Pomutils deals with POM trees. You can
- Run queries and/or operations on POM trees
- Generate root POMs to build only the required sub projects of a large project based on a build manifest
- Move common POM fragments into individual XML files, and maintain them
Prints the results of an XPath based on a POM file.
pomutil <pomfile> -xp<XPath>
Example:
Print out the version of a project:
pomutil pom.xml -xp/project/version
Determines artifact cross references in a POM tree, and prints inconsistencies where a version of the artifact is built, but a different version of that artifact is referenced in another part of the tree.
pomutil <pomfile> -x
Prints out all artifact names and versions
pomutil <pomfile> -p
Each artifact is written in a separate line with the following format:
groupId:artifactId=version
Changes the version number of an artifact in the POM file where it is defined, and in all POM files where it is referenced.
pomutil <pomfile> [-a] -vgroupId:artifactId:version
Sets the version number of groupId:artifact to version. The -a
switch rewrites all poms. Without -a, only modified poms are written.
pomutil <pomfile> -fFile
where File is a text file that uses the same format as the -p (print
all versions) option.
You can print all versions of a project to a file, then edit that file to set new version numbers, and use this feature to set version numbers in bulk:
pomutil pom.xml -p>versions
# edit versions file to set the new version numbers
pomutil pom.xml -fversions
pomutil <pomfile> -dfgroupId:artifactId:version
Lists all the pom files in which groupId:artifactId:version appears as
a direct dependency. version can be "*", meaning any matching
groupId:artifactId will be listed.
pomutil <pomfile> -drgroupId:artifactId:version
Remove al occurances of groupId:artifactId:version from all projects
in the tree. version can be "*".
It is rarely necessary to build all modules of a large project containing many submodules. Pomutil can generate root POM files for such projects based on a build manifest listing the sub modules that need to be built. The generated POM file build all the modules given in the build manifest, and all the modules that depend on the modules in the build set.
Consider an aggregator style root POM listing basic configuration and all the sub projects:
code/pom.xml:
<project>
...
<modules>
<module>module1</module>
<module>module2</module>
...
<module>moduleN</module>
</modules>
...
</project>
Every build of this project requires that all the submodules
module1,...,moduleN are also built. If our workset is limited to, say,
only module1, it is not necessary to rebuild all submodules every
time. What is required is that you build module1 to test/release your
changes, and you build any module that depends on module1, so those
can be release as well now that they are using a newer version of
module1. To do this, a build manifest is prepared:
myworkset.xml:
<manifest>
<buildset>
<module>module1</module>
</buildset>
</manifest>
We also need a definition of all the available modules:
all.mf.xml:
<manifest>
<modulemap>
<module>
<name>module1</name>
<pom>module1/pom.xml</pom>
</module>
<module>
<name>module2</name>
<pom>module2/pom.xml</pom>
</module>
...
<module>
<name>moduleN</name>
<pom>moduleN/pom.xml</pom>
</module>
</modulemap>
</manifest>
Last, we need to provide a skeleton POM file containing all the project related configuration we need at the root pom level:
skel.xml:
<project>
<modelVersion>4.0.0.</modelVersion>
<groupId>autogen</groupId>
<artifactId>root</artifactId>
<version>0</version>
<packaging>pom</packaging>
<name>autogen</name>
<dependencies>
...
</dependencies>
<build>
...
</build>
<modules>
</modules>
</project>
Note the empty modules element.
Then, running
pomutil -rmyworkset.xml -lall.mf.xml -opom.xml -sskel.xml
will generate a pom.xml file, using skel.xml as a baseline, adding
all the modules listed in the build manifest and the modules that are
dependent on that build set.
Aggregator style Maven projects have some limitations. Most of the common project information is stored in the root pom, and child projects inherit from it. It is not possible to modularize such projects so that sligthly different configurations can be applied for certain targets. Inheriting from multiple root poms is not allowed, so sub projects end up overriding things setup in root pom.
Instead of using a root pom, a large project structure can be divided into individual smaller projects, with fragments of POM files are stored in a different location. XMLFrag reconstructs POM files using such fragments.
Move sections of POM files into fragments. For instance:
Original POM file:
<project>
...
<dependencies>
<dependency>
...
</dependency>
</dependencies>
...
Move dependencies to a fragment:
fragments/dependencies.frag.xml:
<fragment>
<dependency>
...
<dependency>
</fragment>
POM file:
<project>
...
<dependencies>
<!--Fragment: dependencies.frag.xml-->
</dependencies>
...
</project>
Then, run XMLFrag:
xmlfrag -ffragments pom.xml
This command inserts the contents of fragments/dependencies.frag.xml
into the pom file. It also replaces the fragment comment with hash
information, so that if the fragment is modified, the modifications
are applied to the pom file correctly when xmlfrag is run again. If
fragments inserted into the POM file using xmlfrag is manually
modified, xmlfrag will warn when executed. -x switch forces
replacement of the fragments in pom files.