/**
   * Loads the given class node returning the implementation Class.
   *
   * <p>WARNING: this compilation is not synchronized
   *
   * @param classNode
   * @return a class
   */
  public Class defineClass(ClassNode classNode, String file, String newCodeBase) {
    CodeSource codeSource = null;
    try {
      codeSource =
          new CodeSource(new URL("file", "", newCodeBase), (java.security.cert.Certificate[]) null);
    } catch (MalformedURLException e) {
      // swallow
    }

    CompilationUnit unit = createCompilationUnit(config, codeSource);
    ClassCollector collector = createCollector(unit, classNode.getModule().getContext());
    try {
      unit.addClassNode(classNode);
      unit.setClassgenCallback(collector);
      unit.compile(Phases.CLASS_GENERATION);
      definePackage(collector.generatedClass.getName());
      return collector.generatedClass;
    } catch (CompilationFailedException e) {
      throw new RuntimeException(e);
    }
  }
  /**
   * Compile the specified Groovy source files, applying any {@link CompilerAutoConfiguration}s. All
   * classes defined in the files will be returned from this method.
   *
   * @param file the file to compile
   * @return compiled classes
   * @throws CompilationFailedException
   * @throws IOException
   */
  public Class<?>[] compile(File... file) throws CompilationFailedException, IOException {

    this.loader.clearCache();
    List<Class<?>> classes = new ArrayList<Class<?>>();

    CompilerConfiguration configuration = this.loader.getConfiguration();

    CompilationUnit compilationUnit = new CompilationUnit(configuration, null, this.loader);
    SourceUnit sourceUnit =
        new SourceUnit(file[0], configuration, this.loader, compilationUnit.getErrorCollector());
    ClassCollector collector = this.loader.createCollector(compilationUnit, sourceUnit);
    compilationUnit.setClassgenCallback(collector);

    compilationUnit.addSources(file);

    addAstTransformations(compilationUnit);

    compilationUnit.compile(Phases.CLASS_GENERATION);
    for (Object loadedClass : collector.getLoadedClasses()) {
      classes.add((Class<?>) loadedClass);
    }
    ClassNode mainClassNode = (ClassNode) compilationUnit.getAST().getClasses().get(0);
    Class<?> mainClass = null;
    for (Class<?> loadedClass : classes) {
      if (mainClassNode.getName().equals(loadedClass.getName())) {
        mainClass = loadedClass;
      }
    }
    if (mainClass != null) {
      classes.remove(mainClass);
      classes.add(0, mainClass);
    }

    return classes.toArray(new Class<?>[classes.size()]);
  }
  public static void addPhaseOperations(final CompilationUnit compilationUnit) {
    final ASTTransformationsContext context = compilationUnit.getASTTransformationsContext();
    addGlobalTransforms(context);

    compilationUnit.addPhaseOperation(
        new CompilationUnit.PrimaryClassNodeOperation() {
          public void call(SourceUnit source, GeneratorContext context, ClassNode classNode)
              throws CompilationFailedException {
            ASTTransformationCollectorCodeVisitor collector =
                new ASTTransformationCollectorCodeVisitor(
                    source, compilationUnit.getTransformLoader());
            collector.visitClass(classNode);
          }
        },
        Phases.SEMANTIC_ANALYSIS);
    for (CompilePhase phase : CompilePhase.values()) {
      final ASTTransformationVisitor visitor = new ASTTransformationVisitor(phase, context);
      switch (phase) {
        case INITIALIZATION:
        case PARSING:
        case CONVERSION:
          // with transform detection alone these phases are inaccessible, so don't add it
          break;

        default:
          compilationUnit.addPhaseOperation(
              new CompilationUnit.PrimaryClassNodeOperation() {
                public void call(SourceUnit source, GeneratorContext context, ClassNode classNode)
                    throws CompilationFailedException {
                  visitor.source = source;
                  visitor.visitClass(classNode);
                }
              },
              phase.getPhaseNumber());
          break;
      }
    }
  }
    protected Class createClass(byte[] code, ClassNode classNode) {
      BytecodeProcessor bytecodePostprocessor = unit.getConfiguration().getBytecodePostprocessor();
      byte[] fcode = code;
      if (bytecodePostprocessor != null) {
        fcode = bytecodePostprocessor.processBytecode(classNode.getName(), fcode);
      }
      GroovyClassLoader cl = getDefiningClassLoader();
      Class theClass =
          cl.defineClass(
              classNode.getName(), fcode, 0, fcode.length, unit.getAST().getCodeSource());
      this.loadedClasses.add(theClass);

      if (generatedClass == null) {
        ModuleNode mn = classNode.getModule();
        SourceUnit msu = null;
        if (mn != null) msu = mn.getContext();
        ClassNode main = null;
        if (mn != null) main = (ClassNode) mn.getClasses().get(0);
        if (msu == su && main == classNode) generatedClass = theClass;
      }

      return theClass;
    }
  private Class doParseClass(GroovyCodeSource codeSource) {
    validate(codeSource);
    Class answer; // Was neither already loaded nor compiling, so compile and add to cache.
    CompilationUnit unit = createCompilationUnit(config, codeSource.getCodeSource());
    if (recompile != null && recompile || recompile == null && config.getRecompileGroovySource()) {
      unit.addFirstPhaseOperation(
          TimestampAdder.INSTANCE, CompilePhase.CLASS_GENERATION.getPhaseNumber());
    }
    SourceUnit su = null;
    File file = codeSource.getFile();
    if (file != null) {
      su = unit.addSource(file);
    } else {
      URL url = codeSource.getURL();
      if (url != null) {
        su = unit.addSource(url);
      } else {
        su = unit.addSource(codeSource.getName(), codeSource.getScriptText());
      }
    }

    ClassCollector collector = createCollector(unit, su);
    unit.setClassgenCallback(collector);
    int goalPhase = Phases.CLASS_GENERATION;
    if (config != null && config.getTargetDirectory() != null) goalPhase = Phases.OUTPUT;
    unit.compile(goalPhase);

    answer = collector.generatedClass;
    String mainClass = su.getAST().getMainClassName();
    for (Object o : collector.getLoadedClasses()) {
      Class clazz = (Class) o;
      String clazzName = clazz.getName();
      definePackage(clazzName);
      setClassCacheEntry(clazz);
      if (clazzName.equals(mainClass)) answer = clazz;
    }
    return answer;
  }
  public void visit(ASTNode[] nodes, final SourceUnit source) {
    init(nodes, source);
    AnnotatedNode targetClass = (AnnotatedNode) nodes[1];
    AnnotationNode logAnnotation = (AnnotationNode) nodes[0];

    final GroovyClassLoader classLoader =
        compilationUnit != null ? compilationUnit.getTransformLoader() : source.getClassLoader();
    final LoggingStrategy loggingStrategy = createLoggingStrategy(logAnnotation, classLoader);
    if (loggingStrategy == null) return;

    final String logFieldName = lookupLogFieldName(logAnnotation);

    final String categoryName = lookupCategoryName(logAnnotation);

    if (!(targetClass instanceof ClassNode))
      throw new GroovyBugError(
          "Class annotation "
              + logAnnotation.getClassNode().getName()
              + " annotated no Class, this must not happen.");

    final ClassNode classNode = (ClassNode) targetClass;

    ClassCodeExpressionTransformer transformer =
        new ClassCodeExpressionTransformer() {
          private FieldNode logNode;

          @Override
          protected SourceUnit getSourceUnit() {
            return source;
          }

          public Expression transform(Expression exp) {
            if (exp == null) return null;
            if (exp instanceof MethodCallExpression) {
              return transformMethodCallExpression(exp);
            }
            if (exp instanceof ClosureExpression) {
              return transformClosureExpression((ClosureExpression) exp);
            }
            return super.transform(exp);
          }

          @Override
          public void visitClass(ClassNode node) {
            FieldNode logField = node.getField(logFieldName);
            if (logField != null && logField.getOwner().equals(node)) {
              addError(
                  "Class annotated with Log annotation cannot have log field declared", logField);
            } else if (logField != null && !Modifier.isPrivate(logField.getModifiers())) {
              addError(
                  "Class annotated with Log annotation cannot have log field declared because the field exists in the parent class: "
                      + logField.getOwner().getName(),
                  logField);
            } else {
              logNode = loggingStrategy.addLoggerFieldToClass(node, logFieldName, categoryName);
            }
            super.visitClass(node);
          }

          private Expression transformClosureExpression(ClosureExpression exp) {
            if (exp.getCode() instanceof BlockStatement) {
              BlockStatement code = (BlockStatement) exp.getCode();
              super.visitBlockStatement(code);
            }
            return exp;
          }

          private Expression transformMethodCallExpression(Expression exp) {
            MethodCallExpression mce = (MethodCallExpression) exp;
            if (!(mce.getObjectExpression() instanceof VariableExpression)) {
              return exp;
            }
            VariableExpression variableExpression = (VariableExpression) mce.getObjectExpression();
            if (!variableExpression.getName().equals(logFieldName)
                || !(variableExpression.getAccessedVariable() instanceof DynamicVariable)) {
              return exp;
            }
            String methodName = mce.getMethodAsString();
            if (methodName == null) return exp;
            if (usesSimpleMethodArgumentsOnly(mce)) return exp;

            variableExpression.setAccessedVariable(logNode);

            if (!loggingStrategy.isLoggingMethod(methodName)) return exp;

            return loggingStrategy.wrapLoggingMethodCall(variableExpression, methodName, exp);
          }

          private boolean usesSimpleMethodArgumentsOnly(MethodCallExpression mce) {
            Expression arguments = mce.getArguments();
            if (arguments instanceof TupleExpression) {
              TupleExpression tuple = (TupleExpression) arguments;
              for (Expression exp : tuple.getExpressions()) {
                if (!isSimpleExpression(exp)) return false;
              }
              return true;
            }
            return !isSimpleExpression(arguments);
          }

          private boolean isSimpleExpression(Expression exp) {
            if (exp instanceof ConstantExpression) return true;
            if (exp instanceof VariableExpression) return true;
            return false;
          }
        };
    transformer.visitClass(classNode);

    // GROOVY-6373: references to 'log' field are normally already FieldNodes by now, so revisit
    // scoping
    new VariableScopeVisitor(sourceUnit, true).visitClass(classNode);
  }
 private static void addPhaseOperationsForGlobalTransforms(
     CompilationUnit compilationUnit, Map<String, URL> transformNames, boolean isFirstScan) {
   GroovyClassLoader transformLoader = compilationUnit.getTransformLoader();
   for (Map.Entry<String, URL> entry : transformNames.entrySet()) {
     try {
       Class gTransClass = transformLoader.loadClass(entry.getKey(), false, true, false);
       // no inspection unchecked
       GroovyASTTransformation transformAnnotation =
           (GroovyASTTransformation) gTransClass.getAnnotation(GroovyASTTransformation.class);
       if (transformAnnotation == null) {
         compilationUnit
             .getErrorCollector()
             .addWarning(
                 new WarningMessage(
                     WarningMessage.POSSIBLE_ERRORS,
                     "Transform Class "
                         + entry.getKey()
                         + " is specified as a global transform in "
                         + entry.getValue().toExternalForm()
                         + " but it is not annotated by "
                         + GroovyASTTransformation.class.getName()
                         + " the global transform associated with it may fail and cause the compilation to fail.",
                     null,
                     null));
         continue;
       }
       if (ASTTransformation.class.isAssignableFrom(gTransClass)) {
         final ASTTransformation instance = (ASTTransformation) gTransClass.newInstance();
         if (instance instanceof CompilationUnitAware) {
           ((CompilationUnitAware) instance).setCompilationUnit(compilationUnit);
         }
         CompilationUnit.SourceUnitOperation suOp =
             new CompilationUnit.SourceUnitOperation() {
               public void call(SourceUnit source) throws CompilationFailedException {
                 instance.visit(new ASTNode[] {source.getAST()}, source);
               }
             };
         if (isFirstScan) {
           compilationUnit.addPhaseOperation(suOp, transformAnnotation.phase().getPhaseNumber());
         } else {
           compilationUnit.addNewPhaseOperation(
               suOp, transformAnnotation.phase().getPhaseNumber());
         }
       } else {
         compilationUnit
             .getErrorCollector()
             .addError(
                 new SimpleMessage(
                     "Transform Class "
                         + entry.getKey()
                         + " specified at "
                         + entry.getValue().toExternalForm()
                         + " is not an ASTTransformation.",
                     null));
       }
     } catch (Exception e) {
       compilationUnit
           .getErrorCollector()
           .addError(
               new SimpleMessage(
                   "Could not instantiate global transform class "
                       + entry.getKey()
                       + " specified at "
                       + entry.getValue().toExternalForm()
                       + "  because of exception "
                       + e.toString(),
                   null));
     }
   }
 }
  private static void doAddGlobalTransforms(
      ASTTransformationsContext context, boolean isFirstScan) {
    final CompilationUnit compilationUnit = context.getCompilationUnit();
    GroovyClassLoader transformLoader = compilationUnit.getTransformLoader();
    Map<String, URL> transformNames = new LinkedHashMap<String, URL>();
    try {
      Enumeration<URL> globalServices =
          transformLoader.getResources(
              "META-INF/services/org.codehaus.groovy.transform.ASTTransformation");
      while (globalServices.hasMoreElements()) {
        URL service = globalServices.nextElement();
        String className;
        BufferedReader svcIn = null;
        try {
          svcIn = new BufferedReader(new InputStreamReader(service.openStream()));
          try {
            className = svcIn.readLine();
          } catch (IOException ioe) {
            compilationUnit
                .getErrorCollector()
                .addError(
                    new SimpleMessage(
                        "IOException reading the service definition at "
                            + service.toExternalForm()
                            + " because of exception "
                            + ioe.toString(),
                        null));
            continue;
          }
          Set<String> disabledGlobalTransforms =
              compilationUnit.getConfiguration().getDisabledGlobalASTTransformations();
          if (disabledGlobalTransforms == null) disabledGlobalTransforms = Collections.emptySet();
          while (className != null) {
            if (!className.startsWith("#") && className.length() > 0) {
              if (!disabledGlobalTransforms.contains(className)) {
                if (transformNames.containsKey(className)) {
                  if (!service.equals(transformNames.get(className))) {
                    compilationUnit
                        .getErrorCollector()
                        .addWarning(
                            WarningMessage.POSSIBLE_ERRORS,
                            "The global transform for class "
                                + className
                                + " is defined in both "
                                + transformNames.get(className).toExternalForm()
                                + " and "
                                + service.toExternalForm()
                                + " - the former definition will be used and the latter ignored.",
                            null,
                            null);
                  }

                } else {
                  transformNames.put(className, service);
                }
              }
            }
            try {
              className = svcIn.readLine();
            } catch (IOException ioe) {
              compilationUnit
                  .getErrorCollector()
                  .addError(
                      new SimpleMessage(
                          "IOException reading the service definition at "
                              + service.toExternalForm()
                              + " because of exception "
                              + ioe.toString(),
                          null));
              //noinspection UnnecessaryContinue
              continue;
            }
          }
        } finally {
          if (svcIn != null) svcIn.close();
        }
      }
    } catch (IOException e) {
      // FIXME the warning message will NPE with what I have :(
      compilationUnit
          .getErrorCollector()
          .addError(
              new SimpleMessage(
                  "IO Exception attempting to load global transforms:" + e.getMessage(), null));
    }
    try {
      Class.forName("java.lang.annotation.Annotation"); // test for 1.5 JVM
    } catch (Exception e) {
      // we failed, notify the user
      StringBuffer sb = new StringBuffer();
      sb.append("Global ASTTransformations are not enabled in retro builds of groovy.\n");
      sb.append("The following transformations will be ignored:");
      for (Map.Entry<String, URL> entry : transformNames.entrySet()) {
        sb.append('\t');
        sb.append(entry.getKey());
        sb.append('\n');
      }
      compilationUnit
          .getErrorCollector()
          .addWarning(
              new WarningMessage(WarningMessage.POSSIBLE_ERRORS, sb.toString(), null, null));
      return;
    }

    // record the transforms found in the first scan, so that in the 2nd scan, phase operations
    // can be added for only for new transforms that have come in
    if (isFirstScan) {
      for (Map.Entry<String, URL> entry : transformNames.entrySet()) {
        context.getGlobalTransformNames().add(entry.getKey());
      }
      addPhaseOperationsForGlobalTransforms(
          context.getCompilationUnit(), transformNames, isFirstScan);
    } else {
      Iterator<Map.Entry<String, URL>> it = transformNames.entrySet().iterator();
      while (it.hasNext()) {
        Map.Entry<String, URL> entry = it.next();
        if (!context.getGlobalTransformNames().add(entry.getKey())) {
          // phase operations for this transform class have already been added before, so remove
          // from current scan cycle
          it.remove();
        }
      }
      addPhaseOperationsForGlobalTransforms(
          context.getCompilationUnit(), transformNames, isFirstScan);
    }
  }
 public void compile(File[] files) throws Exception {
   unit.addSources(files);
   unit.compile();
 }
  public void visit(ASTNode[] nodes, SourceUnit source) {
    sourceUnit = source;
    loader = null;
    initContextClassLoader = false;

    ModuleNode mn = (ModuleNode) nodes[0];

    allowShortGrab = true;
    allowShortGrabExcludes = true;
    allowShortGrabConfig = true;
    allowShortGrapes = true;
    allowShortGrabResolver = true;
    grabAliases = new HashSet<String>();
    grabExcludeAliases = new HashSet<String>();
    grabConfigAliases = new HashSet<String>();
    grapesAliases = new HashSet<String>();
    grabResolverAliases = new HashSet<String>();
    for (ImportNode im : mn.getImports()) {
      String alias = im.getAlias();
      String className = im.getClassName();
      if ((className.endsWith(GRAB_DOT_NAME) && ((alias == null) || (alias.length() == 0)))
          || (GRAB_CLASS_NAME.equals(alias))) {
        allowShortGrab = false;
      } else if (GRAB_CLASS_NAME.equals(className)) {
        grabAliases.add(im.getAlias());
      }
      if ((className.endsWith(GRAPES_DOT_NAME) && ((alias == null) || (alias.length() == 0)))
          || (GRAPES_CLASS_NAME.equals(alias))) {
        allowShortGrapes = false;
      } else if (GRAPES_CLASS_NAME.equals(className)) {
        grapesAliases.add(im.getAlias());
      }
      if ((className.endsWith(GRABRESOLVER_DOT_NAME) && ((alias == null) || (alias.length() == 0)))
          || (GRABRESOLVER_CLASS_NAME.equals(alias))) {
        allowShortGrabResolver = false;
      } else if (GRABRESOLVER_CLASS_NAME.equals(className)) {
        grabResolverAliases.add(im.getAlias());
      }
    }

    List<Map<String, Object>> grabMaps = new ArrayList<Map<String, Object>>();
    List<Map<String, Object>> grabExcludeMaps = new ArrayList<Map<String, Object>>();

    for (ClassNode classNode : sourceUnit.getAST().getClasses()) {
      grabAnnotations = new ArrayList<AnnotationNode>();
      grabExcludeAnnotations = new ArrayList<AnnotationNode>();
      grabConfigAnnotations = new ArrayList<AnnotationNode>();
      grapesAnnotations = new ArrayList<AnnotationNode>();
      grabResolverAnnotations = new ArrayList<AnnotationNode>();

      visitClass(classNode);

      ClassNode grapeClassNode = ClassHelper.make(Grape.class);

      List<Statement> grabResolverInitializers = new ArrayList<Statement>();

      if (!grapesAnnotations.isEmpty()) {
        for (AnnotationNode node : grapesAnnotations) {
          Expression init = node.getMember("initClass");
          Expression value = node.getMember("value");
          if (value instanceof ListExpression) {
            for (Object o : ((ListExpression) value).getExpressions()) {
              if (o instanceof ConstantExpression) {
                extractGrab(init, (ConstantExpression) o);
              }
            }
          } else if (value instanceof ConstantExpression) {
            extractGrab(init, (ConstantExpression) value);
          }
          // don't worry if it's not a ListExpression, or AnnotationConstant, etc.
          // the rest of GroovyC will flag it as a syntax error later, so we don't
          // need to raise the error ourselves
        }
      }

      if (!grabResolverAnnotations.isEmpty()) {
        grabResolverAnnotationLoop:
        for (AnnotationNode node : grabResolverAnnotations) {
          Map<String, Object> grabResolverMap = new HashMap<String, Object>();
          Expression value = node.getMember("value");
          ConstantExpression ce = null;
          if (value != null && value instanceof ConstantExpression) {
            ce = (ConstantExpression) value;
          }
          String sval = null;
          if (ce != null && ce.getValue() instanceof String) {
            sval = (String) ce.getValue();
          }
          if (sval != null && sval.length() > 0) {
            for (String s : GRABRESOLVER_REQUIRED) {
              Expression member = node.getMember(s);
              if (member != null) {
                addError(
                    "The attribute \""
                        + s
                        + "\" conflicts with attribute 'value' in @"
                        + node.getClassNode().getNameWithoutPackage()
                        + " annotations",
                    node);
                continue grabResolverAnnotationLoop;
              }
            }
            grabResolverMap.put("name", sval);
            grabResolverMap.put("root", sval);
          } else {
            for (String s : GRABRESOLVER_REQUIRED) {
              Expression member = node.getMember(s);
              if (member == null) {
                addError(
                    "The missing attribute \""
                        + s
                        + "\" is required in @"
                        + node.getClassNode().getNameWithoutPackage()
                        + " annotations",
                    node);
                continue grabResolverAnnotationLoop;
              } else if (member != null && !(member instanceof ConstantExpression)) {
                addError(
                    "Attribute \""
                        + s
                        + "\" has value "
                        + member.getText()
                        + " but should be an inline constant in @"
                        + node.getClassNode().getNameWithoutPackage()
                        + " annotations",
                    node);
                continue grabResolverAnnotationLoop;
              }
              grabResolverMap.put(s, ((ConstantExpression) member).getValue());
            }
          }
          Grape.addResolver(grabResolverMap);
          addGrabResolverAsStaticInitIfNeeded(
              grapeClassNode, node, grabResolverInitializers, grabResolverMap);
        }
      }

      if (!grabConfigAnnotations.isEmpty()) {
        for (AnnotationNode node : grabConfigAnnotations) {
          checkForClassLoader(node);
          checkForInitContextClassLoader(node);
          checkForAutoDownload(node);
          checkForDisableChecksums(node);
        }
        addInitContextClassLoaderIfNeeded(classNode);
      }

      if (!grabExcludeAnnotations.isEmpty()) {
        grabExcludeAnnotationLoop:
        for (AnnotationNode node : grabExcludeAnnotations) {
          Map<String, Object> grabExcludeMap = new HashMap<String, Object>();
          checkForConvenienceForm(node, true);
          for (String s : GRABEXCLUDE_REQUIRED) {
            Expression member = node.getMember(s);
            if (member == null) {
              addError(
                  "The missing attribute \""
                      + s
                      + "\" is required in @"
                      + node.getClassNode().getNameWithoutPackage()
                      + " annotations",
                  node);
              continue grabExcludeAnnotationLoop;
            } else if (member != null && !(member instanceof ConstantExpression)) {
              addError(
                  "Attribute \""
                      + s
                      + "\" has value "
                      + member.getText()
                      + " but should be an inline constant in @"
                      + node.getClassNode().getNameWithoutPackage()
                      + " annotations",
                  node);
              continue grabExcludeAnnotationLoop;
            }
            grabExcludeMap.put(s, ((ConstantExpression) member).getValue());
          }
          grabExcludeMaps.add(grabExcludeMap);
        }
      }

      if (!grabAnnotations.isEmpty()) {
        grabAnnotationLoop:
        for (AnnotationNode node : grabAnnotations) {
          Map<String, Object> grabMap = new HashMap<String, Object>();
          checkForConvenienceForm(node, false);
          for (String s : GRAB_ALL) {
            Expression member = node.getMember(s);
            if (member == null && !GRAB_OPTIONAL.contains(s)) {
              addError(
                  "The missing attribute \""
                      + s
                      + "\" is required in @"
                      + node.getClassNode().getNameWithoutPackage()
                      + " annotations",
                  node);
              continue grabAnnotationLoop;
            } else if (member != null && !(member instanceof ConstantExpression)) {
              addError(
                  "Attribute \""
                      + s
                      + "\" has value "
                      + member.getText()
                      + " but should be an inline constant in @"
                      + node.getClassNode().getNameWithoutPackage()
                      + " annotations",
                  node);
              continue grabAnnotationLoop;
            }
            if (node.getMember(s) != null) grabMap.put(s, ((ConstantExpression) member).getValue());
          }
          grabMaps.add(grabMap);
          callGrabAsStaticInitIfNeeded(classNode, grapeClassNode, node, grabExcludeMaps);
        }
      }

      if (!grabResolverInitializers.isEmpty()) {
        classNode.addStaticInitializerStatements(grabResolverInitializers, true);
      }
    }

    if (!grabMaps.isEmpty()) {
      Map<String, Object> basicArgs = new HashMap<String, Object>();
      basicArgs.put("classLoader", loader != null ? loader : sourceUnit.getClassLoader());
      if (!grabExcludeMaps.isEmpty()) basicArgs.put("excludes", grabExcludeMaps);
      if (autoDownload != null) basicArgs.put(AUTO_DOWNLOAD_SETTING, autoDownload);
      if (disableChecksums != null) basicArgs.put(DISABLE_CHECKSUMS_SETTING, disableChecksums);

      try {
        Grape.grab(basicArgs, grabMaps.toArray(new Map[grabMaps.size()]));
        // grab may have added more transformations through new URLs added to classpath, so do one
        // more scan
        if (compilationUnit != null) {
          ASTTransformationVisitor.addGlobalTransformsAfterGrab(
              compilationUnit.getASTTransformationsContext());
        }
      } catch (RuntimeException re) {
        // Decided against syntax exception since this is not a syntax error.
        // The down side is we lose line number information for the offending
        // @Grab annotation.
        source.addException(re);
      }
    }
  }
Example #11
0
 public void compile(String[] paths) throws Exception {
   unit.addSources(paths);
   unit.compile();
 }
Example #12
0
    public void compile() {
        if (compiledTemplate == null) {
            try {
                long start = System.currentTimeMillis();

                TClassLoader tClassLoader = new TClassLoader();

                // Let's compile the groovy source
                final List<GroovyClass> groovyClassesForThisTemplate = new ArrayList<GroovyClass>();
                // ~~~ Please !
                CompilerConfiguration compilerConfiguration = new CompilerConfiguration();
                compilerConfiguration.setSourceEncoding("utf-8"); // ouf
                CompilationUnit compilationUnit = new CompilationUnit(compilerConfiguration);
                compilationUnit.addSource(new SourceUnit(name, compiledSource, compilerConfiguration, tClassLoader, compilationUnit.getErrorCollector()));
                Field phasesF = compilationUnit.getClass().getDeclaredField("phaseOperations");
                phasesF.setAccessible(true);
                LinkedList[] phases = (LinkedList[]) phasesF.get(compilationUnit);
                LinkedList<GroovyClassOperation> output = new LinkedList<GroovyClassOperation>();
                phases[Phases.OUTPUT] = output;
                output.add(new GroovyClassOperation() {
                    public void call(GroovyClass gclass) {
                        groovyClassesForThisTemplate.add(gclass);
                    }
                });
                compilationUnit.compile();
                // ouf 

                // Define script classes
                StringBuilder sb = new StringBuilder();
                sb.append("LINESMATRIX" + "\n");
                sb.append(Codec.encodeBASE64(Java.serialize(linesMatrix)).replaceAll("\\s", ""));
                sb.append("\n");
                sb.append("DOBODYLINES" + "\n");
                sb.append(Codec.encodeBASE64(Java.serialize(doBodyLines)).replaceAll("\\s", ""));
                sb.append("\n");
                for (GroovyClass gclass : groovyClassesForThisTemplate) {
                    tClassLoader.defineTemplate(gclass.getName(), gclass.getBytes());
                    sb.append(gclass.getName() + "\n");
                    sb.append(Codec.encodeBASE64(gclass.getBytes()).replaceAll("\\s", ""));
                    sb.append("\n");
                }
                // Cache
                BytecodeCache.cacheBytecode(sb.toString().getBytes("utf-8"), name, source);
                compiledTemplate = tClassLoader.loadClass(groovyClassesForThisTemplate.get(0).getName());
                if (System.getProperty("precompile") != null) {
                    try {
                        // emit bytecode to standard class layout as well
                        File f = Play.getFile("precompiled/templates/" + name.replaceAll("\\{(.*)\\}", "from_$1").replace(":", "_").replace("..", "parent"));
                        f.getParentFile().mkdirs();
                        FileOutputStream fos = new FileOutputStream(f);
                        fos.write(sb.toString().getBytes("utf-8"));
                        fos.close();
                    } catch (Exception e) {
                        e.printStackTrace();
                    }
                }

                Logger.trace("%sms to compile template %s to %d classes", System.currentTimeMillis() - start, name, groovyClassesForThisTemplate.size());

            } catch (MultipleCompilationErrorsException e) {
                if (e.getErrorCollector().getLastError() != null) {
                    SyntaxErrorMessage errorMessage = (SyntaxErrorMessage) e.getErrorCollector().getLastError();
                    SyntaxException syntaxException = errorMessage.getCause();
                    Integer line = this.linesMatrix.get(syntaxException.getLine());
                    if (line == null) {
                        line = 0;
                    }
                    String message = syntaxException.getMessage();
                    if (message.indexOf("@") > 0) {
                        message = message.substring(0, message.lastIndexOf("@"));
                    }
                    throw new TemplateCompilationException(this, line, message);
                }
                throw new UnexpectedException(e);
            } catch (Exception e) {
                throw new UnexpectedException(e);
            }
        }
        compiledTemplateName = compiledTemplate.getName();
    }
  public void visit(ASTNode[] nodes, SourceUnit source) {
    sourceUnit = source;
    loader = null;
    initContextClassLoader = false;

    ModuleNode mn = (ModuleNode) nodes[0];

    allowShortGrab = true;
    allowShortGrabExcludes = true;
    allowShortGrabConfig = true;
    allowShortGrapes = true;
    allowShortGrabResolver = true;
    grabAliases = new HashSet<String>();
    grabExcludeAliases = new HashSet<String>();
    grabConfigAliases = new HashSet<String>();
    grapesAliases = new HashSet<String>();
    grabResolverAliases = new HashSet<String>();
    for (ImportNode im : mn.getImports()) {
      String alias = im.getAlias();
      String className = im.getClassName();
      if ((className.endsWith(GRAB_DOT_NAME) && ((alias == null) || (alias.length() == 0)))
          || (GRAB_CLASS_NAME.equals(alias))) {
        allowShortGrab = false;
      } else if (GRAB_CLASS_NAME.equals(className)) {
        grabAliases.add(im.getAlias());
      }
      if ((className.endsWith(GRAPES_DOT_NAME) && ((alias == null) || (alias.length() == 0)))
          || (GRAPES_CLASS_NAME.equals(alias))) {
        allowShortGrapes = false;
      } else if (GRAPES_CLASS_NAME.equals(className)) {
        grapesAliases.add(im.getAlias());
      }
      if ((className.endsWith(GRABRESOLVER_DOT_NAME) && ((alias == null) || (alias.length() == 0)))
          || (GRABRESOLVER_CLASS_NAME.equals(alias))) {
        allowShortGrabResolver = false;
      } else if (GRABRESOLVER_CLASS_NAME.equals(className)) {
        grabResolverAliases.add(im.getAlias());
      }
    }

    List<Map<String, Object>> grabMaps = new ArrayList<Map<String, Object>>();
    List<Map<String, Object>> grabMapsInit = new ArrayList<Map<String, Object>>();
    List<Map<String, Object>> grabExcludeMaps = new ArrayList<Map<String, Object>>();

    for (ClassNode classNode : sourceUnit.getAST().getClasses()) {
      grabAnnotations = new ArrayList<AnnotationNode>();
      grabExcludeAnnotations = new ArrayList<AnnotationNode>();
      grabConfigAnnotations = new ArrayList<AnnotationNode>();
      grapesAnnotations = new ArrayList<AnnotationNode>();
      grabResolverAnnotations = new ArrayList<AnnotationNode>();

      visitClass(classNode);

      ClassNode grapeClassNode = ClassHelper.make(Grape.class);

      List<Statement> grabResolverInitializers = new ArrayList<Statement>();

      if (!grapesAnnotations.isEmpty()) {
        for (AnnotationNode node : grapesAnnotations) {
          Expression init = node.getMember("initClass");
          Expression value = node.getMember("value");
          if (value instanceof ListExpression) {
            for (Object o : ((ListExpression) value).getExpressions()) {
              if (o instanceof ConstantExpression) {
                extractGrab(init, (ConstantExpression) o);
              }
            }
          } else if (value instanceof ConstantExpression) {
            extractGrab(init, (ConstantExpression) value);
          }
          // don't worry if it's not a ListExpression, or AnnotationConstant, etc.
          // the rest of GroovyC will flag it as a syntax error later, so we don't
          // need to raise the error ourselves
        }
      }

      if (!grabResolverAnnotations.isEmpty()) {
        grabResolverAnnotationLoop:
        for (AnnotationNode node : grabResolverAnnotations) {
          Map<String, Object> grabResolverMap = new HashMap<String, Object>();
          String sval = getMemberStringValue(node, "value");
          if (sval != null && sval.length() > 0) {
            for (String s : GRABRESOLVER_REQUIRED) {
              String mval = getMemberStringValue(node, s);
              if (mval != null && mval.isEmpty()) mval = null;
              if (mval != null) {
                addError(
                    "The attribute \""
                        + s
                        + "\" conflicts with attribute 'value' in @"
                        + node.getClassNode().getNameWithoutPackage()
                        + " annotations",
                    node);
                continue grabResolverAnnotationLoop;
              }
            }
            grabResolverMap.put("name", sval);
            grabResolverMap.put("root", sval);
          } else {
            for (String s : GRABRESOLVER_REQUIRED) {
              String mval = getMemberStringValue(node, s);
              if (mval != null && mval.isEmpty()) mval = null;
              Expression member = node.getMember(s);
              if (member == null || mval == null) {
                addError(
                    "The missing attribute \""
                        + s
                        + "\" is required in @"
                        + node.getClassNode().getNameWithoutPackage()
                        + " annotations",
                    node);
                continue grabResolverAnnotationLoop;
              } else if (mval == null) {
                addError(
                    "Attribute \""
                        + s
                        + "\" has value "
                        + member.getText()
                        + " but should be an inline constant String in @"
                        + node.getClassNode().getNameWithoutPackage()
                        + " annotations",
                    node);
                continue grabResolverAnnotationLoop;
              }
              grabResolverMap.put(s, mval);
            }
          }

          // If no scheme is specified for the repository root,
          // then turn it into a URI relative to that of the source file.
          String root = (String) grabResolverMap.get("root");
          if (root != null && !root.contains(":")) {
            URI sourceURI = null;
            // Since we use the data: scheme for StringReaderSources (which are fairly common)
            // and those are not hierarchical we can't use them for making an absolute URI.
            if (!(getSourceUnit().getSource() instanceof StringReaderSource)) {
              // Otherwise let's trust the source to know where it is from.
              // And actually InputStreamReaderSource doesn't know what to do and so returns null.
              sourceURI = getSourceUnit().getSource().getURI();
            }
            // If source doesn't know how to get a reference to itself,
            // then let's use the current working directory, since the repo can be relative to that.
            if (sourceURI == null) {
              sourceURI = new File(".").toURI();
            }
            try {
              URI rootURI = sourceURI.resolve(new URI(root));
              grabResolverMap.put("root", rootURI.toString());
            } catch (URISyntaxException e) {
              // We'll be silent here.
              // If the URI scheme is unknown or not hierarchical, then we just can't help them and
              // shouldn't cause any trouble either.
              // addError("Attribute \"root\" has value '" + root + "' which can't be turned into a
              // valid URI relative to it's source '" + getSourceUnit().getName() + "' @" +
              // node.getClassNode().getNameWithoutPackage() + " annotations", node);
            }
          }

          Grape.addResolver(grabResolverMap);
          addGrabResolverAsStaticInitIfNeeded(
              grapeClassNode, node, grabResolverInitializers, grabResolverMap);
        }
      }

      if (!grabConfigAnnotations.isEmpty()) {
        for (AnnotationNode node : grabConfigAnnotations) {
          checkForClassLoader(node);
          checkForInitContextClassLoader(node);
          checkForAutoDownload(node);
          checkForDisableChecksums(node);
        }
        addInitContextClassLoaderIfNeeded(classNode);
      }

      if (!grabExcludeAnnotations.isEmpty()) {
        grabExcludeAnnotationLoop:
        for (AnnotationNode node : grabExcludeAnnotations) {
          Map<String, Object> grabExcludeMap = new HashMap<String, Object>();
          checkForConvenienceForm(node, true);
          for (String s : GRABEXCLUDE_REQUIRED) {
            Expression member = node.getMember(s);
            if (member == null) {
              addError(
                  "The missing attribute \""
                      + s
                      + "\" is required in @"
                      + node.getClassNode().getNameWithoutPackage()
                      + " annotations",
                  node);
              continue grabExcludeAnnotationLoop;
            } else if (member != null && !(member instanceof ConstantExpression)) {
              addError(
                  "Attribute \""
                      + s
                      + "\" has value "
                      + member.getText()
                      + " but should be an inline constant in @"
                      + node.getClassNode().getNameWithoutPackage()
                      + " annotations",
                  node);
              continue grabExcludeAnnotationLoop;
            }
            grabExcludeMap.put(s, ((ConstantExpression) member).getValue());
          }
          grabExcludeMaps.add(grabExcludeMap);
        }
      }

      if (!grabAnnotations.isEmpty()) {
        grabAnnotationLoop:
        for (AnnotationNode node : grabAnnotations) {
          Map<String, Object> grabMap = new HashMap<String, Object>();
          checkForConvenienceForm(node, false);
          for (String s : GRAB_ALL) {
            Expression member = node.getMember(s);
            String mval = getMemberStringValue(node, s);
            if (mval != null && mval.isEmpty()) member = null;
            if (member == null && !GRAB_OPTIONAL.contains(s)) {
              addError(
                  "The missing attribute \""
                      + s
                      + "\" is required in @"
                      + node.getClassNode().getNameWithoutPackage()
                      + " annotations",
                  node);
              continue grabAnnotationLoop;
            } else if (member != null && !(member instanceof ConstantExpression)) {
              addError(
                  "Attribute \""
                      + s
                      + "\" has value "
                      + member.getText()
                      + " but should be an inline constant in @"
                      + node.getClassNode().getNameWithoutPackage()
                      + " annotations",
                  node);
              continue grabAnnotationLoop;
            }
            if (node.getMember(s) != null) {
              grabMap.put(s, ((ConstantExpression) member).getValue());
            }
          }
          grabMaps.add(grabMap);
          if ((node.getMember("initClass") == null)
              || (node.getMember("initClass") == ConstantExpression.TRUE)) {
            grabMapsInit.add(grabMap);
          }
        }
        callGrabAsStaticInitIfNeeded(classNode, grapeClassNode, grabMapsInit, grabExcludeMaps);
      }

      if (!grabResolverInitializers.isEmpty()) {
        classNode.addStaticInitializerStatements(grabResolverInitializers, true);
      }
    }

    if (!grabMaps.isEmpty()) {
      Map<String, Object> basicArgs = new HashMap<String, Object>();
      basicArgs.put("classLoader", loader != null ? loader : sourceUnit.getClassLoader());
      if (!grabExcludeMaps.isEmpty()) basicArgs.put("excludes", grabExcludeMaps);
      if (autoDownload != null) basicArgs.put(AUTO_DOWNLOAD_SETTING, autoDownload);
      if (disableChecksums != null) basicArgs.put(DISABLE_CHECKSUMS_SETTING, disableChecksums);

      try {
        Grape.grab(basicArgs, grabMaps.toArray(new Map[grabMaps.size()]));
        // grab may have added more transformations through new URLs added to classpath, so do one
        // more scan
        if (compilationUnit != null) {
          ASTTransformationVisitor.addGlobalTransformsAfterGrab(
              compilationUnit.getASTTransformationsContext());
        }
      } catch (RuntimeException re) {
        // Decided against syntax exception since this is not a syntax error.
        // The down side is we lose line number information for the offending
        // @Grab annotation.
        source.addException(re);
      }
    }
  }
 private String getPath(Class clazz) {
   CompilationUnit cu = getLocalData().get().cu;
   String name = clazz.getName();
   ClassNode classNode = cu.getClassNode(name);
   return classNode.getModule().getContext().getName();
 }
    @Override
    protected CompilationUnit createCompilationUnit(
        CompilerConfiguration configuration, CodeSource source) {
      CompilationUnit cu = super.createCompilationUnit(configuration, source);
      LocalData local = getLocalData().get();
      local.cu = cu;
      final StringSetMap cache = local.dependencyCache;

      // "." is used to transfer compilation dependencies, which will be
      // recollected later during compilation
      for (String depSourcePath : cache.get(".")) {
        try {
          cu.addSource(getResourceConnection(depSourcePath).getURL());
        } catch (ResourceException e) {
          /* ignore */
        }
      }

      // remove all old entries including the "." entry
      cache.clear();
      cu.addPhaseOperation(
          new CompilationUnit.PrimaryClassNodeOperation() {
            @Override
            public void call(final SourceUnit source, GeneratorContext context, ClassNode classNode)
                throws CompilationFailedException {
              // GROOVY-4013: If it is an inner class, tracking its dependencies doesn't really
              // serve any purpose and also interferes with the caching done to track dependencies
              if (classNode instanceof InnerClassNode) return;
              DependencyTracker dt = new DependencyTracker(source, cache);
              dt.visitClass(classNode);
            }
          },
          Phases.CLASS_GENERATION);

      cu.setClassNodeResolver(
          new ClassNodeResolver() {
            @Override
            public LookupResult findClassNode(String origName, CompilationUnit compilationUnit) {
              CompilerConfiguration cc = compilationUnit.getConfiguration();
              String name = origName.replace('.', '/');
              for (String ext : cc.getScriptExtensions()) {
                try {
                  String finalName = name + "." + ext;
                  URLConnection conn = rc.getResourceConnection(finalName);
                  URL url = conn.getURL();
                  String path = url.toExternalForm();
                  ScriptCacheEntry entry = scriptCache.get(path);
                  Class clazz = null;
                  if (entry != null) clazz = entry.scriptClass;
                  try {
                    if (GroovyScriptEngine.this.isSourceNewer(entry)) {
                      // String encoding = conn.getContentEncoding() != null ?
                      // conn.getContentEncoding() : "UTF-8";
                      SourceUnit su = compilationUnit.addSource(url);
                      return new LookupResult(su, null);
                    }
                  } finally {
                    forceClose(conn);
                  }
                  if (clazz != null) {
                    ClassNode cn = new ClassNode(clazz);
                    return new LookupResult(null, cn);
                  }
                } catch (ResourceException re) {
                  // skip
                }
              }
              return super.findClassNode(origName, compilationUnit);
            }
          });

      final List<CompilationCustomizer> customizers = config.getCompilationCustomizers();
      if (customizers != null) {
        // GROOVY-4813 : apply configuration customizers
        for (CompilationCustomizer customizer : customizers) {
          cu.addPhaseOperation(customizer, customizer.getPhase().getPhaseNumber());
        }
      }

      return cu;
    }