Can I include only the required dependencies from parent pom(like we have exclude)?
I need this to achieve one scenario
Project A with hibernate and spring as my dependencies(there are
many other)
Project B with only hibernate and spring
Project C with A and B as dependencies
Problem statement : when I run maven install in project C, hibernate and spring are again downloaded separately. This I observed because of the increase in final jar size.
As a work around I included project A as dependency in project C so that I don't need to mention hibernate and spring explicitly.
To avoid this is there a way to include only spring and hibernate from project A?
It sounds like you are guessing what's in the project C jar just based on size. Unzip the final jar (rename to .zip) and look inside to see what jars are actually being packaged to figure that out.
Jars, wars, ears are just zip files with a manifest (more or less).
So, your all dependencies should be defined in parent pom and all your projects here in case A, B and C should be child projects of the parent pom.
In all child poms, you can define all dependencies needed without versions, so that they will be resolved from parent pom.
Interdependency of child projects should be defined only in case of needed. This, to get just dependencies from project A, C should not depends on A.
| - - A
| - - | - - pom.xml
| - - B
| - - | - - pom.xml
| - - C
| - - | - - pom.xml
| - - pom.xml (parent pom)
If you could get this structure as github project, then I can create a pull request with the changes.
To Get Spring Hibernate from you need to make Child Parent relationship A(Parent) and B, C as Child.
Jar file increment mustn't be the case. POM.xml does provide reference of dependencies downloaded in .m2 repo.
For further investigation we need POM.xml
I'm trying to import a Gradle multi-project repository into another Gradle project as a git submodule.
This is the structure of the multi-project repo:
MyLibrary
- lib-api
- api-config
- api-repository
- lib-impl
- impl-config
- impl-repository
Within the Gradle project MyLibrary, there are several modules that depend on other modules within that project. For example, lib-api:api-repository has the following dependency:
implementation project(':lib-api:api-config')
(the modules under lib-impl also include their respective api as a dependency)
So far everything is ok, I can build, run and test the projects under lib-impl.
Now I try to import the project into another project
I use git submodule add to add MyLibrary to MyProject. This is now the structure:
MyProject
- MyLibrary
- lib-api
- api-config
- api-repository
- lib-impl
- impl-config
- impl-repository
- api
- impl
In order to be able to use the modules under MyLibrary, I edit the settings.gradle file in MyProject to look something like this:
rootProject.name = 'MyProject'
include 'api'
include 'impl'
include 'mylibrary'
include 'mylibrary:lib-api'
include 'mylibrary:lib-impl'
include 'mylibrary:lib-api:api-config'
include 'mylibrary:lib-api:api-repository'
include 'mylibrary:lib-impl:impl-config'
include 'mylibrary:lib-impl:impl-repository'
The problem
Now that the modules under MyLibrary belong to the root project MyProject, all the internal dependencies within MyLibrary need to be prefixed with :mylibrary. But this is only the case if MyLibrary is currently a submodule of another project.
In order to build MyProject, I need to change the dependencies inside MyLibrary from this:
implementation project(':lib-api:api-config')
implementation project(':lib-api:api-repository')
to this:
implementation project(':mylibrary:lib-api:api-config')
implementation project(':mylibrary:lib-api:api-repository')
However, :mylibrary needs to NOT be present for MyLibrary to compile successfully by itself (i.e. if MyLibrary is the root project). But this change IS required for MyLibrary to work as a submodule.
This used to not be a big problem as I could always pull the submodule MyLibrary and edit the necessary build.gradle files. However, I have now started trying to set up continuous integration and I get errors about those imports being invalid inside MyLibrary whenever I try to build MyProject as CI will always get the code directly from the git repo.
I feel like if the following statement was valid, it could fix my problem:
implementation project(':mylibrary:lib-api:api-config').ifNotPresent(':lib-api:api-config')
Thanks in advance for any help
After a brilliant revelation, I realized that java code was allowed inside of the build.gradle file so naturally I did this:
dependencies {
if (rootProject.getName().equals("MyLibrary")) {
implementation project(':lib-api:api-config')
} else {
implementation project(':mylibrary:lib-api:api-config')
}
}
And it works!
Maven 2 is driving me crazy during the experimentation / quick and dirty mock-up phase of development.
I have a pom.xml file that defines the dependencies for the web-app framework I want to use, and I can quickly generate starter projects from that file. However, sometimes I want to link to a 3rd party library that doesn't already have a pom.xml file defined, so rather than create the pom.xml file for the 3rd party lib by hand and install it, and add the dependency to my pom.xml, I would just like to tell Maven: "In addition to my defined dependencies, include any jars that are in /lib too."
It seems like this ought to be simple, but if it is, I am missing something.
Any pointers on how to do this are greatly appreciated. Short of that, if there is a simple way to point maven to a /lib directory and easily create a pom.xml with all the enclosed jars mapped to a single dependency which I could then name / install and link to in one fell swoop would also suffice.
Problems of popular approaches
Most of the answers you'll find around the internet will suggest you to either install the dependency to your local repository or specify a "system" scope in the pom and distribute the dependency with the source of your project. But both of these solutions are actually flawed.
Why you shouldn't apply the "Install to Local Repo" approach
When you install a dependency to your local repository it remains there. Your distribution artifact will do fine as long as it has access to this repository. The problem is in most cases this repository will reside on your local machine, so there'll be no way to resolve this dependency on any other machine. Clearly making your artifact depend on a specific machine is not a way to handle things. Otherwise this dependency will have to be locally installed on every machine working with that project which is not any better.
Why you shouldn't apply the "System Scope" approach
The jars you depend on with the "System Scope" approach neither get installed to any repository or attached to your target packages. That's why your distribution package won't have a way to resolve that dependency when used. That I believe was the reason why the use of system scope even got deprecated. Anyway you don't want to rely on a deprecated feature.
The static in-project repository solution
After putting this in your pom:
<repository>
<id>repo</id>
<releases>
<enabled>true</enabled>
<checksumPolicy>ignore</checksumPolicy>
</releases>
<snapshots>
<enabled>false</enabled>
</snapshots>
<url>file://${project.basedir}/repo</url>
</repository>
for each artifact with a group id of form x.y.z Maven will include the following location inside your project dir in its search for artifacts:
repo/
| - x/
| | - y/
| | | - z/
| | | | - ${artifactId}/
| | | | | - ${version}/
| | | | | | - ${artifactId}-${version}.jar
To elaborate more on this you can read this blog post.
Use Maven to install to project repo
Instead of creating this structure by hand I recommend to use a Maven plugin to install your jars as artifacts. So, to install an artifact to an in-project repository under repo folder execute:
mvn install:install-file -DlocalRepositoryPath=repo -DcreateChecksum=true -Dpackaging=jar -Dfile=[your-jar] -DgroupId=[...] -DartifactId=[...] -Dversion=[...]
If you'll choose this approach you'll be able to simplify the repository declaration in pom to:
<repository>
<id>repo</id>
<url>file://${project.basedir}/repo</url>
</repository>
A helper script
Since executing installation command for each lib is kinda annoying and definitely error prone, I've created a utility script which automatically installs all the jars from a lib folder to a project repository, while automatically resolving all metadata (groupId, artifactId and etc.) from names of files. The script also prints out the dependencies xml for you to copy-paste in your pom.
Include the dependencies in your target package
When you'll have your in-project repository created you'll have solved a problem of distributing the dependencies of the project with its source, but since then your project's target artifact will depend on non-published jars, so when you'll install it to a repository it will have unresolvable dependencies.
To beat this problem I suggest to include these dependencies in your target package. This you can do with either the Assembly Plugin or better with the OneJar Plugin. The official documentaion on OneJar is easy to grasp.
For throw away code only
set scope == system and just make up a groupId, artifactId, and version
<dependency>
<groupId>org.swinglabs</groupId>
<artifactId>swingx</artifactId>
<version>0.9.2</version>
<scope>system</scope>
<systemPath>${project.basedir}/lib/swingx-0.9.3.jar</systemPath>
</dependency>
Note: system dependencies are not copied into resulted jar/war
(see How to include system dependencies in war built using maven)
You may create local repository on your project
For example if you have libs folder in project structure
In libs folder you should create directory structure like: /groupId/artifactId/version/artifactId-version.jar
In your pom.xml you should register repository
<repository>
<id>ProjectRepo</id>
<name>ProjectRepo</name>
<url>file://${project.basedir}/libs</url>
</repository>
and add dependency as usual
<dependency>
<groupId>groupId</groupId>
<artifactId>artifactId</artifactId>
<version>version</version>
</dependency>
That is all.
For detailed information: How to add external libraries in Maven (archived)
Note: When using the System scope (as mentioned on this page), Maven needs absolute paths.
If your jars are under your project's root, you'll want to prefix your systemPath values with ${basedir}.
This is what I have done, it also works around the package issue and it works with checked out code.
I created a new folder in the project in my case I used repo, but feel free to use src/repo
In my POM I had a dependency that is not in any public maven repositories
<dependency>
<groupId>com.dovetail</groupId>
<artifactId>zoslog4j</artifactId>
<version>1.0.1</version>
<scope>runtime</scope>
</dependency>
I then created the following directories repo/com/dovetail/zoslog4j/1.0.1 and copied the JAR file into that folder.
I created the following POM file to represent the downloaded file (this step is optional, but it removes a WARNING) and helps the next guy figure out where I got the file to begin with.
<?xml version="1.0" encoding="UTF-8" ?>
<project xmlns="http://maven.apache.org/POM/4.0.0" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xsi:schemaLocation="http://maven.apache.org/POM/4.0.0 http://maven.apache.org/xsd/maven-4.0.0.xsd">
<modelVersion>4.0.0</modelVersion>
<groupId>com.dovetail</groupId>
<artifactId>zoslog4j</artifactId>
<packaging>jar</packaging>
<version>1.0.1</version>
<name>z/OS Log4J Appenders</name>
<url>http://dovetail.com/downloads/misc/index.html</url>
<description>Apache Log4j Appender for z/OS Logstreams, files, etc.</description>
</project>
Two optional files I create are the SHA1 checksums for the POM and the JAR to remove the missing checksum warnings.
shasum -b < repo/com/dovetail/zoslog4j/1.0.1/zoslog4j-1.0.1.jar \
> repo/com/dovetail/zoslog4j/1.0.1/zoslog4j-1.0.1.jar.sha1
shasum -b < repo/com/dovetail/zoslog4j/1.0.1/zoslog4j-1.0.1.pom \
> repo/com/dovetail/zoslog4j/1.0.1/zoslog4j-1.0.1.pom.sha1
Finally I add the following fragment to my pom.xml that allows me to refer to the local repository
<repositories>
<repository>
<id>project</id>
<url>file:///${basedir}/repo</url>
</repository>
</repositories>
This is how we add or install a local jar
<dependency>
<groupId>org.example</groupId>
<artifactId>iamajar</artifactId>
<version>1.0</version>
<scope>system</scope>
<systemPath>${project.basedir}/lib/iamajar.jar</systemPath>
</dependency>
i gave some default groupId and artifactId because they are mandatory :)
You really ought to get a framework in place via a repository and identifying your dependencies up front. Using the system scope is a common mistake people use, because they "don't care about the dependency management." The trouble is that doing this you end up with a perverted maven build that will not show maven in a normal condition. You would be better off following an approach like this.
Maven install plugin has command line usage to install a jar into the local repository, POM is optional but you will have to specify the GroupId, ArtifactId, Version and Packaging (all the POM stuff).
Using <scope>system</scope> is a terrible idea for reasons explained by others, installing the file manually to your local repository makes the build unreproducible, and using <url>file://${project.basedir}/repo</url> is not a good idea either because (1) that may not be a well-formed file URL (e.g. if the project is checked out in a directory with unusual characters), (2) the result is unusable if this project’s POM is used as a dependency of someone else’s project.
Assuming you are unwilling to upload the artifact to a public repository, Simeon’s suggestion of a helper module does the job. But there is an easier way now…
The Recommendation
Use non-maven-jar-maven-plugin. Does exactly what you were asking for, with none of the drawbacks of the other approaches.
I found another way to do this, see here from a Heroku post
To summarize (sorry about some copy & paste)
Create a repo directory under your root folder:
yourproject
+- pom.xml
+- src
+- repo
Run this to install the jar to your local repo directory
mvn deploy:deploy-file -Durl=file:///path/to/yourproject/repo/ -Dfile=mylib-1.0.jar -DgroupId=com.example -DartifactId=mylib -Dpackaging=jar -Dversion=1.0
Add this your pom.xml:
<repositories>
<!--other repositories if any-->
<repository>
<id>project.local</id>
<name>project</name>
<url>file:${project.basedir}/repo</url>
</repository>
</repositories>
<dependency>
<groupId>com.example</groupId>
<artifactId>mylib</artifactId>
<version>1.0</version>
</dependency>
What seems simplest to me is just configure your maven-compiler-plugin to include your custom jars. This example will load any jar files in a lib directory.
<plugin>
<groupId>org.apache.maven.plugins</groupId>
<artifactId>maven-compiler-plugin</artifactId>
<configuration>
<includes>
<include>lib/*.jar</include>
</includes>
</configuration>
</plugin>
After having really long discussion with CloudBees guys about properly maven packaging of such kind of JARs, they made an interesting good proposal for a solution:
Creation of a fake Maven project which attaches a pre-existing JAR as a primary artifact, running into belonged POM install:install-file execution. Here is an example of such kinf of POM:
<build>
<plugins>
<plugin>
<groupId>org.apache.maven.plugins</groupId>
<artifactId>maven-install-plugin</artifactId>
<version>2.3.1</version>
<executions>
<execution>
<id>image-util-id</id>
<phase>install</phase>
<goals>
<goal>install-file</goal>
</goals>
<configuration>
<file>${basedir}/file-you-want-to-include.jar</file>
<groupId>${project.groupId}</groupId>
<artifactId>${project.artifactId}</artifactId>
<version>${project.version}</version>
<packaging>jar</packaging>
</configuration>
</execution>
</executions>
</plugin>
</plugins>
</build>
But in order to implement it, existing project structure should be changed. First, you should have in mind that for each such kind of JAR there should be created different fake Maven project (module). And there should be created a parent Maven project including all sub-modules which are : all JAR wrappers and existing main project. The structure could be :
root project (this contains the parent POM file includes all sub-modules with module XML element) (POM packaging)
JAR 1 wrapper Maven child project (POM packaging)
JAR 2 wrapper Maven child project (POM packaging)
main existing Maven child project (WAR, JAR, EAR .... packaging)
When parent running via mvn:install or mvn:packaging is forced and sub-modules will be executed. That could be concerned as a minus here, since project structure should be changed, but offers a non static solution at the end
The problem with systemPath is that the dependencies' jars won't get distributed along your artifacts as transitive dependencies. Try what I've posted here: Is it best to Mavenize your project jar files or put them in WEB-INF/lib?
Then declare dependencies as usual.
And please read the footer note.
If you want a quick and dirty solution, you can do the following (though I do not recommend this for anything except test projects, maven will complain in length that this is not proper).
Add a dependency entry for each jar file you need, preferably with a perl script or something similar and copy/paste that into your pom file.
#! /usr/bin/perl
foreach my $n (#ARGV) {
$n=~s#.*/##;
print "<dependency>
<groupId>local.dummy</groupId>
<artifactId>$n</artifactId>
<version>0.0.1</version>
<scope>system</scope>
<systemPath>\${project.basedir}/lib/$n</systemPath>
</dependency>
";
A quick&dirty batch solution (based on Alex's answer):
libs.bat
#ECHO OFF
FOR %%I IN (*.jar) DO (
echo ^<dependency^>
echo ^<groupId^>local.dummy^</groupId^>
echo ^<artifactId^>%%I^</artifactId^>
echo ^<version^>0.0.1^</version^>
echo ^<scope^>system^</scope^>
echo ^<systemPath^>${project.basedir}/lib/%%I^</systemPath^>
echo ^</dependency^>
)
Execute it like this: libs.bat > libs.txt.
Then open libs.txt and copy its content as dependencies.
In my case, I only needed the libraries to compile my code, and this solution was the best for that purpose.
To install the 3rd party jar which is not in maven repository use maven-install-plugin.
Below are steps:
Download the jar file manually from the source (website)
Create a folder and place your jar file in it
Run the below command to install the 3rd party jar in your local maven repository
mvn install:install-file -Dfile= -DgroupId=
-DartifactId= -Dversion= -Dpackaging=
Below is the e.g one I used it for simonsite log4j
mvn install:install-file
-Dfile=/Users/athanka/git/MyProject/repo/log4j-rolling-appender.jar -DgroupId=uk.org.simonsite -DartifactId=log4j-rolling-appender -Dversion=20150607-2059 -Dpackaging=jar
In the pom.xml include the dependency as below
<dependency>
<groupId>uk.org.simonsite</groupId>
<artifactId>log4j-rolling-appender</artifactId>
<version>20150607-2059</version>
</dependency>
Run the mvn clean install command to create your packaging
Below is the reference link:
https://maven.apache.org/guides/mini/guide-3rd-party-jars-local.html
A strange solution I found:
using Eclipse
create simple (non-maven) java project
add a Main class
add all the jars to the classpath
export Runnable JAR (it's important, because no other way here to do it)
select Extract required libraries into generated JAR
decide the licence issues
tadammm...install the generated jar to your m2repo
add this single dependency to your other projects.
cheers,
Balint
Even though it does not exactly fit to your problem, I'll drop this here. My requirements were:
Jars that can not be found in an online maven repository should be in the SVN.
If one developer adds another library, the other developers should not be bothered with manually installing them.
The IDE (NetBeans in my case) should be able find the sources and javadocs to provide autocompletion and help.
Let's talk about (3) first: Just having the jars in a folder and somehow merging them into the final jar will not work for here, since the IDE will not understand this. This means all libraries have to be installed properly. However, I dont want to have everyone installing it using "mvn install-file".
In my project I needed metawidget. Here we go:
Create a new maven project (name it "shared-libs" or something like that).
Download metawidget and extract the zip into src/main/lib.
The folder doc/api contains the javadocs. Create a zip of the content (doc/api/api.zip).
Modify the pom like this
Build the project and the library will be installed.
Add the library as a dependency to your project, or (if you added the dependency in the shared-libs project) add shared-libs as dependency to get all libraries at once.
Every time you have a new library, just add a new execution and tell everyone to build the project again (you can improve this process with project hierachies).
For those that didn't find a good answer here, this is what we are doing to get a jar with all the necessary dependencies in it. This answer (https://stackoverflow.com/a/7623805/1084306) mentions to use the Maven Assembly plugin but doesn't actually give an example in the answer. And if you don't read all the way to the end of the answer (it's pretty lengthy), you may miss it. Adding the below to your pom.xml will generate target/${PROJECT_NAME}-${VERSION}-jar-with-dependencies.jar
<plugin>
<groupId>org.apache.maven.plugins</groupId>
<artifactId>maven-assembly-plugin</artifactId>
<version>2.4.1</version>
<configuration>
<!-- get all project dependencies -->
<descriptorRefs>
<descriptorRef>jar-with-dependencies</descriptorRef>
</descriptorRefs>
<!-- MainClass in mainfest make a executable jar -->
<archive>
<manifest>
<mainClass>my.package.mainclass</mainClass>
</manifest>
</archive>
</configuration>
<executions>
<execution>
<id>make-assembly</id>
<!-- bind to the packaging phase -->
<phase>package</phase>
<goals>
<goal>single</goal>
</goals>
</execution>
</executions>
</plugin>
I alluded to some python code in a comment to the answer from #alex lehmann's , so am posting it here.
def AddJars(jarList):
s1 = ''
for elem in jarList:
s1+= """
<dependency>
<groupId>local.dummy</groupId>
<artifactId>%s</artifactId>
<version>0.0.1</version>
<scope>system</scope>
<systemPath>${project.basedir}/manual_jars/%s</systemPath>
</dependency>\n"""%(elem, elem)
return s1
This doesn't answer how to add them to your POM, and may be a no brainer, but would just adding the lib dir to your classpath work? I know that is what I do when I need an external jar that I don't want to add to my Maven repos.
Hope this helps.
What works in our project is what Archimedes Trajano wrote, but we had in our .m2/settings.xml something like this:
<mirror>
<id>nexus</id>
<mirrorOf>*</mirrorOf>
<url>http://url_to_our_repository</url>
</mirror>
and the * should be changed to central. So if his answer doesn't work for you, you should check your settings.xml
I just wanted a quick and dirty workaround... I couldn't run the script from Nikita Volkov: syntax error + it requires a strict format for the jar names.
I made this Perl script which works with whatever format for the jar file names, and it generates the dependencies in an xml so it can be copy pasted directly in a pom.
If you want to use it, make sure you understand what the script is doing, you may need to change the lib folder and the value for the groupId or artifactId...
#!/usr/bin/perl
use strict;
use warnings;
open(my $fh, '>', 'dependencies.xml') or die "Could not open file 'dependencies.xml' $!";
foreach my $file (glob("lib/*.jar")) {
print "$file\n";
my $groupId = "my.mess";
my $artifactId = "";
my $version = "0.1-SNAPSHOT";
if ($file =~ /\/([^\/]*?)(-([0-9v\._]*))?\.jar$/) {
$artifactId = $1;
if (defined($3)) {
$version = $3;
}
`mvn install:install-file -Dfile=$file -DgroupId=$groupId -DartifactId=$artifactId -Dversion=$version -Dpackaging=jar`;
print $fh "<dependency>\n\t<groupId>$groupId</groupId>\n\t<artifactId>$artifactId</artifactId>\n\t<version>$version</version>\n</dependency>\n";
print " => $groupId:$artifactId:$version\n";
} else {
print "##### BEUH...\n";
}
}
close $fh;
The solution for scope='system' approach in Java:
public static void main(String[] args) {
String filepath = "/Users/Downloads/lib/";
try (Stream<Path> walk = Files.walk(Paths.get(filepath))) {
List<String> result = walk.filter(Files::isRegularFile)
.map(x -> x.toString()).collect(Collectors.toList());
String indentation = " ";
for (String s : result) {
System.out.println(indentation + indentation + "<dependency>");
System.out.println(indentation + indentation + indentation + "<groupId>"
+ s.replace(filepath, "").replace(".jar", "")
+ "</groupId>");
System.out.println(indentation + indentation + indentation + "<artifactId>"
+ s.replace(filepath, "").replace(".jar", "")
+ "</artifactId>");
System.out.println(indentation + indentation + indentation + "<version>"
+ s.replace(filepath, "").replace(".jar", "")
+ "</version>");
System.out.println(indentation + indentation + indentation + "<scope>system</scope>");
System.out.println(indentation + indentation + indentation + "<systemPath>" + s + "</systemPath>");
System.out.println(indentation + indentation + "</dependency>");
}
} catch (IOException e) {
e.printStackTrace();
}
}
How I can add my source code ( java code ) to project SoapUI running by maven? I wrote own assertion class and check response in this class. First i made dir ext and put there .jar file. Now I want do the same, but with source code.
By adding a jar in the \ext folder you made the compiled class available to SoapUI test runner.
Instead of that you could include your code as a maven module in your project and add it as dependency. Your Java code should be a maven project for this to work.
A common approach is to create a "modules" directory in your project's root and add your java code in a subdirectory there, let's call it "assertion_module":
<root>
| - soapui-project.xml
| - pom.xml
| - modules
| - assertion_module
| - src
| - pom.xml
The pom.xml in the folder should have the necessary properties set, like below (sample values):
<groupId>assertion_module</groupId>
<artifactId>assertion_module</artifactId>
<name>assertion_module</name>
<version>0.1</version>
In you master pom.xml, i.e. the one that you use to run the SoapUI tests declare your assertion module, adding the following:
<modules>
<module>modules/assertion_module</module>
</modules>
In the soapui plugin section of this pom add the necessary dependency section:
<plugin>
<groupId>com.smartbear.soapui</groupId>
<artifactId>soapui-maven-plugin</artifactId>
<version>5.1.2</version>
<dependencies>
<dependency>
<groupId>assertion_module</groupId>
<artifactId>assertion_module</artifactId>
<version>0.1</version>
</dependency>
</dependencies>
...
</plugin>
Now when you run your tests, the assertion_module will be compiled and be available to SoapUI test runner.
With this you no longer need to add the compiled jar in the \ext folder, although you still need to have it in the <SoapUI_installtion_directory>\bin\ext.
We have Java and Flex projects. We currently have 1 base pom that contains the configurations we want to use for both projects. Problem with this is: Flex projects inherit configuration, for example, for javadoc and pmd plugins, which is not desirable.
I want to clean it up and have a real base pom, and then a java-base-pom and a flex-base-pom. But how does this work in a multi-module that has both a Flex part and a Java part?
We have plugins to our own application where we use the following structure:
my-plugin
my-plugin-client (flex)
my-plugin-server (java)
my-plugin just contains a pom.xml with <modules/> section. I would use my-plugin pom.xml as a parent for both, but then I cannot also use the java base-pom or the flex base-pom as parent. What would be the best approach for this?
Even though maven projects have single parent, they can import any number of other pom's like this:
<dependencyManagement>
<dependencies>
<dependency>
<groupId>org.example</groupId>
<artifactId>my-shared-dependencies</artifactId>
<version>0.0.1-SNAPSHOT</version>
<type>pom</type>
<scope>import</scope>
</dependency>
</dependencies>
</dependencyManagement>
This has two important differences compared to a parent:
Plugins defined in the imported pom won't be imported
Dependencies defined in the imported pom won't be added to the current pom, it will only import dependencies into the dependency management section
However, if your parent pom has a <dependencies> section and you want to include those into your dependencies, then you can add the parent to your <dependencies> section just like a regular dependency:
<dependency>
<groupId>org.example</groupId>
<artifactId>my-shared-dependencies</artifactId>
<version>0.0.1-SNAPSHOT</version>
</dependency>
Even though the same dependency is already imported, the version tag has to be specified again. To reduce duplication, it can be stored in a property
A project can have only one parent (unlike multiple inheritance in C++) but this parent can be part of a bigger parent hierarchy. As pointed out by others, you could thus have something like this:
base-pom/
|-- flex-base-pom
| |-- my-plugin-client
| | `-- pom.xml
| `-- pom.xml
|-- java-base-pom
| |-- my-plugin-server
| | `-- pom.xml
| `-- pom.xml
`-- pom.xml
That said, I noticed you wrote that your actual problem is that:
flex projects inherit configuration for javadoc and pmd for example, which they do not want.
You should use the pluginManagement element to avoid this situation:
pluginManagement is an element that is seen along side plugins. Plugin Management contains plugin elements in much the same way, except that rather than configuring plugin information for this particular project build, it is intended to configure project builds that inherit from this one. However, this only configures plugins that are actually referenced within the plugins element in the children. The children have every right to override pluginManagement definitions.
So, in the parent pom, configure your plugins in pluginManagement (javadoc and pmd for example), and reference them within the plugins element in the desired children (only in my-plugin-server here). This would solve your current issue.
The only way is to have base-pom as parent of java-base-pom and flex-base-pom.
I have similar structure for my spring projects:
base-pom (basic configuration - eclipse, reports, repositories, etc)
|
+ spring-base-pom (spring definitions)
|
+ spring-jar-base-pom (jar specific definitions)
|
+ spring-war-base-pom (spring web and servlet dependencies)
|
+ spring-webapp-base_pom (spring web mvc dependencies)
I've cross this exact proble also, and the best solution I found was to use Inheritance and Aggregation as suggest in this question : does maven support multiple parents (multiple inheritance) ?
You can have an aggregator pom that is not the parent of the projects it
aggregates.
and explain in the Maven Documentation
Inheritance and aggregation create a nice dynamic to control builds through a single, high-level POM (...) Conversely, a POM project may aggregate projects that do not inherit from it.
From this I had my POMs inheritance (pom-master contains communes configurations, and each children the specifics ones) :
pom-master
|-- pom-java
|-- pom-flex
and so my project can get the specifics for each modules configurations as wished :
project (aggregate project-flex & project-java)
|-- project-java
| `-- pom.xml => parent = pom-java
|-- project-flex
| `-- pom.xml ==> parent = pom-flex
`-- pom.xml => parent = pom-master
Hope it will help others as well :)
Just image that pom.xml are in fact Java classes: you can have only one parent (or extends a class), but this parent can also have another parent, and so on.
As I explained here, you must distinguish the parent and aggregation principles in Maven, which means that my-plugin would be considered as an aggregation project, not necessarily a parent project for both my-plugin-client and my-plugin-parent.
So to summarize:
my-plugin will define the base pom for all your projects. Then, you create two new pom projects: java-base-pom and flex-base-pom. They have both my-plugin as parent. Now, my-plugin-client will have java-base-pom as parent, while my-plugin-server will use flex-base-pom for his parent.
This way, my-plugin-client will inherit all properties defined in the my-plugin pom.xml, and also from java-base-pom project.
You can achieve multiple inheritance with profiles:
You create (multiple) profiles in the root pom, and auto activate any variation of these profiles achieves multiple inheritance of maven configuration.