/*
* Returns the handles of the super interfaces of the given type.
* Adds the simple name to the hierarchy missing types if an interface is not found (but don't put null in the returned array)
*/
private IType[] findSuperInterfaces(IGenericType type, ReferenceBinding typeBinding) {
char[][] superInterfaceNames;
char separator;
if (type instanceof IBinaryType) {
superInterfaceNames = ((IBinaryType) type).getInterfaceNames();
separator = '/';
} else if (type instanceof ISourceType) {
ISourceType sourceType = (ISourceType) type;
if (sourceType.isAnonymous()) { // if anonymous type
if (typeBinding.superInterfaces() != null && typeBinding.superInterfaces().length > 0) {
superInterfaceNames = new char[][] {sourceType.getSuperclassName()};
} else {
superInterfaceNames = sourceType.getInterfaceNames();
}
} else {
if (TypeDeclaration.kind(sourceType.getModifiers()) == TypeDeclaration.ANNOTATION_TYPE_DECL)
superInterfaceNames =
new char[][] {TypeConstants.CharArray_JAVA_LANG_ANNOTATION_ANNOTATION};
else superInterfaceNames = sourceType.getInterfaceNames();
}
separator = '.';
} else if (type instanceof HierarchyType) {
HierarchyType hierarchyType = (HierarchyType) type;
if (hierarchyType.isAnonymous()) { // if anonymous type
if (typeBinding.superInterfaces() != null && typeBinding.superInterfaces().length > 0) {
superInterfaceNames = new char[][] {hierarchyType.superclassName};
} else {
superInterfaceNames = hierarchyType.superInterfaceNames;
}
} else {
superInterfaceNames = hierarchyType.superInterfaceNames;
}
separator = '.';
} else {
return null;
}
ReferenceBinding[] interfaceBindings = typeBinding.superInterfaces();
int bindingIndex = 0;
int bindingLength = interfaceBindings == null ? 0 : interfaceBindings.length;
int length = superInterfaceNames == null ? 0 : superInterfaceNames.length;
IType[] superinterfaces = new IType[length];
int index = 0;
next:
for (int i = 0; i < length; i++) {
char[] superInterfaceName = superInterfaceNames[i];
int end = superInterfaceName.length;
// find the end of simple name
int genericStart = CharOperation.indexOf(Signature.C_GENERIC_START, superInterfaceName);
if (genericStart != -1) end = genericStart;
// find the start of simple name
int lastSeparator = CharOperation.lastIndexOf(separator, superInterfaceName, 0, end);
int start = lastSeparator + 1;
// case of binary inner type -> take the last part
int lastDollar = CharOperation.lastIndexOf('$', superInterfaceName, start);
if (lastDollar != -1) start = lastDollar + 1;
char[] simpleName = CharOperation.subarray(superInterfaceName, start, end);
if (bindingIndex < bindingLength) {
ReferenceBinding interfaceBinding =
(ReferenceBinding) interfaceBindings[bindingIndex].erasure();
// ensure that the binding corresponds to the interface defined by the user
if (CharOperation.equals(simpleName, interfaceBinding.sourceName)) {
bindingIndex++;
for (int t = this.typeIndex; t >= 0; t--) {
if (TypeBinding.equalsEquals(this.typeBindings[t], interfaceBinding)) {
IType handle = this.builder.getHandle(this.typeModels[t], interfaceBinding);
if (handle != null) {
superinterfaces[index++] = handle;
continue next;
}
}
}
}
}
this.builder.hierarchy.missingTypes.add(new String(simpleName));
}
if (index != length)
System.arraycopy(superinterfaces, 0, superinterfaces = new IType[index], 0, index);
return superinterfaces;
}
/*
* INTERNAL USE-ONLY
* Innerclasses get their name computed as they are generated, since some may not
* be actually outputed if sitting inside unreachable code.
*/
public char[] computeConstantPoolName(LocalTypeBinding localType) {
if (localType.constantPoolName != null) {
return localType.constantPoolName;
}
// delegates to the outermost enclosing classfile, since it is the only one with a global vision
// of its innertypes.
if (this.constantPoolNameUsage == null) this.constantPoolNameUsage = new HashtableOfType();
ReferenceBinding outerMostEnclosingType =
localType.scope.outerMostClassScope().enclosingSourceType();
// ensure there is not already such a local type name defined by the user
int index = 0;
char[] candidateName;
boolean isCompliant15 = compilerOptions().complianceLevel >= ClassFileConstants.JDK1_5;
while (true) {
if (localType.isMemberType()) {
if (index == 0) {
candidateName =
CharOperation.concat(
localType.enclosingType().constantPoolName(), localType.sourceName, '$');
} else {
// in case of collision, then member name gets extra $1 inserted
// e.g. class X { { class L{} new X(){ class L{} } } }
candidateName =
CharOperation.concat(
localType.enclosingType().constantPoolName(),
'$',
String.valueOf(index).toCharArray(),
'$',
localType.sourceName);
}
} else if (localType.isAnonymousType()) {
if (isCompliant15) {
// AspectJ Extension start
char[] extraInsert = null;
if (outerMostEnclosingType instanceof SourceTypeBinding) {
SourceTypeBinding sourceTypeBinding = (SourceTypeBinding) outerMostEnclosingType;
ClassScope classScope = sourceTypeBinding.scope;
if (classScope != null) {
TypeDeclaration typeDeclaration = classScope.referenceContext;
if (typeDeclaration != null) {
extraInsert = typeDeclaration.getLocalTypeNameSuffix();
}
}
}
if (extraInsert != null) { // AspectJ Extension end
candidateName =
CharOperation.concat(
localType.enclosingType.constantPoolName(),
'$',
extraInsert,
'$',
String.valueOf(index + 1).toCharArray());
} else {
// from 1.5 on, use immediately enclosing type name
candidateName =
CharOperation.concat(
localType.enclosingType.constantPoolName(),
String.valueOf(index + 1).toCharArray(),
'$');
} // AspectJ extension, closing }
} else {
candidateName =
CharOperation.concat(
outerMostEnclosingType.constantPoolName(),
String.valueOf(index + 1).toCharArray(),
'$');
}
} else {
// local type
if (isCompliant15) {
candidateName =
CharOperation.concat(
CharOperation.concat(
localType.enclosingType().constantPoolName(),
String.valueOf(index + 1).toCharArray(),
'$'),
localType.sourceName);
} else {
candidateName =
CharOperation.concat(
outerMostEnclosingType.constantPoolName(),
'$',
String.valueOf(index + 1).toCharArray(),
'$',
localType.sourceName);
}
}
if (this.constantPoolNameUsage.get(candidateName) != null) {
index++;
} else {
this.constantPoolNameUsage.put(candidateName, localType);
break;
}
}
return candidateName;
}