@Override
 public final void init(ProcessingEnvironment env) {
   super.init(env);
   JavacTask.instance(env).addTaskListener(listener);
   Context ctx = ((JavacProcessingEnvironment) processingEnv).getContext();
   JavaCompiler compiler = JavaCompiler.instance(ctx);
   compiler.shouldStopPolicyIfNoError =
       CompileState.max(compiler.shouldStopPolicyIfNoError, CompileState.FLOW);
 }
Esempio n. 2
0
  private static void openAnnotatedJava() {
    // Create list with source code names
    @SuppressWarnings("unchecked")
    Vector<String> myfilelist = new Vector<String>(cmd.getArgList());

    // Table that stores parsed compilation units
    Hashtable<String, CompilationUnit> myjpunitlist = new Hashtable<String, CompilationUnit>();

    // Declare outside, so filename can be used in case of exception.

    // Generate AST with JavaParser
    for (Enumeration<String> e = myfilelist.elements(); e.hasMoreElements(); ) {
      String mysource = "";
      CompilationUnit mycunit = null;

      try {
        // read filename
        mysource = e.nextElement();

        // Compile it with java parser.
        mycunit = JavaParser.parse(new FileInputStream(mysource));

        // Then fix the AST following the JC requirements
        ComplyToJCVisitor myfixervisitor = new ComplyToJCVisitor();
        mycunit = (CompilationUnit) myfixervisitor.visit(mycunit, new Integer(0));

        // creates an input stream and parse it using Java Parser
        myjpunitlist.put(mysource, mycunit);

        if (cmd.hasOption("d")) {
          // ASTDumpVisitor myjpvisitor = new ASTDumpVisitor();
          DumpVisitor myjpvisitor = new DumpVisitor();
          myjpvisitor.visit(myjpunitlist.get(mysource), null);
          System.out.print(myjpvisitor.getSource());
        }
      } catch (com.github.javaparser.ParseException ex) {
        System.out.println("Error: Parsing of Java file failed: " + mysource + ". Exiting...");
        System.exit(1);
      } catch (FileNotFoundException ex) {
        System.out.println("Error: File not found: " + mysource + ". Exiting...");
        System.exit(1);
      }
    }

    // Building internals from Java Compiler
    Context mycontext = new Context();
    JavaCompiler myjcompiler = new JavaCompiler(mycontext);
    JavaFileManager myfilemanager = mycontext.get(JavaFileManager.class);
    // Phase that Javac may go to: Setting code generation
    myjcompiler.shouldStopPolicyIfNoError = CompileState.GENERATE;

    // Table that stores the Java Compiler's ASTs
    List<JCCompilationUnit> ljctreelist = List.<JCCompilationUnit>nil();

    // Convert to Java Parser AST to JCTree AST's
    for (Enumeration<String> e = myjpunitlist.keys(); e.hasMoreElements(); ) {

      // read filename
      String mysource = e.nextElement();

      CompilationUnit myjpunit = myjpunitlist.get(mysource);

      JavaParser2JCTree translator = new JavaParser2JCTree(mycontext);
      AJCCompilationUnit myjctreeunit = (AJCCompilationUnit) translator.visit(myjpunit, myjpunit);

      // Setting additional information for Javac:
      // - Source file. Otherwise it throws a NullPointerException
      myjctreeunit.sourcefile = ((JavacFileManager) myfilemanager).getFileForInput(mysource);

      // Storing in the list
      ljctreelist = ljctreelist.append(myjctreeunit);

      // Debug: Shows how the JCTree AST was generated. Output node types.
      if (cmd.hasOption("d")) {
        try {
          Writer mystdout = new OutputStreamWriter(System.out);
          (new PrintAstVisitor(mystdout, true)).visitTopLevel(myjctreeunit);
          mystdout.flush();
        } catch (Exception z) {
        }
      }
    }

    // Enter (phase I): starting to build symtable
    Enter myenter = Enter.instance(mycontext);
    myenter.main(ljctreelist);
    // Enter (phase II): Finishing to build symtable
    /* MemberEnter mymemberenter = MemberEnter.instance(mycontext);
    mymemberenter.visitTopLevel(myjctreeunit); */

    // Get the todo list generated by Enter phase
    // From now on, the output of a phase is the input of the other.
    Todo mytodo = Todo.instance(mycontext);

    // atrribute: type-checking, name resolution, constant folding
    // flow: deadcode elimination
    // desugar: removes synctactic sugar: inner classes, class literals, assertions, foreachs
    myjcompiler.desugar(myjcompiler.flow(myjcompiler.attribute(mytodo)));

    // generate: produce bytecode or source code. Erases the whole AST
    // myjcompiler.generate(myjcompiler.desugar(myjcompiler.flow(myjcompiler.attribute( mytodo))));

    // Prints the Java program to output files and leave
    for (ListIterator<JCCompilationUnit> i = ljctreelist.listIterator(); i.hasNext(); ) {
      JCCompilationUnit myjctreeunit = i.next();
      try {
        Writer myoutputfile;

        if (cmd.getOptionValue("o") == null) {
          myoutputfile = new FileWriter(FileDescriptor.out);
        } else {
          myoutputfile = new FileWriter(myjctreeunit.sourcefile + ".new");
        }

        (new APretty(myoutputfile, true)).visitTopLevel(myjctreeunit);
        myoutputfile.flush();

      } catch (Exception e) {
        // TODO - Check what to report in case of error.
      }
    }
  }