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In a Java Project of mine, I would like to find out programmatically which classes from a given API are used. Is there a good way to do that? Through source code parsing or byte code parsing maybe? Because Reflection won't be of any use, I'm afraid.

To make things simpler: there are no wildcard imports (import com.mycompany.api.*;) anywhere in my project, no fully qualified field or variable definitions (private com.mycompany.api.MyThingy thingy;) nor any Class.forName(...) constructs. Given these limitations, it boils down to parsing import statements, I guess. Is there a preferred approach to do this?

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Bash script (using for instance egrep) is not an option? –  aioobe Sep 17 '10 at 11:23
    
Not really. a) I need it in java code, b) it needs to run on windows and *x –  Sean Patrick Floyd Sep 17 '10 at 11:29

8 Answers 8

up vote 9 down vote accepted

You can discover the classes using ASM's Remapper class (believe it or not). This class is actually meant to replace all occurrences of a class name within bytecode. For your purposes, however, it doesn't need to replace anything.

This probably doesn't make a whole lot of sense, so here is an example...

First, you create a subclass of Remapper whose only purpose in life is to intercept all calls to the mapType(String) method, recording its argument for later use.

public class ClassNameRecordingRemapper extends Remapper {

    private final Set<? super String> classNames;

    public ClassNameRecordingRemapper(Set<? super String> classNames) {
        this.classNames = classNames;
    }

    @Override
    public String mapType(String type) {
        classNames.add(type);
        return type;
    }

}

Now you can write a method like this:

public Set<String> findClassNames(byte[] bytecode) {
    Set<String> classNames = new HashSet<String>();

    ClassReader classReader = new ClassReader(bytecode);
    ClassWriter classWriter = new ClassWriter(classReader, 0);

    ClassNameRecordingRemapper remapper = new ClassNameRecordingRemapper(classNames);
    classReader.accept(remapper, 0);

    return classNames;
}

It's your responsibility to actually obtain all classes' bytecode.


EDIT by seanizer (OP)

I am accepting this answer, but as the above code is not quite correct, I will insert the way I used this:

public static class Collector extends Remapper{

    private final Set<Class<?>> classNames;
    private final String prefix;

    public Collector(final Set<Class<?>> classNames, final String prefix){
        this.classNames = classNames;
        this.prefix = prefix;
    }

    /**
     * {@inheritDoc}
     */
    @Override
    public String mapDesc(final String desc){
        if(desc.startsWith("L")){
            this.addType(desc.substring(1, desc.length() - 1));
        }
        return super.mapDesc(desc);
    }

    /**
     * {@inheritDoc}
     */
    @Override
    public String[] mapTypes(final String[] types){
        for(final String type : types){
            this.addType(type);
        }
        return super.mapTypes(types);
    }

    private void addType(final String type){
        final String className = type.replace('/', '.');
        if(className.startsWith(this.prefix)){
            try{
                this.classNames.add(Class.forName(className));
            } catch(final ClassNotFoundException e){
                throw new IllegalStateException(e);
            }
        }
    }

    @Override
    public String mapType(final String type){
        this.addType(type);
        return type;
    }

}

public static Set<Class<?>> getClassesUsedBy(
    final String name,   // class name
    final String prefix  // common prefix for all classes
                         // that will be retrieved
    ) throws IOException{
    final ClassReader reader = new ClassReader(name);
    final Set<Class<?>> classes =
        new TreeSet<Class<?>>(new Comparator<Class<?>>(){

            @Override
            public int compare(final Class<?> o1, final Class<?> o2){
                return o1.getName().compareTo(o2.getName());
            }
        });
    final Remapper remapper = new Collector(classes, prefix);
    final ClassVisitor inner = new EmptyVisitor();
    final RemappingClassAdapter visitor =
        new RemappingClassAdapter(inner, remapper);
    reader.accept(visitor, 0);
    return classes;
}

Here's a main class to test it using:

public static void main(final String[] args) throws Exception{
    final Collection<Class<?>> classes =
        getClassesUsedBy(Collections.class.getName(), "java.util");
    System.out.println("Used classes:");
    for(final Class<?> cls : classes){
        System.out.println(" - " + cls.getName());
    }

}

And here's the Output:

Used classes:
 - java.util.ArrayList
 - java.util.Arrays
 - java.util.Collection
 - java.util.Collections
 - java.util.Collections$1
 - java.util.Collections$AsLIFOQueue
 - java.util.Collections$CheckedCollection
 - java.util.Collections$CheckedList
 - java.util.Collections$CheckedMap
 - java.util.Collections$CheckedRandomAccessList
 - java.util.Collections$CheckedSet
 - java.util.Collections$CheckedSortedMap
 - java.util.Collections$CheckedSortedSet
 - java.util.Collections$CopiesList
 - java.util.Collections$EmptyList
 - java.util.Collections$EmptyMap
 - java.util.Collections$EmptySet
 - java.util.Collections$ReverseComparator
 - java.util.Collections$ReverseComparator2
 - java.util.Collections$SelfComparable
 - java.util.Collections$SetFromMap
 - java.util.Collections$SingletonList
 - java.util.Collections$SingletonMap
 - java.util.Collections$SingletonSet
 - java.util.Collections$SynchronizedCollection
 - java.util.Collections$SynchronizedList
 - java.util.Collections$SynchronizedMap
 - java.util.Collections$SynchronizedRandomAccessList
 - java.util.Collections$SynchronizedSet
 - java.util.Collections$SynchronizedSortedMap
 - java.util.Collections$SynchronizedSortedSet
 - java.util.Collections$UnmodifiableCollection
 - java.util.Collections$UnmodifiableList
 - java.util.Collections$UnmodifiableMap
 - java.util.Collections$UnmodifiableRandomAccessList
 - java.util.Collections$UnmodifiableSet
 - java.util.Collections$UnmodifiableSortedMap
 - java.util.Collections$UnmodifiableSortedSet
 - java.util.Comparator
 - java.util.Deque
 - java.util.Enumeration
 - java.util.Iterator
 - java.util.List
 - java.util.ListIterator
 - java.util.Map
 - java.util.Queue
 - java.util.Random
 - java.util.RandomAccess
 - java.util.Set
 - java.util.SortedMap
 - java.util.SortedSet
share|improve this answer
    
sounds like exactly what I'm looking for, I'll have a look at it, thanks (+1) –  Sean Patrick Floyd Sep 17 '10 at 12:08
    
That looks groovy! I especially like the output. I just realized that the "class names" you are receiving appear to be the internal class names. ASM supplies the Type class to help you with this. For example, you can use Type type = Type.getType(internalClassName). From here, you can then call type.getClassName(), which is the class name you're used to. –  Adam Paynter Sep 17 '10 at 14:00
    
OK thanks, that will make things simpler :-) –  Sean Patrick Floyd Sep 17 '10 at 14:05
    
+1. nice to know. –  Bozho Oct 8 '10 at 13:09
    
@Bohzo: This is a hilarious work-around to Stack Overflow's lack of a messaging system! :) I want you to have that answer. –  Adam Paynter Oct 8 '10 at 13:11
  1. Compiler Tree API
  2. byte code analysis - the fully qualified names should be in the constant pool
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I'm currently playing with byte code analysis using bcel, but it's a pain. I'd prefer the Compiler Tree API, but what's the starting point? (I have no Compilation Task and no ProcessingEnvironment) –  Sean Patrick Floyd Sep 17 '10 at 12:07
    
You can run an annotation processor - download.oracle.com/javase/6/docs/api/javax/annotation/… on ur source code to get a ProcessingEnvironment –  emory Sep 17 '10 at 12:16
    
I know how to start an annotation processor, but I don't want to do this from within the compile process, nor start a second compile process. –  Sean Patrick Floyd Sep 17 '10 at 12:34
    
I don't know how to use the Compiler Tree API without using a compile process. This is probably not suitable for you. –  emory Sep 17 '10 at 13:03
    
OK thanks anyway. –  Sean Patrick Floyd Sep 17 '10 at 13:16

Something like this perhaps:

import java.io.*;
import java.util.Scanner;
import java.util.regex.Pattern;

public class FileTraverser {

    public static void main(String[] args) {
        visitAllDirsAndFiles(new File("source_directory"));
    }

    public static void visitAllDirsAndFiles(File root) {
        if (root.isDirectory())
            for (String child : root.list())
                visitAllDirsAndFiles(new File(root, child));
        process(root);
    }

    private static void process(File f) {

        Pattern p = Pattern.compile("(?=\\p{javaWhitespace}*)import (.*);");
        if (f.isFile() && f.getName().endsWith(".java")) {
            try {
                Scanner s = new Scanner(f);
                String cls = "";
                while (null != (cls = s.findWithinHorizon(p, 0)))
                    System.out.println(cls);
            } catch (FileNotFoundException e) {
                e.printStackTrace();
            }
        }
    }
}

You may want to take comments into account, but it shouldn't be too hard. You could also make sure you only look for imports before the class declaration.

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This is exactly the way I would hack up a solution myself (+1 for that :-) ), but I am looking for a solution that actually understands either source or byte code. –  Sean Patrick Floyd Sep 17 '10 at 12:14

I use DependencyFinder exactly for that purpose. It can analyse bytecode and extract all dependencies, then dump a report in txt or xml format (see the DependencyExtractor tool). You should be able to programatically analyse the report from your application's code.

I have integrated this in my build process in order to check that certain APIs are NOT used by an application.

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I'll upvote this because it's a good answer, but I don't think DependencyFinder and I can ever be friends :-) –  Sean Patrick Floyd Sep 17 '10 at 12:10

I think the following might help you out:

  1. Class Dependency Analyzer
  2. Dependency Finder
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a) Thanks for answering b) I don't think either of these will help, as I want to run some java code based on the results automatically. –  Sean Patrick Floyd Sep 17 '10 at 11:29
    
Dependency Finder is open source. You can check out and integrate the the code in your project or you can do textual analysis on the report generated. –  Faisal Feroz Sep 17 '10 at 11:56
    
Thanks for the answer (+1), but there are several technologies listed here that do exactly what I'm looking for so I won't inspect the close calls. –  Sean Patrick Floyd Sep 17 '10 at 12:13

You may want to use STAN for that.

The "Couplings View" visualizes the dependencies to your API in a nice graph.

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Nice, but not an answer to my question, I need a programmatic way to get at the used classes, not a pretty report. –  Sean Patrick Floyd Sep 17 '10 at 12:33

If you use Eclipse. Try using the profiling tools. It doesn't only tells which classes are being used, but tells much more about it. The results will be something like:

alt text

There is a very good quickstart at:

http://www.eclipse.org/tptp/home/documents/tutorials/profilingtool/profilingexample_32.html

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Try reading the question and the other answers carefully next time. I was looking for something I could use programmatically. What you are suggesting is a nice tool, but not the answer to my question. –  Sean Patrick Floyd Sep 17 '10 at 19:03

Thanks Adam Paynter, It helped me. But what I was looking for is to fetch the dependent classes (recursively)- which means take a feature from a projects. So, need to get all the classes associated with a particular classes and again the used classes of those classes and so on. and also get the jars. So, I Created my own Java Dependency Resolver project Which will find the dependent Classes/jars for a particular class in a Project. I am sharing it here that may come to any use of some body.

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