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Vaadin is a web application framework for Rich Internet Applications (RIA).
Vaadin enables easy development and maintenance of fast and
secure rich web
applications with a stunning look and feel and a wide browser support.
It features a server-side architecture with the majority of the logic
running
on the server. Ajax technology is used at the browser-side to ensure a
rich
and interactive user experience.
/*******************************************************************************
* Copyright (c) 2000, 2009 IBM Corporation and others.
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License v1.0
* which accompanies this distribution, and is available at
* http://www.eclipse.org/legal/epl-v10.html
*
* Contributors:
* IBM Corporation - initial API and implementation
*******************************************************************************/
package org.eclipse.jdt.internal.compiler.lookup;
import org.eclipse.jdt.core.compiler.CharOperation;
import org.eclipse.jdt.internal.compiler.ast.Wildcard;
import org.eclipse.jdt.internal.compiler.classfmt.ClassFileConstants;
public class CaptureBinding extends TypeVariableBinding {
public TypeBinding lowerBound;
public WildcardBinding wildcard;
public int captureID;
/* information to compute unique binding key */
public ReferenceBinding sourceType;
public int position;
public CaptureBinding(WildcardBinding wildcard, ReferenceBinding sourceType, int position, int captureID) {
super(TypeConstants.WILDCARD_CAPTURE_NAME_PREFIX, null, 0, wildcard.environment);
this.wildcard = wildcard;
this.modifiers = ClassFileConstants.AccPublic | ExtraCompilerModifiers.AccGenericSignature; // treat capture as public
this.fPackage = wildcard.fPackage;
this.sourceType = sourceType;
this.position = position;
this.captureID = captureID;
}
/*
* sourceTypeKey ! wildcardKey position semi-colon
* p.X { capture of ? } --> !*123; (Lp/X; in declaring type except if leaf)
* p.X { capture of ? extends p.Y } --> !+Lp/Y;123; (Lp/X; in declaring type except if leaf)
*/
public char[] computeUniqueKey(boolean isLeaf) {
StringBuffer buffer = new StringBuffer();
if (isLeaf) {
buffer.append(this.sourceType.computeUniqueKey(false/*not a leaf*/));
buffer.append('&');
}
buffer.append(TypeConstants.WILDCARD_CAPTURE);
buffer.append(this.wildcard.computeUniqueKey(false/*not a leaf*/));
buffer.append(this.position);
buffer.append(';');
int length = buffer.length();
char[] uniqueKey = new char[length];
buffer.getChars(0, length, uniqueKey, 0);
return uniqueKey;
}
public String debugName() {
if (this.wildcard != null) {
StringBuffer buffer = new StringBuffer(10);
buffer
.append(TypeConstants.WILDCARD_CAPTURE_NAME_PREFIX)
.append(this.captureID)
.append(TypeConstants.WILDCARD_CAPTURE_NAME_SUFFIX)
.append(this.wildcard.debugName());
return buffer.toString();
}
return super.debugName();
}
public char[] genericTypeSignature() {
if (this.genericTypeSignature == null) {
this.genericTypeSignature = CharOperation.concat(TypeConstants.WILDCARD_CAPTURE, this.wildcard.genericTypeSignature());
}
return this.genericTypeSignature;
}
/**
* Initialize capture bounds using substituted supertypes
* e.g. given X>, capture(X) = X, where capture extends X
*/
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, 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, 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;
}
}
/**
* @see org.eclipse.jdt.internal.compiler.lookup.TypeBinding#isCapture()
*/
public boolean isCapture() {
return true;
}
/**
* @see TypeBinding#isEquivalentTo(TypeBinding)
*/
public boolean isEquivalentTo(TypeBinding otherType) {
if (this == otherType) return true;
if (otherType == null) return false;
// capture of ? extends X[]
if (this.firstBound != null && this.firstBound.isArrayType()) {
if (this.firstBound.isCompatibleWith(otherType))
return true;
}
switch (otherType.kind()) {
case Binding.WILDCARD_TYPE :
case Binding.INTERSECTION_TYPE :
return ((WildcardBinding) otherType).boundCheck(this);
}
return false;
}
public char[] readableName() {
if (this.wildcard != null) {
StringBuffer buffer = new StringBuffer(10);
buffer
.append(TypeConstants.WILDCARD_CAPTURE_NAME_PREFIX)
.append(this.captureID)
.append(TypeConstants.WILDCARD_CAPTURE_NAME_SUFFIX)
.append(this.wildcard.readableName());
int length = buffer.length();
char[] name = new char[length];
buffer.getChars(0, length, name, 0);
return name;
}
return super.readableName();
}
public char[] shortReadableName() {
if (this.wildcard != null) {
StringBuffer buffer = new StringBuffer(10);
buffer
.append(TypeConstants.WILDCARD_CAPTURE_NAME_PREFIX)
.append(this.captureID)
.append(TypeConstants.WILDCARD_CAPTURE_NAME_SUFFIX)
.append(this.wildcard.shortReadableName());
int length = buffer.length();
char[] name = new char[length];
buffer.getChars(0, length, name, 0);
return name;
}
return super.shortReadableName();
}
public String toString() {
if (this.wildcard != null) {
StringBuffer buffer = new StringBuffer(10);
buffer
.append(TypeConstants.WILDCARD_CAPTURE_NAME_PREFIX)
.append(this.captureID)
.append(TypeConstants.WILDCARD_CAPTURE_NAME_SUFFIX)
.append(this.wildcard);
return buffer.toString();
}
return super.toString();
}
}