@SuppressWarnings("deprecation")
  public boolean compile(CompilerOptions options, CompilationListener listener) {
    CeyloncTool compiler = new CeyloncTool();
    com.redhat.ceylon.compiler.java.runtime.tools.impl.JavaCompilerImpl.CompilationListenerAdapter
        diagnosticListener =
            new com.redhat.ceylon.compiler.java.runtime.tools.impl.JavaCompilerImpl
                .CompilationListenerAdapter(listener);
    Writer writer = null;
    // FIXME: allow the user to capture stdout
    if (!options.isVerbose()) {
      // make the tool shut the hell up
      writer = new NullWriter();
    }

    JavacFileManager fileManager =
        compiler.getStandardFileManager(writer, diagnosticListener, null, null);

    Iterable<? extends JavaFileObject> compilationUnits =
        fileManager.getJavaFileObjectsFromFiles(options.getFiles());

    CeyloncTaskImpl compilerTask =
        compiler.getTask(
            null,
            fileManager,
            diagnosticListener,
            translateOptions(options),
            options.getModules(),
            compilationUnits);
    compilerTask.setTaskListener(diagnosticListener);
    ExitState state = compilerTask.call2();
    // print any helpful info if required
    if (options.isVerbose() && state.abortingException != null)
      state.abortingException.printStackTrace();
    return state.ceylonState == CeylonState.OK;
  }
Exemple #2
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 /**
  * Programmatic interface for main function.
  *
  * @param args The command line parameters.
  */
 public int compile(String[] args) {
   Context context = new Context();
   JavacFileManager.preRegister(context); // can't create it until Log has been set up
   int result = compile(args, context);
   if (fileManager instanceof JavacFileManager) {
     // A fresh context was created above, so jfm must be a JavacFileManager
     ((JavacFileManager) fileManager).close();
   }
   return result;
 }
 private boolean isResource(JavaFileObject fo) {
   JavacFileManager dfm = (JavacFileManager) fileManager;
   for (File dir : dfm.getLocation(CeylonLocation.RESOURCE_PATH)) {
     String prefix = dir.getPath();
     if (fo.getName().startsWith(prefix)) {
       return true;
     }
     String absPrefix = dir.getAbsolutePath();
     if (fo.getName().startsWith(absPrefix)) {
       return true;
     }
   }
   return false;
 }
 // This is a bit of a hack, but if we got passed a list of resources
 // without any accompaning source files we'll not be able to determine
 // the module to which the resource files belong. So to try to fix that
 // we see if a module file exists in the source folders and add it to
 // the list of source files
 private List<JavaFileObject> addModuleDescriptors(
     List<JavaFileObject> sourceFiles, List<JavaFileObject> resourceFiles) {
   List<JavaFileObject> result = sourceFiles;
   JavacFileManager dfm = (JavacFileManager) fileManager;
   for (JavaFileObject fo : resourceFiles) {
     String resName =
         JarUtils.toPlatformIndependentPath(
             dfm.getLocation(CeylonLocation.RESOURCE_PATH), fo.getName());
     JavaFileObject moduleFile = findModuleDescriptorForFile(new File(resName));
     if (moduleFile != null && !result.contains(moduleFile)) {
       result = result.append(moduleFile);
     }
   }
   return result;
 }
  private static Context preRegister(Context context) {
    Bark.preRegister(context);

    if (context.get(JavaFileManager.class) == null) JavacFileManager.preRegister(context);

    return context;
  }
 private JavaFileObject findModuleDescriptorForFile(File file) {
   JavacFileManager dfm = (JavacFileManager) fileManager;
   File dir = file.getParentFile();
   while (dir != null) {
     try {
       String name = dir.getPath() + "/module";
       JavaFileObject fo =
           dfm.getJavaFileForInput(StandardLocation.SOURCE_PATH, name, Kind.SOURCE);
       if (fo != null) {
         return fo;
       }
     } catch (IOException e) {
       // Ignore
     }
     dir = dir.getParentFile();
   }
   return null;
 }
 private Context prepareContext(Context baseContext, JCCompilationUnit compilationUnit) {
   Context context = new SubContext(baseContext);
   if (context.get(JavaFileManager.class) == null) {
     JavacFileManager.preRegister(context);
   }
   context.put(JCCompilationUnit.class, compilationUnit);
   context.put(PackageSymbol.class, compilationUnit.packge);
   context.put(RULE_TYPE_VARS, typeVariables());
   return context;
 }
Exemple #8
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  /**
   * Programmatic interface for main function.
   *
   * @param args The command line parameters.
   */
  public int compile(
      String[] args,
      Context context,
      List<JavaFileObject> fileObjects,
      Iterable<? extends Processor> processors) {
    if (options == null) options = Options.instance(context); // creates a new one

    filenames = new ListBuffer<File>();
    classnames = new ListBuffer<String>();
    JavaCompiler comp = null;
    /*
     * TODO: Logic below about what is an acceptable command line
     * should be updated to take annotation processing semantics
     * into account.
     */
    try {
      if (args.length == 0 && fileObjects.isEmpty()) {
        help();
        return EXIT_CMDERR;
      }

      List<File> files;
      try {
        files = processArgs(CommandLine.parse(args));
        if (files == null) {
          // null signals an error in options, abort
          return EXIT_CMDERR;
        } else if (files.isEmpty() && fileObjects.isEmpty() && classnames.isEmpty()) {
          // it is allowed to compile nothing if just asking for help or version info
          if (options.get("-help") != null
              || options.get("-X") != null
              || options.get("-version") != null
              || options.get("-fullversion") != null) return EXIT_OK;
          error("err.no.source.files");
          return EXIT_CMDERR;
        }
      } catch (java.io.FileNotFoundException e) {
        Log.printLines(
            out, ownName + ": " + getLocalizedString("err.file.not.found", e.getMessage()));
        return EXIT_SYSERR;
      }

      boolean forceStdOut = options.get("stdout") != null;
      if (forceStdOut) {
        out.flush();
        out = new PrintWriter(System.out, true);
      }

      context.put(Log.outKey, out);

      // allow System property in following line as a Mustang legacy
      boolean batchMode =
          (options.get("nonBatchMode") == null && System.getProperty("nonBatchMode") == null);
      if (batchMode) CacheFSInfo.preRegister(context);

      fileManager = context.get(JavaFileManager.class);

      comp = JavaCompiler.instance(context);
      if (comp == null) return EXIT_SYSERR;

      if (!files.isEmpty()) {
        // add filenames to fileObjects
        comp = JavaCompiler.instance(context);
        List<JavaFileObject> otherFiles = List.nil();
        JavacFileManager dfm = (JavacFileManager) fileManager;
        for (JavaFileObject fo : dfm.getJavaFileObjectsFromFiles(files))
          otherFiles = otherFiles.prepend(fo);
        for (JavaFileObject fo : otherFiles) fileObjects = fileObjects.prepend(fo);
      }
      comp.compile(fileObjects, classnames.toList(), processors);

      if (comp.errorCount() != 0) return EXIT_ERROR;
    } catch (IOException ex) {
      ioMessage(ex);
      return EXIT_SYSERR;
    } catch (OutOfMemoryError ex) {
      resourceMessage(ex);
      return EXIT_SYSERR;
    } catch (StackOverflowError ex) {
      resourceMessage(ex);
      return EXIT_SYSERR;
    } catch (FatalError ex) {
      feMessage(ex);
      return EXIT_SYSERR;
    } catch (AnnotationProcessingError ex) {
      apMessage(ex);
      return EXIT_SYSERR;
    } catch (ClientCodeException ex) {
      // as specified by javax.tools.JavaCompiler#getTask
      // and javax.tools.JavaCompiler.CompilationTask#call
      throw new RuntimeException(ex.getCause());
    } catch (PropagatedException ex) {
      throw ex.getCause();
    } catch (Throwable ex) {
      // Nasty.  If we've already reported an error, compensate
      // for buggy compiler error recovery by swallowing thrown
      // exceptions.
      if (comp == null || comp.errorCount() == 0 || options == null || options.get("dev") != null)
        bugMessage(ex);
      return EXIT_ABNORMAL;
    } finally {
      if (comp != null) comp.close();
      filenames = null;
      options = null;
    }
    return EXIT_OK;
  }
  public static void main(String... args) throws IOException, URISyntaxException {
    if (args.length != 1) throw new IllegalStateException("Must provide class name!");
    String testContent = null;
    List<File> sourcePath = new ArrayList<>();
    for (String sourcePaths : System.getProperty("test.src.path").split(":")) {
      sourcePath.add(new File(sourcePaths));
    }
    JavacFileManager fm = JavacTool.create().getStandardFileManager(null, null, null);
    for (File sp : sourcePath) {
      File inp = new File(sp, args[0]);

      if (inp.canRead()) {
        testContent = fm.getRegularFile(inp.toPath()).getCharContent(true).toString();
      }
    }
    if (testContent == null) throw new IllegalStateException();
    final List<Diagnostic<?>> diagnostics = new ArrayList<>();
    DiagnosticListener<JavaFileObject> collectDiagnostics =
        new DiagnosticListener<JavaFileObject>() {
          @Override
          public void report(Diagnostic<? extends JavaFileObject> diagnostic) {
            diagnostics.add(diagnostic);
          }
        };
    JavaFileObject testFile = new TestFO(new URI("mem://" + args[0]), testContent);
    JavacTask task =
        JavacTool.create()
            .getTask(
                null,
                new TestFM(fm),
                collectDiagnostics,
                STANDARD_PARAMS,
                null,
                Arrays.asList(testFile));
    final Trees trees = Trees.instance(task);
    final CompilationUnitTree cut = task.parse().iterator().next();
    task.analyze();

    final List<int[]> declarationSpans = new ArrayList<>();

    new TreeScanner<Void, Void>() {
      @Override
      public Void visitClass(ClassTree node, Void p) {
        handleDeclaration(node);
        return super.visitClass(node, p);
      }

      @Override
      public Void visitMethod(MethodTree node, Void p) {
        handleDeclaration(node);
        return super.visitMethod(node, p);
      }

      @Override
      public Void visitVariable(VariableTree node, Void p) {
        handleDeclaration(node);
        return super.visitVariable(node, p);
      }

      @Override
      public Void visitNewClass(NewClassTree node, Void p) {
        if (node.getClassBody() != null) {
          scan(node.getClassBody().getMembers(), null);
        }
        return null;
      }

      private void handleDeclaration(Tree node) {
        int endPos = (int) trees.getSourcePositions().getEndPosition(cut, node);

        if (endPos == (-1)) {
          if (node.getKind() == Tree.Kind.METHOD
              && (((JCMethodDecl) node).getModifiers().flags & Flags.GENERATEDCONSTR) != 0) {
            return;
          }
          throw new IllegalStateException();
        }

        declarationSpans.add(
            new int[] {(int) trees.getSourcePositions().getStartPosition(cut, node), endPos});
      }
    }.scan(cut, null);

    for (final int[] declarationSpan : declarationSpans) {
      final String suppressWarnings =
          "@SuppressWarnings({\"deprecation\", \"unchecked\", \"serial\", \"divzero\"})";
      final String updatedContent =
          testContent.substring(0, declarationSpan[0])
              + suppressWarnings
              + testContent.substring(declarationSpan[0]);
      final List<Diagnostic<?>> foundErrors = new ArrayList<>(diagnostics);
      DiagnosticListener<JavaFileObject> verifyDiagnostics =
          new DiagnosticListener<JavaFileObject>() {
            @Override
            public void report(Diagnostic<? extends JavaFileObject> diagnostic) {
              long adjustedPos = diagnostic.getPosition();

              if (adjustedPos >= declarationSpan[0]) adjustedPos -= suppressWarnings.length();

              if (declarationSpan[0] <= adjustedPos && adjustedPos <= declarationSpan[1]) {
                throw new IllegalStateException("unsuppressed: " + diagnostic.getMessage(null));
              }

              boolean found = false;

              for (Iterator<Diagnostic<?>> it = foundErrors.iterator(); it.hasNext(); ) {
                Diagnostic<?> d = it.next();
                if (d.getPosition() == adjustedPos && d.getCode().equals(diagnostic.getCode())) {
                  it.remove();
                  found = true;
                  break;
                }
              }

              if (!found) {
                throw new IllegalStateException(
                    "diagnostic not originally reported: " + diagnostic.getMessage(null));
              }
            }
          };

      JavaFileObject updatedFile = new TestFO(new URI("mem://" + args[0]), updatedContent);
      JavacTask testTask =
          JavacTool.create()
              .getTask(
                  null,
                  new TestFM(fm),
                  verifyDiagnostics,
                  STANDARD_PARAMS,
                  null,
                  Arrays.asList(updatedFile));

      testTask.analyze();

      for (Diagnostic<?> d : foundErrors) {
        if (d.getPosition() < declarationSpan[0] || declarationSpan[1] < d.getPosition()) {
          throw new IllegalStateException("missing: " + d.getMessage(null));
        }
      }
    }
  }
  /**
   * Main method: compile a list of files, return all compiled classes
   *
   * @param filenames The names of all files to be compiled.
   */
  public List<ClassSymbol> compile(
      List<String> filenames,
      Map<String, String> origOptions,
      ClassLoader aptCL,
      AnnotationProcessorFactory providedFactory,
      java.util.Set<Class<? extends AnnotationProcessorFactory>> productiveFactories,
      java.util.Set<java.io.File> aggregateGenFiles)
      throws Throwable {
    // as a JavaCompiler can only be used once, throw an exception if
    // it has been used before.
    assert !hasBeenUsed : "attempt to reuse JavaCompiler";
    hasBeenUsed = true;

    this.aggregateGenFiles = aggregateGenFiles;

    long msec = System.currentTimeMillis();

    ListBuffer<ClassSymbol> classes = new ListBuffer<ClassSymbol>();
    try {
      JavacFileManager fm = (JavacFileManager) fileManager;
      // parse all files
      ListBuffer<JCCompilationUnit> trees = new ListBuffer<JCCompilationUnit>();
      for (List<String> l = filenames; l.nonEmpty(); l = l.tail) {
        if (classesAsDecls) {
          if (!l.head.endsWith(".java")) { // process as class file
            ClassSymbol cs = reader.enterClass(names.fromString(l.head));
            try {
              cs.complete();
            } catch (Symbol.CompletionFailure cf) {
              bark.aptError("CantFindClass", l);
              continue;
            }

            classes.append(cs); // add to list of classes
            continue;
          }
        }
        JavaFileObject fo = fm.getJavaFileObjectsFromStrings(List.of(l.head)).iterator().next();
        trees.append(parse(fo));
      }

      // enter symbols for all files
      List<JCCompilationUnit> roots = trees.toList();

      if (errorCount() == 0) {
        boolean prev = bark.setDiagnosticsIgnored(true);
        try {
          enter.main(roots);
        } finally {
          bark.setDiagnosticsIgnored(prev);
        }
      }

      if (errorCount() == 0) {
        apt.main(roots, classes, origOptions, aptCL, providedFactory, productiveFactories);
        genSourceFileNames.addAll(apt.getSourceFileNames());
        genClassFileNames.addAll(apt.getClassFileNames());
      }

    } catch (Abort ex) {
    }

    if (verbose) log.printVerbose("total", Long.toString(System.currentTimeMillis() - msec));

    chk.reportDeferredDiagnostics();

    printCount("error", errorCount());
    printCount("warn", warningCount());

    return classes.toList();
  }
    /**
     * Get the context for the next round of processing. Important values are propogated from round
     * to round; other values are implicitly reset.
     */
    private Context nextContext() {
      Context next = new Context(context);

      Options options = Options.instance(context);
      Assert.checkNonNull(options);
      next.put(Options.optionsKey, options);

      PrintWriter out = context.get(Log.outKey);
      Assert.checkNonNull(out);
      next.put(Log.outKey, out);
      Locale locale = context.get(Locale.class);
      if (locale != null) next.put(Locale.class, locale);
      Assert.checkNonNull(messages);
      next.put(JavacMessages.messagesKey, messages);

      final boolean shareNames = true;
      if (shareNames) {
        Names names = Names.instance(context);
        Assert.checkNonNull(names);
        next.put(Names.namesKey, names);
      }

      DiagnosticListener<?> dl = context.get(DiagnosticListener.class);
      if (dl != null) next.put(DiagnosticListener.class, dl);

      TaskListener tl = context.get(TaskListener.class);
      if (tl != null) next.put(TaskListener.class, tl);

      FSInfo fsInfo = context.get(FSInfo.class);
      if (fsInfo != null) next.put(FSInfo.class, fsInfo);

      JavaFileManager jfm = context.get(JavaFileManager.class);
      Assert.checkNonNull(jfm);
      next.put(JavaFileManager.class, jfm);
      if (jfm instanceof JavacFileManager) {
        ((JavacFileManager) jfm).setContext(next);
      }

      Names names = Names.instance(context);
      Assert.checkNonNull(names);
      next.put(Names.namesKey, names);

      Keywords keywords = Keywords.instance(context);
      Assert.checkNonNull(keywords);
      next.put(Keywords.keywordsKey, keywords);

      JavaCompiler oldCompiler = JavaCompiler.instance(context);
      JavaCompiler nextCompiler = JavaCompiler.instance(next);
      nextCompiler.initRound(oldCompiler);

      filer.newRound(next);
      messager.newRound(next);
      elementUtils.setContext(next);
      typeUtils.setContext(next);

      JavacTaskImpl task = context.get(JavacTaskImpl.class);
      if (task != null) {
        next.put(JavacTaskImpl.class, task);
        task.updateContext(next);
      }

      JavacTrees trees = context.get(JavacTrees.class);
      if (trees != null) {
        next.put(JavacTrees.class, trees);
        trees.updateContext(next);
      }

      context.clear();
      return next;
    }