commit ec1fac7f0a9fc57483b845266473b473258d726a Author: Olivier Demers Date: Thu Jan 15 16:08:40 2026 -0500 initial commit diff --git a/.gitignore b/.gitignore new file mode 100644 index 0000000..34cbaac --- /dev/null +++ b/.gitignore @@ -0,0 +1,187 @@ +# This gitignore has been specially created by the WPILib team. +# If you remove items from this file, intellisense might break. + +### C++ ### +# Prerequisites +*.d + +# Compiled Object files +*.slo +*.lo +*.o +*.obj + +# Precompiled Headers +*.gch +*.pch + +# Compiled Dynamic libraries +*.so +*.dylib +*.dll + +# Fortran module files +*.mod +*.smod + +# Compiled Static libraries +*.lai +*.la +*.a +*.lib + +# Executables +*.exe +*.out +*.app + +### Java ### +# Compiled class file +*.class + +# Log file +*.log + +# BlueJ files +*.ctxt + +# Mobile Tools for Java (J2ME) +.mtj.tmp/ + +# Package Files # +*.jar +*.war +*.nar +*.ear +*.zip +*.tar.gz +*.rar + +# virtual machine crash logs, see http://www.java.com/en/download/help/error_hotspot.xml +hs_err_pid* + +### Linux ### +*~ + +# temporary files which can be created if a process still has a handle open of a deleted file +.fuse_hidden* + +# KDE directory preferences +.directory + +# Linux trash folder which might appear on any partition or disk +.Trash-* + +# .nfs files are created when an open file is removed but is still being accessed +.nfs* + +### macOS ### +# General +.DS_Store +.AppleDouble +.LSOverride + +# Icon must end with two \r +Icon + +# Thumbnails +._* + +# Files that might appear in the root of a volume +.DocumentRevisions-V100 +.fseventsd +.Spotlight-V100 +.TemporaryItems +.Trashes +.VolumeIcon.icns +.com.apple.timemachine.donotpresent + +# Directories potentially created on remote AFP share +.AppleDB +.AppleDesktop +Network Trash Folder +Temporary Items +.apdisk + +### VisualStudioCode ### +.vscode/* +!.vscode/settings.json +!.vscode/tasks.json +!.vscode/launch.json +!.vscode/extensions.json + +### Windows ### +# Windows thumbnail cache files +Thumbs.db +ehthumbs.db +ehthumbs_vista.db + +# Dump file +*.stackdump + +# Folder config file +[Dd]esktop.ini + +# Recycle Bin used on file shares +$RECYCLE.BIN/ + +# Windows Installer files +*.cab +*.msi +*.msix +*.msm +*.msp + +# Windows shortcuts +*.lnk + +### Gradle ### +.gradle +/build/ + +# Ignore Gradle GUI config +gradle-app.setting + +# Avoid ignoring Gradle wrapper jar file (.jar files are usually ignored) +!gradle-wrapper.jar + +# Cache of project +.gradletasknamecache + +# # Work around https://youtrack.jetbrains.com/issue/IDEA-116898 +# gradle/wrapper/gradle-wrapper.properties + +# # VS Code Specific Java Settings +# DO NOT REMOVE .classpath and .project +.classpath +.project +.settings/ +bin/ + +# IntelliJ +*.iml +*.ipr +*.iws +.idea/ +out/ + +# Fleet +.fleet + +# Simulation GUI and other tools window save file +networktables.json +simgui.json +*-window.json + +# Simulation data log directory +logs/ + +# Folder that has CTRE Phoenix Sim device config storage +ctre_sim/ + +# clangd +/.cache +compile_commands.json + +# Eclipse generated file for annotation processors +.factorypath diff --git a/.vscode/launch.json b/.vscode/launch.json new file mode 100644 index 0000000..c9c9713 --- /dev/null +++ b/.vscode/launch.json @@ -0,0 +1,21 @@ +{ + // Use IntelliSense to learn about possible attributes. + // Hover to view descriptions of existing attributes. + // For more information, visit: https://go.microsoft.com/fwlink/?linkid=830387 + "version": "0.2.0", + "configurations": [ + + { + "type": "wpilib", + "name": "WPILib Desktop Debug", + "request": "launch", + "desktop": true, + }, + { + "type": "wpilib", + "name": "WPILib roboRIO Debug", + "request": "launch", + "desktop": false, + } + ] +} diff --git a/.vscode/settings.json b/.vscode/settings.json new file mode 100644 index 0000000..5e6ede8 --- /dev/null +++ b/.vscode/settings.json @@ -0,0 +1,61 @@ +{ + "java.configuration.updateBuildConfiguration": "automatic", + "java.server.launchMode": "Standard", + "files.exclude": { + "**/.git": true, + "**/.svn": true, + "**/.hg": true, + "**/CVS": true, + "**/.DS_Store": true, + "bin/": true, + "**/.classpath": true, + "**/.project": true, + "**/.settings": true, + "**/.factorypath": true, + "**/*~": true + }, + "java.test.config": [ + { + "name": "WPIlibUnitTests", + "workingDirectory": "${workspaceFolder}/build/jni/release", + "vmargs": [ "-Djava.library.path=${workspaceFolder}/build/jni/release" ], + "env": { + "LD_LIBRARY_PATH": "${workspaceFolder}/build/jni/release" , + "DYLD_LIBRARY_PATH": "${workspaceFolder}/build/jni/release" + } + }, + ], + "java.test.defaultConfig": "WPIlibUnitTests", + "java.import.gradle.annotationProcessing.enabled": false, + "java.completion.favoriteStaticMembers": [ + "org.junit.Assert.*", + "org.junit.Assume.*", + "org.junit.jupiter.api.Assertions.*", + "org.junit.jupiter.api.Assumptions.*", + "org.junit.jupiter.api.DynamicContainer.*", + "org.junit.jupiter.api.DynamicTest.*", + "org.mockito.Mockito.*", + "org.mockito.ArgumentMatchers.*", + "org.mockito.Answers.*", + "edu.wpi.first.units.Units.*" + ], + "java.completion.filteredTypes": [ + "java.awt.*", + "com.sun.*", + "sun.*", + "jdk.*", + "org.graalvm.*", + "io.micrometer.shaded.*", + "java.beans.*", + "java.util.Base64.*", + "java.util.Timer", + "java.sql.*", + "javax.swing.*", + "javax.management.*", + "javax.smartcardio.*", + "edu.wpi.first.math.proto.*", + "edu.wpi.first.math.**.proto.*", + "edu.wpi.first.math.**.struct.*", + ], + "java.dependency.enableDependencyCheckup": false +} diff --git a/.wpilib/wpilib_preferences.json b/.wpilib/wpilib_preferences.json new file mode 100644 index 0000000..eadec71 --- /dev/null +++ b/.wpilib/wpilib_preferences.json @@ -0,0 +1,6 @@ +{ + "enableCppIntellisense": false, + "currentLanguage": "java", + "projectYear": "2026", + "teamNumber": 7762 +} diff --git a/WPILib-License.md b/WPILib-License.md new file mode 100644 index 0000000..eb3061b --- /dev/null +++ b/WPILib-License.md @@ -0,0 +1,24 @@ +Copyright (c) 2009-2026 FIRST and other WPILib contributors +All rights reserved. + +Redistribution and use in source and binary forms, with or without +modification, are permitted provided that the following conditions are met: + * Redistributions of source code must retain the above copyright + notice, this list of conditions and the following disclaimer. + * Redistributions in binary form must reproduce the above copyright + notice, this list of conditions and the following disclaimer in the + documentation and/or other materials provided with the distribution. + * Neither the name of FIRST, WPILib, nor the names of other WPILib + contributors may be used to endorse or promote products derived from + this software without specific prior written permission. + +THIS SOFTWARE IS PROVIDED BY FIRST AND OTHER WPILIB CONTRIBUTORS "AS IS" AND +ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY NONINFRINGEMENT AND FITNESS FOR A PARTICULAR +PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL FIRST OR CONTRIBUTORS BE LIABLE FOR +ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES +(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; +LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND +ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS +SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. diff --git a/build.gradle b/build.gradle new file mode 100644 index 0000000..8982080 --- /dev/null +++ b/build.gradle @@ -0,0 +1,107 @@ +plugins { + id "java" + id "edu.wpi.first.GradleRIO" version "2026.1.1" +} + +java { + sourceCompatibility = JavaVersion.VERSION_17 + targetCompatibility = JavaVersion.VERSION_17 +} + +def ROBOT_MAIN_CLASS = "frc.robot.Main" + +// Define my targets (RoboRIO) and artifacts (deployable files) +// This is added by GradleRIO's backing project DeployUtils. +deploy { + targets { + roborio(getTargetTypeClass('RoboRIO')) { + // Team number is loaded either from the .wpilib/wpilib_preferences.json + // or from command line. If not found an exception will be thrown. + // You can use getTeamOrDefault(team) instead of getTeamNumber if you + // want to store a team number in this file. + team = project.frc.getTeamNumber() + debug = project.frc.getDebugOrDefault(false) + + artifacts { + // First part is artifact name, 2nd is artifact type + // getTargetTypeClass is a shortcut to get the class type using a string + + frcJava(getArtifactTypeClass('FRCJavaArtifact')) { + } + + // Static files artifact + frcStaticFileDeploy(getArtifactTypeClass('FileTreeArtifact')) { + files = project.fileTree('src/main/deploy') + directory = '/home/lvuser/deploy' + deleteOldFiles = true // Change to true to delete files on roboRIO that no + // longer exist in deploy directory of this project + } + } + } + } +} + +def deployArtifact = deploy.targets.roborio.artifacts.frcJava + +// 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. +def includeDesktopSupport = true + +// Defining my dependencies. In this case, WPILib (+ friends), and vendor libraries. +// Also defines JUnit 5. +dependencies { + annotationProcessor wpi.java.deps.wpilibAnnotations() + implementation wpi.java.deps.wpilib() + implementation wpi.java.vendor.java() + + roborioDebug wpi.java.deps.wpilibJniDebug(wpi.platforms.roborio) + roborioDebug wpi.java.vendor.jniDebug(wpi.platforms.roborio) + + roborioRelease wpi.java.deps.wpilibJniRelease(wpi.platforms.roborio) + roborioRelease wpi.java.vendor.jniRelease(wpi.platforms.roborio) + + nativeDebug wpi.java.deps.wpilibJniDebug(wpi.platforms.desktop) + nativeDebug wpi.java.vendor.jniDebug(wpi.platforms.desktop) + simulationDebug wpi.sim.enableDebug() + + nativeRelease wpi.java.deps.wpilibJniRelease(wpi.platforms.desktop) + nativeRelease wpi.java.vendor.jniRelease(wpi.platforms.desktop) + simulationRelease wpi.sim.enableRelease() + + testImplementation 'org.junit.jupiter:junit-jupiter:5.10.1' + testRuntimeOnly 'org.junit.platform:junit-platform-launcher' +} + +test { + useJUnitPlatform() + systemProperty 'junit.jupiter.extensions.autodetection.enabled', 'true' +} + +// Simulation configuration (e.g. environment variables). +wpi.sim.addGui().defaultEnabled = true +wpi.sim.addDriverstation() + +// Setting up my Jar File. In this case, adding all libraries into the main jar ('fat jar') +// in order to make them all available at runtime. Also adding the manifest so WPILib +// knows where to look for our Robot Class. +jar { + from { configurations.runtimeClasspath.collect { it.isDirectory() ? it : zipTree(it) } } + 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 +} + +// Configure jar and deploy tasks +deployArtifact.jarTask = jar +wpi.java.configureExecutableTasks(jar) +wpi.java.configureTestTasks(test) + +// Configure string concat to always inline compile +tasks.withType(JavaCompile) { + options.compilerArgs.add '-XDstringConcat=inline' +} diff --git a/gradle/wrapper/gradle-wrapper.jar b/gradle/wrapper/gradle-wrapper.jar new file mode 100644 index 0000000..a4b76b9 Binary files /dev/null and b/gradle/wrapper/gradle-wrapper.jar differ diff --git a/gradle/wrapper/gradle-wrapper.properties b/gradle/wrapper/gradle-wrapper.properties new file mode 100644 index 0000000..34bd9ce --- /dev/null +++ b/gradle/wrapper/gradle-wrapper.properties @@ -0,0 +1,7 @@ +distributionBase=GRADLE_USER_HOME +distributionPath=permwrapper/dists +distributionUrl=https\://services.gradle.org/distributions/gradle-8.11-bin.zip +networkTimeout=10000 +validateDistributionUrl=true +zipStoreBase=GRADLE_USER_HOME +zipStorePath=permwrapper/dists diff --git a/gradlew b/gradlew new file mode 100644 index 0000000..f5feea6 --- /dev/null +++ b/gradlew @@ -0,0 +1,252 @@ +#!/bin/sh + +# +# Copyright © 2015-2021 the original authors. +# +# Licensed under the Apache License, Version 2.0 (the "License"); +# you may not use this file except in compliance with the License. +# You may obtain a copy of the License at +# +# https://www.apache.org/licenses/LICENSE-2.0 +# +# Unless required by applicable law or agreed to in writing, software +# distributed under the License is distributed on an "AS IS" BASIS, +# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +# See the License for the specific language governing permissions and +# limitations under the License. +# +# SPDX-License-Identifier: Apache-2.0 +# + +############################################################################## +# +# Gradle start up script for POSIX generated by Gradle. +# +# Important for running: +# +# (1) You need a POSIX-compliant shell to run this script. If your /bin/sh is +# noncompliant, but you have some other compliant shell such as ksh or +# bash, then to run this script, type that shell name before the whole +# command line, like: +# +# ksh Gradle +# +# Busybox and similar reduced shells will NOT work, because this script +# requires all of these POSIX shell features: +# * functions; +# * expansions «$var», «${var}», «${var:-default}», «${var+SET}», +# «${var#prefix}», «${var%suffix}», and «$( cmd )»; +# * compound commands having a testable exit status, especially «case»; +# * various built-in commands including «command», «set», and «ulimit». +# +# Important for patching: +# +# (2) This script targets any POSIX shell, so it avoids extensions provided +# by Bash, Ksh, etc; in particular arrays are avoided. +# +# The "traditional" practice of packing multiple parameters into a +# space-separated string is a well documented source of bugs and security +# problems, so this is (mostly) avoided, by progressively accumulating +# options in "$@", and eventually passing that to Java. +# +# Where the inherited environment variables (DEFAULT_JVM_OPTS, JAVA_OPTS, +# and GRADLE_OPTS) rely on word-splitting, this is performed explicitly; +# see the in-line comments for details. +# +# There are tweaks for specific operating systems such as AIX, CygWin, +# Darwin, MinGW, and NonStop. +# +# (3) This script is generated from the Groovy template +# https://github.com/gradle/gradle/blob/HEAD/platforms/jvm/plugins-application/src/main/resources/org/gradle/api/internal/plugins/unixStartScript.txt +# within the Gradle project. +# +# You can find Gradle at https://github.com/gradle/gradle/. +# +############################################################################## + +# Attempt to set APP_HOME + +# Resolve links: $0 may be a link +app_path=$0 + +# Need this for daisy-chained symlinks. +while + APP_HOME=${app_path%"${app_path##*/}"} # leaves a trailing /; empty if no leading path + [ -h "$app_path" ] +do + ls=$( ls -ld "$app_path" ) + link=${ls#*' -> '} + case $link in #( + /*) app_path=$link ;; #( + *) app_path=$APP_HOME$link ;; + esac +done + +# This is normally unused +# shellcheck disable=SC2034 +APP_BASE_NAME=${0##*/} +# Discard cd standard output in case $CDPATH is set (https://github.com/gradle/gradle/issues/25036) +APP_HOME=$( cd -P "${APP_HOME:-./}" > /dev/null && printf '%s +' "$PWD" ) || exit + +# Use the maximum available, or set MAX_FD != -1 to use that value. +MAX_FD=maximum + +warn () { + echo "$*" +} >&2 + +die () { + echo + echo "$*" + echo + exit 1 +} >&2 + +# OS specific support (must be 'true' or 'false'). +cygwin=false +msys=false +darwin=false +nonstop=false +case "$( uname )" in #( + CYGWIN* ) cygwin=true ;; #( + Darwin* ) darwin=true ;; #( + MSYS* | MINGW* ) msys=true ;; #( + NONSTOP* ) nonstop=true ;; +esac + +CLASSPATH=$APP_HOME/gradle/wrapper/gradle-wrapper.jar + + +# Determine the Java command to use to start the JVM. +if [ -n "$JAVA_HOME" ] ; then + if [ -x "$JAVA_HOME/jre/sh/java" ] ; then + # IBM's JDK on AIX uses strange locations for the executables + JAVACMD=$JAVA_HOME/jre/sh/java + else + JAVACMD=$JAVA_HOME/bin/java + fi + if [ ! -x "$JAVACMD" ] ; then + die "ERROR: JAVA_HOME is set to an invalid directory: $JAVA_HOME + +Please set the JAVA_HOME variable in your environment to match the +location of your Java installation." + fi +else + JAVACMD=java + if ! command -v java >/dev/null 2>&1 + then + die "ERROR: JAVA_HOME is not set and no 'java' command could be found in your PATH. + +Please set the JAVA_HOME variable in your environment to match the +location of your Java installation." + fi +fi + +# Increase the maximum file descriptors if we can. +if ! "$cygwin" && ! "$darwin" && ! "$nonstop" ; then + case $MAX_FD in #( + max*) + # In POSIX sh, ulimit -H is undefined. That's why the result is checked to see if it worked. + # shellcheck disable=SC2039,SC3045 + MAX_FD=$( ulimit -H -n ) || + warn "Could not query maximum file descriptor limit" + esac + case $MAX_FD in #( + '' | soft) :;; #( + *) + # In POSIX sh, ulimit -n is undefined. That's why the result is checked to see if it worked. + # shellcheck disable=SC2039,SC3045 + ulimit -n "$MAX_FD" || + warn "Could not set maximum file descriptor limit to $MAX_FD" + esac +fi + +# Collect all arguments for the java command, stacking in reverse order: +# * args from the command line +# * the main class name +# * -classpath +# * -D...appname settings +# * --module-path (only if needed) +# * DEFAULT_JVM_OPTS, JAVA_OPTS, and GRADLE_OPTS environment variables. + +# For Cygwin or MSYS, switch paths to Windows format before running java +if "$cygwin" || "$msys" ; then + APP_HOME=$( cygpath --path --mixed "$APP_HOME" ) + CLASSPATH=$( cygpath --path --mixed "$CLASSPATH" ) + + JAVACMD=$( cygpath --unix "$JAVACMD" ) + + # Now convert the arguments - kludge to limit ourselves to /bin/sh + for arg do + if + case $arg in #( + -*) false ;; # don't mess with options #( + /?*) t=${arg#/} t=/${t%%/*} # looks like a POSIX filepath + [ -e "$t" ] ;; #( + *) false ;; + esac + then + arg=$( cygpath --path --ignore --mixed "$arg" ) + fi + # Roll the args list around exactly as many times as the number of + # args, so each arg winds up back in the position where it started, but + # possibly modified. + # + # NB: a `for` loop captures its iteration list before it begins, so + # changing the positional parameters here affects neither the number of + # iterations, nor the values presented in `arg`. + shift # remove old arg + set -- "$@" "$arg" # push replacement arg + done +fi + + +# Add default JVM options here. You can also use JAVA_OPTS and GRADLE_OPTS to pass JVM options to this script. +DEFAULT_JVM_OPTS='"-Xmx64m" "-Xms64m"' + +# Collect all arguments for the java command: +# * DEFAULT_JVM_OPTS, JAVA_OPTS, JAVA_OPTS, and optsEnvironmentVar are not allowed to contain shell fragments, +# and any embedded shellness will be escaped. +# * For example: A user cannot expect ${Hostname} to be expanded, as it is an environment variable and will be +# treated as '${Hostname}' itself on the command line. + +set -- \ + "-Dorg.gradle.appname=$APP_BASE_NAME" \ + -classpath "$CLASSPATH" \ + org.gradle.wrapper.GradleWrapperMain \ + "$@" + +# Stop when "xargs" is not available. +if ! command -v xargs >/dev/null 2>&1 +then + die "xargs is not available" +fi + +# Use "xargs" to parse quoted args. +# +# With -n1 it outputs one arg per line, with the quotes and backslashes removed. +# +# In Bash we could simply go: +# +# readarray ARGS < <( xargs -n1 <<<"$var" ) && +# set -- "${ARGS[@]}" "$@" +# +# but POSIX shell has neither arrays nor command substitution, so instead we +# post-process each arg (as a line of input to sed) to backslash-escape any +# character that might be a shell metacharacter, then use eval to reverse +# that process (while maintaining the separation between arguments), and wrap +# the whole thing up as a single "set" statement. +# +# This will of course break if any of these variables contains a newline or +# an unmatched quote. +# + +eval "set -- $( + printf '%s\n' "$DEFAULT_JVM_OPTS $JAVA_OPTS $GRADLE_OPTS" | + xargs -n1 | + sed ' s~[^-[:alnum:]+,./:=@_]~\\&~g; ' | + tr '\n' ' ' + )" '"$@"' + +exec "$JAVACMD" "$@" diff --git a/gradlew.bat b/gradlew.bat new file mode 100644 index 0000000..9d21a21 --- /dev/null +++ b/gradlew.bat @@ -0,0 +1,94 @@ +@rem +@rem Copyright 2015 the original author or authors. +@rem +@rem Licensed under the Apache License, Version 2.0 (the "License"); +@rem you may not use this file except in compliance with the License. +@rem You may obtain a copy of the License at +@rem +@rem https://www.apache.org/licenses/LICENSE-2.0 +@rem +@rem Unless required by applicable law or agreed to in writing, software +@rem distributed under the License is distributed on an "AS IS" BASIS, +@rem WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +@rem See the License for the specific language governing permissions and +@rem limitations under the License. +@rem +@rem SPDX-License-Identifier: Apache-2.0 +@rem + +@if "%DEBUG%"=="" @echo off +@rem ########################################################################## +@rem +@rem Gradle startup script for Windows +@rem +@rem ########################################################################## + +@rem Set local scope for the variables with windows NT shell +if "%OS%"=="Windows_NT" setlocal + +set DIRNAME=%~dp0 +if "%DIRNAME%"=="" set DIRNAME=. +@rem This is normally unused +set APP_BASE_NAME=%~n0 +set APP_HOME=%DIRNAME% + +@rem Resolve any "." and ".." in APP_HOME to make it shorter. +for %%i in ("%APP_HOME%") do set APP_HOME=%%~fi + +@rem Add default JVM options here. You can also use JAVA_OPTS and GRADLE_OPTS to pass JVM options to this script. +set DEFAULT_JVM_OPTS="-Xmx64m" "-Xms64m" + +@rem Find java.exe +if defined JAVA_HOME goto findJavaFromJavaHome + +set JAVA_EXE=java.exe +%JAVA_EXE% -version >NUL 2>&1 +if %ERRORLEVEL% equ 0 goto execute + +echo. 1>&2 +echo ERROR: JAVA_HOME is not set and no 'java' command could be found in your PATH. 1>&2 +echo. 1>&2 +echo Please set the JAVA_HOME variable in your environment to match the 1>&2 +echo location of your Java installation. 1>&2 + +goto fail + +:findJavaFromJavaHome +set JAVA_HOME=%JAVA_HOME:"=% +set JAVA_EXE=%JAVA_HOME%/bin/java.exe + +if exist "%JAVA_EXE%" goto execute + +echo. 1>&2 +echo ERROR: JAVA_HOME is set to an invalid directory: %JAVA_HOME% 1>&2 +echo. 1>&2 +echo Please set the JAVA_HOME variable in your environment to match the 1>&2 +echo location of your Java installation. 1>&2 + +goto fail + +:execute +@rem Setup the command line + +set CLASSPATH=%APP_HOME%\gradle\wrapper\gradle-wrapper.jar + + +@rem Execute Gradle +"%JAVA_EXE%" %DEFAULT_JVM_OPTS% %JAVA_OPTS% %GRADLE_OPTS% "-Dorg.gradle.appname=%APP_BASE_NAME%" -classpath "%CLASSPATH%" org.gradle.wrapper.GradleWrapperMain %* + +:end +@rem End local scope for the variables with windows NT shell +if %ERRORLEVEL% equ 0 goto mainEnd + +:fail +rem Set variable GRADLE_EXIT_CONSOLE if you need the _script_ return code instead of +rem the _cmd.exe /c_ return code! +set EXIT_CODE=%ERRORLEVEL% +if %EXIT_CODE% equ 0 set EXIT_CODE=1 +if not ""=="%GRADLE_EXIT_CONSOLE%" exit %EXIT_CODE% +exit /b %EXIT_CODE% + +:mainEnd +if "%OS%"=="Windows_NT" endlocal + +:omega diff --git a/settings.gradle b/settings.gradle new file mode 100644 index 0000000..25f6f6e --- /dev/null +++ b/settings.gradle @@ -0,0 +1,30 @@ +import org.gradle.internal.os.OperatingSystem + +pluginManagement { + repositories { + mavenLocal() + gradlePluginPortal() + String frcYear = '2026' + File frcHome + if (OperatingSystem.current().isWindows()) { + String publicFolder = System.getenv('PUBLIC') + if (publicFolder == null) { + publicFolder = "C:\\Users\\Public" + } + def homeRoot = new File(publicFolder, "wpilib") + frcHome = new File(homeRoot, frcYear) + } else { + def userFolder = System.getProperty("user.home") + def homeRoot = new File(userFolder, "wpilib") + frcHome = new File(homeRoot, frcYear) + } + def frcHomeMaven = new File(frcHome, 'maven') + maven { + name = 'frcHome' + url = frcHomeMaven + } + } +} + +Properties props = System.getProperties(); +props.setProperty("org.gradle.internal.native.headers.unresolved.dependencies.ignore", "true"); diff --git a/src/main/deploy/example.txt b/src/main/deploy/example.txt new file mode 100644 index 0000000..bb82515 --- /dev/null +++ b/src/main/deploy/example.txt @@ -0,0 +1,3 @@ +Files placed in this directory will be deployed to the RoboRIO into the +'deploy' directory in the home folder. Use the 'Filesystem.getDeployDirectory' wpilib function +to get a proper path relative to the deploy directory. \ No newline at end of file diff --git a/src/main/deploy/pathplanner/Tests.path b/src/main/deploy/pathplanner/Tests.path new file mode 100644 index 0000000..9cb675b --- /dev/null +++ b/src/main/deploy/pathplanner/Tests.path @@ -0,0 +1,234 @@ +{ + "waypoints": [ + { + "anchorPoint": { + "x": 7.855128995972278, + "y": 3.8506658441888315 + }, + "prevControl": null, + "nextControl": { + "x": 9.51563917413549, + "y": 3.864980587104032 + }, + "holonomicAngle": 0.0, + "isReversal": false, + "velOverride": null, + "isLocked": false, + "isStopPoint": false, + "stopEvent": { + "names": [], + "executionBehavior": "parallel", + "waitBehavior": "none", + "waitTime": 0 + } + }, + { + "anchorPoint": { + "x": 9.673101346202692, + "y": 4.909956819913639 + }, + "prevControl": { + "x": 9.658786603287492, + "y": 4.2657933887296355 + }, + "nextControl": { + "x": 9.658786603287492, + "y": 4.2657933887296355 + }, + "holonomicAngle": 0.0, + "isReversal": true, + "velOverride": null, + "isLocked": false, + "isStopPoint": false, + "stopEvent": { + "names": [], + "executionBehavior": "parallel", + "waitBehavior": "none", + "waitTime": 0 + } + }, + { + "anchorPoint": { + "x": 9.744675060778693, + "y": 3.278076127580827 + }, + "prevControl": { + "x": 9.701730832033093, + "y": 3.922239558764832 + }, + "nextControl": { + "x": 9.701730832033093, + "y": 3.922239558764832 + }, + "holonomicAngle": 0, + "isReversal": true, + "velOverride": null, + "isLocked": false, + "isStopPoint": false, + "stopEvent": { + "names": [], + "executionBehavior": "parallel", + "waitBehavior": "none", + "waitTime": 0 + } + }, + { + "anchorPoint": { + "x": 7.855128995972278, + "y": 3.8506658441888315 + }, + "prevControl": { + "x": 9.071882143764288, + "y": 3.879295330019232 + }, + "nextControl": { + "x": 9.071882143764288, + "y": 3.879295330019232 + }, + "holonomicAngle": 0, + "isReversal": true, + "velOverride": null, + "isLocked": false, + "isStopPoint": true, + "stopEvent": { + "names": [], + "executionBehavior": "parallel", + "waitBehavior": "none", + "waitTime": 0 + } + }, + { + "anchorPoint": { + "x": 9.673101346202692, + "y": 4.89564207699844 + }, + "prevControl": { + "x": 9.687416089117892, + "y": 4.222849159984035 + }, + "nextControl": { + "x": 9.687416089117892, + "y": 4.222849159984035 + }, + "holonomicAngle": 125.92486296979446, + "isReversal": true, + "velOverride": null, + "isLocked": false, + "isStopPoint": false, + "stopEvent": { + "names": [], + "executionBehavior": "parallel", + "waitBehavior": "none", + "waitTime": 0 + } + }, + { + "anchorPoint": { + "x": 9.730360317863493, + "y": 3.263761384665627 + }, + "prevControl": { + "x": 9.748383531854783, + "y": 4.107878917512221 + }, + "nextControl": { + "x": 9.748383531854783, + "y": 4.107878917512221 + }, + "holonomicAngle": -91.03738139006352, + "isReversal": true, + "velOverride": null, + "isLocked": false, + "isStopPoint": false, + "stopEvent": { + "names": [], + "executionBehavior": "parallel", + "waitBehavior": "none", + "waitTime": 0 + } + }, + { + "anchorPoint": { + "x": 9.013854168059215, + "y": 3.3824178174672146 + }, + "prevControl": { + "x": 9.077332014313154, + "y": 4.307380720024598 + }, + "nextControl": { + "x": 9.077332014313154, + "y": 4.307380720024598 + }, + "holonomicAngle": 59.62087398863161, + "isReversal": true, + "velOverride": null, + "isLocked": false, + "isStopPoint": false, + "stopEvent": { + "names": [], + "executionBehavior": "parallel", + "waitBehavior": "none", + "waitTime": 0 + } + }, + { + "anchorPoint": { + "x": 8.315597859265894, + "y": 3.3461447624649643 + }, + "prevControl": { + "x": 8.415348760522082, + "y": 3.863035796247031 + }, + "nextControl": { + "x": 8.415348760522082, + "y": 3.863035796247031 + }, + "holonomicAngle": -155.7255588655606, + "isReversal": true, + "velOverride": null, + "isLocked": false, + "isStopPoint": false, + "stopEvent": { + "names": [], + "executionBehavior": "parallel", + "waitBehavior": "none", + "waitTime": 0 + } + }, + { + "anchorPoint": { + "x": 7.84404814423664, + "y": 3.863035796247031 + }, + "prevControl": { + "x": 8.78714757429515, + "y": 3.8086262137436555 + }, + "nextControl": null, + "holonomicAngle": 0, + "isReversal": false, + "velOverride": null, + "isLocked": false, + "isStopPoint": false, + "stopEvent": { + "names": [], + "executionBehavior": "parallel", + "waitBehavior": "none", + "waitTime": 0 + } + } + ], + "maxVelocity": 2.0, + "maxAcceleration": 3.0, + "isReversed": null, + "markers": [ + { + "position": 3.4181818181818175, + "names": [ + "marker" + ] + } + ] +} \ No newline at end of file diff --git a/src/main/deploy/pathplanner/autos/Tests.auto b/src/main/deploy/pathplanner/autos/Tests.auto new file mode 100644 index 0000000..e8c593b --- /dev/null +++ b/src/main/deploy/pathplanner/autos/Tests.auto @@ -0,0 +1,19 @@ +{ + "version": "2025.0", + "command": { + "type": "sequential", + "data": { + "commands": [ + { + "type": "path", + "data": { + "pathName": "SimplePath" + } + } + ] + } + }, + "resetOdom": true, + "folder": null, + "choreoAuto": false +} \ No newline at end of file diff --git a/src/main/deploy/pathplanner/navgrid.json b/src/main/deploy/pathplanner/navgrid.json new file mode 100644 index 0000000..ac5f521 --- /dev/null +++ b/src/main/deploy/pathplanner/navgrid.json @@ -0,0 +1 @@ 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\ No newline at end of file diff --git a/src/main/deploy/pathplanner/paths/SimplePath.path b/src/main/deploy/pathplanner/paths/SimplePath.path new file mode 100644 index 0000000..0178f62 --- /dev/null +++ b/src/main/deploy/pathplanner/paths/SimplePath.path @@ -0,0 +1,75 @@ +{ + "version": "2025.0", + "waypoints": [ + { + "anchor": { + "x": 4.061722123444247, + "y": 5.039 + }, + "prevControl": null, + "nextControl": { + "x": 4.267799739805012, + "y": 4.6820630981604685 + }, + "isLocked": false, + "linkedName": null + }, + { + "anchor": { + "x": 5.292790014151457, + "y": 4.494829275372837 + }, + "prevControl": { + "x": 4.519661364176327, + "y": 4.494829275372837 + }, + "nextControl": { + "x": 5.980046769810262, + "y": 4.494829275372837 + }, + "isLocked": false, + "linkedName": null + }, + { + "anchor": { + "x": 6.152, + "y": 5.296 + }, + "prevControl": { + "x": 6.066179328079686, + "y": 4.809286783590948 + }, + "nextControl": null, + "isLocked": false, + "linkedName": null + } + ], + "rotationTargets": [ + { + "waypointRelativePos": 1.0, + "rotationDegrees": 90.0 + } + ], + "constraintZones": [], + "pointTowardsZones": [], + "eventMarkers": [], + "globalConstraints": { + "maxVelocity": 3, + "maxAcceleration": 3, + "maxAngularVelocity": 540, + "maxAngularAcceleration": 720, + "nominalVoltage": 12.0, + "unlimited": false + }, + "goalEndState": { + "velocity": 0, + "rotation": 0.0 + }, + "reversed": false, + "folder": null, + "idealStartingState": { + "velocity": 0, + "rotation": 0.0 + }, + "useDefaultConstraints": false +} \ No newline at end of file diff --git a/src/main/deploy/pathplanner/settings.json b/src/main/deploy/pathplanner/settings.json new file mode 100644 index 0000000..4a0d130 --- /dev/null +++ b/src/main/deploy/pathplanner/settings.json @@ -0,0 +1,32 @@ +{ + "robotWidth": 0.762, + "robotLength": 0.762, + "holonomicMode": true, + "pathFolders": [], + "autoFolders": [], + "defaultMaxVel": 3.0, + "defaultMaxAccel": 3.0, + "defaultMaxAngVel": 540.0, + "defaultMaxAngAccel": 720.0, + "defaultNominalVoltage": 12.0, + "robotMass": 75.0, + "robotMOI": 6.883, + "robotTrackwidth": 0.5588, + "driveWheelRadius": 0.05504, + "driveGearing": 7.363636, + "maxDriveSpeed": 4.7, + "driveMotorType": "krakenX60FOC", + "driveCurrentLimit": 120.0, + "wheelCOF": 1.7, + "flModuleX": 0.267, + "flModuleY": 0.2667, + "frModuleX": 0.267, + "frModuleY": -0.267, + "blModuleX": -0.267, + "blModuleY": 0.267, + "brModuleX": -0.267, + "brModuleY": -0.267, + "bumperOffsetX": 0.0, + "bumperOffsetY": 0.0, + "robotFeatures": [] +} \ No newline at end of file diff --git a/src/main/java/frc/robot/LimelightHelpers.java b/src/main/java/frc/robot/LimelightHelpers.java new file mode 100644 index 0000000..dcd1c26 --- /dev/null +++ b/src/main/java/frc/robot/LimelightHelpers.java @@ -0,0 +1,1589 @@ +//LimelightHelpers v1.10 (REQUIRES LLOS 2024.9.1 OR LATER) + +package frc.robot; + +import edu.wpi.first.networktables.DoubleArrayEntry; +import edu.wpi.first.networktables.NetworkTable; +import edu.wpi.first.networktables.NetworkTableEntry; +import edu.wpi.first.networktables.NetworkTableInstance; +import edu.wpi.first.networktables.TimestampedDoubleArray; +import frc.robot.LimelightHelpers.LimelightResults; +import frc.robot.LimelightHelpers.PoseEstimate; +import edu.wpi.first.math.geometry.Pose2d; +import edu.wpi.first.math.geometry.Pose3d; +import edu.wpi.first.math.geometry.Rotation2d; +import edu.wpi.first.math.geometry.Translation3d; +import edu.wpi.first.math.util.Units; +import edu.wpi.first.math.geometry.Rotation3d; +import edu.wpi.first.math.geometry.Translation2d; + +import java.io.IOException; +import java.net.HttpURLConnection; +import java.net.MalformedURLException; +import java.net.URL; +import java.util.Map; +import java.util.concurrent.CompletableFuture; + +import com.fasterxml.jackson.annotation.JsonFormat; +import com.fasterxml.jackson.annotation.JsonFormat.Shape; +import com.fasterxml.jackson.annotation.JsonProperty; +import com.fasterxml.jackson.core.JsonProcessingException; +import com.fasterxml.jackson.databind.DeserializationFeature; +import com.fasterxml.jackson.databind.ObjectMapper; +import java.util.concurrent.ConcurrentHashMap; + +/** + * LimelightHelpers provides static methods and classes for interfacing with Limelight vision cameras in FRC. + * This library supports all Limelight features including AprilTag tracking, Neural Networks, and standard color/retroreflective tracking. + */ +public class LimelightHelpers { + + private static final Map doubleArrayEntries = new ConcurrentHashMap<>(); + + /** + * Represents a Color/Retroreflective Target Result extracted from JSON Output + */ + public static class LimelightTarget_Retro { + + @JsonProperty("t6c_ts") + private double[] cameraPose_TargetSpace; + + @JsonProperty("t6r_fs") + private double[] robotPose_FieldSpace; + + @JsonProperty("t6r_ts") + private double[] robotPose_TargetSpace; + + @JsonProperty("t6t_cs") + private double[] targetPose_CameraSpace; + + @JsonProperty("t6t_rs") + private double[] targetPose_RobotSpace; + + public Pose3d getCameraPose_TargetSpace() + { + return toPose3D(cameraPose_TargetSpace); + } + public Pose3d getRobotPose_FieldSpace() + { + return toPose3D(robotPose_FieldSpace); + } + public Pose3d getRobotPose_TargetSpace() + { + return toPose3D(robotPose_TargetSpace); + } + public Pose3d getTargetPose_CameraSpace() + { + return toPose3D(targetPose_CameraSpace); + } + public Pose3d getTargetPose_RobotSpace() + { + return toPose3D(targetPose_RobotSpace); + } + + public Pose2d getCameraPose_TargetSpace2D() + { + return toPose2D(cameraPose_TargetSpace); + } + public Pose2d getRobotPose_FieldSpace2D() + { + return toPose2D(robotPose_FieldSpace); + } + public Pose2d getRobotPose_TargetSpace2D() + { + return toPose2D(robotPose_TargetSpace); + } + public Pose2d getTargetPose_CameraSpace2D() + { + return toPose2D(targetPose_CameraSpace); + } + public Pose2d getTargetPose_RobotSpace2D() + { + return toPose2D(targetPose_RobotSpace); + } + + @JsonProperty("ta") + public double ta; + + @JsonProperty("tx") + public double tx; + + @JsonProperty("ty") + public double ty; + + @JsonProperty("txp") + public double tx_pixels; + + @JsonProperty("typ") + public double ty_pixels; + + @JsonProperty("tx_nocross") + public double tx_nocrosshair; + + @JsonProperty("ty_nocross") + public double ty_nocrosshair; + + @JsonProperty("ts") + public double ts; + + public LimelightTarget_Retro() { + cameraPose_TargetSpace = new double[6]; + robotPose_FieldSpace = new double[6]; + robotPose_TargetSpace = new double[6]; + targetPose_CameraSpace = new double[6]; + targetPose_RobotSpace = new double[6]; + } + + } + + /** + * Represents an AprilTag/Fiducial Target Result extracted from JSON Output + */ + public static class LimelightTarget_Fiducial { + + @JsonProperty("fID") + public double fiducialID; + + @JsonProperty("fam") + public String fiducialFamily; + + @JsonProperty("t6c_ts") + private double[] cameraPose_TargetSpace; + + @JsonProperty("t6r_fs") + private double[] robotPose_FieldSpace; + + @JsonProperty("t6r_ts") + private double[] robotPose_TargetSpace; + + @JsonProperty("t6t_cs") + private double[] targetPose_CameraSpace; + + @JsonProperty("t6t_rs") + private double[] targetPose_RobotSpace; + + public Pose3d getCameraPose_TargetSpace() + { + return toPose3D(cameraPose_TargetSpace); + } + public Pose3d getRobotPose_FieldSpace() + { + return toPose3D(robotPose_FieldSpace); + } + public Pose3d getRobotPose_TargetSpace() + { + return toPose3D(robotPose_TargetSpace); + } + public Pose3d getTargetPose_CameraSpace() + { + return toPose3D(targetPose_CameraSpace); + } + public Pose3d getTargetPose_RobotSpace() + { + return toPose3D(targetPose_RobotSpace); + } + + public Pose2d getCameraPose_TargetSpace2D() + { + return toPose2D(cameraPose_TargetSpace); + } + public Pose2d getRobotPose_FieldSpace2D() + { + return toPose2D(robotPose_FieldSpace); + } + public Pose2d getRobotPose_TargetSpace2D() + { + return toPose2D(robotPose_TargetSpace); + } + public Pose2d getTargetPose_CameraSpace2D() + { + return toPose2D(targetPose_CameraSpace); + } + public Pose2d getTargetPose_RobotSpace2D() + { + return toPose2D(targetPose_RobotSpace); + } + + @JsonProperty("ta") + public double ta; + + @JsonProperty("tx") + public double tx; + + @JsonProperty("ty") + public double ty; + + @JsonProperty("txp") + public double tx_pixels; + + @JsonProperty("typ") + public double ty_pixels; + + @JsonProperty("tx_nocross") + public double tx_nocrosshair; + + @JsonProperty("ty_nocross") + public double ty_nocrosshair; + + @JsonProperty("ts") + public double ts; + + public LimelightTarget_Fiducial() { + cameraPose_TargetSpace = new double[6]; + robotPose_FieldSpace = new double[6]; + robotPose_TargetSpace = new double[6]; + targetPose_CameraSpace = new double[6]; + targetPose_RobotSpace = new double[6]; + } + } + + /** + * Represents a Barcode Target Result extracted from JSON Output + */ + public static class LimelightTarget_Barcode { + + /** + * Barcode family type (e.g. "QR", "DataMatrix", etc.) + */ + @JsonProperty("fam") + public String family; + + /** + * Gets the decoded data content of the barcode + */ + @JsonProperty("data") + public String data; + + @JsonProperty("txp") + public double tx_pixels; + + @JsonProperty("typ") + public double ty_pixels; + + @JsonProperty("tx") + public double tx; + + @JsonProperty("ty") + public double ty; + + @JsonProperty("tx_nocross") + public double tx_nocrosshair; + + @JsonProperty("ty_nocross") + public double ty_nocrosshair; + + @JsonProperty("ta") + public double ta; + + @JsonProperty("pts") + public double[][] corners; + + public LimelightTarget_Barcode() { + } + + public String getFamily() { + return family; + } + } + + /** + * Represents a Neural Classifier Pipeline Result extracted from JSON Output + */ + public static class LimelightTarget_Classifier { + + @JsonProperty("class") + public String className; + + @JsonProperty("classID") + public double classID; + + @JsonProperty("conf") + public double confidence; + + @JsonProperty("zone") + public double zone; + + @JsonProperty("tx") + public double tx; + + @JsonProperty("txp") + public double tx_pixels; + + @JsonProperty("ty") + public double ty; + + @JsonProperty("typ") + public double ty_pixels; + + public LimelightTarget_Classifier() { + } + } + + /** + * Represents a Neural Detector Pipeline Result extracted from JSON Output + */ + public static class LimelightTarget_Detector { + + @JsonProperty("class") + public String className; + + @JsonProperty("classID") + public double classID; + + @JsonProperty("conf") + public double confidence; + + @JsonProperty("ta") + public double ta; + + @JsonProperty("tx") + public double tx; + + @JsonProperty("ty") + public double ty; + + @JsonProperty("txp") + public double tx_pixels; + + @JsonProperty("typ") + public double ty_pixels; + + @JsonProperty("tx_nocross") + public double tx_nocrosshair; + + @JsonProperty("ty_nocross") + public double ty_nocrosshair; + + public LimelightTarget_Detector() { + } + } + + /** + * Limelight Results object, parsed from a Limelight's JSON results output. + */ + public static class LimelightResults { + + public String error; + + @JsonProperty("pID") + public double pipelineID; + + @JsonProperty("tl") + public double latency_pipeline; + + @JsonProperty("cl") + public double latency_capture; + + public double latency_jsonParse; + + @JsonProperty("ts") + public double timestamp_LIMELIGHT_publish; + + @JsonProperty("ts_rio") + public double timestamp_RIOFPGA_capture; + + @JsonProperty("v") + @JsonFormat(shape = Shape.NUMBER) + public boolean valid; + + @JsonProperty("botpose") + public double[] botpose; + + @JsonProperty("botpose_wpired") + public double[] botpose_wpired; + + @JsonProperty("botpose_wpiblue") + public double[] botpose_wpiblue; + + @JsonProperty("botpose_tagcount") + public double botpose_tagcount; + + @JsonProperty("botpose_span") + public double botpose_span; + + @JsonProperty("botpose_avgdist") + public double botpose_avgdist; + + @JsonProperty("botpose_avgarea") + public double botpose_avgarea; + + @JsonProperty("t6c_rs") + public double[] camerapose_robotspace; + + public Pose3d getBotPose3d() { + return toPose3D(botpose); + } + + public Pose3d getBotPose3d_wpiRed() { + return toPose3D(botpose_wpired); + } + + public Pose3d getBotPose3d_wpiBlue() { + return toPose3D(botpose_wpiblue); + } + + public Pose2d getBotPose2d() { + return toPose2D(botpose); + } + + public Pose2d getBotPose2d_wpiRed() { + return toPose2D(botpose_wpired); + } + + public Pose2d getBotPose2d_wpiBlue() { + return toPose2D(botpose_wpiblue); + } + + @JsonProperty("Retro") + public LimelightTarget_Retro[] targets_Retro; + + @JsonProperty("Fiducial") + public LimelightTarget_Fiducial[] targets_Fiducials; + + @JsonProperty("Classifier") + public LimelightTarget_Classifier[] targets_Classifier; + + @JsonProperty("Detector") + public LimelightTarget_Detector[] targets_Detector; + + @JsonProperty("Barcode") + public LimelightTarget_Barcode[] targets_Barcode; + + public LimelightResults() { + botpose = new double[6]; + botpose_wpired = new double[6]; + botpose_wpiblue = new double[6]; + camerapose_robotspace = new double[6]; + targets_Retro = new LimelightTarget_Retro[0]; + targets_Fiducials = new LimelightTarget_Fiducial[0]; + targets_Classifier = new LimelightTarget_Classifier[0]; + targets_Detector = new LimelightTarget_Detector[0]; + targets_Barcode = new LimelightTarget_Barcode[0]; + + } + + + } + + /** + * Represents a Limelight Raw Fiducial result from Limelight's NetworkTables output. + */ + public static class RawFiducial { + public int id = 0; + public double txnc = 0; + public double tync = 0; + public double ta = 0; + public double distToCamera = 0; + public double distToRobot = 0; + public double ambiguity = 0; + + + public RawFiducial(int id, double txnc, double tync, double ta, double distToCamera, double distToRobot, double ambiguity) { + this.id = id; + this.txnc = txnc; + this.tync = tync; + this.ta = ta; + this.distToCamera = distToCamera; + this.distToRobot = distToRobot; + this.ambiguity = ambiguity; + } + } + + /** + * Represents a Limelight Raw Neural Detector result from Limelight's NetworkTables output. + */ + public static class RawDetection { + public int classId = 0; + public double txnc = 0; + public double tync = 0; + public double ta = 0; + public double corner0_X = 0; + public double corner0_Y = 0; + public double corner1_X = 0; + public double corner1_Y = 0; + public double corner2_X = 0; + public double corner2_Y = 0; + public double corner3_X = 0; + public double corner3_Y = 0; + + + public RawDetection(int classId, double txnc, double tync, double ta, + double corner0_X, double corner0_Y, + double corner1_X, double corner1_Y, + double corner2_X, double corner2_Y, + double corner3_X, double corner3_Y ) { + this.classId = classId; + this.txnc = txnc; + this.tync = tync; + this.ta = ta; + this.corner0_X = corner0_X; + this.corner0_Y = corner0_Y; + this.corner1_X = corner1_X; + this.corner1_Y = corner1_Y; + this.corner2_X = corner2_X; + this.corner2_Y = corner2_Y; + this.corner3_X = corner3_X; + this.corner3_Y = corner3_Y; + } + } + + /** + * Represents a 3D Pose Estimate. + */ + public static class PoseEstimate { + public Pose2d pose; + public double timestampSeconds; + public double latency; + public int tagCount; + public double tagSpan; + public double avgTagDist; + public double avgTagArea; + + public RawFiducial[] rawFiducials; + public boolean isMegaTag2; + + /** + * Instantiates a PoseEstimate object with default values + */ + public PoseEstimate() { + this.pose = new Pose2d(); + this.timestampSeconds = 0; + this.latency = 0; + this.tagCount = 0; + this.tagSpan = 0; + this.avgTagDist = 0; + this.avgTagArea = 0; + this.rawFiducials = new RawFiducial[]{}; + this.isMegaTag2 = false; + } + + public PoseEstimate(Pose2d pose, double timestampSeconds, double latency, + int tagCount, double tagSpan, double avgTagDist, + double avgTagArea, RawFiducial[] rawFiducials, boolean isMegaTag2) { + + this.pose = pose; + this.timestampSeconds = timestampSeconds; + this.latency = latency; + this.tagCount = tagCount; + this.tagSpan = tagSpan; + this.avgTagDist = avgTagDist; + this.avgTagArea = avgTagArea; + this.rawFiducials = rawFiducials; + this.isMegaTag2 = isMegaTag2; + } + + } + + private static ObjectMapper mapper; + + /** + * Print JSON Parse time to the console in milliseconds + */ + static boolean profileJSON = false; + + static final String sanitizeName(String name) { + if (name == "" || name == null) { + return "limelight"; + } + return name; + } + + /** + * Takes a 6-length array of pose data and converts it to a Pose3d object. + * Array format: [x, y, z, roll, pitch, yaw] where angles are in degrees. + * @param inData Array containing pose data [x, y, z, roll, pitch, yaw] + * @return Pose3d object representing the pose, or empty Pose3d if invalid data + */ + public static Pose3d toPose3D(double[] inData){ + if(inData.length < 6) + { + //System.err.println("Bad LL 3D Pose Data!"); + return new Pose3d(); + } + return new Pose3d( + new Translation3d(inData[0], inData[1], inData[2]), + new Rotation3d(Units.degreesToRadians(inData[3]), Units.degreesToRadians(inData[4]), + Units.degreesToRadians(inData[5]))); + } + + /** + * Takes a 6-length array of pose data and converts it to a Pose2d object. + * Uses only x, y, and yaw components, ignoring z, roll, and pitch. + * Array format: [x, y, z, roll, pitch, yaw] where angles are in degrees. + * @param inData Array containing pose data [x, y, z, roll, pitch, yaw] + * @return Pose2d object representing the pose, or empty Pose2d if invalid data + */ + public static Pose2d toPose2D(double[] inData){ + if(inData.length < 6) + { + //System.err.println("Bad LL 2D Pose Data!"); + return new Pose2d(); + } + Translation2d tran2d = new Translation2d(inData[0], inData[1]); + Rotation2d r2d = new Rotation2d(Units.degreesToRadians(inData[5])); + return new Pose2d(tran2d, r2d); + } + + /** + * Converts a Pose3d object to an array of doubles in the format [x, y, z, roll, pitch, yaw]. + * Translation components are in meters, rotation components are in degrees. + * + * @param pose The Pose3d object to convert + * @return A 6-element array containing [x, y, z, roll, pitch, yaw] + */ + public static double[] pose3dToArray(Pose3d pose) { + double[] result = new double[6]; + result[0] = pose.getTranslation().getX(); + result[1] = pose.getTranslation().getY(); + result[2] = pose.getTranslation().getZ(); + result[3] = Units.radiansToDegrees(pose.getRotation().getX()); + result[4] = Units.radiansToDegrees(pose.getRotation().getY()); + result[5] = Units.radiansToDegrees(pose.getRotation().getZ()); + return result; + } + + /** + * Converts a Pose2d object to an array of doubles in the format [x, y, z, roll, pitch, yaw]. + * Translation components are in meters, rotation components are in degrees. + * Note: z, roll, and pitch will be 0 since Pose2d only contains x, y, and yaw. + * + * @param pose The Pose2d object to convert + * @return A 6-element array containing [x, y, 0, 0, 0, yaw] + */ + public static double[] pose2dToArray(Pose2d pose) { + double[] result = new double[6]; + result[0] = pose.getTranslation().getX(); + result[1] = pose.getTranslation().getY(); + result[2] = 0; + result[3] = Units.radiansToDegrees(0); + result[4] = Units.radiansToDegrees(0); + result[5] = Units.radiansToDegrees(pose.getRotation().getRadians()); + return result; + } + + private static double extractArrayEntry(double[] inData, int position){ + if(inData.length < position+1) + { + return 0; + } + return inData[position]; + } + + private static PoseEstimate getBotPoseEstimate(String limelightName, String entryName, boolean isMegaTag2) { + DoubleArrayEntry poseEntry = LimelightHelpers.getLimelightDoubleArrayEntry(limelightName, entryName); + + TimestampedDoubleArray tsValue = poseEntry.getAtomic(); + double[] poseArray = tsValue.value; + long timestamp = tsValue.timestamp; + + if (poseArray.length == 0) { + // Handle the case where no data is available + return null; // or some default PoseEstimate + } + + var pose = toPose2D(poseArray); + double latency = extractArrayEntry(poseArray, 6); + int tagCount = (int)extractArrayEntry(poseArray, 7); + double tagSpan = extractArrayEntry(poseArray, 8); + double tagDist = extractArrayEntry(poseArray, 9); + double tagArea = extractArrayEntry(poseArray, 10); + + // Convert server timestamp from microseconds to seconds and adjust for latency + double adjustedTimestamp = (timestamp / 1000000.0) - (latency / 1000.0); + + RawFiducial[] rawFiducials = new RawFiducial[tagCount]; + int valsPerFiducial = 7; + int expectedTotalVals = 11 + valsPerFiducial * tagCount; + + if (poseArray.length != expectedTotalVals) { + // Don't populate fiducials + } else { + for(int i = 0; i < tagCount; i++) { + int baseIndex = 11 + (i * valsPerFiducial); + int id = (int)poseArray[baseIndex]; + double txnc = poseArray[baseIndex + 1]; + double tync = poseArray[baseIndex + 2]; + double ta = poseArray[baseIndex + 3]; + double distToCamera = poseArray[baseIndex + 4]; + double distToRobot = poseArray[baseIndex + 5]; + double ambiguity = poseArray[baseIndex + 6]; + rawFiducials[i] = new RawFiducial(id, txnc, tync, ta, distToCamera, distToRobot, ambiguity); + } + } + + return new PoseEstimate(pose, adjustedTimestamp, latency, tagCount, tagSpan, tagDist, tagArea, rawFiducials, isMegaTag2); + } + + /** + * Gets the latest raw fiducial/AprilTag detection results from NetworkTables. + * + * @param limelightName Name/identifier of the Limelight + * @return Array of RawFiducial objects containing detection details + */ + public static RawFiducial[] getRawFiducials(String limelightName) { + var entry = LimelightHelpers.getLimelightNTTableEntry(limelightName, "rawfiducials"); + var rawFiducialArray = entry.getDoubleArray(new double[0]); + int valsPerEntry = 7; + if (rawFiducialArray.length % valsPerEntry != 0) { + return new RawFiducial[0]; + } + + int numFiducials = rawFiducialArray.length / valsPerEntry; + RawFiducial[] rawFiducials = new RawFiducial[numFiducials]; + + for (int i = 0; i < numFiducials; i++) { + int baseIndex = i * valsPerEntry; + int id = (int) extractArrayEntry(rawFiducialArray, baseIndex); + double txnc = extractArrayEntry(rawFiducialArray, baseIndex + 1); + double tync = extractArrayEntry(rawFiducialArray, baseIndex + 2); + double ta = extractArrayEntry(rawFiducialArray, baseIndex + 3); + double distToCamera = extractArrayEntry(rawFiducialArray, baseIndex + 4); + double distToRobot = extractArrayEntry(rawFiducialArray, baseIndex + 5); + double ambiguity = extractArrayEntry(rawFiducialArray, baseIndex + 6); + + rawFiducials[i] = new RawFiducial(id, txnc, tync, ta, distToCamera, distToRobot, ambiguity); + } + + return rawFiducials; + } + + /** + * Gets the latest raw neural detector results from NetworkTables + * + * @param limelightName Name/identifier of the Limelight + * @return Array of RawDetection objects containing detection details + */ + public static RawDetection[] getRawDetections(String limelightName) { + var entry = LimelightHelpers.getLimelightNTTableEntry(limelightName, "rawdetections"); + var rawDetectionArray = entry.getDoubleArray(new double[0]); + int valsPerEntry = 12; + if (rawDetectionArray.length % valsPerEntry != 0) { + return new RawDetection[0]; + } + + int numDetections = rawDetectionArray.length / valsPerEntry; + RawDetection[] rawDetections = new RawDetection[numDetections]; + + for (int i = 0; i < numDetections; i++) { + int baseIndex = i * valsPerEntry; // Starting index for this detection's data + int classId = (int) extractArrayEntry(rawDetectionArray, baseIndex); + double txnc = extractArrayEntry(rawDetectionArray, baseIndex + 1); + double tync = extractArrayEntry(rawDetectionArray, baseIndex + 2); + double ta = extractArrayEntry(rawDetectionArray, baseIndex + 3); + double corner0_X = extractArrayEntry(rawDetectionArray, baseIndex + 4); + double corner0_Y = extractArrayEntry(rawDetectionArray, baseIndex + 5); + double corner1_X = extractArrayEntry(rawDetectionArray, baseIndex + 6); + double corner1_Y = extractArrayEntry(rawDetectionArray, baseIndex + 7); + double corner2_X = extractArrayEntry(rawDetectionArray, baseIndex + 8); + double corner2_Y = extractArrayEntry(rawDetectionArray, baseIndex + 9); + double corner3_X = extractArrayEntry(rawDetectionArray, baseIndex + 10); + double corner3_Y = extractArrayEntry(rawDetectionArray, baseIndex + 11); + + rawDetections[i] = new RawDetection(classId, txnc, tync, ta, corner0_X, corner0_Y, corner1_X, corner1_Y, corner2_X, corner2_Y, corner3_X, corner3_Y); + } + + return rawDetections; + } + + /** + * Prints detailed information about a PoseEstimate to standard output. + * Includes timestamp, latency, tag count, tag span, average tag distance, + * average tag area, and detailed information about each detected fiducial. + * + * @param pose The PoseEstimate object to print. If null, prints "No PoseEstimate available." + */ + public static void printPoseEstimate(PoseEstimate pose) { + if (pose == null) { + System.out.println("No PoseEstimate available."); + return; + } + + System.out.printf("Pose Estimate Information:%n"); + System.out.printf("Timestamp (Seconds): %.3f%n", pose.timestampSeconds); + System.out.printf("Latency: %.3f ms%n", pose.latency); + System.out.printf("Tag Count: %d%n", pose.tagCount); + System.out.printf("Tag Span: %.2f meters%n", pose.tagSpan); + System.out.printf("Average Tag Distance: %.2f meters%n", pose.avgTagDist); + System.out.printf("Average Tag Area: %.2f%% of image%n", pose.avgTagArea); + System.out.printf("Is MegaTag2: %b%n", pose.isMegaTag2); + System.out.println(); + + if (pose.rawFiducials == null || pose.rawFiducials.length == 0) { + System.out.println("No RawFiducials data available."); + return; + } + + System.out.println("Raw Fiducials Details:"); + for (int i = 0; i < pose.rawFiducials.length; i++) { + RawFiducial fiducial = pose.rawFiducials[i]; + System.out.printf(" Fiducial #%d:%n", i + 1); + System.out.printf(" ID: %d%n", fiducial.id); + System.out.printf(" TXNC: %.2f%n", fiducial.txnc); + System.out.printf(" TYNC: %.2f%n", fiducial.tync); + System.out.printf(" TA: %.2f%n", fiducial.ta); + System.out.printf(" Distance to Camera: %.2f meters%n", fiducial.distToCamera); + System.out.printf(" Distance to Robot: %.2f meters%n", fiducial.distToRobot); + System.out.printf(" Ambiguity: %.2f%n", fiducial.ambiguity); + System.out.println(); + } + } + + public static Boolean validPoseEstimate(PoseEstimate pose) { + return pose != null && pose.rawFiducials != null && pose.rawFiducials.length != 0; + } + + public static NetworkTable getLimelightNTTable(String tableName) { + return NetworkTableInstance.getDefault().getTable(sanitizeName(tableName)); + } + + public static void Flush() { + NetworkTableInstance.getDefault().flush(); + } + + public static NetworkTableEntry getLimelightNTTableEntry(String tableName, String entryName) { + return getLimelightNTTable(tableName).getEntry(entryName); + } + + public static DoubleArrayEntry getLimelightDoubleArrayEntry(String tableName, String entryName) { + String key = tableName + "/" + entryName; + return doubleArrayEntries.computeIfAbsent(key, k -> { + NetworkTable table = getLimelightNTTable(tableName); + return table.getDoubleArrayTopic(entryName).getEntry(new double[0]); + }); + } + + public static double getLimelightNTDouble(String tableName, String entryName) { + return getLimelightNTTableEntry(tableName, entryName).getDouble(0.0); + } + + public static void setLimelightNTDouble(String tableName, String entryName, double val) { + getLimelightNTTableEntry(tableName, entryName).setDouble(val); + } + + public static void setLimelightNTDoubleArray(String tableName, String entryName, double[] val) { + getLimelightNTTableEntry(tableName, entryName).setDoubleArray(val); + } + + public static double[] getLimelightNTDoubleArray(String tableName, String entryName) { + return getLimelightNTTableEntry(tableName, entryName).getDoubleArray(new double[0]); + } + + + public static String getLimelightNTString(String tableName, String entryName) { + return getLimelightNTTableEntry(tableName, entryName).getString(""); + } + + public static String[] getLimelightNTStringArray(String tableName, String entryName) { + return getLimelightNTTableEntry(tableName, entryName).getStringArray(new String[0]); + } + + + public static URL getLimelightURLString(String tableName, String request) { + String urlString = "http://" + sanitizeName(tableName) + ".local:5807/" + request; + URL url; + try { + url = new URL(urlString); + return url; + } catch (MalformedURLException e) { + System.err.println("bad LL URL"); + } + return null; + } + ///// + ///// + + /** + * Does the Limelight have a valid target? + * @param limelightName Name of the Limelight camera ("" for default) + * @return True if a valid target is present, false otherwise + */ + public static boolean getTV(String limelightName) { + return 1.0 == getLimelightNTDouble(limelightName, "tv"); + } + + /** + * Gets the horizontal offset from the crosshair to the target in degrees. + * @param limelightName Name of the Limelight camera ("" for default) + * @return Horizontal offset angle in degrees + */ + public static double getTX(String limelightName) { + return getLimelightNTDouble(limelightName, "tx"); + } + + /** + * Gets the vertical offset from the crosshair to the target in degrees. + * @param limelightName Name of the Limelight camera ("" for default) + * @return Vertical offset angle in degrees + */ + public static double getTY(String limelightName) { + return getLimelightNTDouble(limelightName, "ty"); + } + + /** + * Gets the horizontal offset from the principal pixel/point to the target in degrees. This is the most accurate 2d metric if you are using a calibrated camera and you don't need adjustable crosshair functionality. + * @param limelightName Name of the Limelight camera ("" for default) + * @return Horizontal offset angle in degrees + */ + public static double getTXNC(String limelightName) { + return getLimelightNTDouble(limelightName, "txnc"); + } + + /** + * Gets the vertical offset from the principal pixel/point to the target in degrees. This is the most accurate 2d metric if you are using a calibrated camera and you don't need adjustable crosshair functionality. + * @param limelightName Name of the Limelight camera ("" for default) + * @return Vertical offset angle in degrees + */ + public static double getTYNC(String limelightName) { + return getLimelightNTDouble(limelightName, "tync"); + } + + /** + * Gets the target area as a percentage of the image (0-100%). + * @param limelightName Name of the Limelight camera ("" for default) + * @return Target area percentage (0-100) + */ + public static double getTA(String limelightName) { + return getLimelightNTDouble(limelightName, "ta"); + } + + /** + * T2D is an array that contains several targeting metrcis + * @param limelightName Name of the Limelight camera + * @return Array containing [targetValid, targetCount, targetLatency, captureLatency, tx, ty, txnc, tync, ta, tid, targetClassIndexDetector, + * targetClassIndexClassifier, targetLongSidePixels, targetShortSidePixels, targetHorizontalExtentPixels, targetVerticalExtentPixels, targetSkewDegrees] + */ + public static double[] getT2DArray(String limelightName) { + return getLimelightNTDoubleArray(limelightName, "t2d"); + } + + /** + * Gets the number of targets currently detected. + * @param limelightName Name of the Limelight camera + * @return Number of detected targets + */ + public static int getTargetCount(String limelightName) { + double[] t2d = getT2DArray(limelightName); + if(t2d.length == 17) + { + return (int)t2d[1]; + } + return 0; + } + + /** + * Gets the classifier class index from the currently running neural classifier pipeline + * @param limelightName Name of the Limelight camera + * @return Class index from classifier pipeline + */ + public static int getClassifierClassIndex (String limelightName) { + double[] t2d = getT2DArray(limelightName); + if(t2d.length == 17) + { + return (int)t2d[10]; + } + return 0; + } + + /** + * Gets the detector class index from the primary result of the currently running neural detector pipeline. + * @param limelightName Name of the Limelight camera + * @return Class index from detector pipeline + */ + public static int getDetectorClassIndex (String limelightName) { + double[] t2d = getT2DArray(limelightName); + if(t2d.length == 17) + { + return (int)t2d[11]; + } + return 0; + } + + /** + * Gets the current neural classifier result class name. + * @param limelightName Name of the Limelight camera + * @return Class name string from classifier pipeline + */ + public static String getClassifierClass (String limelightName) { + return getLimelightNTString(limelightName, "tcclass"); + } + + /** + * Gets the primary neural detector result class name. + * @param limelightName Name of the Limelight camera + * @return Class name string from detector pipeline + */ + public static String getDetectorClass (String limelightName) { + return getLimelightNTString(limelightName, "tdclass"); + } + + /** + * Gets the pipeline's processing latency contribution. + * @param limelightName Name of the Limelight camera + * @return Pipeline latency in milliseconds + */ + public static double getLatency_Pipeline(String limelightName) { + return getLimelightNTDouble(limelightName, "tl"); + } + + /** + * Gets the capture latency. + * @param limelightName Name of the Limelight camera + * @return Capture latency in milliseconds + */ + public static double getLatency_Capture(String limelightName) { + return getLimelightNTDouble(limelightName, "cl"); + } + + /** + * Gets the active pipeline index. + * @param limelightName Name of the Limelight camera + * @return Current pipeline index (0-9) + */ + public static double getCurrentPipelineIndex(String limelightName) { + return getLimelightNTDouble(limelightName, "getpipe"); + } + + /** + * Gets the current pipeline type. + * @param limelightName Name of the Limelight camera + * @return Pipeline type string (e.g. "retro", "apriltag", etc) + */ + public static String getCurrentPipelineType(String limelightName) { + return getLimelightNTString(limelightName, "getpipetype"); + } + + /** + * Gets the full JSON results dump. + * @param limelightName Name of the Limelight camera + * @return JSON string containing all current results + */ + public static String getJSONDump(String limelightName) { + return getLimelightNTString(limelightName, "json"); + } + + /** + * Switch to getBotPose + * + * @param limelightName + * @return + */ + @Deprecated + public static double[] getBotpose(String limelightName) { + return getLimelightNTDoubleArray(limelightName, "botpose"); + } + + /** + * Switch to getBotPose_wpiRed + * + * @param limelightName + * @return + */ + @Deprecated + public static double[] getBotpose_wpiRed(String limelightName) { + return getLimelightNTDoubleArray(limelightName, "botpose_wpired"); + } + + /** + * Switch to getBotPose_wpiBlue + * + * @param limelightName + * @return + */ + @Deprecated + public static double[] getBotpose_wpiBlue(String limelightName) { + return getLimelightNTDoubleArray(limelightName, "botpose_wpiblue"); + } + + public static double[] getBotPose(String limelightName) { + return getLimelightNTDoubleArray(limelightName, "botpose"); + } + + public static double[] getBotPose_wpiRed(String limelightName) { + return getLimelightNTDoubleArray(limelightName, "botpose_wpired"); + } + + public static double[] getBotPose_wpiBlue(String limelightName) { + return getLimelightNTDoubleArray(limelightName, "botpose_wpiblue"); + } + + public static double[] getBotPose_TargetSpace(String limelightName) { + return getLimelightNTDoubleArray(limelightName, "botpose_targetspace"); + } + + public static double[] getCameraPose_TargetSpace(String limelightName) { + return getLimelightNTDoubleArray(limelightName, "camerapose_targetspace"); + } + + public static double[] getTargetPose_CameraSpace(String limelightName) { + return getLimelightNTDoubleArray(limelightName, "targetpose_cameraspace"); + } + + public static double[] getTargetPose_RobotSpace(String limelightName) { + return getLimelightNTDoubleArray(limelightName, "targetpose_robotspace"); + } + + public static double[] getTargetColor(String limelightName) { + return getLimelightNTDoubleArray(limelightName, "tc"); + } + + public static double getFiducialID(String limelightName) { + return getLimelightNTDouble(limelightName, "tid"); + } + + public static String getNeuralClassID(String limelightName) { + return getLimelightNTString(limelightName, "tclass"); + } + + public static String[] getRawBarcodeData(String limelightName) { + return getLimelightNTStringArray(limelightName, "rawbarcodes"); + } + + ///// + ///// + + public static Pose3d getBotPose3d(String limelightName) { + double[] poseArray = getLimelightNTDoubleArray(limelightName, "botpose"); + return toPose3D(poseArray); + } + + /** + * (Not Recommended) Gets the robot's 3D pose in the WPILib Red Alliance Coordinate System. + * @param limelightName Name/identifier of the Limelight + * @return Pose3d object representing the robot's position and orientation in Red Alliance field space + */ + public static Pose3d getBotPose3d_wpiRed(String limelightName) { + double[] poseArray = getLimelightNTDoubleArray(limelightName, "botpose_wpired"); + return toPose3D(poseArray); + } + + /** + * (Recommended) Gets the robot's 3D pose in the WPILib Blue Alliance Coordinate System. + * @param limelightName Name/identifier of the Limelight + * @return Pose3d object representing the robot's position and orientation in Blue Alliance field space + */ + public static Pose3d getBotPose3d_wpiBlue(String limelightName) { + double[] poseArray = getLimelightNTDoubleArray(limelightName, "botpose_wpiblue"); + return toPose3D(poseArray); + } + + /** + * Gets the robot's 3D pose with respect to the currently tracked target's coordinate system. + * @param limelightName Name/identifier of the Limelight + * @return Pose3d object representing the robot's position and orientation relative to the target + */ + public static Pose3d getBotPose3d_TargetSpace(String limelightName) { + double[] poseArray = getLimelightNTDoubleArray(limelightName, "botpose_targetspace"); + return toPose3D(poseArray); + } + + /** + * Gets the camera's 3D pose with respect to the currently tracked target's coordinate system. + * @param limelightName Name/identifier of the Limelight + * @return Pose3d object representing the camera's position and orientation relative to the target + */ + public static Pose3d getCameraPose3d_TargetSpace(String limelightName) { + double[] poseArray = getLimelightNTDoubleArray(limelightName, "camerapose_targetspace"); + return toPose3D(poseArray); + } + + /** + * Gets the target's 3D pose with respect to the camera's coordinate system. + * @param limelightName Name/identifier of the Limelight + * @return Pose3d object representing the target's position and orientation relative to the camera + */ + public static Pose3d getTargetPose3d_CameraSpace(String limelightName) { + double[] poseArray = getLimelightNTDoubleArray(limelightName, "targetpose_cameraspace"); + return toPose3D(poseArray); + } + + /** + * Gets the target's 3D pose with respect to the robot's coordinate system. + * @param limelightName Name/identifier of the Limelight + * @return Pose3d object representing the target's position and orientation relative to the robot + */ + public static Pose3d getTargetPose3d_RobotSpace(String limelightName) { + double[] poseArray = getLimelightNTDoubleArray(limelightName, "targetpose_robotspace"); + return toPose3D(poseArray); + } + + /** + * Gets the camera's 3D pose with respect to the robot's coordinate system. + * @param limelightName Name/identifier of the Limelight + * @return Pose3d object representing the camera's position and orientation relative to the robot + */ + public static Pose3d getCameraPose3d_RobotSpace(String limelightName) { + double[] poseArray = getLimelightNTDoubleArray(limelightName, "camerapose_robotspace"); + return toPose3D(poseArray); + } + + /** + * Gets the Pose2d for easy use with Odometry vision pose estimator + * (addVisionMeasurement) + * + * @param limelightName + * @return + */ + public static Pose2d getBotPose2d_wpiBlue(String limelightName) { + + double[] result = getBotPose_wpiBlue(limelightName); + return toPose2D(result); + } + + /** + * Gets the MegaTag1 Pose2d and timestamp for use with WPILib pose estimator (addVisionMeasurement) in the WPILib Blue alliance coordinate system. + * + * @param limelightName + * @return + */ + public static PoseEstimate getBotPoseEstimate_wpiBlue(String limelightName) { + return getBotPoseEstimate(limelightName, "botpose_wpiblue", false); + } + + /** + * Gets the MegaTag2 Pose2d and timestamp for use with WPILib pose estimator (addVisionMeasurement) in the WPILib Blue alliance coordinate system. + * Make sure you are calling setRobotOrientation() before calling this method. + * + * @param limelightName + * @return + */ + public static PoseEstimate getBotPoseEstimate_wpiBlue_MegaTag2(String limelightName) { + return getBotPoseEstimate(limelightName, "botpose_orb_wpiblue", true); + } + + /** + * Gets the Pose2d for easy use with Odometry vision pose estimator + * (addVisionMeasurement) + * + * @param limelightName + * @return + */ + public static Pose2d getBotPose2d_wpiRed(String limelightName) { + + double[] result = getBotPose_wpiRed(limelightName); + return toPose2D(result); + + } + + /** + * Gets the Pose2d and timestamp for use with WPILib pose estimator (addVisionMeasurement) when you are on the RED + * alliance + * @param limelightName + * @return + */ + public static PoseEstimate getBotPoseEstimate_wpiRed(String limelightName) { + return getBotPoseEstimate(limelightName, "botpose_wpired", false); + } + + /** + * Gets the Pose2d and timestamp for use with WPILib pose estimator (addVisionMeasurement) when you are on the RED + * alliance + * @param limelightName + * @return + */ + public static PoseEstimate getBotPoseEstimate_wpiRed_MegaTag2(String limelightName) { + return getBotPoseEstimate(limelightName, "botpose_orb_wpired", true); + } + + /** + * Gets the Pose2d for easy use with Odometry vision pose estimator + * (addVisionMeasurement) + * + * @param limelightName + * @return + */ + public static Pose2d getBotPose2d(String limelightName) { + + double[] result = getBotPose(limelightName); + return toPose2D(result); + + } + + + + ///// + ///// + + public static void setPipelineIndex(String limelightName, int pipelineIndex) { + setLimelightNTDouble(limelightName, "pipeline", pipelineIndex); + } + + + public static void setPriorityTagID(String limelightName, int ID) { + setLimelightNTDouble(limelightName, "priorityid", ID); + } + + /** + * Sets LED mode to be controlled by the current pipeline. + * @param limelightName Name of the Limelight camera + */ + public static void setLEDMode_PipelineControl(String limelightName) { + setLimelightNTDouble(limelightName, "ledMode", 0); + } + + public static void setLEDMode_ForceOff(String limelightName) { + setLimelightNTDouble(limelightName, "ledMode", 1); + } + + public static void setLEDMode_ForceBlink(String limelightName) { + setLimelightNTDouble(limelightName, "ledMode", 2); + } + + public static void setLEDMode_ForceOn(String limelightName) { + setLimelightNTDouble(limelightName, "ledMode", 3); + } + + /** + * Enables standard side-by-side stream mode. + * @param limelightName Name of the Limelight camera + */ + public static void setStreamMode_Standard(String limelightName) { + setLimelightNTDouble(limelightName, "stream", 0); + } + + /** + * Enables Picture-in-Picture mode with secondary stream in the corner. + * @param limelightName Name of the Limelight camera + */ + public static void setStreamMode_PiPMain(String limelightName) { + setLimelightNTDouble(limelightName, "stream", 1); + } + + /** + * Enables Picture-in-Picture mode with primary stream in the corner. + * @param limelightName Name of the Limelight camera + */ + public static void setStreamMode_PiPSecondary(String limelightName) { + setLimelightNTDouble(limelightName, "stream", 2); + } + + + /** + * Sets the crop window for the camera. The crop window in the UI must be completely open. + * @param limelightName Name of the Limelight camera + * @param cropXMin Minimum X value (-1 to 1) + * @param cropXMax Maximum X value (-1 to 1) + * @param cropYMin Minimum Y value (-1 to 1) + * @param cropYMax Maximum Y value (-1 to 1) + */ + public static void setCropWindow(String limelightName, double cropXMin, double cropXMax, double cropYMin, double cropYMax) { + double[] entries = new double[4]; + entries[0] = cropXMin; + entries[1] = cropXMax; + entries[2] = cropYMin; + entries[3] = cropYMax; + setLimelightNTDoubleArray(limelightName, "crop", entries); + } + + /** + * Sets 3D offset point for easy 3D targeting. + */ + public static void setFiducial3DOffset(String limelightName, double offsetX, double offsetY, double offsetZ) { + double[] entries = new double[3]; + entries[0] = offsetX; + entries[1] = offsetY; + entries[2] = offsetZ; + setLimelightNTDoubleArray(limelightName, "fiducial_offset_set", entries); + } + + /** + * Sets robot orientation values used by MegaTag2 localization algorithm. + * + * @param limelightName Name/identifier of the Limelight + * @param yaw Robot yaw in degrees. 0 = robot facing red alliance wall in FRC + * @param yawRate (Unnecessary) Angular velocity of robot yaw in degrees per second + * @param pitch (Unnecessary) Robot pitch in degrees + * @param pitchRate (Unnecessary) Angular velocity of robot pitch in degrees per second + * @param roll (Unnecessary) Robot roll in degrees + * @param rollRate (Unnecessary) Angular velocity of robot roll in degrees per second + */ + public static void SetRobotOrientation(String limelightName, double yaw, double yawRate, + double pitch, double pitchRate, + double roll, double rollRate) { + SetRobotOrientation_INTERNAL(limelightName, yaw, yawRate, pitch, pitchRate, roll, rollRate, true); + } + + public static void SetRobotOrientation_NoFlush(String limelightName, double yaw, double yawRate, + double pitch, double pitchRate, + double roll, double rollRate) { + SetRobotOrientation_INTERNAL(limelightName, yaw, yawRate, pitch, pitchRate, roll, rollRate, false); + } + + private static void SetRobotOrientation_INTERNAL(String limelightName, double yaw, double yawRate, + double pitch, double pitchRate, + double roll, double rollRate, boolean flush) { + + double[] entries = new double[6]; + entries[0] = yaw; + entries[1] = yawRate; + entries[2] = pitch; + entries[3] = pitchRate; + entries[4] = roll; + entries[5] = rollRate; + setLimelightNTDoubleArray(limelightName, "robot_orientation_set", entries); + if(flush) + { + Flush(); + } + } + + /** + * Sets the 3D point-of-interest offset for the current fiducial pipeline. + * https://docs.limelightvision.io/docs/docs-limelight/pipeline-apriltag/apriltag-3d#point-of-interest-tracking + * + * @param limelightName Name/identifier of the Limelight + * @param x X offset in meters + * @param y Y offset in meters + * @param z Z offset in meters + */ + public static void SetFidcuial3DOffset(String limelightName, double x, double y, + double z) { + + double[] entries = new double[3]; + entries[0] = x; + entries[1] = y; + entries[2] = z; + setLimelightNTDoubleArray(limelightName, "fiducial_offset_set", entries); + } + + /** + * Overrides the valid AprilTag IDs that will be used for localization. + * Tags not in this list will be ignored for robot pose estimation. + * + * @param limelightName Name/identifier of the Limelight + * @param validIDs Array of valid AprilTag IDs to track + */ + public static void SetFiducialIDFiltersOverride(String limelightName, int[] validIDs) { + double[] validIDsDouble = new double[validIDs.length]; + for (int i = 0; i < validIDs.length; i++) { + validIDsDouble[i] = validIDs[i]; + } + setLimelightNTDoubleArray(limelightName, "fiducial_id_filters_set", validIDsDouble); + } + + /** + * Sets the downscaling factor for AprilTag detection. + * Increasing downscale can improve performance at the cost of potentially reduced detection range. + * + * @param limelightName Name/identifier of the Limelight + * @param downscale Downscale factor. Valid values: 1.0 (no downscale), 1.5, 2.0, 3.0, 4.0. Set to 0 for pipeline control. + */ + public static void SetFiducialDownscalingOverride(String limelightName, float downscale) + { + int d = 0; // pipeline + if (downscale == 1.0) + { + d = 1; + } + if (downscale == 1.5) + { + d = 2; + } + if (downscale == 2) + { + d = 3; + } + if (downscale == 3) + { + d = 4; + } + if (downscale == 4) + { + d = 5; + } + setLimelightNTDouble(limelightName, "fiducial_downscale_set", d); + } + + /** + * Sets the camera pose relative to the robot. + * @param limelightName Name of the Limelight camera + * @param forward Forward offset in meters + * @param side Side offset in meters + * @param up Up offset in meters + * @param roll Roll angle in degrees + * @param pitch Pitch angle in degrees + * @param yaw Yaw angle in degrees + */ + public static void setCameraPose_RobotSpace(String limelightName, double forward, double side, double up, double roll, double pitch, double yaw) { + double[] entries = new double[6]; + entries[0] = forward; + entries[1] = side; + entries[2] = up; + entries[3] = roll; + entries[4] = pitch; + entries[5] = yaw; + setLimelightNTDoubleArray(limelightName, "camerapose_robotspace_set", entries); + } + + ///// + ///// + + public static void setPythonScriptData(String limelightName, double[] outgoingPythonData) { + setLimelightNTDoubleArray(limelightName, "llrobot", outgoingPythonData); + } + + public static double[] getPythonScriptData(String limelightName) { + return getLimelightNTDoubleArray(limelightName, "llpython"); + } + + ///// + ///// + + /** + * Asynchronously take snapshot. + */ + public static CompletableFuture takeSnapshot(String tableName, String snapshotName) { + return CompletableFuture.supplyAsync(() -> { + return SYNCH_TAKESNAPSHOT(tableName, snapshotName); + }); + } + + private static boolean SYNCH_TAKESNAPSHOT(String tableName, String snapshotName) { + URL url = getLimelightURLString(tableName, "capturesnapshot"); + try { + HttpURLConnection connection = (HttpURLConnection) url.openConnection(); + connection.setRequestMethod("GET"); + if (snapshotName != null && snapshotName != "") { + connection.setRequestProperty("snapname", snapshotName); + } + + int responseCode = connection.getResponseCode(); + if (responseCode == 200) { + return true; + } else { + System.err.println("Bad LL Request"); + } + } catch (IOException e) { + System.err.println(e.getMessage()); + } + return false; + } + + /** + * Gets the latest JSON results output and returns a LimelightResults object. + * @param limelightName Name of the Limelight camera + * @return LimelightResults object containing all current target data + */ + public static LimelightResults getLatestResults(String limelightName) { + + long start = System.nanoTime(); + LimelightHelpers.LimelightResults results = new LimelightHelpers.LimelightResults(); + if (mapper == null) { + mapper = new ObjectMapper().configure(DeserializationFeature.FAIL_ON_UNKNOWN_PROPERTIES, false); + } + + try { + results = mapper.readValue(getJSONDump(limelightName), LimelightResults.class); + } catch (JsonProcessingException e) { + results.error = "lljson error: " + e.getMessage(); + } + + long end = System.nanoTime(); + double millis = (end - start) * .000001; + results.latency_jsonParse = millis; + if (profileJSON) { + System.out.printf("lljson: %.2f\r\n", millis); + } + + return results; + } +} diff --git a/src/main/java/frc/robot/Main.java b/src/main/java/frc/robot/Main.java new file mode 100644 index 0000000..fe215d7 --- /dev/null +++ b/src/main/java/frc/robot/Main.java @@ -0,0 +1,15 @@ +// 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.wpilibj.RobotBase; + +public final class Main { + private Main() {} + + public static void main(String... args) { + RobotBase.startRobot(Robot::new); + } +} diff --git a/src/main/java/frc/robot/Robot.java b/src/main/java/frc/robot/Robot.java new file mode 100644 index 0000000..a09abd6 --- /dev/null +++ b/src/main/java/frc/robot/Robot.java @@ -0,0 +1,106 @@ +// 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 com.ctre.phoenix6.HootAutoReplay; + +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; + +public class Robot extends TimedRobot { + private Command m_autonomousCommand; + + private final RobotContainer m_robotContainer; + + /* log and replay timestamp and joystick data */ + private final HootAutoReplay m_timeAndJoystickReplay = new HootAutoReplay() + .withTimestampReplay() + .withJoystickReplay(); + + private final boolean kUseLimelight = false; + + public Robot() { + m_robotContainer = new RobotContainer(); + } + + @Override + public void robotPeriodic() { + m_timeAndJoystickReplay.update(); + CommandScheduler.getInstance().run(); + + /* + * This example of adding Limelight is very simple and may not be sufficient for on-field use. + * Users typically need to provide a standard deviation that scales with the distance to target + * and changes with number of tags available. + * + * This example is sufficient to show that vision integration is possible, though exact implementation + * of how to use vision should be tuned per-robot and to the team's specification. + */ + if (kUseLimelight) { + var driveState = m_robotContainer.drivetrain.getState(); + double headingDeg = driveState.Pose.getRotation().getDegrees(); + double omegaRps = Units.radiansToRotations(driveState.Speeds.omegaRadiansPerSecond); + + LimelightHelpers.SetRobotOrientation("limelight", headingDeg, 0, 0, 0, 0, 0); + var llMeasurement = LimelightHelpers.getBotPoseEstimate_wpiBlue_MegaTag2("limelight"); + if (llMeasurement != null && llMeasurement.tagCount > 0 && Math.abs(omegaRps) < 2.0) { + m_robotContainer.drivetrain.addVisionMeasurement(llMeasurement.pose, llMeasurement.timestampSeconds); + } + } + } + + @Override + public void disabledInit() {} + + @Override + public void disabledPeriodic() {} + + @Override + public void disabledExit() {} + + @Override + public void autonomousInit() { + m_autonomousCommand = m_robotContainer.getAutonomousCommand(); + + if (m_autonomousCommand != null) { + CommandScheduler.getInstance().schedule(m_autonomousCommand); + } + } + + @Override + public void autonomousPeriodic() {} + + @Override + public void autonomousExit() {} + + @Override + public void teleopInit() { + if (m_autonomousCommand != null) { + CommandScheduler.getInstance().cancel(m_autonomousCommand); + } + } + + @Override + public void teleopPeriodic() {} + + @Override + public void teleopExit() {} + + @Override + public void testInit() { + CommandScheduler.getInstance().cancelAll(); + } + + @Override + public void testPeriodic() {} + + @Override + public void testExit() {} + + @Override + public void simulationPeriodic() {} +} diff --git a/src/main/java/frc/robot/RobotContainer.java b/src/main/java/frc/robot/RobotContainer.java new file mode 100644 index 0000000..4f26f42 --- /dev/null +++ b/src/main/java/frc/robot/RobotContainer.java @@ -0,0 +1,106 @@ +// 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 static edu.wpi.first.units.Units.*; + +import com.ctre.phoenix6.swerve.SwerveModule.DriveRequestType; +import com.ctre.phoenix6.swerve.SwerveRequest; + +import com.pathplanner.lib.auto.AutoBuilder; +import com.pathplanner.lib.commands.FollowPathCommand; + +import edu.wpi.first.math.geometry.Rotation2d; +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.button.CommandXboxController; +import edu.wpi.first.wpilibj2.command.button.RobotModeTriggers; +import edu.wpi.first.wpilibj2.command.sysid.SysIdRoutine.Direction; + +import frc.robot.generated.TunerConstants; +import frc.robot.subsystems.CommandSwerveDrivetrain; + +public class RobotContainer { + 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 + + /* 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 SwerveRequest.RobotCentric forwardStraight = new SwerveRequest.RobotCentric() + .withDriveRequestType(DriveRequestType.OpenLoopVoltage); + + private final Telemetry logger = new Telemetry(MaxSpeed); + + private final CommandXboxController joystick = new CommandXboxController(0); + + public final CommandSwerveDrivetrain drivetrain = TunerConstants.createDrivetrain(); + + /* Path follower */ + private final SendableChooser autoChooser; + + public RobotContainer() { + autoChooser = AutoBuilder.buildAutoChooser("Tests"); + SmartDashboard.putData("Auto Mode", autoChooser); + + configureBindings(); + + // Warmup PathPlanner to avoid Java pauses + FollowPathCommand.warmupCommand().schedule(); + } + + private void configureBindings() { + // Note that X is defined as forward according to WPILib convention, + // and Y is defined as to the left according to WPILib convention. + drivetrain.setDefaultCommand( + // Drivetrain will execute this command periodically + drivetrain.applyRequest(() -> + drive.withVelocityX(-joystick.getLeftY() * MaxSpeed) // Drive forward with negative Y (forward) + .withVelocityY(-joystick.getLeftX() * MaxSpeed) // Drive left with negative X (left) + .withRotationalRate(-joystick.getRightX() * MaxAngularRate) // Drive counterclockwise with negative X (left) + ) + ); + + // Idle while the robot is disabled. This ensures the configured + // neutral mode is applied to the drive motors while disabled. + final var idle = new SwerveRequest.Idle(); + RobotModeTriggers.disabled().whileTrue( + drivetrain.applyRequest(() -> idle).ignoringDisable(true) + ); + + joystick.a().whileTrue(drivetrain.applyRequest(() -> brake)); + joystick.b().whileTrue(drivetrain.applyRequest(() -> + point.withModuleDirection(new Rotation2d(-joystick.getLeftY(), -joystick.getLeftX())) + )); + + joystick.povUp().whileTrue(drivetrain.applyRequest(() -> + forwardStraight.withVelocityX(0.5).withVelocityY(0)) + ); + joystick.povDown().whileTrue(drivetrain.applyRequest(() -> + forwardStraight.withVelocityX(-0.5).withVelocityY(0)) + ); + + // Run SysId routines when holding back/start and X/Y. + // Note that each routine should be run exactly once in a single log. + joystick.back().and(joystick.y()).whileTrue(drivetrain.sysIdDynamic(Direction.kForward)); + joystick.back().and(joystick.x()).whileTrue(drivetrain.sysIdDynamic(Direction.kReverse)); + joystick.start().and(joystick.y()).whileTrue(drivetrain.sysIdQuasistatic(Direction.kForward)); + joystick.start().and(joystick.x()).whileTrue(drivetrain.sysIdQuasistatic(Direction.kReverse)); + + // Reset the field-centric heading on left bumper press. + joystick.leftBumper().onTrue(drivetrain.runOnce(drivetrain::seedFieldCentric)); + + drivetrain.registerTelemetry(logger::telemeterize); + } + + public Command getAutonomousCommand() { + /* Run the path selected from the auto chooser */ + return autoChooser.getSelected(); + } +} diff --git a/src/main/java/frc/robot/Telemetry.java b/src/main/java/frc/robot/Telemetry.java new file mode 100644 index 0000000..f9da948 --- /dev/null +++ b/src/main/java/frc/robot/Telemetry.java @@ -0,0 +1,121 @@ +package frc.robot; + +import com.ctre.phoenix6.SignalLogger; +import com.ctre.phoenix6.swerve.SwerveDrivetrain.SwerveDriveState; + +import edu.wpi.first.math.geometry.Pose2d; +import edu.wpi.first.math.kinematics.ChassisSpeeds; +import edu.wpi.first.math.kinematics.SwerveModulePosition; +import edu.wpi.first.math.kinematics.SwerveModuleState; +import edu.wpi.first.networktables.DoubleArrayPublisher; +import edu.wpi.first.networktables.DoublePublisher; +import edu.wpi.first.networktables.NetworkTable; +import edu.wpi.first.networktables.NetworkTableInstance; +import edu.wpi.first.networktables.StringPublisher; +import edu.wpi.first.networktables.StructArrayPublisher; +import edu.wpi.first.networktables.StructPublisher; +import edu.wpi.first.wpilibj.smartdashboard.Mechanism2d; +import edu.wpi.first.wpilibj.smartdashboard.MechanismLigament2d; +import edu.wpi.first.wpilibj.smartdashboard.SmartDashboard; +import edu.wpi.first.wpilibj.util.Color; +import edu.wpi.first.wpilibj.util.Color8Bit; + +public class Telemetry { + private final double MaxSpeed; + + /** + * Construct a telemetry object, with the specified max speed of the robot + * + * @param maxSpeed Maximum speed in meters per second + */ + public Telemetry(double maxSpeed) { + MaxSpeed = maxSpeed; + SignalLogger.start(); + + /* Set up the module state Mechanism2d telemetry */ + for (int i = 0; i < 4; ++i) { + SmartDashboard.putData("Module " + i, m_moduleMechanisms[i]); + } + } + + /* What to publish over networktables for telemetry */ + private final NetworkTableInstance inst = NetworkTableInstance.getDefault(); + + /* Robot swerve drive state */ + private final NetworkTable driveStateTable = inst.getTable("DriveState"); + private final StructPublisher drivePose = driveStateTable.getStructTopic("Pose", Pose2d.struct).publish(); + private final StructPublisher driveSpeeds = driveStateTable.getStructTopic("Speeds", ChassisSpeeds.struct).publish(); + private final StructArrayPublisher driveModuleStates = driveStateTable.getStructArrayTopic("ModuleStates", SwerveModuleState.struct).publish(); + private final StructArrayPublisher driveModuleTargets = driveStateTable.getStructArrayTopic("ModuleTargets", SwerveModuleState.struct).publish(); + private final StructArrayPublisher driveModulePositions = driveStateTable.getStructArrayTopic("ModulePositions", SwerveModulePosition.struct).publish(); + private final DoublePublisher driveTimestamp = driveStateTable.getDoubleTopic("Timestamp").publish(); + private final DoublePublisher driveOdometryFrequency = driveStateTable.getDoubleTopic("OdometryFrequency").publish(); + + /* Robot pose for field positioning */ + private final NetworkTable table = inst.getTable("Pose"); + private final DoubleArrayPublisher fieldPub = table.getDoubleArrayTopic("robotPose").publish(); + private final StringPublisher fieldTypePub = table.getStringTopic(".type").publish(); + + /* Mechanisms to represent the swerve module states */ + private final Mechanism2d[] m_moduleMechanisms = new Mechanism2d[] { + new Mechanism2d(1, 1), + new Mechanism2d(1, 1), + new Mechanism2d(1, 1), + new Mechanism2d(1, 1), + }; + /* A direction and length changing ligament for speed representation */ + private final MechanismLigament2d[] m_moduleSpeeds = new MechanismLigament2d[] { + m_moduleMechanisms[0].getRoot("RootSpeed", 0.5, 0.5).append(new MechanismLigament2d("Speed", 0.5, 0)), + m_moduleMechanisms[1].getRoot("RootSpeed", 0.5, 0.5).append(new MechanismLigament2d("Speed", 0.5, 0)), + m_moduleMechanisms[2].getRoot("RootSpeed", 0.5, 0.5).append(new MechanismLigament2d("Speed", 0.5, 0)), + m_moduleMechanisms[3].getRoot("RootSpeed", 0.5, 0.5).append(new MechanismLigament2d("Speed", 0.5, 0)), + }; + /* A direction changing and length constant ligament for module direction */ + private final MechanismLigament2d[] m_moduleDirections = new MechanismLigament2d[] { + m_moduleMechanisms[0].getRoot("RootDirection", 0.5, 0.5) + .append(new MechanismLigament2d("Direction", 0.1, 0, 0, new Color8Bit(Color.kWhite))), + m_moduleMechanisms[1].getRoot("RootDirection", 0.5, 0.5) + .append(new MechanismLigament2d("Direction", 0.1, 0, 0, new Color8Bit(Color.kWhite))), + m_moduleMechanisms[2].getRoot("RootDirection", 0.5, 0.5) + .append(new MechanismLigament2d("Direction", 0.1, 0, 0, new Color8Bit(Color.kWhite))), + m_moduleMechanisms[3].getRoot("RootDirection", 0.5, 0.5) + .append(new MechanismLigament2d("Direction", 0.1, 0, 0, new Color8Bit(Color.kWhite))), + }; + + private final double[] m_poseArray = new double[3]; + + /** Accept the swerve drive state and telemeterize it to SmartDashboard and SignalLogger. */ + public void telemeterize(SwerveDriveState state) { + /* Telemeterize the swerve drive state */ + drivePose.set(state.Pose); + driveSpeeds.set(state.Speeds); + driveModuleStates.set(state.ModuleStates); + driveModuleTargets.set(state.ModuleTargets); + driveModulePositions.set(state.ModulePositions); + driveTimestamp.set(state.Timestamp); + driveOdometryFrequency.set(1.0 / state.OdometryPeriod); + + /* Also write to log file */ + SignalLogger.writeStruct("DriveState/Pose", Pose2d.struct, state.Pose); + SignalLogger.writeStruct("DriveState/Speeds", ChassisSpeeds.struct, state.Speeds); + SignalLogger.writeStructArray("DriveState/ModuleStates", SwerveModuleState.struct, state.ModuleStates); + SignalLogger.writeStructArray("DriveState/ModuleTargets", SwerveModuleState.struct, state.ModuleTargets); + SignalLogger.writeStructArray("DriveState/ModulePositions", SwerveModulePosition.struct, state.ModulePositions); + SignalLogger.writeDouble("DriveState/OdometryPeriod", state.OdometryPeriod, "seconds"); + + /* Telemeterize the pose to a Field2d */ + fieldTypePub.set("Field2d"); + + m_poseArray[0] = state.Pose.getX(); + m_poseArray[1] = state.Pose.getY(); + m_poseArray[2] = state.Pose.getRotation().getDegrees(); + fieldPub.set(m_poseArray); + + /* Telemeterize each module state to a Mechanism2d */ + for (int i = 0; i < 4; ++i) { + m_moduleSpeeds[i].setAngle(state.ModuleStates[i].angle); + m_moduleDirections[i].setAngle(state.ModuleStates[i].angle); + m_moduleSpeeds[i].setLength(state.ModuleStates[i].speedMetersPerSecond / (2 * MaxSpeed)); + } + } +} diff --git a/src/main/java/frc/robot/generated/TunerConstants.java b/src/main/java/frc/robot/generated/TunerConstants.java new file mode 100644 index 0000000..7da1789 --- /dev/null +++ b/src/main/java/frc/robot/generated/TunerConstants.java @@ -0,0 +1,286 @@ +package frc.robot.generated; + +import static edu.wpi.first.units.Units.*; + +import com.ctre.phoenix6.CANBus; +import com.ctre.phoenix6.configs.*; +import com.ctre.phoenix6.hardware.*; +import com.ctre.phoenix6.signals.*; +import com.ctre.phoenix6.swerve.*; +import com.ctre.phoenix6.swerve.SwerveModuleConstants.*; + +import edu.wpi.first.math.Matrix; +import edu.wpi.first.math.numbers.N1; +import edu.wpi.first.math.numbers.N3; +import edu.wpi.first.units.measure.*; + +import frc.robot.subsystems.CommandSwerveDrivetrain; + +// Generated by the 2026 Tuner X Swerve Project Generator +// https://v6.docs.ctr-electronics.com/en/stable/docs/tuner/tuner-swerve/index.html +public class TunerConstants { + // Both sets of gains need to be tuned to your individual robot. + + // The steer motor uses any SwerveModule.SteerRequestType control request with the + // output type specified by SwerveModuleConstants.SteerMotorClosedLoopOutput + private static final Slot0Configs steerGains = new Slot0Configs() + .withKP(100).withKI(0).withKD(0.5) + .withKS(0.1).withKV(1.91).withKA(0) + .withStaticFeedforwardSign(StaticFeedforwardSignValue.UseClosedLoopSign); + // When using closed-loop control, the drive motor uses the control + // output type specified by SwerveModuleConstants.DriveMotorClosedLoopOutput + private static final Slot0Configs driveGains = new Slot0Configs() + .withKP(0.1).withKI(0).withKD(0) + .withKS(0).withKV(0.124); + + // The closed-loop output type to use for the steer motors; + // This affects the PID/FF gains for the steer motors + private static final ClosedLoopOutputType kSteerClosedLoopOutput = ClosedLoopOutputType.Voltage; + // The closed-loop output type to use for the drive motors; + // This affects the PID/FF gains for the drive motors + private static final ClosedLoopOutputType kDriveClosedLoopOutput = ClosedLoopOutputType.Voltage; + + // The type of motor used for the drive motor + private static final DriveMotorArrangement kDriveMotorType = DriveMotorArrangement.TalonFX_Integrated; + // The type of motor used for the drive motor + private static final SteerMotorArrangement kSteerMotorType = SteerMotorArrangement.TalonFX_Integrated; + + // The remote sensor feedback type to use for the steer motors; + // When not Pro-licensed, Fused*/Sync* automatically fall back to Remote* + private static final SteerFeedbackType kSteerFeedbackType = SteerFeedbackType.FusedCANcoder; + + // The stator current at which the wheels start to slip; + // This needs to be tuned to your individual robot + private static final Current kSlipCurrent = Amps.of(120); + + // Initial configs for the drive and steer motors and the azimuth encoder; these cannot be null. + // Some configs will be overwritten; check the `with*InitialConfigs()` API documentation. + private static final TalonFXConfiguration driveInitialConfigs = new TalonFXConfiguration(); + private static final TalonFXConfiguration steerInitialConfigs = new TalonFXConfiguration() + .withCurrentLimits( + new CurrentLimitsConfigs() + // Swerve azimuth does not require much torque output, so we can set a relatively low + // stator current limit to help avoid brownouts without impacting performance. + .withStatorCurrentLimit(Amps.of(60)) + .withStatorCurrentLimitEnable(true) + ); + private static final CANcoderConfiguration encoderInitialConfigs = new CANcoderConfiguration(); + // Configs for the Pigeon 2; leave this null to skip applying Pigeon 2 configs + private static final Pigeon2Configuration pigeonConfigs = null; + + // CAN bus that the devices are located on; + // All swerve devices must share the same CAN bus + public static final CANBus kCANBus = new CANBus("canivore", "./logs/example.hoot"); + + // Theoretical free speed (m/s) at 12 V applied output; + // This needs to be tuned to your individual robot + public static final LinearVelocity kSpeedAt12Volts = MetersPerSecond.of(4.54); + + // Every 1 rotation of the azimuth results in kCoupleRatio drive motor turns; + // This may need to be tuned to your individual robot + private static final double kCoupleRatio = 3.8181818181818183; + + private static final double kDriveGearRatio = 7.363636363636365; + private static final double kSteerGearRatio = 15.42857142857143; + private static final Distance kWheelRadius = Inches.of(2.167); + + private static final boolean kInvertLeftSide = false; + private static final boolean kInvertRightSide = true; + + private static final int kPigeonId = 1; + + // These are only used for simulation + private static final MomentOfInertia kSteerInertia = KilogramSquareMeters.of(0.01); + private static final MomentOfInertia kDriveInertia = KilogramSquareMeters.of(0.01); + // Simulated voltage necessary to overcome friction + private static final Voltage kSteerFrictionVoltage = Volts.of(0.2); + private static final Voltage kDriveFrictionVoltage = Volts.of(0.2); + + public static final SwerveDrivetrainConstants DrivetrainConstants = new SwerveDrivetrainConstants() + .withCANBusName(kCANBus.getName()) + .withPigeon2Id(kPigeonId) + .withPigeon2Configs(pigeonConfigs); + + private static final SwerveModuleConstantsFactory ConstantCreator = + new SwerveModuleConstantsFactory() + .withDriveMotorGearRatio(kDriveGearRatio) + .withSteerMotorGearRatio(kSteerGearRatio) + .withCouplingGearRatio(kCoupleRatio) + .withWheelRadius(kWheelRadius) + .withSteerMotorGains(steerGains) + .withDriveMotorGains(driveGains) + .withSteerMotorClosedLoopOutput(kSteerClosedLoopOutput) + .withDriveMotorClosedLoopOutput(kDriveClosedLoopOutput) + .withSlipCurrent(kSlipCurrent) + .withSpeedAt12Volts(kSpeedAt12Volts) + .withDriveMotorType(kDriveMotorType) + .withSteerMotorType(kSteerMotorType) + .withFeedbackSource(kSteerFeedbackType) + .withDriveMotorInitialConfigs(driveInitialConfigs) + .withSteerMotorInitialConfigs(steerInitialConfigs) + .withEncoderInitialConfigs(encoderInitialConfigs) + .withSteerInertia(kSteerInertia) + .withDriveInertia(kDriveInertia) + .withSteerFrictionVoltage(kSteerFrictionVoltage) + .withDriveFrictionVoltage(kDriveFrictionVoltage); + + + // Front Left + private static final int kFrontLeftDriveMotorId = 3; + private static final int kFrontLeftSteerMotorId = 2; + private static final int kFrontLeftEncoderId = 1; + private static final Angle kFrontLeftEncoderOffset = Rotations.of(0.15234375); + private static final boolean kFrontLeftSteerMotorInverted = true; + private static final boolean kFrontLeftEncoderInverted = false; + + private static final Distance kFrontLeftXPos = Inches.of(10); + private static final Distance kFrontLeftYPos = Inches.of(10); + + // Front Right + private static final int kFrontRightDriveMotorId = 1; + private static final int kFrontRightSteerMotorId = 0; + private static final int kFrontRightEncoderId = 0; + private static final Angle kFrontRightEncoderOffset = Rotations.of(-0.4873046875); + private static final boolean kFrontRightSteerMotorInverted = true; + private static final boolean kFrontRightEncoderInverted = false; + + private static final Distance kFrontRightXPos = Inches.of(10); + private static final Distance kFrontRightYPos = Inches.of(-10); + + // Back Left + private static final int kBackLeftDriveMotorId = 7; + private static final int kBackLeftSteerMotorId = 6; + private static final int kBackLeftEncoderId = 3; + private static final Angle kBackLeftEncoderOffset = Rotations.of(-0.219482421875); + private static final boolean kBackLeftSteerMotorInverted = true; + private static final boolean kBackLeftEncoderInverted = false; + + private static final Distance kBackLeftXPos = Inches.of(-10); + private static final Distance kBackLeftYPos = Inches.of(10); + + // Back Right + private static final int kBackRightDriveMotorId = 5; + private static final int kBackRightSteerMotorId = 4; + private static final int kBackRightEncoderId = 2; + private static final Angle kBackRightEncoderOffset = Rotations.of(0.17236328125); + private static final boolean kBackRightSteerMotorInverted = true; + private static final boolean kBackRightEncoderInverted = false; + + private static final Distance kBackRightXPos = Inches.of(-10); + private static final Distance kBackRightYPos = Inches.of(-10); + + + public static final SwerveModuleConstants FrontLeft = + ConstantCreator.createModuleConstants( + kFrontLeftSteerMotorId, kFrontLeftDriveMotorId, kFrontLeftEncoderId, kFrontLeftEncoderOffset, + kFrontLeftXPos, kFrontLeftYPos, kInvertLeftSide, kFrontLeftSteerMotorInverted, kFrontLeftEncoderInverted + ); + public static final SwerveModuleConstants FrontRight = + ConstantCreator.createModuleConstants( + kFrontRightSteerMotorId, kFrontRightDriveMotorId, kFrontRightEncoderId, kFrontRightEncoderOffset, + kFrontRightXPos, kFrontRightYPos, kInvertRightSide, kFrontRightSteerMotorInverted, kFrontRightEncoderInverted + ); + public static final SwerveModuleConstants BackLeft = + ConstantCreator.createModuleConstants( + kBackLeftSteerMotorId, kBackLeftDriveMotorId, kBackLeftEncoderId, kBackLeftEncoderOffset, + kBackLeftXPos, kBackLeftYPos, kInvertLeftSide, kBackLeftSteerMotorInverted, kBackLeftEncoderInverted + ); + public static final SwerveModuleConstants BackRight = + ConstantCreator.createModuleConstants( + kBackRightSteerMotorId, kBackRightDriveMotorId, kBackRightEncoderId, kBackRightEncoderOffset, + kBackRightXPos, kBackRightYPos, kInvertRightSide, kBackRightSteerMotorInverted, kBackRightEncoderInverted + ); + + /** + * Creates a CommandSwerveDrivetrain instance. + * This should only be called once in your robot program,. + */ + public static CommandSwerveDrivetrain createDrivetrain() { + return new CommandSwerveDrivetrain( + DrivetrainConstants, FrontLeft, FrontRight, BackLeft, BackRight + ); + } + + + /** + * Swerve Drive class utilizing CTR Electronics' Phoenix 6 API with the selected device types. + */ + public static class TunerSwerveDrivetrain extends SwerveDrivetrain { + /** + * Constructs a CTRE SwerveDrivetrain using the specified constants. + *

+ * 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 + */ + public TunerSwerveDrivetrain( + SwerveDrivetrainConstants drivetrainConstants, + SwerveModuleConstants... modules + ) { + super( + TalonFX::new, TalonFX::new, CANcoder::new, + drivetrainConstants, modules + ); + } + + /** + * Constructs a CTRE SwerveDrivetrain using the specified constants. + *

+ * 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 odometryUpdateFrequency The frequency to run the odometry loop. If + * unspecified or set to 0 Hz, this is 250 Hz on + * CAN FD, and 100 Hz on CAN 2.0. + * @param modules Constants for each specific module + */ + public TunerSwerveDrivetrain( + SwerveDrivetrainConstants drivetrainConstants, + double odometryUpdateFrequency, + SwerveModuleConstants... modules + ) { + super( + TalonFX::new, TalonFX::new, CANcoder::new, + drivetrainConstants, odometryUpdateFrequency, modules + ); + } + + /** + * Constructs a CTRE SwerveDrivetrain using the specified constants. + *

+ * 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 odometryUpdateFrequency The frequency to run the odometry loop. If + * 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 + * and radians + * @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 TunerSwerveDrivetrain( + SwerveDrivetrainConstants drivetrainConstants, + double odometryUpdateFrequency, + Matrix odometryStandardDeviation, + Matrix visionStandardDeviation, + SwerveModuleConstants... modules + ) { + super( + TalonFX::new, TalonFX::new, CANcoder::new, + drivetrainConstants, odometryUpdateFrequency, + odometryStandardDeviation, visionStandardDeviation, modules + ); + } + } +} diff --git a/src/main/java/frc/robot/subsystems/CommandSwerveDrivetrain.java b/src/main/java/frc/robot/subsystems/CommandSwerveDrivetrain.java new file mode 100644 index 0000000..a934152 --- /dev/null +++ b/src/main/java/frc/robot/subsystems/CommandSwerveDrivetrain.java @@ -0,0 +1,344 @@ +package frc.robot.subsystems; + +import static edu.wpi.first.units.Units.*; + +import java.util.Optional; +import java.util.function.Supplier; + +import com.ctre.phoenix6.SignalLogger; +import com.ctre.phoenix6.Utils; +import com.ctre.phoenix6.swerve.SwerveDrivetrainConstants; +import com.ctre.phoenix6.swerve.SwerveModuleConstants; +import com.ctre.phoenix6.swerve.SwerveRequest; + +import com.pathplanner.lib.auto.AutoBuilder; +import com.pathplanner.lib.config.PIDConstants; +import com.pathplanner.lib.config.RobotConfig; +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.kinematics.ChassisSpeeds; +import edu.wpi.first.math.numbers.N1; +import edu.wpi.first.math.numbers.N3; +import edu.wpi.first.wpilibj.DriverStation; +import edu.wpi.first.wpilibj.DriverStation.Alliance; +import edu.wpi.first.wpilibj.Notifier; +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.generated.TunerConstants.TunerSwerveDrivetrain; + +/** + * Class that extends the Phoenix 6 SwerveDrivetrain class and implements + * Subsystem so it can easily be used in command-based projects. + * + * Generated by the 2026 Tuner X Swerve Project Generator + * https://v6.docs.ctr-electronics.com/en/stable/docs/tuner/tuner-swerve/index.html + */ +public class CommandSwerveDrivetrain extends TunerSwerveDrivetrain implements Subsystem { + private static final double kSimLoopPeriod = 0.004; // 4 ms + private Notifier m_simNotifier = null; + private double m_lastSimTime; + + /* Blue alliance sees forward as 0 degrees (toward red alliance wall) */ + private static final Rotation2d kBlueAlliancePerspectiveRotation = Rotation2d.kZero; + /* Red alliance sees forward as 180 degrees (toward blue alliance wall) */ + private static final Rotation2d kRedAlliancePerspectiveRotation = Rotation2d.k180deg; + /* Keep track if we've ever applied the operator perspective before or not */ + private boolean m_hasAppliedOperatorPerspective = false; + + /** Swerve request to apply during robot-centric path following */ + private final SwerveRequest.ApplyRobotSpeeds m_pathApplyRobotSpeeds = new SwerveRequest.ApplyRobotSpeeds(); + + /* Swerve requests to apply during SysId characterization */ + private final SwerveRequest.SysIdSwerveTranslation m_translationCharacterization = new SwerveRequest.SysIdSwerveTranslation(); + 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. */ + 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 + ) + ); + + /* SysId routine for characterizing steer. This is used to find PID gains for the steer motors. */ + 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 + ) + ); + + /* + * 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. + */ + 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; + + /** + * Constructs a CTRE SwerveDrivetrain using the specified constants. + *

+ * 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 + */ + public CommandSwerveDrivetrain( + SwerveDrivetrainConstants drivetrainConstants, + SwerveModuleConstants... modules + ) { + super(drivetrainConstants, modules); + if (Utils.isSimulation()) { + startSimThread(); + } + configureAutoBuilder(); + } + + /** + * Constructs a CTRE SwerveDrivetrain using the specified constants. + *

+ * 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 odometryUpdateFrequency The frequency to run the odometry loop. If + * unspecified or set to 0 Hz, this is 250 Hz on + * CAN FD, and 100 Hz on CAN 2.0. + * @param modules Constants for each specific module + */ + public CommandSwerveDrivetrain( + SwerveDrivetrainConstants drivetrainConstants, + double odometryUpdateFrequency, + SwerveModuleConstants... modules + ) { + super(drivetrainConstants, odometryUpdateFrequency, modules); + if (Utils.isSimulation()) { + startSimThread(); + } + configureAutoBuilder(); + } + + /** + * Constructs a CTRE SwerveDrivetrain using the specified constants. + *

+ * 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 odometryUpdateFrequency The frequency to run the odometry loop. If + * 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 + * and radians + * @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 odometryStandardDeviation, + Matrix visionStandardDeviation, + SwerveModuleConstants... modules + ) { + super(drivetrainConstants, odometryUpdateFrequency, odometryStandardDeviation, visionStandardDeviation, modules); + if (Utils.isSimulation()) { + startSimThread(); + } + configureAutoBuilder(); + } + + private void configureAutoBuilder() { + try { + var config = RobotConfig.fromGUISettings(); + AutoBuilder.configure( + () -> getState().Pose, // Supplier of current robot pose + this::resetPose, // Consumer for seeding pose against auto + () -> getState().Speeds, // Supplier of current robot speeds + // Consumer of ChassisSpeeds and feedforwards to drive the robot + (speeds, feedforwards) -> setControl( + m_pathApplyRobotSpeeds.withSpeeds(ChassisSpeeds.discretize(speeds, 0.020)) + .withWheelForceFeedforwardsX(feedforwards.robotRelativeForcesXNewtons()) + .withWheelForceFeedforwardsY(feedforwards.robotRelativeForcesYNewtons()) + ), + new PPHolonomicDriveController( + // PID constants for translation + new PIDConstants(10, 0, 0), + // PID constants for rotation + new PIDConstants(7, 0, 0) + ), + config, + // Assume the path needs to be flipped for Red vs Blue, this is normally the case + () -> DriverStation.getAlliance().orElse(Alliance.Blue) == Alliance.Red, + this // Subsystem for requirements + ); + } catch (Exception ex) { + DriverStation.reportError("Failed to load PathPlanner config and configure AutoBuilder", ex.getStackTrace()); + } + } + + /** + * 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 + */ + public Command applyRequest(Supplier request) { + return run(() -> this.setControl(request.get())); + } + + /** + * Runs the SysId Quasistatic test in the given direction for the routine + * specified by {@link #m_sysIdRoutineToApply}. + * + * @param direction Direction of the SysId Quasistatic test + * @return Command to run + */ + 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 (!m_hasAppliedOperatorPerspective || DriverStation.isDisabled()) { + DriverStation.getAlliance().ifPresent(allianceColor -> { + setOperatorPerspectiveForward( + allianceColor == Alliance.Red + ? kRedAlliancePerspectiveRotation + : kBlueAlliancePerspectiveRotation + ); + m_hasAppliedOperatorPerspective = true; + }); + } + } + + private void startSimThread() { + m_lastSimTime = Utils.getCurrentTimeSeconds(); + + /* Run simulation at a faster rate so PID gains behave more reasonably */ + m_simNotifier = new Notifier(() -> { + final double currentTime = Utils.getCurrentTimeSeconds(); + double deltaTime = currentTime - m_lastSimTime; + m_lastSimTime = currentTime; + + /* use the measured time delta, get battery voltage from WPILib */ + updateSimState(deltaTime, RobotController.getBatteryVoltage()); + }); + m_simNotifier.startPeriodic(kSimLoopPeriod); + } + + /** + * 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. + */ + @Override + public void addVisionMeasurement(Pose2d visionRobotPoseMeters, double timestampSeconds) { + super.addVisionMeasurement(visionRobotPoseMeters, Utils.fpgaToCurrentTime(timestampSeconds)); + } + + /** + * Adds a vision measurement to the Kalman Filter. This will correct the odometry pose estimate + * while still accounting for measurement noise. + *

+ * 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. + */ + @Override + public void addVisionMeasurement( + Pose2d visionRobotPoseMeters, + double timestampSeconds, + Matrix 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). + */ + @Override + public Optional samplePoseAt(double timestampSeconds) { + return super.samplePoseAt(Utils.fpgaToCurrentTime(timestampSeconds)); + } +} diff --git a/vendordeps/PathplannerLib.json b/vendordeps/PathplannerLib.json new file mode 100644 index 0000000..f72fa41 --- /dev/null +++ b/vendordeps/PathplannerLib.json @@ -0,0 +1,38 @@ +{ + "fileName": "PathplannerLib-2026.1.2.json", + "name": "PathplannerLib", + "version": "2026.1.2", + "uuid": "1b42324f-17c6-4875-8e77-1c312bc8c786", + "frcYear": "2026", + "mavenUrls": [ + "https://3015rangerrobotics.github.io/pathplannerlib/repo" + ], + "jsonUrl": "https://3015rangerrobotics.github.io/pathplannerlib/PathplannerLib.json", + "javaDependencies": [ + { + "groupId": "com.pathplanner.lib", + "artifactId": "PathplannerLib-java", + "version": "2026.1.2" + } + ], + "jniDependencies": [], + "cppDependencies": [ + { + "groupId": "com.pathplanner.lib", + "artifactId": "PathplannerLib-cpp", + "version": "2026.1.2", + "libName": "PathplannerLib", + "headerClassifier": "headers", + "sharedLibrary": false, + "skipInvalidPlatforms": true, + "binaryPlatforms": [ + "windowsx86-64", + "linuxx86-64", + "osxuniversal", + "linuxathena", + "linuxarm32", + "linuxarm64" + ] + } + ] +} \ No newline at end of file diff --git a/vendordeps/Phoenix6-frc2026-latest.json b/vendordeps/Phoenix6-frc2026-latest.json new file mode 100644 index 0000000..8f6e30f --- /dev/null +++ b/vendordeps/Phoenix6-frc2026-latest.json @@ -0,0 +1,449 @@ +{ + "fileName": "Phoenix6-frc2026-latest.json", + "name": "CTRE-Phoenix (v6)", + "version": "26.1.0", + "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-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-frc2026-latest.json" + } + ], + "javaDependencies": [ + { + "groupId": "com.ctre.phoenix6", + "artifactId": "wpiapi-java", + "version": "26.1.0" + } + ], + "jniDependencies": [ + { + "groupId": "com.ctre.phoenix6", + "artifactId": "api-cpp", + "version": "26.1.0", + "isJar": false, + "skipInvalidPlatforms": true, + "validPlatforms": [ + "windowsx86-64", + "linuxx86-64", + "linuxarm64", + "linuxathena" + ], + "simMode": "hwsim" + }, + { + "groupId": "com.ctre.phoenix6", + "artifactId": "tools", + "version": "26.1.0", + "isJar": false, + "skipInvalidPlatforms": true, + "validPlatforms": [ + "windowsx86-64", + "linuxx86-64", + "linuxarm64", + "linuxathena" + ], + "simMode": "hwsim" + }, + { + "groupId": "com.ctre.phoenix6.sim", + "artifactId": "api-cpp-sim", + "version": "26.1.0", + "isJar": false, + "skipInvalidPlatforms": true, + "validPlatforms": [ + "windowsx86-64", + "linuxx86-64", + "linuxarm64", + "osxuniversal" + ], + "simMode": "swsim" + }, + { + "groupId": "com.ctre.phoenix6.sim", + "artifactId": "tools-sim", + "version": "26.1.0", + "isJar": false, + "skipInvalidPlatforms": true, + "validPlatforms": [ + "windowsx86-64", + "linuxx86-64", + "linuxarm64", + "osxuniversal" + ], + "simMode": "swsim" + }, + { + "groupId": "com.ctre.phoenix6.sim", + "artifactId": "simTalonSRX", + "version": "26.1.0", + "isJar": false, + "skipInvalidPlatforms": true, + "validPlatforms": [ + "windowsx86-64", + "linuxx86-64", + "linuxarm64", + "osxuniversal" + ], + "simMode": "swsim" + }, + { + "groupId": "com.ctre.phoenix6.sim", + "artifactId": "simVictorSPX", + "version": "26.1.0", + "isJar": false, + "skipInvalidPlatforms": true, + "validPlatforms": [ + "windowsx86-64", + "linuxx86-64", + "linuxarm64", + "osxuniversal" + ], + "simMode": "swsim" + }, + { + "groupId": "com.ctre.phoenix6.sim", + "artifactId": "simPigeonIMU", + 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end of file diff --git a/vendordeps/WPILibNewCommands.json b/vendordeps/WPILibNewCommands.json new file mode 100644 index 0000000..d90630e --- /dev/null +++ b/vendordeps/WPILibNewCommands.json @@ -0,0 +1,39 @@ +{ + "fileName": "WPILibNewCommands.json", + "name": "WPILib-New-Commands", + "version": "1.0.0", + "uuid": "111e20f7-815e-48f8-9dd6-e675ce75b266", + "frcYear": "2026", + "mavenUrls": [], + "jsonUrl": "", + "javaDependencies": [ + { + "groupId": "edu.wpi.first.wpilibNewCommands", + "artifactId": "wpilibNewCommands-java", + "version": "wpilib" + } + ], + "jniDependencies": [], + "cppDependencies": [ + { + "groupId": "edu.wpi.first.wpilibNewCommands", + "artifactId": "wpilibNewCommands-cpp", + "version": "wpilib", + "libName": "wpilibNewCommands", + "headerClassifier": "headers", + "sourcesClassifier": "sources", + "sharedLibrary": true, + "skipInvalidPlatforms": true, + "binaryPlatforms": [ + "linuxsystemcore", + "linuxathena", + "linuxarm32", + "linuxarm64", + "windowsx86-64", + "windowsx86", + "linuxx86-64", + "osxuniversal" + ] + } + ] +}