TypeBinding substituteInferenceVariable(InferenceVariable var, TypeBinding substituteType) {
if (this.inRecursiveFunction) return this;
this.inRecursiveFunction = true;
try {
boolean haveSubstitution = false;
ReferenceBinding currentSuperclass = this.superclass;
if (currentSuperclass != null) {
currentSuperclass =
(ReferenceBinding) currentSuperclass.substituteInferenceVariable(var, substituteType);
haveSubstitution |= TypeBinding.notEquals(currentSuperclass, this.superclass);
}
ReferenceBinding[] currentSuperInterfaces = null;
if (this.superInterfaces != null) {
int length = this.superInterfaces.length;
if (haveSubstitution)
System.arraycopy(
this.superInterfaces,
0,
currentSuperInterfaces = new ReferenceBinding[length],
0,
length);
for (int i = 0; i < length; i++) {
ReferenceBinding currentSuperInterface = this.superInterfaces[i];
if (currentSuperInterface != null) {
currentSuperInterface =
(ReferenceBinding)
currentSuperInterface.substituteInferenceVariable(var, substituteType);
if (TypeBinding.notEquals(currentSuperInterface, this.superInterfaces[i])) {
if (currentSuperInterfaces == null)
System.arraycopy(
this.superInterfaces,
0,
currentSuperInterfaces = new ReferenceBinding[length],
0,
length);
currentSuperInterfaces[i] = currentSuperInterface;
haveSubstitution = true;
}
}
}
}
if (haveSubstitution) {
TypeVariableBinding newVar =
new TypeVariableBinding(
this.sourceName, this.declaringElement, this.rank, this.environment);
newVar.superclass = currentSuperclass;
newVar.superInterfaces = currentSuperInterfaces;
newVar.tagBits = this.tagBits;
return newVar;
}
return this;
} finally {
this.inRecursiveFunction = false;
}
}
/* An annotated type variable use differs from its declaration exactly in its annotations and in nothing else.
Propagate writes to all annotated variants so the clones evolve along.
*/
public ReferenceBinding[] setSuperInterfaces(ReferenceBinding[] superInterfaces) {
this.superInterfaces = superInterfaces;
if ((this.tagBits & TagBits.HasAnnotatedVariants) != 0) {
TypeBinding[] annotatedTypes = getDerivedTypesForDeferredInitialization();
for (int i = 0, length = annotatedTypes == null ? 0 : annotatedTypes.length;
i < length;
i++) {
TypeVariableBinding annotatedType = (TypeVariableBinding) annotatedTypes[i];
if (annotatedType.superInterfaces == null) annotatedType.superInterfaces = superInterfaces;
}
}
return superInterfaces;
}
/* (non-Javadoc)
* @see org.eclipse.jdt.core.dom.ITypeBinding#getTypeBounds()
*/
public ITypeBinding[] getTypeBounds() {
if (this.bounds != null) {
return this.bounds;
}
if (this.binding instanceof TypeVariableBinding) {
TypeVariableBinding typeVariableBinding = (TypeVariableBinding) this.binding;
ReferenceBinding varSuperclass = typeVariableBinding.superclass();
org.eclipse.jdt.internal.compiler.lookup.TypeBinding firstClassOrArrayBound =
typeVariableBinding.firstBound;
int boundsLength = 0;
if (firstClassOrArrayBound != null) {
if (firstClassOrArrayBound == varSuperclass) {
boundsLength++;
} else if (firstClassOrArrayBound.isArrayType()) { // capture of ? extends/super arrayType
boundsLength++;
} else {
firstClassOrArrayBound = null;
}
}
ReferenceBinding[] superinterfaces = typeVariableBinding.superInterfaces();
int superinterfacesLength = 0;
if (superinterfaces != null) {
superinterfacesLength = superinterfaces.length;
boundsLength += superinterfacesLength;
}
if (boundsLength != 0) {
ITypeBinding[] typeBounds = new ITypeBinding[boundsLength];
int boundsIndex = 0;
if (firstClassOrArrayBound != null) {
ITypeBinding typeBinding = this.resolver.getTypeBinding(firstClassOrArrayBound);
if (typeBinding == null) {
return this.bounds = NO_TYPE_BINDINGS;
}
typeBounds[boundsIndex++] = typeBinding;
}
if (superinterfaces != null) {
for (int i = 0; i < superinterfacesLength; i++, boundsIndex++) {
ITypeBinding typeBinding = this.resolver.getTypeBinding(superinterfaces[i]);
if (typeBinding == null) {
return this.bounds = NO_TYPE_BINDINGS;
}
typeBounds[boundsIndex] = typeBinding;
}
}
return this.bounds = typeBounds;
}
}
return this.bounds = NO_TYPE_BINDINGS;
}
static boolean isEqual(
org.eclipse.jdt.internal.compiler.lookup.TypeBinding typeBinding,
org.eclipse.jdt.internal.compiler.lookup.TypeBinding typeBinding2,
HashSet visitedTypes) {
if (typeBinding == typeBinding2) return true;
if (typeBinding == null || typeBinding2 == null) return false;
switch (typeBinding.kind()) {
case Binding.BASE_TYPE:
if (!typeBinding2.isBaseType()) {
return false;
}
return typeBinding.id == typeBinding2.id;
case Binding.ARRAY_TYPE:
if (!typeBinding2.isArrayType()) {
return false;
}
return typeBinding.dimensions() == typeBinding2.dimensions()
&& isEqual(
typeBinding.leafComponentType(), typeBinding2.leafComponentType(), visitedTypes);
case Binding.PARAMETERIZED_TYPE:
if (!typeBinding2.isParameterizedType()) {
return false;
}
ParameterizedTypeBinding parameterizedTypeBinding = (ParameterizedTypeBinding) typeBinding;
ParameterizedTypeBinding parameterizedTypeBinding2 =
(ParameterizedTypeBinding) typeBinding2;
return CharOperation.equals(
parameterizedTypeBinding.compoundName, parameterizedTypeBinding2.compoundName)
&& (parameterizedTypeBinding.modifiers
& (ExtraCompilerModifiers.AccJustFlag
| ClassFileConstants.AccInterface
| ClassFileConstants.AccEnum
| ClassFileConstants.AccAnnotation))
== (parameterizedTypeBinding2.modifiers
& (ExtraCompilerModifiers.AccJustFlag
| ClassFileConstants.AccInterface
| ClassFileConstants.AccEnum
| ClassFileConstants.AccAnnotation))
&& isEqual(
parameterizedTypeBinding.arguments,
parameterizedTypeBinding2.arguments,
visitedTypes)
&& isEqual(
parameterizedTypeBinding.enclosingType(),
parameterizedTypeBinding2.enclosingType(),
visitedTypes);
case Binding.WILDCARD_TYPE:
if (typeBinding2.kind() != Binding.WILDCARD_TYPE) {
return false;
}
WildcardBinding wildcardBinding = (WildcardBinding) typeBinding;
WildcardBinding wildcardBinding2 = (WildcardBinding) typeBinding2;
return isEqual(wildcardBinding.bound, wildcardBinding2.bound, visitedTypes)
&& wildcardBinding.boundKind == wildcardBinding2.boundKind;
case Binding.INTERSECTION_TYPE:
if (typeBinding2.kind() != Binding.INTERSECTION_TYPE) {
return false;
}
WildcardBinding intersectionBinding = (WildcardBinding) typeBinding;
WildcardBinding intersectionBinding2 = (WildcardBinding) typeBinding2;
return isEqual(intersectionBinding.bound, intersectionBinding2.bound, visitedTypes)
&& isEqual(
intersectionBinding.otherBounds, intersectionBinding2.otherBounds, visitedTypes);
case Binding.TYPE_PARAMETER:
if (!(typeBinding2.isTypeVariable())) {
return false;
}
if (typeBinding.isCapture()) {
if (!(typeBinding2.isCapture())) {
return false;
}
CaptureBinding captureBinding = (CaptureBinding) typeBinding;
CaptureBinding captureBinding2 = (CaptureBinding) typeBinding2;
if (captureBinding.position == captureBinding2.position) {
if (visitedTypes.contains(typeBinding)) return true;
visitedTypes.add(typeBinding);
return isEqual(captureBinding.wildcard, captureBinding2.wildcard, visitedTypes)
&& isEqual(captureBinding.sourceType, captureBinding2.sourceType, visitedTypes);
}
return false;
}
TypeVariableBinding typeVariableBinding = (TypeVariableBinding) typeBinding;
TypeVariableBinding typeVariableBinding2 = (TypeVariableBinding) typeBinding2;
if (CharOperation.equals(typeVariableBinding.sourceName, typeVariableBinding2.sourceName)) {
if (visitedTypes.contains(typeBinding)) return true;
visitedTypes.add(typeBinding);
return isEqual(
typeVariableBinding.declaringElement,
typeVariableBinding2.declaringElement,
visitedTypes)
&& isEqual(
typeVariableBinding.superclass(), typeVariableBinding2.superclass(), visitedTypes)
&& isEqual(
typeVariableBinding.superInterfaces(),
typeVariableBinding2.superInterfaces(),
visitedTypes);
}
return false;
case Binding.GENERIC_TYPE:
if (!typeBinding2.isGenericType()) {
return false;
}
ReferenceBinding referenceBinding = (ReferenceBinding) typeBinding;
ReferenceBinding referenceBinding2 = (ReferenceBinding) typeBinding2;
return CharOperation.equals(referenceBinding.compoundName, referenceBinding2.compoundName)
&& (referenceBinding.modifiers
& (ExtraCompilerModifiers.AccJustFlag
| ClassFileConstants.AccInterface
| ClassFileConstants.AccEnum
| ClassFileConstants.AccAnnotation))
== (referenceBinding2.modifiers
& (ExtraCompilerModifiers.AccJustFlag
| ClassFileConstants.AccInterface
| ClassFileConstants.AccEnum
| ClassFileConstants.AccAnnotation))
&& isEqual(
referenceBinding.typeVariables(), referenceBinding2.typeVariables(), visitedTypes)
&& isEqual(
referenceBinding.enclosingType(), referenceBinding2.enclosingType(), visitedTypes);
case Binding.RAW_TYPE:
default:
if (!(typeBinding2 instanceof ReferenceBinding)) {
return false;
}
referenceBinding = (ReferenceBinding) typeBinding;
referenceBinding2 = (ReferenceBinding) typeBinding2;
char[] constantPoolName = referenceBinding.constantPoolName();
char[] constantPoolName2 = referenceBinding2.constantPoolName();
// see https://bugs.eclipse.org/bugs/show_bug.cgi?id=116833
if (constantPoolName == null) {
if (constantPoolName2 != null) {
return false;
}
if (!CharOperation.equals(
referenceBinding.computeUniqueKey(), referenceBinding2.computeUniqueKey())) {
return false;
}
} else {
if (constantPoolName2 == null) {
return false;
}
if (!CharOperation.equals(constantPoolName, constantPoolName2)) {
return false;
}
}
return CharOperation.equals(referenceBinding.compoundName, referenceBinding2.compoundName)
&& (!referenceBinding2.isGenericType())
&& (referenceBinding.isRawType() == referenceBinding2.isRawType())
&& ((referenceBinding.modifiers & ~ClassFileConstants.AccSuper)
& (ExtraCompilerModifiers.AccJustFlag
| ClassFileConstants.AccInterface
| ClassFileConstants.AccEnum
| ClassFileConstants.AccAnnotation))
== ((referenceBinding2.modifiers & ~ClassFileConstants.AccSuper)
& (ExtraCompilerModifiers.AccJustFlag
| ClassFileConstants.AccInterface
| ClassFileConstants.AccEnum
| ClassFileConstants.AccAnnotation))
&& isEqual(
referenceBinding.enclosingType(), referenceBinding2.enclosingType(), visitedTypes);
}
}
/**
* Initialize capture bounds using substituted supertypes e.g. given X<U, V extends X<U, V>>,
* capture(X<E,?>) = X<E,capture>, where capture extends X<E,capture>
*/
public void initializeBounds(Scope scope, ParameterizedTypeBinding capturedParameterizedType) {
TypeVariableBinding wildcardVariable = this.wildcard.typeVariable();
if (wildcardVariable == null) {
// error resilience when capturing Zork<?>
// no substitution for wildcard bound (only formal bounds from type variables are to be
// substituted: 104082)
TypeBinding originalWildcardBound = this.wildcard.bound;
switch (this.wildcard.boundKind) {
case Wildcard.EXTENDS:
// still need to capture bound supertype as well so as not to expose wildcards to the
// outside (111208)
TypeBinding capturedWildcardBound = originalWildcardBound.capture(scope, this.position);
if (originalWildcardBound.isInterface()) {
this.superclass = scope.getJavaLangObject();
this.superInterfaces =
new ReferenceBinding[] {(ReferenceBinding) capturedWildcardBound};
} else {
// the wildcard bound should be a subtype of variable superclass
// it may occur that the bound is less specific, then consider glb (202404)
if (capturedWildcardBound.isArrayType() || capturedWildcardBound == this) {
this.superclass = scope.getJavaLangObject();
} else {
this.superclass = (ReferenceBinding) capturedWildcardBound;
}
this.superInterfaces = Binding.NO_SUPERINTERFACES;
}
this.firstBound = capturedWildcardBound;
if ((capturedWildcardBound.tagBits & TagBits.HasTypeVariable) == 0)
this.tagBits &= ~TagBits.HasTypeVariable;
break;
case Wildcard.UNBOUND:
this.superclass = scope.getJavaLangObject();
this.superInterfaces = Binding.NO_SUPERINTERFACES;
this.tagBits &= ~TagBits.HasTypeVariable;
break;
case Wildcard.SUPER:
this.superclass = scope.getJavaLangObject();
this.superInterfaces = Binding.NO_SUPERINTERFACES;
this.lowerBound = this.wildcard.bound;
if ((originalWildcardBound.tagBits & TagBits.HasTypeVariable) == 0)
this.tagBits &= ~TagBits.HasTypeVariable;
break;
}
return;
}
ReferenceBinding originalVariableSuperclass = wildcardVariable.superclass;
ReferenceBinding substitutedVariableSuperclass =
(ReferenceBinding) Scope.substitute(capturedParameterizedType, originalVariableSuperclass);
// prevent cyclic capture: given X<T>, capture(X<? extends T> could yield a circular type
if (substitutedVariableSuperclass == this)
substitutedVariableSuperclass = originalVariableSuperclass;
ReferenceBinding[] originalVariableInterfaces = wildcardVariable.superInterfaces();
ReferenceBinding[] substitutedVariableInterfaces =
Scope.substitute(capturedParameterizedType, originalVariableInterfaces);
if (substitutedVariableInterfaces != originalVariableInterfaces) {
// prevent cyclic capture: given X<T>, capture(X<? extends T> could yield a circular type
for (int i = 0, length = substitutedVariableInterfaces.length; i < length; i++) {
if (substitutedVariableInterfaces[i] == this)
substitutedVariableInterfaces[i] = originalVariableInterfaces[i];
}
}
// no substitution for wildcard bound (only formal bounds from type variables are to be
// substituted: 104082)
TypeBinding originalWildcardBound = this.wildcard.bound;
switch (this.wildcard.boundKind) {
case Wildcard.EXTENDS:
// still need to capture bound supertype as well so as not to expose wildcards to the
// outside (111208)
TypeBinding capturedWildcardBound = originalWildcardBound.capture(scope, this.position);
if (originalWildcardBound.isInterface()) {
this.superclass = substitutedVariableSuperclass;
// merge wildcard bound into variable superinterfaces using glb
if (substitutedVariableInterfaces == Binding.NO_SUPERINTERFACES) {
this.superInterfaces =
new ReferenceBinding[] {(ReferenceBinding) capturedWildcardBound};
} else {
int length = substitutedVariableInterfaces.length;
System.arraycopy(
substitutedVariableInterfaces,
0,
substitutedVariableInterfaces = new ReferenceBinding[length + 1],
1,
length);
substitutedVariableInterfaces[0] = (ReferenceBinding) capturedWildcardBound;
this.superInterfaces = Scope.greaterLowerBound(substitutedVariableInterfaces);
}
} else {
// the wildcard bound should be a subtype of variable superclass
// it may occur that the bound is less specific, then consider glb (202404)
if (capturedWildcardBound.isArrayType() || capturedWildcardBound == this) {
this.superclass = substitutedVariableSuperclass;
} else {
this.superclass = (ReferenceBinding) capturedWildcardBound;
if (this.superclass.isSuperclassOf(substitutedVariableSuperclass)) {
this.superclass = substitutedVariableSuperclass;
}
}
this.superInterfaces = substitutedVariableInterfaces;
}
this.firstBound = capturedWildcardBound;
if ((capturedWildcardBound.tagBits & TagBits.HasTypeVariable) == 0)
this.tagBits &= ~TagBits.HasTypeVariable;
break;
case Wildcard.UNBOUND:
this.superclass = substitutedVariableSuperclass;
this.superInterfaces = substitutedVariableInterfaces;
this.tagBits &= ~TagBits.HasTypeVariable;
break;
case Wildcard.SUPER:
this.superclass = substitutedVariableSuperclass;
if (wildcardVariable.firstBound == substitutedVariableSuperclass
|| originalWildcardBound == substitutedVariableSuperclass) {
this.firstBound = substitutedVariableSuperclass;
}
this.superInterfaces = substitutedVariableInterfaces;
this.lowerBound = originalWildcardBound;
if ((originalWildcardBound.tagBits & TagBits.HasTypeVariable) == 0)
this.tagBits &= ~TagBits.HasTypeVariable;
break;
}
}