/** Give 2 clones! */ private Expression longToIntForHashCode(Expression ref1, Expression ref2, ASTNode source) { int pS = source.sourceStart, pE = source.sourceEnd; /* (int)(ref >>> 32 ^ ref) */ IntLiteral int32 = new IntLiteral("32".toCharArray(), pS, pE); Eclipse.setGeneratedBy(int32, source); BinaryExpression higherBits = new BinaryExpression(ref1, int32, OperatorIds.UNSIGNED_RIGHT_SHIFT); Eclipse.setGeneratedBy(higherBits, source); BinaryExpression xorParts = new BinaryExpression(ref2, higherBits, OperatorIds.XOR); Eclipse.setGeneratedBy(xorParts, source); TypeReference intRef = TypeReference.baseTypeReference(TypeIds.T_int, 0); intRef.sourceStart = pS; intRef.sourceEnd = pE; Eclipse.setGeneratedBy(intRef, source); CastExpression expr = new CastExpression(xorParts, intRef); expr.sourceStart = pS; expr.sourceEnd = pE; Eclipse.setGeneratedBy(expr, source); return expr; }
public TypeReference getTypeReference(int dim) { /* build a Reference on a variable that may be qualified or not * This variable is a type reference and dim will be its dimensions */ Annotation[][] annotationsOnDimensions = null; TypeReference ref; int length = this.identifierLengthStack[this.identifierLengthPtr--]; if (length < 0) { // flag for precompiled type reference on base types annotationsOnDimensions = getAnnotationsOnDimensions(dim); ref = TypeReference.baseTypeReference(-length, dim, annotationsOnDimensions); ref.sourceStart = this.intStack[this.intPtr--]; if (dim == 0) { ref.sourceEnd = this.intStack[this.intPtr--]; } else { this.intPtr--; // no need to use this position as it is an array ref.sourceEnd = this.rBracketPosition; } if (this.reportReferenceInfo) { this.requestor.acceptTypeReference( ref.getParameterizedTypeName(), ref.sourceStart, ref.sourceEnd); } } else { int numberOfIdentifiers = this.genericsIdentifiersLengthStack[this.genericsIdentifiersLengthPtr--]; if (length != numberOfIdentifiers || this.genericsLengthStack[this.genericsLengthPtr] != 0) { // generic type ref = getTypeReferenceForGenericType(dim, length, numberOfIdentifiers); if (this.reportReferenceInfo) { if (length == 1 && numberOfIdentifiers == 1) { ParameterizedSingleTypeReference parameterizedSingleTypeReference = (ParameterizedSingleTypeReference) ref; this.requestor.acceptTypeReference( parameterizedSingleTypeReference.token, parameterizedSingleTypeReference.sourceStart); } else { ParameterizedQualifiedTypeReference parameterizedQualifiedTypeReference = (ParameterizedQualifiedTypeReference) ref; this.requestor.acceptTypeReference( parameterizedQualifiedTypeReference.tokens, parameterizedQualifiedTypeReference.sourceStart, parameterizedQualifiedTypeReference.sourceEnd); } } } else if (length == 1) { // single type reference this.genericsLengthPtr--; // pop the 0 if (dim == 0) { ref = new SingleTypeReference( this.identifierStack[this.identifierPtr], this.identifierPositionStack[this.identifierPtr--]); if (this.reportReferenceInfo) { this.requestor.acceptTypeReference(((SingleTypeReference) ref).token, ref.sourceStart); } } else { annotationsOnDimensions = getAnnotationsOnDimensions(dim); ref = new ArrayTypeReference( this.identifierStack[this.identifierPtr], dim, annotationsOnDimensions, this.identifierPositionStack[this.identifierPtr--]); ref.sourceEnd = this.endPosition; if (annotationsOnDimensions != null) { ref.bits |= ASTNode.HasTypeAnnotations; } if (this.reportReferenceInfo) { this.requestor.acceptTypeReference(((ArrayTypeReference) ref).token, ref.sourceStart); } } } else { // Qualified type reference this.genericsLengthPtr--; char[][] tokens = new char[length][]; this.identifierPtr -= length; long[] positions = new long[length]; System.arraycopy(this.identifierStack, this.identifierPtr + 1, tokens, 0, length); System.arraycopy( this.identifierPositionStack, this.identifierPtr + 1, positions, 0, length); if (dim == 0) { ref = new QualifiedTypeReference(tokens, positions); if (this.reportReferenceInfo) { this.requestor.acceptTypeReference( ((QualifiedTypeReference) ref).tokens, ref.sourceStart, ref.sourceEnd); } } else { annotationsOnDimensions = getAnnotationsOnDimensions(dim); ref = new ArrayQualifiedTypeReference(tokens, dim, annotationsOnDimensions, positions); ref.sourceEnd = this.endPosition; if (annotationsOnDimensions != null) { ref.bits |= ASTNode.HasTypeAnnotations; } if (this.reportReferenceInfo) { this.requestor.acceptTypeReference( ((ArrayQualifiedTypeReference) ref).tokens, ref.sourceStart, ref.sourceEnd); } } } } int levels = ref.getAnnotatableLevels(); for (int i = levels - 1; i >= 0; i--) { if ((length = this.typeAnnotationLengthStack[this.typeAnnotationLengthPtr--]) != 0) { if (ref.annotations == null) ref.annotations = new Annotation[levels][]; System.arraycopy( this.typeAnnotationStack, (this.typeAnnotationPtr -= length) + 1, ref.annotations[i] = new Annotation[length], 0, length); if (i == 0) { ref.sourceStart = ref.annotations[0][0].sourceStart; } ref.bits |= ASTNode.HasTypeAnnotations; } } return ref; }
public TypeReference getTypeReference(int dim) { /* build a Reference on a variable that may be qualified or not * This variable is a type reference and dim will be its dimensions */ int length = this.identifierLengthStack[this.identifierLengthPtr--]; if (length < 0) { // flag for precompiled type reference on base types TypeReference ref = TypeReference.baseTypeReference(-length, dim); ref.sourceStart = this.intStack[this.intPtr--]; if (dim == 0) { ref.sourceEnd = this.intStack[this.intPtr--]; } else { this.intPtr--; // no need to use this position as it is an array ref.sourceEnd = this.endPosition; } if (this.reportReferenceInfo) { this.requestor.acceptTypeReference( ref.getParameterizedTypeName(), ref.sourceStart, ref.sourceEnd); } return ref; } else { int numberOfIdentifiers = this.genericsIdentifiersLengthStack[this.genericsIdentifiersLengthPtr--]; if (length != numberOfIdentifiers || this.genericsLengthStack[this.genericsLengthPtr] != 0) { // generic type TypeReference ref = getTypeReferenceForGenericType(dim, length, numberOfIdentifiers); if (this.reportReferenceInfo) { if (length == 1 && numberOfIdentifiers == 1) { ParameterizedSingleTypeReference parameterizedSingleTypeReference = (ParameterizedSingleTypeReference) ref; this.requestor.acceptTypeReference( parameterizedSingleTypeReference.token, parameterizedSingleTypeReference.sourceStart); } else { ParameterizedQualifiedTypeReference parameterizedQualifiedTypeReference = (ParameterizedQualifiedTypeReference) ref; this.requestor.acceptTypeReference( parameterizedQualifiedTypeReference.tokens, parameterizedQualifiedTypeReference.sourceStart, parameterizedQualifiedTypeReference.sourceEnd); } } return ref; } else if (length == 1) { // single variable reference this.genericsLengthPtr--; // pop the 0 if (dim == 0) { SingleTypeReference ref = new SingleTypeReference( this.identifierStack[this.identifierPtr], this.identifierPositionStack[this.identifierPtr--]); if (this.reportReferenceInfo) { this.requestor.acceptTypeReference(ref.token, ref.sourceStart); } return ref; } else { ArrayTypeReference ref = new ArrayTypeReference( this.identifierStack[this.identifierPtr], dim, this.identifierPositionStack[this.identifierPtr--]); ref.sourceEnd = this.endPosition; if (this.reportReferenceInfo) { this.requestor.acceptTypeReference(ref.token, ref.sourceStart); } return ref; } } else { // Qualified variable reference this.genericsLengthPtr--; char[][] tokens = new char[length][]; this.identifierPtr -= length; long[] positions = new long[length]; System.arraycopy(this.identifierStack, this.identifierPtr + 1, tokens, 0, length); System.arraycopy( this.identifierPositionStack, this.identifierPtr + 1, positions, 0, length); if (dim == 0) { QualifiedTypeReference ref = new QualifiedTypeReference(tokens, positions); if (this.reportReferenceInfo) { this.requestor.acceptTypeReference(ref.tokens, ref.sourceStart, ref.sourceEnd); } return ref; } else { ArrayQualifiedTypeReference ref = new ArrayQualifiedTypeReference(tokens, dim, positions); ref.sourceEnd = this.endPosition; if (this.reportReferenceInfo) { this.requestor.acceptTypeReference(ref.tokens, ref.sourceStart, ref.sourceEnd); } return ref; } } } }