/** Construct a new compiler from a shared context. */
  public AptJavaCompiler(Context context) {
    super(preRegister(context));

    context.put(compilerKey, this);
    apt = Apt.instance(context);

    ClassReader classReader = ClassReader.instance(context);
    classReader.preferSource = true;

    // TEMPORARY NOTE: bark==log, but while refactoring, we maintain their
    // original identities, to remember the original intent.
    log = Log.instance(context);
    bark = Bark.instance(context);

    Options options = Options.instance(context);
    classOutput = options.get("-retrofit") == null;
    nocompile = options.get("-nocompile") != null;
    print = options.get("-print") != null;
    classesAsDecls = options.get("-XclassesAsDecls") != null;

    genSourceFileNames = new java.util.LinkedHashSet<String>();
    genClassFileNames = new java.util.LinkedHashSet<String>();

    // this forces a copy of the line map to be kept in the tree,
    // for use by com.sun.mirror.util.SourcePosition.
    lineDebugInfo = true;
  }
Example #2
0
 void setContext(Context context) {
   log = Log.instance(context);
   options = Options.instance(context);
   lint = Lint.instance(context);
   fsInfo = FSInfo.instance(context);
   config = CompilerConfig.instance(context);
 }
  public JavacProcessingEnvironment(Context context, Iterable<? extends Processor> processors) {
    this.context = context;
    log = Log.instance(context);
    source = Source.instance(context);
    diags = JCDiagnostic.Factory.instance(context);
    options = Options.instance(context);
    printProcessorInfo = options.isSet(XPRINTPROCESSORINFO);
    printRounds = options.isSet(XPRINTROUNDS);
    verbose = options.isSet(VERBOSE);
    lint = Lint.instance(context).isEnabled(PROCESSING);
    procOnly = options.isSet(PROC, "only") || options.isSet(XPRINT);
    fatalErrors = options.isSet("fatalEnterError");
    showResolveErrors = options.isSet("showResolveErrors");
    werror = options.isSet(WERROR);
    platformAnnotations = initPlatformAnnotations();
    foundTypeProcessors = false;

    // Initialize services before any processors are initialized
    // in case processors use them.
    filer = new JavacFiler(context);
    messager = new JavacMessager(context, this);
    elementUtils = JavacElements.instance(context);
    typeUtils = JavacTypes.instance(context);
    processorOptions = initProcessorOptions(context);
    unmatchedProcessorOptions = initUnmatchedProcessorOptions();
    messages = JavacMessages.instance(context);
    initProcessorIterator(context, processors);
  }
Example #4
0
  /** Construct a new module finder. */
  protected ModuleFinder(Context context) {
    context.put(moduleFinderKey, this);
    names = Names.instance(context);
    syms = Symtab.instance(context);
    fileManager = context.get(JavaFileManager.class);
    log = Log.instance(context);
    classFinder = ClassFinder.instance(context);

    diags = JCDiagnostic.Factory.instance(context);
  }
 protected Operators(Context context) {
   context.put(operatorsKey, this);
   syms = Symtab.instance(context);
   names = Names.instance(context);
   log = Log.instance(context);
   types = Types.instance(context);
   initOperatorNames();
   initUnaryOperators();
   initBinaryOperators();
 }
 protected Annotate(Context context) {
   context.put(annotateKey, this);
   attr = Attr.instance(context);
   make = TreeMaker.instance(context);
   log = Log.instance(context);
   syms = Symtab.instance(context);
   names = Names.instance(context);
   rs = Resolve.instance(context);
   types = Types.instance(context);
   cfolder = ConstFold.instance(context);
   chk = Check.instance(context);
 }
 protected RichDiagnosticFormatter(Context context) {
   super((AbstractDiagnosticFormatter) Log.instance(context).getDiagnosticFormatter());
   setRichPrinter(new RichPrinter());
   this.syms = Symtab.instance(context);
   this.diags = JCDiagnostic.Factory.instance(context);
   this.types = Types.instance(context);
   this.messages = JavacMessages.instance(context);
   whereClauses = new LinkedHashMap<WhereClauseKind, Map<Type, JCDiagnostic>>();
   configuration = new RichConfiguration(Options.instance(context), formatter);
   for (WhereClauseKind kind : WhereClauseKind.values())
     whereClauses.put(kind, new LinkedHashMap<Type, JCDiagnostic>());
 }
  private void initProcessorIterator(Context context, Iterable<? extends Processor> processors) {
    Log log = Log.instance(context);
    Iterator<? extends Processor> processorIterator;

    if (options.isSet(XPRINT)) {
      try {
        Processor processor = PrintingProcessor.class.newInstance();
        processorIterator = List.of(processor).iterator();
      } catch (Throwable t) {
        AssertionError assertError = new AssertionError("Problem instantiating PrintingProcessor.");
        assertError.initCause(t);
        throw assertError;
      }
    } else if (processors != null) {
      processorIterator = processors.iterator();
    } else {
      String processorNames = options.get(PROCESSOR);
      JavaFileManager fileManager = context.get(JavaFileManager.class);
      try {
        // If processorpath is not explicitly set, use the classpath.
        processorClassLoader =
            fileManager.hasLocation(ANNOTATION_PROCESSOR_PATH)
                ? fileManager.getClassLoader(ANNOTATION_PROCESSOR_PATH)
                : fileManager.getClassLoader(CLASS_PATH);

        /*
         * If the "-processor" option is used, search the appropriate
         * path for the named class.  Otherwise, use a service
         * provider mechanism to create the processor iterator.
         */
        if (processorNames != null) {
          processorIterator = new NameProcessIterator(processorNames, processorClassLoader, log);
        } else {
          processorIterator = new ServiceIterator(processorClassLoader, log);
        }
      } catch (SecurityException e) {
        /*
         * A security exception will occur if we can't create a classloader.
         * Ignore the exception if, with hindsight, we didn't need it anyway
         * (i.e. no processor was specified either explicitly, or implicitly,
         * in service configuration file.) Otherwise, we cannot continue.
         */
        processorIterator = handleServiceLoaderUnavailability("proc.cant.create.loader", e);
      }
    }
    discoveredProcs = new DiscoveredProcessors(processorIterator);
  }
    /** Create a round (common code). */
    private Round(Context context, int number, int priorErrors, int priorWarnings) {
      this.context = context;
      this.number = number;

      compiler = JavaCompiler.instance(context);
      log = Log.instance(context);
      log.nerrors = priorErrors;
      log.nwarnings += priorWarnings;
      log.deferDiagnostics = true;

      // the following is for the benefit of JavacProcessingEnvironment.getContext()
      JavacProcessingEnvironment.this.context = context;

      // the following will be populated as needed
      topLevelClasses = List.nil();
      packageInfoFiles = List.nil();
    }
Example #10
0
  protected Enter(Context context) {
    context.put(enterKey, this);

    log = Log.instance(context);
    reader = ClassReader.instance(context);
    make = TreeMaker.instance(context);
    syms = Symtab.instance(context);
    chk = Check.instance(context);
    memberEnter = MemberEnter.instance(context);
    types = Types.instance(context);
    annotate = Annotate.instance(context);
    lint = Lint.instance(context);

    predefClassDef =
        make.ClassDef(make.Modifiers(PUBLIC), syms.predefClass.name, null, null, null, null);
    predefClassDef.sym = syms.predefClass;
    todo = Todo.instance(context);
    fileManager = context.get(JavaFileManager.class);
  }
 public static MethodSymbol resolveMethod(
     VisitorState state,
     TypeSymbol base,
     Name name,
     Iterable<Type> argTypes,
     Iterable<Type> tyargTypes) {
   Resolve resolve = Resolve.instance(state.context);
   Enter enter = Enter.instance(state.context);
   Log log = Log.instance(state.context);
   DeferredDiagnosticHandler handler = new DeferredDiagnosticHandler(log);
   try {
     return resolve.resolveInternalMethod(
         /*pos*/ null,
         enter.getEnv(base),
         base.type,
         name,
         com.sun.tools.javac.util.List.from(argTypes),
         com.sun.tools.javac.util.List.from(tyargTypes));
   } finally {
     log.popDiagnosticHandler(handler);
   }
 }
  private void discoverAndRunProcs(
      Context context,
      Set<TypeElement> annotationsPresent,
      List<ClassSymbol> topLevelClasses,
      List<PackageSymbol> packageInfoFiles) {
    Map<String, TypeElement> unmatchedAnnotations =
        new HashMap<String, TypeElement>(annotationsPresent.size());

    for (TypeElement a : annotationsPresent) {
      unmatchedAnnotations.put(a.getQualifiedName().toString(), a);
    }

    // Give "*" processors a chance to match
    if (unmatchedAnnotations.size() == 0) unmatchedAnnotations.put("", null);

    DiscoveredProcessors.ProcessorStateIterator psi = discoveredProcs.iterator();
    // TODO: Create proper argument values; need past round
    // information to fill in this constructor.  Note that the 1
    // st round of processing could be the last round if there
    // were parse errors on the initial source files; however, we
    // are not doing processing in that case.

    Set<Element> rootElements = new LinkedHashSet<Element>();
    rootElements.addAll(topLevelClasses);
    rootElements.addAll(packageInfoFiles);
    rootElements = Collections.unmodifiableSet(rootElements);

    RoundEnvironment renv =
        new JavacRoundEnvironment(false, false, rootElements, JavacProcessingEnvironment.this);

    while (unmatchedAnnotations.size() > 0 && psi.hasNext()) {
      ProcessorState ps = psi.next();
      Set<String> matchedNames = new HashSet<String>();
      Set<TypeElement> typeElements = new LinkedHashSet<TypeElement>();

      for (Map.Entry<String, TypeElement> entry : unmatchedAnnotations.entrySet()) {
        String unmatchedAnnotationName = entry.getKey();
        if (ps.annotationSupported(unmatchedAnnotationName)) {
          matchedNames.add(unmatchedAnnotationName);
          TypeElement te = entry.getValue();
          if (te != null) typeElements.add(te);
        }
      }

      if (matchedNames.size() > 0 || ps.contributed) {
        boolean processingResult = callProcessor(ps.processor, typeElements, renv);
        ps.contributed = true;
        ps.removeSupportedOptions(unmatchedProcessorOptions);

        if (printProcessorInfo || verbose) {
          log.printNoteLines(
              "x.print.processor.info",
              ps.processor.getClass().getName(),
              matchedNames.toString(),
              processingResult);
        }

        if (processingResult) {
          unmatchedAnnotations.keySet().removeAll(matchedNames);
        }
      }
    }
    unmatchedAnnotations.remove("");

    if (lint && unmatchedAnnotations.size() > 0) {
      // Remove annotations processed by javac
      unmatchedAnnotations.keySet().removeAll(platformAnnotations);
      if (unmatchedAnnotations.size() > 0) {
        log = Log.instance(context);
        log.warning("proc.annotations.without.processors", unmatchedAnnotations.keySet());
      }
    }

    // Run contributing processors that haven't run yet
    psi.runContributingProcs(renv);

    // Debugging
    if (options.isSet("displayFilerState")) filer.displayState();
  }
  // TODO: internal catch clauses?; catch and rethrow an annotation
  // processing error
  public JavaCompiler doProcessing(
      Context context,
      List<JCCompilationUnit> roots,
      List<ClassSymbol> classSymbols,
      Iterable<? extends PackageSymbol> pckSymbols) {

    TaskListener taskListener = context.get(TaskListener.class);
    log = Log.instance(context);

    Set<PackageSymbol> specifiedPackages = new LinkedHashSet<PackageSymbol>();
    for (PackageSymbol psym : pckSymbols) specifiedPackages.add(psym);
    this.specifiedPackages = Collections.unmodifiableSet(specifiedPackages);

    Round round = new Round(context, roots, classSymbols);

    boolean errorStatus;
    boolean moreToDo;
    do {
      // Run processors for round n
      round.run(false, false);

      // Processors for round n have run to completion.
      // Check for errors and whether there is more work to do.
      errorStatus = round.unrecoverableError();
      moreToDo = moreToDo();

      round.showDiagnostics(errorStatus || showResolveErrors);

      // Set up next round.
      // Copy mutable collections returned from filer.
      round =
          round.next(
              new LinkedHashSet<JavaFileObject>(filer.getGeneratedSourceFileObjects()),
              new LinkedHashMap<String, JavaFileObject>(filer.getGeneratedClasses()));

      // Check for errors during setup.
      if (round.unrecoverableError()) errorStatus = true;

    } while (moreToDo && !errorStatus);

    // run last round
    round.run(true, errorStatus);
    round.showDiagnostics(true);

    filer.warnIfUnclosedFiles();
    warnIfUnmatchedOptions();

    /*
     * If an annotation processor raises an error in a round,
     * that round runs to completion and one last round occurs.
     * The last round may also occur because no more source or
     * class files have been generated.  Therefore, if an error
     * was raised on either of the last *two* rounds, the compile
     * should exit with a nonzero exit code.  The current value of
     * errorStatus holds whether or not an error was raised on the
     * second to last round; errorRaised() gives the error status
     * of the last round.
     */
    if (messager.errorRaised() || werror && round.warningCount() > 0 && round.errorCount() > 0)
      errorStatus = true;

    Set<JavaFileObject> newSourceFiles =
        new LinkedHashSet<JavaFileObject>(filer.getGeneratedSourceFileObjects());
    roots = cleanTrees(round.roots);

    JavaCompiler compiler = round.finalCompiler(errorStatus);

    if (newSourceFiles.size() > 0) roots = roots.appendList(compiler.parseFiles(newSourceFiles));

    errorStatus = errorStatus || (compiler.errorCount() > 0);

    // Free resources
    this.close();

    if (taskListener != null)
      taskListener.finished(new TaskEvent(TaskEvent.Kind.ANNOTATION_PROCESSING));

    if (errorStatus) {
      if (compiler.errorCount() == 0) compiler.log.nerrors++;
      return compiler;
    }

    if (procOnly && !foundTypeProcessors) {
      compiler.todo.clear();
    } else {
      if (procOnly && foundTypeProcessors) compiler.shouldStopPolicy = CompileState.FLOW;

      compiler.enterTrees(roots);
    }

    return compiler;
  }