Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm using Java Compiler API to compile in-memory classes. That is, classes are compiled to bytecode (no .classes files stored in disk) and then loaded by reconstructing the bytecode.

Sometimes, I need to compile a class that depends on another, also in-memory compiled, class. For instance: Compile Class A, then compile Class B which depends on Class A.

To solve this, I pass both Class A and Class B as the compilation units needed by the getTask method of the compiler API.

However, I really don't like this solution, as it makes me recompile Class A which was already compiled.

Is there a way to get around this?

EDIT: I found a solution through this link: http://www.ibm.com/developerworks/java/library/j-jcomp/index.html

share|improve this question
    
sorry if i'm being slow, but i don't see how the link you posted solves the issue. i've run into the same problem myself...my API comes out a lot cleaner and easy to manage if i can compile classes separately. i would appreciate it a ton if you could post the solution as an answer. :) –  stevevls Dec 6 '11 at 14:08
1  
actually, i just got this worked out, so i've posted an answer for posterity's sake. thanks for the great question! –  stevevls Dec 7 '11 at 13:07
add comment

4 Answers

That leads to the obvious question of why you want to compile class A separately first. Why not just compile everything in one go?

share|improve this answer
    
I think you're missing the point. I posted an example. Your solution is not actually extendable or modular. –  halfwarp Nov 30 '10 at 14:31
    
@halfwarp: If I'm missing the point, then perhaps that's indicative of you not giving enough information? You haven't explained what you're trying to achieve, nor what extendability or modularity you need. –  Jon Skeet Nov 30 '10 at 14:33
add comment

Yes, this is totally possible as long as you properly implement the ForwardingJavaFileManager. The two most important methods are inferBinaryName() and list(). If you set these two up properly, the compiler will be able to resolve classes that you've previously compiled.

inferBinaryName() must return the class' simple name (e.g. the inferred binary name for com.test.Test would be just Test). Here is my implementation (my subclass of JavaFileObject is called InAppJavaFileObject):

@Override
public String inferBinaryName(Location location, JavaFileObject javaFileObject) {

    if(location == StandardLocation.CLASS_PATH && javaFileObject instanceof InAppJavaFileObject) {
        return StringUtils.substringBeforeLast(javaFileObject.getName(), ".java");
    }

    return super.inferBinaryName(location, javaFileObject);
}

Note that I'm stripping off ".java" from the end. When constructing a JavaFileObject, the file name must end in ".java", but if you don't strip the suffix later, the compiler won't find your class.

list() is a little bit more complicated because you have to be careful to play along nicely with your delegate file manager. In my implementation, I keep a map of fully-qualified class name to my subclass of JavaFileObject that I can iterate over:

@Override
public Iterable<JavaFileObject> list(Location action, String pkg, Set<JavaFileObject.Kind> kind, boolean recurse) throws IOException {

    Iterable<JavaFileObject> superFiles = super.list(action, pkg, kind, recurse);

    // see if there's anything in our cache that matches the criteria.
    if(action == StandardLocation.CLASS_PATH && (kind.contains(JavaFileObject.Kind.CLASS) || kind.contains(JavaFileObject.Kind.SOURCE))) {

        List<JavaFileObject> ourFiles = new ArrayList<JavaFileObject>();
        for(Map.Entry<String,InAppJavaFileObject> entry : files.entrySet()) {
            String className = entry.getKey();
            if(className.startsWith(pkg) && ("".equals(pkg) || pkg.equals(className.substring(0, className.lastIndexOf('.'))))) {
                ourFiles.add(entry.getValue());
            }
        }

        if(ourFiles.size() > 0) {
            for(JavaFileObject javaFileObject : superFiles) {
                ourFiles.add(javaFileObject);
            }

            return ourFiles;
        }
    }

    // nothing found in our hash map that matches the criteria...  return
    // whatever super came up with.
    return superFiles;
}

Once you have those methods properly implemented, the rest just works. Enjoy!

share|improve this answer
    
The only caveat here is that in whatever custom JavaFileObject that you use (in your example "InAppJavaFileObject"), you must implement openInputStream() to return whatever bytes were stored in the stream returned in openOutputStream(), if that's how you store the class data during compilation. But it worked perfectly for me, thanks! –  Carrotman42 Aug 21 '12 at 21:19
add comment

How if you maintain the modified time of the files and the (in-memory) compiled byte code?

share|improve this answer
add comment

I don't think you can avoid compiling both classes. In fact, if you don't compile both of them, there is a chance that you will end up with binary compatibility problems, or problems with incorrect inlined constants.

This is essentially the same problem as you'd get if you compiled one class and not the other from the command line.

But to be honest, I wouldn't worry about trying to optimize the compilation like that. (And if your application needs to be able to dynamically compile one class and not the other, it has probably has significant design issues.)

share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.