package com.jogamp.gluegen.jgram; import java.io.BufferedReader; import java.io.File; import java.io.FileReader; import java.io.Reader; import java.util.Iterator; import java.util.Set; class Test { static boolean showTree = false; public static void main(String[] args) { // Use a try/catch block for parser exceptions try { // if we have at least one command-line argument if (args.length > 0 ) { System.err.println("Parsing..."); // for each directory/file specified on the command line for(int i=0; i< args.length;i++) { if ( args[i].equals("-showtree") ) { showTree = true; } else { doFile(new File(args[i])); // parse it } } } else System.err.println("Usage: java com.jogamp.gluegen.jgram.Test [-showtree] "+ ""); } catch(Exception e) { System.err.println("exception: "+e); e.printStackTrace(System.err); // so we can get stack trace } } // This method decides what action to take based on the type of // file we are looking at public static void doFile(File f) throws Exception { // If this is a directory, walk each file/dir in that directory if (f.isDirectory()) { String files[] = f.list(); for(int i=0; i < files.length; i++) doFile(new File(f, files[i])); } // otherwise, if this is a java file, parse it! else if ((f.getName().length()>5) && f.getName().substring(f.getName().length()-5).equals(".java")) { System.err.println(" "+f.getAbsolutePath()); // parseFile(f.getName(), new FileInputStream(f)); parseFile(f.getName(), new BufferedReader(new FileReader(f))); } } // Here's where we do the real work... public static void parseFile(String f, Reader r) throws Exception { try { // Create a scanner that reads from the input stream passed to us JavaLexer lexer = new JavaLexer(r); lexer.setFilename(f); // Create a parser that reads from the scanner JavaParser parser = new JavaParser(lexer); parser.setFilename(f); // start parsing at the compilationUnit rule parser.compilationUnit(); Set set = parser.getParsedEnumNames(); System.out.println("Enums"); for(Iterator iter = set.iterator(); iter.hasNext(); ) { String s = iter.next(); System.out.println(s); } System.out.println("Functions"); set = parser.getParsedFunctionNames(); for(Iterator iter = set.iterator(); iter.hasNext(); ) { String s = iter.next(); System.out.println(s); } // do something with the tree //doTreeAction(f, parser.getAST(), parser.getTokenNames()); } catch (Exception e) { System.err.println("parser exception: "+e); e.printStackTrace(); // so we can get stack trace } } /* public static void doTreeAction(String f, AST t, String[] tokenNames) { if ( t==null ) return; if ( showTree ) { ((CommonAST)t).setVerboseStringConversion(true, tokenNames); ASTFactory factory = new ASTFactory(); AST r = factory.create(0,"AST ROOT"); r.setFirstChild(t); final ASTFrame frame = new ASTFrame("Java AST", r); frame.setVisible(true); frame.addWindowListener( new WindowAdapter() { public void windowClosing (WindowEvent e) { frame.setVisible(false); // hide the Frame frame.dispose(); System.exit(0); } } ); // System.out.println(t.toStringList()); } JavaTreeParser tparse = new JavaTreeParser(); try { tparse.compilationUnit(t); // System.out.println("successful walk of result AST for "+f); } catch (RecognitionException e) { System.err.println(e.getMessage()); e.printStackTrace(); } } */ }