selenium-server-standalone-2.42.2

  implements CompilerModifiers
{
  public static final int FIELD = 1;
  public static final int CONSTRUCTOR = 2;
  public static final int METHOD = 4;
  public static final int MEMBER_TYPE = 8;
  public static final int FIELD_INITIALIZATION = 16;
  public static final int FIELD_AND_METHOD = 7;
  public static final int LOCAL_TYPE = 32;
  public static final int NONE = 0;
  private int flags;
  private CompilationUnitDeclaration unit;
  private Parser parser;
  private ProblemReporter problemReporter;
  private org.eclipse.jdt.internal.compiler.env.ICompilationUnit cu;
  private char[] source;
  private HashMap annotationPositions;
  private boolean has1_5Compliance;
  int namePos;
  
  private SourceTypeConverter(int flags, ProblemReporter problemReporter)
  {
    this.flags = flags;
    this.problemReporter = problemReporter;
    has1_5Compliance = (options.complianceLevel >= 3211264L);
  }
  
  public static CompilationUnitDeclaration buildCompilationUnit(ISourceType[] sourceTypes, int flags, ProblemReporter problemReporter, CompilationResult compilationResult)
  {
    SourceTypeConverter converter = new SourceTypeConverter(flags, problemReporter);
    try
    {
      return converter.convert(sourceTypes, compilationResult);
    }
    catch (JavaModelException localJavaModelException) {}
    return null;
  }
  
  private CompilationUnitDeclaration convert(ISourceType[] sourceTypes, CompilationResult compilationResult)
    throws JavaModelException
  {
    unit = new CompilationUnitDeclaration(problemReporter, compilationResult, 0);
    if (sourceTypes.length == 0) {
      return unit;
    }
    SourceTypeElementInfo topLevelTypeInfo = (SourceTypeElementInfo)sourceTypes[0];
    org.eclipse.jdt.core.ICompilationUnit cuHandle = topLevelTypeInfo.getHandle().getCompilationUnit();
    cu = ((org.eclipse.jdt.internal.compiler.env.ICompilationUnit)cuHandle);
    annotationPositions = cu).getElementInfo()).annotationPositions;
    if ((has1_5Compliance) && (annotationPositions != null) && (annotationPositions.size() > 10)) {
      return new Parser(problemReporter, true).dietParse(cu, compilationResult);
    }
    int start = topLevelTypeInfo.getNameSourceStart();
    int end = topLevelTypeInfo.getNameSourceEnd();
    
    char[] packageName = cuHandle.getParent().getElementName().toCharArray();
    if (packageName.length > 0) {
      unit.currentPackage = 
        createImportReference(packageName, start, end, false, 0);
    }
    IImportDeclaration[] importDeclarations = topLevelTypeInfo.getHandle().getCompilationUnit().getImports();
    int importCount = importDeclarations.length;
    unit.imports = new ImportReference[importCount];
    for (int i = 0; i < importCount; i++)
    {
      ImportDeclaration importDeclaration = (ImportDeclaration)importDeclarations[i];
      ISourceImport sourceImport = (ISourceImport)importDeclaration.getElementInfo();
      unit.imports[i] = 
      
        createImportReference(importDeclaration.getNameWithoutStar().toCharArray(), sourceImport.getDeclarationSourceStart(), sourceImport.getDeclarationSourceEnd(), importDeclaration.isOnDemand(), sourceImport.getModifiers());
    }
    int typeCount = sourceTypes.length;
    TypeDeclaration[] types = new TypeDeclaration[typeCount];
    for (int i = 0; i < typeCount; i++)
    {
      SourceTypeElementInfo typeInfo = (SourceTypeElementInfo)sourceTypes[i];
      types[i] = convert((SourceType)typeInfo.getHandle(), compilationResult);
    }
    unit.types = types;
    return unit;
  }
  
  private Initializer convert(InitializerElementInfo initializerInfo, CompilationResult compilationResult)
    throws JavaModelException
  {
    Block block = new Block(0);
    Initializer initializer = new Initializer(block, 0);
    
    int start = initializerInfo.getDeclarationSourceStart();
    int end = initializerInfo.getDeclarationSourceEnd();
    
    sourceStart = (declarationSourceStart = start);
    sourceEnd = (declarationSourceEnd = end);
    modifiers = initializerInfo.getModifiers();
    
    IJavaElement[] children = initializerInfo.getChildren();
    int typesLength = children.length;
    if (typesLength > 0)
    {
      Statement[] statements = new Statement[typesLength];
      for (int i = 0; i < typesLength; i++)
      {
        SourceType type = (SourceType)children[i];
        TypeDeclaration localType = convert(type, compilationResult);
        if ((bits & 0x200) != 0)
        {
          QualifiedAllocationExpression expression = new QualifiedAllocationExpression(localType);
          type = superclass;
          superclass = null;
          superInterfaces = null;
          allocation = expression;
          statements[i] = expression;
        }
        else
        {
          statements[i] = localType;
        }
      }
      statements = statements;
    }
    return initializer;
  }
  
  private FieldDeclaration convert(SourceField fieldHandle, TypeDeclaration type, CompilationResult compilationResult)
    throws JavaModelException
  {
    SourceFieldElementInfo fieldInfo = (SourceFieldElementInfo)fieldHandle.getElementInfo();
    FieldDeclaration field = new FieldDeclaration();
    
    int start = fieldInfo.getNameSourceStart();
    int end = fieldInfo.getNameSourceEnd();
    
    name = fieldHandle.getElementName().toCharArray();
    sourceStart = start;
    sourceEnd = end;
    declarationSourceStart = fieldInfo.getDeclarationSourceStart();
    declarationSourceEnd = fieldInfo.getDeclarationSourceEnd();
    int modifiers = fieldInfo.getModifiers();
    boolean isEnumConstant = (modifiers & 0x4000) != 0;
    if (isEnumConstant)
    {
      modifiers = (modifiers & 0xBFFF);
    }
    else
    {
      modifiers = modifiers;
      type = createTypeReference(fieldInfo.getTypeName(), start, end);
    }
    if (has1_5Compliance) {
      annotations = convertAnnotations(fieldHandle);
    }
    if ((flags & 0x10) != 0)
    {
      char[] initializationSource = fieldInfo.getInitializationSource();
      if (initializationSource != null)
      {
        if (parser == null) {
          parser = new Parser(problemReporter, true);
        }
        parser.parse(field, type, unit, initializationSource);
      }
    }
    if ((flags & 0x20) != 0)
    {
      IJavaElement[] children = fieldInfo.getChildren();
      int childrenLength = children.length;
      if (childrenLength > 0)
      {
        ArrayInitializer initializer = new ArrayInitializer();
        initialization = initializer;
        Expression[] expressions = new Expression[childrenLength];
        expressions = expressions;
        for (int i = 0; i < childrenLength; i++)
        {
          IJavaElement localType = children[i];
          TypeDeclaration anonymousLocalTypeDeclaration = convert((SourceType)localType, compilationResult);
          QualifiedAllocationExpression expression = new QualifiedAllocationExpression(anonymousLocalTypeDeclaration);
          type = superclass;
          superclass = null;
          superInterfaces = null;
          allocation = expression;
          modifiers &= 0xBFFF;
          expressions[i] = expression;
        }
      }
    }
    return field;
  }
  
  private AbstractMethodDeclaration convert(SourceMethod methodHandle, CompilationResult compilationResult)
    throws JavaModelException
  {
    SourceMethodElementInfo methodInfo = (SourceMethodElementInfo)methodHandle.getElementInfo();
    
    int start = methodInfo.getNameSourceStart();
    int end = methodInfo.getNameSourceEnd();
    
    TypeParameter[] typeParams = (TypeParameter[])null;
    if (has1_5Compliance)
    {
      char[][] typeParameterNames = methodInfo.getTypeParameterNames();
      if (typeParameterNames != null)
      {
        int parameterCount = typeParameterNames.length;
        if (parameterCount > 0)
        {
          char[][][] typeParameterBounds = methodInfo.getTypeParameterBounds();
          typeParams = new TypeParameter[parameterCount];
          for (int i = 0; i < parameterCount; i++) {
            typeParams[i] = createTypeParameter(typeParameterNames[i], typeParameterBounds[i], start, end);
          }
        }
      }
    }
    int modifiers = methodInfo.getModifiers();
    AbstractMethodDeclaration method;
    if (methodInfo.isConstructor())
    {
      ConstructorDeclaration decl = new ConstructorDeclaration(compilationResult);
      isDefaultConstructor = false;
      AbstractMethodDeclaration method = decl;
      typeParameters = typeParams;
    }
    else
    {
      MethodDeclaration decl;
      MethodDeclaration decl;
      if (methodInfo.isAnnotationMethod())
      {
        AnnotationMethodDeclaration annotationMethodDeclaration = new AnnotationMethodDeclaration(compilationResult);
        if ((flags & 0x10) != 0)
        {
          char[] defaultValueSource = ((SourceAnnotationMethodInfo)methodInfo).getDefaultValueSource(getSource());
          if (defaultValueSource != null)
          {
            Expression expression = parseMemberValue(defaultValueSource);
            if (expression != null)
            {
              defaultValue = expression;
              modifiers |= 0x20000;
            }
          }
        }
        decl = annotationMethodDeclaration;
      }
      else
      {
        decl = new MethodDeclaration(compilationResult);
      }
      returnType = createTypeReference(methodInfo.getReturnTypeName(), start, end);
      
      typeParameters = typeParams;
      
      method = decl;
    }
    selector = methodHandle.getElementName().toCharArray();
    boolean isVarargs = (modifiers & 0x80) != 0;
    modifiers = (modifiers & 0xFF7F);
    sourceStart = start;
    sourceEnd = end;
    declarationSourceStart = methodInfo.getDeclarationSourceStart();
    declarationSourceEnd = methodInfo.getDeclarationSourceEnd();
    if (has1_5Compliance) {
      annotations = convertAnnotations(methodHandle);
    }
    String[] argumentTypeSignatures = methodHandle.getParameterTypes();
    char[][] argumentNames = methodInfo.getArgumentNames();
    int argumentCount = argumentTypeSignatures == null ? 0 : argumentTypeSignatures.length;
    long position = (start << 32) + end;
    arguments = new Argument[argumentCount];
    for (int i = 0; i < argumentCount; i++)
    {
      char[] typeName = Signature.toCharArray(argumentTypeSignatures[i].toCharArray());
      TypeReference typeReference = createTypeReference(typeName, start, end);
      if ((isVarargs) && (i == argumentCount - 1)) {
        bits |= 0x4000;
      }
      arguments[i] = 
        new Argument(
        argumentNames[i], 
        position, 
        typeReference, 
        0);
    }
    char[][] exceptionTypeNames = methodInfo.getExceptionTypeNames();
    int exceptionCount = exceptionTypeNames == null ? 0 : exceptionTypeNames.length;
    thrownExceptions = new TypeReference[exceptionCount];
    for (int i = 0; i < exceptionCount; i++) {
      thrownExceptions[i] = 
        createTypeReference(exceptionTypeNames[i], start, end);
    }
    if ((flags & 0x20) != 0)
    {
      IJavaElement[] children = methodInfo.getChildren();
      int typesLength = children.length;
      if (typesLength != 0)
      {
        Statement[] statements = new Statement[typesLength];
        for (int i = 0; i < typesLength; i++)
        {
          SourceType type = (SourceType)children[i];
          TypeDeclaration localType = convert(type, compilationResult);
          if ((bits & 0x200) != 0)
          {
            QualifiedAllocationExpression expression = new QualifiedAllocationExpression(localType);
            type = superclass;
            superclass = null;
            superInterfaces = null;
            allocation = expression;
            statements[i] = expression;
          }
          else
          {
            statements[i] = localType;
          }
        }
        statements = statements;
      }
    }
    return method;
  }
  
  private TypeDeclaration convert(SourceType typeHandle, CompilationResult compilationResult)
    throws JavaModelException
  {
    SourceTypeElementInfo typeInfo = (SourceTypeElementInfo)typeHandle.getElementInfo();
    
    TypeDeclaration type = new TypeDeclaration(compilationResult);
    if (typeInfo.getEnclosingType() == null)
    {
      if (typeHandle.isAnonymous())
      {
        name = TypeDeclaration.ANONYMOUS_EMPTY_NAME;
        bits |= 0x300;
      }
      else if (typeHandle.isLocal())
      {
        bits |= 0x100;
      }
    }
    else {
      bits |= 0x400;
    }
    if ((bits & 0x200) == 0) {
      name = typeInfo.getName();
    }
    name = typeInfo.getName();
    int start;
    sourceStart = (start = typeInfo.getNameSourceStart());
    int end;
    sourceEnd = (end = typeInfo.getNameSourceEnd());
    modifiers = typeInfo.getModifiers();
    declarationSourceStart = typeInfo.getDeclarationSourceStart();
    declarationSourceEnd = typeInfo.getDeclarationSourceEnd();
    bodyEnd = declarationSourceEnd;
    if (has1_5Compliance)
    {
      annotations = convertAnnotations(typeHandle);
      
      char[][] typeParameterNames = typeInfo.getTypeParameterNames();
      if (typeParameterNames.length > 0)
      {
        int parameterCount = typeParameterNames.length;
        char[][][] typeParameterBounds = typeInfo.getTypeParameterBounds();
        typeParameters = new TypeParameter[parameterCount];
        for (int i = 0; i < parameterCount; i++) {
          typeParameters[i] = createTypeParameter(typeParameterNames[i], typeParameterBounds[i], start, end);
        }
      }
    }
    if (typeInfo.getSuperclassName() != null)
    {
      superclass = createTypeReference(typeInfo.getSuperclassName(), start, end);
      superclass.bits |= 0x10;
    }
    char[][] interfaceNames = typeInfo.getInterfaceNames();
    int interfaceCount = interfaceNames == null ? 0 : interfaceNames.length;
    if (interfaceCount > 0)
    {
      superInterfaces = new TypeReference[interfaceCount];
      for (int i = 0; i < interfaceCount; i++)
      {
        superInterfaces[i] = createTypeReference(interfaceNames[i], start, end);
        superInterfaces[i].bits |= 0x10;
      }
    }
    if ((flags & 0x8) != 0)
    {
      SourceType[] sourceMemberTypes = typeInfo.getMemberTypeHandles();
      int sourceMemberTypeCount = sourceMemberTypes.length;
      memberTypes = new TypeDeclaration[sourceMemberTypeCount];
      for (int i = 0; i < sourceMemberTypeCount; i++) {
        memberTypes[i] = convert(sourceMemberTypes[i], compilationResult);
      }
    }
    InitializerElementInfo[] initializers = (InitializerElementInfo[])null;
    int initializerCount = 0;
    if ((flags & 0x20) != 0)
    {
      initializers = typeInfo.getInitializers();
      initializerCount = initializers.length;
    }
    SourceField[] sourceFields = (SourceField[])null;
    int sourceFieldCount = 0;
    if ((flags & 0x1) != 0)
    {
      sourceFields = typeInfo.getFieldHandles();
      sourceFieldCount = sourceFields.length;
    }
    int length = initializerCount + sourceFieldCount;
    if (length > 0)
    {
      fields = new FieldDeclaration[length];
      for (int i = 0; i < initializerCount; i++) {
        fields[i] = convert(initializers[i], compilationResult);
      }
      int index = 0;
      for (int i = initializerCount; i < length; i++) {
        fields[i] = convert(sourceFields[(index++)], type, compilationResult);
      }
    }
    boolean needConstructor = (flags & 0x2) != 0;
    boolean needMethod = (flags & 0x4) != 0;
    if ((needConstructor) || (needMethod))
    {
      SourceMethod[] sourceMethods = typeInfo.getMethodHandles();
      int sourceMethodCount = sourceMethods.length;
      
      int extraConstructor = 0;
      int methodCount = 0;
      int kind = type.kind();
      boolean isAbstract = (kind == 2) || (kind == 4);
      if (!isAbstract)
      {
        extraConstructor = needConstructor ? 1 : 0;
        for (int i = 0; i < sourceMethodCount; i++) {
          if (sourceMethods[i].isConstructor())
          {
            if (needConstructor)
            {
              extraConstructor = 0;
              methodCount++;
            }
          }
          else if (needMethod) {
            methodCount++;
          }
        }
      }
      else
      {
        methodCount = needMethod ? sourceMethodCount : 0;
      }
      methods = new AbstractMethodDeclaration[methodCount + extraConstructor];
      if (extraConstructor != 0) {
        methods[0] = type.createDefaultConstructor(false, false);
      }
      int index = 0;
      boolean hasAbstractMethods = false;
      for (int i = 0; i < sourceMethodCount; i++)
      {
        SourceMethod sourceMethod = sourceMethods[i];
        boolean isConstructor = sourceMethod.isConstructor();
        if ((sourceMethod.getFlags() & 0x400) != 0) {
          hasAbstractMethods = true;
        }
        if (((isConstructor) && (needConstructor)) || ((!isConstructor) && (needMethod)))
        {
          AbstractMethodDeclaration method = convert(sourceMethod, compilationResult);
          if ((isAbstract) || (method.isAbstract())) {
            modifiers |= 0x1000000;
          }
          methods[(extraConstructor + index++)] = method;
        }
      }
      if (hasAbstractMethods) {
        bits |= 0x800;
      }
    }
    return type;
  }
  
  private Annotation[] convertAnnotations(JavaElement element)
  {
    if (annotationPositions == null) {
      return null;
    }
    char[] cuSource = getSource();
    long[] positions = (long[])annotationPositions.get(element);
    if (positions == null) {
      return null;
    }
    int length = positions.length;
    Annotation[] annotations = new Annotation[length];
    int recordedAnnotations = 0;
    for (int i = 0; i < length; i++)
    {
      long position = positions[i];
      int start = (int)(position >>> 32);
      int end = (int)position;
      char[] annotationSource = CharOperation.subarray(cuSource, start, end + 1);
      Expression expression = parseMemberValue(annotationSource);
      if ((expression instanceof Annotation)) {
        annotations[(recordedAnnotations++)] = ((Annotation)expression);
      }
    }
    if (length != recordedAnnotations) {
      System.arraycopy(annotations, 0, annotations = new Annotation[recordedAnnotations], 0, recordedAnnotations);
    }
    return annotations;
  }
  
  private ImportReference createImportReference(char[] importName, int start, int end, boolean onDemand, int modifiers)
  {
    char[][] qImportName = CharOperation.splitOn('.', importName);
    long[] positions = new long[qImportName.length];
    long position = (start << 32) + end;
    for (int i = 0; i < qImportName.length; i++) {
      positions[i] = position;
    }
    return new ImportReference(
      qImportName, 
      positions, 
      onDemand, 
      modifiers);
  }
  
  private TypeParameter createTypeParameter(char[] typeParameterName, char[][] typeParameterBounds, int start, int end)
  {
    TypeParameter parameter = new TypeParameter();
    name = typeParameterName;
    sourceStart = start;
    sourceEnd = end;
    if (typeParameterBounds != null)
    {
      int length = typeParameterBounds.length;
      if (length > 0)
      {
        type = createTypeReference(typeParameterBounds[0], start, end);
        if (length > 1)
        {
          bounds = new TypeReference[length - 1];
          for (int i = 1; i < length; i++)
          {
            TypeReference bound = createTypeReference(typeParameterBounds[i], start, end);
            bits |= 0x10;
            bounds[(i - 1)] = bound;
          }
        }
      }
    }
    return parameter;
  }
  
  private TypeReference createTypeReference(char[] typeName, int start, int end)
  {
    int length = typeName.length;
    namePos = 0;
    TypeReference type = decodeType(typeName, length, start, end);
    return type;
  }
  
  private TypeReference decodeType(char[] typeName, int length, int start, int end)
  {
    int identCount = 1;
    int dim = 0;
    int nameFragmentStart = namePos;int nameFragmentEnd = -1;
    ArrayList fragments = null;
    while (namePos < length)
    {
      char currentChar = typeName[namePos];
      switch (currentChar)
      {
      case '?': 
        namePos += 1;
        while (typeName[namePos] == ' ') {
          namePos += 1;
        }
        int max;
        int ahead;
        switch (typeName[namePos])
        {
        case 's': 
          max = TypeConstants.WILDCARD_SUPER.length - 1;
          ahead = 1; break;
        case 'e': 
          while (typeName[(namePos + ahead)] == TypeConstants.WILDCARD_SUPER[(ahead + 1)])
          {
            ahead++;
            if (ahead >= max)
            {
              namePos += max;
              Wildcard result = new Wildcard(2);
              bound = decodeType(typeName, length, start, end);
              sourceStart = start;
              sourceEnd = end;
              return result;
              
              break;
              
              int max = TypeConstants.WILDCARD_EXTENDS.length - 1;
              int ahead = 1;
              while (typeName[(namePos + ahead)] == TypeConstants.WILDCARD_EXTENDS[(ahead + 1)])
              {
                ahead++;
                if (ahead >= max)
                {
                  namePos += max;
                  Wildcard result = new Wildcard(1);
                  bound = decodeType(typeName, length, start, end);
                  sourceStart = start;
                  sourceEnd = end;
                  return result;
                }
              }
            }
          }
        }
        Wildcard result = new Wildcard(0);
        sourceStart = start;
        sourceEnd = end;
        return result;
      case '[': 
        if (dim == 0) {
          nameFragmentEnd = namePos - 1;
        }
        dim++;
        break;
      case ']': 
        break;
      case ',': 
      case '>': 
        break;
      case '.': 
        if (nameFragmentStart < 0) {
          nameFragmentStart = namePos + 1;
        }
        identCount++;
        break;
      case '<': 
        if (!has1_5Compliance) {
          break label544;
        }
        if (fragments == null) {
          fragments = new ArrayList(2);
        }
        nameFragmentEnd = namePos - 1;
        char[][] identifiers = CharOperation.splitOn('.', typeName, nameFragmentStart, namePos);
        fragments.add(identifiers);
        namePos += 1;
        TypeReference[] arguments = decodeTypeArguments(typeName, length, start, end);
        fragments.add(arguments);
        identCount = 0;
        nameFragmentStart = -1;
        nameFragmentEnd = -1;
      }
      namePos += 1;
    }
    label544:
    if (nameFragmentEnd < 0) {
      nameFragmentEnd = namePos - 1;
    }
    if (fragments == null)
    {
      if (identCount == 1)
      {
        if (dim == 0)
        {
          char[] nameFragment;
          if ((nameFragmentStart != 0) || (nameFragmentEnd >= 0))
          {
            int nameFragmentLength = nameFragmentEnd - nameFragmentStart + 1;
            char[] nameFragment;
            System.arraycopy(typeName, nameFragmentStart, nameFragment = new char[nameFragmentLength], 0, nameFragmentLength);
          }
          else
          {
            nameFragment = typeName;
          }
          return new SingleTypeReference(nameFragment, (start << 32) + end);
        }
        int nameFragmentLength = nameFragmentEnd - nameFragmentStart + 1;
        char[] nameFragment = new char[nameFragmentLength];
        System.arraycopy(typeName, nameFragmentStart, nameFragment, 0, nameFragmentLength);
        return new ArrayTypeReference(nameFragment, dim, (start << 32) + end);
      }
      long[] positions = new long[identCount];
      long pos = (start << 32) + end;
      for (int i = 0; i < identCount; i++) {
        positions[i] = pos;
      }
      char[][] identifiers = CharOperation.splitOn('.', typeName, nameFragmentStart, nameFragmentEnd + 1);
      if (dim == 0) {
        return new QualifiedTypeReference(identifiers, positions);
      }
      return new ArrayQualifiedTypeReference(identifiers, dim, positions);
    }
    if ((nameFragmentStart > 0) && (nameFragmentStart < length))
    {
      char[][] identifiers = CharOperation.splitOn('.', typeName, nameFragmentStart, nameFragmentEnd + 1);
      fragments.add(identifiers);
    }
    int fragmentLength = fragments.size();
    if (fragmentLength == 2)
    {
      char[][] firstFragment = (char[][])fragments.get(0);
      if (firstFragment.length == 1) {
        return new ParameterizedSingleTypeReference(firstFragment[0], (TypeReference[])fragments.get(1), dim, (start << 32) + end);
      }
    }
    identCount = 0;
    for (int i = 0; i < fragmentLength; i++)
    {
      Object element = fragments.get(i);
      if ((element instanceof char[][])) {
        identCount += ((char[][])element).length;
      }
    }
    char[][] tokens = new char[identCount][];
    TypeReference[][] arguments = new TypeReference[identCount][];
    int index = 0;
    for (int i = 0; i < fragmentLength; i++)
    {
      Object element = fragments.get(i);
      if ((element instanceof char[][]))
      {
        char[][] fragmentTokens = (char[][])element;
        int fragmentTokenLength = fragmentTokens.length;
        System.arraycopy(fragmentTokens, 0, tokens, index, fragmentTokenLength);
        index += fragmentTokenLength;
      }
      else
      {
        arguments[(index - 1)] = ((TypeReference[])element);
      }
    }
    long[] positions = new long[identCount];
    long pos = (start << 32) + end;
    for (int i = 0; i < identCount; i++) {
      positions[i] = pos;
    }
    return new ParameterizedQualifiedTypeReference(tokens, arguments, dim, positions);
  }
  
  private TypeReference[] decodeTypeArguments(char[] typeName, int length, int start, int end)
  {
    ArrayList argumentList = new ArrayList(1);
    int count = 0;
    while (namePos < length)
    {
      TypeReference argument = decodeType(typeName, length, start, end);
      count++;
      argumentList.add(argument);
      if ((namePos >= length) || 
        (typeName[namePos] == '>')) {
        break;
      }
      namePos += 1;
    }
    TypeReference[] typeArguments = new TypeReference[count];
    argumentList.toArray(typeArguments);
    return typeArguments;
  }
  
  private char[] getSource()
  {
    if (source == null) {
      source = cu.getContents();
    }
    return source;
  }
  
  private Expression parseMemberValue(char[] memberValue)
  {
    if (parser == null) {
      parser = new Parser(problemReporter, true);
    }
    return parser.parseMemberValue(memberValue, 0, memberValue.length, unit);
  }
}

/* Location:
 * Qualified Name:     org.eclipse.jdt.internal.compiler.parser.SourceTypeConverter
 * Java Class Version: 1.2 (46.0)
 * JD-Core Version:    0.7.1
 */
package org.eclipse.jdt.internal.compiler.parser;

public abstract interface TerminalTokens
{
  public static final int TokenNameWHITESPACE = 1000;
  public static final int TokenNameCOMMENT_LINE = 1001;
  public static final int TokenNameCOMMENT_BLOCK = 1002;
  public static final int TokenNameCOMMENT_JAVADOC = 1003;
  public static final int TokenNameIdentifier = 26;
  public static final int TokenNameabstract = 56;
  public static final int TokenNameassert = 74;
  public static final int TokenNameboolean = 32;
  public static final int TokenNamebreak = 75;
  public static final int TokenNamebyte = 33;
  public static final int TokenNamecase = 101;
  public static final int TokenNamecatch = 102;
  public static final int TokenNamechar = 34;
  public static final int TokenNameclass = 72;
  public static final int TokenNamecontinue = 76;
  public static final int TokenNameconst = 108;
  public static final int TokenNamedefault = 97;
  public static final int TokenNamedo = 77;
  public static final int TokenNamedouble = 35;
  public static final int TokenNameelse = 103;
  public static final int TokenNameenum = 98;
  public static final int TokenNameextends = 99;
  public static final int TokenNamefalse = 44;
  public static final int TokenNamefinal = 57;
  public static final int TokenNamefinally = 104;
  public static final int TokenNamefloat = 36;
  public static final int TokenNamefor = 78;
  public static final int TokenNamegoto = 109;
  public static final int TokenNameif = 79;
  public static final int TokenNameimplements = 106;
  public static final int TokenNameimport = 100;
  public static final int TokenNameinstanceof = 15;
  public static final int TokenNameint = 37;
  public static final int TokenNameinterface = 95;
  public static final int TokenNamelong = 38;
  public static final int TokenNamenative = 58;
  public static final int TokenNamenew = 43;
  public static final int TokenNamenull = 45;
  public static final int TokenNamepackage = 96;
  public static final int TokenNameprivate = 59;
  public static final int TokenNameprotected = 60;
  public static final int TokenNamepublic = 61;
  public static final int TokenNamereturn = 80;
  public static final int TokenNameshort = 39;
  public static final int TokenNamestatic = 54;
  public static final int TokenNamestrictfp = 62;
  public static final int TokenNamesuper = 41;
  public static final int TokenNameswitch = 81;
  public static final int TokenNamesynchronized = 55;
  public static final int TokenNamethis = 42;
  public static final int TokenNamethrow = 82;
  public static final int TokenNamethrows = 105;
  public static final int TokenNametransient = 63;
  public static final int TokenNametrue = 46;
  public static final int TokenNametry = 83;
  public static final int TokenNamevoid = 40;
  public static final int TokenNamevolatile = 64;
  public static final int TokenNamewhile = 73;
  public static final int TokenNameIntegerLiteral = 47;
  public static final int TokenNameLongLiteral = 48;
  public static final int TokenNameFloatingPointLiteral = 49;
  public static final int TokenNameDoubleLiteral = 50;
  public static final int TokenNameCharacterLiteral = 51;
  public static final int TokenNameStringLiteral = 52;
  public static final int TokenNamePLUS_PLUS = 10;
  public static final int TokenNameMINUS_MINUS = 11;
  public static final int TokenNameEQUAL_EQUAL = 18;
  public static final int TokenNameLESS_EQUAL = 16;
  public static final int TokenNameGREATER_EQUAL = 17;
  public static final int TokenNameNOT_EQUAL = 19;
  public static final int TokenNameLEFT_SHIFT = 13;
  public static final int TokenNameRIGHT_SHIFT = 8;
  public static final int TokenNameUNSIGNED_RIGHT_SHIFT = 9;
  public static final int TokenNamePLUS_EQUAL = 84;
  public static final int TokenNameMINUS_EQUAL = 85;
  public static final int TokenNameMULTIPLY_EQUAL = 86;
  public static final int TokenNameDIVIDE_EQUAL = 87;
  public static final int TokenNameAND_EQUAL = 88;
  public static final int TokenNameOR_EQUAL = 89;
  public static final int TokenNameXOR_EQUAL = 90;
  public static final int TokenNameREMAINDER_EQUAL = 91;
  public static final int TokenNameLEFT_SHIFT_EQUAL = 92;
  public static final int TokenNameRIGHT_SHIFT_EQUAL = 93;
  public static final int TokenNameUNSIGNED_RIGHT_SHIFT_EQUAL = 94;
  public static final int TokenNameOR_OR = 25;
  public static final int TokenNameAND_AND = 24;
  public static final int TokenNamePLUS = 1;
  public static final int TokenNameMINUS = 2;
  public static final int TokenNameNOT = 67;
  public static final int TokenNameREMAINDER = 5;
  public static final int TokenNameXOR = 21;
  public static final int TokenNameAND = 20;
  public static final int TokenNameMULTIPLY = 4;
  public static final int TokenNameOR = 22;
  public static final int TokenNameTWIDDLE = 68;
  public static final int TokenNameDIVIDE = 6;
  public static final int TokenNameGREATER = 12;
  public static final int TokenNameLESS = 7;
  public static final int TokenNameLPAREN = 28;
  public static final int TokenNameRPAREN = 29;
  public static final int TokenNameLBRACE = 69;
  public static final int TokenNameRBRACE = 31;
  public static final int TokenNameLBRACKET = 14;
  public static final int TokenNameRBRACKET = 70;
  public static final int TokenNameSEMICOLON = 27;
  public static final int TokenNameQUESTION = 23;
  public static final int TokenNameCOLON = 65;
  public static final int TokenNameCOMMA = 30;
  public static final int TokenNameDOT = 3;
  public static final int TokenNameEQUAL = 71;
  public static final int TokenNameAT = 53;
  public static final int TokenNameELLIPSIS = 107;
  public static final int TokenNameEOF = 66;
  public static final int TokenNameERROR = 110;
}

/* Location:
 * Qualified Name:     org.eclipse.jdt.internal.compiler.parser.TerminalTokens
 * Java Class Version: 1.2 (46.0)
 * JD-Core Version:    0.7.1
 */
package org.eclipse.jdt.internal.compiler.parser.diagnose;

class DiagnoseParser$PrimaryRepairInfo
{
  public int distance;
  public int misspellIndex;
  public int code;
  public int bufferPosition;
  public int symbol;
  final DiagnoseParser this$0;
  
  public DiagnoseParser$PrimaryRepairInfo(DiagnoseParser paramDiagnoseParser)
  {
    this$0 = paramDiagnoseParser;
    distance = 0;
    misspellIndex = 0;
    code = 0;
    bufferPosition = 0;
    symbol = 0;
  }
  
  public PrimaryRepairInfo copy()
  {
    PrimaryRepairInfo c = new PrimaryRepairInfo(this$0);
    distance = distance;
    misspellIndex = misspellIndex;
    code = code;
    bufferPosition = bufferPosition;
    symbol = symbol;
    return c;
  }
}

/* Location:
 * Qualified Name:     org.eclipse.jdt.internal.compiler.parser.diagnose.DiagnoseParser.PrimaryRepairInfo
 * Java Class Version: 1.2 (46.0)
 * JD-Core Version:    0.7.1
 */
package org.eclipse.jdt.internal.compiler.parser.diagnose;

class DiagnoseParser$RepairCandidate
{
  public int symbol;
  public int location;
  final DiagnoseParser this$0;
  
  public DiagnoseParser$RepairCandidate(DiagnoseParser paramDiagnoseParser)
  {
    this$0 = paramDiagnoseParser;
    symbol = 0;
    location = 0;
  }
}

/* Location:
 * Qualified Name:     org.eclipse.jdt.internal.compiler.parser.diagnose.DiagnoseParser.RepairCandidate
 * Java Class Version: 1.2 (46.0)
 * JD-Core Version:    0.7.1
 */
package org.eclipse.jdt.internal.compiler.parser.diagnose;

class DiagnoseParser$SecondaryRepairInfo
{
  public int code;
  public int distance;
  public int bufferPosition;
  public int stackPosition;
  public int numDeletions;
  public int symbol;
  boolean recoveryOnNextStack;
  final DiagnoseParser this$0;
  
  DiagnoseParser$SecondaryRepairInfo(DiagnoseParser paramDiagnoseParser)
  {
    this$0 = paramDiagnoseParser;
  }
}

/* Location:
 * Qualified Name:     org.eclipse.jdt.internal.compiler.parser.diagnose.DiagnoseParser.SecondaryRepairInfo
 * Java Class Version: 1.2 (46.0)
 * JD-Core Version:    0.7.1
 */
package org.eclipse.jdt.internal.compiler.parser.diagnose;

class DiagnoseParser$StateInfo
{
  int state;
  int next;
  final DiagnoseParser this$0;
  
  public DiagnoseParser$StateInfo(DiagnoseParser paramDiagnoseParser, int state, int next)
  {
    this$0 = paramDiagnoseParser;
    this.state = state;
    this.next = next;
  }
}

/* Location:
 * Qualified Name:     org.eclipse.jdt.internal.compiler.parser.diagnose.DiagnoseParser.StateInfo
 * Java Class Version: 1.2 (46.0)
 * JD-Core Version:    0.7.1
 */
package org.eclipse.jdt.internal.compiler.parser.diagnose;

import java.io.PrintStream;
import org.eclipse.jdt.core.compiler.CharOperation;
import org.eclipse.jdt.internal.compiler.CompilationResult;
import org.eclipse.jdt.internal.compiler.ast.CompilationUnitDeclaration;
import org.eclipse.jdt.internal.compiler.impl.CompilerOptions;
import org.eclipse.jdt.internal.compiler.parser.Parser;
import org.eclipse.jdt.internal.compiler.parser.ParserBasicInformation;
import org.eclipse.jdt.internal.compiler.parser.TerminalTokens;
import org.eclipse.jdt.internal.compiler.problem.ProblemReporter;

public class DiagnoseParser
  implements ParserBasicInformation, TerminalTokens
{
  private static final boolean DEBUG = false;
  private boolean DEBUG_PARSECHECK = false;
  private static final String EMPTY_STRING = "";
  private static final int STACK_INCREMENT = 256;
  private static final int BEFORE_CODE = 2;
  private static final int INSERTION_CODE = 3;
  private static final int INVALID_CODE = 4;
  private static final int SUBSTITUTION_CODE = 5;
  private static final int DELETION_CODE = 6;
  private static final int MERGE_CODE = 7;
  private static final int MISPLACED_CODE = 8;
  private static final int SCOPE_CODE = 9;
  private static final int SECONDARY_CODE = 10;
  private static final int EOF_CODE = 11;
  private static final int BUFF_UBOUND = 31;
  private static final int BUFF_SIZE = 32;
  private static final int MAX_DISTANCE = 30;
  private static final int MIN_DISTANCE = 3;
  private CompilerOptions options;
  private LexStream lexStream;
  private int errorToken;
  private int errorTokenStart;
  private int currentToken = 0;
  private int stackLength;
  private int stateStackTop;
  private int[] stack;
  private int[] locationStack;
  private int[] locationStartStack;
  private int tempStackTop;
  private int[] tempStack;
  private int prevStackTop;
  private int[] prevStack;
  private int nextStackTop;
  private int[] nextStack;
  private int scopeStackTop;
  private int[] scopeIndex;
  private int[] scopePosition;
  int[] list = new int['?'];
  int[] buffer = new int[32];
  private static final int NIL = -1;
  int[] stateSeen;
  int statePoolTop;
  StateInfo[] statePool;
  private Parser parser;
  
  private class RepairCandidate
  {
    public int symbol;
    public int location;
    
    public RepairCandidate()
    {
      symbol = 0;
      location = 0;
    }
  }
  
  private class PrimaryRepairInfo
  {
    public int distance;
    public int misspellIndex;
    public int code;
    public int bufferPosition;
    public int symbol;
    
    public PrimaryRepairInfo()
    {
      distance = 0;
      misspellIndex = 0;
      code = 0;
      bufferPosition = 0;
      symbol = 0;
    }
    
    public PrimaryRepairInfo copy()
    {
      PrimaryRepairInfo c = new PrimaryRepairInfo(DiagnoseParser.this);
      distance = distance;
      misspellIndex = misspellIndex;
      code = code;
      bufferPosition = bufferPosition;
      symbol = symbol;
      return c;
    }
  }
  
  private class SecondaryRepairInfo
  {
    public int code;
    public int distance;
    public int bufferPosition;
    public int stackPosition;
    public int numDeletions;
    public int symbol;
    boolean recoveryOnNextStack;
    
    SecondaryRepairInfo() {}
  }
  
  private class StateInfo
  {
    int state;
    int next;
    
    public StateInfo(int state, int next)
    {
      this.state = state;
      this.next = next;
    }
  }
  
  public DiagnoseParser(Parser parser, int firstToken, int start, int end, CompilerOptions options)
  {
    this(parser, firstToken, start, end, new int[0], new int[0], new int[0], options);
  }
  
  public DiagnoseParser(Parser parser, int firstToken, int start, int end, int[] intervalStartToSkip, int[] intervalEndToSkip, int[] intervalFlagsToSkip, CompilerOptions options)
  {
    this.parser = parser;
    this.options = options;
    lexStream = new LexStream(32, scanner, intervalStartToSkip, intervalEndToSkip, intervalFlagsToSkip, firstToken, start, end);
  }
  
  private ProblemReporter problemReporter()
  {
    return parser.problemReporter();
  }
  
  private void reallocateStacks()
  {
    int old_stack_length = stackLength;
    
    stackLength += 256;
    if (old_stack_length == 0)
    {
      stack = new int[stackLength];
      locationStack = new int[stackLength];
      locationStartStack = new int[stackLength];
      tempStack = new int[stackLength];
      prevStack = new int[stackLength];
      nextStack = new int[stackLength];
      scopeIndex = new int[stackLength];
      scopePosition = new int[stackLength];
    }
    else
    {
      System.arraycopy(stack, 0, stack = new int[stackLength], 0, o
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Further reading...

For more information on Java 1.5 Tiger, you may find Java 1.5 Tiger, A developer's Notebook by D. Flanagan and B. McLaughlin from O'Reilly of interest.

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