/**
   * Bytecode generation for a method
   *
   * @param classScope
   * @param classFile
   */
  public void generateCode(ClassScope classScope, ClassFile classFile) {

    int problemResetPC = 0;
    classFile.codeStream.wideMode = false; // reset wideMode to false
    if (this.ignoreFurtherInvestigation) {
      // method is known to have errors, dump a problem method
      if (this.binding == null) return; // handle methods with invalid signature or duplicates
      int problemsLength;
      CategorizedProblem[] problems =
          this.scope.referenceCompilationUnit().compilationResult.getProblems();
      CategorizedProblem[] problemsCopy = new CategorizedProblem[problemsLength = problems.length];
      System.arraycopy(problems, 0, problemsCopy, 0, problemsLength);
      classFile.addProblemMethod(this, this.binding, problemsCopy);
      return;
    }
    boolean restart = false;
    boolean abort = false;
    // regular code generation
    do {
      try {
        problemResetPC = classFile.contentsOffset;
        this.generateCode(classFile);
        restart = false;
      } catch (AbortMethod e) {
        // a fatal error was detected during code generation, need to restart code gen if possible
        if (e.compilationResult == CodeStream.RESTART_IN_WIDE_MODE) {
          // a branch target required a goto_w, restart code gen in wide mode.
          classFile.contentsOffset = problemResetPC;
          classFile.methodCount--;
          classFile.codeStream.resetInWideMode(); // request wide mode
          restart = true;
        } else if (e.compilationResult == CodeStream.RESTART_CODE_GEN_FOR_UNUSED_LOCALS_MODE) {
          classFile.contentsOffset = problemResetPC;
          classFile.methodCount--;
          classFile.codeStream.resetForCodeGenUnusedLocals();
          restart = true;
        } else {
          restart = false;
          abort = true;
        }
      }
    } while (restart);
    // produce a problem method accounting for this fatal error
    if (abort) {
      int problemsLength;
      CategorizedProblem[] problems =
          this.scope.referenceCompilationUnit().compilationResult.getAllProblems();
      CategorizedProblem[] problemsCopy = new CategorizedProblem[problemsLength = problems.length];
      System.arraycopy(problems, 0, problemsCopy, 0, problemsLength);
      classFile.addProblemMethod(this, this.binding, problemsCopy, problemResetPC);
    }
  }
  public void generateCode(ClassFile classFile) {

    classFile.generateMethodInfoHeader(this.binding);
    int methodAttributeOffset = classFile.contentsOffset;
    int attributeNumber = classFile.generateMethodInfoAttributes(this.binding);
    if ((!this.binding.isNative()) && (!this.binding.isAbstract())) {
      int codeAttributeOffset = classFile.contentsOffset;
      classFile.generateCodeAttributeHeader();
      CodeStream codeStream = classFile.codeStream;
      codeStream.reset(this, classFile);
      // initialize local positions
      this.scope.computeLocalVariablePositions(this.binding.isStatic() ? 0 : 1, codeStream);

      // arguments initialization for local variable debug attributes
      if (this.arguments != null) {
        for (int i = 0, max = this.arguments.length; i < max; i++) {
          LocalVariableBinding argBinding;
          codeStream.addVisibleLocalVariable(argBinding = this.arguments[i].binding);
          argBinding.recordInitializationStartPC(0);
        }
      }
      if (this.statements != null) {
        for (int i = 0, max = this.statements.length; i < max; i++)
          this.statements[i].generateCode(this.scope, codeStream);
      }
      // if a problem got reported during code gen, then trigger problem method creation
      if (this.ignoreFurtherInvestigation) {
        throw new AbortMethod(this.scope.referenceCompilationUnit().compilationResult, null);
      }
      if ((this.bits & ASTNode.NeedFreeReturn) != 0) {
        codeStream.return_();
      }
      // local variable attributes
      codeStream.exitUserScope(this.scope);
      codeStream.recordPositionsFrom(0, this.declarationSourceEnd);
      try {
        classFile.completeCodeAttribute(codeAttributeOffset);
      } catch (NegativeArraySizeException e) {
        throw new AbortMethod(this.scope.referenceCompilationUnit().compilationResult, null);
      }
      attributeNumber++;
    } else {
      checkArgumentsSize();
    }
    classFile.completeMethodInfo(this.binding, methodAttributeOffset, attributeNumber);
  }
  /*
   * Look for annotations references
   */
  private void matchAnnotations(
      SearchPattern pattern, MatchLocator locator, ClassFile classFile, IBinaryType binaryType)
      throws CoreException {
    // Only process TypeReference patterns
    switch (pattern.kind) {
      case TYPE_REF_PATTERN:
        break;
      case OR_PATTERN:
        SearchPattern[] patterns = ((OrPattern) pattern).patterns;
        for (int i = 0, length = patterns.length; i < length; i++) {
          matchAnnotations(patterns[i], locator, classFile, binaryType);
        }
        // $FALL-THROUGH$ - fall through default to return
      default:
        return;
    }
    TypeReferencePattern typeReferencePattern = (TypeReferencePattern) pattern;

    // Look for references in class annotations
    IBinaryAnnotation[] annotations = binaryType.getAnnotations();
    BinaryType classFileBinaryType = (BinaryType) classFile.getType();
    BinaryTypeBinding binaryTypeBinding = null;
    if (checkAnnotations(typeReferencePattern, annotations, binaryType.getTagBits())) {
      classFileBinaryType =
          new ResolvedBinaryType(
              (JavaElement) classFileBinaryType.getParent(),
              classFileBinaryType.getElementName(),
              classFileBinaryType.getKey());
      TypeReferenceMatch match =
          new TypeReferenceMatch(
              classFileBinaryType,
              SearchMatch.A_ACCURATE,
              -1,
              0,
              false,
              locator.getParticipant(),
              locator.currentPossibleMatch.resource);
      // TODO 3.4 M7 (frederic) - bug 209996: see how create the annotation handle from the binary
      // and put it in the local element
      match.setLocalElement(null);
      locator.report(match);
    }

    // Look for references in methods annotations
    MethodInfo[] methods = (MethodInfo[]) binaryType.getMethods();
    if (methods != null) {
      for (int i = 0, max = methods.length; i < max; i++) {
        MethodInfo method = methods[i];
        if (checkAnnotations(typeReferencePattern, method.getAnnotations(), method.getTagBits())) {
          binaryTypeBinding = locator.cacheBinaryType(classFileBinaryType, binaryType);
          IMethod methodHandle =
              classFileBinaryType.getMethod(
                  new String(
                      method.isConstructor()
                          ? binaryTypeBinding
                              .compoundName[binaryTypeBinding.compoundName.length - 1]
                          : method.getSelector()),
                  CharOperation.toStrings(
                      Signature.getParameterTypes(
                          convertClassFileFormat(method.getMethodDescriptor()))));
          TypeReferenceMatch match =
              new TypeReferenceMatch(
                  methodHandle,
                  SearchMatch.A_ACCURATE,
                  -1,
                  0,
                  false,
                  locator.getParticipant(),
                  locator.currentPossibleMatch.resource);
          // TODO 3.4 M7 (frederic) - bug 209996: see how create the annotation handle from the
          // binary and put it in the local element
          match.setLocalElement(null);
          locator.report(match);
        }
      }
    }

    // Look for references in fields annotations
    FieldInfo[] fields = (FieldInfo[]) binaryType.getFields();
    if (fields != null) {
      for (int i = 0, max = fields.length; i < max; i++) {
        FieldInfo field = fields[i];
        if (checkAnnotations(typeReferencePattern, field.getAnnotations(), field.getTagBits())) {
          IField fieldHandle = classFileBinaryType.getField(new String(field.getName()));
          TypeReferenceMatch match =
              new TypeReferenceMatch(
                  fieldHandle,
                  SearchMatch.A_ACCURATE,
                  -1,
                  0,
                  false,
                  locator.getParticipant(),
                  locator.currentPossibleMatch.resource);
          // TODO 3.4 M7 (frederic) - bug 209996: see how create the annotation handle from the
          // binary and put it in the local element
          match.setLocalElement(null);
          locator.report(match);
        }
      }
    }
  }
  /** Locate declaration in the current class file. This class file is always in a jar. */
  public void locateMatches(MatchLocator locator, ClassFile classFile, IBinaryType info)
      throws CoreException {
    SearchPattern pattern = locator.pattern;

    // check annotations references
    matchAnnotations(pattern, locator, classFile, info);

    // check class definition
    BinaryType binaryType = (BinaryType) classFile.getType();
    if (matchBinary(pattern, info, null)) {
      binaryType =
          new ResolvedBinaryType(
              (JavaElement) binaryType.getParent(),
              binaryType.getElementName(),
              binaryType.getKey());
      locator.reportBinaryMemberDeclaration(null, binaryType, null, info, SearchMatch.A_ACCURATE);
      return;
    }

    // Define arrays to store methods/fields from binary type if necessary
    IBinaryMethod[] binaryMethods = info.getMethods();
    int bMethodsLength = binaryMethods == null ? 0 : binaryMethods.length;
    IBinaryMethod[] unresolvedMethods = null;
    char[][] binaryMethodSignatures = null;
    boolean hasUnresolvedMethods = false;

    // Get fields from binary type info
    IBinaryField[] binaryFields = info.getFields();
    int bFieldsLength = binaryFields == null ? 0 : binaryFields.length;
    IBinaryField[] unresolvedFields = null;
    boolean hasUnresolvedFields = false;

    // Report as many accurate matches as possible
    int accuracy = SearchMatch.A_ACCURATE;
    boolean mustResolve = pattern.mustResolve;
    if (mustResolve) {
      BinaryTypeBinding binding = locator.cacheBinaryType(binaryType, info);
      if (binding != null) {
        // filter out element not in hierarchy scope
        if (!locator.typeInHierarchy(binding)) return;

        // Search matches on resolved methods
        MethodBinding[] availableMethods = binding.availableMethods();
        int aMethodsLength = availableMethods == null ? 0 : availableMethods.length;
        hasUnresolvedMethods = bMethodsLength != aMethodsLength;
        for (int i = 0; i < aMethodsLength; i++) {
          MethodBinding method = availableMethods[i];
          char[] methodSignature = method.genericSignature();
          if (methodSignature == null) methodSignature = method.signature();

          // Report the match if possible
          int level = locator.patternLocator.resolveLevel(method);
          if (level != PatternLocator.IMPOSSIBLE_MATCH) {
            IMethod methodHandle =
                binaryType.getMethod(
                    new String(
                        method.isConstructor()
                            ? binding.compoundName[binding.compoundName.length - 1]
                            : method.selector),
                    CharOperation.toStrings(
                        Signature.getParameterTypes(convertClassFileFormat(methodSignature))));
            accuracy =
                level == PatternLocator.ACCURATE_MATCH
                    ? SearchMatch.A_ACCURATE
                    : SearchMatch.A_INACCURATE;
            locator.reportBinaryMemberDeclaration(null, methodHandle, method, info, accuracy);
          }

          // Remove method from unresolved list
          if (hasUnresolvedMethods) {
            if (binaryMethodSignatures
                == null) { // Store binary method signatures to avoid multiple computation
              binaryMethodSignatures = new char[bMethodsLength][];
              for (int j = 0; j < bMethodsLength; j++) {
                IBinaryMethod binaryMethod = binaryMethods[j];
                char[] signature = binaryMethod.getGenericSignature();
                if (signature == null) signature = binaryMethod.getMethodDescriptor();
                binaryMethodSignatures[j] = signature;
              }
            }
            for (int j = 0; j < bMethodsLength; j++) {
              if (CharOperation.equals(binaryMethods[j].getSelector(), method.selector)
                  && CharOperation.equals(binaryMethodSignatures[j], methodSignature)) {
                if (unresolvedMethods == null) {
                  System.arraycopy(
                      binaryMethods,
                      0,
                      unresolvedMethods = new IBinaryMethod[bMethodsLength],
                      0,
                      bMethodsLength);
                }
                unresolvedMethods[j] = null;
                break;
              }
            }
          }
        }

        // Search matches on resolved fields
        FieldBinding[] availableFields = binding.availableFields();
        int aFieldsLength = availableFields == null ? 0 : availableFields.length;
        hasUnresolvedFields = bFieldsLength != aFieldsLength;
        for (int i = 0; i < aFieldsLength; i++) {
          FieldBinding field = availableFields[i];

          // Report the match if possible
          int level = locator.patternLocator.resolveLevel(field);
          if (level != PatternLocator.IMPOSSIBLE_MATCH) {
            IField fieldHandle = binaryType.getField(new String(field.name));
            accuracy =
                level == PatternLocator.ACCURATE_MATCH
                    ? SearchMatch.A_ACCURATE
                    : SearchMatch.A_INACCURATE;
            locator.reportBinaryMemberDeclaration(null, fieldHandle, field, info, accuracy);
          }

          // Remove the field from unresolved list
          if (hasUnresolvedFields) {
            for (int j = 0; j < bFieldsLength; j++) {
              if (CharOperation.equals(binaryFields[j].getName(), field.name)) {
                if (unresolvedFields == null) {
                  System.arraycopy(
                      binaryFields,
                      0,
                      unresolvedFields = new IBinaryField[bFieldsLength],
                      0,
                      bFieldsLength);
                }
                unresolvedFields[j] = null;
                break;
              }
            }
          }
        }

        // If all methods/fields were accurate then returns now
        if (!hasUnresolvedMethods && !hasUnresolvedFields) {
          return;
        }
      }
      accuracy = SearchMatch.A_INACCURATE;
    }

    // Report inaccurate methods
    if (mustResolve) binaryMethods = unresolvedMethods;
    bMethodsLength = binaryMethods == null ? 0 : binaryMethods.length;
    for (int i = 0; i < bMethodsLength; i++) {
      IBinaryMethod method = binaryMethods[i];
      if (method == null) continue; // impossible match or already reported as accurate
      if (matchBinary(pattern, method, info)) {
        char[] name;
        if (method.isConstructor()) {
          name = info.getName();
          int lastSlash = CharOperation.lastIndexOf('/', name);
          if (lastSlash != -1) {
            name = CharOperation.subarray(name, lastSlash + 1, name.length);
          }
        } else {
          name = method.getSelector();
        }
        String selector = new String(name);
        char[] methodSignature = binaryMethodSignatures == null ? null : binaryMethodSignatures[i];
        if (methodSignature == null) {
          methodSignature = method.getGenericSignature();
          if (methodSignature == null) methodSignature = method.getMethodDescriptor();
        }
        String[] parameterTypes =
            CharOperation.toStrings(
                Signature.getParameterTypes(convertClassFileFormat(methodSignature)));
        IMethod methodHandle = binaryType.getMethod(selector, parameterTypes);
        methodHandle =
            new ResolvedBinaryMethod(binaryType, selector, parameterTypes, methodHandle.getKey());
        locator.reportBinaryMemberDeclaration(null, methodHandle, null, info, accuracy);
      }
    }

    // Report inaccurate fields
    if (mustResolve) binaryFields = unresolvedFields;
    bFieldsLength = binaryFields == null ? 0 : binaryFields.length;
    for (int i = 0; i < bFieldsLength; i++) {
      IBinaryField field = binaryFields[i];
      if (field == null) continue; // impossible match or already reported as accurate
      if (matchBinary(pattern, field, info)) {
        String fieldName = new String(field.getName());
        IField fieldHandle = binaryType.getField(fieldName);
        fieldHandle = new ResolvedBinaryField(binaryType, fieldName, fieldHandle.getKey());
        locator.reportBinaryMemberDeclaration(null, fieldHandle, null, info, accuracy);
      }
    }
  }