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base: sdesharnais:e0c1e2693311ac68070a24d75e35bc1cd2b67ae2
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sdesharnais:main sdesharnais:coaching
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compare: sdesharnais:coaching
Branches Tags
sdesharnais:coaching sdesharnais:main

32 Commits
e0c1e26933 ... coaching

Author SHA1 Message Date
Olivier Demers
4ecaef3d1d big stuff 2026-04-22 10:21:28 -04:00
odubois
f7e88619e9 limelight 2026-03-30 05:04:22 +02:00
odubois
5c626f33e3 test 2026-03-29 23:30:52 +02:00
samuel desharnais
673a7fcb82 vgft 2026-03-28 20:50:33 -04:00
samuel desharnais
755d79aa18 oui 2026-03-28 16:01:40 -04:00
samuel desharnais
799e3e34c3 m 2026-03-28 15:53:53 -04:00
samuel desharnais
fbd94fc33d Merge branch 'main' of https://git.demerso.net/sdesharnais/Rebuilt-2026 2026-03-28 14:42:07 -04:00
samuel desharnais
9e3bd6e7d3 bngvthf 2026-03-28 14:41:49 -04:00
Antoine PerreaultE
bd853dfc79 lanceur 2026-03-28 14:35:18 -04:00
Antoine PerreaultE
cb3104152c voltage et allaince 2026-03-28 13:51:22 -04:00
Antoine PerreaultE
85da1dcad1 Merge branch 'main' of https://git.demerso.net/sdesharnais/Rebuilt-2026 2026-03-28 13:21:35 -04:00
Antoine PerreaultE
a92a7a0ea1 pigeon 2026-03-28 13:21:30 -04:00
samuel desharnais
ba57959f4d debug samedi 2026-03-28 13:20:52 -04:00
samuel desharnais
79568a58b9 debug de jeudi 2026-03-28 09:16:33 -04:00
samuel desharnais
57fa3597e2 debug de jeudi 2026-03-28 09:16:22 -04:00
Antoine PerreaultE
5ba5cce953 Merge branch 'main' of https://git.demerso.net/sdesharnais/Rebuilt-2026 2026-03-26 17:49:01 -04:00
Antoine PerreaultE
d0c50cbd6e mode auto pls marche pls 2026-03-26 17:46:22 -04:00
samuel desharnais
0492c9a2c6 mettre en 2026 2026-03-26 17:45:25 -04:00
Antoine PerreaultE
69fe4a58d0 e 2026-03-25 18:26:48 -04:00
Antoine PerreaultE
92b876e7b0 angle 2026-03-25 18:09:31 -04:00
Antoine PerreaultE
22746ab8ca tourner a zero/180 regle 2026-03-24 20:28:03 -04:00
Antoine PerreaultE
70b796e99a Merge branch 'main' of https://git.demerso.net/sdesharnais/Rebuilt-2026 2026-03-24 20:20:05 -04:00
Antoine PerreaultE
083288d3fc oui 2026-03-24 20:20:02 -04:00
samuel desharnais
b83e689b97 enlever les deux tourner 2026-03-24 20:00:16 -04:00
samuel desharnais
33fd6ceb23 tourner selon l'équipe 2026-03-24 19:59:14 -04:00
Antoine PerreaultE
36a6bf2ab0 grimper regle par side 2026-03-24 19:39:38 -04:00
Antoine PerreaultE
9249751f2b simgui 2026-03-24 19:05:10 -04:00
Antoine PerreaultE
2c0bab873c settings pathplanner 2026-03-24 18:53:04 -04:00
Antoine PerreaultE
2e7f9a6aa9 path 2026-03-24 18:16:33 -04:00
samuel desharnais
7f0f957ad1 led selon distance 2026-03-24 18:02:23 -04:00
samuel desharnais
7d2b2ea139 mode auto 2026-03-24 17:52:09 -04:00
samuel desharnais
a7fb3108ea debug de samedi 2026-03-21 16:11:24 -04:00
58 changed files with 1608 additions and 1849 deletions
Expand all files Collapse all files

3
.vscode/settings.json vendored
View File

@@ -56,5 +56,6 @@
"edu.wpi.first.math.proto.*",
"edu.wpi.first.math.**.proto.*",
"edu.wpi.first.math.**.struct.*",
]
],
"java.dependency.enableDependencyCheckup": false
}

2
.wpilib/wpilib_preferences.json
View File

@@ -1,6 +1,6 @@
{
"enableCppIntellisense": false,
"currentLanguage": "java",
"projectYear": "2025",
"projectYear": "2026",
"teamNumber": 5618
}

2
WPILib-License.md
View File

@@ -1,4 +1,4 @@
Copyright (c) 2009-2024 FIRST and other WPILib contributors
Copyright (c) 2009-2026 FIRST and other WPILib contributors
All rights reserved.
Redistribution and use in source and binary forms, with or without

11
build.gradle
View File

@@ -1,6 +1,6 @@
plugins {
id "java"
id "edu.wpi.first.GradleRIO" version "2025.3.2"
id "edu.wpi.first.GradleRIO" version "2026.2.1"
}
java {
@@ -33,7 +33,7 @@ deploy {
frcStaticFileDeploy(getArtifactTypeClass('FileTreeArtifact')) {
files = project.fileTree('src/main/deploy')
directory = '/home/lvuser/deploy'
deleteOldFiles = false // Change to true to delete files on roboRIO that no
deleteOldFiles = true // Change to true to delete files on roboRIO that no
// longer exist in deploy directory of this project
}
}
@@ -43,7 +43,8 @@ deploy {
def deployArtifact = deploy.targets.roborio.artifacts.frcJava
// Set to true to use debug for JNI.
// Set to true to use debug for all targets including JNI, which will drastically impact
// performance.
wpi.java.debugJni = false
// Set this to true to enable desktop support.
@@ -88,7 +89,9 @@ wpi.sim.addDriverstation()
// knows where to look for our Robot Class.
jar {
from { configurations.runtimeClasspath.collect { it.isDirectory() ? it : zipTree(it) } }
from sourceSets.main.allSource
from('src') { into 'backup/src' }
from('vendordeps') { into 'backup/vendordeps' }
from('build.gradle') { into 'backup' }
manifest edu.wpi.first.gradlerio.GradleRIOPlugin.javaManifest(ROBOT_MAIN_CLASS)
duplicatesStrategy = DuplicatesStrategy.INCLUDE
}

2
settings.gradle
View File

@@ -4,7 +4,7 @@ pluginManagement {
repositories {
mavenLocal()
gradlePluginPortal()
String frcYear = '2025'
String frcYear = '2026'
File frcHome
if (OperatingSystem.current().isWindows()) {
String publicFolder = System.getenv('PUBLIC')

31
src/main/deploy/pathplanner/autos/Copy of TirSimple.auto Normal file
View File

@@ -0,0 +1,31 @@
{
"version": "2025.0",
"command": {
"type": "sequential",
"data": {
"commands": [
{
"type": "path",
"data": {
"pathName": "TirerSimple"
}
},
{
"type": "named",
"data": {
"name": "DescendreBalayeuse"
}
},
{
"type": "named",
"data": {
"name": "Lancer"
}
}
]
}
},
"resetOdom": true,
"folder": null,
"choreoAuto": false
}

12
src/main/deploy/pathplanner/autos/DepotTirer.auto
View File

@@ -4,6 +4,12 @@
"type": "sequential",
"data": {
"commands": [
{
"type": "named",
"data": {
"name": "DescendreBalayeuse"
}
},
{
"type": "deadline",
"data": {
@@ -14,12 +20,6 @@
"pathName": "Depot"
}
},
{
"type": "named",
"data": {
"name": "DescendreBalayeuse"
}
},
{
"type": "named",
"data": {

12
src/main/deploy/pathplanner/autos/DepotTirerMur.auto
View File

@@ -4,6 +4,12 @@
"type": "sequential",
"data": {
"commands": [
{
"type": "named",
"data": {
"name": "DescendreBalayeuse"
}
},
{
"type": "deadline",
"data": {
@@ -14,12 +20,6 @@
"pathName": "Depot"
}
},
{
"type": "named",
"data": {
"name": "DescendreBalayeuse"
}
},
{
"type": "named",
"data": {

12
src/main/deploy/pathplanner/autos/DepotTirerReservoir.auto
View File

@@ -4,6 +4,12 @@
"type": "sequential",
"data": {
"commands": [
{
"type": "named",
"data": {
"name": "DescendreBalayeuse"
}
},
{
"type": "deadline",
"data": {
@@ -14,12 +20,6 @@
"pathName": "Depot"
}
},
{
"type": "named",
"data": {
"name": "DescendreBalayeuse"
}
},
{
"type": "named",
"data": {

12
src/main/deploy/pathplanner/autos/MilieuDroite.auto
View File

@@ -4,6 +4,12 @@
"type": "sequential",
"data": {
"commands": [
{
"type": "named",
"data": {
"name": "DescendreBalayeuse"
}
},
{
"type": "deadline",
"data": {
@@ -14,12 +20,6 @@
"pathName": "ChercherMilieuDroite"
}
},
{
"type": "named",
"data": {
"name": "DescendreBalayeuse"
}
},
{
"type": "named",
"data": {

12
src/main/deploy/pathplanner/autos/MilieuDroiteProche.auto
View File

@@ -4,6 +4,12 @@
"type": "sequential",
"data": {
"commands": [
{
"type": "named",
"data": {
"name": "DescendreBalayeuse"
}
},
{
"type": "deadline",
"data": {
@@ -14,12 +20,6 @@
"pathName": "ChercherMilieuDroiteProche"
}
},
{
"type": "named",
"data": {
"name": "DescendreBalayeuse"
}
},
{
"type": "named",
"data": {

12
src/main/deploy/pathplanner/autos/MilieuGauche.auto
View File

@@ -4,6 +4,12 @@
"type": "sequential",
"data": {
"commands": [
{
"type": "named",
"data": {
"name": "DescendreBalayeuse"
}
},
{
"type": "deadline",
"data": {
@@ -14,12 +20,6 @@
"pathName": "ChercherMilieuGauche"
}
},
{
"type": "named",
"data": {
"name": "DescendreBalayeuse"
}
},
{
"type": "named",
"data": {

12
src/main/deploy/pathplanner/autos/MilieuGaucheProche.auto
View File

@@ -4,6 +4,12 @@
"type": "sequential",
"data": {
"commands": [
{
"type": "named",
"data": {
"name": "DescendreBalayeuse"
}
},
{
"type": "deadline",
"data": {
@@ -14,12 +20,6 @@
"pathName": "ChercherMilieuGaucheProche"
}
},
{
"type": "named",
"data": {
"name": "DescendreBalayeuse"
}
},
{
"type": "named",
"data": {

6
src/main/deploy/pathplanner/autos/TirSimple.auto
View File

@@ -10,6 +10,12 @@
"pathName": "TirerSimple"
}
},
{
"type": "named",
"data": {
"name": "DescendreBalayeuse"
}
},
{
"type": "named",
"data": {

8
src/main/deploy/pathplanner/paths/Depot.path
View File

@@ -3,12 +3,12 @@
"waypoints": [
{
"anchor": {
"x": 3.5732667617689007,
"x": 3.6120827389443653,
"y": 5.917574893009986
},
"prevControl": null,
"nextControl": {
"x": 2.266462196861626,
"x": 2.3052781740370905,
"y": 5.904636233951498
},
"isLocked": false,
@@ -16,11 +16,11 @@
},
{
"anchor": {
"x": 1.1796148359486442,
"x": 0.4938659058487873,
"y": 5.917574893009986
},
"prevControl": {
"x": 1.7230385164051354,
"x": 1.0372895863052785,
"y": 5.930513552068473
},
"nextControl": null,

10
src/main/deploy/pathplanner/paths/Tir.path
View File

@@ -3,13 +3,13 @@
"waypoints": [
{
"anchor": {
"x": 1.1796148359486442,
"y": 5.917574893009986
"x": 0.5197432239657629,
"y": 5.930513552068473
},
"prevControl": null,
"nextControl": {
"x": 2.3570328102710407,
"y": 5.982268188302426
"x": 1.6971611982881594,
"y": 5.995206847360913
},
"isLocked": false,
"linkedName": null
@@ -30,7 +30,7 @@
],
"rotationTargets": [
{
"waypointRelativePos": 0.2179128348660559,
"waypointRelativePos": 0.3240938166311289,
"rotationDegrees": 180.0
}
],

14
src/main/deploy/pathplanner/paths/TirerSimple.path
View File

@@ -3,12 +3,12 @@
"waypoints": [
{
"anchor": {
"x": 3.5473894436519258,
"x": 3.602,
"y": 4.015592011412268
},
"prevControl": null,
"nextControl": {
"x": 2.494897544356074,
"x": 2.549508100704148,
"y": 4.011425161481168
},
"isLocked": false,
@@ -16,12 +16,12 @@
},
{
"anchor": {
"x": 1.7359771754636228,
"x": 1.643730569948188,
"y": 4.015592011412268
},
"prevControl": {
"x": 2.627549770741877,
"y": 4.02839075681212
"x": 2.5679620034542325,
"y": 4.011502590673576
},
"nextControl": null,
"isLocked": false,
@@ -33,7 +33,7 @@
"pointTowardsZones": [],
"eventMarkers": [],
"globalConstraints": {
"maxVelocity": 3.0,
"maxVelocity": 5.0,
"maxAcceleration": 3.0,
"maxAngularVelocity": 540.0,
"maxAngularAcceleration": 720.0,
@@ -50,5 +50,5 @@
"velocity": 0,
"rotation": 0.0
},
"useDefaultConstraints": true
"useDefaultConstraints": false
}

30
src/main/deploy/pathplanner/settings.json
View File

@@ -1,6 +1,6 @@
{
"robotWidth": 0.9,
"robotLength": 0.9,
"robotWidth": 0.83,
"robotLength": 0.87,
"holonomicMode": true,
"pathFolders": [
"Milieu"
@@ -13,23 +13,23 @@
"defaultMaxAngVel": 540.0,
"defaultMaxAngAccel": 720.0,
"defaultNominalVoltage": 12.0,
"robotMass": 74.088,
"robotMass": 51.673,
"robotMOI": 6.883,
"robotTrackwidth": 0.546,
"driveWheelRadius": 0.048,
"driveGearing": 5.143,
"maxDriveSpeed": 5.45,
"driveWheelRadius": 0.051,
"driveGearing": 6.2,
"maxDriveSpeed": 9.82,
"driveMotorType": "krakenX60",
"driveCurrentLimit": 60.0,
"driveCurrentLimit": 120.0,
"wheelCOF": 1.2,
"flModuleX": 0.273,
"flModuleY": 0.273,
"frModuleX": 0.273,
"frModuleY": -0.273,
"blModuleX": -0.273,
"blModuleY": 0.273,
"brModuleX": -0.273,
"brModuleY": -0.273,
"flModuleX": 0.288925,
"flModuleY": 0.269875,
"frModuleX": 0.288925,
"frModuleY": -0.27,
"blModuleX": -0.288925,
"blModuleY": 0.269875,
"brModuleX": -0.288925,
"brModuleY": -0.27,
"bumperOffsetX": 0.0,
"bumperOffsetY": 0.0,
"robotFeatures": []

67
src/main/java/frc/robot/Commandes.java Normal file
View File

@@ -0,0 +1,67 @@
package frc.robot;
import java.util.function.Supplier;
import edu.wpi.first.wpilibj2.command.Command;
import edu.wpi.first.wpilibj2.command.Commands;
import frc.robot.subsystems.Balayeuse;
import frc.robot.subsystems.CommandSwerveDrivetrain;
import frc.robot.subsystems.Demeleur;
import frc.robot.subsystems.Grimpeur;
import frc.robot.subsystems.Lanceur;
import frc.robot.subsystems.PivotBalayeuse;
public class Commandes {
private final CommandSwerveDrivetrain drivetrain;
private final Lanceur lanceur;
private final Demeleur demeleur;
private final Balayeuse balayeuse;
private final Grimpeur grimpeur;
private final PivotBalayeuse pivotBalayeuse;
public Commandes(CommandSwerveDrivetrain drivetrain,
Lanceur lanceur,
Demeleur demeleur,
Balayeuse balayeuse,
Grimpeur grimpeur,
PivotBalayeuse pivotBalayeuse) {
this.drivetrain = drivetrain;
this.lanceur = lanceur;
this.demeleur = demeleur;
this.balayeuse = balayeuse;
this.grimpeur = grimpeur;
this.pivotBalayeuse = pivotBalayeuse;
}
public double vitesseLanceur() {
return Coordinates.diffFromHub(drivetrain.getState().Pose.getTranslation()).getNorm() * 410.57 + 2250;
}
public Command viserLancer() {
return viserLancer(() -> 0.0, () -> 0.0);
}
public Command viserLancer(Supplier<Double> vitesseX, Supplier<Double> vitesseY) {
return Commands.parallel(
drivetrain.viserReservoir(vitesseX, vitesseY),
this.lancer());
}
public Command lancer() {
return lancer(this::vitesseLanceur);
}
public Command lancer(Supplier<Double> vitesse) {
return Commands.parallel(
lanceur.lancer(vitesse),
Commands.waitUntil(lanceur::setPointAtteint).andThen(demeleur.run()));
}
public Command lancerAspirer() {
return Commands.parallel(
this.lancer(),
balayeuse.aspirer());
}
}

41
src/main/java/frc/robot/Coordinates.java Normal file
View File

@@ -0,0 +1,41 @@
package frc.robot;
import static edu.wpi.first.units.Units.Meters;
import edu.wpi.first.math.geometry.Translation2d;
import edu.wpi.first.wpilibj.DriverStation;
import edu.wpi.first.wpilibj.DriverStation.Alliance;
public final class Coordinates {
public static final Translation2d kRedHub = new Translation2d(Meters.of(16.5 - 4.6), Meters.of(4.03));
public static final Translation2d kBlueHub = new Translation2d(Meters.of(4.6), Meters.of(4.03));
public static final Translation2d kGrimpeDepotRouge = new Translation2d(Meters.of(16.5 - 1.1), Meters.of(4.9));
public static final Translation2d kGrimpeMurRouge = new Translation2d(Meters.of(16.5 - 1.1), Meters.of(3.7));
public static final Translation2d kGrimpeDepotBleu = new Translation2d(Meters.of(1.1), Meters.of(3.1));
public static final Translation2d kGrimpeMurBleu = new Translation2d(Meters.of(1.1), Meters.of(4.4));
public static Translation2d diffFromHub(Translation2d robotTranslation) {
if (DriverStation.getAlliance().orElse(Alliance.Blue) == Alliance.Blue) {
return kBlueHub.minus(robotTranslation);
} else {
return kRedHub.minus(robotTranslation);
}
}
public static Translation2d diffFromGrimpeMur(Translation2d robotTranslation) {
if (DriverStation.getAlliance().orElse(Alliance.Blue) == Alliance.Blue) {
return kGrimpeMurBleu.minus(robotTranslation);
} else {
return kGrimpeMurRouge.minus(robotTranslation);
}
}
public static Translation2d diffFromGrimpeDepot(Translation2d robotTranslation) {
if (DriverStation.getAlliance().orElse(Alliance.Blue) == Alliance.Blue) {
return kGrimpeDepotBleu.minus(robotTranslation);
} else {
return kGrimpeDepotRouge.minus(robotTranslation);
}
}
}

75
src/main/java/frc/robot/LimeLight3.java Normal file
View File

@@ -0,0 +1,75 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot;
import edu.wpi.first.net.PortForwarder;
import edu.wpi.first.networktables.NetworkTable;
import edu.wpi.first.networktables.NetworkTableEntry;
import edu.wpi.first.networktables.NetworkTableInstance;
public class LimeLight3 {
NetworkTable table = NetworkTableInstance.getDefault().getTable("limelight-balaie");
NetworkTableEntry pipeline = table.getEntry("pipeline");
/** Creates a new LimeLight3. */
public LimeLight3() {
for (int port = 5800; port <= 5807; port++) {
PortForwarder.add(port, "limelight.local", port);
}
}
public double[] getBotPoseBlue() {
NetworkTable limelightTable = NetworkTableInstance.getDefault().getTable("limelight-balaie");
NetworkTableEntry BotPoseEntry = limelightTable.getEntry("botpose_orb_wpiblue");
double[] BotPose = BotPoseEntry.getDoubleArray(new double[7]);
return BotPose;
}
public double[] getBotPoseRed() {
NetworkTable limelightTable = NetworkTableInstance.getDefault().getTable("limelight-balaie");
NetworkTableEntry BotPoseEntry = limelightTable.getEntry("botpose_orb_wpired");
double[] BotPose = BotPoseEntry.getDoubleArray(new double[7]);
return BotPose;
}
public double getTx() {
NetworkTable table = NetworkTableInstance.getDefault().getTable("limelight-balaie");
NetworkTableEntry tx = table.getEntry("tx");
return tx.getDouble(0.0);
}
public double getTId() {
NetworkTable table = NetworkTableInstance.getDefault().getTable("limelight-balaie");
NetworkTableEntry tid = table.getEntry("tid");
return tid.getDouble(0.0);
}
public double getTA() {
NetworkTable table = NetworkTableInstance.getDefault().getTable("limelight-balaie");
NetworkTableEntry ta = table.getEntry("ta");
return ta.getDouble(0.0);
}
public boolean getV() {
return LimelightHelpers.getTV("limelight-balaie");
}
public void AprilTag() {
pipeline.setNumber(0);
}
public void Forme() {
pipeline.setNumber(1);
}
public double Calcule(double x1, double x2, double y1, double y2, double angle) {
if (x1 > 4) {
return (Math.abs(Math.atan2(x2 - x1, y2 - y1)) * (180 / Math.PI) - angle) / 90;
} else {
return (Math.abs(Math.atan2(x2 - x1, y2 - y1)) * (180 / Math.PI) + angle) * -1 / 90;
}
}
}

74
src/main/java/frc/robot/Limelight3G.java Normal file
View File

@@ -0,0 +1,74 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot;
import edu.wpi.first.net.PortForwarder;
import edu.wpi.first.networktables.NetworkTable;
import edu.wpi.first.networktables.NetworkTableEntry;
import edu.wpi.first.networktables.NetworkTableInstance;
public class Limelight3G {
NetworkTable table = NetworkTableInstance.getDefault().getTable("limelight-tag");
NetworkTableEntry pipeline = table.getEntry("pipeline");
/** Creates a new LimeLight3. */
public Limelight3G() {
for (int port = 5800; port <= 5807; port++) {
PortForwarder.add(port, "limelight.local", port);
}
}
public double[] getBotPoseBlue() {
NetworkTable limelightTable = NetworkTableInstance.getDefault().getTable("limelight-tag");
NetworkTableEntry BotPoseEntry = limelightTable.getEntry("botpose_wpiblue");
double[] BotPose = BotPoseEntry.getDoubleArray(new double[7]);
return BotPose;
}
public double[] getBotPoseRed() {
NetworkTable limelightTable = NetworkTableInstance.getDefault().getTable("limelight-tag");
NetworkTableEntry BotPoseEntry = limelightTable.getEntry("botpose_wpired");
double[] BotPose = BotPoseEntry.getDoubleArray(new double[7]);
return BotPose;
}
public double getTx() {
NetworkTable table = NetworkTableInstance.getDefault().getTable("limelight-tag");
NetworkTableEntry tx = table.getEntry("tx");
return tx.getDouble(0.0);
}
public double getTId() {
NetworkTable table = NetworkTableInstance.getDefault().getTable("limelight-tag");
NetworkTableEntry tid = table.getEntry("tid");
return tid.getDouble(0.0);
}
public double getTA() {
NetworkTable table = NetworkTableInstance.getDefault().getTable("limelight-tag");
NetworkTableEntry ta = table.getEntry("ta");
return ta.getDouble(0.0);
}
public boolean getV() {
return LimelightHelpers.getTV("limelight-tag");
}
public double Calcule(double x1, double x2, double y1, double y2, double angle) {
if (x1 > x2) {
if (y1 > y2) {
return Math.atan(90 - ((x2 - x1) / (y2 - y1))) * (180 / Math.PI) - angle;
} else {
return Math.atan((x2 - x1) / (y2 - y1)) * (180 / Math.PI) + 90 - angle;
}
} else {
if (y1 > y2) {
return Math.atan(90 - ((x2 - x1) / (y2 - y1))) * (180 / Math.PI) + 270 - angle;
} else {
return Math.atan((x2 - x1) / (y2 - y1)) * (180 / Math.PI) + 180 - angle;
}
}
}
}

44
src/main/java/frc/robot/Robot.java
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@@ -4,6 +4,8 @@
package frc.robot;
import edu.wpi.first.math.VecBuilder;
import edu.wpi.first.math.util.Units;
import edu.wpi.first.wpilibj.TimedRobot;
import edu.wpi.first.wpilibj2.command.Command;
import edu.wpi.first.wpilibj2.command.CommandScheduler;
@@ -20,16 +22,34 @@ public class Robot extends TimedRobot {
@Override
public void robotPeriodic() {
CommandScheduler.getInstance().run();
var driveState = m_robotContainer.drivetrain.getState();
double headingDeg = driveState.Pose.getRotation().getDegrees();
double omegaRps = Units.radiansToRotations(driveState.Speeds.omegaRadiansPerSecond);
LimelightHelpers.SetRobotOrientation("limelight_tag", headingDeg, 0, 0, 0, 0, 0);
var llMeasurement = LimelightHelpers.getBotPoseEstimate_wpiBlue_MegaTag2("limelight_tag");
var stdDevs = LimelightHelpers.getLimelightDoubleArrayEntry("limelight_tag", "stddevs");
var limelightStdDevs = VecBuilder.fill(.5, .5, 9999999);
if (stdDevs.exists()) {
limelightStdDevs = VecBuilder.fill(stdDevs.get()[6], stdDevs.get()[7], stdDevs.get()[12]);
}
if (llMeasurement != null && llMeasurement.tagCount > 0 && Math.abs(omegaRps) < 2.0) {
m_robotContainer.drivetrain.addVisionMeasurement(llMeasurement.pose, llMeasurement.timestampSeconds,
limelightStdDevs);
}
}
@Override
public void disabledInit() {}
public void disabledInit() {
}
@Override
public void disabledPeriodic() {}
public void disabledPeriodic() {
}
@Override
public void disabledExit() {}
public void disabledExit() {
}
@Override
public void autonomousInit() {
@@ -41,10 +61,12 @@ public class Robot extends TimedRobot {
}
@Override
public void autonomousPeriodic() {}
public void autonomousPeriodic() {
}
@Override
public void autonomousExit() {}
public void autonomousExit() {
}
@Override
public void teleopInit() {
@@ -54,10 +76,12 @@ public class Robot extends TimedRobot {
}
@Override
public void teleopPeriodic() {}
public void teleopPeriodic() {
}
@Override
public void teleopExit() {}
public void teleopExit() {
}
@Override
public void testInit() {
@@ -65,8 +89,10 @@ public class Robot extends TimedRobot {
}
@Override
public void testPeriodic() {}
public void testPeriodic() {
}
@Override
public void testExit() {}
public void testExit() {
}
}

148
src/main/java/frc/robot/RobotContainer.java
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@@ -4,7 +4,9 @@
package frc.robot;
import static edu.wpi.first.units.Units.*;
import static edu.wpi.first.units.Units.MetersPerSecond;
import static edu.wpi.first.units.Units.RadiansPerSecond;
import static edu.wpi.first.units.Units.RotationsPerSecond;
import com.ctre.phoenix6.swerve.SwerveModule.DriveRequestType;
import com.ctre.phoenix6.swerve.SwerveRequest;
@@ -12,113 +14,105 @@ import com.pathplanner.lib.auto.AutoBuilder;
import com.pathplanner.lib.auto.NamedCommands;
import edu.wpi.first.cameraserver.CameraServer;
import edu.wpi.first.math.MathUtil;
import edu.wpi.first.wpilibj.smartdashboard.SendableChooser;
import edu.wpi.first.wpilibj.smartdashboard.SmartDashboard;
import edu.wpi.first.wpilibj2.command.Command;
import edu.wpi.first.wpilibj2.command.Commands;
import edu.wpi.first.wpilibj2.command.button.CommandXboxController;
import edu.wpi.first.wpilibj2.command.sysid.SysIdRoutine;
import frc.robot.commands.Aspirer;
import frc.robot.commands.DescendreBalyeuse;
import frc.robot.commands.DescendreGrimpeur;
import frc.robot.commands.Lancer;
import frc.robot.commands.LancerAspirer;
import frc.robot.commands.LancerBaseVitesse;
import frc.robot.commands.Limelighter;
import frc.robot.commands.ModeOposer;
import frc.robot.commands.ModeOposerDemeleur;
import frc.robot.commands.MonterBalyeuse;
import frc.robot.commands.MonterGrimpeur;
import frc.robot.commands.ModeAuto.AspirerAuto;
import frc.robot.commands.ModeAuto.GrimperMur;
import frc.robot.commands.ModeAuto.GrimperReservoir;
import frc.robot.commands.ModeAuto.LancerAuto;
import frc.robot.commands.ModeAuto.RetourMilieuDroite;
import frc.robot.commands.ModeAuto.RetourMilieuGauche;
import frc.robot.commands.ModeAuto.TournerA180;
import frc.robot.commands.ModeAuto.TournerAZero;
import frc.robot.commands.ModeAuto.TournerVersMur;
import frc.robot.commands.ModeAuto.TournerVersReservoir;
import frc.robot.generated.TunerConstants;
import frc.robot.subsystems.Balayeuse;
import frc.robot.subsystems.CommandSwerveDrivetrain;
import frc.robot.subsystems.Demeleur;
import frc.robot.subsystems.Grimpeur;
import frc.robot.subsystems.Lanceur;
import frc.robot.subsystems.Led;
import frc.robot.subsystems.LimeLight3;
import frc.robot.subsystems.Limelight3G;
import frc.robot.subsystems.PivotBalayeuse;
public class RobotContainer {
private final SendableChooser<Command> autoChooser;
Balayeuse balayeuse = new Balayeuse();
Grimpeur grimpeur = new Grimpeur();
Lanceur lanceur = new Lanceur();
LimeLight3 limeLight3 = new LimeLight3();
Limelight3G limeLight3G = new Limelight3G();
Led led = new Led();
CommandXboxController manette = new CommandXboxController(0);
CommandXboxController manette1 = new CommandXboxController(1);
private double MaxSpeed = 1.0 * TunerConstants.kSpeedAt12Volts.in(MetersPerSecond); // kSpeedAt12Volts desired top speed
private double MaxAngularRate = RotationsPerSecond.of(0.75).in(RadiansPerSecond); // 3/4 of a rotation per second max angular velocity
public final CommandSwerveDrivetrain drivetrain = TunerConstants.createDrivetrain();
private final Balayeuse balayeuse = new Balayeuse();
private final PivotBalayeuse pivotBalayeuse = new PivotBalayeuse();
private final Demeleur demeleur = new Demeleur();
private final Grimpeur grimpeur = new Grimpeur();
private final Lanceur lanceur = new Lanceur();
private final Commandes commandes = new Commandes(drivetrain, lanceur, demeleur, balayeuse, grimpeur, pivotBalayeuse);
private final LimeLight3 limeLight3 = new LimeLight3();
private final Limelight3G limeLight3G = new Limelight3G();
private final Led led = new Led();
private final CommandXboxController manette = new CommandXboxController(0);
private final CommandXboxController manette1 = new CommandXboxController(1);
private double MaxSpeed = TunerConstants.kSpeedAt12Volts.in(MetersPerSecond); // kSpeedAt12Volts desired top speed
private double MaxAngularRate = RotationsPerSecond.of(0.75).in(RadiansPerSecond); // 3/4 of a rotation per second max
// angular velocity
/* Setting up bindings for necessary control of the swerve drive platform */
private final SwerveRequest.FieldCentric drive = new SwerveRequest.FieldCentric()
.withDeadband(MaxSpeed * 0.1).withRotationalDeadband(MaxAngularRate * 0.1) // Add a 10% deadband
.withDriveRequestType(DriveRequestType.OpenLoopVoltage); // Use open-loop control for drive motors
private final SwerveRequest.SwerveDriveBrake brake = new SwerveRequest.SwerveDriveBrake();
private final SwerveRequest.PointWheelsAt point = new SwerveRequest.PointWheelsAt();
private final Telemetry logger = new Telemetry(MaxSpeed);
public final CommandSwerveDrivetrain drivetrain = TunerConstants.createDrivetrain();
/* Setting up bindings for necessary control of the swerve drive platform */
private final SwerveRequest.FieldCentric drive = new SwerveRequest.FieldCentric()
.withDeadband(MaxSpeed * 0.1).withRotationalDeadband(MaxAngularRate * 0.1) // Add a 10% deadband
.withDriveRequestType(DriveRequestType.OpenLoopVoltage); // Use open-loop control for drive motors
private final Telemetry logger = new Telemetry(MaxSpeed);
public RobotContainer() {
NamedCommands.registerCommand("GrimperMur", drivetrain.allerGrimpeMur());
NamedCommands.registerCommand("GrimperReservoir", drivetrain.allerGrimpeDepot());
NamedCommands.registerCommand("Lancer", commandes.lancer());
NamedCommands.registerCommand("RetourMilieuDroite", new RetourMilieuDroite(drivetrain, limeLight3G));
NamedCommands.registerCommand("RetourMilieuGauche", new RetourMilieuGauche(drivetrain, limeLight3G));
NamedCommands.registerCommand("Limelighter", commandes.viserLancer());
NamedCommands.registerCommand("DescendreBalayeuse", pivotBalayeuse.descendre());
NamedCommands.registerCommand("Aspirer", balayeuse.aspirer());
NamedCommands.registerCommand("TournerA180", new TournerVersReservoir(drivetrain));
NamedCommands.registerCommand("TournerAZero", new TournerVersMur(drivetrain));
NamedCommands.registerCommand("MonterGrimpeur", grimpeur.sortir());
NamedCommands.registerCommand("DescendreGrimpeur", grimpeur.rentrer());
autoChooser = AutoBuilder.buildAutoChooser();
SmartDashboard.putData("Auto Chooser", autoChooser);
CameraServer.startAutomaticCapture();
configureBindings();
NamedCommands.registerCommand("GrimperMur", new GrimperMur(limeLight3,drivetrain));
NamedCommands.registerCommand("GrimperReservoir", new GrimperReservoir(limeLight3G,drivetrain));
NamedCommands.registerCommand("Lancer", new LancerAuto(lanceur));
NamedCommands.registerCommand("RetourMilieuDroite", new RetourMilieuDroite());
NamedCommands.registerCommand("RetourMilieuGauche", new RetourMilieuGauche());
NamedCommands.registerCommand("Limelighter", new Limelighter(limeLight3G,drivetrain));
NamedCommands.registerCommand("DescendreBalayeuse", new DescendreBalyeuse(balayeuse));
NamedCommands.registerCommand("Aspirer", new AspirerAuto(balayeuse));
NamedCommands.registerCommand("TournerAZero", new TournerAZero(drivetrain));
NamedCommands.registerCommand("TournerA180", new TournerA180(drivetrain));
NamedCommands.registerCommand("MonterGrimpeur", new MonterGrimpeur(grimpeur));
NamedCommands.registerCommand("DescendreGrimpeur", new DescendreGrimpeur(grimpeur));
}
private void configureBindings() {
// Manette 0 (pilote)
drivetrain.setDefaultCommand(
drivetrain.applyRequest(() ->
drive.withVelocityY(MathUtil.applyDeadband(-manette.getLeftX()*Math.abs(-manette.getLeftX())*MaxSpeed, 0.05))
.withVelocityX(MathUtil.applyDeadband(-manette.getLeftY()*Math.abs(-manette.getLeftY())*MaxSpeed, 0.05))
.withRotationalRate(MathUtil.applyDeadband(-manette.getRightX()*Math.abs(-manette.getRightX())*MaxAngularRate, 0.05))
)
);
//manette 1
manette.y().whileTrue(drivetrain.sysIdQuasistatic(SysIdRoutine.Direction.kForward));
manette.a().whileTrue(drivetrain.sysIdQuasistatic(SysIdRoutine.Direction.kReverse));
manette.b().whileTrue(drivetrain.sysIdDynamic(SysIdRoutine.Direction.kForward));
manette.x().whileTrue(drivetrain.sysIdDynamic(SysIdRoutine.Direction.kReverse));
drivetrain.applyRequest(() -> drive
.withVelocityY(-manette.getLeftX() * MaxSpeed * 0.7)
.withVelocityX(-manette.getLeftY() * MaxSpeed * 0.7)
.withRotationalRate(-manette.getRightX() * MaxAngularRate)));
manette.rightBumper().whileTrue(balayeuse.aspirer());
manette.povUp().whileTrue(grimpeur.sortir());
manette.povDown().whileTrue(grimpeur.rentrer());
manette.povUp().whileTrue(new LancerAuto(lanceur));
manette.a().whileTrue(new Lancer(lanceur,limeLight3G,balayeuse,led));
manette.x().whileTrue(new LancerBaseVitesse(lanceur, limeLight3));
manette.rightTrigger().whileTrue(new MonterGrimpeur(grimpeur));
manette.leftTrigger().whileTrue(new DescendreGrimpeur(grimpeur));
manette.rightBumper().whileTrue(new MonterBalyeuse(balayeuse));
manette.leftBumper().whileTrue(new DescendreBalyeuse(balayeuse));
manette.rightTrigger().whileTrue(commandes.lancer());
manette.leftTrigger().whileTrue(
commandes.viserLancer(() -> -manette.getLeftY() * MaxSpeed * 0.7, () -> -manette.getLeftX() * MaxSpeed * 0.7));
manette.leftBumper().whileTrue(pivotBalayeuse.descendre());
manette.b().whileTrue(drivetrain.allerGrimpeDepot());
manette.x().whileTrue(drivetrain.allerGrimpeMur());
manette.b().whileTrue(new Aspirer(balayeuse,led));
//manette 2
// Manette 1 (co-pilote)
manette1.rightTrigger().whileTrue(balayeuse.aspirer());
manette1.povDown().whileTrue(new LancerAspirer(lanceur, balayeuse, limeLight3, led));
manette1.y().whileTrue(new ModeOposer(lanceur, balayeuse));
manette1.x().whileTrue(new ModeOposerDemeleur(lanceur));
manette1.rightBumper().whileTrue(pivotBalayeuse.monter());
manette1.leftTrigger().whileTrue(commandes.lancer(() -> lanceur.ntBasseVitesse()));
manette1.leftBumper().whileTrue(pivotBalayeuse.descendre());
manette1.x().whileTrue(commandes.lancerAspirer());
manette1.b().whileTrue(Commands.parallel(lanceur.inverse(), demeleur.inverse()));
manette1.a().whileTrue(demeleur.inverse());
manette1.y().whileTrue(balayeuse.ejecter());
drivetrain.registerTelemetry(logger::telemeterize);
}
public Command getAutonomousCommand() {
return autoChooser.getSelected();
// return getAutonomousCommand();
}
}

74
src/main/java/frc/robot/commands/Aspirer.java
View File

@@ -1,74 +0,0 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot.commands;
import edu.wpi.first.wpilibj.Timer;
import edu.wpi.first.wpilibj2.command.Command;
import frc.robot.subsystems.Balayeuse;
import frc.robot.subsystems.Led;
/* You should consider using the more terse Command factories API instead https://docs.wpilib.org/en/stable/docs/software/commandbased/organizing-command-based.html#defining-commands */
public class Aspirer extends Command {
private Balayeuse balayeuse;
private Timer timer;
private Led led;
private double temp;
/** Creates a new Aspirer. */
public Aspirer(Balayeuse balayeuse, Led led) {
this.balayeuse = balayeuse;
this.led = led;
this.timer = new Timer();
addRequirements(balayeuse, led);
this.temp = 0;
// Use addRequirements() here to declare subsystem dependencies.
}
// Called when the command is initially scheduled.
@Override
public void initialize() {
timer.reset();
temp = balayeuse.Amp();
}
// Called every time the scheduler runs while the command is scheduled.
@Override
public void execute() {
timer.start();
int nbFois = 0;
double moyenneAmp = 0;
if(timer.get() <3){
nbFois++;
moyenneAmp += balayeuse.Amp() / nbFois;
}
else{
nbFois++;
moyenneAmp -= temp;
moyenneAmp += balayeuse.Amp() / nbFois;
temp = balayeuse.Amp();
}
if(moyenneAmp < balayeuse.AmpMax()){
timer.reset();
balayeuse.Balayer(-0.5);
}
else{
balayeuse.Balayer(0);
led.Jaune2();
}
}
// Called once the command ends or is interrupted.
@Override
public void end(boolean interrupted) {
balayeuse.Balayer(0);
timer.stop();
}
// Returns true when the command should end.
@Override
public boolean isFinished() {
return false;
}
}

46
src/main/java/frc/robot/commands/DescendreBalyeuse.java
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@@ -1,46 +0,0 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot.commands;
import edu.wpi.first.wpilibj2.command.Command;
import frc.robot.subsystems.Balayeuse;
/* You should consider using the more terse Command factories API instead https://docs.wpilib.org/en/stable/docs/software/commandbased/organizing-command-based.html#defining-commands */
public class DescendreBalyeuse extends Command {
private Balayeuse balayeuse;
/** Creates a new Descendre. */
public DescendreBalyeuse(Balayeuse balayeuse) {
this.balayeuse = balayeuse;
addRequirements(balayeuse);
// Use addRequirements() here to declare subsystem dependencies.
}
// Called when the command is initially scheduled.
@Override
public void initialize() {}
// Called every time the scheduler runs while the command is scheduled.
@Override
public void execute() {
if(Math.abs(balayeuse.Distance()) < balayeuse.EncodeurBalayeuse()){
balayeuse.Pivoter(-0.2);
}
else{
balayeuse.Pivoter(0);
}
}
// Called once the command ends or is interrupted.
@Override
public void end(boolean interrupted) {
balayeuse.Pivoter(0);
}
// Returns true when the command should end.
@Override
public boolean isFinished() {
return false;
}
}

46
src/main/java/frc/robot/commands/DescendreGrimpeur.java
View File

@@ -1,46 +0,0 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot.commands;
import edu.wpi.first.wpilibj2.command.Command;
import frc.robot.subsystems.Grimpeur;
/* You should consider using the more terse Command factories API instead https://docs.wpilib.org/en/stable/docs/software/commandbased/organizing-command-based.html#defining-commands */
public class DescendreGrimpeur extends Command {
private Grimpeur grimpeur;
/** Creates a new DescendreGrimpeur. */
public DescendreGrimpeur(Grimpeur grimpeur) {
this.grimpeur = grimpeur;
// Use addRequirements() here to declare subsystem dependencies.
}
// Called when the command is initially scheduled.
@Override
public void initialize() {}
// Called every time the scheduler runs while the command is scheduled.
@Override
public void execute() {
if(!grimpeur.Limit()){
grimpeur.Grimper(-0.3);
}
else{
grimpeur.Reset();
grimpeur.Grimper(0);
}
}
// Called once the command ends or is interrupted.
@Override
public void end(boolean interrupted) {
grimpeur.Grimper(0);
}
// Returns true when the command should end.
@Override
public boolean isFinished() {
return false;
}
}

104
src/main/java/frc/robot/commands/Lancer.java
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@@ -1,104 +0,0 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot.commands;
import edu.wpi.first.math.controller.PIDController;
import edu.wpi.first.wpilibj.Timer;
import edu.wpi.first.wpilibj2.command.Command;
import frc.robot.subsystems.Balayeuse;
import frc.robot.subsystems.Lanceur;
import frc.robot.subsystems.Led;
import frc.robot.subsystems.Limelight3G;
/* You should consider using the more terse Command factories API instead https://docs.wpilib.org/en/stable/docs/software/commandbased/organizing-command-based.html#defining-commands */
public class Lancer extends Command {
private Lanceur lanceur;
private PIDController pidController;
private Limelight3G limeLight3G;
private Timer timer;
private Balayeuse balayeuse;
private Led led;
private double temp;
/** Creates a new Lancer. */
public Lancer(Lanceur lanceur, Limelight3G limeLight3G, Balayeuse balayeuse,Led led) {
this.lanceur = lanceur;
this.balayeuse = balayeuse;
this.led = led;
this.timer = new Timer();
this.limeLight3G = new Limelight3G();
addRequirements(lanceur, balayeuse, led, limeLight3G);
this.temp = 0;
// Use addRequirements() here to declare subsystem dependencies.
}
// Called when the command is initially scheduled.
@Override
public void initialize() {
pidController = new PIDController(1, 0,0, 0);
timer.reset();
timer.start();
temp = lanceur.Amp();
}
// Called every time the scheduler runs while the command is scheduled.
@Override
public void execute() {
double botx = 0;
double boty = 0;
double[] BotPose = new double[6];
if(limeLight3G.getV()){
BotPose = limeLight3G.getBotPoseBlue();
botx = BotPose[0];
boty = BotPose[1];
}
int nbFois = 0;
double moyenneAmp = 0;
if(timer.get() < 3){
nbFois++;
moyenneAmp += balayeuse.Amp() / nbFois;
}
else{
nbFois++;
moyenneAmp -= temp;
moyenneAmp += balayeuse.Amp() / nbFois;
temp = balayeuse.Amp();
}
// if(moyenneAmp > lanceur.AmpBas() && nbFois > 10){
timer.reset();
balayeuse.Balayer(-0.5);
// led.Jaune2();
// }
// else{
double vitesse = 0.5;
if(limeLight3G.getV()){
//pythagore |
// \/
vitesse = Math.sqrt(Math.pow(Math.abs(4.625594-botx), 2) + Math.pow(Math.abs(4.034536-boty), 2));
}
double output = vitesse; /*pidController.calculate(lanceur.Vitesse(),vitesse);*/
lanceur.Lancer(output);
if(lanceur.Vitesse() >= vitesse){
lanceur.Demeler(0.1);
}
// }
}
// Called once the command ends or is interrupted.
@Override
public void end(boolean interrupted) {
lanceur.Demeler(0);
lanceur.Lancer(0);
balayeuse.Pivoter(0);
}
// Returns true when the command should end.
@Override
public boolean isFinished() {
return false;
}
}

25
src/main/java/frc/robot/commands/LancerAspirer.java
View File

@@ -1,25 +0,0 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot.commands;
import edu.wpi.first.wpilibj2.command.ParallelCommandGroup;
import frc.robot.subsystems.Balayeuse;
import frc.robot.subsystems.Lanceur;
import frc.robot.subsystems.Led;
import frc.robot.subsystems.LimeLight3;
import frc.robot.subsystems.Limelight3G;
// NOTE: Consider using this command inline, rather than writing a subclass. For more
// information, see:
// https://docs.wpilib.org/en/stable/docs/software/commandbased/convenience-features.html
public class LancerAspirer extends ParallelCommandGroup {
/** Creates a new LacerAspirer. */
public LancerAspirer(Lanceur lanceur, Balayeuse balayeuse, LimeLight3 limeLight3, Led led) {
addCommands(new LancerBaseVitesse(lanceur, limeLight3), new Aspirer(balayeuse, led));
// Add your commands in the addCommands() call, e.g.
// addCommands(new FooCommand(), new BarCommand());
}
}

84
src/main/java/frc/robot/commands/LancerBaseVitesse.java
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@@ -1,84 +0,0 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot.commands;
import edu.wpi.first.math.controller.PIDController;
import edu.wpi.first.wpilibj.Timer;
import edu.wpi.first.wpilibj2.command.Command;
import frc.robot.subsystems.Lanceur;
import frc.robot.subsystems.LimeLight3;
import frc.robot.subsystems.Limelight3G;
/* You should consider using the more terse Command factories API instead https://docs.wpilib.org/en/stable/docs/software/commandbased/organizing-command-based.html#defining-commands */
public class LancerBaseVitesse extends Command {
private Lanceur lanceur;
private PIDController pidController;
private Limelight3G limeLight3G;
private Timer timer;
private double temp;
/** Creates a new Lancer. */
public LancerBaseVitesse(Lanceur lanceur, LimeLight3 limeLight3) {
this.lanceur = lanceur;
// this.timer = new Timer();
this.limeLight3G = new Limelight3G();
addRequirements(lanceur, limeLight3G);
//this.temp = 0;
// Use addRequirements() here to declare subsystem dependencies.
}
// Called when the command is initially scheduled.
@Override
public void initialize() {
pidController = new PIDController(0.0007, 0,0, 0.001);
//timer.reset();
//timer.start();
//temp = lanceur.Amp();
}
// Called every time the scheduler runs while the command is scheduled.
@Override
public void execute() {
// int nbFois = 0;
// double moyenneAmp = 0;
// if(timer.get() < 3){
// nbFois++;
// moyenneAmp += balayeuse.Amp() / nbFois;
// }
// else{
// nbFois++;
// moyenneAmp -= temp;
// moyenneAmp += balayeuse.Amp() / nbFois;
// temp = balayeuse.Amp();
// }
// if(moyenneAmp > 30 && nbFois > 10){
// timer.reset();
// balayeuse.Balayer(0.5);
// led.Jaune2();
// }
// else{
double vitesse = lanceur.vitesseDemander();
double output = pidController.calculate(lanceur.Vitesse(),vitesse);
lanceur.Lancer(output);
if(lanceur.Vitesse() >= 1200){
lanceur.Demeler(0.5);
}
// }
}
// Called once the command ends or is interrupted.
@Override
public void end(boolean interrupted) {
lanceur.Demeler(0);
lanceur.Lancer(0);
}
// Returns true when the command should end.
@Override
public boolean isFinished() {
return false;
}
}

71
src/main/java/frc/robot/commands/Limelighter.java
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@@ -1,71 +0,0 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot.commands;
import com.ctre.phoenix6.swerve.SwerveModule.DriveRequestType;
import com.ctre.phoenix6.swerve.SwerveRequest;
import edu.wpi.first.wpilibj.Timer;
import edu.wpi.first.wpilibj2.command.Command;
import frc.robot.generated.TunerConstants;
import frc.robot.subsystems.CommandSwerveDrivetrain;
import frc.robot.subsystems.Limelight3G;
import static edu.wpi.first.units.Units.*;
/* You should consider using the more terse Command factories API instead https://docs.wpilib.org/en/stable/docs/software/commandbased/organizing-command-based.html#defining-commands */
public class Limelighter extends Command {
Timer timer;
Limelight3G limelight3g;
CommandSwerveDrivetrain drivetrain;
private double MaxSpeed = TunerConstants.kSpeedAt12Volts.in(MetersPerSecond);
private double MaxAngularRate = RotationsPerSecond.of(0.75).in(RadiansPerSecond);
double botx;
double boty;
double angle;
private final SwerveRequest.FieldCentric drive = new SwerveRequest.FieldCentric()
.withDeadband(MaxSpeed * 0.1).withRotationalDeadband(MaxAngularRate * 0.1)
.withDriveRequestType(DriveRequestType.OpenLoopVoltage);
/** Creates a new Limelighter. */
public Limelighter(Limelight3G limelight3g,CommandSwerveDrivetrain drivetrain) {
this.limelight3g = limelight3g;
this.drivetrain = drivetrain;
addRequirements(drivetrain,limelight3g);
// Use addRequirements() here to declare subsystem dependencies.
}
// Called when the command is initially scheduled.
@Override
public void initialize() {}
// Called every time the scheduler runs while the command is scheduled.
@Override
public void execute() {
double[] BotPose = new double[6];
BotPose = limelight3g.getBotPoseBlue();
botx = BotPose[0];
boty = BotPose[1];
angle = BotPose[5];
drivetrain.setControl(drive.withRotationalRate(limelight3g.Calcule(4.625594, botx, 4.034536, boty, BotPose[5])/90));
if(limelight3g.Calcule(4.625594, botx, 4.034536, boty, angle)/90 < 0.1){
timer.start();
}
else{
timer.reset();
}
}
// Called once the command ends or is interrupted.
@Override
public void end(boolean interrupted) {
drivetrain.setControl(drive.withRotationalRate(0));
timer.stop();
}
// Returns true when the command should end.
@Override
public boolean isFinished() {
return timer.get() > 1;
}
}

41
src/main/java/frc/robot/commands/ModeAuto/AspirerAuto.java
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@@ -1,41 +0,0 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot.commands.ModeAuto;
import edu.wpi.first.wpilibj2.command.Command;
import frc.robot.subsystems.Balayeuse;
/* You should consider using the more terse Command factories API instead https://docs.wpilib.org/en/stable/docs/software/commandbased/organizing-command-based.html#defining-commands */
public class AspirerAuto extends Command {
Balayeuse balayeuse;
/** Creates a new AspirerAuto. */
public AspirerAuto(Balayeuse balayeuse) {
this.balayeuse = balayeuse;
addRequirements(balayeuse);
// Use addRequirements() here to declare subsystem dependencies.
}
// Called when the command is initially scheduled.
@Override
public void initialize() {}
// Called every time the scheduler runs while the command is scheduled.
@Override
public void execute() {
balayeuse.Balayer(0.5);
}
// Called once the command ends or is interrupted.
@Override
public void end(boolean interrupted) {
balayeuse.Balayer(0);
}
// Returns true when the command should end.
@Override
public boolean isFinished() {
return false;
}
}

70
src/main/java/frc/robot/commands/ModeAuto/GrimperMur.java
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@@ -1,70 +0,0 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot.commands.ModeAuto;
import static edu.wpi.first.units.Units.MetersPerSecond;
import static edu.wpi.first.units.Units.RadiansPerSecond;
import static edu.wpi.first.units.Units.RotationsPerSecond;
import com.ctre.phoenix6.hardware.Pigeon2;
import com.ctre.phoenix6.swerve.SwerveModule.DriveRequestType;
import com.ctre.phoenix6.swerve.SwerveRequest;
import edu.wpi.first.wpilibj2.command.Command;
import frc.robot.generated.TunerConstants;
import frc.robot.subsystems.CommandSwerveDrivetrain;
import frc.robot.subsystems.LimeLight3;
/* You should consider using the more terse Command factories API instead https://docs.wpilib.org/en/stable/docs/software/commandbased/organizing-command-based.html#defining-commands */
public class GrimperMur extends Command {
LimeLight3 limeLight3;
CommandSwerveDrivetrain drivetrain;
double[] BotPose = new double[6];
double botx;
double boty;
private double MaxSpeed = TunerConstants.kSpeedAt12Volts.in(MetersPerSecond);
private double MaxAngularRate = RotationsPerSecond.of(0.75).in(RadiansPerSecond);
Pigeon2 pigeon2;
private final SwerveRequest.FieldCentric drive = new SwerveRequest.FieldCentric()
.withDeadband(MaxSpeed * 0.1).withRotationalDeadband(MaxAngularRate * 0.1)
.withDriveRequestType(DriveRequestType.OpenLoopVoltage);
/** Creates a new GrimperMur. */
public GrimperMur(LimeLight3 limeLight3, CommandSwerveDrivetrain drivetrain) {
this.drivetrain = drivetrain;
this.limeLight3 = limeLight3;
addRequirements(limeLight3,drivetrain);
// Use addRequirements() here to declare subsystem dependencies.
}
// Called when the command is initially scheduled.
@Override
public void initialize() {}
// Called every time the scheduler runs while the command is scheduled.
@Override
public void execute() {
BotPose = limeLight3.getBotPoseBlue();
botx = BotPose[0];
boty = BotPose[1];
if(180-pigeon2.getYaw().getValueAsDouble() < 10 && 180- pigeon2.getYaw().getValueAsDouble() > -10){
drivetrain.setControl(drive.withVelocityX(2.961328-boty).withVelocityY(1.11-botx));
}
else{
drivetrain.setControl(drive.withRotationalRate(180-pigeon2.getYaw().getValueAsDouble()/45));
}
}
// Called once the command ends or is interrupted.
@Override
public void end(boolean interrupted) {
drivetrain.setControl(drive.withVelocityX(0).withVelocityY(0).withRotationalRate(0));
}
// Returns true when the command should end.
@Override
public boolean isFinished() {
return (2.961328-boty < 0.05 || 2.961328-boty >-0.05) && (1.11-botx < 0.05 || 1.11-botx > -0.05);
}
}

70
src/main/java/frc/robot/commands/ModeAuto/GrimperReservoir.java
View File

@@ -1,70 +0,0 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot.commands.ModeAuto;
import static edu.wpi.first.units.Units.MetersPerSecond;
import static edu.wpi.first.units.Units.RadiansPerSecond;
import static edu.wpi.first.units.Units.RotationsPerSecond;
import com.ctre.phoenix6.hardware.Pigeon2;
import com.ctre.phoenix6.swerve.SwerveModule.DriveRequestType;
import com.ctre.phoenix6.swerve.SwerveRequest;
import edu.wpi.first.wpilibj2.command.Command;
import frc.robot.generated.TunerConstants;
import frc.robot.subsystems.CommandSwerveDrivetrain;
import frc.robot.subsystems.Limelight3G;
/* You should consider using the more terse Command factories API instead https://docs.wpilib.org/en/stable/docs/software/commandbased/organizing-command-based.html#defining-commands */
public class GrimperReservoir extends Command {
Limelight3G limeLight3G;
CommandSwerveDrivetrain drivetrain;
double[] BotPose = new double[6];
double botx;
double boty;
private double MaxSpeed = TunerConstants.kSpeedAt12Volts.in(MetersPerSecond);
private double MaxAngularRate = RotationsPerSecond.of(0.75).in(RadiansPerSecond);
Pigeon2 pigeon2;
private final SwerveRequest.FieldCentric drive = new SwerveRequest.FieldCentric()
.withDeadband(MaxSpeed * 0.1).withRotationalDeadband(MaxAngularRate * 0.1)
.withDriveRequestType(DriveRequestType.OpenLoopVoltage);
/** Creates a new GrimperMur. */
public GrimperReservoir(Limelight3G limeLight3G, CommandSwerveDrivetrain drivetrain) {
this.drivetrain = drivetrain;
this.limeLight3G = limeLight3G;
addRequirements(limeLight3G,drivetrain);
// Use addRequirements() here to declare subsystem dependencies.
}
// Called when the command is initially scheduled.
@Override
public void initialize() {}
// Called every time the scheduler runs while the command is scheduled.
@Override
public void execute() {
BotPose = limeLight3G.getBotPoseBlue();
botx = BotPose[0];
boty = BotPose[1];
if(0-pigeon2.getYaw().getValueAsDouble() < 10 && 0- pigeon2.getYaw().getValueAsDouble() > -10){
drivetrain.setControl(drive.withVelocityX(5.081328-boty).withVelocityY(1.11-botx));
}
else{
drivetrain.setControl(drive.withRotationalRate(0-pigeon2.getYaw().getValueAsDouble()/45));
}
}
// Called once the command ends or is interrupted.
@Override
public void end(boolean interrupted) {
drivetrain.setControl(drive.withVelocityX(0).withVelocityY(0).withRotationalRate(0));
}
// Returns true when the command should end.
@Override
public boolean isFinished() {
return 5.081328-boty < 0.05 || 5.081328-boty >-0.05 && 1.11-botx < 0.05 || 1.11-botx > -0.05;
}
}

53
src/main/java/frc/robot/commands/ModeAuto/LancerAuto.java
View File

@@ -1,53 +0,0 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot.commands.ModeAuto;
import edu.wpi.first.wpilibj.Timer;
import edu.wpi.first.wpilibj2.command.Command;
import frc.robot.subsystems.Lanceur;
/* You should consider using the more terse Command factories API instead https://docs.wpilib.org/en/stable/docs/software/commandbased/organizing-command-based.html#defining-commands */
public class LancerAuto extends Command {
Lanceur lanceur;
Timer timer;
/** Creates a new LancerAuto. */
public LancerAuto(Lanceur lanceur) {
this.lanceur = lanceur;
timer = new Timer();
addRequirements(lanceur);
// Use addRequirements() here to declare subsystem dependencies.
}
// Called when the command is initially scheduled.
@Override
public void initialize() {
timer.start();
}
// Called every time the scheduler runs while the command is scheduled.
@Override
public void execute() {
lanceur.Lancer(0.5);
if(timer.get() > 1){
lanceur.Demeler(0.1);
}
}
// Called once the command ends or is interrupted.
@Override
public void end(boolean interrupted) {
lanceur.Lancer(0);
lanceur.Demeler(0);
timer.reset();
timer.stop();
}
// Returns true when the command should end.
@Override
public boolean isFinished() {
return timer.get() > 3;
//return false;
}
}

85
src/main/java/frc/robot/commands/ModeAuto/RetourMilieuDroite.java
View File

@@ -4,12 +4,41 @@
package frc.robot.commands.ModeAuto;
import static edu.wpi.first.units.Units.*;
import java.util.Optional;
import com.ctre.phoenix6.hardware.Pigeon2;
import com.ctre.phoenix6.swerve.SwerveModule.DriveRequestType;
import com.ctre.phoenix6.swerve.SwerveRequest;
import edu.wpi.first.wpilibj.DriverStation;
import edu.wpi.first.wpilibj.DriverStation.Alliance;
import edu.wpi.first.wpilibj2.command.Command;
import frc.robot.Limelight3G;
import frc.robot.generated.TunerConstants;
import frc.robot.subsystems.CommandSwerveDrivetrain;
/* You should consider using the more terse Command factories API instead https://docs.wpilib.org/en/stable/docs/software/commandbased/organizing-command-based.html#defining-commands */
public class RetourMilieuDroite extends Command {
CommandSwerveDrivetrain drivetrain;
Limelight3G limelight3g;
double botx;
double boty;
double x;
double y;
double angle;
private double MaxSpeed = TunerConstants.kSpeedAt12Volts.in(MetersPerSecond);
private double MaxAngularRate = RotationsPerSecond.of(0.75).in(RadiansPerSecond);
Optional<Alliance> alliance = DriverStation.getAlliance();
private final SwerveRequest.FieldCentric drive = new SwerveRequest.FieldCentric()
.withDeadband(MaxSpeed * 0.1).withRotationalDeadband(MaxAngularRate * 0.1)
.withDriveRequestType(DriveRequestType.OpenLoopVoltage);
/** Creates a new RetourMilieu. */
public RetourMilieuDroite() {
public RetourMilieuDroite(CommandSwerveDrivetrain drivetrain, Limelight3G limelight3g) {
this.drivetrain = drivetrain;
this.limelight3g = limelight3g;
addRequirements(drivetrain);
// Use addRequirements() here to declare subsystem dependencies.
}
@@ -19,15 +48,63 @@ public class RetourMilieuDroite extends Command {
// Called every time the scheduler runs while the command is scheduled.
@Override
public void execute() {}
public void execute() {
if(angle < 0){
angle = angle + 360;
}
if(alliance.get() == Alliance.Blue){
y = 0.639;
x = 2.305;
angle = 0;
if(limelight3g.getV()){
if(drivetrain.getPigeon2().getYaw().getValueAsDouble() >355 || drivetrain.getPigeon2().getYaw().getValueAsDouble() < 5){
if((y-boty < 0.05 && y-boty >-0.05) && (x-botx < 0.05 && x-botx > -0.05)){
drivetrain.setControl(drive.withVelocityX(0).withVelocityY(0));
}
else{
if(botx < 6){
drivetrain.setControl(drive.withVelocityX(y-boty));
}
else{
drivetrain.setControl(drive.withVelocityX(y-boty).withVelocityY(x-botx));
}
}
}
else{
if(drivetrain.getPigeon2().getYaw().getValueAsDouble() >angle && drivetrain.getPigeon2().getYaw().getValueAsDouble() <angle +180){
drivetrain.setControl(drive.withRotationalRate(0.5));
}
else if(drivetrain.getPigeon2().getYaw().getValueAsDouble() >=angle +180){
drivetrain.setControl(drive.withRotationalRate(-0.5));
}
}
}
}
else{
y = 7.380;
x = 13.963;
angle = 180;
if(limelight3g.getV()){
}
if(drivetrain.getPigeon2().getYaw().getValueAsDouble() >0 && drivetrain.getPigeon2().getYaw().getValueAsDouble() <180){
drivetrain.setControl(drive.withRotationalRate(0.5));
}
else if(drivetrain.getPigeon2().getYaw().getValueAsDouble() >180){
drivetrain.setControl(drive.withRotationalRate(-0.5));
}
}
}
// Called once the command ends or is interrupted.
@Override
public void end(boolean interrupted) {}
public void end(boolean interrupted) {
drivetrain.setControl(drive.withVelocityX(0).withVelocityY(0));
}
// Returns true when the command should end.
@Override
public boolean isFinished() {
return false;
return (y-boty < 0.05 && y-boty >-0.05) && (x-botx < 0.05 && x-botx > -0.05);
}
}

109
src/main/java/frc/robot/commands/ModeAuto/RetourMilieuGauche.java
View File

@@ -4,12 +4,41 @@
package frc.robot.commands.ModeAuto;
import static edu.wpi.first.units.Units.*;
import java.util.Optional;
import com.ctre.phoenix6.hardware.Pigeon2;
import com.ctre.phoenix6.swerve.SwerveModule.DriveRequestType;
import com.ctre.phoenix6.swerve.SwerveRequest;
import edu.wpi.first.wpilibj.DriverStation;
import edu.wpi.first.wpilibj.DriverStation.Alliance;
import edu.wpi.first.wpilibj2.command.Command;
import frc.robot.Limelight3G;
import frc.robot.generated.TunerConstants;
import frc.robot.subsystems.CommandSwerveDrivetrain;
/* You should consider using the more terse Command factories API instead https://docs.wpilib.org/en/stable/docs/software/commandbased/organizing-command-based.html#defining-commands */
public class RetourMilieuGauche extends Command {
/** Creates a new RetourMilieuGauche. */
public RetourMilieuGauche() {
CommandSwerveDrivetrain drivetrain;
Limelight3G limelight3g;
double botx;
double boty;
double x;
double y;
double angle;
private double MaxSpeed = TunerConstants.kSpeedAt12Volts.in(MetersPerSecond);
private double MaxAngularRate = RotationsPerSecond.of(0.75).in(RadiansPerSecond);
Optional<Alliance> alliance = DriverStation.getAlliance();
private final SwerveRequest.FieldCentric drive = new SwerveRequest.FieldCentric()
.withDeadband(MaxSpeed * 0.1).withRotationalDeadband(MaxAngularRate * 0.1)
.withDriveRequestType(DriveRequestType.OpenLoopVoltage);
/** Creates a new RetourMilieu. */
public RetourMilieuGauche(CommandSwerveDrivetrain drivetrain, Limelight3G limelight3g) {
this.drivetrain = drivetrain;
this.limelight3g = limelight3g;
addRequirements(drivetrain);
// Use addRequirements() here to declare subsystem dependencies.
}
@@ -19,15 +48,85 @@ public class RetourMilieuGauche extends Command {
// Called every time the scheduler runs while the command is scheduled.
@Override
public void execute() {}
public void execute() {
if(angle < 0){
angle = angle + 360;
}
double[] BotPose = new double[6];
BotPose = limelight3g.getBotPoseBlue();
botx = BotPose[0];
boty = BotPose[1];
if(alliance.get() == Alliance.Blue){
y = 7.380;
x = 2.305;
angle = 0;
if(limelight3g.getV()){
if(drivetrain.getPigeon2().getYaw().getValueAsDouble() >355 || drivetrain.getPigeon2().getYaw().getValueAsDouble() < 5){
if((y-boty < 0.05 && y-boty >-0.05) && (x-botx < 0.05 && x-botx > -0.05)){
drivetrain.setControl(drive.withVelocityX(0).withVelocityY(0));
}
else{
if(botx < 6){
drivetrain.setControl(drive.withVelocityX(y-boty));
}
else{
drivetrain.setControl(drive.withVelocityX(y-boty).withVelocityY(x-botx));
}
}
}
else{
if(drivetrain.getPigeon2().getYaw().getValueAsDouble() >angle && drivetrain.getPigeon2().getYaw().getValueAsDouble() <angle +180){
drivetrain.setControl(drive.withRotationalRate(0.5));
}
else if(drivetrain.getPigeon2().getYaw().getValueAsDouble() >=angle +180){
drivetrain.setControl(drive.withRotationalRate(-0.5));
}
}
}
}
else{
y = 0.639;
x = 13.963;
angle = 180;
if(limelight3g.getV()){
if(drivetrain.getPigeon2().getYaw().getValueAsDouble() >175 && drivetrain.getPigeon2().getYaw().getValueAsDouble() < 185){
if((y-boty < 0.05 && y-boty >-0.05) && (x-botx < 0.05 && x-botx > -0.05)){
drivetrain.setControl(drive.withVelocityX(0).withVelocityY(0));
}
else{
if(botx > 10){
drivetrain.setControl(drive.withVelocityX(y-boty));
}
else{
drivetrain.setControl(drive.withVelocityX(y-boty).withVelocityY(x-botx));
}
}
}
else{
if(drivetrain.getPigeon2().getYaw().getValueAsDouble() >0 && drivetrain.getPigeon2().getYaw().getValueAsDouble() <180){
drivetrain.setControl(drive.withRotationalRate(-0.5));
}
else if(drivetrain.getPigeon2().getYaw().getValueAsDouble() >=180){
drivetrain.setControl(drive.withRotationalRate(0.5));
}
}
}
}
}
// Called once the command ends or is interrupted.
@Override
public void end(boolean interrupted) {}
public void end(boolean interrupted) {
drivetrain.setControl(drive.withVelocityX(0).withVelocityY(0));
}
// Returns true when the command should end.
@Override
public boolean isFinished() {
return false;
return (y-boty < 0.05 && y-boty >-0.05) && (x-botx < 0.05 && x-botx > -0.05);
}
}

30
src/main/java/frc/robot/commands/ModeAuto/TournerA180.java → src/main/java/frc/robot/commands/ModeAuto/TournerVersMur.java
View File

@@ -8,22 +8,28 @@ import com.ctre.phoenix6.swerve.SwerveModule.DriveRequestType;
import com.ctre.phoenix6.hardware.Pigeon2;
import com.ctre.phoenix6.swerve.SwerveRequest;
import edu.wpi.first.wpilibj.DriverStation;
import edu.wpi.first.wpilibj.DriverStation.Alliance;
import edu.wpi.first.wpilibj2.command.Command;
import frc.robot.generated.TunerConstants;
import frc.robot.subsystems.CommandSwerveDrivetrain;
import static edu.wpi.first.units.Units.*;
import java.util.Optional;
/* You should consider using the more terse Command factories API instead https://docs.wpilib.org/en/stable/docs/software/commandbased/organizing-command-based.html#defining-commands */
public class TournerA180 extends Command {
public class TournerVersMur extends Command {
CommandSwerveDrivetrain drivetrain;
Optional<Alliance> alliance = DriverStation.getAlliance();
private double MaxSpeed = TunerConstants.kSpeedAt12Volts.in(MetersPerSecond);
private double MaxAngularRate = RotationsPerSecond.of(0.75).in(RadiansPerSecond);
Pigeon2 pigeon2;
double force;
double angle;
private final SwerveRequest.FieldCentric drive = new SwerveRequest.FieldCentric()
.withDeadband(MaxSpeed * 0.1).withRotationalDeadband(MaxAngularRate * 0.1)
.withDriveRequestType(DriveRequestType.OpenLoopVoltage);
/** Creates a new TournerAZero. */
public TournerA180(CommandSwerveDrivetrain drivetrain) {
public TournerVersMur(CommandSwerveDrivetrain drivetrain) {
this.drivetrain = drivetrain;
addRequirements(drivetrain);
// Use addRequirements() here to declare subsystem dependencies.
@@ -36,11 +42,19 @@ public class TournerA180 extends Command {
// Called every time the scheduler runs while the command is scheduled.
@Override
public void execute() {
if(pigeon2.getYaw().getValueAsDouble() >0 && pigeon2.getYaw().getValueAsDouble() <180){
drivetrain.setControl(drive.withRotationalRate(-0.5));
if(alliance.get() == Alliance.Blue){
force = 0.5;
angle = 0;
}
else if(pigeon2.getYaw().getValueAsDouble() >180){
drivetrain.setControl(drive.withRotationalRate(0.5));
else{
force = -0.5;
angle = 180;
}
if(drivetrain.getPigeon2().getYaw().getValueAsDouble()>0 && drivetrain.getPigeon2().getYaw().getValueAsDouble()<180){
drivetrain.setControl(drive.withRotationalRate(force*180/Math.PI));
}
else if(drivetrain.getPigeon2().getYaw().getValueAsDouble()>180){
drivetrain.setControl(drive.withRotationalRate(-force*180/Math.PI));
}
}
@@ -51,6 +65,6 @@ public class TournerA180 extends Command {
// Returns true when the command should end.
@Override
public boolean isFinished() {
return pigeon2.getYaw().getValueAsDouble() > 165 && pigeon2.getYaw().getValueAsDouble() < 195;
return drivetrain.getPigeon2().getYaw().getValueAsDouble()> angle && drivetrain.getPigeon2().getYaw().getValueAsDouble()< angle + 10;
}
}

32
src/main/java/frc/robot/commands/ModeAuto/TournerAZero.java → src/main/java/frc/robot/commands/ModeAuto/TournerVersReservoir.java
View File

@@ -8,22 +8,28 @@ import com.ctre.phoenix6.swerve.SwerveModule.DriveRequestType;
import com.ctre.phoenix6.hardware.Pigeon2;
import com.ctre.phoenix6.swerve.SwerveRequest;
import edu.wpi.first.wpilibj.DriverStation;
import edu.wpi.first.wpilibj.DriverStation.Alliance;
import edu.wpi.first.wpilibj2.command.Command;
import frc.robot.generated.TunerConstants;
import frc.robot.subsystems.CommandSwerveDrivetrain;
import static edu.wpi.first.units.Units.*;
import java.util.Optional;
/* You should consider using the more terse Command factories API instead https://docs.wpilib.org/en/stable/docs/software/commandbased/organizing-command-based.html#defining-commands */
public class TournerAZero extends Command {
public class TournerVersReservoir extends Command {
CommandSwerveDrivetrain drivetrain;
Optional<Alliance> alliance = DriverStation.getAlliance();
private double MaxSpeed = TunerConstants.kSpeedAt12Volts.in(MetersPerSecond);
private double MaxAngularRate = RotationsPerSecond.of(0.75).in(RadiansPerSecond);
Pigeon2 pigeon2;
double force;
double angle;
private final SwerveRequest.FieldCentric drive = new SwerveRequest.FieldCentric()
.withDeadband(MaxSpeed * 0.1).withRotationalDeadband(MaxAngularRate * 0.1)
.withDriveRequestType(DriveRequestType.OpenLoopVoltage);
/** Creates a new TournerAZero. */
public TournerAZero(CommandSwerveDrivetrain drivetrain) {
public TournerVersReservoir(CommandSwerveDrivetrain drivetrain) {
this.drivetrain = drivetrain;
addRequirements(drivetrain);
// Use addRequirements() here to declare subsystem dependencies.
@@ -36,11 +42,21 @@ public class TournerAZero extends Command {
// Called every time the scheduler runs while the command is scheduled.
@Override
public void execute() {
if(pigeon2.getYaw().getValueAsDouble() >0 && pigeon2.getYaw().getValueAsDouble() <180){
drivetrain.setControl(drive.withRotationalRate(0.5));
if(alliance.isPresent()){
if(alliance.get() == Alliance.Blue){
force = 0.5;
angle = 180;
}
else if(pigeon2.getYaw().getValueAsDouble() >180){
drivetrain.setControl(drive.withRotationalRate(-0.5));
else{
force = -0.5;
angle = 0;
}
}
if(drivetrain.getPigeon2().getYaw().getValueAsDouble() >0 && drivetrain.getPigeon2().getYaw().getValueAsDouble() <180){
drivetrain.setControl(drive.withRotationalRate(-force*180/Math.PI));
}
else if(drivetrain.getPigeon2().getYaw().getValueAsDouble() >180){
drivetrain.setControl(drive.withRotationalRate(force*180/Math.PI));
}
}
@@ -51,6 +67,6 @@ public class TournerAZero extends Command {
// Returns true when the command should end.
@Override
public boolean isFinished() {
return pigeon2.getYaw().getValueAsDouble() > 345 || pigeon2.getYaw().getValueAsDouble() < 15;
return drivetrain.getPigeon2().getYaw().getValueAsDouble() > angle && drivetrain.getPigeon2().getYaw().getValueAsDouble() < angle + 10;
}
}

46
src/main/java/frc/robot/commands/ModeOposer.java
View File

@@ -1,46 +0,0 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot.commands;
import edu.wpi.first.wpilibj2.command.Command;
import frc.robot.subsystems.Balayeuse;
import frc.robot.subsystems.Lanceur;
/* You should consider using the more terse Command factories API instead https://docs.wpilib.org/en/stable/docs/software/commandbased/organizing-command-based.html#defining-commands */
public class ModeOposer extends Command {
private Lanceur lanceur;
private Balayeuse balayeuse;
/** Creates a new Lancer. */
public ModeOposer(Lanceur lanceur, Balayeuse balayeuse) {
this.lanceur = lanceur;
this.balayeuse = balayeuse;
addRequirements(lanceur ,balayeuse);
// Use addRequirements() here to declare subsystem dependencies.
}
// Called when the command is initially scheduled.
@Override
public void initialize() {
}
// Called every time the scheduler runs while the command is scheduled.
@Override
public void execute() {
lanceur.Lancer(-0.2);
lanceur.Demeler(-0.2);
}
// Called once the command ends or is interrupted.
@Override
public void end(boolean interrupted) {
lanceur.Demeler(0);
lanceur.Lancer(0);
}
// Returns true when the command should end.
@Override
public boolean isFinished() {
return false;
}
}

42
src/main/java/frc/robot/commands/ModeOposerDemeleur.java
View File

@@ -1,42 +0,0 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot.commands;
import edu.wpi.first.wpilibj2.command.Command;
import frc.robot.subsystems.Lanceur;
/* You should consider using the more terse Command factories API instead https://docs.wpilib.org/en/stable/docs/software/commandbased/organizing-command-based.html#defining-commands */
public class ModeOposerDemeleur extends Command {
private Lanceur lanceur;
/** Creates a new Lancer. */
public ModeOposerDemeleur(Lanceur lanceur) {
this.lanceur = lanceur;
addRequirements(lanceur);
// Use addRequirements() here to declare subsystem dependencies.
}
// Called when the command is initially scheduled.
@Override
public void initialize() {
}
// Called every time the scheduler runs while the command is scheduled.
@Override
public void execute() {
lanceur.Demeler(-0.2);
}
// Called once the command ends or is interrupted.
@Override
public void end(boolean interrupted) {
lanceur.Demeler(0);
lanceur.Lancer(0);
}
// Returns true when the command should end.
@Override
public boolean isFinished() {
return false;
}
}

47
src/main/java/frc/robot/commands/MonterBalyeuse.java
View File

@@ -1,47 +0,0 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot.commands;
import edu.wpi.first.wpilibj2.command.Command;
import frc.robot.subsystems.Balayeuse;
/* You should consider using the more terse Command factories API instead https://docs.wpilib.org/en/stable/docs/software/commandbased/organizing-command-based.html#defining-commands */
public class MonterBalyeuse extends Command {
private Balayeuse balayeuse;
/** Creates a new MonterBalyeuse. */
public MonterBalyeuse(Balayeuse balayeuse) {
this.balayeuse = balayeuse;
addRequirements(balayeuse);
// Use addRequirements() here to declare subsystem dependencies.
}
// Called when the command is initially scheduled.
@Override
public void initialize() {}
// Called every time the scheduler runs while the command is scheduled.
@Override
public void execute() {
if(!balayeuse.GetLimiSwtich()){
balayeuse.Pivoter(0.2);
}
else{
balayeuse.Reset();
balayeuse.Pivoter(0);
}
}
// Called once the command ends or is interrupted.
@Override
public void end(boolean interrupted) {
balayeuse.Pivoter(0);
}
// Returns true when the command should end.
@Override
public boolean isFinished() {
return false;
}
}

47
src/main/java/frc/robot/commands/MonterGrimpeur.java
View File

@@ -1,47 +0,0 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot.commands;
import edu.wpi.first.wpilibj2.command.Command;
import frc.robot.subsystems.Grimpeur;
/* You should consider using the more terse Command factories API instead https://docs.wpilib.org/en/stable/docs/software/commandbased/organizing-command-based.html#defining-commands */
public class MonterGrimpeur extends Command {
private Grimpeur grimpeur;
/** Creates a new MonterGrimpeur. */
public MonterGrimpeur(Grimpeur grimpeur) {
this.grimpeur = grimpeur;
// Use addRequirements() here to declare subsystem dependencies.
}
// Called when the command is initially scheduled.
@Override
public void initialize() {}
// Called every time the scheduler runs while the command is scheduled.
@Override
public void execute() {
if(Math.abs(grimpeur.Position()) < grimpeur.PositionFinal()){
grimpeur.Grimper(0.3);
System.out.println("monte");
}
else {
grimpeur.Grimper(0);
}
}
// Called once the command ends or is interrupted.
@Override
public void end(boolean interrupted) {
grimpeur.Grimper(0);
}
// Returns true when the command should end.
@Override
public boolean isFinished() {
return false;
}
}

3
src/main/java/frc/robot/generated/TunerConstants.java
View File

@@ -82,7 +82,8 @@ public class TunerConstants {
private static final double kDriveGearRatio = 6.122448979591837;
private static final double kSteerGearRatio = 21.428571428571427;
private static final Distance kWheelRadius = Inches.of(3.895);
// private static final Distance kWheelRadius = Inches.of(3.895);
private static final Distance kWheelRadius = Inches.of(2);
private static final boolean kInvertLeftSide = false;
private static final boolean kInvertRightSide = true;

63
src/main/java/frc/robot/subsystems/Balayeuse.java
View File

@@ -5,59 +5,42 @@
package frc.robot.subsystems;
import com.revrobotics.spark.SparkFlex;
import com.revrobotics.spark.SparkMax;
import com.revrobotics.spark.SparkLowLevel.MotorType;
import edu.wpi.first.networktables.GenericEntry;
import edu.wpi.first.wpilibj.DigitalInput;
import edu.wpi.first.wpilibj.Timer;
import edu.wpi.first.wpilibj.shuffleboard.Shuffleboard;
import edu.wpi.first.wpilibj.shuffleboard.ShuffleboardTab;
import edu.wpi.first.wpilibj2.command.Command;
import edu.wpi.first.wpilibj2.command.SubsystemBase;
public class Balayeuse extends SubsystemBase {
ShuffleboardTab teb = Shuffleboard.getTab("teb");
SparkFlex Balaye1 = new SparkFlex(2, MotorType.kBrushless);
SparkFlex Balaye2 = new SparkFlex(20, MotorType.kBrushless);
SparkMax Pivot = new SparkMax(8, MotorType.kBrushless);
DigitalInput limit = new DigitalInput(9);
private GenericEntry EncodeurBalayeuse =
teb.add("Position bas balayeuse", 10).getEntry();
private GenericEntry AmpBaleyeuse =
teb.add("Ampérage Baleyeuse", 40).getEntry();
public void Balayer(double vitesse){
Balaye1.set(vitesse);
Balaye2.set(vitesse);
SparkFlex moteurBas = new SparkFlex(2, MotorType.kBrushless);
SparkFlex moteurHaut = new SparkFlex(20, MotorType.kBrushless);
private final double vitesseMoteurBas = -0.5;
private final double vitesseMoteurHaut = -0.2;
public Command balaye(double vitesseBas, double vitesseHaut) {
return startEnd(
() -> {
moteurBas.set(vitesseBas);
moteurHaut.set(vitesseHaut);
}, () -> {
moteurBas.set(0);
moteurHaut.set(0);
});
}
public void Pivoter(double vitesse){
Pivot.set(vitesse);
public Command aspirer() {
return balaye(vitesseMoteurBas, vitesseMoteurHaut);
}
public double Distance(){
return Pivot.getEncoder().getPosition();
}
public void Reset(){
Pivot.getEncoder().setPosition(0);
}
public boolean GetLimiSwtich(){
return !limit.get();
}
public double Amp(){
return Balaye2.getOutputCurrent();
}
public double AmpMax(){
return AmpBaleyeuse.getDouble(40);
}
public void Temps(){
Timer timer = new Timer();
timer.start();
}
public double EncodeurBalayeuse(){
return EncodeurBalayeuse.getDouble(10);
public Command ejecter() {
return balaye(-vitesseMoteurBas, -vitesseMoteurHaut);
}
/** Creates a new Balayeuse. */
public Balayeuse() {
teb.addBoolean("limit balayeuse", this::GetLimiSwtich);
teb.addDouble("encodeur balayeuse", this::Distance);
}
@Override

324
src/main/java/frc/robot/subsystems/CommandSwerveDrivetrain.java
View File

@@ -1,15 +1,20 @@
package frc.robot.subsystems;
import static edu.wpi.first.units.Units.*;
import static edu.wpi.first.units.Units.Degrees;
import static edu.wpi.first.units.Units.Second;
import static edu.wpi.first.units.Units.Volts;
import java.util.Optional;
import java.util.function.Supplier;
import com.ctre.phoenix6.SignalLogger;
import com.ctre.phoenix6.Utils;
import com.ctre.phoenix6.hardware.Pigeon2;
import com.ctre.phoenix6.swerve.SwerveDrivetrainConstants;
import com.ctre.phoenix6.swerve.SwerveModule.DriveRequestType;
import com.ctre.phoenix6.swerve.SwerveModuleConstants;
import com.ctre.phoenix6.swerve.SwerveRequest;
import com.ctre.phoenix6.swerve.SwerveRequest.FieldCentricFacingAngle;
import com.pathplanner.lib.auto.AutoBuilder;
import com.pathplanner.lib.config.PIDConstants;
import com.pathplanner.lib.config.RobotConfig;
@@ -18,6 +23,7 @@ import com.pathplanner.lib.controllers.PPHolonomicDriveController;
import edu.wpi.first.math.Matrix;
import edu.wpi.first.math.geometry.Pose2d;
import edu.wpi.first.math.geometry.Rotation2d;
import edu.wpi.first.math.geometry.Translation2d;
import edu.wpi.first.math.kinematics.ChassisSpeeds;
import edu.wpi.first.math.numbers.N1;
import edu.wpi.first.math.numbers.N3;
@@ -28,7 +34,7 @@ import edu.wpi.first.wpilibj.RobotController;
import edu.wpi.first.wpilibj2.command.Command;
import edu.wpi.first.wpilibj2.command.Subsystem;
import edu.wpi.first.wpilibj2.command.sysid.SysIdRoutine;
import frc.robot.Coordinates;
import frc.robot.generated.TunerConstants.TunerSwerveDrivetrain;
/**
@@ -42,6 +48,7 @@ public class CommandSwerveDrivetrain extends TunerSwerveDrivetrain implements Su
private static final double kSimLoopPeriod = 0.004; // 4 ms
private Notifier m_simNotifier = null;
private double m_lastSimTime;
Pigeon2 pigeon2;
/* Blue alliance sees forward as 0 degrees (toward red alliance wall) */
private static final Rotation2d kBlueAlliancePerspectiveRotation = Rotation2d.kZero;
@@ -54,107 +61,107 @@ public class CommandSwerveDrivetrain extends TunerSwerveDrivetrain implements Su
private final SwerveRequest.SysIdSwerveSteerGains m_steerCharacterization = new SwerveRequest.SysIdSwerveSteerGains();
private final SwerveRequest.SysIdSwerveRotation m_rotationCharacterization = new SwerveRequest.SysIdSwerveRotation();
/* SysId routine for characterizing translation. This is used to find PID gains for the drive motors. */
/*
* SysId routine for characterizing translation. This is used to find PID gains
* for the drive motors.
*/
@SuppressWarnings("unused")
private final SysIdRoutine m_sysIdRoutineTranslation = new SysIdRoutine(
new SysIdRoutine.Config(
null, // Use default ramp rate (1 V/s)
Volts.of(4), // Reduce dynamic step voltage to 4 V to prevent brownout
null, // Use default timeout (10 s)
// Log state with SignalLogger class
state -> SignalLogger.writeString("SysIdTranslation_State", state.toString())
),
new SysIdRoutine.Mechanism(
output -> setControl(m_translationCharacterization.withVolts(output)),
null,
this
)
);
new SysIdRoutine.Config(
null, // Use default ramp rate (1 V/s)
Volts.of(4), // Reduce dynamic step voltage to 4 V to prevent brownout
null, // Use default timeout (10 s)
// Log state with SignalLogger class
state -> SignalLogger.writeString("SysIdTranslation_State", state.toString())),
new SysIdRoutine.Mechanism(
output -> setControl(m_translationCharacterization.withVolts(output)),
null,
this));
/* SysId routine for characterizing steer. This is used to find PID gains for the steer motors. */
/*
* SysId routine for characterizing steer. This is used to find PID gains for
* the steer motors.
*/
@SuppressWarnings("unused")
private final SysIdRoutine m_sysIdRoutineSteer = new SysIdRoutine(
new SysIdRoutine.Config(
null, // Use default ramp rate (1 V/s)
Volts.of(7), // Use dynamic voltage of 7 V
null, // Use default timeout (10 s)
// Log state with SignalLogger class
state -> SignalLogger.writeString("SysIdSteer_State", state.toString())
),
new SysIdRoutine.Mechanism(
volts -> setControl(m_steerCharacterization.withVolts(volts)),
null,
this
)
);
new SysIdRoutine.Config(
null, // Use default ramp rate (1 V/s)
Volts.of(7), // Use dynamic voltage of 7 V
null, // Use default timeout (10 s)
// Log state with SignalLogger class
state -> SignalLogger.writeString("SysIdSteer_State", state.toString())),
new SysIdRoutine.Mechanism(
volts -> setControl(m_steerCharacterization.withVolts(volts)),
null,
this));
/*
* SysId routine for characterizing rotation.
* This is used to find PID gains for the FieldCentricFacingAngle HeadingController.
* See the documentation of SwerveRequest.SysIdSwerveRotation for info on importing the log to SysId.
* This is used to find PID gains for the FieldCentricFacingAngle
* HeadingController.
* See the documentation of SwerveRequest.SysIdSwerveRotation for info on
* importing the log to SysId.
*/
@SuppressWarnings("unused")
private final SysIdRoutine m_sysIdRoutineRotation = new SysIdRoutine(
new SysIdRoutine.Config(
/* This is in radians per second², but SysId only supports "volts per second" */
Volts.of(Math.PI / 6).per(Second),
/* This is in radians per second, but SysId only supports "volts" */
Volts.of(Math.PI),
null, // Use default timeout (10 s)
// Log state with SignalLogger class
state -> SignalLogger.writeString("SysIdRotation_State", state.toString())
),
new SysIdRoutine.Mechanism(
output -> {
/* output is actually radians per second, but SysId only supports "volts" */
setControl(m_rotationCharacterization.withRotationalRate(output.in(Volts)));
/* also log the requested output for SysId */
SignalLogger.writeDouble("Rotational_Rate", output.in(Volts));
},
null,
this
)
);
/* The SysId routine to test */
private SysIdRoutine m_sysIdRoutineToApply = m_sysIdRoutineTranslation;
new SysIdRoutine.Config(
/* This is in radians per second², but SysId only supports "volts per second" */
Volts.of(Math.PI / 6).per(Second),
/* This is in radians per second, but SysId only supports "volts" */
Volts.of(Math.PI),
null, // Use default timeout (10 s)
// Log state with SignalLogger class
state -> SignalLogger.writeString("SysIdRotation_State", state.toString())),
new SysIdRoutine.Mechanism(
output -> {
/* output is actually radians per second, but SysId only supports "volts" */
setControl(m_rotationCharacterization.withRotationalRate(output.in(Volts)));
/* also log the requested output for SysId */
SignalLogger.writeDouble("Rotational_Rate", output.in(Volts));
},
null,
this));
private final SwerveRequest.ApplyRobotSpeeds m_pathApplyRobotSpeeds = new SwerveRequest.ApplyRobotSpeeds();
private void configureAutoBuilder() {
private void configureAutoBuilder() {
try {
RobotConfig config = RobotConfig.fromGUISettings();
AutoBuilder.configure(
() -> getState().Pose,
this::resetPose,
() -> getState().Speeds,
(speeds, feedforwards) -> setControl(
m_pathApplyRobotSpeeds.withSpeeds(ChassisSpeeds.discretize(speeds, 0.020))
.withWheelForceFeedforwardsX(feedforwards.robotRelativeForcesXNewtons())
.withWheelForceFeedforwardsY(feedforwards.robotRelativeForcesYNewtons())
),
new PPHolonomicDriveController(
new PIDConstants(10, 0, 0),
new PIDConstants(7, 0, 0)
),
config,
() -> DriverStation.getAlliance().orElse(Alliance.Blue) == Alliance.Red,
this
);
() -> getState().Pose,
this::resetPose,
() -> getState().Speeds,
(speeds, feedforwards) -> setControl(
m_pathApplyRobotSpeeds.withSpeeds(ChassisSpeeds.discretize(speeds, 0.020))
.withWheelForceFeedforwardsX(feedforwards.robotRelativeForcesXNewtons())
.withWheelForceFeedforwardsY(feedforwards.robotRelativeForcesYNewtons())),
new PPHolonomicDriveController(
new PIDConstants(10, 0, 0),
new PIDConstants(7, 0, 0)),
config,
() -> DriverStation.getAlliance().orElse(Alliance.Blue) == Alliance.Red,
this);
} catch (Exception ex) {
DriverStation.reportError("Failed to load PathPlanner config and configure AutoBuilder", ex.getStackTrace());
DriverStation.reportError("Failed to load PathPlanner config and configure AutoBuilder",
ex.getStackTrace());
}
}
/**
* Constructs a CTRE SwerveDrivetrain using the specified constants.
* <p>
* This constructs the underlying hardware devices, so users should not construct
* the devices themselves. If they need the devices, they can access them through
* This constructs the underlying hardware devices, so users should not
* construct
* the devices themselves. If they need the devices, they can access them
* through
* getters in the classes.
*
* @param drivetrainConstants Drivetrain-wide constants for the swerve drive
* @param modules Constants for each specific module
* @param drivetrainConstants Drivetrain-wide constants for the swerve drive
* @param modules Constants for each specific module
*/
public CommandSwerveDrivetrain(
SwerveDrivetrainConstants drivetrainConstants,
SwerveModuleConstants<?, ?, ?>... modules
) {
SwerveDrivetrainConstants drivetrainConstants,
SwerveModuleConstants<?, ?, ?>... modules) {
super(drivetrainConstants, modules);
if (Utils.isSimulation()) {
startSimThread();
@@ -165,8 +172,10 @@ public class CommandSwerveDrivetrain extends TunerSwerveDrivetrain implements Su
/**
* Constructs a CTRE SwerveDrivetrain using the specified constants.
* <p>
* This constructs the underlying hardware devices, so users should not construct
* the devices themselves. If they need the devices, they can access them through
* This constructs the underlying hardware devices, so users should not
* construct
* the devices themselves. If they need the devices, they can access them
* through
* getters in the classes.
*
* @param drivetrainConstants Drivetrain-wide constants for the swerve drive
@@ -176,10 +185,9 @@ public class CommandSwerveDrivetrain extends TunerSwerveDrivetrain implements Su
* @param modules Constants for each specific module
*/
public CommandSwerveDrivetrain(
SwerveDrivetrainConstants drivetrainConstants,
double odometryUpdateFrequency,
SwerveModuleConstants<?, ?, ?>... modules
) {
SwerveDrivetrainConstants drivetrainConstants,
double odometryUpdateFrequency,
SwerveModuleConstants<?, ?, ?>... modules) {
super(drivetrainConstants, odometryUpdateFrequency, modules);
if (Utils.isSimulation()) {
startSimThread();
@@ -190,30 +198,38 @@ public class CommandSwerveDrivetrain extends TunerSwerveDrivetrain implements Su
/**
* Constructs a CTRE SwerveDrivetrain using the specified constants.
* <p>
* This constructs the underlying hardware devices, so users should not construct
* the devices themselves. If they need the devices, they can access them through
* This constructs the underlying hardware devices, so users should not
* construct
* the devices themselves. If they need the devices, they can access them
* through
* getters in the classes.
*
* @param drivetrainConstants Drivetrain-wide constants for the swerve drive
* @param drivetrainConstants Drivetrain-wide constants for the swerve
* drive
* @param odometryUpdateFrequency The frequency to run the odometry loop. If
* unspecified or set to 0 Hz, this is 250 Hz on
* unspecified or set to 0 Hz, this is 250 Hz
* on
* CAN FD, and 100 Hz on CAN 2.0.
* @param odometryStandardDeviation The standard deviation for odometry calculation
* in the form [x, y, theta]ᵀ, with units in meters
* @param odometryStandardDeviation The standard deviation for odometry
* calculation
* in the form [x, y, theta]ᵀ, with units in
* meters
* and radians
* @param visionStandardDeviation The standard deviation for vision calculation
* in the form [x, y, theta]ᵀ, with units in meters
* @param visionStandardDeviation The standard deviation for vision
* calculation
* in the form [x, y, theta]ᵀ, with units in
* meters
* and radians
* @param modules Constants for each specific module
*/
public CommandSwerveDrivetrain(
SwerveDrivetrainConstants drivetrainConstants,
double odometryUpdateFrequency,
Matrix<N3, N1> odometryStandardDeviation,
Matrix<N3, N1> visionStandardDeviation,
SwerveModuleConstants<?, ?, ?>... modules
) {
super(drivetrainConstants, odometryUpdateFrequency, odometryStandardDeviation, visionStandardDeviation, modules);
SwerveDrivetrainConstants drivetrainConstants,
double odometryUpdateFrequency,
Matrix<N3, N1> odometryStandardDeviation,
Matrix<N3, N1> visionStandardDeviation,
SwerveModuleConstants<?, ?, ?>... modules) {
super(drivetrainConstants, odometryUpdateFrequency, odometryStandardDeviation, visionStandardDeviation,
modules);
if (Utils.isSimulation()) {
startSimThread();
}
@@ -221,7 +237,8 @@ public class CommandSwerveDrivetrain extends TunerSwerveDrivetrain implements Su
}
/**
* Returns a command that applies the specified control request to this swerve drivetrain.
* Returns a command that applies the specified control request to this swerve
* drivetrain.
*
* @param request Function returning the request to apply
* @return Command to run
@@ -229,37 +246,26 @@ public class CommandSwerveDrivetrain extends TunerSwerveDrivetrain implements Su
public Command applyRequest(Supplier<SwerveRequest> request) {
return run(() -> this.setControl(request.get()));
}
public Command sysIdQuasistatic(SysIdRoutine.Direction direction) {
return m_sysIdRoutineToApply.quasistatic(direction);
}
/**
* Runs the SysId Dynamic test in the given direction for the routine
* specified by {@link #m_sysIdRoutineToApply}.
*
* @param direction Direction of the SysId Dynamic test
* @return Command to run
*/
public Command sysIdDynamic(SysIdRoutine.Direction direction) {
return m_sysIdRoutineToApply.dynamic(direction);
}
@Override
public void periodic() {
/*
* Periodically try to apply the operator perspective.
* If we haven't applied the operator perspective before, then we should apply it regardless of DS state.
* This allows us to correct the perspective in case the robot code restarts mid-match.
* Otherwise, only check and apply the operator perspective if the DS is disabled.
* This ensures driving behavior doesn't change until an explicit disable event occurs during testing.
* If we haven't applied the operator perspective before, then we should apply
* it regardless of DS state.
* This allows us to correct the perspective in case the robot code restarts
* mid-match.
* Otherwise, only check and apply the operator perspective if the DS is
* disabled.
* This ensures driving behavior doesn't change until an explicit disable event
* occurs during testing.
*/
if (!m_hasAppliedOperatorPerspective || DriverStation.isDisabled()) {
DriverStation.getAlliance().ifPresent(allianceColor -> {
setOperatorPerspectiveForward(
allianceColor == Alliance.Red
? kRedAlliancePerspectiveRotation
: kBlueAlliancePerspectiveRotation
);
allianceColor == Alliance.Red
? kRedAlliancePerspectiveRotation
: kBlueAlliancePerspectiveRotation);
m_hasAppliedOperatorPerspective = true;
});
}
@@ -281,11 +287,14 @@ public class CommandSwerveDrivetrain extends TunerSwerveDrivetrain implements Su
}
/**
* Adds a vision measurement to the Kalman Filter. This will correct the odometry pose estimate
* Adds a vision measurement to the Kalman Filter. This will correct the
* odometry pose estimate
* while still accounting for measurement noise.
*
* @param visionRobotPoseMeters The pose of the robot as measured by the vision camera.
* @param timestampSeconds The timestamp of the vision measurement in seconds.
* @param visionRobotPoseMeters The pose of the robot as measured by the vision
* camera.
* @param timestampSeconds The timestamp of the vision measurement in
* seconds.
*/
@Override
public void addVisionMeasurement(Pose2d visionRobotPoseMeters, double timestampSeconds) {
@@ -293,35 +302,74 @@ public class CommandSwerveDrivetrain extends TunerSwerveDrivetrain implements Su
}
/**
* Adds a vision measurement to the Kalman Filter. This will correct the odometry pose estimate
* Adds a vision measurement to the Kalman Filter. This will correct the
* odometry pose estimate
* while still accounting for measurement noise.
* <p>
* Note that the vision measurement standard deviations passed into this method
* will continue to apply to future measurements until a subsequent call to
* {@link #setVisionMeasurementStdDevs(Matrix)} or this method.
*
* @param visionRobotPoseMeters The pose of the robot as measured by the vision camera.
* @param timestampSeconds The timestamp of the vision measurement in seconds.
* @param visionMeasurementStdDevs Standard deviations of the vision pose measurement
* in the form [x, y, theta]ᵀ, with units in meters and radians.
* @param visionRobotPoseMeters The pose of the robot as measured by the
* vision camera.
* @param timestampSeconds The timestamp of the vision measurement in
* seconds.
* @param visionMeasurementStdDevs Standard deviations of the vision pose
* measurement
* in the form [x, y, theta]ᵀ, with units in
* meters and radians.
*/
@Override
public void addVisionMeasurement(
Pose2d visionRobotPoseMeters,
double timestampSeconds,
Matrix<N3, N1> visionMeasurementStdDevs
) {
super.addVisionMeasurement(visionRobotPoseMeters, Utils.fpgaToCurrentTime(timestampSeconds), visionMeasurementStdDevs);
Pose2d visionRobotPoseMeters,
double timestampSeconds,
Matrix<N3, N1> visionMeasurementStdDevs) {
super.addVisionMeasurement(visionRobotPoseMeters, Utils.fpgaToCurrentTime(timestampSeconds),
visionMeasurementStdDevs);
}
/**
* Return the pose at a given timestamp, if the buffer is not empty.
*
* @param timestampSeconds The timestamp of the pose in seconds.
* @return The pose at the given timestamp (or Optional.empty() if the buffer is empty).
* @return The pose at the given timestamp (or Optional.empty() if the buffer is
* empty).
*/
@Override
public Optional<Pose2d> samplePoseAt(double timestampSeconds) {
return super.samplePoseAt(Utils.fpgaToCurrentTime(timestampSeconds));
}
private SwerveRequest.FieldCentricFacingAngle fieldCentricFacingAngle = new FieldCentricFacingAngle()
.withDriveRequestType(DriveRequestType.OpenLoopVoltage).withHeadingPID(7, 0, 0);
public Command viserReservoir(Supplier<Double> velocityX, Supplier<Double> velocityY) {
return runEnd(() -> {
Translation2d diff = Coordinates.diffFromHub(getState().Pose.getTranslation());
Rotation2d angle = diff.getAngle();
setControl(fieldCentricFacingAngle
.withTargetDirection(angle)
.withVelocityX(velocityX.get())
.withVelocityY(velocityY.get()));
}, () -> setControl(fieldCentricFacingAngle.withVelocityX(0).withVelocityY(0)));
}
public Command allerGrimper(Supplier<Translation2d> diffSupplier) {
return runEnd(() -> {
Translation2d diff = diffSupplier.get();
Rotation2d angle = diff.getAngle().rotateBy(new Rotation2d(Degrees.of(-90)));
setControl(fieldCentricFacingAngle
.withTargetDirection(angle)
.withVelocityX(diff.getX())
.withVelocityY(diff.getY()));
}, () -> setControl(fieldCentricFacingAngle.withVelocityX(0).withVelocityY(0)));
}
public Command allerGrimpeMur() {
return allerGrimper(() -> Coordinates.diffFromGrimpeMur(getState().Pose.getTranslation()));
}
public Command allerGrimpeDepot() {
return allerGrimper(() -> Coordinates.diffFromGrimpeDepot(getState().Pose.getTranslation()));
}
}

33
src/main/java/frc/robot/subsystems/Demeleur.java Normal file
View File

@@ -0,0 +1,33 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot.subsystems;
import com.revrobotics.spark.SparkLowLevel.MotorType;
import com.revrobotics.spark.SparkMax;
import edu.wpi.first.wpilibj2.command.Command;
import edu.wpi.first.wpilibj2.command.SubsystemBase;
public class Demeleur extends SubsystemBase {
SparkMax moteur = new SparkMax(19, MotorType.kBrushless);
/** Creates a new Demeleur. */
public Demeleur() {
}
public Command run() {
return startEnd(() -> moteur.set(1), () -> moteur.set(0));
}
public Command inverse() {
return startEnd(() -> moteur.set(-0.2), () -> moteur.set(0));
}
@Override
public void periodic() {
// This method will be called once per scheduler run
}
}

82
src/main/java/frc/robot/subsystems/Grimpeur.java
View File

@@ -4,48 +4,76 @@
package frc.robot.subsystems;
import com.revrobotics.spark.SparkMax;
import com.revrobotics.spark.config.SparkMaxConfig;
import com.revrobotics.PersistMode;
import com.revrobotics.RelativeEncoder;
import com.revrobotics.ResetMode;
import com.revrobotics.spark.SparkLowLevel.MotorType;
import com.revrobotics.spark.SparkMax;
import com.revrobotics.spark.config.SoftLimitConfig;
import com.revrobotics.spark.config.SparkBaseConfig;
import com.revrobotics.spark.config.SparkBaseConfig.IdleMode;
import com.revrobotics.spark.config.SparkMaxConfig;
import edu.wpi.first.networktables.GenericEntry;
import edu.wpi.first.wpilibj.DigitalInput;
import edu.wpi.first.wpilibj.shuffleboard.Shuffleboard;
import edu.wpi.first.wpilibj.shuffleboard.ShuffleboardTab;
import edu.wpi.first.wpilibj2.command.Command;
import edu.wpi.first.wpilibj2.command.SubsystemBase;
public class Grimpeur extends SubsystemBase {
ShuffleboardTab teb = Shuffleboard.getTab("teb");
SparkMax grimpeur1 = new SparkMax(3,MotorType.kBrushless);
SparkMax grimpeur2 = new SparkMax(12,MotorType.kBrushless);
SparkMaxConfig slaveConfig = new SparkMaxConfig();
SparkMax moteur1 = new SparkMax(3, MotorType.kBrushless);
SparkMax moteur2 = new SparkMax(12, MotorType.kBrushless);
RelativeEncoder encoder1 = moteur1.getEncoder();
RelativeEncoder encoder2 = moteur2.getEncoder();
private double vitesseSortir = 0.5;
private double vitesseEntrer = -0.4;
private GenericEntry ntEncodeurGrimpeur = teb.add("Position haut grimpeur", 101).getEntry();
private double maxEncodeur = ntEncodeurGrimpeur.getDouble(101);
DigitalInput limit = new DigitalInput(0);
private GenericEntry EncodeurGrimpeur =
teb.add("Position haut grimpeur", 105).getEntry();
public void Grimper(double vitesse){
grimpeur1.set(vitesse);
grimpeur2.set(vitesse);
}
public double Position(){
return grimpeur1.getEncoder().getPosition();
}
public void Reset(){
grimpeur1.getEncoder().setPosition(0);
}
public boolean Limit(){
return limit.get();
}
public double PositionFinal(){
return EncodeurGrimpeur.getDouble(105);
}
/** Creates a new Grimpeur. */
public Grimpeur() {
teb.addDouble("encodeur grimpeur", this::Position);
teb.addBoolean("limit grimpeur", this::Limit);
teb.addDouble("encodeur grimpeur", encoder1::getPosition);
teb.addBoolean("limit grimpeur", limit::get);
configMoteurs();
}
private void configMoteurs() {
SparkBaseConfig configMoteur = new SparkMaxConfig().apply(
new SoftLimitConfig().forwardSoftLimit(maxEncodeur).forwardSoftLimitEnabled(true)
.reverseSoftLimit(0).reverseSoftLimitEnabled(true))
.openLoopRampRate(0.1)
.idleMode(IdleMode.kBrake);
moteur1.configure(configMoteur, ResetMode.kNoResetSafeParameters, PersistMode.kPersistParameters);
moteur2.configure(configMoteur.follow(moteur1), ResetMode.kNoResetSafeParameters, PersistMode.kPersistParameters);
}
public Command sortir() {
return startEnd(() -> moteur1.set(vitesseSortir), () -> moteur1.set(0))
.until(() -> moteur1.getForwardSoftLimit().isReached() || moteur2.getForwardSoftLimit().isReached());
}
public Command rentrer() {
return startEnd(() -> moteur1.set(vitesseEntrer), () -> moteur1.set(0))
.until(() -> moteur1.getReverseSoftLimit().isReached() || moteur2.getReverseSoftLimit().isReached());
}
@Override
public void periodic() {
// This method will be called once per scheduler run
if (limit.get()) {
encoder1.setPosition(0);
encoder2.setPosition(0);
}
double newEncoderMax = ntEncodeurGrimpeur.getDouble(maxEncodeur);
if (newEncoderMax != maxEncodeur) {
maxEncodeur = newEncoderMax;
configMoteurs();
}
}
}

77
src/main/java/frc/robot/subsystems/Lanceur.java
View File

@@ -4,47 +4,71 @@
package frc.robot.subsystems;
import java.util.function.Supplier;
import com.revrobotics.PersistMode;
import com.revrobotics.RelativeEncoder;
import com.revrobotics.ResetMode;
import com.revrobotics.spark.SparkBase.ControlType;
import com.revrobotics.spark.SparkFlex;
import com.revrobotics.spark.SparkLowLevel.MotorType;
import com.revrobotics.spark.config.ClosedLoopConfig;
import com.revrobotics.spark.config.SparkBaseConfig;
import com.revrobotics.spark.config.SparkBaseConfig.IdleMode;
import com.revrobotics.spark.config.SparkMaxConfig;
import edu.wpi.first.networktables.GenericEntry;
import edu.wpi.first.wpilibj.shuffleboard.Shuffleboard;
import edu.wpi.first.wpilibj.shuffleboard.ShuffleboardTab;
import edu.wpi.first.wpilibj2.command.Command;
import edu.wpi.first.wpilibj2.command.SubsystemBase;
public class Lanceur extends SubsystemBase {
ShuffleboardTab teb = Shuffleboard.getTab("teb");
SparkFlex moteur1 = new SparkFlex(15, MotorType.kBrushless);
SparkFlex moteur2 = new SparkFlex(18, MotorType.kBrushless);
SparkFlex Demeleur = new SparkFlex(19, MotorType.kBrushless);
GenericEntry vitesse =
teb.add("vitesse lanceur",4000).getEntry();
GenericEntry AmpLanceur =
teb.add("ampérage lanceur",30).getEntry();
public void Lancer(double vitesse){
moteur1.set(vitesse);
moteur2.set(vitesse);
}
public void Demeler(double vitesse){
Demeleur.set(vitesse);
}
public double Vitesse(){
return moteur1.getEncoder().getVelocity();
}
public double Amp(){
return moteur1.getOutputCurrent();
}
public double AmpBas(){
return AmpLanceur.getDouble(30);
}
public double vitesseDemander(){
return vitesse.getDouble(4000);
}
RelativeEncoder encoder = moteur1.getEncoder();
GenericEntry vitesse = teb.add("vitesse lanceur", 4000).getEntry();
GenericEntry AmpLanceur = teb.add("ampérage lanceur", 30).getEntry();
/** Creates a new Lanceur. */
public Lanceur() {
teb.addDouble("amperage lanceur", this::Amp);
teb.addDouble("vitesse actuelle",this::Vitesse);
teb.addDouble("amperage lanceur", moteur1::getOutputCurrent);
teb.addDouble("vitesse actuelle", encoder::getVelocity);
configMoteurs();
}
private void configMoteurs() {
SparkBaseConfig configMoteur = new SparkMaxConfig().apply(
new ClosedLoopConfig().pid(0.0007, 0, 0))
.openLoopRampRate(0.1)
.idleMode(IdleMode.kCoast);
moteur1.configure(configMoteur, ResetMode.kNoResetSafeParameters, PersistMode.kPersistParameters);
moteur2.configure(configMoteur.follow(moteur1), ResetMode.kNoResetSafeParameters, PersistMode.kPersistParameters);
}
public Command lancer(Supplier<Double> vitesse) {
return runEnd(() -> moteur1.getClosedLoopController().setSetpoint(vitesse.get(), ControlType.kVelocity),
() -> moteur1.set(0));
}
public Command inverse() {
return startEnd(() -> moteur1.set(-0.2), () -> moteur1.set(0));
}
public double getVitesse() {
return encoder.getVelocity();
}
public boolean setPointAtteint() {
return getVitesse() >= moteur1.getClosedLoopController().getSetpoint() * 0.95;
}
public double ntBasseVitesse() {
return vitesse.getDouble(4000);
}
@Override
@@ -52,4 +76,3 @@ public class Lanceur extends SubsystemBase {
// This method will be called once per scheduler run
}
}

80
src/main/java/frc/robot/subsystems/Led.java
View File

@@ -18,67 +18,76 @@ public class Led extends SubsystemBase {
ShuffleboardTab teb = Shuffleboard.getTab("teb");
private GenericEntry equipe =
teb.add("equipe commence (bleu = ouvert, rouge = fermé)", true).withWidget(BuiltInWidgets.kToggleSwitch).getEntry();
@SuppressWarnings("removal")
CANdle CANDle = new CANdle(17);
@SuppressWarnings("removal")
RainbowAnimation rainbowAnim = new RainbowAnimation();
@SuppressWarnings("removal")
public void bleu(){
CANDle.setLEDs(0, 0, 255,0,0,8);
CANDle.setLEDs(0, 0, 255,0,16,8);
CANDle.setLEDs(0, 0, 255,0,32,8);
CANDle.setLEDs(0, 0, 255,0,56,8);
CANDle.setLEDs(0, 0, 255,0,72,8);
CANDle.setLEDs(0, 0, 255,0,88,8);
CANDle.setLEDs(0, 0, 255,0,104,8);
CANDle.setLEDs(0, 0, 255,0,120,8);
CANDle.setLEDs(0, 0, 255,0,136,8);
// CANDle.setLEDs(0, 0, 255,0,56,8);
// CANDle.setLEDs(0, 0, 255,0,72,8);
// CANDle.setLEDs(0, 0, 255,0,88,8);
// CANDle.setLEDs(0, 0, 255,0,104,8);
// CANDle.setLEDs(0, 0, 255,0,120,8);
// CANDle.setLEDs(0, 0, 255,0,136,8);
}
@SuppressWarnings("removal")
public void Vert1(){
CANDle.setLEDs(0, 255, 0,0,0,8);
CANDle.setLEDs(0, 255, 0,0,16,8);
CANDle.setLEDs(0, 255, 0,0,32,8);
CANDle.setLEDs(0, 255, 0,0,56,8);
CANDle.setLEDs(0, 255, 0,0,72,8);
CANDle.setLEDs(0, 255, 0,0,88,8);
CANDle.setLEDs(0, 255, 0,0,104,8);
CANDle.setLEDs(0, 255, 0,0,120,8);
CANDle.setLEDs(0, 255, 0,0,136,8);
// CANDle.setLEDs(0, 255, 0,0,56,8);
// CANDle.setLEDs(0, 255, 0,0,72,8);
// CANDle.setLEDs(0, 255, 0,0,88,8);
// CANDle.setLEDs(0, 255, 0,0,104,8);
// CANDle.setLEDs(0, 255, 0,0,120,8);
// CANDle.setLEDs(0, 255, 0,0,136,8);
}
@SuppressWarnings("removal")
public void Rouge(){
CANDle.setLEDs(255, 0, 0,0,0,8);
CANDle.setLEDs(255, 0, 0,0,16,8);
CANDle.setLEDs(255, 0, 0,0,32,8);
CANDle.setLEDs(255, 0, 0,0,48,8);
CANDle.setLEDs(255, 0, 0,0,64,8);
CANDle.setLEDs(255, 0, 0,0,80,8);
CANDle.setLEDs(255, 0, 0,0,96,8);
CANDle.setLEDs(255, 0, 0,0,112,8);
CANDle.setLEDs(255, 0, 0,0,128,8);
// CANDle.setLEDs(255, 0, 0,0,48,8);
// CANDle.setLEDs(255, 0, 0,0,64,8);
// CANDle.setLEDs(255, 0, 0,0,80,8);
// CANDle.setLEDs(255, 0, 0,0,96,8);
// CANDle.setLEDs(255, 0, 0,0,112,8);
// CANDle.setLEDs(255, 0, 0,0,128,8);
}
@SuppressWarnings("removal")
public void Jaune2(){
CANDle.setLEDs(255, 255, 0,0,8,8);
CANDle.setLEDs(255, 255, 0,0,24,8);
CANDle.setLEDs(255, 255, 0,0,40,8);
CANDle.setLEDs(255, 255, 0,0,56,8);
CANDle.setLEDs(255, 255, 0,0,72,8);
CANDle.setLEDs(255, 255, 0,0,88,8);
CANDle.setLEDs(255, 255, 0,0,104,8);
CANDle.setLEDs(255, 255, 0,0,120,8);
CANDle.setLEDs(255, 255, 0,0,136,8);
// CANDle.setLEDs(255, 255, 0,0,56,8);
// CANDle.setLEDs(255, 255, 0,0,72,8);
// CANDle.setLEDs(255, 255, 0,0,88,8);
// CANDle.setLEDs(255, 255, 0,0,104,8);
// CANDle.setLEDs(255, 255, 0,0,120,8);
// CANDle.setLEDs(255, 255, 0,0,136,8);
}
public void Vert2(){
CANDle.setLEDs(0, 255, 0,0,8,8);
CANDle.setLEDs(0, 255, 0,0,24,8);
CANDle.setLEDs(0, 255, 0,0,40,8);
CANDle.setLEDs(0, 255, 0,0,56,8);
CANDle.setLEDs(0, 255, 0,0,72,8);
CANDle.setLEDs(0, 255, 0,0,88,8);
CANDle.setLEDs(0, 255, 0,0,104,8);
CANDle.setLEDs(0, 255, 0,0,120,8);
CANDle.setLEDs(0, 255, 0,0,136,8);
@SuppressWarnings("removal")
public void Rouge2(){
CANDle.setLEDs(255, 0, 0,0,8,8);
CANDle.setLEDs(255, 0, 0,0,24,8);
CANDle.setLEDs(255, 0, 0,0,40,8);
// CANDle.setLEDs(255, 0, 0,0,56,8);
// CANDle.setLEDs(255, 0, 0,0,72,8);
// CANDle.setLEDs(255, 0, 0,0,88,8);
// CANDle.setLEDs(255, 0, 0,0,104,8);
// CANDle.setLEDs(255, 0, 0,0,120,8);
// CANDle.setLEDs(255, 0, 0,0,136,8);
}
@SuppressWarnings("removal")
public void RainBow(){
CANDle.animate(rainbowAnim);
}
@SuppressWarnings("removal")
public void RainBowStop(){
CANDle.animate(null);
}
@@ -90,6 +99,7 @@ public class Led extends SubsystemBase {
@Override
public void periodic() {
double temps = DriverStation.getMatchTime();
if(temps > 20 && temps < 30){
Vert1();
@@ -129,5 +139,7 @@ public class Led extends SubsystemBase {
}
}
// This method will be called once per scheduler run
}
}

74
src/main/java/frc/robot/subsystems/LimeLight3.java
View File

@@ -1,74 +0,0 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot.subsystems;
import edu.wpi.first.net.PortForwarder;
import edu.wpi.first.networktables.NetworkTable;
import edu.wpi.first.networktables.NetworkTableEntry;
import edu.wpi.first.networktables.NetworkTableInstance;
import edu.wpi.first.wpilibj2.command.SubsystemBase;
import frc.robot.LimelightHelpers;
public class LimeLight3 extends SubsystemBase {
NetworkTable table = NetworkTableInstance.getDefault().getTable("limelight-balon");
NetworkTableEntry pipeline = table.getEntry("pipeline");
/** Creates a new LimeLight3. */
public LimeLight3() {
for(int port = 5800; port <=5807; port++){
PortForwarder.add(port, "limelight.local", port);
}
}
public double[] getBotPoseBlue(){
NetworkTable limelightTable = NetworkTableInstance.getDefault().getTable("limelight-balon");
NetworkTableEntry BotPoseEntry = limelightTable.getEntry("botpose_orb_wpiblue");
double[] BotPose = BotPoseEntry.getDoubleArray(new double[7]);
return BotPose;
}
public double[] getBotPoseRed(){
NetworkTable limelightTable = NetworkTableInstance.getDefault().getTable("limelight-balon");
NetworkTableEntry BotPoseEntry = limelightTable.getEntry("botpose_orb_wpired");
double[] BotPose = BotPoseEntry.getDoubleArray(new double[7]);
return BotPose;
}
public double getTx(){
NetworkTable table = NetworkTableInstance.getDefault().getTable("limelight-balon");
NetworkTableEntry tx = table.getEntry("tx");
return tx.getDouble(0.0);
}
public double getTId(){
NetworkTable table = NetworkTableInstance.getDefault().getTable("limelight-balon");
NetworkTableEntry tid = table.getEntry("tid");
return tid.getDouble(0.0);
}
public double getTA(){
NetworkTable table = NetworkTableInstance.getDefault().getTable("limelight-balon");
NetworkTableEntry ta = table.getEntry("ta");
return ta.getDouble(0.0);
}
public boolean getV(){
return LimelightHelpers.getTV("limelight-balon");
}
public void AprilTag(){
pipeline.setNumber(0);
}
public void Forme(){
pipeline.setNumber(1);
}
public double Calcule(double x1, double x2, double y1, double y2, double angle)
{
if (x1 > 4)
{
return (Math.abs(Math.atan2(x2 - x1, y2 - y1)) * (180 / Math.PI) - angle)/90;
}
else
{
return (Math.abs(Math.atan2(x2 - x1, y2 - y1)) * (180 / Math.PI) + angle) * -1/90;
}
}
@Override
public void periodic() {
// This method will be called once per scheduler run
}
}

68
src/main/java/frc/robot/subsystems/Limelight3G.java
View File

@@ -1,68 +0,0 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot.subsystems;
import edu.wpi.first.net.PortForwarder;
import edu.wpi.first.networktables.NetworkTable;
import edu.wpi.first.networktables.NetworkTableEntry;
import edu.wpi.first.networktables.NetworkTableInstance;
import edu.wpi.first.wpilibj2.command.SubsystemBase;
import frc.robot.LimelightHelpers;
public class Limelight3G extends SubsystemBase {
NetworkTable table = NetworkTableInstance.getDefault().getTable("limelight-tag");
NetworkTableEntry pipeline = table.getEntry("pipeline");
/** Creates a new LimeLight3. */
public Limelight3G() {
for(int port = 5800; port <=5807; port++){
PortForwarder.add(port, "limelight.local", port);
}
}
public double[] getBotPoseBlue(){
NetworkTable limelightTable = NetworkTableInstance.getDefault().getTable("limelight-tag");
NetworkTableEntry BotPoseEntry = limelightTable.getEntry("botpose_orb_wpiblue");
double[] BotPose = BotPoseEntry.getDoubleArray(new double[7]);
return BotPose;
}
public double[] getBotPoseRed(){
NetworkTable limelightTable = NetworkTableInstance.getDefault().getTable("limelight-tag");
NetworkTableEntry BotPoseEntry = limelightTable.getEntry("botpose_orb_wpired");
double[] BotPose = BotPoseEntry.getDoubleArray(new double[7]);
return BotPose;
}
public double getTx(){
NetworkTable table = NetworkTableInstance.getDefault().getTable("limelight-tag");
NetworkTableEntry tx = table.getEntry("tx");
return tx.getDouble(0.0);
}
public double getTId(){
NetworkTable table = NetworkTableInstance.getDefault().getTable("limelight-tag");
NetworkTableEntry tid = table.getEntry("tid");
return tid.getDouble(0.0);
}
public double getTA(){
NetworkTable table = NetworkTableInstance.getDefault().getTable("limelight-tag");
NetworkTableEntry ta = table.getEntry("ta");
return ta.getDouble(0.0);
}
public boolean getV(){
return LimelightHelpers.getTV("limelight-tag");
}
public double Calcule(double x1, double x2, double y1, double y2, double angle)
{
if (x1 > 4)
{
return (Math.abs(Math.atan2(x2 - x1, y2 - y1)) * (180 / Math.PI) - angle)/90;
}
else
{
return (Math.abs(Math.atan2(x2 - x1, y2 - y1)) * (180 / Math.PI) + angle) * -1/90;
}
}
@Override
public void periodic() {
// This method will be called once per scheduler run
}
}

82
src/main/java/frc/robot/subsystems/PivotBalayeuse.java Normal file
View File

@@ -0,0 +1,82 @@
// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
package frc.robot.subsystems;
import com.revrobotics.PersistMode;
import com.revrobotics.RelativeEncoder;
import com.revrobotics.ResetMode;
import com.revrobotics.spark.SparkLowLevel.MotorType;
import com.revrobotics.spark.SparkMax;
import com.revrobotics.spark.config.SoftLimitConfig;
import com.revrobotics.spark.config.SparkBaseConfig;
import com.revrobotics.spark.config.SparkBaseConfig.IdleMode;
import com.revrobotics.spark.config.SparkMaxConfig;
import edu.wpi.first.networktables.GenericEntry;
import edu.wpi.first.wpilibj.DigitalInput;
import edu.wpi.first.wpilibj.shuffleboard.Shuffleboard;
import edu.wpi.first.wpilibj.shuffleboard.ShuffleboardTab;
import edu.wpi.first.wpilibj2.command.Command;
import edu.wpi.first.wpilibj2.command.SubsystemBase;
public class PivotBalayeuse extends SubsystemBase {
ShuffleboardTab teb = Shuffleboard.getTab("teb");
SparkMax moteur = new SparkMax(8, MotorType.kBrushless);
RelativeEncoder encoder = moteur.getEncoder();
DigitalInput limit = new DigitalInput(9);
private GenericEntry ntEncodeurBalayeuse = teb.add("Position bas balayeuse", 1.8).getEntry();
private double maxEncodeur = ntEncodeurBalayeuse.getDouble(1.8);
private double vitesseMonter = 0.5;
private double vitesseDescendre = -0.5;
/** Creates a new PivotBalayeuse. */
public PivotBalayeuse() {
configMoteurs();
}
private void configMoteurs() {
SparkBaseConfig configMoteur = new SparkMaxConfig().apply(
new SoftLimitConfig().forwardSoftLimit(maxEncodeur).forwardSoftLimitEnabled(true)
.reverseSoftLimit(0.6).reverseSoftLimitEnabled(true))
.openLoopRampRate(0.1)
.idleMode(IdleMode.kBrake);
moteur.configure(configMoteur, ResetMode.kNoResetSafeParameters, PersistMode.kPersistParameters);
}
public Command monter() {
return startEnd(() -> moteur.set(vitesseMonter), () -> moteur.set(0))
.until(() -> moteur.getForwardSoftLimit().isReached());
}
public Command descendre() {
return startEnd(() -> moteur.set(vitesseDescendre), () -> moteur.set(0))
.until(() -> moteur.getReverseSoftLimit().isReached());
}
public double EncodeurBalayeuse() {
return ntEncodeurBalayeuse.getDouble(1.8);
}
@Override
public void periodic() {
teb.addBoolean("limit balayeuse", limit::get);
teb.addDouble("encodeur balayeuse", encoder::getPosition);
if (!limit.get()) {
encoder.setPosition(0.6);
}
double newEncoderMax = ntEncodeurBalayeuse.getDouble(maxEncodeur);
if (newEncoderMax != maxEncodeur) {
maxEncodeur = newEncoderMax;
configMoteurs();
}
}
}

10
vendordeps/PathplannerLib-2025.2.7.json → vendordeps/PathplannerLib-2026.1.2.json
View File

@@ -1,9 +1,9 @@
{
"fileName": "PathplannerLib-2025.2.7.json",
"fileName": "PathplannerLib-2026.1.2.json",
"name": "PathplannerLib",
"version": "2025.2.7",
"version": "2026.1.2",
"uuid": "1b42324f-17c6-4875-8e77-1c312bc8c786",
"frcYear": "2025",
"frcYear": "2026",
"mavenUrls": [
"https://3015rangerrobotics.github.io/pathplannerlib/repo"
],
@@ -12,7 +12,7 @@
{
"groupId": "com.pathplanner.lib",
"artifactId": "PathplannerLib-java",
"version": "2025.2.7"
"version": "2026.1.2"
}
],
"jniDependencies": [],
@@ -20,7 +20,7 @@
{
"groupId": "com.pathplanner.lib",
"artifactId": "PathplannerLib-cpp",
"version": "2025.2.7",
"version": "2026.1.2",
"libName": "PathplannerLib",
"headerClassifier": "headers",
"sharedLibrary": false,

36
vendordeps/Phoenix5-5.35.1.json → vendordeps/Phoenix5-5.36.0.json
View File

@@ -1,50 +1,50 @@
{
"fileName": "Phoenix5-5.35.1.json",
"fileName": "Phoenix5-5.36.0.json",
"name": "CTRE-Phoenix (v5)",
"version": "5.35.1",
"frcYear": "2025",
"version": "5.36.0",
"frcYear": "2026",
"uuid": "ab676553-b602-441f-a38d-f1296eff6537",
"mavenUrls": [
"https://maven.ctr-electronics.com/release/"
],
"jsonUrl": "https://maven.ctr-electronics.com/release/com/ctre/phoenix/Phoenix5-frc2025-latest.json",
"jsonUrl": "https://maven.ctr-electronics.com/release/com/ctre/phoenix/Phoenix5-frc2026-latest.json",
"requires": [
{
"uuid": "e995de00-2c64-4df5-8831-c1441420ff19",
"errorMessage": "Phoenix 5 requires low-level libraries from Phoenix 6. Please add the Phoenix 6 vendordep before adding Phoenix 5.",
"offlineFileName": "Phoenix6-frc2025-latest.json",
"onlineUrl": "https://maven.ctr-electronics.com/release/com/ctre/phoenix6/latest/Phoenix6-frc2025-latest.json"
"offlineFileName": "Phoenix6-frc2026-latest.json",
"onlineUrl": "https://maven.ctr-electronics.com/release/com/ctre/phoenix6/latest/Phoenix6-frc2026-latest.json"
}
],
"conflictsWith": [
{
"uuid": "e7900d8d-826f-4dca-a1ff-182f658e98af",
"errorMessage": "Users must use the Phoenix 5 replay vendordep when using the Phoenix 6 replay vendordep.",
"offlineFileName": "Phoenix6-replay-frc2025-latest.json"
"offlineFileName": "Phoenix6-replay-frc2026-latest.json"
},
{
"uuid": "fbc886a4-2cec-40c0-9835-71086a8cc3df",
"errorMessage": "Users cannot have both the replay and regular Phoenix 5 vendordeps in their robot program.",
"offlineFileName": "Phoenix5-replay-frc2025-latest.json"
"offlineFileName": "Phoenix5-replay-frc2026-latest.json"
}
],
"javaDependencies": [
{
"groupId": "com.ctre.phoenix",
"artifactId": "api-java",
"version": "5.35.1"
"version": "5.36.0"
},
{
"groupId": "com.ctre.phoenix",
"artifactId": "wpiapi-java",
"version": "5.35.1"
"version": "5.36.0"
}
],
"jniDependencies": [
{
"groupId": "com.ctre.phoenix",
"artifactId": "cci",
"version": "5.35.1",
"version": "5.36.0",
"isJar": false,
"skipInvalidPlatforms": true,
"validPlatforms": [
@@ -58,7 +58,7 @@
{
"groupId": "com.ctre.phoenix.sim",
"artifactId": "cci-sim",
"version": "5.35.1",
"version": "5.36.0",
"isJar": false,
"skipInvalidPlatforms": true,
"validPlatforms": [
@@ -74,7 +74,7 @@
{
"groupId": "com.ctre.phoenix",
"artifactId": "wpiapi-cpp",
"version": "5.35.1",
"version": "5.36.0",
"libName": "CTRE_Phoenix_WPI",
"headerClassifier": "headers",
"sharedLibrary": true,
@@ -90,7 +90,7 @@
{
"groupId": "com.ctre.phoenix",
"artifactId": "api-cpp",
"version": "5.35.1",
"version": "5.36.0",
"libName": "CTRE_Phoenix",
"headerClassifier": "headers",
"sharedLibrary": true,
@@ -106,7 +106,7 @@
{
"groupId": "com.ctre.phoenix",
"artifactId": "cci",
"version": "5.35.1",
"version": "5.36.0",
"libName": "CTRE_PhoenixCCI",
"headerClassifier": "headers",
"sharedLibrary": true,
@@ -122,7 +122,7 @@
{
"groupId": "com.ctre.phoenix.sim",
"artifactId": "wpiapi-cpp-sim",
"version": "5.35.1",
"version": "5.36.0",
"libName": "CTRE_Phoenix_WPISim",
"headerClassifier": "headers",
"sharedLibrary": true,
@@ -138,7 +138,7 @@
{
"groupId": "com.ctre.phoenix.sim",
"artifactId": "api-cpp-sim",
"version": "5.35.1",
"version": "5.36.0",
"libName": "CTRE_PhoenixSim",
"headerClassifier": "headers",
"sharedLibrary": true,
@@ -154,7 +154,7 @@
{
"groupId": "com.ctre.phoenix.sim",
"artifactId": "cci-sim",
"version": "5.35.1",
"version": "5.36.0",
"libName": "CTRE_PhoenixCCISim",
"headerClassifier": "headers",
"sharedLibrary": true,

98
vendordeps/Phoenix6-frc2025-latest.json → vendordeps/Phoenix6-26.1.3.json
View File

@@ -1,32 +1,32 @@
{
"fileName": "Phoenix6-frc2025-latest.json",
"fileName": "Phoenix6-26.1.3.json",
"name": "CTRE-Phoenix (v6)",
"version": "25.4.0",
"frcYear": "2025",
"version": "26.1.3",
"frcYear": "2026",
"uuid": "e995de00-2c64-4df5-8831-c1441420ff19",
"mavenUrls": [
"https://maven.ctr-electronics.com/release/"
],
"jsonUrl": "https://maven.ctr-electronics.com/release/com/ctre/phoenix6/latest/Phoenix6-frc2025-latest.json",
"jsonUrl": "https://maven.ctr-electronics.com/release/com/ctre/phoenix6/latest/Phoenix6-frc2026-latest.json",
"conflictsWith": [
{
"uuid": "e7900d8d-826f-4dca-a1ff-182f658e98af",
"errorMessage": "Users can not have both the replay and regular Phoenix 6 vendordeps in their robot program.",
"offlineFileName": "Phoenix6-replay-frc2025-latest.json"
"offlineFileName": "Phoenix6-replay-frc2026-latest.json"
}
],
"javaDependencies": [
{
"groupId": "com.ctre.phoenix6",
"artifactId": "wpiapi-java",
"version": "25.4.0"
"version": "26.1.3"
}
],
"jniDependencies": [
{
"groupId": "com.ctre.phoenix6",
"artifactId": "api-cpp",
"version": "25.4.0",
"version": "26.1.3",
"isJar": false,
"skipInvalidPlatforms": true,
"validPlatforms": [
@@ -40,7 +40,7 @@
{
"groupId": "com.ctre.phoenix6",
"artifactId": "tools",
"version": "25.4.0",
"version": "26.1.3",
"isJar": false,
"skipInvalidPlatforms": true,
"validPlatforms": [
@@ -54,7 +54,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "api-cpp-sim",
"version": "25.4.0",
"version": "26.1.3",
"isJar": false,
"skipInvalidPlatforms": true,
"validPlatforms": [
@@ -68,7 +68,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "tools-sim",
"version": "25.4.0",
"version": "26.1.3",
"isJar": false,
"skipInvalidPlatforms": true,
"validPlatforms": [
@@ -82,7 +82,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simTalonSRX",
"version": "25.4.0",
"version": "26.1.3",
"isJar": false,
"skipInvalidPlatforms": true,
"validPlatforms": [
@@ -96,7 +96,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simVictorSPX",
"version": "25.4.0",
"version": "26.1.3",
"isJar": false,
"skipInvalidPlatforms": true,
"validPlatforms": [
@@ -110,21 +110,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simPigeonIMU",
"version": "25.4.0",
"isJar": false,
"skipInvalidPlatforms": true,
"validPlatforms": [
"windowsx86-64",
"linuxx86-64",
"linuxarm64",
"osxuniversal"
],
"simMode": "swsim"
},
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simCANCoder",
"version": "25.4.0",
"version": "26.1.3",
"isJar": false,
"skipInvalidPlatforms": true,
"validPlatforms": [
@@ -138,7 +124,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simProTalonFX",
"version": "25.4.0",
"version": "26.1.3",
"isJar": false,
"skipInvalidPlatforms": true,
"validPlatforms": [
@@ -152,7 +138,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simProTalonFXS",
"version": "25.4.0",
"version": "26.1.3",
"isJar": false,
"skipInvalidPlatforms": true,
"validPlatforms": [
@@ -166,7 +152,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simProCANcoder",
"version": "25.4.0",
"version": "26.1.3",
"isJar": false,
"skipInvalidPlatforms": true,
"validPlatforms": [
@@ -180,7 +166,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simProPigeon2",
"version": "25.4.0",
"version": "26.1.3",
"isJar": false,
"skipInvalidPlatforms": true,
"validPlatforms": [
@@ -194,7 +180,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simProCANrange",
"version": "25.4.0",
"version": "26.1.3",
"isJar": false,
"skipInvalidPlatforms": true,
"validPlatforms": [
@@ -208,7 +194,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simProCANdi",
"version": "25.4.0",
"version": "26.1.3",
"isJar": false,
"skipInvalidPlatforms": true,
"validPlatforms": [
@@ -222,7 +208,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simProCANdle",
"version": "25.4.0",
"version": "26.1.3",
"isJar": false,
"skipInvalidPlatforms": true,
"validPlatforms": [
@@ -238,7 +224,7 @@
{
"groupId": "com.ctre.phoenix6",
"artifactId": "wpiapi-cpp",
"version": "25.4.0",
"version": "26.1.3",
"libName": "CTRE_Phoenix6_WPI",
"headerClassifier": "headers",
"sharedLibrary": true,
@@ -254,7 +240,7 @@
{
"groupId": "com.ctre.phoenix6",
"artifactId": "tools",
"version": "25.4.0",
"version": "26.1.3",
"libName": "CTRE_PhoenixTools",
"headerClassifier": "headers",
"sharedLibrary": true,
@@ -270,7 +256,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "wpiapi-cpp-sim",
"version": "25.4.0",
"version": "26.1.3",
"libName": "CTRE_Phoenix6_WPISim",
"headerClassifier": "headers",
"sharedLibrary": true,
@@ -286,7 +272,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "tools-sim",
"version": "25.4.0",
"version": "26.1.3",
"libName": "CTRE_PhoenixTools_Sim",
"headerClassifier": "headers",
"sharedLibrary": true,
@@ -302,7 +288,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simTalonSRX",
"version": "25.4.0",
"version": "26.1.3",
"libName": "CTRE_SimTalonSRX",
"headerClassifier": "headers",
"sharedLibrary": true,
@@ -318,7 +304,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simVictorSPX",
"version": "25.4.0",
"version": "26.1.3",
"libName": "CTRE_SimVictorSPX",
"headerClassifier": "headers",
"sharedLibrary": true,
@@ -334,7 +320,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simPigeonIMU",
"version": "25.4.0",
"version": "26.1.3",
"libName": "CTRE_SimPigeonIMU",
"headerClassifier": "headers",
"sharedLibrary": true,
@@ -347,26 +333,10 @@
],
"simMode": "swsim"
},
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simCANCoder",
"version": "25.4.0",
"libName": "CTRE_SimCANCoder",
"headerClassifier": "headers",
"sharedLibrary": true,
"skipInvalidPlatforms": true,
"binaryPlatforms": [
"windowsx86-64",
"linuxx86-64",
"linuxarm64",
"osxuniversal"
],
"simMode": "swsim"
},
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simProTalonFX",
"version": "25.4.0",
"version": "26.1.3",
"libName": "CTRE_SimProTalonFX",
"headerClassifier": "headers",
"sharedLibrary": true,
@@ -382,7 +352,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simProTalonFXS",
"version": "25.4.0",
"version": "26.1.3",
"libName": "CTRE_SimProTalonFXS",
"headerClassifier": "headers",
"sharedLibrary": true,
@@ -398,7 +368,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simProCANcoder",
"version": "25.4.0",
"version": "26.1.3",
"libName": "CTRE_SimProCANcoder",
"headerClassifier": "headers",
"sharedLibrary": true,
@@ -414,7 +384,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simProPigeon2",
"version": "25.4.0",
"version": "26.1.3",
"libName": "CTRE_SimProPigeon2",
"headerClassifier": "headers",
"sharedLibrary": true,
@@ -430,7 +400,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simProCANrange",
"version": "25.4.0",
"version": "26.1.3",
"libName": "CTRE_SimProCANrange",
"headerClassifier": "headers",
"sharedLibrary": true,
@@ -446,7 +416,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simProCANdi",
"version": "25.4.0",
"version": "26.1.3",
"libName": "CTRE_SimProCANdi",
"headerClassifier": "headers",
"sharedLibrary": true,
@@ -462,7 +432,7 @@
{
"groupId": "com.ctre.phoenix6.sim",
"artifactId": "simProCANdle",
"version": "25.4.0",
"version": "26.1.3",
"libName": "CTRE_SimProCANdle",
"headerClassifier": "headers",
"sharedLibrary": true,

76
vendordeps/REVLib.json
View File

@@ -1,25 +1,55 @@
{
"fileName": "REVLib.json",
"name": "REVLib",
"version": "2025.0.3",
"frcYear": "2025",
"version": "2026.0.5",
"frcYear": "2026",
"uuid": "3f48eb8c-50fe-43a6-9cb7-44c86353c4cb",
"mavenUrls": [
"https://maven.revrobotics.com/"
],
"jsonUrl": "https://software-metadata.revrobotics.com/REVLib-2025.json",
"jsonUrl": "https://software-metadata.revrobotics.com/REVLib-2026.json",
"javaDependencies": [
{
"groupId": "com.revrobotics.frc",
"artifactId": "REVLib-java",
"version": "2025.0.3"
"version": "2026.0.5"
}
],
"jniDependencies": [
{
"groupId": "com.revrobotics.frc",
"artifactId": "REVLib-driver",
"version": "2025.0.3",
"version": "2026.0.5",
"skipInvalidPlatforms": true,
"isJar": false,
"validPlatforms": [
"windowsx86-64",
"linuxarm64",
"linuxx86-64",
"linuxathena",
"linuxarm32",
"osxuniversal"
]
},
{
"groupId": "com.revrobotics.frc",
"artifactId": "RevLibBackendDriver",
"version": "2026.0.5",
"skipInvalidPlatforms": true,
"isJar": false,
"validPlatforms": [
"windowsx86-64",
"linuxarm64",
"linuxx86-64",
"linuxathena",
"linuxarm32",
"osxuniversal"
]
},
{
"groupId": "com.revrobotics.frc",
"artifactId": "RevLibWpiBackendDriver",
"version": "2026.0.5",
"skipInvalidPlatforms": true,
"isJar": false,
"validPlatforms": [
@@ -36,7 +66,7 @@
{
"groupId": "com.revrobotics.frc",
"artifactId": "REVLib-cpp",
"version": "2025.0.3",
"version": "2026.0.5",
"libName": "REVLib",
"headerClassifier": "headers",
"sharedLibrary": false,
@@ -53,7 +83,7 @@
{
"groupId": "com.revrobotics.frc",
"artifactId": "REVLib-driver",
"version": "2025.0.3",
"version": "2026.0.5",
"libName": "REVLibDriver",
"headerClassifier": "headers",
"sharedLibrary": false,
@@ -66,6 +96,38 @@
"linuxarm32",
"osxuniversal"
]
},
{
"groupId": "com.revrobotics.frc",
"artifactId": "RevLibBackendDriver",
"version": "2026.0.5",
"libName": "BackendDriver",
"sharedLibrary": true,
"skipInvalidPlatforms": true,
"binaryPlatforms": [
"windowsx86-64",
"linuxarm64",
"linuxx86-64",
"linuxathena",
"linuxarm32",
"osxuniversal"
]
},
{
"groupId": "com.revrobotics.frc",
"artifactId": "RevLibWpiBackendDriver",
"version": "2026.0.5",
"libName": "REVLibWpi",
"sharedLibrary": true,
"skipInvalidPlatforms": true,
"binaryPlatforms": [
"windowsx86-64",
"linuxarm64",
"linuxx86-64",
"linuxathena",
"linuxarm32",
"osxuniversal"
]
}
]
}

3
vendordeps/WPILibNewCommands.json
View File

@@ -3,7 +3,7 @@
"name": "WPILib-New-Commands",
"version": "1.0.0",
"uuid": "111e20f7-815e-48f8-9dd6-e675ce75b266",
"frcYear": "2025",
"frcYear": "2026",
"mavenUrls": [],
"jsonUrl": "",
"javaDependencies": [
@@ -25,6 +25,7 @@
"sharedLibrary": true,
"skipInvalidPlatforms": true,
"binaryPlatforms": [
"linuxsystemcore",
"linuxathena",
"linuxarm32",
"linuxarm64",