use of org.eclipse.jdt.internal.core.SourceMethod in project che by eclipse.
the class SourceTypeConverter method convert.
/*
* Convert a source element type into a parsed type declaration
*/
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 {
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();
// only positions available
int start, end;
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);
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);
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) {
// Does not need the extra constructor since one constructor already exists.
extraConstructor = 0;
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;
}
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