I'm writing a custom tool to build jar files from our build tree. We like to build "minimal" jar files that contain only the
.class files actually referenced from the "root" class (where main() lives) -- and so on, recursively following dependencies.
Historically we have done this by getting
javac to follow source dependencies, but that means recompiling common files many many times. (We build 60 or 70 distinct application jars from a single source tree.) I'm writing a new build system that compiles each source file only once, but that means we need to follow dependencies by parsing .class files.
The good news is, I've got working code that does what I want. But I need to be absolutely sure I didn't screw it up, i.e. I want to ensure that I'm building internally consistent jar files, where "consistent" means that all unresolved references can be resolved with one of our known third-party jars.
So ideally I want a MagicTool that I can run like
MagicTool \ --classpath commons-lang.jar:commons-collections.jar:[...etc...] \ myapp.jar
that will examine every unresolved reference inside
myapp.jar and make sure that it can be resolved by one of the third-party jars passed to
--classpath. If not, barf.