Currently, my build.gradle has a dependency on an external library built with Ant. To accomplish building the library, I followed the advice here and created a task which builds the external library, and copies it to the libs/ folder.
The task is called as part of a dependency:
build.gradle
dependencies {
compile fileTree('libs') {
include '*.jar'
builtBy 'myTask'
}
}
task myTask (type: GradleBuild) { GradleBuild antBuild ->
antBuild.buildFile('external-stub.gradle')
antBuild.tasks = ['clean', 'ivy.check', 'ivy.download', 'ivy.task', 'ivy',
'init', 'mergeCode', 'compile', 'jar', 'copyJarsToProject']
}
However, when the compile actually runs, the library I just built and copied in is not included in the dependencies, as evidenced by a whole lot of compilation errors.
Am I including the library the wrong way?
The full build.gradle and associated files are over at Github, and I've linked to the specific commit I'm having issues with: Source Repository
Alright, took me a while to get a build I was happy with. But, here's what was changed.
The actual build of the JAR was built using the same style, but moved to the external project (so that the main build project wasn't reaching across to it). I'll give an in-depth explanation below, but the commits are here and here. These are in order.
Basically, we export the jar as an artifact that other projects can depend on, rather than copying over the Jar ourselves. This way, the Ant build runs and other projects can see the Jar we just created. This is the end of the first commit. In the second commit, the task outputs are marked as needing to be regenerated only if the Jar does not exist. This was due to the fact that whenever I tried to build the app, it would take minutes to regen the Jar, and then have to repackage everything else as well. The code is below:
build.gradle External Project
configurations {
buildJSword
}
task doBuildJSword (type: GradleBuild) {
buildFile = 'jsword-stub.gradle'
tasks = ['clean', 'ivy.check', 'ivy.download', 'ivy.task', 'ivy',
'init', 'mergeCode', 'compile', 'jar'] //, 'copyJarsToMinimalBible']
ext.outputJar = file('distribution/jsword.jar')
outputs.upToDateWhen {
ext.outputJar.exists()
}
}
artifacts {
buildJSword(doBuildJSword.ext.outputJar) {
builtBy doBuildJSword
}
}
Then, the main project just has to add this project as a compile-time dependency:
build.gradle Main Project
compile project(path: ':jsword-minimalbible', configuration: 'buildJSword')
Hope this is helpful for anyone with a similar issue, let me know if you have questions!
Note: The build currently does not clean itself properly, so if you change any code in the external project, you need to delete the external Jar for everything to regenerate itself correctly.
Related
I am converting a project built with Ant to use Gradle. The project looks something like
root
|-RelevantProject
...
|-LotsOfOtherSubprojects
...
|-Resources
|--resources
|---subfolder
|----bunchOfProps.properties
The code references these as Resources/resources/subfolder/bunchOfProps.properties. This code and the folder structure cannot be changed as the ant scripts need to keep functioning
I have attempted to include this as
sourceSets {
main {
resources {
srcDir '../Resources'
}
}
}
Which fails as the code top level folder is now cut off. The code would work if looking for resources/subfolder/bunchOfProps.properties.
I have also attempted compile files('../Resources') with the same problem. Hard to say as this one did not appear in the Build directory. compile fileTree(dir: '../', include: '**/*.properties'), which I hoped would just pick up the relevant files also did not show up in the build directory.
Simply using the root directory as a resource folder caused problems as it included other projects and even the .gradle directory. I haven't yet gotten it to compile this way. Not sure yet if I can exclude enough things to get this to work.
PrasadU's answer is sort-of correct, but it breaks up-to-date checking as it introduces a task where the output overlaps with the one from processResources. It is better to just reconfigure the latter task instead:
processResources {
from(projectDir) {
include("Resources/**")
}
}
if you just need to copy the files
ext.prjRoot = project.projectDir.toString()
task copyExtResources(type: Copy) {
from prjRoot
include "Resources/**"
into "$buildDir/resources/main"
}
processResources.dependsOn copyExtResources
I know there are a lot of questions that seem similar. I have also spent a few hours getting to grips with Gradle multiprojects. But I still don't understand what the best course of action is here. Incidentally I am using Groovy as my coding language, but explanations referencing Java would be just as good.
I have developed an Eclipse Gradle project, "ProjectA", which in particular has a class, IndexManager, which is responsible for creating and opening and querying Lucene indices.
Now I am developing a new Eclipse Gradle project, "ProjectB", which would like to use the IndexManager class from ProjectA.
This doesn't really mean that I would like both projects to be part of a multiproject. I don't want to compile the latest version of ProjectA each time I compile ProjectB - instead I would like ProjectB to be dependent on a specific version of ProjectA's IndexManager. With the option of upgrading to a new version at some future point. I.e. much as with the sorts of dependencies you get from Maven or JCenter...
Both projects have the application plugin, so ProjectA produces an executable .jar file whose name incorporates the version. But currently this contains only the .class files, the resource files, and a file called MANIFEST.MF containing the line "Manifest-Version: 1.0". Obviously it doesn't contain any of the dependencies (e.g. Lucene jar files) needed by the .class files.
The application plugin also lets you produce a runnable distribution: this consists of an executable file (2 in fact, one for *nix/Cygwin, one for Windows), but also all the .jar dependencies needed to run it.
Could someone explain how I might accomplish the task of packaging up this class, IndexManager (or alternatively all the classes in ProjectA possibly), and then including it in my dependencies clause of ProjectB's build.gradle... and then using it in a given file (Groovy or Java) of ProjectB?
Or point to some tutorial about the best course of action?
One possible answer to this which I seem to have found, but find a bit unsatisfactory, appears to be to take the class which is to be used by multiple projects, here IndexManager, and put it in a Gradle project which is specifically designed to be a Groovy library. To this end, you can kick it off by creating the project directory and then:
$ gradle init --type groovy-library
... possible to do from the Cygwin prompt, but not from within Eclipse as far as I know. So you then have to import it into Eclipse. build.gradle in this library project then has to include the dependencies needed by IndexManager, in this case:
compile 'org.apache.lucene:lucene-analyzers-common:6.+'
compile 'org.apache.lucene:lucene-queryparser:6.+'
compile 'org.apache.lucene:lucene-highlighter:6.+'
compile 'commons-io:commons-io:2.6'
compile 'org.apache.poi:poi-ooxml:4.0.0'
compile 'ch.qos.logback:logback-classic:1.2.1'
After this, I ran gradle jar to create the .jar which contains this IndexManager class, initially without any fancy stuff in the manifest (e.g. name, version). And I put this .jar file in a dedicated local directory.
Then I created another Gradle project to use this .jar file, the critical dependency here being
compile files('D:/My Documents/software projects/misc/localJars/XGradleLibExp.jar' )
The file to use this class looks like this:
package core
import XGradleLibExp.IndexManager
class Test {
public static void main( args ) {
println "hello xxx"
Printer printer = new Printer()
IndexManager im = new IndexManager( printer )
def result = im.makeIndexFromDbaseTable()
println "call result $result"
}
}
class Printer {
def outPS = new PrintStream(System.out, true, 'UTF-8' )
}
... I had designed IndexManager to use an auxiliary class, which had a property outPS. Groovy duck-typing means you just have to supply anything with such a property and hopefully things work.
The above arrangement didn't run: although you can do build and installdist without errors, the attempt to execute the distributed executable fails because the above 6 compile dependency lines are not present in build.gradle of the "consumer" project. When you put them in this "consumer" Gradle project's build.gradle, it works.
No doubt you can add the version to the generated .jar file, and thus keep older versions for use with "consumer" projects. What I don't understand is how you might harness the mechanism which makes the downloading and use of the dependencies needed by the .jar as automatic as we are used to for things obtained from "real repositories".
PS in the course of my struggles today I seem to have found that Gradle's "maven-publish" plugin is not compatible with Gradle 5.+ (which I'm using). This may or may not be relevant: some people have talked of using a "local Maven repository". I have no idea whether this is the answer to my problem... Await input from an über-Gradle-geek... :)
You should be able to update the Eclipse model to reflect this project-to-project dependency. It looks something like this (in ProjectB's build.gradle):
apply plugin: 'eclipse'
eclipse {
classpath.file.whenMerged {
entries << new org.gradle.plugins.ide.eclipse.model.ProjectDependency('/ProjectA')
}
project.file.whenMerged {
// add a project reference, which should show up in /ProjectB/.project's <projects> element
}
}
These changes may be to the running data model, so they may not actually alter the .classpath and .project files. More info can be found here: https://docs.gradle.org/current/dsl/org.gradle.plugins.ide.eclipse.model.EclipseModel.html
This issue is discussed here: http://gradle.1045684.n5.nabble.com/Gradle-s-Eclipse-DSL-and-resolving-dependencies-to-workspace-projects-td4856525.html and a bug was opened but never resolved here: https://issues.gradle.org/browse/GRADLE-1014
I'm asking you about a very basic question but I hope you can find the time to help me:
I'm trying to realise a java-project, that can spit out several different programs which partially have dependencies on other projects of mine.
In order to keep it simple, I want to have all the code in one project, run by Gradle, so if I make changes to a central library (the database connector for example) all the child-programs automatically recieve the changes.
An example could look like this:
project:
program_A
central_library
program_B
output:
program_A.jar (including central library)
program_B.jar (including central library)
Now I'm having serious troubles finding a correct buildscript for this and was wondering if someone here could help me out.
P.S. : Since I'm new to this, if I should realize this through different modules within the Gradleproject instead of different packages in the Gradleprojects sourcefile, feel free to tell me :)
One way to approach this is to have a root project, that holds the three other projects inside of it.
Specify the sub-projects inside its settings.gradle file:
rootProject.name = 'RootProject'
include 'program_A'
include 'central_library'
include 'program_B'
With this in place, program_a can depend on central_library by adding a dependency in its build.gradle:
dependencies {
compile project(':central_library')
}
I have a similar setup in one of my projects, although the "central library" is the root project and the submodules are test environments.
Create a root directory and put each library or program into its own sub-directory.
Create a gradle project in each subproject.
You can for example create a skeleton gradle project by running
gradle init --type=java-library
or
gradle init --type=java-application
Then in the root directory create a gradle multi-module project. Basically
run only
gradle init
and then create a settings.gradle and list all sub-projects there.
This is actually described very well in the gradle documentation:
https://guides.gradle.org/creating-multi-project-builds/
If I understand correctly, what you want to do is, when you change your local projects, you want other projects to see those details. For this you need to publish your projects to some kind of repo, like maven repo. You can do this from command line gradle publishToMavenLocal, or gradle build pTMl. You can also do this in build.gradle file with something like the following:
task sourceJar (type : Jar) {
classifier = constants.extSources
from sourceSets.main.allSource
}
publications {
mavenJava(MavenPublication) {
from components.java
artifact(sourceJar) {
classifier "sources" //classifier = constants.extSources
}
}
}
Ive got an Project an within it,I developed a bunch of classes wich is kept very abstract so I could use it in other projects. How should I outsource the package in a way so I can include it via gradle or by the IDE in the end?
Also the reusable packag-content is still in development so I want do work on it in paralelle.
Can anybody tell me how to solve this?
In your build.gradle use a custom build to collect only the package that you want
task customBuild(type: Jar) {
from ("src/main/java/abstract/"){
into "abstract"
}
version = ""
baseName = "myClasses"
}
it will build you a jar file inside build/libs/YouJarName
Now you can copy the jar to anywhere you want, and include it in another project in that way :
dependencies {
compile fileTree (dir : "your/jar/location", includes: ["myJar.jar"])
}
After hours of researching and trying I hope that someone can explain how we can have Gradle including classes of one or more subproject into a specific jar.
Lets say we have just three modules
Core
App
Web
Obviously the App and Web project artifacts (jars) should contain all classes from the Core project.
Settings gradle:
rootProject.name = 'MyProject'
include 'MyProjectCore'
include 'MyProjectApp'
include 'MyProjectWeb'
MyProjectApp / MyProjectWeb:
...
dependencies {
...
compile project(':MyProjectCore')
}
The projects can be compiled but the output jars do not contain the core classes.
Okay finally I found a working solution even if it might not be the best.
For the App and Web projects I overwrite the jar task like this to add the source sets of the Core module.
jar {
from project.sourceSets.main.allSource
from project(":MyProjectCore").sourceSets.main.java.srcDirs
}
With this you can add all *.class files created in your subprojects into your jar automatically:
jar {
from {
subprojects.collect { it.sourceSets.main.output }
}
}
To make sure the .class are there, make sure the root project depends on the subprojects:
dependencies {
compile project(':mySubProject')
}