List of usage examples for org.eclipse.jdt.internal.compiler.ast ASTNode IsMemberType
int IsMemberType
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From source file:com.codenvy.ide.ext.java.server.internal.compiler.parser.SourceTypeConverter.java
License:Open Source License
private TypeDeclaration convert(SourceType typeHandle, CompilationResult compilationResult) throws JavaModelException { SourceTypeElementInfo typeInfo = (SourceTypeElementInfo) typeHandle.getElementInfo(); if (typeInfo.isAnonymousMember()) throw new AnonymousMemberFound(); /* create type declaration - can be member type */ TypeDeclaration type = new TypeDeclaration(compilationResult); if (typeInfo.getEnclosingType() == null) { if (typeHandle.isAnonymous()) { type.name = CharOperation.NO_CHAR; type.bits |= (ASTNode.IsAnonymousType | ASTNode.IsLocalType); } else {//from www .ja v a 2 s . com if (typeHandle.isLocal()) { type.bits |= ASTNode.IsLocalType; } } } else { type.bits |= ASTNode.IsMemberType; } if ((type.bits & ASTNode.IsAnonymousType) == 0) { type.name = typeInfo.getName(); } type.name = typeInfo.getName(); int start, end; // only positions available type.sourceStart = start = typeInfo.getNameSourceStart(); type.sourceEnd = end = typeInfo.getNameSourceEnd(); type.modifiers = typeInfo.getModifiers(); type.declarationSourceStart = typeInfo.getDeclarationSourceStart(); type.declarationSourceEnd = typeInfo.getDeclarationSourceEnd(); type.bodyEnd = type.declarationSourceEnd; // convert 1.5 specific constructs only if compliance is 1.5 or above if (this.has1_5Compliance) { /* convert annotations */ type.annotations = convertAnnotations(typeHandle); } /* https://bugs.eclipse.org/bugs/show_bug.cgi?id=324850, even in a 1.4 project, we must internalize type variables and observe any parameterization of super class and/or super interfaces in order to be able to detect overriding in the presence of generics. */ char[][] typeParameterNames = typeInfo.getTypeParameterNames(); if (typeParameterNames.length > 0) { int parameterCount = typeParameterNames.length; char[][][] typeParameterBounds = typeInfo.getTypeParameterBounds(); type.typeParameters = new TypeParameter[parameterCount]; for (int i = 0; i < parameterCount; i++) { type.typeParameters[i] = createTypeParameter(typeParameterNames[i], typeParameterBounds[i], start, end); } } /* set superclass and superinterfaces */ if (typeInfo.getSuperclassName() != null) { type.superclass = createTypeReference(typeInfo.getSuperclassName(), start, end, true /* include generics */); type.superclass.bits |= ASTNode.IsSuperType; } char[][] interfaceNames = typeInfo.getInterfaceNames(); int interfaceCount = interfaceNames == null ? 0 : interfaceNames.length; if (interfaceCount > 0) { type.superInterfaces = new TypeReference[interfaceCount]; for (int i = 0; i < interfaceCount; i++) { type.superInterfaces[i] = createTypeReference(interfaceNames[i], start, end, true /* include generics */); type.superInterfaces[i].bits |= ASTNode.IsSuperType; } } /* convert member types */ if ((this.flags & MEMBER_TYPE) != 0) { SourceType[] sourceMemberTypes = typeInfo.getMemberTypeHandles(); int sourceMemberTypeCount = sourceMemberTypes.length; type.memberTypes = new TypeDeclaration[sourceMemberTypeCount]; for (int i = 0; i < sourceMemberTypeCount; i++) { type.memberTypes[i] = convert(sourceMemberTypes[i], compilationResult); type.memberTypes[i].enclosingType = type; } } /* convert intializers and fields*/ InitializerElementInfo[] initializers = null; int initializerCount = 0; if ((this.flags & LOCAL_TYPE) != 0) { initializers = typeInfo.getInitializers(); initializerCount = initializers.length; } SourceField[] sourceFields = null; int sourceFieldCount = 0; if ((this.flags & FIELD) != 0) { sourceFields = typeInfo.getFieldHandles(); sourceFieldCount = sourceFields.length; } int length = initializerCount + sourceFieldCount; if (length > 0) { type.fields = new FieldDeclaration[length]; for (int i = 0; i < initializerCount; i++) { type.fields[i] = convert(initializers[i], compilationResult); } int index = 0; for (int i = initializerCount; i < length; i++) { type.fields[i] = convert(sourceFields[index++], type, compilationResult); } } /* convert methods - need to add default constructor if necessary */ boolean needConstructor = (this.flags & CONSTRUCTOR) != 0; boolean needMethod = (this.flags & METHOD) != 0; if (needConstructor || needMethod) { SourceMethod[] sourceMethods = typeInfo.getMethodHandles(); int sourceMethodCount = sourceMethods.length; /* source type has a constructor ? */ /* by default, we assume that one is needed. */ int extraConstructor = 0; int methodCount = 0; int kind = TypeDeclaration.kind(type.modifiers); boolean isAbstract = kind == TypeDeclaration.INTERFACE_DECL || kind == TypeDeclaration.ANNOTATION_TYPE_DECL; if (!isAbstract) { extraConstructor = needConstructor ? 1 : 0; for (int i = 0; i < sourceMethodCount; i++) { if (sourceMethods[i].isConstructor()) { if (needConstructor) { extraConstructor = 0; // Does not need the extra constructor since one constructor already exists. methodCount++; } } else if (needMethod) { methodCount++; } } } else { methodCount = needMethod ? sourceMethodCount : 0; } type.methods = new AbstractMethodDeclaration[methodCount + extraConstructor]; if (extraConstructor != 0) { // add default constructor in first position type.methods[0] = type.createDefaultConstructor(false, false); } int index = 0; boolean hasAbstractMethods = false; for (int i = 0; i < sourceMethodCount; i++) { SourceMethod sourceMethod = sourceMethods[i]; SourceMethodElementInfo methodInfo = (SourceMethodElementInfo) sourceMethod.getElementInfo(); boolean isConstructor = methodInfo.isConstructor(); if ((methodInfo.getModifiers() & ClassFileConstants.AccAbstract) != 0) { hasAbstractMethods = true; } if ((isConstructor && needConstructor) || (!isConstructor && needMethod)) { AbstractMethodDeclaration method = convert(sourceMethod, methodInfo, compilationResult); if (isAbstract || method.isAbstract()) { // fix-up flag method.modifiers |= ExtraCompilerModifiers.AccSemicolonBody; } type.methods[extraConstructor + index++] = method; } } if (hasAbstractMethods) type.bits |= ASTNode.HasAbstractMethods; } return type; }
From source file:com.codenvy.ide.ext.java.server.internal.core.BinaryTypeConverter.java
License:Open Source License
private TypeDeclaration convert(IType type, IType alreadyComputedMember, TypeDeclaration alreadyComputedMemberDeclaration) throws JavaModelException { /* create type declaration - can be member type */ TypeDeclaration typeDeclaration = new TypeDeclaration(this.compilationResult); if (type.getDeclaringType() != null) { typeDeclaration.bits |= ASTNode.IsMemberType; }// w w w . j a v a2 s . c om typeDeclaration.name = type.getElementName().toCharArray(); typeDeclaration.modifiers = type.getFlags(); /* set superclass and superinterfaces */ if (type.getSuperclassName() != null) { TypeReference typeReference = createTypeReference(type.getSuperclassTypeSignature()); if (typeReference != null) { typeDeclaration.superclass = typeReference; typeDeclaration.superclass.bits |= ASTNode.IsSuperType; } } String[] interfaceTypes = type.getSuperInterfaceTypeSignatures(); int interfaceCount = interfaceTypes == null ? 0 : interfaceTypes.length; typeDeclaration.superInterfaces = new TypeReference[interfaceCount]; int count = 0; for (int i = 0; i < interfaceCount; i++) { TypeReference typeReference = createTypeReference(interfaceTypes[i]); if (typeReference != null) { typeDeclaration.superInterfaces[count] = typeReference; typeDeclaration.superInterfaces[count++].bits |= ASTNode.IsSuperType; } } if (count != interfaceCount) { System.arraycopy(typeDeclaration.fields, 0, typeDeclaration.superInterfaces = new TypeReference[interfaceCount], 0, interfaceCount); } // convert 1.5 specific constructs only if compliance is 1.5 or above if (this.has1_5Compliance) { /* convert type parameters */ ITypeParameter[] typeParameters = type.getTypeParameters(); if (typeParameters != null && typeParameters.length > 0) { int parameterCount = typeParameters.length; org.eclipse.jdt.internal.compiler.ast.TypeParameter[] typeParams = new org.eclipse.jdt.internal.compiler.ast.TypeParameter[parameterCount]; for (int i = 0; i < parameterCount; i++) { ITypeParameter typeParameter = typeParameters[i]; typeParams[i] = createTypeParameter(typeParameter.getElementName().toCharArray(), stringArrayToCharArray(typeParameter.getBounds()), 0, 0); } typeDeclaration.typeParameters = typeParams; } } /* convert member types */ IType[] memberTypes = type.getTypes(); int memberTypeCount = memberTypes == null ? 0 : memberTypes.length; typeDeclaration.memberTypes = new TypeDeclaration[memberTypeCount]; for (int i = 0; i < memberTypeCount; i++) { if (alreadyComputedMember != null && alreadyComputedMember.getFullyQualifiedName() .equals(memberTypes[i].getFullyQualifiedName())) { typeDeclaration.memberTypes[i] = alreadyComputedMemberDeclaration; } else { typeDeclaration.memberTypes[i] = convert(memberTypes[i], null, null); } typeDeclaration.memberTypes[i].enclosingType = typeDeclaration; } /* convert fields */ IField[] fields = type.getFields(); int fieldCount = fields == null ? 0 : fields.length; typeDeclaration.fields = new FieldDeclaration[fieldCount]; count = 0; for (int i = 0; i < fieldCount; i++) { FieldDeclaration fieldDeclaration = convert(fields[i], type); if (fieldDeclaration != null) { typeDeclaration.fields[count++] = fieldDeclaration; } } if (count != fieldCount) { System.arraycopy(typeDeclaration.fields, 0, typeDeclaration.fields = new FieldDeclaration[count], 0, count); } /* convert methods - need to add default constructor if necessary */ IMethod[] methods = type.getMethods(); int methodCount = methods == null ? 0 : methods.length; /* source type has a constructor ? */ /* by default, we assume that one is needed. */ int neededCount = 1; for (int i = 0; i < methodCount; i++) { if (methods[i].isConstructor()) { neededCount = 0; // Does not need the extra constructor since one constructor already exists. break; } } boolean isInterface = type.isInterface(); neededCount = isInterface ? 0 : neededCount; typeDeclaration.methods = new AbstractMethodDeclaration[methodCount + neededCount]; if (neededCount != 0) { // add default constructor in first position typeDeclaration.methods[0] = typeDeclaration.createDefaultConstructor(false, false); } boolean hasAbstractMethods = false; count = 0; for (int i = 0; i < methodCount; i++) { AbstractMethodDeclaration method = convert(methods[i], type); if (method != null) { boolean isAbstract; if ((isAbstract = method.isAbstract()) || isInterface) { // fix-up flag method.modifiers |= ExtraCompilerModifiers.AccSemicolonBody; } if (isAbstract) { hasAbstractMethods = true; } typeDeclaration.methods[neededCount + (count++)] = method; } } if (count != methodCount) { System.arraycopy(typeDeclaration.methods, 0, typeDeclaration.methods = new AbstractMethodDeclaration[count + neededCount], 0, count + neededCount); } if (hasAbstractMethods) { typeDeclaration.bits |= ASTNode.HasAbstractMethods; } return typeDeclaration; }
From source file:com.codenvy.ide.ext.java.server.internal.core.search.BasicSearchEngine.java
License:Open Source License
public void searchAllConstructorDeclarations(final char[] packageName, final char[] typeName, final int typeMatchRule, IJavaSearchScope scope, final IRestrictedAccessConstructorRequestor nameRequestor, int waitingPolicy, IProgressMonitor progressMonitor) throws JavaModelException { // Validate match rule first final int validatedTypeMatchRule = SearchPattern .validateMatchRule(typeName == null ? null : new String(typeName), typeMatchRule); final int pkgMatchRule = SearchPattern.R_EXACT_MATCH | SearchPattern.R_CASE_SENSITIVE; final char NoSuffix = IIndexConstants.TYPE_SUFFIX; // Used as TYPE_SUFFIX has no effect in method #match(char, char[] , int, char[], int , int, char[], char[]) // Debug// www .j a v a 2 s . c o m if (VERBOSE) { Util.verbose( "BasicSearchEngine.searchAllConstructorDeclarations(char[], char[], int, IJavaSearchScope, IRestrictedAccessConstructorRequestor, int, IProgressMonitor)"); //$NON-NLS-1$ Util.verbose(" - package name: " + (packageName == null ? "null" : new String(packageName))); //$NON-NLS-1$ //$NON-NLS-2$ Util.verbose(" - type name: " + (typeName == null ? "null" : new String(typeName))); //$NON-NLS-1$ //$NON-NLS-2$ Util.verbose(" - type match rule: " + getMatchRuleString(typeMatchRule)); //$NON-NLS-1$ if (validatedTypeMatchRule != typeMatchRule) { Util.verbose(" - validated type match rule: " + getMatchRuleString(validatedTypeMatchRule)); //$NON-NLS-1$ } Util.verbose(" - scope: " + scope); //$NON-NLS-1$ } if (validatedTypeMatchRule == -1) return; // invalid match rule => return no results // Create pattern final ConstructorDeclarationPattern pattern = new ConstructorDeclarationPattern(packageName, typeName, validatedTypeMatchRule); // Get working copy path(s). Store in a single string in case of only one to optimize comparison in requestor final HashSet workingCopyPaths = new HashSet(); String workingCopyPath = null; ICompilationUnit[] copies = getWorkingCopies(); final int copiesLength = copies == null ? 0 : copies.length; if (copies != null) { if (copiesLength == 1) { workingCopyPath = copies[0].getPath().toString(); } else { for (int i = 0; i < copiesLength; i++) { ICompilationUnit workingCopy = copies[i]; workingCopyPaths.add(workingCopy.getPath().toString()); } } } final String singleWkcpPath = workingCopyPath; // Index requestor IndexQueryRequestor searchRequestor = new IndexQueryRequestor() { public boolean acceptIndexMatch(String documentPath, SearchPattern indexRecord, SearchParticipant participant, AccessRuleSet access) { // Filter unexpected types ConstructorDeclarationPattern record = (ConstructorDeclarationPattern) indexRecord; if ((record.extraFlags & ExtraFlags.IsMemberType) != 0) { return true; // filter out member classes } if ((record.extraFlags & ExtraFlags.IsLocalType) != 0) { return true; // filter out local and anonymous classes } switch (copiesLength) { case 0: break; case 1: if (singleWkcpPath.equals(documentPath)) { return true; // filter out *the* working copy } break; default: if (workingCopyPaths.contains(documentPath)) { return true; // filter out working copies } break; } // Accept document path AccessRestriction accessRestriction = null; if (access != null) { // Compute document relative path int pkgLength = (record.declaringPackageName == null || record.declaringPackageName.length == 0) ? 0 : record.declaringPackageName.length + 1; int nameLength = record.declaringSimpleName == null ? 0 : record.declaringSimpleName.length; char[] path = new char[pkgLength + nameLength]; int pos = 0; if (pkgLength > 0) { System.arraycopy(record.declaringPackageName, 0, path, pos, pkgLength - 1); CharOperation.replace(path, '.', '/'); path[pkgLength - 1] = '/'; pos += pkgLength; } if (nameLength > 0) { System.arraycopy(record.declaringSimpleName, 0, path, pos, nameLength); pos += nameLength; } // Update access restriction if path is not empty if (pos > 0) { accessRestriction = access.getViolatedRestriction(path); } } nameRequestor.acceptConstructor(record.modifiers, record.declaringSimpleName, record.parameterCount, record.signature, record.parameterTypes, record.parameterNames, record.declaringTypeModifiers, record.declaringPackageName, record.extraFlags, documentPath, accessRestriction); return true; } }; try { if (progressMonitor != null) { progressMonitor.beginTask(Messages.engine_searching, 1000); } // add type names from indexes indexManager.performConcurrentJob( new PatternSearchJob(pattern, getDefaultSearchParticipant(indexManager), // Java search only scope, searchRequestor, indexManager), waitingPolicy, progressMonitor == null ? null : new SubProgressMonitor(progressMonitor, 1000 - copiesLength)); // add type names from working copies if (copies != null) { for (int i = 0; i < copiesLength; i++) { final ICompilationUnit workingCopy = copies[i]; if (scope instanceof HierarchyScope) { if (!((HierarchyScope) scope).encloses(workingCopy, progressMonitor)) continue; } else { if (!scope.encloses(workingCopy)) continue; } final String path = workingCopy.getPath().toString(); if (workingCopy.isConsistent()) { IPackageDeclaration[] packageDeclarations = workingCopy.getPackageDeclarations(); char[] packageDeclaration = packageDeclarations.length == 0 ? CharOperation.NO_CHAR : packageDeclarations[0].getElementName().toCharArray(); IType[] allTypes = workingCopy.getAllTypes(); for (int j = 0, allTypesLength = allTypes.length; j < allTypesLength; j++) { IType type = allTypes[j]; char[] simpleName = type.getElementName().toCharArray(); if (match(NoSuffix, packageName, pkgMatchRule, typeName, validatedTypeMatchRule, 0/*no kind*/, packageDeclaration, simpleName) && !type.isMember()) { int extraFlags = ExtraFlags.getExtraFlags(type); boolean hasConstructor = false; IMethod[] methods = type.getMethods(); for (int k = 0; k < methods.length; k++) { IMethod method = methods[k]; if (method.isConstructor()) { hasConstructor = true; String[] stringParameterNames = method.getParameterNames(); String[] stringParameterTypes = method.getParameterTypes(); int length = stringParameterNames.length; char[][] parameterNames = new char[length][]; char[][] parameterTypes = new char[length][]; for (int l = 0; l < length; l++) { parameterNames[l] = stringParameterNames[l].toCharArray(); parameterTypes[l] = Signature.toCharArray(Signature .getTypeErasure(stringParameterTypes[l]).toCharArray()); } nameRequestor.acceptConstructor(method.getFlags(), simpleName, parameterNames.length, null, // signature is not used for source type parameterTypes, parameterNames, type.getFlags(), packageDeclaration, extraFlags, path, null); } } if (!hasConstructor) { nameRequestor.acceptConstructor(Flags.AccPublic, simpleName, -1, null, // signature is not used for source type CharOperation.NO_CHAR_CHAR, CharOperation.NO_CHAR_CHAR, type.getFlags(), packageDeclaration, extraFlags, path, null); } } } } else { Parser basicParser = getParser(); org.eclipse.jdt.internal.compiler.env.ICompilationUnit unit = (org.eclipse.jdt.internal.compiler.env.ICompilationUnit) workingCopy; CompilationResult compilationUnitResult = new CompilationResult(unit, 0, 0, this.compilerOptions.maxProblemsPerUnit); CompilationUnitDeclaration parsedUnit = basicParser.dietParse(unit, compilationUnitResult); if (parsedUnit != null) { final char[] packageDeclaration = parsedUnit.currentPackage == null ? CharOperation.NO_CHAR : CharOperation.concatWith(parsedUnit.currentPackage.getImportName(), '.'); class AllConstructorDeclarationsVisitor extends ASTVisitor { private TypeDeclaration[] declaringTypes = new TypeDeclaration[0]; private int declaringTypesPtr = -1; private void endVisit(TypeDeclaration typeDeclaration) { if (!hasConstructor(typeDeclaration) && typeDeclaration.enclosingType == null) { if (match(NoSuffix, packageName, pkgMatchRule, typeName, validatedTypeMatchRule, 0/*no kind*/, packageDeclaration, typeDeclaration.name)) { nameRequestor.acceptConstructor(Flags.AccPublic, typeName, -1, null, // signature is not used for source type CharOperation.NO_CHAR_CHAR, CharOperation.NO_CHAR_CHAR, typeDeclaration.modifiers, packageDeclaration, ExtraFlags.getExtraFlags(typeDeclaration), path, null); } } this.declaringTypes[this.declaringTypesPtr] = null; this.declaringTypesPtr--; } public void endVisit(TypeDeclaration typeDeclaration, CompilationUnitScope s) { endVisit(typeDeclaration); } public void endVisit(TypeDeclaration memberTypeDeclaration, ClassScope s) { endVisit(memberTypeDeclaration); } private boolean hasConstructor(TypeDeclaration typeDeclaration) { AbstractMethodDeclaration[] methods = typeDeclaration.methods; int length = methods == null ? 0 : methods.length; for (int j = 0; j < length; j++) { if (methods[j].isConstructor()) { return true; } } return false; } public boolean visit(ConstructorDeclaration constructorDeclaration, ClassScope classScope) { TypeDeclaration typeDeclaration = this.declaringTypes[this.declaringTypesPtr]; if (match(NoSuffix, packageName, pkgMatchRule, typeName, validatedTypeMatchRule, 0/*no kind*/, packageDeclaration, typeDeclaration.name)) { Argument[] arguments = constructorDeclaration.arguments; int length = arguments == null ? 0 : arguments.length; char[][] parameterNames = new char[length][]; char[][] parameterTypes = new char[length][]; for (int l = 0; l < length; l++) { Argument argument = arguments[l]; parameterNames[l] = argument.name; if (argument.type instanceof SingleTypeReference) { parameterTypes[l] = ((SingleTypeReference) argument.type).token; } else { parameterTypes[l] = CharOperation.concatWith( ((QualifiedTypeReference) argument.type).tokens, '.'); } } TypeDeclaration enclosing = typeDeclaration.enclosingType; char[][] enclosingTypeNames = CharOperation.NO_CHAR_CHAR; while (enclosing != null) { enclosingTypeNames = CharOperation.arrayConcat( new char[][] { enclosing.name }, enclosingTypeNames); if ((enclosing.bits & ASTNode.IsMemberType) != 0) { enclosing = enclosing.enclosingType; } else { enclosing = null; } } nameRequestor.acceptConstructor(constructorDeclaration.modifiers, typeName, parameterNames.length, null, // signature is not used for source type parameterTypes, parameterNames, typeDeclaration.modifiers, packageDeclaration, ExtraFlags.getExtraFlags(typeDeclaration), path, null); } return false; // no need to find constructors from local/anonymous type } public boolean visit(TypeDeclaration typeDeclaration, BlockScope blockScope) { return false; } private boolean visit(TypeDeclaration typeDeclaration) { if (this.declaringTypes.length <= ++this.declaringTypesPtr) { int length = this.declaringTypesPtr; System.arraycopy(this.declaringTypes, 0, this.declaringTypes = new TypeDeclaration[length * 2 + 1], 0, length); } this.declaringTypes[this.declaringTypesPtr] = typeDeclaration; return true; } public boolean visit(TypeDeclaration typeDeclaration, CompilationUnitScope s) { return visit(typeDeclaration); } public boolean visit(TypeDeclaration memberTypeDeclaration, ClassScope s) { return visit(memberTypeDeclaration); } } parsedUnit.traverse(new AllConstructorDeclarationsVisitor(), parsedUnit.scope); } } if (progressMonitor != null) { if (progressMonitor.isCanceled()) throw new OperationCanceledException(); progressMonitor.worked(1); } } } } finally { if (progressMonitor != null) { progressMonitor.done(); } } }
From source file:com.codenvy.ide.ext.java.server.internal.core.search.BasicSearchEngine.java
License:Open Source License
/** * Searches for all top-level types and member types in the given scope. * The search can be selecting specific types (given a package or a type name * prefix and match modes).//from ww w . j a v a2 s . c o m * * @see org.eclipse.jdt.core.search.SearchEngine#searchAllTypeNames(char[], int, char[], int, int, * org.eclipse.jdt.core.search.IJavaSearchScope, org.eclipse.jdt.core.search.TypeNameRequestor, int, * org.eclipse.core.runtime.IProgressMonitor) * for detailed comment */ public void searchAllTypeNames(final char[] packageName, final int packageMatchRule, final char[] typeName, final int typeMatchRule, int searchFor, IJavaSearchScope scope, final IRestrictedAccessTypeRequestor nameRequestor, int waitingPolicy, IProgressMonitor progressMonitor) throws JavaModelException { // Validate match rule first final int validatedTypeMatchRule = SearchPattern .validateMatchRule(typeName == null ? null : new String(typeName), typeMatchRule); // Debug if (VERBOSE) { Util.verbose( "BasicSearchEngine.searchAllTypeNames(char[], char[], int, int, IJavaSearchScope, IRestrictedAccessTypeRequestor, " + "int, IProgressMonitor)"); //$NON-NLS-1$ Util.verbose(" - package name: " + (packageName == null ? "null" : new String(packageName))); //$NON-NLS-1$ //$NON-NLS-2$ Util.verbose(" - package match rule: " + getMatchRuleString(packageMatchRule)); //$NON-NLS-1$ Util.verbose(" - type name: " + (typeName == null ? "null" : new String(typeName))); //$NON-NLS-1$ //$NON-NLS-2$ Util.verbose(" - type match rule: " + getMatchRuleString(typeMatchRule)); //$NON-NLS-1$ if (validatedTypeMatchRule != typeMatchRule) { Util.verbose(" - validated type match rule: " + getMatchRuleString(validatedTypeMatchRule)); //$NON-NLS-1$ } Util.verbose(" - search for: " + searchFor); //$NON-NLS-1$ Util.verbose(" - scope: " + scope); //$NON-NLS-1$ } if (validatedTypeMatchRule == -1) return; // invalid match rule => return no results final char typeSuffix; switch (searchFor) { case IJavaSearchConstants.CLASS: typeSuffix = IIndexConstants.CLASS_SUFFIX; break; case IJavaSearchConstants.CLASS_AND_INTERFACE: typeSuffix = IIndexConstants.CLASS_AND_INTERFACE_SUFFIX; break; case IJavaSearchConstants.CLASS_AND_ENUM: typeSuffix = IIndexConstants.CLASS_AND_ENUM_SUFFIX; break; case IJavaSearchConstants.INTERFACE: typeSuffix = IIndexConstants.INTERFACE_SUFFIX; break; case IJavaSearchConstants.INTERFACE_AND_ANNOTATION: typeSuffix = IIndexConstants.INTERFACE_AND_ANNOTATION_SUFFIX; break; case IJavaSearchConstants.ENUM: typeSuffix = IIndexConstants.ENUM_SUFFIX; break; case IJavaSearchConstants.ANNOTATION_TYPE: typeSuffix = IIndexConstants.ANNOTATION_TYPE_SUFFIX; break; default: typeSuffix = IIndexConstants.TYPE_SUFFIX; break; } final TypeDeclarationPattern pattern = packageMatchRule == SearchPattern.R_EXACT_MATCH ? new TypeDeclarationPattern(packageName, null, typeName, typeSuffix, validatedTypeMatchRule) : new QualifiedTypeDeclarationPattern(packageName, packageMatchRule, typeName, typeSuffix, validatedTypeMatchRule); // Get working copy path(s). Store in a single string in case of only one to optimize comparison in requestor final HashSet workingCopyPaths = new HashSet(); String workingCopyPath = null; ICompilationUnit[] copies = getWorkingCopies(); final int copiesLength = copies == null ? 0 : copies.length; if (copies != null) { if (copiesLength == 1) { workingCopyPath = copies[0].getPath().toString(); } else { for (int i = 0; i < copiesLength; i++) { ICompilationUnit workingCopy = copies[i]; workingCopyPaths.add(workingCopy.getPath().toString()); } } } final String singleWkcpPath = workingCopyPath; // Index requestor IndexQueryRequestor searchRequestor = new IndexQueryRequestor() { public boolean acceptIndexMatch(String documentPath, SearchPattern indexRecord, SearchParticipant participant, AccessRuleSet access) { // Filter unexpected types TypeDeclarationPattern record = (TypeDeclarationPattern) indexRecord; if (record.enclosingTypeNames == IIndexConstants.ONE_ZERO_CHAR) { return true; // filter out local and anonymous classes } switch (copiesLength) { case 0: break; case 1: if (singleWkcpPath.equals(documentPath)) { return true; // filter out *the* working copy } break; default: if (workingCopyPaths.contains(documentPath)) { return true; // filter out working copies } break; } // Accept document path AccessRestriction accessRestriction = null; if (access != null) { // Compute document relative path int pkgLength = (record.pkg == null || record.pkg.length == 0) ? 0 : record.pkg.length + 1; int nameLength = record.simpleName == null ? 0 : record.simpleName.length; char[] path = new char[pkgLength + nameLength]; int pos = 0; if (pkgLength > 0) { System.arraycopy(record.pkg, 0, path, pos, pkgLength - 1); CharOperation.replace(path, '.', '/'); path[pkgLength - 1] = '/'; pos += pkgLength; } if (nameLength > 0) { System.arraycopy(record.simpleName, 0, path, pos, nameLength); pos += nameLength; } // Update access restriction if path is not empty if (pos > 0) { accessRestriction = access.getViolatedRestriction(path); } } if (match(record.typeSuffix, record.modifiers)) { nameRequestor.acceptType(record.modifiers, record.pkg, record.simpleName, record.enclosingTypeNames, documentPath, accessRestriction); } return true; } }; try { if (progressMonitor != null) { progressMonitor.beginTask(Messages.engine_searching, 1000); } // add type names from indexes indexManager.performConcurrentJob( new PatternSearchJob(pattern, getDefaultSearchParticipant(indexManager), // Java search only scope, searchRequestor, indexManager), waitingPolicy, progressMonitor == null ? null : new SubProgressMonitor(progressMonitor, 1000 - copiesLength)); // add type names from working copies if (copies != null) { for (int i = 0; i < copiesLength; i++) { final ICompilationUnit workingCopy = copies[i]; if (scope instanceof HierarchyScope) { if (!((HierarchyScope) scope).encloses(workingCopy, progressMonitor)) continue; } else { if (!scope.encloses(workingCopy)) continue; } final String path = workingCopy.getPath().toString(); if (workingCopy.isConsistent()) { IPackageDeclaration[] packageDeclarations = workingCopy.getPackageDeclarations(); char[] packageDeclaration = packageDeclarations.length == 0 ? CharOperation.NO_CHAR : packageDeclarations[0].getElementName().toCharArray(); IType[] allTypes = workingCopy.getAllTypes(); for (int j = 0, allTypesLength = allTypes.length; j < allTypesLength; j++) { IType type = allTypes[j]; IJavaElement parent = type.getParent(); char[][] enclosingTypeNames; if (parent instanceof IType) { char[] parentQualifiedName = ((IType) parent).getTypeQualifiedName('.') .toCharArray(); enclosingTypeNames = CharOperation.splitOn('.', parentQualifiedName); } else { enclosingTypeNames = CharOperation.NO_CHAR_CHAR; } char[] simpleName = type.getElementName().toCharArray(); int kind; if (type.isEnum()) { kind = TypeDeclaration.ENUM_DECL; } else if (type.isAnnotation()) { kind = TypeDeclaration.ANNOTATION_TYPE_DECL; } else if (type.isClass()) { kind = TypeDeclaration.CLASS_DECL; } else /*if (type.isInterface())*/ { kind = TypeDeclaration.INTERFACE_DECL; } if (match(typeSuffix, packageName, packageMatchRule, typeName, validatedTypeMatchRule, kind, packageDeclaration, simpleName)) { if (nameRequestor instanceof TypeNameMatchRequestorWrapper) { ((TypeNameMatchRequestorWrapper) nameRequestor).requestor.acceptTypeNameMatch( new JavaSearchTypeNameMatch(type, type.getFlags())); } else { nameRequestor.acceptType(type.getFlags(), packageDeclaration, simpleName, enclosingTypeNames, path, null); } } } } else { Parser basicParser = getParser(); org.eclipse.jdt.internal.compiler.env.ICompilationUnit unit = (org.eclipse.jdt.internal.compiler.env.ICompilationUnit) workingCopy; CompilationResult compilationUnitResult = new CompilationResult(unit, 0, 0, this.compilerOptions.maxProblemsPerUnit); CompilationUnitDeclaration parsedUnit = basicParser.dietParse(unit, compilationUnitResult); if (parsedUnit != null) { final char[] packageDeclaration = parsedUnit.currentPackage == null ? CharOperation.NO_CHAR : CharOperation.concatWith(parsedUnit.currentPackage.getImportName(), '.'); class AllTypeDeclarationsVisitor extends ASTVisitor { public boolean visit(TypeDeclaration typeDeclaration, BlockScope blockScope) { return false; // no local/anonymous type } public boolean visit(TypeDeclaration typeDeclaration, CompilationUnitScope compilationUnitScope) { if (match(typeSuffix, packageName, packageMatchRule, typeName, validatedTypeMatchRule, TypeDeclaration.kind(typeDeclaration.modifiers), packageDeclaration, typeDeclaration.name)) { if (nameRequestor instanceof TypeNameMatchRequestorWrapper) { IType type = workingCopy.getType(new String(typeName)); ((TypeNameMatchRequestorWrapper) nameRequestor).requestor .acceptTypeNameMatch(new JavaSearchTypeNameMatch(type, typeDeclaration.modifiers)); } else { nameRequestor.acceptType(typeDeclaration.modifiers, packageDeclaration, typeDeclaration.name, CharOperation.NO_CHAR_CHAR, path, null); } } return true; } public boolean visit(TypeDeclaration memberTypeDeclaration, ClassScope classScope) { if (match(typeSuffix, packageName, packageMatchRule, typeName, validatedTypeMatchRule, TypeDeclaration.kind(memberTypeDeclaration.modifiers), packageDeclaration, memberTypeDeclaration.name)) { // compute enclosing type names TypeDeclaration enclosing = memberTypeDeclaration.enclosingType; char[][] enclosingTypeNames = CharOperation.NO_CHAR_CHAR; while (enclosing != null) { enclosingTypeNames = CharOperation.arrayConcat( new char[][] { enclosing.name }, enclosingTypeNames); if ((enclosing.bits & ASTNode.IsMemberType) != 0) { enclosing = enclosing.enclosingType; } else { enclosing = null; } } // report if (nameRequestor instanceof TypeNameMatchRequestorWrapper) { IType type = workingCopy.getType(new String(enclosingTypeNames[0])); for (int j = 1, l = enclosingTypeNames.length; j < l; j++) { type = type.getType(new String(enclosingTypeNames[j])); } ((TypeNameMatchRequestorWrapper) nameRequestor).requestor .acceptTypeNameMatch(new JavaSearchTypeNameMatch(type, 0)); } else { nameRequestor.acceptType(memberTypeDeclaration.modifiers, packageDeclaration, memberTypeDeclaration.name, enclosingTypeNames, path, null); } } return true; } } parsedUnit.traverse(new AllTypeDeclarationsVisitor(), parsedUnit.scope); } } if (progressMonitor != null) { if (progressMonitor.isCanceled()) throw new OperationCanceledException(); progressMonitor.worked(1); } } } } finally { if (progressMonitor != null) { progressMonitor.done(); } } }
From source file:com.codenvy.ide.ext.java.server.internal.core.search.BasicSearchEngine.java
License:Open Source License
/** * Searches for all top-level types and member types in the given scope using a case sensitive exact match * with the given qualified names and type names. * * @see org.eclipse.jdt.core.search.SearchEngine#searchAllTypeNames(char[][], char[][], org.eclipse.jdt.core.search.IJavaSearchScope, * org.eclipse.jdt.core.search.TypeNameRequestor, int, org.eclipse.core.runtime.IProgressMonitor) * for detailed comment// w w w . j a v a2s. com */ public void searchAllTypeNames(final char[][] qualifications, final char[][] typeNames, final int matchRule, int searchFor, IJavaSearchScope scope, final IRestrictedAccessTypeRequestor nameRequestor, int waitingPolicy, IProgressMonitor progressMonitor) throws JavaModelException { // Debug if (VERBOSE) { Util.verbose( "BasicSearchEngine.searchAllTypeNames(char[][], char[][], int, int, IJavaSearchScope, IRestrictedAccessTypeRequestor, int, IProgressMonitor)"); //$NON-NLS-1$ Util.verbose(" - package name: " + (qualifications == null ? "null" : new String(CharOperation.concatWith(qualifications, ',')))); //$NON-NLS-1$ //$NON-NLS-2$ Util.verbose(" - type name: " + (typeNames == null ? "null" : new String(CharOperation.concatWith(typeNames, ',')))); //$NON-NLS-1$ //$NON-NLS-2$ Util.verbose(" - match rule: " + getMatchRuleString(matchRule)); //$NON-NLS-1$ Util.verbose(" - search for: " + searchFor); //$NON-NLS-1$ Util.verbose(" - scope: " + scope); //$NON-NLS-1$ } // Create pattern final char typeSuffix; switch (searchFor) { case IJavaSearchConstants.CLASS: typeSuffix = IIndexConstants.CLASS_SUFFIX; break; case IJavaSearchConstants.CLASS_AND_INTERFACE: typeSuffix = IIndexConstants.CLASS_AND_INTERFACE_SUFFIX; break; case IJavaSearchConstants.CLASS_AND_ENUM: typeSuffix = IIndexConstants.CLASS_AND_ENUM_SUFFIX; break; case IJavaSearchConstants.INTERFACE: typeSuffix = IIndexConstants.INTERFACE_SUFFIX; break; case IJavaSearchConstants.INTERFACE_AND_ANNOTATION: typeSuffix = IIndexConstants.INTERFACE_AND_ANNOTATION_SUFFIX; break; case IJavaSearchConstants.ENUM: typeSuffix = IIndexConstants.ENUM_SUFFIX; break; case IJavaSearchConstants.ANNOTATION_TYPE: typeSuffix = IIndexConstants.ANNOTATION_TYPE_SUFFIX; break; default: typeSuffix = IIndexConstants.TYPE_SUFFIX; break; } final MultiTypeDeclarationPattern pattern = new MultiTypeDeclarationPattern(qualifications, typeNames, typeSuffix, matchRule); // Get working copy path(s). Store in a single string in case of only one to optimize comparison in requestor final HashSet workingCopyPaths = new HashSet(); String workingCopyPath = null; ICompilationUnit[] copies = getWorkingCopies(); final int copiesLength = copies == null ? 0 : copies.length; if (copies != null) { if (copiesLength == 1) { workingCopyPath = copies[0].getPath().toString(); } else { for (int i = 0; i < copiesLength; i++) { ICompilationUnit workingCopy = copies[i]; workingCopyPaths.add(workingCopy.getPath().toString()); } } } final String singleWkcpPath = workingCopyPath; // Index requestor IndexQueryRequestor searchRequestor = new IndexQueryRequestor() { public boolean acceptIndexMatch(String documentPath, SearchPattern indexRecord, SearchParticipant participant, AccessRuleSet access) { // Filter unexpected types QualifiedTypeDeclarationPattern record = (QualifiedTypeDeclarationPattern) indexRecord; if (record.enclosingTypeNames == IIndexConstants.ONE_ZERO_CHAR) { return true; // filter out local and anonymous classes } switch (copiesLength) { case 0: break; case 1: if (singleWkcpPath.equals(documentPath)) { return true; // filter out *the* working copy } break; default: if (workingCopyPaths.contains(documentPath)) { return true; // filter out working copies } break; } // Accept document path AccessRestriction accessRestriction = null; if (access != null) { // Compute document relative path int qualificationLength = (record.qualification == null || record.qualification.length == 0) ? 0 : record.qualification.length + 1; int nameLength = record.simpleName == null ? 0 : record.simpleName.length; char[] path = new char[qualificationLength + nameLength]; int pos = 0; if (qualificationLength > 0) { System.arraycopy(record.qualification, 0, path, pos, qualificationLength - 1); CharOperation.replace(path, '.', '/'); path[qualificationLength - 1] = '/'; pos += qualificationLength; } if (nameLength > 0) { System.arraycopy(record.simpleName, 0, path, pos, nameLength); pos += nameLength; } // Update access restriction if path is not empty if (pos > 0) { accessRestriction = access.getViolatedRestriction(path); } } nameRequestor.acceptType(record.modifiers, record.pkg, record.simpleName, record.enclosingTypeNames, documentPath, accessRestriction); return true; } }; try { if (progressMonitor != null) { progressMonitor.beginTask(Messages.engine_searching, 100); } // add type names from indexes indexManager.performConcurrentJob( new PatternSearchJob(pattern, getDefaultSearchParticipant(indexManager), // Java search only scope, searchRequestor, indexManager), waitingPolicy, progressMonitor == null ? null : new SubProgressMonitor(progressMonitor, 100)); // add type names from working copies if (copies != null) { for (int i = 0, length = copies.length; i < length; i++) { ICompilationUnit workingCopy = copies[i]; final String path = workingCopy.getPath().toString(); if (workingCopy.isConsistent()) { IPackageDeclaration[] packageDeclarations = workingCopy.getPackageDeclarations(); char[] packageDeclaration = packageDeclarations.length == 0 ? CharOperation.NO_CHAR : packageDeclarations[0].getElementName().toCharArray(); IType[] allTypes = workingCopy.getAllTypes(); for (int j = 0, allTypesLength = allTypes.length; j < allTypesLength; j++) { IType type = allTypes[j]; IJavaElement parent = type.getParent(); char[][] enclosingTypeNames; char[] qualification = packageDeclaration; if (parent instanceof IType) { char[] parentQualifiedName = ((IType) parent).getTypeQualifiedName('.') .toCharArray(); enclosingTypeNames = CharOperation.splitOn('.', parentQualifiedName); qualification = CharOperation.concat(qualification, parentQualifiedName); } else { enclosingTypeNames = CharOperation.NO_CHAR_CHAR; } char[] simpleName = type.getElementName().toCharArray(); char suffix = IIndexConstants.TYPE_SUFFIX; if (type.isClass()) { suffix = IIndexConstants.CLASS_SUFFIX; } else if (type.isInterface()) { suffix = IIndexConstants.INTERFACE_SUFFIX; } else if (type.isEnum()) { suffix = IIndexConstants.ENUM_SUFFIX; } else if (type.isAnnotation()) { suffix = IIndexConstants.ANNOTATION_TYPE_SUFFIX; } if (pattern.matchesDecodedKey(new QualifiedTypeDeclarationPattern(qualification, simpleName, suffix, matchRule))) { nameRequestor.acceptType(type.getFlags(), packageDeclaration, simpleName, enclosingTypeNames, path, null); } } } else { Parser basicParser = getParser(); org.eclipse.jdt.internal.compiler.env.ICompilationUnit unit = (org.eclipse.jdt.internal.compiler.env.ICompilationUnit) workingCopy; CompilationResult compilationUnitResult = new CompilationResult(unit, 0, 0, this.compilerOptions.maxProblemsPerUnit); CompilationUnitDeclaration parsedUnit = basicParser.dietParse(unit, compilationUnitResult); if (parsedUnit != null) { final char[] packageDeclaration = parsedUnit.currentPackage == null ? CharOperation.NO_CHAR : CharOperation.concatWith(parsedUnit.currentPackage.getImportName(), '.'); class AllTypeDeclarationsVisitor extends ASTVisitor { public boolean visit(TypeDeclaration typeDeclaration, BlockScope blockScope) { return false; // no local/anonymous type } public boolean visit(TypeDeclaration typeDeclaration, CompilationUnitScope compilationUnitScope) { SearchPattern decodedPattern = new QualifiedTypeDeclarationPattern( packageDeclaration, typeDeclaration.name, convertTypeKind(TypeDeclaration.kind(typeDeclaration.modifiers)), matchRule); if (pattern.matchesDecodedKey(decodedPattern)) { nameRequestor.acceptType(typeDeclaration.modifiers, packageDeclaration, typeDeclaration.name, CharOperation.NO_CHAR_CHAR, path, null); } return true; } public boolean visit(TypeDeclaration memberTypeDeclaration, ClassScope classScope) { // compute enclosing type names char[] qualification = packageDeclaration; TypeDeclaration enclosing = memberTypeDeclaration.enclosingType; char[][] enclosingTypeNames = CharOperation.NO_CHAR_CHAR; while (enclosing != null) { qualification = CharOperation.concat(qualification, enclosing.name, '.'); enclosingTypeNames = CharOperation .arrayConcat(new char[][] { enclosing.name }, enclosingTypeNames); if ((enclosing.bits & ASTNode.IsMemberType) != 0) { enclosing = enclosing.enclosingType; } else { enclosing = null; } } SearchPattern decodedPattern = new QualifiedTypeDeclarationPattern( qualification, memberTypeDeclaration.name, convertTypeKind(TypeDeclaration.kind(memberTypeDeclaration.modifiers)), matchRule); if (pattern.matchesDecodedKey(decodedPattern)) { nameRequestor.acceptType(memberTypeDeclaration.modifiers, packageDeclaration, memberTypeDeclaration.name, enclosingTypeNames, path, null); } return true; } } parsedUnit.traverse(new AllTypeDeclarationsVisitor(), parsedUnit.scope); } } } } } finally { if (progressMonitor != null) { progressMonitor.done(); } } }
From source file:org.eclipse.che.jdt.internal.core.search.BasicSearchEngine.java
License:Open Source License
public void searchAllConstructorDeclarations(final char[] packageName, final char[] typeName, final int typeMatchRule, IJavaSearchScope scope, final IRestrictedAccessConstructorRequestor nameRequestor, int waitingPolicy, IProgressMonitor progressMonitor) throws JavaModelException { // Validate match rule first final int validatedTypeMatchRule = SearchPattern .validateMatchRule(typeName == null ? null : new String(typeName), typeMatchRule); final int pkgMatchRule = SearchPattern.R_EXACT_MATCH | SearchPattern.R_CASE_SENSITIVE; final char NoSuffix = IIndexConstants.TYPE_SUFFIX; // Used as TYPE_SUFFIX has no effect in method #match(char, char[] , int, char[], int , int, char[], char[]) // Debug/*from w w w. ja va 2s. c o m*/ if (VERBOSE) { Util.verbose( "BasicSearchEngine.searchAllConstructorDeclarations(char[], char[], int, IJavaSearchScope, IRestrictedAccessConstructorRequestor, int, IProgressMonitor)"); //$NON-NLS-1$ Util.verbose(" - package name: " + (packageName == null ? "null" : new String(packageName))); //$NON-NLS-1$ //$NON-NLS-2$ Util.verbose(" - type name: " + (typeName == null ? "null" : new String(typeName))); //$NON-NLS-1$ //$NON-NLS-2$ Util.verbose(" - type match rule: " + getMatchRuleString(typeMatchRule)); //$NON-NLS-1$ if (validatedTypeMatchRule != typeMatchRule) { Util.verbose(" - validated type match rule: " + getMatchRuleString(validatedTypeMatchRule)); //$NON-NLS-1$ } Util.verbose(" - scope: " + scope); //$NON-NLS-1$ } if (validatedTypeMatchRule == -1) return; // invalid match rule => return no results // Create pattern final ConstructorDeclarationPattern pattern = new ConstructorDeclarationPattern(packageName, typeName, validatedTypeMatchRule); // Get working copy path(s). Store in a single string in case of only one to optimize comparison in requestor final HashSet workingCopyPaths = new HashSet(); String workingCopyPath = null; ICompilationUnit[] copies = getWorkingCopies(); final int copiesLength = copies == null ? 0 : copies.length; if (copies != null) { if (copiesLength == 1) { workingCopyPath = copies[0].getPath().toString(); } else { for (int i = 0; i < copiesLength; i++) { ICompilationUnit workingCopy = copies[i]; workingCopyPaths.add(workingCopy.getPath().toString()); } } } final String singleWkcpPath = workingCopyPath; // Index requestor IndexQueryRequestor searchRequestor = new IndexQueryRequestor() { public boolean acceptIndexMatch(String documentPath, SearchPattern indexRecord, SearchParticipant participant, AccessRuleSet access) { // Filter unexpected types ConstructorDeclarationPattern record = (ConstructorDeclarationPattern) indexRecord; if ((record.extraFlags & ExtraFlags.IsMemberType) != 0) { return true; // filter out member classes } if ((record.extraFlags & ExtraFlags.IsLocalType) != 0) { return true; // filter out local and anonymous classes } switch (copiesLength) { case 0: break; case 1: if (singleWkcpPath.equals(documentPath)) { return true; // filter out *the* working copy } break; default: if (workingCopyPaths.contains(documentPath)) { return true; // filter out working copies } break; } // Accept document path AccessRestriction accessRestriction = null; if (access != null) { // Compute document relative path int pkgLength = (record.declaringPackageName == null || record.declaringPackageName.length == 0) ? 0 : record.declaringPackageName.length + 1; int nameLength = record.declaringSimpleName == null ? 0 : record.declaringSimpleName.length; char[] path = new char[pkgLength + nameLength]; int pos = 0; if (pkgLength > 0) { System.arraycopy(record.declaringPackageName, 0, path, pos, pkgLength - 1); CharOperation.replace(path, '.', '/'); path[pkgLength - 1] = '/'; pos += pkgLength; } if (nameLength > 0) { System.arraycopy(record.declaringSimpleName, 0, path, pos, nameLength); pos += nameLength; } // Update access restriction if path is not empty if (pos > 0) { accessRestriction = access.getViolatedRestriction(path); } } nameRequestor.acceptConstructor(record.modifiers, record.declaringSimpleName, record.parameterCount, record.signature, record.parameterTypes, record.parameterNames, record.declaringTypeModifiers, record.declaringPackageName, record.extraFlags, documentPath, accessRestriction); return true; } }; try { if (progressMonitor != null) { progressMonitor.beginTask(Messages.engine_searching, 1000); } // add type names from indexes indexManager.performConcurrentJob( new PatternSearchJob(pattern, getDefaultSearchParticipant(indexManager, javaProject), // Java search only scope, searchRequestor, indexManager), waitingPolicy, progressMonitor == null ? null : new SubProgressMonitor(progressMonitor, 1000 - copiesLength)); // add type names from working copies if (copies != null) { for (int i = 0; i < copiesLength; i++) { final ICompilationUnit workingCopy = copies[i]; if (scope instanceof HierarchyScope) { if (!((HierarchyScope) scope).encloses(workingCopy, progressMonitor)) continue; } else { if (!scope.encloses(workingCopy)) continue; } final String path = workingCopy.getPath().toString(); if (workingCopy.isConsistent()) { IPackageDeclaration[] packageDeclarations = workingCopy.getPackageDeclarations(); char[] packageDeclaration = packageDeclarations.length == 0 ? CharOperation.NO_CHAR : packageDeclarations[0].getElementName().toCharArray(); IType[] allTypes = workingCopy.getAllTypes(); for (int j = 0, allTypesLength = allTypes.length; j < allTypesLength; j++) { IType type = allTypes[j]; char[] simpleName = type.getElementName().toCharArray(); if (match(NoSuffix, packageName, pkgMatchRule, typeName, validatedTypeMatchRule, 0/*no kind*/, packageDeclaration, simpleName) && !type.isMember()) { int extraFlags = ExtraFlags.getExtraFlags(type); boolean hasConstructor = false; IMethod[] methods = type.getMethods(); for (int k = 0; k < methods.length; k++) { IMethod method = methods[k]; if (method.isConstructor()) { hasConstructor = true; String[] stringParameterNames = method.getParameterNames(); String[] stringParameterTypes = method.getParameterTypes(); int length = stringParameterNames.length; char[][] parameterNames = new char[length][]; char[][] parameterTypes = new char[length][]; for (int l = 0; l < length; l++) { parameterNames[l] = stringParameterNames[l].toCharArray(); parameterTypes[l] = Signature.toCharArray(Signature .getTypeErasure(stringParameterTypes[l]).toCharArray()); } nameRequestor.acceptConstructor(method.getFlags(), simpleName, parameterNames.length, null, // signature is not used for source type parameterTypes, parameterNames, type.getFlags(), packageDeclaration, extraFlags, path, null); } } if (!hasConstructor) { nameRequestor.acceptConstructor(Flags.AccPublic, simpleName, -1, null, // signature is not used for source type CharOperation.NO_CHAR_CHAR, CharOperation.NO_CHAR_CHAR, type.getFlags(), packageDeclaration, extraFlags, path, null); } } } } else { Parser basicParser = getParser(); org.eclipse.jdt.internal.compiler.env.ICompilationUnit unit = (org.eclipse.jdt.internal.compiler.env.ICompilationUnit) workingCopy; CompilationResult compilationUnitResult = new CompilationResult(unit, 0, 0, this.compilerOptions.maxProblemsPerUnit); CompilationUnitDeclaration parsedUnit = basicParser.dietParse(unit, compilationUnitResult); if (parsedUnit != null) { final char[] packageDeclaration = parsedUnit.currentPackage == null ? CharOperation.NO_CHAR : CharOperation.concatWith(parsedUnit.currentPackage.getImportName(), '.'); class AllConstructorDeclarationsVisitor extends ASTVisitor { private TypeDeclaration[] declaringTypes = new TypeDeclaration[0]; private int declaringTypesPtr = -1; private void endVisit(TypeDeclaration typeDeclaration) { if (!hasConstructor(typeDeclaration) && typeDeclaration.enclosingType == null) { if (match(NoSuffix, packageName, pkgMatchRule, typeName, validatedTypeMatchRule, 0/*no kind*/, packageDeclaration, typeDeclaration.name)) { nameRequestor.acceptConstructor(Flags.AccPublic, typeName, -1, null, // signature is not used for source type CharOperation.NO_CHAR_CHAR, CharOperation.NO_CHAR_CHAR, typeDeclaration.modifiers, packageDeclaration, ExtraFlags.getExtraFlags(typeDeclaration), path, null); } } this.declaringTypes[this.declaringTypesPtr] = null; this.declaringTypesPtr--; } public void endVisit(TypeDeclaration typeDeclaration, CompilationUnitScope s) { endVisit(typeDeclaration); } public void endVisit(TypeDeclaration memberTypeDeclaration, ClassScope s) { endVisit(memberTypeDeclaration); } private boolean hasConstructor(TypeDeclaration typeDeclaration) { AbstractMethodDeclaration[] methods = typeDeclaration.methods; int length = methods == null ? 0 : methods.length; for (int j = 0; j < length; j++) { if (methods[j].isConstructor()) { return true; } } return false; } public boolean visit(ConstructorDeclaration constructorDeclaration, ClassScope classScope) { TypeDeclaration typeDeclaration = this.declaringTypes[this.declaringTypesPtr]; if (match(NoSuffix, packageName, pkgMatchRule, typeName, validatedTypeMatchRule, 0/*no kind*/, packageDeclaration, typeDeclaration.name)) { Argument[] arguments = constructorDeclaration.arguments; int length = arguments == null ? 0 : arguments.length; char[][] parameterNames = new char[length][]; char[][] parameterTypes = new char[length][]; for (int l = 0; l < length; l++) { Argument argument = arguments[l]; parameterNames[l] = argument.name; if (argument.type instanceof SingleTypeReference) { parameterTypes[l] = ((SingleTypeReference) argument.type).token; } else { parameterTypes[l] = CharOperation.concatWith( ((QualifiedTypeReference) argument.type).tokens, '.'); } } TypeDeclaration enclosing = typeDeclaration.enclosingType; char[][] enclosingTypeNames = CharOperation.NO_CHAR_CHAR; while (enclosing != null) { enclosingTypeNames = CharOperation.arrayConcat( new char[][] { enclosing.name }, enclosingTypeNames); if ((enclosing.bits & ASTNode.IsMemberType) != 0) { enclosing = enclosing.enclosingType; } else { enclosing = null; } } nameRequestor.acceptConstructor(constructorDeclaration.modifiers, typeName, parameterNames.length, null, // signature is not used for source type parameterTypes, parameterNames, typeDeclaration.modifiers, packageDeclaration, ExtraFlags.getExtraFlags(typeDeclaration), path, null); } return false; // no need to find constructors from local/anonymous type } public boolean visit(TypeDeclaration typeDeclaration, BlockScope blockScope) { return false; } private boolean visit(TypeDeclaration typeDeclaration) { if (this.declaringTypes.length <= ++this.declaringTypesPtr) { int length = this.declaringTypesPtr; System.arraycopy(this.declaringTypes, 0, this.declaringTypes = new TypeDeclaration[length * 2 + 1], 0, length); } this.declaringTypes[this.declaringTypesPtr] = typeDeclaration; return true; } public boolean visit(TypeDeclaration typeDeclaration, CompilationUnitScope s) { return visit(typeDeclaration); } public boolean visit(TypeDeclaration memberTypeDeclaration, ClassScope s) { return visit(memberTypeDeclaration); } } parsedUnit.traverse(new AllConstructorDeclarationsVisitor(), parsedUnit.scope); } } if (progressMonitor != null) { if (progressMonitor.isCanceled()) throw new OperationCanceledException(); progressMonitor.worked(1); } } } } finally { if (progressMonitor != null) { progressMonitor.done(); } } }
From source file:org.eclipse.che.jdt.internal.core.search.BasicSearchEngine.java
License:Open Source License
/** * Searches for all top-level types and member types in the given scope. * The search can be selecting specific types (given a package or a type name * prefix and match modes).//from www . j a v a 2s .c o m * * @see org.eclipse.jdt.core.search.SearchEngine#searchAllTypeNames(char[], int, char[], int, int, org.eclipse.jdt.core.search * .IJavaSearchScope, org.eclipse.jdt.core.search.TypeNameRequestor, int, IProgressMonitor) * for detailed comment */ public void searchAllTypeNames(final char[] packageName, final int packageMatchRule, final char[] typeName, final int typeMatchRule, int searchFor, IJavaSearchScope scope, final IRestrictedAccessTypeRequestor nameRequestor, int waitingPolicy, IProgressMonitor progressMonitor) throws JavaModelException { // Validate match rule first final int validatedTypeMatchRule = SearchPattern .validateMatchRule(typeName == null ? null : new String(typeName), typeMatchRule); // Debug if (VERBOSE) { Util.verbose( "BasicSearchEngine.searchAllTypeNames(char[], char[], int, int, IJavaSearchScope, IRestrictedAccessTypeRequestor, " + "int," + " IProgressMonitor)"); //$NON-NLS-2$ Util.verbose(" - package name: " + (packageName == null ? "null" : new String(packageName))); //$NON-NLS-1$ //$NON-NLS-2$ Util.verbose(" - package match rule: " + getMatchRuleString(packageMatchRule)); //$NON-NLS-1$ Util.verbose(" - type name: " + (typeName == null ? "null" : new String(typeName))); //$NON-NLS-1$ //$NON-NLS-2$ Util.verbose(" - type match rule: " + getMatchRuleString(typeMatchRule)); //$NON-NLS-1$ if (validatedTypeMatchRule != typeMatchRule) { Util.verbose(" - validated type match rule: " + getMatchRuleString(validatedTypeMatchRule)); //$NON-NLS-1$ } Util.verbose(" - search for: " + searchFor); //$NON-NLS-1$ Util.verbose(" - scope: " + scope); //$NON-NLS-1$ } if (validatedTypeMatchRule == -1) return; // invalid match rule => return no results final char typeSuffix; switch (searchFor) { case IJavaSearchConstants.CLASS: typeSuffix = IIndexConstants.CLASS_SUFFIX; break; case IJavaSearchConstants.CLASS_AND_INTERFACE: typeSuffix = IIndexConstants.CLASS_AND_INTERFACE_SUFFIX; break; case IJavaSearchConstants.CLASS_AND_ENUM: typeSuffix = IIndexConstants.CLASS_AND_ENUM_SUFFIX; break; case IJavaSearchConstants.INTERFACE: typeSuffix = IIndexConstants.INTERFACE_SUFFIX; break; case IJavaSearchConstants.INTERFACE_AND_ANNOTATION: typeSuffix = IIndexConstants.INTERFACE_AND_ANNOTATION_SUFFIX; break; case IJavaSearchConstants.ENUM: typeSuffix = IIndexConstants.ENUM_SUFFIX; break; case IJavaSearchConstants.ANNOTATION_TYPE: typeSuffix = IIndexConstants.ANNOTATION_TYPE_SUFFIX; break; default: typeSuffix = IIndexConstants.TYPE_SUFFIX; break; } final TypeDeclarationPattern pattern = packageMatchRule == SearchPattern.R_EXACT_MATCH ? new TypeDeclarationPattern(packageName, null, typeName, typeSuffix, validatedTypeMatchRule) : new QualifiedTypeDeclarationPattern(packageName, packageMatchRule, typeName, typeSuffix, validatedTypeMatchRule); // Get working copy path(s). Store in a single string in case of only one to optimize comparison in requestor final HashSet workingCopyPaths = new HashSet(); String workingCopyPath = null; ICompilationUnit[] copies = getWorkingCopies(); final int copiesLength = copies == null ? 0 : copies.length; if (copies != null) { if (copiesLength == 1) { workingCopyPath = copies[0].getPath().toString(); } else { for (int i = 0; i < copiesLength; i++) { ICompilationUnit workingCopy = copies[i]; workingCopyPaths.add(workingCopy.getPath().toString()); } } } final String singleWkcpPath = workingCopyPath; // Index requestor IndexQueryRequestor searchRequestor = new IndexQueryRequestor() { public boolean acceptIndexMatch(String documentPath, SearchPattern indexRecord, SearchParticipant participant, AccessRuleSet access) { // Filter unexpected types TypeDeclarationPattern record = (TypeDeclarationPattern) indexRecord; if (record.enclosingTypeNames == IIndexConstants.ONE_ZERO_CHAR) { return true; // filter out local and anonymous classes } switch (copiesLength) { case 0: break; case 1: if (singleWkcpPath.equals(documentPath)) { return true; // filter out *the* working copy } break; default: if (workingCopyPaths.contains(documentPath)) { return true; // filter out working copies } break; } // Accept document path AccessRestriction accessRestriction = null; if (access != null) { // Compute document relative path int pkgLength = (record.pkg == null || record.pkg.length == 0) ? 0 : record.pkg.length + 1; int nameLength = record.simpleName == null ? 0 : record.simpleName.length; char[] path = new char[pkgLength + nameLength]; int pos = 0; if (pkgLength > 0) { System.arraycopy(record.pkg, 0, path, pos, pkgLength - 1); CharOperation.replace(path, '.', '/'); path[pkgLength - 1] = '/'; pos += pkgLength; } if (nameLength > 0) { System.arraycopy(record.simpleName, 0, path, pos, nameLength); pos += nameLength; } // Update access restriction if path is not empty if (pos > 0) { accessRestriction = access.getViolatedRestriction(path); } } if (match(record.typeSuffix, record.modifiers)) { nameRequestor.acceptType(record.modifiers, record.pkg, record.simpleName, record.enclosingTypeNames, documentPath, accessRestriction); } return true; } }; try { if (progressMonitor != null) { progressMonitor.beginTask(Messages.engine_searching, 1000); } // add type names from indexes indexManager.performConcurrentJob( new PatternSearchJob(pattern, getDefaultSearchParticipant(indexManager, javaProject), // Java search only scope, searchRequestor, indexManager), waitingPolicy, progressMonitor == null ? null : new SubProgressMonitor(progressMonitor, 1000 - copiesLength)); // add type names from working copies if (copies != null) { for (int i = 0; i < copiesLength; i++) { final ICompilationUnit workingCopy = copies[i]; if (scope instanceof HierarchyScope) { if (!((HierarchyScope) scope).encloses(workingCopy, progressMonitor)) continue; } else { if (!scope.encloses(workingCopy)) continue; } final String path = workingCopy.getPath().toString(); if (workingCopy.isConsistent()) { IPackageDeclaration[] packageDeclarations = workingCopy.getPackageDeclarations(); char[] packageDeclaration = packageDeclarations.length == 0 ? CharOperation.NO_CHAR : packageDeclarations[0].getElementName().toCharArray(); IType[] allTypes = workingCopy.getAllTypes(); for (int j = 0, allTypesLength = allTypes.length; j < allTypesLength; j++) { IType type = allTypes[j]; IJavaElement parent = type.getParent(); char[][] enclosingTypeNames; if (parent instanceof IType) { char[] parentQualifiedName = ((IType) parent).getTypeQualifiedName('.') .toCharArray(); enclosingTypeNames = CharOperation.splitOn('.', parentQualifiedName); } else { enclosingTypeNames = CharOperation.NO_CHAR_CHAR; } char[] simpleName = type.getElementName().toCharArray(); int kind; if (type.isEnum()) { kind = TypeDeclaration.ENUM_DECL; } else if (type.isAnnotation()) { kind = TypeDeclaration.ANNOTATION_TYPE_DECL; } else if (type.isClass()) { kind = TypeDeclaration.CLASS_DECL; } else /*if (type.isInterface())*/ { kind = TypeDeclaration.INTERFACE_DECL; } if (match(typeSuffix, packageName, packageMatchRule, typeName, validatedTypeMatchRule, kind, packageDeclaration, simpleName)) { if (nameRequestor instanceof TypeNameMatchRequestorWrapper) { ((TypeNameMatchRequestorWrapper) nameRequestor).requestor.acceptTypeNameMatch( new JavaSearchTypeNameMatch(type, type.getFlags())); } else { nameRequestor.acceptType(type.getFlags(), packageDeclaration, simpleName, enclosingTypeNames, path, null); } } } } else { Parser basicParser = getParser(); org.eclipse.jdt.internal.compiler.env.ICompilationUnit unit = (org.eclipse.jdt.internal.compiler.env.ICompilationUnit) workingCopy; CompilationResult compilationUnitResult = new CompilationResult(unit, 0, 0, this.compilerOptions.maxProblemsPerUnit); CompilationUnitDeclaration parsedUnit = basicParser.dietParse(unit, compilationUnitResult); if (parsedUnit != null) { final char[] packageDeclaration = parsedUnit.currentPackage == null ? CharOperation.NO_CHAR : CharOperation.concatWith(parsedUnit.currentPackage.getImportName(), '.'); class AllTypeDeclarationsVisitor extends ASTVisitor { public boolean visit(TypeDeclaration typeDeclaration, BlockScope blockScope) { return false; // no local/anonymous type } public boolean visit(TypeDeclaration typeDeclaration, CompilationUnitScope compilationUnitScope) { if (match(typeSuffix, packageName, packageMatchRule, typeName, validatedTypeMatchRule, TypeDeclaration.kind(typeDeclaration.modifiers), packageDeclaration, typeDeclaration.name)) { if (nameRequestor instanceof TypeNameMatchRequestorWrapper) { IType type = workingCopy.getType(new String(typeName)); ((TypeNameMatchRequestorWrapper) nameRequestor).requestor .acceptTypeNameMatch(new JavaSearchTypeNameMatch(type, typeDeclaration.modifiers)); } else { nameRequestor.acceptType(typeDeclaration.modifiers, packageDeclaration, typeDeclaration.name, CharOperation.NO_CHAR_CHAR, path, null); } } return true; } public boolean visit(TypeDeclaration memberTypeDeclaration, ClassScope classScope) { if (match(typeSuffix, packageName, packageMatchRule, typeName, validatedTypeMatchRule, TypeDeclaration.kind(memberTypeDeclaration.modifiers), packageDeclaration, memberTypeDeclaration.name)) { // compute enclosing type names TypeDeclaration enclosing = memberTypeDeclaration.enclosingType; char[][] enclosingTypeNames = CharOperation.NO_CHAR_CHAR; while (enclosing != null) { enclosingTypeNames = CharOperation.arrayConcat( new char[][] { enclosing.name }, enclosingTypeNames); if ((enclosing.bits & ASTNode.IsMemberType) != 0) { enclosing = enclosing.enclosingType; } else { enclosing = null; } } // report if (nameRequestor instanceof TypeNameMatchRequestorWrapper) { IType type = workingCopy.getType(new String(enclosingTypeNames[0])); for (int j = 1, l = enclosingTypeNames.length; j < l; j++) { type = type.getType(new String(enclosingTypeNames[j])); } ((TypeNameMatchRequestorWrapper) nameRequestor).requestor .acceptTypeNameMatch(new JavaSearchTypeNameMatch(type, 0)); } else { nameRequestor.acceptType(memberTypeDeclaration.modifiers, packageDeclaration, memberTypeDeclaration.name, enclosingTypeNames, path, null); } } return true; } } parsedUnit.traverse(new AllTypeDeclarationsVisitor(), parsedUnit.scope); } } if (progressMonitor != null) { if (progressMonitor.isCanceled()) throw new OperationCanceledException(); progressMonitor.worked(1); } } } } finally { if (progressMonitor != null) { progressMonitor.done(); } } }
From source file:org.eclipse.che.jdt.internal.core.search.BasicSearchEngine.java
License:Open Source License
/** * Searches for all top-level types and member types in the given scope using a case sensitive exact match * with the given qualified names and type names. * * @see org.eclipse.jdt.core.search.SearchEngine#searchAllTypeNames(char[][], char[][], org.eclipse.jdt.core.search.IJavaSearchScope, * org.eclipse.jdt.core.search.TypeNameRequestor, int, IProgressMonitor) * for detailed comment// w ww. j a v a2 s. c om */ public void searchAllTypeNames(final char[][] qualifications, final char[][] typeNames, final int matchRule, int searchFor, IJavaSearchScope scope, final IRestrictedAccessTypeRequestor nameRequestor, int waitingPolicy, IProgressMonitor progressMonitor) throws JavaModelException { // Debug if (VERBOSE) { Util.verbose("BasicSearchEngine.searchAllTypeNames(char[][], char[][], int, int, IJavaSearchScope, " + "IRestrictedAccessTypeRequestor," + " " + "int, IProgressMonitor)"); //$NON-NLS-3$ Util.verbose(" - package name: " + (qualifications == null ? "null" : new String(CharOperation.concatWith(qualifications, ',')))); //$NON-NLS-1$ //$NON-NLS-2$ Util.verbose(" - type name: " + (typeNames == null ? "null" : new String(CharOperation.concatWith(typeNames, ',')))); //$NON-NLS-1$ //$NON-NLS-2$ Util.verbose(" - match rule: " + getMatchRuleString(matchRule)); //$NON-NLS-1$ Util.verbose(" - search for: " + searchFor); //$NON-NLS-1$ Util.verbose(" - scope: " + scope); //$NON-NLS-1$ } // Create pattern final char typeSuffix; switch (searchFor) { case IJavaSearchConstants.CLASS: typeSuffix = IIndexConstants.CLASS_SUFFIX; break; case IJavaSearchConstants.CLASS_AND_INTERFACE: typeSuffix = IIndexConstants.CLASS_AND_INTERFACE_SUFFIX; break; case IJavaSearchConstants.CLASS_AND_ENUM: typeSuffix = IIndexConstants.CLASS_AND_ENUM_SUFFIX; break; case IJavaSearchConstants.INTERFACE: typeSuffix = IIndexConstants.INTERFACE_SUFFIX; break; case IJavaSearchConstants.INTERFACE_AND_ANNOTATION: typeSuffix = IIndexConstants.INTERFACE_AND_ANNOTATION_SUFFIX; break; case IJavaSearchConstants.ENUM: typeSuffix = IIndexConstants.ENUM_SUFFIX; break; case IJavaSearchConstants.ANNOTATION_TYPE: typeSuffix = IIndexConstants.ANNOTATION_TYPE_SUFFIX; break; default: typeSuffix = IIndexConstants.TYPE_SUFFIX; break; } final MultiTypeDeclarationPattern pattern = new MultiTypeDeclarationPattern(qualifications, typeNames, typeSuffix, matchRule); // Get working copy path(s). Store in a single string in case of only one to optimize comparison in requestor final HashSet workingCopyPaths = new HashSet(); String workingCopyPath = null; ICompilationUnit[] copies = getWorkingCopies(); final int copiesLength = copies == null ? 0 : copies.length; if (copies != null) { if (copiesLength == 1) { workingCopyPath = copies[0].getPath().toString(); } else { for (int i = 0; i < copiesLength; i++) { ICompilationUnit workingCopy = copies[i]; workingCopyPaths.add(workingCopy.getPath().toString()); } } } final String singleWkcpPath = workingCopyPath; // Index requestor IndexQueryRequestor searchRequestor = new IndexQueryRequestor() { public boolean acceptIndexMatch(String documentPath, SearchPattern indexRecord, SearchParticipant participant, AccessRuleSet access) { // Filter unexpected types QualifiedTypeDeclarationPattern record = (QualifiedTypeDeclarationPattern) indexRecord; if (record.enclosingTypeNames == IIndexConstants.ONE_ZERO_CHAR) { return true; // filter out local and anonymous classes } switch (copiesLength) { case 0: break; case 1: if (singleWkcpPath.equals(documentPath)) { return true; // filter out *the* working copy } break; default: if (workingCopyPaths.contains(documentPath)) { return true; // filter out working copies } break; } // Accept document path AccessRestriction accessRestriction = null; if (access != null) { // Compute document relative path int qualificationLength = (record.qualification == null || record.qualification.length == 0) ? 0 : record.qualification.length + 1; int nameLength = record.simpleName == null ? 0 : record.simpleName.length; char[] path = new char[qualificationLength + nameLength]; int pos = 0; if (qualificationLength > 0) { System.arraycopy(record.qualification, 0, path, pos, qualificationLength - 1); CharOperation.replace(path, '.', '/'); path[qualificationLength - 1] = '/'; pos += qualificationLength; } if (nameLength > 0) { System.arraycopy(record.simpleName, 0, path, pos, nameLength); pos += nameLength; } // Update access restriction if path is not empty if (pos > 0) { accessRestriction = access.getViolatedRestriction(path); } } nameRequestor.acceptType(record.modifiers, record.pkg, record.simpleName, record.enclosingTypeNames, documentPath, accessRestriction); return true; } }; try { if (progressMonitor != null) { progressMonitor.beginTask(Messages.engine_searching, 100); } // add type names from indexes indexManager.performConcurrentJob( new PatternSearchJob(pattern, getDefaultSearchParticipant(indexManager, javaProject), // Java search only scope, searchRequestor, indexManager), waitingPolicy, progressMonitor == null ? null : new SubProgressMonitor(progressMonitor, 100)); // add type names from working copies if (copies != null) { for (int i = 0, length = copies.length; i < length; i++) { ICompilationUnit workingCopy = copies[i]; final String path = workingCopy.getPath().toString(); if (workingCopy.isConsistent()) { IPackageDeclaration[] packageDeclarations = workingCopy.getPackageDeclarations(); char[] packageDeclaration = packageDeclarations.length == 0 ? CharOperation.NO_CHAR : packageDeclarations[0].getElementName().toCharArray(); IType[] allTypes = workingCopy.getAllTypes(); for (int j = 0, allTypesLength = allTypes.length; j < allTypesLength; j++) { IType type = allTypes[j]; IJavaElement parent = type.getParent(); char[][] enclosingTypeNames; char[] qualification = packageDeclaration; if (parent instanceof IType) { char[] parentQualifiedName = ((IType) parent).getTypeQualifiedName('.') .toCharArray(); enclosingTypeNames = CharOperation.splitOn('.', parentQualifiedName); qualification = CharOperation.concat(qualification, parentQualifiedName); } else { enclosingTypeNames = CharOperation.NO_CHAR_CHAR; } char[] simpleName = type.getElementName().toCharArray(); char suffix = IIndexConstants.TYPE_SUFFIX; if (type.isClass()) { suffix = IIndexConstants.CLASS_SUFFIX; } else if (type.isInterface()) { suffix = IIndexConstants.INTERFACE_SUFFIX; } else if (type.isEnum()) { suffix = IIndexConstants.ENUM_SUFFIX; } else if (type.isAnnotation()) { suffix = IIndexConstants.ANNOTATION_TYPE_SUFFIX; } if (pattern.matchesDecodedKey(new QualifiedTypeDeclarationPattern(qualification, simpleName, suffix, matchRule))) { nameRequestor.acceptType(type.getFlags(), packageDeclaration, simpleName, enclosingTypeNames, path, null); } } } else { Parser basicParser = getParser(); org.eclipse.jdt.internal.compiler.env.ICompilationUnit unit = (org.eclipse.jdt.internal.compiler.env.ICompilationUnit) workingCopy; CompilationResult compilationUnitResult = new CompilationResult(unit, 0, 0, this.compilerOptions.maxProblemsPerUnit); CompilationUnitDeclaration parsedUnit = basicParser.dietParse(unit, compilationUnitResult); if (parsedUnit != null) { final char[] packageDeclaration = parsedUnit.currentPackage == null ? CharOperation.NO_CHAR : CharOperation.concatWith(parsedUnit.currentPackage.getImportName(), '.'); class AllTypeDeclarationsVisitor extends ASTVisitor { public boolean visit(TypeDeclaration typeDeclaration, BlockScope blockScope) { return false; // no local/anonymous type } public boolean visit(TypeDeclaration typeDeclaration, CompilationUnitScope compilationUnitScope) { SearchPattern decodedPattern = new QualifiedTypeDeclarationPattern( packageDeclaration, typeDeclaration.name, convertTypeKind(TypeDeclaration.kind(typeDeclaration.modifiers)), matchRule); if (pattern.matchesDecodedKey(decodedPattern)) { nameRequestor.acceptType(typeDeclaration.modifiers, packageDeclaration, typeDeclaration.name, CharOperation.NO_CHAR_CHAR, path, null); } return true; } public boolean visit(TypeDeclaration memberTypeDeclaration, ClassScope classScope) { // compute enclosing type names char[] qualification = packageDeclaration; TypeDeclaration enclosing = memberTypeDeclaration.enclosingType; char[][] enclosingTypeNames = CharOperation.NO_CHAR_CHAR; while (enclosing != null) { qualification = CharOperation.concat(qualification, enclosing.name, '.'); enclosingTypeNames = CharOperation .arrayConcat(new char[][] { enclosing.name }, enclosingTypeNames); if ((enclosing.bits & ASTNode.IsMemberType) != 0) { enclosing = enclosing.enclosingType; } else { enclosing = null; } } SearchPattern decodedPattern = new QualifiedTypeDeclarationPattern( qualification, memberTypeDeclaration.name, convertTypeKind(TypeDeclaration.kind(memberTypeDeclaration.modifiers)), matchRule); if (pattern.matchesDecodedKey(decodedPattern)) { nameRequestor.acceptType(memberTypeDeclaration.modifiers, packageDeclaration, memberTypeDeclaration.name, enclosingTypeNames, path, null); } return true; } } parsedUnit.traverse(new AllTypeDeclarationsVisitor(), parsedUnit.scope); } } } } } finally { if (progressMonitor != null) { progressMonitor.done(); } } }
From source file:org.eclipse.jdt.internal.compiler.parser.Parser.java
License:Open Source License
protected void consumeAnnotationTypeDeclarationHeaderName() { // consumeAnnotationTypeDeclarationHeader ::= Modifiers '@' PushModifiers interface Identifier // consumeAnnotationTypeDeclarationHeader ::= '@' PushModifiers interface Identifier TypeDeclaration annotationTypeDeclaration = new TypeDeclaration(this.compilationUnit.compilationResult); if (this.nestedMethod[this.nestedType] == 0) { if (this.nestedType != 0) { annotationTypeDeclaration.bits |= ASTNode.IsMemberType; }// w ww . ja v a2s .c om } else { // Record that the block has a declaration for local types annotationTypeDeclaration.bits |= ASTNode.IsLocalType; markEnclosingMemberWithLocalType(); blockReal(); } //highlight the name of the type long pos = this.identifierPositionStack[this.identifierPtr]; annotationTypeDeclaration.sourceEnd = (int) pos; annotationTypeDeclaration.sourceStart = (int) (pos >>> 32); annotationTypeDeclaration.name = this.identifierStack[this.identifierPtr--]; this.identifierLengthPtr--; //compute the declaration source too // 'interface' push two int positions: the beginning of the class token and its end. // we want to keep the beginning position but get rid of the end position // it is only used for the ClassLiteralAccess positions. this.intPtr--; // remove the start position of the interface token this.intPtr--; // remove the end position of the interface token annotationTypeDeclaration.modifiersSourceStart = this.intStack[this.intPtr--]; annotationTypeDeclaration.modifiers = this.intStack[this.intPtr--] | ClassFileConstants.AccAnnotation | ClassFileConstants.AccInterface; if (annotationTypeDeclaration.modifiersSourceStart >= 0) { annotationTypeDeclaration.declarationSourceStart = annotationTypeDeclaration.modifiersSourceStart; this.intPtr--; // remove the position of the '@' token as we have modifiers } else { int atPosition = this.intStack[this.intPtr--]; // remove the position of the '@' token as we don't have modifiers annotationTypeDeclaration.declarationSourceStart = atPosition; } // Store secondary info if ((annotationTypeDeclaration.bits & ASTNode.IsMemberType) == 0 && (annotationTypeDeclaration.bits & ASTNode.IsLocalType) == 0) { if (this.compilationUnit != null && !CharOperation.equals(annotationTypeDeclaration.name, this.compilationUnit.getMainTypeName())) { annotationTypeDeclaration.bits |= ASTNode.IsSecondaryType; } } // consume annotations int length; if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) { System.arraycopy(this.expressionStack, (this.expressionPtr -= length) + 1, annotationTypeDeclaration.annotations = new Annotation[length], 0, length); } annotationTypeDeclaration.bodyStart = annotationTypeDeclaration.sourceEnd + 1; // javadoc annotationTypeDeclaration.javadoc = this.javadoc; this.javadoc = null; pushOnAstStack(annotationTypeDeclaration); if (!this.statementRecoveryActivated && this.options.sourceLevel < ClassFileConstants.JDK1_5 && this.lastErrorEndPositionBeforeRecovery < this.scanner.currentPosition) { problemReporter().invalidUsageOfAnnotationDeclarations(annotationTypeDeclaration); } // recovery if (this.currentElement != null) { this.lastCheckPoint = annotationTypeDeclaration.bodyStart; this.currentElement = this.currentElement.add(annotationTypeDeclaration, 0); this.lastIgnoredToken = -1; } }
From source file:org.eclipse.jdt.internal.compiler.parser.Parser.java
License:Open Source License
protected void consumeAnnotationTypeDeclarationHeaderNameWithTypeParameters() { // consumeAnnotationTypeDeclarationHeader ::= Modifiers '@' PushModifiers interface Identifier TypeParameters // consumeAnnotationTypeDeclarationHeader ::= '@' PushModifiers interface Identifier TypeParameters TypeDeclaration annotationTypeDeclaration = new TypeDeclaration(this.compilationUnit.compilationResult); // consume type parameters int length = this.genericsLengthStack[this.genericsLengthPtr--]; this.genericsPtr -= length; System.arraycopy(this.genericsStack, this.genericsPtr + 1, annotationTypeDeclaration.typeParameters = new TypeParameter[length], 0, length); problemReporter().invalidUsageOfTypeParametersForAnnotationDeclaration(annotationTypeDeclaration); annotationTypeDeclaration.bodyStart = annotationTypeDeclaration.typeParameters[length - 1].declarationSourceEnd + 1; // annotationTypeDeclaration.typeParameters = null; this.listTypeParameterLength = 0; if (this.nestedMethod[this.nestedType] == 0) { if (this.nestedType != 0) { annotationTypeDeclaration.bits |= ASTNode.IsMemberType; }//from www. j av a2 s . c om } else { // Record that the block has a declaration for local types annotationTypeDeclaration.bits |= ASTNode.IsLocalType; markEnclosingMemberWithLocalType(); blockReal(); } //highlight the name of the type long pos = this.identifierPositionStack[this.identifierPtr]; annotationTypeDeclaration.sourceEnd = (int) pos; annotationTypeDeclaration.sourceStart = (int) (pos >>> 32); annotationTypeDeclaration.name = this.identifierStack[this.identifierPtr--]; this.identifierLengthPtr--; //compute the declaration source too // 'interface' push two int positions: the beginning of the class token and its end. // we want to keep the beginning position but get rid of the end position // it is only used for the ClassLiteralAccess positions. this.intPtr--; // remove the start position of the interface token this.intPtr--; // remove the end position of the interface token annotationTypeDeclaration.modifiersSourceStart = this.intStack[this.intPtr--]; annotationTypeDeclaration.modifiers = this.intStack[this.intPtr--] | ClassFileConstants.AccAnnotation | ClassFileConstants.AccInterface; if (annotationTypeDeclaration.modifiersSourceStart >= 0) { annotationTypeDeclaration.declarationSourceStart = annotationTypeDeclaration.modifiersSourceStart; this.intPtr--; // remove the position of the '@' token as we have modifiers } else { int atPosition = this.intStack[this.intPtr--]; // remove the position of the '@' token as we don't have modifiers annotationTypeDeclaration.declarationSourceStart = atPosition; } // Store secondary info if ((annotationTypeDeclaration.bits & ASTNode.IsMemberType) == 0 && (annotationTypeDeclaration.bits & ASTNode.IsLocalType) == 0) { if (this.compilationUnit != null && !CharOperation.equals(annotationTypeDeclaration.name, this.compilationUnit.getMainTypeName())) { annotationTypeDeclaration.bits |= ASTNode.IsSecondaryType; } } // consume annotations if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) { System.arraycopy(this.expressionStack, (this.expressionPtr -= length) + 1, annotationTypeDeclaration.annotations = new Annotation[length], 0, length); } // javadoc annotationTypeDeclaration.javadoc = this.javadoc; this.javadoc = null; pushOnAstStack(annotationTypeDeclaration); if (!this.statementRecoveryActivated && this.options.sourceLevel < ClassFileConstants.JDK1_5 && this.lastErrorEndPositionBeforeRecovery < this.scanner.currentPosition) { problemReporter().invalidUsageOfAnnotationDeclarations(annotationTypeDeclaration); } // recovery if (this.currentElement != null) { this.lastCheckPoint = annotationTypeDeclaration.bodyStart; this.currentElement = this.currentElement.add(annotationTypeDeclaration, 0); this.lastIgnoredToken = -1; } }