mirror of
https://github.com/wpilibsuite/allwpilib
synced 2026-06-19 00:41:43 +00:00
6d854afb0e
This is a major restructuring of the WPILib repository to simply build procedures and remove the remnants of Maven from everything except the eclipse plugins. Gradle files have been largely simplified or rewritten, taking advantage of splitting up parts of the build into separate build files for ease of reading. The eclipse plugins are now in a separate project, as is ntcore. All dependencies are resolved via Maven dependencies, with the Jenkins-maintained WPILib repo. Project structures have also been simplified: we no longer have separate subprojects inside wpilibc and wpilibj. Where possible, these changes hav been done with git renames, to make sure we still have full history for all repositories. Other unrelated subprojects have also been broken out: OutlineViewer is now a separate project. Change-Id: Ib4e2a6e1a2f66427a14f16612b0e0d69ed661878
179 lines
8.8 KiB
Groovy
179 lines
8.8 KiB
Groovy
// This regex matches either a Windows or Unix style file separator, then the lib part of the library,
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// then the name of the library itself, and finally the .so extension at the end. The name of the library
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// is in the libName capture group, which is extracted and used for the linker flags
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def libPattern = /.*((\\/|\\).*)+lib(?<libName>.+).so$/
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def niLibraryArgs = []
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def niLibraryPath = file('ni-libraries').path
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// The NI Library tree includes all non-wpi libraries, which is everything that doesn't have libwpi in the name
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def niLibraryTree = fileTree(niLibraryPath)
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niLibraryTree.include '*.so'
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niLibraryTree.exclude '*wpi*.so'
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// This adds all linker flags to the list of ni library linker flags
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niLibraryTree.each { lib ->
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def nameMatcher = (lib.path =~ libPattern)
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if (nameMatcher[0].size() > 1) {
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def name = nameMatcher.group('libName')
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niLibraryArgs << '-l' + name
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}
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}
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def ntDependency =
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project.dependencies.create("edu.wpi.first.wpilib.networktables.cpp:NetworkTables:3.0.0-SNAPSHOT:arm${getClassifier()}@zip")
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def config = project.configurations.detachedConfiguration(ntDependency)
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config.setTransitive(false)
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def netTables = config.files[0].canonicalFile
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def netTablesUnzipLocation = "$buildDir/networktables"
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// Create a task that will unzip the networktables files into a temporary build directory
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task unzipNetworkTables(type: Copy) {
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description = 'Unzips the networktables maven dependency so that the include files and libraries can be used'
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group = 'WPILib'
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from zipTree(netTables)
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into netTablesUnzipLocation
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}
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task clean(type: Delete) {
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description = "Deletes the build directory"
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group = "Build"
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delete buildDir
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}
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subprojects {
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plugins.withType(CppPlugin).whenPluginAdded {
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// This defines a project property that projects depending on network tables can use to setup that dependency.
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ext.defineNetworkTablesProperties = {
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ext.netTables = netTablesUnzipLocation
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ext.netTablesInclude = "$netTablesUnzipLocation/include"
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ext.netLibLocation = "$netTablesUnzipLocation/Linux/arm"
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ext.netSharedLib = "$netLibLocation/libntcore.so"
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ext.netStaticLib = "$netLibLocation/libntcore.a"
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task addNetworkTablesLibraryLinks() {
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description = 'Adds the linker flags for the networktables libraries retreived from maven'
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group = 'WPILib'
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dependsOn project(':').unzipNetworkTables
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doLast {
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binaries.all {
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tasks.withType(CppCompile) {
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// desktop version doesn't use all the NI libraries
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// so only do this for arm libraries
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String architecture = targetPlatform.architecture
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if (architecture.contains('arm')){
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linker.args netStaticLib
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}
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}
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}
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}
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}
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}
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model {
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buildTypes {
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debug
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}
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// Adds a custom toolchain for our compiler prefix and options
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toolChains {
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gcc(Gcc) {
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target('arm') {
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// We use a custom-built cross compiler with the prefix arm-frc-linux-gnueabi-<util name>
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// If this ever changes, the prefix will need to be changed here
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def compilerPrefix = 'arm-frc-linux-gnueabi-'
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cppCompiler.executable = compilerPrefix + cppCompiler.executable
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linker.executable = compilerPrefix + linker.executable
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assembler.executable = compilerPrefix + assembler.executable
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// Gradle auto-adds the -m32 argument to the linker and compiler. Our compiler only supports
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// arm, and doesn't understand this flag, so it is removed from both
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cppCompiler.withArguments { args ->
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args << '-std=c++1y' << '-Wformat=2' << '-Wall' << '-Wextra' << '-Werror' << '-pedantic'
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args << '-Wno-psabi' << '-Wno-unused-parameter' << '-fPIC' << '-O0' << '-g3' << '-rdynamic'
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//TODO: When the compiler allows us to actually call deprecated functions from within
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// deprecated function, remove this line (this will cause calling deprecated functions
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// to be treated as a warning rather than an error).
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args << '-Wno-error=deprecated-declarations'
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args.remove('-m32')
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}
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linker.withArguments { args ->
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args << '-rdynamic'
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args.remove('-m32')
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}
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staticLibArchiver.executable = compilerPrefix + staticLibArchiver.executable
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}
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}
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// Workaround for OS X. Macs for some reason want to use Xcode's gcc
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// (which just wraps Clang), so we have to explicitly make it so
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// that trying to compile with Clang will call gcc instead
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macGcc(Clang) {
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target('arm') {
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// We use a custom-built cross compiler with the prefix arm-frc-linux-gnueabi-<util name>
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// If this ever changes, the prefix will need to be changed here
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def compilerPrefix = 'arm-frc-linux-gnueabi-'
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cppCompiler.executable = compilerPrefix + 'g++'
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linker.executable = compilerPrefix + 'g++'
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assembler.executable = compilerPrefix + 'gcc'
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// Gradle auto-adds the -m32 argument to the linker and compiler. Our compiler only supports
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// arm, and doesn't understand this flag, so it is removed from both
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cppCompiler.withArguments { args ->
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args << '-std=c++1y' << '-Wformat=2' << '-Wall' << '-Wextra' << '-Werror' << '-pedantic'
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args << '-Wno-psabi' << '-Wno-unused-parameter' << '-fPIC' << '-O0' << '-g3' << '-rdynamic'
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//TODO: When the compiler allows us to actually call deprecated functions from within
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// deprecated function, remove this line (this will cause calling deprecated functions
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// to be treated as a warning rather than an error).
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args << '-Wno-error=deprecated-declarations'
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args.remove('-m32')
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}
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linker.withArguments { args ->
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args << '-rdynamic'
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args.remove('-m32')
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}
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staticLibArchiver.executable = compilerPrefix + 'ar'
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}
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}
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}
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// The only platform is arm linux
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platforms {
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arm {
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architecture 'arm'
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operatingSystem 'linux'
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}
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}
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}
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// This task adds the appropriate linker flags for the NI libraries
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task addNiLibraryLinks() {
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description = 'Adds the linker flags for the NI libraries in the ni-library folders'
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group = 'WPILib'
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doLast {
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binaries.all {
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tasks.withType(CppCompile) {
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// desktop version doesn't use all the NI libraries
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// so only do this for arm libraries
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String architecture = targetPlatform.architecture
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if (architecture.contains('arm')){
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linker.args << '-L' + niLibraryPath
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linker.args.addAll(niLibraryArgs)
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}
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}
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}
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model {
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repositories {
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libs(PrebuiltLibraries) { libs ->
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// Loops through all .so files (except files matching *libwpi*.so) in ../ni-libraries
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// and includes them for linking
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niLibraryTree.each { niLib ->
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libs.create(niLib) {
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binaries.withType(SharedLibraryBinary) {
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sharedLibraryFile = file(niLib.path)
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}
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}
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}
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}
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}
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}
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}
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}
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}
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} |