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 found an ANTLRv4 Python3 grammer, but it generates a parse-tree, which generally has many useless nodes.

I'm looking for a known package to get a Python AST from that parse tree.

Does something like this exist?

EDIT: Clarification regarding use of the Python ast package: my project is in Java and I need to parse Python files.

EDIT 2: By 'AST' I mean http://docs.python.org/2/library/ast.html#abstract-grammar, while by 'parse tree' I mean http://docs.python.org/2/reference/grammar.html.

share|improve this question
    
Are you set on that parse tree (and if so, why)? Otherwise there's a perfectly good ast module in the standard library. –  delnan Jul 15 at 19:27
    
That's true only if you code in Python :) I'm actually writing in Java, but I need to parse files which are written in a subset of Python. –  user1071136 Jul 15 at 19:32
    
I've looked for a Python 3 parser in Java but never found one (which does not mean there is no such thing, of course). What are you planning to do that requires an AST and cannot be done with a plain parse tree? –  Bart Kiers Jul 15 at 19:40
    
Oh, that was surprising (@BartKiers responding here) :). I suppose I can work directly with the PT, but it's a hassle. I need to extract function calls (and their arguments). Unfortunately "f(arg1='1')" generates a tree with 63 nodes, and I can't just visit the "atom" nodes... –  user1071136 Jul 15 at 19:44
    
Yeah, I see what you mean. I'll ponder this for a bit... –  Bart Kiers Jul 15 at 19:56

3 Answers 3

The following could be a start:

public class AST {

    private final Object payload;

    private final List<AST> children;

    public AST(ParseTree tree) {
        this(null, tree);
    }

    private AST(AST ast, ParseTree tree) {
        this(ast, tree, new ArrayList<AST>());
    }

    private AST(AST parent, ParseTree tree, List<AST> children) {

        this.payload = getPayload(tree);
        this.children = children;

        if (parent == null) {
            walk(tree, this);
        }
        else {
            parent.children.add(this);
        }
    }

    public Object getPayload() {
        return payload;
    }

    public List<AST> getChildren() {
        return new ArrayList<>(children);
    }

    private Object getPayload(ParseTree tree) {
        if (tree.getChildCount() == 0) {
            return tree.getPayload();
        }
        else {
            String ruleName = tree.getClass().getSimpleName().replace("Context", "");
            return Character.toLowerCase(ruleName.charAt(0)) + ruleName.substring(1);
        }
    }

    private static void walk(ParseTree tree, AST ast) {

        if (tree.getChildCount() == 0) {
            new AST(ast, tree);
        }
        else if (tree.getChildCount() == 1) {
            walk(tree.getChild(0), ast);
        }
        else if (tree.getChildCount() > 1) {

            for (int i = 0; i < tree.getChildCount(); i++) {

                AST temp = new AST(ast, tree.getChild(i));

                if (!(temp.payload instanceof Token)) {
                    walk(tree.getChild(i), temp);
                }
            }
        }
    }

    @Override
    public String toString() {

        StringBuilder builder = new StringBuilder();

        AST ast = this;
        List<AST> firstStack = new ArrayList<>();
        firstStack.add(ast);

        List<List<AST>> childListStack = new ArrayList<>();
        childListStack.add(firstStack);

        while (!childListStack.isEmpty()) {

            List<AST> childStack = childListStack.get(childListStack.size() - 1);

            if (childStack.isEmpty()) {
                childListStack.remove(childListStack.size() - 1);
            }
            else {
                ast = childStack.remove(0);
                String caption;

                if (ast.payload instanceof Token) {
                    Token token = (Token) ast.payload;
                    caption = String.format("TOKEN[type: %s, text: %s]",
                            token.getType(), token.getText().replace("\n", "\\n"));
                }
                else {
                    caption = String.valueOf(ast.payload);
                }

                String indent = "";

                for (int i = 0; i < childListStack.size() - 1; i++) {
                    indent += (childListStack.get(i).size() > 0) ? "|  " : "   ";
                }

                builder.append(indent)
                        .append(childStack.isEmpty() ? "'- " : "|- ")
                        .append(caption)
                        .append("\n");

                if (ast.children.size() > 0) {
                    List<AST> children = new ArrayList<>();
                    for (int i = 0; i < ast.children.size(); i++) {
                        children.add(ast.children.get(i));
                    }
                    childListStack.add(children);
                }
            }
        }

        return builder.toString();
    }
}

and can be used to create an AST for the input "f(arg1='1')\n" as follows:

public static void main(String[] args) {

    Python3Lexer lexer = new Python3Lexer(new ANTLRInputStream("f(arg1='1')\n"));
    Python3Parser parser = new Python3Parser(new CommonTokenStream(lexer));

    ParseTree tree = parser.file_input();
    AST ast = new AST(tree);

    System.out.println(ast);
}

which would print:

'- file_input
   |- stmt
   |  |- small_stmt
   |  |  |- atom
   |  |  |  '- TOKEN[type: 35, text: f]
   |  |  '- trailer
   |  |     |- TOKEN[type: 47, text: (]
   |  |     |- arglist
   |  |     |  |- test
   |  |     |  |  '- TOKEN[type: 35, text: arg1]
   |  |     |  |- TOKEN[type: 53, text: =]
   |  |     |  '- test
   |  |     |     '- TOKEN[type: 36, text: '1']
   |  |     '- TOKEN[type: 48, text: )]
   |  '- TOKEN[type: 34, text: \n]
   '- TOKEN[type: -1, text: ]

I realize this still contains nodes you might not want, but you could even add a set of token types you'd like to exclude. Feel free to hack away!

Here is a Gist containing a version of the code above with the proper import statements and some JavaDocs and inline comments.

share|improve this answer
    
That's awesome :) you basically contract chains into a single node, right? (EDIT: now I saw the gist - so yes) –  user1071136 Jul 16 at 19:56
    
Yeah, that is correct. –  Bart Kiers Jul 16 at 20:00

The Eclipse DLTK project Python subproject implements a custom Python AST model in Java. It is built from from an AntlrV3 ast, but should not be too difficult to refit to build from an AntlrV4 parse tree.

The Eclipse PyDev project presumably also implements a Java-based AST for python source. Note, the layout of the source tree in both projects should be quite similar.

Naturally, you should check the licenses before using code from these sources, just to be sure.

share|improve this answer
    
That's a good direction :) –  user1071136 Jul 16 at 2:04
    
A quick glance suggests that both generate a PT, not an AST. If there's a transformation as a second stage, I couldn't easily find it. Do you know your way around these code bases? –  user1071136 Jul 16 at 2:30
    
Not sure why you think it is a parse tree - the first link puts you in a directory "AST", which contains an AST model of Python. The second link puts you in the directory with the source that builds the the Antlr3 AST and drives the construction of the explicitly Python AST model. The grammar and generated parser/lexer are here: github.com/KDReleng/org.eclipse.dltk.python/tree/master/plugins/… –  GRosenberg Jul 17 at 0:07
    
The difference between PT and AST is described in stackoverflow.com/a/9864571/1071136 . The link you gave sends me a parser which generates a PT, at least according to the fact that small_stmt contains simple_stmt, and nowhere there is a Call or Keyword node. –  user1071136 Jul 17 at 0:11
    
The AST represents calls as a type of expression, specifically a CallHolder. Keywords are represented as keyword specific nodes, such as ForEachStatement. It may not be the model you are looking for, but it is quite clearly an AST. –  GRosenberg Jul 17 at 0:58

I found a workaround:

Use Jython and ast (thanks @delnan for leading me there). Or, do everything you need directly in Python code, and just spit out the results back to Java.

PythonInterpreter interpreter = new PythonInterpreter();
interpreter.exec("import ast");
PyObject o = interpreter.eval(
    "ast.dump(ast.parse('f(arg1=\\'1\\')', 'filename', 'eval'))" + "\n");
System.out.print(o.toString());

Output is

Expression(body=Call(func=Name(id='f', ctx=Load()), args=[], keywords=[keyword(arg='arg1', value=Str(s='1'))], starargs=None, kwargs=None))

This doesn't strictly answer the question, and might not be applicable for all users, so I'm leaving this answer unselected.

share|improve this answer

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.