Gradle JavaCPP offers plugins that make it easy to use JavaCPP and JavaCV as part of the Gradle build system.
Please feel free to ask questions on the mailing list if you encounter any problems with the software! I am sure it is far from perfect...
To use Gradle JavaCPP, you will need to download and install the following software:
Gradle JavaCPP comes with 2 plugins:
Fully functional sample projects are also provided in the samples
subdirectory and can be used as templates.
To understand how JavaCPP is meant to be used, one should first take a look at the Mapping Recipes for C/C++ Libraries, but a high-level overview of the Basic Architecture is also available to understand the bigger picture.
Once comfortable enough with the command line interface, the build plugin for Gradle can be used to integrate easily that workflow as part of build.gradle
as shown below. By default, for Java libraries and applications, it creates a javacppJar
task that archives the native libraries into a separate JAR file and sets its classifier to $javacppPlatform$javacppPlatformExtension
, while excluding those files from the default jar
task. To customize the behavior, there are properties that can be modified and whose documentation is available as part of the source code in these files:
plugins {
id 'java-library'
id 'org.bytedeco.gradle-javacpp-build' version "$javacppVersion"
}
// We can set this on the command line too this way: -PjavacppPlatform=android-arm64
ext {
javacppPlatform = 'android-arm64' // or any other platform, defaults to Loader.getPlatform()
}
dependencies {
api "org.bytedeco:javacpp:$javacppVersion"
}
tasks.withType(org.bytedeco.gradle.javacpp.BuildTask) {
// set here default values for all build tasks below, typically just includePath and linkPath,
// but also properties to set the path to the NDK and its compiler in the case of Android
}
javacppBuildCommand {
// typically set here the buildCommand to the script that fills up includePath and linkPath
}
javacppBuildParser {
// typically set here the classOrPackageNames to class names implementing InfoMap
}
javacppBuildCompiler {
// typically set here boolean flags like copyLibs
}
It is also possible to integrate the BuildTask
with Android Studio for projects with C/C++ support by:
Adding something like below to the app/build.gradle
file, and
android.applicationVariants.all { variant ->
def variantName = variant.name.capitalize() // either "Debug" or "Release"
def javaCompile = project.tasks.getByName("compile${variantName}JavaWithJavac")
def configureCMake = project.tasks.findAll {
it.name.startsWith("configureCMake$variantName")
}
// Compiles NativeLibraryConfig.java
task "javacppCompileJava$variantName"(type: JavaCompile) {
include 'com/example/myapplication/NativeLibraryConfig.java'
source = javaCompile.source
classpath = javaCompile.classpath
destinationDir = javaCompile.destinationDir
}
// Parses NativeLibrary.h and outputs NativeLibrary.java
task "javacppBuildParser$variantName"(type: org.bytedeco.gradle.javacpp.BuildTask) {
dependsOn "javacppCompileJava$variantName"
classPath = [javaCompile.destinationDir]
includePath = ["$projectDir/src/main/cpp/"]
classOrPackageNames = ['com.example.myapplication.NativeLibraryConfig']
outputDirectory = file("$projectDir/src/main/java/")
}
// Compiles NativeLibrary.java and everything else
javaCompile.dependsOn "javacppBuildParser$variantName"
// Generates jnijavacpp.cpp and jniNativeLibrary.cpp
task "javacppBuildCompiler$variantName"(type: org.bytedeco.gradle.javacpp.BuildTask) {
dependsOn javaCompile
classPath = [javaCompile.destinationDir]
classOrPackageNames = ['com.example.myapplication.NativeLibrary']
compile = false
deleteJniFiles = false
outputDirectory = file("$projectDir/src/main/cpp/")
}
// Picks up the C++ files listed in CMakeLists.txt
configureCMake.forEach {
it.dependsOn "javacppBuildCompiler$variantName"
}
}
CMakeLists.txt
file to include the generated .cpp
files.With Maven, we are able to modify dependencies transitively using profiles, and although Gradle doesn't provide such functionality out of the box, it can be emulated via plugins. After adding a single line to the build.gradle
script as shown below, the platform plugin will filter the dependencies of artifacts whose names contain "-platform" using the comma-separated values given in $javacppPlatform
. To understand better how this works, it may be worth taking a look at the source code of the plugin:
plugins {
id 'java-library'
id 'org.bytedeco.gradle-javacpp-platform' version "$javacppVersion"
}
// We can set this on the command line too this way: -PjavacppPlatform=linux-x86_64,macosx-x86_64,windows-x86_64,etc
ext {
javacppPlatform = 'linux-x86_64,macosx-x86_64,windows-x86_64,etc' // defaults to Loader.getPlatform()
}
dependencies {
api "org.bytedeco:javacv-platform:$javacvVersion" // or any other "-platform" artifacts
}
Moreover, in the case of Android, its plugin is not able to use native libraries found in JAR files when building Android App Bundles (AAB files). However, to work around this limitation we can easily use Gradle to extract the files automatically, for example, in the following manner with an additional javacppExtract
task inside app/build.gradle
:
configurations {
javacpp
}
task javacppExtract(type: Copy) {
dependsOn configurations.javacpp
from { configurations.javacpp.collect { zipTree(it) } }
include "lib/**"
into "$buildDir/javacpp/"
android.sourceSets.main.jniLibs.srcDirs += ["$buildDir/javacpp/lib/"]
tasks.getByName('preBuild').dependsOn javacppExtract
}
dependencies {
implementation group: 'org.bytedeco', name: 'javacv', version: "$javacvVersion"
javacpp group: 'org.bytedeco', name: 'openblas-platform', version: "$openblasVersion-$javacppVersion"
javacpp group: 'org.bytedeco', name: 'opencv-platform', version: "$opencvVersion-$javacppVersion"
javacpp group: 'org.bytedeco', name: 'ffmpeg-platform', version: "$ffmpegVersion-$javacppVersion"
...
}
Project lead: Samuel Audet samuel.audet at
gmail.com
Developer site: https://github.com/bytedeco/gradle-javacpp
Discussion group: http://groups.google.com/group/javacpp-project