTolerance(int tolerance) {
controller.setTolerance(tolerance);
}
public void setControllerCoefficients(double kp, double ki, double kd, double kf) {
p = kp;
i = ki;
d = kd;
f = kf;
controller.setPIDF(p, i, d, f);
}
public PIDCoefficients getControllerCoefficients() {
return new PIDCoefficients(p, i, d);
}
public void setManualPower(double power) { manualPower = power; }
public String getShooterMode() { return shooterMode; }
public String getTurretMode() { return turretMode; }
public double getECPRPosition() {
return fly1.getCurrentPosition() / (2 * ecpr);
}
public double getMCPRPosition() {
return (double) fly1.getCurrentPosition() / 4;
}
public void setShooterMode(String mode) { shooterMode = mode; }
public void setTurretMode(String mode) { turretMode = mode; }
public double trackGoal(Pose2d robotPose, Pose2d goalPose, double offset) {
fly1.setMode(DcMotor.RunMode.RUN_USING_ENCODER);
fly2.setMode(DcMotor.RunMode.RUN_USING_ENCODER);
Pose2d deltaPose = new Pose2d(
goalPose.position.x - robotPose.position.x,
goalPose.position.y - robotPose.position.y,
goalPose.heading.toDouble() - (robotPose.heading.toDouble())
);
double distance = Math.sqrt(
deltaPose.position.x * deltaPose.position.x
+ deltaPose.position.y * deltaPose.position.y
+ Poses.relativeGoalHeight * Poses.relativeGoalHeight
);
telemetry.addData("dst", distance);
double shooterPow = getPowerByDist(distance);
double hoodAngle = getAngleByDist(distance);
// hoodServo.setPosition(hoodAngle);
moveTurret(getTurretPosByDeltaPose(deltaPose, offset));
return distance;
//0.9974 * 355
}
public double getTurretPosByDeltaPose(Pose2d dPose, double offset) {
double deltaAngle = Math.toDegrees(dPose.heading.toDouble());
double aTanAngle = Math.toDegrees(Math.atan(dPose.position.y / dPose.position.x));
telemetry.addData("deltaAngle", deltaAngle);
if (deltaAngle > 90) {
deltaAngle -= 360;
}
// deltaAngle += aTanAngle;
deltaAngle /= (335);
telemetry.addData("dAngle", deltaAngle);
telemetry.addData("AtanAngle", aTanAngle);
return ((0.30 - deltaAngle) + offset);
}
//62, 0.44
//56.5, 0.5
public double getPowerByDist(double dist) {
//TODO: ADD LOGIC
return dist;
}
public double getAngleByDist(double dist) {
double newDist = dist - 56.5;
double pos = newDist * ((0.44 - 0.5) / (62 - 56.5)) + 0.46;
return pos;
}
public void setTelemetryOn(boolean state) { telemetryOn = state; }
public void moveTurret(double pos) {
turret1.setPosition(pos);
turret2.setPosition(1 - pos);
}
public double getpowPID() {
return powPID;
}
@Override
public void update() {
if (Objects.equals(shooterMode, "MANUAL")) {
fly1.setMode(DcMotor.RunMode.RUN_WITHOUT_ENCODER);
fly2.setMode(DcMotor.RunMode.RUN_WITHOUT_ENCODER);
fly1.setPower(manualPower);
fly2.setPower(manualPower);
} else if (Objects.equals(shooterMode, "VEL")) {
powPID = velocity;
fly1.setPower(powPID);
fly2.setPower(powPID);
}
}
}

255
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/subsystems/Spindexer.java Normal file
View File

@@ -0,0 +1,255 @@
package org.firstinspires.ftc.teamcode.subsystems;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.*;
import com.acmerobotics.dashboard.telemetry.MultipleTelemetry;
import com.qualcomm.robotcore.hardware.AnalogInput;
import com.qualcomm.robotcore.hardware.DigitalChannel;
import com.qualcomm.robotcore.hardware.Servo;
import org.firstinspires.ftc.teamcode.utils.Robot;
public class Spindexer implements Subsystem{
private Servo s1;
private Servo s2;
private DigitalChannel p0;
private DigitalChannel p1;
private DigitalChannel p2;
private DigitalChannel p3;
private DigitalChannel p4;
private DigitalChannel p5;
private AnalogInput input;
private AnalogInput input2;
private MultipleTelemetry TELE;
private double position = 0.501;
private boolean telemetryOn = false;
private boolean ball0 = false;
private boolean ball1 = false;
private boolean ball2 = false;
private boolean green0 = false;
private boolean green1 = false;
private boolean green2 = false;
public Spindexer (Robot robot, MultipleTelemetry tele){
this.s1 = robot.spin1;
this.s2 = robot.spin2;
this.p0 = robot.pin0;
this.p1 = robot.pin1;
this.p2 = robot.pin2;
this.p3 = robot.pin3;
this.p4 = robot.pin4;
this.p5 = robot.pin5;
this.input = robot.analogInput;
this.input2 = robot.analogInput2;
this.TELE = tele;
}
public void setTelemetryOn(boolean state){
telemetryOn = state;
}
public void colorSensorTelemetry() {
TELE.addData("ball0", ball0);
TELE.addData("ball1", ball1);
TELE.addData("ball2", ball2);
TELE.addData("green0", green0);
TELE.addData("green1", green1);
TELE.addData("green2", green2);
}
public void checkForBalls() {
if (p0.getState()){
ball0 = true;
green0 = p1.getState();
} else {
ball0 = false;
}
if (p2.getState()){
ball1 = true;
green1 = p3.getState();
} else {
ball1 = false;
}
if (p4.getState()){
ball2 = true;
green2 = p5.getState();
} else {
ball2 = false;
}
}
public void setPosition (double pos) {
position = pos;
}
public void intake () {
position = spindexer_intakePos1;
}
public void intakeShake(double runtime) {
if ((runtime % 0.25) >0.125) {
position = spindexer_intakePos1 + 0.04;
} else {
position = spindexer_intakePos1 - 0.04;
}
}
public void outtake3Shake(double runtime) {
if ((runtime % 0.25) >0.125) {
position = spindexer_outtakeBall3 + 0.04;
} else {
position = spindexer_outtakeBall3 - 0.04;
}
}
public void outtake3 () {
position = spindexer_outtakeBall3;
}
public void outtake2 () {
position = spindexer_outtakeBall2;
}
public void outtake1 () {
position = spindexer_outtakeBall1;
}
public int outtakeGreen(int secLast, int Last) {
if (green2 && (secLast!=3) && (Last!=3)) {
outtake3();
return 3;
} else if (green1 && (secLast!=2) && (Last!=2)){
outtake2();
return 2;
} else if (green0 && (secLast!=1) && (Last!=1)) {
outtake1();
return 1;
} else {
if (secLast!=1 && Last!= 1){
outtake1();
return 1;
} else if (secLast!=2 && Last!=2){
outtake2();
return 2;
} else {
outtake3();
return 3;
}
}
}
public void outtakeGreenFs() {
if (green0 && ball0) {
outtake1();
} else if (green1 && ball1){
outtake2();
} else if (green2 && ball2) {
outtake3();
}
}
public int greens() {
int num = 0;
if (green0){num++;}
if (green1){num++;}
if (green2){num++;}
return num;
}
public int outtakePurple(int secLast, int Last) {
if (!green2 && (secLast!=3) && (Last!=3)) {
outtake3();
return 3;
} else if (!green1 && (secLast!=2) && (Last!=2)){
outtake2();
return 2;
} else if (!green0 && (secLast!=1) && (Last!=1)) {
outtake1();
return 1;
} else {
if (secLast!=1 && Last!= 1){
outtake1();
return 1;
} else if (secLast!=2 && Last!=2){
outtake2();
return 2;
} else {
outtake3();
return 3;
}
}
}
@Override
public void update() {
if (position !=0.501) {
s1.setPosition(position);
s2.setPosition(1 - position);
}
if (telemetryOn) {
colorSensorTelemetry();
}
}
}

6
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/subsystems/Subsystem.java Normal file
View File

@@ -0,0 +1,6 @@
package org.firstinspires.ftc.teamcode.subsystems;
public interface Subsystem {
public void update();
}

58
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/subsystems/Transfer.java Normal file
View File

@@ -0,0 +1,58 @@
package org.firstinspires.ftc.teamcode.subsystems;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.*;
import com.qualcomm.robotcore.hardware.DcMotorEx;
import com.qualcomm.robotcore.hardware.Servo;
import org.firstinspires.ftc.teamcode.utils.Robot;
public class Transfer implements Subsystem{
private final Servo servo;
private final DcMotorEx transfer;
private double motorPow = 0.0;
private double servoPos = 0.501;
public Transfer (Robot robot){
this.servo = robot.transferServo;
this.transfer = robot.transfer;
}
public void setTransferPosition(double pos){
this.servoPos = pos;
}
public void setTransferPower (double pow){
this.motorPow = pow;
}
public void transferOut(){
this.setTransferPosition(transferServo_out);
}
public void transferIn(){
this.setTransferPosition(transferServo_in);
}
@Override
public void update() {
if (servoPos!=0.501){
servo.setPosition(servoPos);
}
transfer.setPower(motorPow);
}
}

791
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/teleop/TeleopV1.java Normal file
View File

@@ -0,0 +1,791 @@
package org.firstinspires.ftc.teamcode.teleop;
import static org.firstinspires.ftc.teamcode.constants.Poses.*;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.*;
import com.acmerobotics.dashboard.FtcDashboard;
import com.acmerobotics.dashboard.config.Config;
import com.acmerobotics.dashboard.telemetry.MultipleTelemetry;
import com.acmerobotics.roadrunner.Pose2d;
import com.arcrobotics.ftclib.gamepad.GamepadEx;
import com.arcrobotics.ftclib.gamepad.GamepadKeys;
import com.arcrobotics.ftclib.gamepad.ToggleButtonReader;
import com.qualcomm.robotcore.eventloop.opmode.LinearOpMode;
import com.qualcomm.robotcore.eventloop.opmode.TeleOp;
import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit;
import org.firstinspires.ftc.teamcode.libs.RR.MecanumDrive;
import org.firstinspires.ftc.teamcode.subsystems.Drivetrain;
import org.firstinspires.ftc.teamcode.subsystems.Intake;
import org.firstinspires.ftc.teamcode.subsystems.Shooter;
import org.firstinspires.ftc.teamcode.subsystems.Spindexer;
import org.firstinspires.ftc.teamcode.subsystems.Transfer;
import org.firstinspires.ftc.teamcode.utils.Robot;
@Config
@TeleOp
public class TeleopV1 extends LinearOpMode {
Robot robot;
Drivetrain drivetrain;
Intake intake;
Spindexer spindexer;
Transfer transfer;
MultipleTelemetry TELE;
GamepadEx g1;
GamepadEx g2;
public static double defaultSpeed = 1;
public static double slowMoSpeed = 0.4;
public static double power = 0.0;
public static double pos = hoodDefault;
public boolean all = false;
public int ticker = 0;
ToggleButtonReader g1RightBumper;
ToggleButtonReader g2Circle;
ToggleButtonReader g2Square;
ToggleButtonReader g2Triangle;
ToggleButtonReader g2RightBumper;
ToggleButtonReader g1LeftBumper;
ToggleButtonReader g2LeftBumper;
ToggleButtonReader g2DpadUp;
ToggleButtonReader g2DpadDown;
ToggleButtonReader g2DpadRight;
ToggleButtonReader g2DpadLeft;
public boolean leftBumper = false;
public double g1RightBumperStamp = 0.0;
public double g1LeftBumperStamp = 0.0;
public double g2LeftBumperStamp = 0.0;
public static int spindexerPos = 0;
public boolean green = false;
Shooter shooter;
public boolean scoreAll = false;
MecanumDrive drive;
public boolean autotrack = false;
public int last = 0;
public int second = 0;
public double offset = 0.0;
public static double rIn = 0.59;
public static double rOut = 0;
public boolean notShooting = true;
public boolean circle = false;
public boolean square = false;
public boolean tri = false;
@Override
public void runOpMode() throws InterruptedException {
drive = new MecanumDrive(hardwareMap, teleStart);
robot = new Robot(hardwareMap);
TELE = new MultipleTelemetry(
FtcDashboard.getInstance().getTelemetry(),
telemetry
);
g1 = new GamepadEx(gamepad1);
g1RightBumper = new ToggleButtonReader(
g1, GamepadKeys.Button.RIGHT_BUMPER
);
g2 = new GamepadEx(gamepad2);
g1LeftBumper = new ToggleButtonReader(
g1, GamepadKeys.Button.LEFT_BUMPER
);
g2Circle = new ToggleButtonReader(
g2, GamepadKeys.Button.B
);
g2Triangle = new ToggleButtonReader(
g2, GamepadKeys.Button.Y
);
g2Square = new ToggleButtonReader(
g2, GamepadKeys.Button.X
);
g2RightBumper = new ToggleButtonReader(
g2, GamepadKeys.Button.RIGHT_BUMPER
);
g2LeftBumper = new ToggleButtonReader(
g2, GamepadKeys.Button.LEFT_BUMPER
);
g2DpadUp = new ToggleButtonReader(
g2, GamepadKeys.Button.DPAD_UP
);
g2DpadDown = new ToggleButtonReader(
g2, GamepadKeys.Button.DPAD_DOWN
);
g2DpadLeft = new ToggleButtonReader(
g2, GamepadKeys.Button.DPAD_LEFT
);
g2DpadRight = new ToggleButtonReader(
g2, GamepadKeys.Button.DPAD_RIGHT
);
drivetrain = new Drivetrain(robot, TELE, g1);
drivetrain.setMode("Default");
drivetrain.setDefaultSpeed(defaultSpeed);
drivetrain.setSlowSpeed(slowMoSpeed);
intake = new Intake(robot);
transfer = new Transfer(robot);
spindexer = new Spindexer(robot, TELE);
spindexer.setTelemetryOn(true);
shooter = new Shooter(robot, TELE);
shooter.setShooterMode("MANUAL");
robot.rejecter.setPosition(rIn);
waitForStart();
if (isStopRequested()) return;
drive = new MecanumDrive(hardwareMap, teleStart);
while (opModeIsActive()) {
drive.updatePoseEstimate();
TELE.addData("pose", drive.localizer.getPose());
TELE.addData("heading", drive.localizer.getPose().heading.toDouble());
TELE.addData("off", offset);
robot.hood.setPosition(pos);
g1LeftBumper.readValue();
if (g1LeftBumper.wasJustPressed()) {
g2LeftBumperStamp = getRuntime();
spindexer.intakeShake(getRuntime());
leftBumper = true;
}
if (leftBumper) {
double time = getRuntime() - g2LeftBumperStamp;
if (time < 1.0) {
robot.rejecter.setPosition(rOut);
} else {
robot.rejecter.setPosition(rIn);
}
}
intake();
drivetrain.update();
TELE.update();
transfer.update();
g2RightBumper.readValue();
g2LeftBumper.readValue();
g2DpadDown.readValue();
g2DpadUp.readValue();
if (!scoreAll) {
spindexer.checkForBalls();
}
if (g2DpadUp.wasJustPressed()) {
pos -= 0.02;
}
if (g2DpadDown.wasJustPressed()) {
pos += 0.02;
}
g2DpadLeft.readValue();
g2DpadRight.readValue();
if (g2DpadLeft.wasJustPressed()) {
offset -= 0.02;
}
if (g2DpadRight.wasJustPressed()) {
offset += 0.02;
}
TELE.addData("hood", pos);
if (Math.abs(gamepad2.right_stick_x) < 0.1 && autotrack) {
shooter.trackGoal(drive.localizer.getPose(), new Pose2d(-10, 0, 0), offset);
} else {
autotrack = false;
shooter.moveTurret(0.3 + offset);
}
if (gamepad2.right_stick_button) {
autotrack = true;
}
if (g2RightBumper.wasJustPressed()) {
transfer.setTransferPower(1);
transfer.transferIn();
shooter.setManualPower(1);
notShooting = false;
}
if (g2RightBumper.wasJustReleased()) {
transfer.setTransferPower(1);
transfer.transferOut();
}
if (gamepad2.left_stick_y > 0.5) {
shooter.setManualPower(0);
} else if (gamepad2.left_stick_y < -0.5) {
shooter.setManualPower(1);
}
if (g2LeftBumper.wasJustPressed()) {
g2LeftBumperStamp = getRuntime();
notShooting = false;
scoreAll = true;
}
if (scoreAll) {
double time = getRuntime() - g2LeftBumperStamp;
shooter.setManualPower(1);
TELE.addData("greenImportant", green);
TELE.addData("last", last);
TELE.addData("2ndLast", second);
int numGreen = spindexer.greens();
if (square) {
if (time < 0.3) {
ticker = 0;
last = 0;
second = 0;
transfer.transferOut();
transfer.setTransferPower(1);
} else if (time < 2) {
if (ticker == 0) {
if (numGreen == 2) {
last = spindexer.outtakePurple(second, last);
second = last;
} else {
last = spindexer.outtakeGreen(second, last);
second = last;
}
}
second = last;
ticker++;
} else if (time < 2.5) {
ticker = 0;
second = last;
transfer.transferIn();
} else if (time < 4) {
transfer.transferOut();
if (ticker == 0) {
if (numGreen == 2) {
last = spindexer.outtakeGreen(second, last);
} else {
last = spindexer.outtakePurple(second, last);
}
}
ticker++;
} else if (time < 4.5) {
ticker = 0;
transfer.transferIn();
} else if (time < 6) {
transfer.transferOut();
if (ticker == 0) {
if (numGreen == 2) {
last = spindexer.outtakeGreen(second, last);
} else {
last = spindexer.outtakePurple(second, last);
}
}
ticker++;
} else if (time < 6.5) {
transfer.transferIn();
} else {
ticker = 0;
scoreAll = false;
transfer.transferOut();
shooter.setManualPower(0);
}
} else if (tri) {
if (time < 0.3) {
ticker = 0;
last = 0;
second = 0;
transfer.transferOut();
transfer.setTransferPower(1);
} else if (time < 2) {
if (ticker == 0) {
if (numGreen == 2) {
last = spindexer.outtakeGreen(second, last);
second = last;
} else {
last = spindexer.outtakePurple(second, last);
second = last;
}
}
second = last;
ticker++;
} else if (time < 2.5) {
ticker = 0;
second = last;
transfer.transferIn();
} else if (time < 4) {
transfer.transferOut();
if (ticker == 0) {
if (numGreen == 2) {
last = spindexer.outtakePurple(second, last);
} else {
last = spindexer.outtakeGreen(second, last);
}
}
ticker++;
} else if (time < 4.5) {
ticker = 0;
transfer.transferIn();
} else if (time < 6) {
transfer.transferOut();
if (ticker == 0) {
if (numGreen == 2) {
last = spindexer.outtakeGreen(second, last);
} else {
last = spindexer.outtakePurple(second, last);
}
}
ticker++;
} else if (time < 6.5) {
transfer.transferIn();
} else {
ticker = 0;
scoreAll = false;
transfer.transferOut();
shooter.setManualPower(0);
}
} else if (circle) {
if (time < 0.3) {
ticker = 0;
last = 0;
second = 0;
transfer.transferOut();
transfer.setTransferPower(1);
} else if (time < 2) {
if (ticker == 0) {
if (numGreen == 2) {
last = spindexer.outtakeGreen(second, last);
second = last;
} else {
last = spindexer.outtakePurple(second, last);
second = last;
}
}
second = last;
ticker++;
} else if (time < 2.5) {
ticker = 0;
second = last;
transfer.transferIn();
} else if (time < 4) {
transfer.transferOut();
if (ticker == 0) {
if (numGreen == 2) {
last = spindexer.outtakeGreen(second, last);
} else {
last = spindexer.outtakePurple(second, last);
}
}
ticker++;
} else if (time < 4.5) {
ticker = 0;
transfer.transferIn();
} else if (time < 6) {
transfer.transferOut();
if (ticker == 0) {
if (numGreen == 2) {
last = spindexer.outtakePurple(second, last);
} else {
last = spindexer.outtakeGreen(second, last);
}
}
ticker++;
} else if (time < 6.5) {
transfer.transferIn();
} else {
ticker = 0;
scoreAll = false;
transfer.transferOut();
shooter.setManualPower(0);
}
} else {
if (time < 0.3) {
ticker = 0;
last = 0;
second = 0;
if (gamepad2.right_trigger > 0.5) {
green = false;
all = gamepad2.left_trigger > 0.5;
} else if (gamepad2.left_trigger > 0.5) {
green = true;
all = false;
} else {
all = true;
}
transfer.transferOut();
transfer.setTransferPower(1);
} else if (time < 2) {
if (ticker == 0) {
if (all) {
spindexer.outtake3();
last = 3;
second = 3;
} else if (green) {
last = spindexer.outtakeGreen(second, last);
second = last;
} else {
last = spindexer.outtakePurple(second, last);
second = last;
}
}
second = last;
ticker++;
} else if (time < 2.5) {
ticker = 0;
second = last;
if (gamepad2.right_trigger > 0.5) {
green = false;
all = gamepad2.left_trigger > 0.5;
} else if (gamepad2.left_trigger > 0.5) {
green = true;
all = false;
}
transfer.transferIn();
} else if (time < 4) {
transfer.transferOut();
if (ticker == 0) {
if (all) {
spindexer.outtake2();
last = 2;
} else if (green) {
last = spindexer.outtakeGreen(second, last);
} else {
last = spindexer.outtakePurple(second, last);
}
}
ticker++;
} else if (time < 4.5) {
ticker = 0;
if (gamepad2.right_trigger > 0.5) {
green = false;
all = gamepad2.left_trigger > 0.5;
} else if (gamepad2.left_trigger > 0.5) {
green = true;
all = false;
}
transfer.transferIn();
} else if (time < 6) {
transfer.transferOut();
if (ticker == 0) {
if (all) {
spindexer.outtake1();
} else if (green) {
last = spindexer.outtakeGreen(second, last);
} else {
last = spindexer.outtakePurple(second, last);
}
}
ticker++;
} else if (time < 6.5) {
transfer.transferIn();
} else {
ticker = 0;
scoreAll = false;
transfer.transferOut();
shooter.setManualPower(0);
}
}
}
shooter.update();
}
}
public void intake() {
g1RightBumper.readValue();
g2Circle.readValue();
g2Square.readValue();
g2Triangle.readValue();
if (g1RightBumper.wasJustPressed()) {
notShooting = true;
if (getRuntime() - g1RightBumperStamp < 0.3) {
intake.reverse();
} else {
intake.toggle();
}
if (intake.getIntakeState() == 1) {
shooter.setManualPower(0);
}
spindexer.intake();
transfer.transferOut();
g1RightBumperStamp = getRuntime();
}
if (intake.getIntakeState() == 1 && notShooting) {
spindexer.intakeShake(getRuntime());
} else {
if (g2Circle.wasJustPressed()) {
circle = true;
tri = false;
square = false;
}
if (g2Triangle.wasJustPressed()) {
circle = false;
tri = true;
square = false;
}
if (g2Square.wasJustPressed()) {
circle = false;
tri = false;
square = true;
}
if (gamepad2.x) {
circle = false;
tri = false;
square = false;
}
}
intake.update();
spindexer.update();
}
}

35
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/teleop/TransferTest.java Normal file
View File

@@ -0,0 +1,35 @@
package org.firstinspires.ftc.teamcode.teleop;
import com.acmerobotics.dashboard.config.Config;
import com.qualcomm.robotcore.eventloop.opmode.LinearOpMode;
import com.qualcomm.robotcore.eventloop.opmode.TeleOp;
import org.firstinspires.ftc.teamcode.subsystems.Transfer;
import org.firstinspires.ftc.teamcode.utils.Robot;
@Config
@TeleOp
public class TransferTest extends LinearOpMode {
Robot robot;
Transfer transfer;
public static double pos = 0.40;
@Override
public void runOpMode() throws InterruptedException {
robot = new Robot(hardwareMap);
transfer = new Transfer(robot);
waitForStart();
while (opModeIsActive()){
transfer.setTransferPosition(pos);
}
}
}

59
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/teleop/WebcamTest.java Normal file
View File

@@ -0,0 +1,59 @@
package org.firstinspires.ftc.teamcode.teleop;
import com.acmerobotics.dashboard.FtcDashboard;
import com.acmerobotics.dashboard.config.Config;
import com.acmerobotics.dashboard.telemetry.MultipleTelemetry;
import com.qualcomm.robotcore.eventloop.opmode.LinearOpMode;
import com.qualcomm.robotcore.eventloop.opmode.TeleOp;
import org.firstinspires.ftc.teamcode.utils.Robot;
import org.firstinspires.ftc.teamcode.subsystems.AprilTag;
@TeleOp
@Config
public class WebcamTest extends LinearOpMode {
AprilTag webcam;
MultipleTelemetry TELE;
Robot robot;
@Override
public void runOpMode() throws InterruptedException {
robot = new Robot(hardwareMap);
TELE = new MultipleTelemetry(telemetry, FtcDashboard.getInstance().getTelemetry());
webcam = new AprilTag(robot, TELE);
webcam.turnTelemetryOn(true);
while(opModeInInit()){
webcam.initTelemetry();
TELE.update();
};
if(isStopRequested()) return;
while (opModeIsActive()){
webcam.update();
TELE.update();
}
}
}

144
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/tests/ActiveColorSensorTest.java Normal file
View File

@@ -0,0 +1,144 @@
package org.firstinspires.ftc.teamcode.tests;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.*;
import com.acmerobotics.dashboard.FtcDashboard;
import com.acmerobotics.dashboard.config.Config;
import com.acmerobotics.dashboard.telemetry.MultipleTelemetry;
import com.qualcomm.robotcore.eventloop.opmode.LinearOpMode;
import com.qualcomm.robotcore.eventloop.opmode.TeleOp;
import org.firstinspires.ftc.teamcode.utils.Robot;
@TeleOp
@Config
public class ActiveColorSensorTest extends LinearOpMode {
Robot robot;
MultipleTelemetry TELE;
@Override
public void runOpMode() throws InterruptedException{
robot = new Robot(hardwareMap);
TELE = new MultipleTelemetry(telemetry, FtcDashboard.getInstance().getTelemetry());
int b1Purple = 1;
int b1Total = 1;
int b2Purple = 1;
int b2Total = 1;
int b3Purple = 1;
int b3Total = 1;
double totalStamp1 = 0.0;
double purpleStamp1 = 0.0;
double totalStamp2 = 0.0;
double purpleStamp2 = 0.0;
double totalStamp3 = 0.0;
double purpleStamp3 = 0.0;
String b1 = "none";
String b2 = "none";
String b3 = "none";
double position = 0.0;
double stamp = getRuntime();
waitForStart();
if (isStopRequested()) return;
while (opModeIsActive()){
if ((getRuntime() % 0.3) >0.15) {
position = spindexer_intakePos1 + 0.015;
} else {
position = spindexer_intakePos1 - 0.015;
}
robot.spin1.setPosition(position);
robot.spin2.setPosition(1-position);
robot.intake.setPower(1);
// Reset the counters after 1 second of not reading a ball.
final double ColorCounterResetDelay = 1.0;
// Number of times the loop needs to run before deciding on a color.
final int ColorCounterTotalMinCount = 20;
// If the color sensor reads a color this percentage of time
// out of the total, declare the color.
// Usage: (Color Count)/(Total Count) > ColorCounterThreshold
final double ColorCounterThreshold = 0.65;
if (robot.pin1.getState()){
if (robot.pin0.getState()){
b1Purple ++;
}
b1Total++;
totalStamp1 = getRuntime();
}
if (getRuntime() - totalStamp1 > ColorCounterResetDelay) {
// Too Much time has passed without detecting ball
b1 = "none";
b1Total = 1;
b1Purple = 1;
}else if ((b1Total > ColorCounterTotalMinCount) && ((double) b1Purple / b1Total) >= ColorCounterThreshold){
// Enough Time has passed and we met the threshold
b1 = "Purple";
}else if (b1Total > ColorCounterTotalMinCount) {
// Enough Time passed WITHOUT meeting the threshold
b1 = "Green";
}
if (robot.pin3.getState()){
if (robot.pin2.getState()){
b2Purple ++;
}
b2Total++;
totalStamp2 = getRuntime();
}
if (getRuntime() - totalStamp2 > ColorCounterResetDelay) {
// Too Much time has passed without detecting ball
b2 = "none";
b2Total = 1;
b2Purple = 1;
}else if ((b2Total > ColorCounterTotalMinCount) && ((double) b2Purple / b2Total) >= ColorCounterThreshold){
// Enough Time has passed and we met the threshold
b2 = "Purple";
}else if (b2Total > ColorCounterTotalMinCount) {
// Enough Time passed WITHOUT meeting the threshold
b2 = "Green";
}
if (robot.pin5.getState()){
if (robot.pin4.getState()){
b3Purple ++;
}
b3Total++;
totalStamp3 = getRuntime();
}
if (getRuntime() - totalStamp3 > ColorCounterResetDelay) {
// Too Much time has passed without detecting ball
b3 = "none";
b3Total = 1;
b3Purple = 1;
}else if ((b3Total > ColorCounterTotalMinCount) && ((double) b3Purple / b3Total) >= ColorCounterThreshold){
// Enough Time has passed and we met the threshold
b3 = "Purple";
}else if (b3Total > ColorCounterTotalMinCount) {
// Enough Time passed WITHOUT meeting the threshold
b3 = "Green";
}
TELE.addData("Green1:", robot.pin1.getState());
TELE.addData("Purple1:", robot.pin0.getState());
TELE.addData("Green2:", robot.pin3.getState());
TELE.addData("Purple2:", robot.pin2.getState());
TELE.addData("Green3:", robot.pin5.getState());
TELE.addData("Purple3:", robot.pin4.getState());
TELE.addData("1", b1);
TELE.addData("2",b2);
TELE.addData("3",b3);
TELE.update();
}
}
}

37
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/tests/AprilTagWebcamExample.java
View File

@@ -1,37 +0,0 @@
package org.firstinspires.ftc.teamcode.tests;
import com.acmerobotics.dashboard.FtcDashboard;
import com.acmerobotics.dashboard.config.Config;
import com.acmerobotics.dashboard.telemetry.MultipleTelemetry;
import com.qualcomm.robotcore.eventloop.opmode.OpMode;
import com.qualcomm.robotcore.eventloop.opmode.TeleOp;
import org.firstinspires.ftc.teamcode.subsystems.AprilTagWebcam;
import org.firstinspires.ftc.teamcode.subsystems.Robot;
@Config
@TeleOp
public class AprilTagWebcamExample extends OpMode {
MultipleTelemetry TELE;
AprilTagWebcam aprilTagWebcam = new AprilTagWebcam();
@Override
public void init() {
TELE = new MultipleTelemetry(
telemetry, FtcDashboard.getInstance().getTelemetry()
);
aprilTagWebcam.init(new Robot(hardwareMap), TELE);
}
@Override
public void loop() {
aprilTagWebcam.update();
aprilTagWebcam.displayAllTelemetry();
TELE.update();
}
}

63
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/tests/ColorSensorTest.java Normal file
View File

@@ -0,0 +1,63 @@
package org.firstinspires.ftc.teamcode.tests;
import com.acmerobotics.dashboard.FtcDashboard;
import com.acmerobotics.dashboard.config.Config;
import com.acmerobotics.dashboard.telemetry.MultipleTelemetry;
import com.qualcomm.robotcore.eventloop.opmode.LinearOpMode;
import com.qualcomm.robotcore.eventloop.opmode.TeleOp;
import org.firstinspires.ftc.robotcore.external.navigation.DistanceUnit;
import org.firstinspires.ftc.teamcode.utils.Robot;
@TeleOp
@Config
public class ColorSensorTest extends LinearOpMode {
Robot robot;
MultipleTelemetry TELE;
@Override
public void runOpMode() throws InterruptedException {
robot = new Robot(hardwareMap);
TELE = new MultipleTelemetry(telemetry, FtcDashboard.getInstance().getTelemetry());
waitForStart();
if (isStopRequested()) return;
while (opModeIsActive()) {
// ----- COLOR 1 -----
double green1 = robot.color1.getNormalizedColors().green;
double blue1 = robot.color1.getNormalizedColors().blue;
double red1 = robot.color1.getNormalizedColors().red;
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));
// ----- COLOR 2 -----
double green2 = robot.color2.getNormalizedColors().green;
double blue2 = robot.color2.getNormalizedColors().blue;
double red2 = robot.color2.getNormalizedColors().red;
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));
// ----- COLOR 3 -----
double green3 = robot.color3.getNormalizedColors().green;
double blue3 = robot.color3.getNormalizedColors().blue;
double red3 = robot.color3.getNormalizedColors().red;
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.update();
}
}
}

236
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/tests/ShooterTest.java
View File

@@ -1,51 +1,85 @@
package org.firstinspires.ftc.teamcode.tests;
import static org.firstinspires.ftc.teamcode.constants.ServoPositions.*;
import com.acmerobotics.dashboard.FtcDashboard;
import com.acmerobotics.dashboard.config.Config;
import com.acmerobotics.dashboard.telemetry.MultipleTelemetry;
import com.arcrobotics.ftclib.controller.PIDController;
import com.arcrobotics.ftclib.controller.PIDFController;
import com.qualcomm.robotcore.eventloop.opmode.LinearOpMode;
import com.qualcomm.robotcore.eventloop.opmode.TeleOp;
import com.qualcomm.robotcore.hardware.DcMotorEx;
import com.qualcomm.robotcore.hardware.DcMotor;
import org.firstinspires.ftc.teamcode.subsystems.Robot;
import org.firstinspires.ftc.teamcode.utils.Robot;
import org.firstinspires.ftc.teamcode.subsystems.Shooter;
@Config
@TeleOp
@Config
public class ShooterTest extends LinearOpMode {
public static int mode = 0;
public static double parameter = 0.0;
Robot robot;
private DcMotorEx leftShooter;
private DcMotorEx rightShooter;
private DcMotorEx encoder;
private double encoderRevolutions = 0.0;
private double lastEncoderRevolutions = 0.0;
private double timeStamp = 0.0;
private double lastTimeStamp = 0.0;
public static double pow = 0.0;
public static double vel = 0.0;
public static double ecpr = 1024.0; // CPR of the encoder
public static double hoodPos = 0.5;
public static double turretPos = 0.9;
// --- CONSTANTS YOU TUNE ---
public static double MAX_RPM = 2500; // your measured max RPM
public static double kP = 0.01; // small proportional gain (tune this)
public static double maxStep = 0.2; // prevents sudden jumps
public static String flyMode = "VEL";
public static boolean AutoTrack = false;
double initPos = 0.0;
double velo = 0.0;
double velo1 = 0.0;
double velo2 = 0.0;
double velo3 = 0.0;
double velo4 = 0.0;
double velo5 = 0.0;
double stamp1 = 0.0;
double initPos1 = 0.0;
double powPID = 0.0;
public static int maxVel = 4500;
public static boolean shoot = false;
public static int spindexPos = 1;
public static boolean intake = true;
public static int tolerance = 50;
double stamp = 0.0;
public static double kP = 0.001; // small proportional gain (tune this)
public static double maxStep = 0.06; // prevents sudden jumps
public static double distance = 50;
MultipleTelemetry TELE;
@Override
public void runOpMode() throws InterruptedException {
robot = new Robot(hardwareMap);
leftShooter = robot.shooter1;
rightShooter = robot.shooter2;
encoder = robot.shooter1;
MultipleTelemetry TELE = new MultipleTelemetry(
telemetry, FtcDashboard.getInstance().getTelemetry()
);
TELE = new MultipleTelemetry(telemetry, FtcDashboard.getInstance().getTelemetry());
Shooter shooter = new Shooter(robot, TELE);
robot.shooter1.setMode(DcMotor.RunMode.RUN_WITHOUT_ENCODER);
robot.shooter2.setMode(DcMotor.RunMode.RUN_WITHOUT_ENCODER);
shooter.setTelemetryOn(true);
shooter.setShooterMode(flyMode);
initPos = shooter.getECPRPosition();
int ticker = 0;
waitForStart();
@@ -53,62 +87,124 @@ public class ShooterTest extends LinearOpMode {
while (opModeIsActive()) {
double kF = 1.0 / MAX_RPM; // baseline feedforward
encoderRevolutions = (double) encoder.getCurrentPosition() / 2048;
double velocity = -60*(encoderRevolutions - lastEncoderRevolutions) / (getRuntime() - lastTimeStamp);
TELE.addLine("Mode: 0 = Manual, 1 = Vel, 2 = Pos");
TELE.addLine("Parameter = pow, vel, or pos");
TELE.addData("leftShooterPower", leftShooter.getPower());
TELE.addData("rightShooterPower", rightShooter.getPower());
TELE.addData("shaftEncoderPos", encoderRevolutions);
TELE.addData("shaftEncoderVel", velocity);
double velPID = 0.0;
if (mode == 0) {
rightShooter.setPower(parameter);
leftShooter.setPower(parameter);
} else if (mode == 1) {
// --- FEEDFORWARD BASE POWER ---
double feed = kF * parameter; // Example: vel=2500 → feed=0.5
// --- PROPORTIONAL CORRECTION ---
double error = parameter - velocity;
double correction = kP * error;
// limit how fast power changes (prevents oscillation)
correction = Math.max(-maxStep, Math.min(maxStep, correction));
// --- FINAL MOTOR POWER ---
velPID = feed + correction;
// clamp to allowed range
velPID = Math.max(0, Math.min(1, velPID));
rightShooter.setPower(velPID);
leftShooter.setPower(velPID);
ticker++;
if (AutoTrack){
hoodPos = hoodAnglePrediction(distance);
vel = velPrediction(distance);
}
lastTimeStamp = getRuntime();
lastEncoderRevolutions = (double) encoder.getCurrentPosition() / 2048;
shooter.setShooterMode(flyMode);
shooter.setManualPower(pow);
robot.hood.setPosition(hoodPos);
robot.turr1.setPosition(turretPos);
robot.turr2.setPosition(1 - turretPos);
if (intake) {
robot.transfer.setPower(0);
robot.intake.setPower(0.75);
robot.spin1.setPosition(spindexer_intakePos1);
robot.spin2.setPosition(1 - spindexer_intakePos1);
} else {
robot.transfer.setPower(.75 + (powPID/4));
robot.intake.setPower(0);
if (spindexPos == 1) {
robot.spin1.setPosition(spindexer_outtakeBall1);
robot.spin2.setPosition(1 - spindexer_outtakeBall1);
} else if (spindexPos == 2) {
robot.spin1.setPosition(spindexer_outtakeBall2);
robot.spin2.setPosition(1 - spindexer_outtakeBall2);
} else if (spindexPos == 3) {
robot.spin1.setPosition(spindexer_outtakeBall3);
robot.spin2.setPosition(1 - spindexer_outtakeBall3);
}
}
double penguin = 0;
if (ticker % 8 ==0){
penguin = shooter.getECPRPosition();
stamp = getRuntime();
velo1 = -60 * ((penguin - initPos1) / (stamp - stamp1));
initPos1 = penguin;
stamp1 = stamp;
}
velo = velo1;
double feed = vel / maxVel; // Example: vel=2500 → feed=0.5
if (vel > 500){
feed = Math.log((668.39 / (vel + 591.96)) - 0.116) / -4.18;
}
// --- PROPORTIONAL CORRECTION ---
double error = vel - velo1;
double correction = kP * error;
// limit how fast power changes (prevents oscillation)
correction = Math.max(-maxStep, Math.min(maxStep, correction));
// --- FINAL MOTOR POWER ---
powPID = feed + correction;
// clamp to allowed range
powPID = Math.max(0, Math.min(1, powPID));
if (vel - velo > 1000){
powPID = 1;
} else if (velo - vel > 1000){
powPID = 0;
}
shooter.setVelocity(powPID);
if (shoot) {
robot.transferServo.setPosition(transferServo_in);
} else {
robot.transferServo.setPosition(transferServo_out);
}
shooter.update();
TELE.addData("Revolutions", shooter.getECPRPosition());
TELE.addData("hoodPos", shooter.gethoodPosition());
TELE.addData("turretPos", shooter.getTurretPosition());
TELE.addData("Power Fly 1", robot.shooter1.getPower());
TELE.addData("Power Fly 2", robot.shooter2.getPower());
TELE.addData("powPID", shooter.getpowPID());
TELE.addData("Velocity", velo);
TELE.update();
}
}
public double hoodAnglePrediction(double distance) {
double L = 0.298317;
double A = 1.02124;
double k = 0.0157892;
double n = 3.39375;
double dist = Math.sqrt(distance*distance+24*24);
return L + A * Math.exp(-Math.pow(k * dist, n));
}
public static double velPrediction(double distance) {
double x = Math.sqrt(distance*distance+24*24);
double A = -211149.992;
double B = -1.19943;
double C = 3720.15909;
return A * Math.pow(x, B) + C;
}
}

4
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/tests/TrackingTest.java
View File

@@ -1,4 +0,0 @@
package org.firstinspires.ftc.teamcode.tests;
public class TrackingTest {
}

18
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/utils/ConfigureColorRangefinder.java
View File

@@ -5,17 +5,15 @@ import com.qualcomm.hardware.rev.RevColorSensorV3;
import com.qualcomm.robotcore.eventloop.opmode.LinearOpMode;
import com.qualcomm.robotcore.eventloop.opmode.TeleOp;
import com.qualcomm.robotcore.hardware.I2cDeviceSynchSimple;
@Config
@TeleOp
public class ConfigureColorRangefinder extends LinearOpMode {
public static int LED_Brightness = 50;
public static int lowerGreen = 110;
public static double lowerBound = 80;
public static double higherBound = 120;
public static int led = 0;
public static int higherGreen = 150;
@Override
public void runOpMode() throws InterruptedException {
@@ -24,11 +22,12 @@ public class ConfigureColorRangefinder extends LinearOpMode {
/* Using this example configuration, you can detect both artifact colors based on which pin is reading true:
pin0 --> purple
pin1 --> green */
crf.setPin0Digital(ColorRangefinder.DigitalMode.DISTANCE, 3, 20);
crf.setPin1Digital(ColorRangefinder.DigitalMode.HSV, lowerBound, higherBound); // green
crf.setPin1DigitalMaxDistance(ColorRangefinder.DigitalMode.HSV, 25); //25 mm or closer
crf.setLedBrightness(led);
crf.setPin1Digital(ColorRangefinder.DigitalMode.DISTANCE, 0, 40); // green
crf.setPin0Digital(ColorRangefinder.DigitalMode.HSV, higherGreen / 360.0 * 255, 360 / 360.0 * 255); // purple
crf.setPin0Digital(ColorRangefinder.DigitalMode.HSV, 0, lowerGreen/360.0 * 255);
crf.setPin0DigitalMaxDistance(ColorRangefinder.DigitalMode.HSV, 40); // 10mm or closer requirement
crf.setLedBrightness(LED_Brightness);
}
}
@@ -143,6 +142,7 @@ class ColorRangefinder {
/**
* Read distance via I2C
*
* @return distance in millimeters
*/
public double readDistance() {

53
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/utils/PositionalServoProgrammer.java Normal file
View File

@@ -0,0 +1,53 @@
package org.firstinspires.ftc.teamcode.utils;
import com.acmerobotics.dashboard.FtcDashboard;
import com.acmerobotics.dashboard.config.Config;
import com.acmerobotics.dashboard.telemetry.MultipleTelemetry;
import com.qualcomm.robotcore.eventloop.opmode.LinearOpMode;
import com.qualcomm.robotcore.eventloop.opmode.TeleOp;
@TeleOp
@Config
public class PositionalServoProgrammer extends LinearOpMode {
Robot robot;
MultipleTelemetry TELE;
public static double spindexPos = 0.501;
public static double turretPos = 0.501;
public static double transferPos = 0.501;
public static double hoodPos = 0.501;
public static double scalar = 1.112;
public static double restPos = 0.158;
@Override
public void runOpMode() throws InterruptedException {
robot = new Robot(hardwareMap);
TELE = new MultipleTelemetry(telemetry, FtcDashboard.getInstance().getTelemetry());
waitForStart();
if (isStopRequested()) return;
while (opModeIsActive()){
if (spindexPos != 0.501){
robot.spin1.setPosition(spindexPos);
robot.spin2.setPosition(1-spindexPos);
}
if (turretPos != 0.501){
robot.turr1.setPosition(turretPos);
robot.turr2.setPosition(1-turretPos);
}
if (transferPos != 0.501){
robot.transferServo.setPosition(transferPos);
}
if (hoodPos != 0.501){
robot.hood.setPosition(hoodPos);
}
TELE.addData("spindexer", scalar*((robot.spin1Pos.getVoltage() - restPos) / 3.3));
TELE.addData("hood", 1-scalar*((robot.hoodPos.getVoltage() - restPos) / 3.3));
TELE.addData("transferServo", scalar*((robot.transferServoPos.getVoltage() - restPos) / 3.3));
TELE.addData("turret", scalar*((robot.turr1Pos.getVoltage() - restPos) / 3.3));
TELE.addData("spindexerA", robot.spin1Pos.getVoltage());
TELE.addData("hoodA", robot.hoodPos.getVoltage());
TELE.addData("transferServoA", robot.transferServoPos.getVoltage());
TELE.addData("turretA", robot.turr1Pos.getVoltage());
TELE.update();
}
}
}

53
TeamCode/src/main/java/org/firstinspires/ftc/teamcode/utils/Robot.java
View File

@@ -1,5 +1,6 @@
package org.firstinspires.ftc.teamcode.utils;
import com.qualcomm.hardware.rev.RevColorSensorV3;
import com.qualcomm.robotcore.hardware.AnalogInput;
import com.qualcomm.robotcore.hardware.DcMotor;
import com.qualcomm.robotcore.hardware.DcMotorEx;
@@ -7,6 +8,7 @@ import com.qualcomm.robotcore.hardware.DcMotorImplEx;
import com.qualcomm.robotcore.hardware.DcMotorSimple;
import com.qualcomm.robotcore.hardware.DigitalChannel;
import com.qualcomm.robotcore.hardware.HardwareMap;
import com.qualcomm.robotcore.hardware.I2cDevice;
import com.qualcomm.robotcore.hardware.Servo;
import org.firstinspires.ftc.robotcore.external.hardware.camera.WebcamName;
@@ -30,8 +32,6 @@ public class Robot {
public DcMotorEx transfer;
public DcMotorEx shooter1;
public DcMotorEx shooter2;
public Servo hood;
@@ -61,27 +61,31 @@ public class Robot {
public AnalogInput analogInput2;
public AprilTagProcessor aprilTagProcessor;
public AnalogInput spin1Pos;
public AnalogInput spin2Pos;
public AnalogInput hoodPos;
public AnalogInput turr1Pos;
public AnalogInput turr2Pos;
public AnalogInput transferServoPos;
public AprilTagProcessor aprilTagProcessor;
public WebcamName webcam;
public DcMotorEx shooterEncoder;
public RevColorSensorV3 color1;
public RevColorSensorV3 color2;
public RevColorSensorV3 color3;
public Robot (HardwareMap hardwareMap) {
public Robot(HardwareMap hardwareMap) {
//Define components w/ hardware map
@@ -108,14 +112,24 @@ public class Robot {
hood = hardwareMap.get(Servo.class, "hood");
hoodPos = hardwareMap.get(AnalogInput.class, "hoodPos");
turr1 = hardwareMap.get(Servo.class, "t1");
turr1Pos = hardwareMap.get(AnalogInput.class, "t1Pos");
turr2 = hardwareMap.get(Servo.class, "t2");
turr2Pos = hardwareMap.get(AnalogInput.class, "t2Pos");
spin1 = hardwareMap.get(Servo.class, "spin1");
spin1Pos = hardwareMap.get(AnalogInput.class, "spin1Pos");
spin2 = hardwareMap.get(Servo.class, "spin2");
spin2Pos = hardwareMap.get(AnalogInput.class, "spin2Pos");
pin0 = hardwareMap.get(DigitalChannel.class, "pin0");
pin1 = hardwareMap.get(DigitalChannel.class, "pin1");
@@ -128,27 +142,26 @@ public class Robot {
pin5 = hardwareMap.get(DigitalChannel.class, "pin5");
analogInput = hardwareMap.get(AnalogInput.class, "analog");
analogInput2 = hardwareMap.get(AnalogInput.class, "analog2");
transfer = hardwareMap.get(DcMotorEx.class, "transfer");
transferServo = hardwareMap.get(Servo.class, "transferServo");
transferServoPos = hardwareMap.get(AnalogInput.class, "tSPos");
transfer.setDirection(DcMotorSimple.Direction.REVERSE);
aprilTagProcessor = AprilTagProcessor.easyCreateWithDefaults();
webcam = hardwareMap.get(WebcamName.class, "Webcam 1");
color1 = hardwareMap.get(RevColorSensorV3.class, "c1");
color2 = hardwareMap.get(RevColorSensorV3.class, "c2");
color3 = hardwareMap.get(RevColorSensorV3.class, "c3");
}
}