org.aspectj.ajde/source/org/aspectj/org/eclipse/jdt/internal/compiler/lookup/ParameterizedMethodBinding.java - ajdt/org.eclipse.ajdt - Git at Google

 /*******************************************************************************
  * Copyright (c) 2000, 2014 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
  *     Stephan Herrmann - Contributions for
  *								bug 186342 - [compiler][null] Using annotations for null checking
  *								bug 392099 - [1.8][compiler][null] Apply null annotation on types for null analysis
  *								bug 392384 - [1.8][compiler][null] Restore nullness info from type annotations in class files
  *								Bug 415043 - [1.8][null] Follow-up re null type annotations after bug 392099
  *								Bug 417295 - [1.8[[null] Massage type annotated null analysis to gel well with deep encoded type bindings.
  *								Bug 425152 - [1.8] [compiler] Lambda Expression not resolved but flow analyzed leading to NPE.
  *								Bug 429958 - [1.8][null] evaluate new DefaultLocation attribute of @NonNullByDefault
  *******************************************************************************/
 package org.aspectj.org.eclipse.jdt.internal.compiler.lookup;

 import org.aspectj.org.eclipse.jdt.internal.compiler.ast.AbstractMethodDeclaration;
 import org.aspectj.org.eclipse.jdt.internal.compiler.ast.NullAnnotationMatching;
 import org.aspectj.org.eclipse.jdt.internal.compiler.ast.Wildcard;

 /**
  * Binding denoting a method after type parameter substitutions got performed.
  * On parameterized type bindings, all methods got substituted, regardless whether
  * their signature did involve generics or not, so as to get the proper declaringClass for
  * these methods.
  */
 public class ParameterizedMethodBinding extends MethodBinding {

 	protected MethodBinding originalMethod;

 	/**
 	 * Create method of parameterized type, substituting original parameters/exception/return type with type arguments.
 	 */
 	public ParameterizedMethodBinding(final ParameterizedTypeBinding parameterizedDeclaringClass, MethodBinding originalMethod) {
 		super(
 				originalMethod.modifiers,
 				originalMethod.selector,
 				originalMethod.returnType,
 				originalMethod.parameters,
 				originalMethod.thrownExceptions,
 				parameterizedDeclaringClass);
 		this.originalMethod = originalMethod;
 		/* missing type bit cannot be copied as is it might come from the return type or a parameter type that
 		 * is substituted by a raw type.
 		 */
 		this.tagBits = originalMethod.tagBits & ~TagBits.HasMissingType;
 		this.parameterNonNullness = originalMethod.parameterNonNullness;
 		this.defaultNullness = originalMethod.defaultNullness;

 		final TypeVariableBinding[] originalVariables = originalMethod.typeVariables;
 		Substitution substitution = null;
 		final int length = originalVariables.length;
 		final boolean isStatic = originalMethod.isStatic();
 		if (length == 0) {
 			this.typeVariables = Binding.NO_TYPE_VARIABLES;
 			if (!isStatic) substitution = parameterizedDeclaringClass;
 		} else {
 			// at least fix up the declaringElement binding + bound substitution if non static
 			final TypeVariableBinding[] substitutedVariables = new TypeVariableBinding[length];
 			for (int i = 0; i < length; i++) { // copy original type variable to relocate
 				TypeVariableBinding originalVariable = originalVariables[i];
 				substitutedVariables[i] = new TypeVariableBinding(originalVariable.sourceName, this, originalVariable.rank, parameterizedDeclaringClass.environment);
 				substitutedVariables[i].tagBits |= (originalVariable.tagBits & (TagBits.AnnotationNullMASK|TagBits.HasNullTypeAnnotation));
 			}
 			this.typeVariables = substitutedVariables;

 			// need to substitute old var refs with new ones (double substitution: declaringClass + new type variables)
 			substitution = new Substitution() {
 				public LookupEnvironment environment() {
 					return parameterizedDeclaringClass.environment;
 				}
 				public boolean isRawSubstitution() {
 					return !isStatic && parameterizedDeclaringClass.isRawSubstitution();
 				}
 				public TypeBinding substitute(TypeVariableBinding typeVariable) {
 					// check this variable can be substituted given copied variables
 					if (typeVariable.rank < length && TypeBinding.equalsEquals(originalVariables[typeVariable.rank], typeVariable)) {
 						TypeBinding substitute = substitutedVariables[typeVariable.rank];
 						return typeVariable.hasTypeAnnotations() ? environment().createAnnotatedType(substitute, typeVariable.getTypeAnnotations()) : substitute;
 					}
 					if (!isStatic)
 						return parameterizedDeclaringClass.substitute(typeVariable);
 					return typeVariable;
 				}
 			};

 			// initialize new variable bounds
 			for (int i = 0; i < length; i++) {
 				TypeVariableBinding originalVariable = originalVariables[i];
 				TypeVariableBinding substitutedVariable = substitutedVariables[i];
 				TypeBinding substitutedSuperclass = Scope.substitute(substitution, originalVariable.superclass);
 				ReferenceBinding[] substitutedInterfaces = Scope.substitute(substitution, originalVariable.superInterfaces);
 				if (originalVariable.firstBound != null) {
 					TypeBinding firstBound;
 					firstBound = TypeBinding.equalsEquals(originalVariable.firstBound, originalVariable.superclass)
 						? substitutedSuperclass // could be array type or interface
 						: substitutedInterfaces[0];
 					substitutedVariable.setFirstBound(firstBound);
 				}
 				switch (substitutedSuperclass.kind()) {
 					case Binding.ARRAY_TYPE :
 						substitutedVariable.setSuperClass(parameterizedDeclaringClass.environment.getResolvedType(TypeConstants.JAVA_LANG_OBJECT, null));
 						substitutedVariable.setSuperInterfaces(substitutedInterfaces);
 						break;
 					default:
 						if (substitutedSuperclass.isInterface()) {
 							substitutedVariable.setSuperClass(parameterizedDeclaringClass.environment.getResolvedType(TypeConstants.JAVA_LANG_OBJECT, null));
 							int interfaceCount = substitutedInterfaces.length;
 							System.arraycopy(substitutedInterfaces, 0, substitutedInterfaces = new ReferenceBinding[interfaceCount+1], 1, interfaceCount);
 							substitutedInterfaces[0] = (ReferenceBinding) substitutedSuperclass;
 							substitutedVariable.setSuperInterfaces(substitutedInterfaces);
 						} else {
 							substitutedVariable.setSuperClass((ReferenceBinding) substitutedSuperclass); // typeVar was extending other typeVar which got substituted with interface
 							substitutedVariable.setSuperInterfaces(substitutedInterfaces);
 						}
 				}
 			}
 		}
 		if (substitution != null) {
 			this.returnType = Scope.substitute(substitution, this.returnType);
 			this.parameters = Scope.substitute(substitution, this.parameters);
 			this.thrownExceptions = Scope.substitute(substitution, this.thrownExceptions);
 			// error case where exception type variable would have been substituted by a non-reference type (207573)
 			if (this.thrownExceptions == null) this.thrownExceptions = Binding.NO_EXCEPTIONS;

 			// after substitution transfer nullness information from type annotations:
 			if (parameterizedDeclaringClass.environment.globalOptions.isAnnotationBasedNullAnalysisEnabled) {
 				long returnNullBits = NullAnnotationMatching.validNullTagBits(this.returnType.tagBits);
 				if (returnNullBits != 0L) {
 					this.tagBits &= ~TagBits.AnnotationNullMASK;
 					this.tagBits |= returnNullBits;
 				}
 				int parametersLen = this.parameters.length;
 				for (int i=0; i<parametersLen; i++) {
 					long paramTagBits = NullAnnotationMatching.validNullTagBits(this.parameters[i].tagBits);
 					if (paramTagBits != 0) {
 						if (this.parameterNonNullness == null)
 							this.parameterNonNullness = new Boolean[parametersLen];
 						this.parameterNonNullness[i] = Boolean.valueOf(paramTagBits == TagBits.AnnotationNonNull);
 					}
 				}
 			}
 		}
 		checkMissingType: {
 			if ((this.tagBits & TagBits.HasMissingType) != 0)
 				break checkMissingType;
 			if ((this.returnType.tagBits & TagBits.HasMissingType) != 0) {
 				this.tagBits |=  TagBits.HasMissingType;
 				break checkMissingType;
 			}
 			for (int i = 0, max = this.parameters.length; i < max; i++) {
 				if ((this.parameters[i].tagBits & TagBits.HasMissingType) != 0) {
 					this.tagBits |=  TagBits.HasMissingType;
 					break checkMissingType;
 				}
 			}
 			for (int i = 0, max = this.thrownExceptions.length; i < max; i++) {
 				if ((this.thrownExceptions[i].tagBits & TagBits.HasMissingType) != 0) {
 					this.tagBits |=  TagBits.HasMissingType;
 					break checkMissingType;
 				}
 			}
 		}
 	}

 	/**
 	 * Create method of parameterized type, substituting original parameters/exception/return type with type arguments.
 	 * This is a CODE ASSIST method ONLY.
 	 */
 	public ParameterizedMethodBinding(final ReferenceBinding declaringClass, MethodBinding originalMethod, char[][] alternateParamaterNames, final LookupEnvironment environment) {
 		super(
 				originalMethod.modifiers,
 				originalMethod.selector,
 				 originalMethod.returnType,
 				originalMethod.parameters,
 				originalMethod.thrownExceptions,
 				declaringClass);
 		this.originalMethod = originalMethod;
 		/* missing type bit cannot be copied as is it might come from the return type or a parameter type that
 		 * is substituted by a raw type.
 		 */
 		this.tagBits = originalMethod.tagBits & ~TagBits.HasMissingType;
 		this.parameterNonNullness = originalMethod.parameterNonNullness;

 		final TypeVariableBinding[] originalVariables = originalMethod.typeVariables;
 		Substitution substitution = null;
 		final int length = originalVariables.length;
 		if (length == 0) {
 			this.typeVariables = Binding.NO_TYPE_VARIABLES;
 		} else {
 			// at least fix up the declaringElement binding + bound substitution if non static
 			final TypeVariableBinding[] substitutedVariables = new TypeVariableBinding[length];
 			for (int i = 0; i < length; i++) { // copy original type variable to relocate
 				TypeVariableBinding originalVariable = originalVariables[i];
 				substitutedVariables[i] = new TypeVariableBinding(
 						alternateParamaterNames == null ?
 								originalVariable.sourceName :
 								alternateParamaterNames[i],
 							this,
 							originalVariable.rank,
 							environment);
 				substitutedVariables[i].tagBits |= (originalVariable.tagBits & (TagBits.AnnotationNullMASK|TagBits.HasNullTypeAnnotation));
 			}
 			this.typeVariables = substitutedVariables;

 			// need to substitute old var refs with new ones (double substitution: declaringClass + new type variables)
 			substitution = new Substitution() {
 				public LookupEnvironment environment() {
 					return environment;
 				}
 				public boolean isRawSubstitution() {
 					return false;
 				}
 				public TypeBinding substitute(TypeVariableBinding typeVariable) {
 			        // check this variable can be substituted given copied variables
 			        if (typeVariable.rank < length && TypeBinding.equalsEquals(originalVariables[typeVariable.rank], typeVariable)) {
 			        	TypeBinding substitute = substitutedVariables[typeVariable.rank];
 						return typeVariable.hasTypeAnnotations() ? environment().createAnnotatedType(substitute, typeVariable.getTypeAnnotations()) : substitute;
 			        }
 			        return typeVariable;
 				}
 			};

 			// initialize new variable bounds
 			for (int i = 0; i < length; i++) {
 				TypeVariableBinding originalVariable = originalVariables[i];
 				TypeVariableBinding substitutedVariable = substitutedVariables[i];
 				TypeBinding substitutedSuperclass = Scope.substitute(substitution, originalVariable.superclass);
 				ReferenceBinding[] substitutedInterfaces = Scope.substitute(substitution, originalVariable.superInterfaces);
 				if (originalVariable.firstBound != null) {
 					TypeBinding firstBound;
 					firstBound = TypeBinding.equalsEquals(originalVariable.firstBound, originalVariable.superclass)
 						? substitutedSuperclass // could be array type or interface
 						: substitutedInterfaces[0];
 					substitutedVariable.setFirstBound(firstBound);
 				}
 				switch (substitutedSuperclass.kind()) {
 					case Binding.ARRAY_TYPE :
 						substitutedVariable.setSuperClass(environment.getResolvedType(TypeConstants.JAVA_LANG_OBJECT, null));
 						substitutedVariable.setSuperInterfaces(substitutedInterfaces);
 						break;
 					default:
 						if (substitutedSuperclass.isInterface()) {
 							substitutedVariable.setSuperClass(environment.getResolvedType(TypeConstants.JAVA_LANG_OBJECT, null));
 							int interfaceCount = substitutedInterfaces.length;
 							System.arraycopy(substitutedInterfaces, 0, substitutedInterfaces = new ReferenceBinding[interfaceCount+1], 1, interfaceCount);
 							substitutedInterfaces[0] = (ReferenceBinding) substitutedSuperclass;
 							substitutedVariable.setSuperInterfaces(substitutedInterfaces);
 						} else {
 							substitutedVariable.setSuperClass((ReferenceBinding) substitutedSuperclass); // typeVar was extending other typeVar which got substituted with interface
 							substitutedVariable.setSuperInterfaces(substitutedInterfaces);
 						}
 				}
 			}
 		}
 		if (substitution != null) {
 			this.returnType = Scope.substitute(substitution, this.returnType);
 			this.parameters = Scope.substitute(substitution, this.parameters);
 			this.thrownExceptions = Scope.substitute(substitution, this.thrownExceptions);
 		    // error case where exception type variable would have been substituted by a non-reference type (207573)
 		    if (this.thrownExceptions == null) this.thrownExceptions = Binding.NO_EXCEPTIONS;
 		}
 		checkMissingType: {
 			if ((this.tagBits & TagBits.HasMissingType) != 0)
 				break checkMissingType;
 			if ((this.returnType.tagBits & TagBits.HasMissingType) != 0) {
 				this.tagBits |=  TagBits.HasMissingType;
 				break checkMissingType;
 			}
 			for (int i = 0, max = this.parameters.length; i < max; i++) {
 				if ((this.parameters[i].tagBits & TagBits.HasMissingType) != 0) {
 					this.tagBits |=  TagBits.HasMissingType;
 					break checkMissingType;
 				}
 			}
 			for (int i = 0, max = this.thrownExceptions.length; i < max; i++) {
 				if ((this.thrownExceptions[i].tagBits & TagBits.HasMissingType) != 0) {
 					this.tagBits |=  TagBits.HasMissingType;
 					break checkMissingType;
 				}
 			}
 		}
 	}

 	public ParameterizedMethodBinding() {
 		// no init
 	}

 	/**
 	 * The type of x.getClass() is substituted from 'Class<? extends Object>' into: 'Class<? extends raw(X)>
 	 */
 	public static ParameterizedMethodBinding instantiateGetClass(TypeBinding receiverType, MethodBinding originalMethod, Scope scope) {
 		ParameterizedMethodBinding method = new ParameterizedMethodBinding();
 		method.modifiers = originalMethod.modifiers;
 		method.selector = originalMethod.selector;
 		method.declaringClass = originalMethod.declaringClass;
 		method.typeVariables = Binding.NO_TYPE_VARIABLES;
 		method.originalMethod = originalMethod;
 		method.parameters = originalMethod.parameters;
 		method.thrownExceptions = originalMethod.thrownExceptions;
 		method.tagBits = originalMethod.tagBits;
 		ReferenceBinding genericClassType = scope.getJavaLangClass();
 		LookupEnvironment environment = scope.environment();
 		TypeBinding rawType = environment.convertToRawType(receiverType.erasure(), false /*do not force conversion of enclosing types*/);
 		method.returnType = environment.createParameterizedType(
 			genericClassType,
 			new TypeBinding[] {  environment.createWildcard(genericClassType, 0, rawType, null /*no extra bound*/, Wildcard.EXTENDS) },
 			null);
 		if ((method.returnType.tagBits & TagBits.HasMissingType) != 0) {
 			method.tagBits |=  TagBits.HasMissingType;
 		}
 		return method;
 	}

 	/**
 	 * Returns true if some parameters got substituted.
 	 */
 	public boolean hasSubstitutedParameters() {
 		return this.parameters != this.originalMethod.parameters;
 	}

 	/**
 	 * Returns true if the return type got substituted.
 	 */
 	public boolean hasSubstitutedReturnType() {
 		return this.returnType != this.originalMethod.returnType; //$IDENTITY-COMPARISON$
 	}

 	/**
 	 * Returns the original method (as opposed to parameterized instances)
 	 */
 	public MethodBinding original() {
 		return this.originalMethod.original();
 	}


 	public MethodBinding shallowOriginal() {
 		return this.originalMethod;
 	}

 	// AspectJ Extension - delegate to the original method

 	public boolean alwaysNeedsAccessMethod() {
 		return originalMethod.alwaysNeedsAccessMethod();
 	}

 	public boolean canBeSeenBy(TypeBinding receiverType, InvocationSite invocationSite, Scope scope) {
 		if (alwaysNeedsAccessMethod()) return originalMethod.canBeSeenBy(receiverType,invocationSite,scope);
 		else                           return super.canBeSeenBy(receiverType,invocationSite,scope);
 	}

 	public MethodBinding getAccessMethod(boolean staticReference) {
 		return originalMethod.getAccessMethod(staticReference);
 	}

 	public AbstractMethodDeclaration sourceMethod() {
 		return originalMethod.sourceMethod();
 	}

 	// End AspectJ Extension
 }
	/*******************************************************************************
	* Copyright (c) 2000, 2014 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
	* Stephan Herrmann - Contributions for
	* bug 186342 - [compiler][null] Using annotations for null checking
	* bug 392099 - [1.8][compiler][null] Apply null annotation on types for null analysis
	* bug 392384 - [1.8][compiler][null] Restore nullness info from type annotations in class files
	* Bug 415043 - [1.8][null] Follow-up re null type annotations after bug 392099
	* Bug 417295 - [1.8[[null] Massage type annotated null analysis to gel well with deep encoded type bindings.
	* Bug 425152 - [1.8] [compiler] Lambda Expression not resolved but flow analyzed leading to NPE.
	* Bug 429958 - [1.8][null] evaluate new DefaultLocation attribute of @NonNullByDefault
	*******************************************************************************/
	package org.aspectj.org.eclipse.jdt.internal.compiler.lookup;

	import org.aspectj.org.eclipse.jdt.internal.compiler.ast.AbstractMethodDeclaration;
	import org.aspectj.org.eclipse.jdt.internal.compiler.ast.NullAnnotationMatching;
	import org.aspectj.org.eclipse.jdt.internal.compiler.ast.Wildcard;

	/**
	* Binding denoting a method after type parameter substitutions got performed.
	* On parameterized type bindings, all methods got substituted, regardless whether
	* their signature did involve generics or not, so as to get the proper declaringClass for
	* these methods.
	*/
	public class ParameterizedMethodBinding extends MethodBinding {

	protected MethodBinding originalMethod;

	/**
	* Create method of parameterized type, substituting original parameters/exception/return type with type arguments.
	*/
	public ParameterizedMethodBinding(final ParameterizedTypeBinding parameterizedDeclaringClass, MethodBinding originalMethod) {
	super(
	originalMethod.modifiers,
	originalMethod.selector,
	originalMethod.returnType,
	originalMethod.parameters,
	originalMethod.thrownExceptions,
	parameterizedDeclaringClass);
	this.originalMethod = originalMethod;
	/* missing type bit cannot be copied as is it might come from the return type or a parameter type that
	* is substituted by a raw type.
	*/
	this.tagBits = originalMethod.tagBits & ~TagBits.HasMissingType;
	this.parameterNonNullness = originalMethod.parameterNonNullness;
	this.defaultNullness = originalMethod.defaultNullness;

	final TypeVariableBinding[] originalVariables = originalMethod.typeVariables;
	Substitution substitution = null;
	final int length = originalVariables.length;
	final boolean isStatic = originalMethod.isStatic();
	if (length == 0) {
	this.typeVariables = Binding.NO_TYPE_VARIABLES;
	if (!isStatic) substitution = parameterizedDeclaringClass;
	} else {
	// at least fix up the declaringElement binding + bound substitution if non static
	final TypeVariableBinding[] substitutedVariables = new TypeVariableBinding[length];
	for (int i = 0; i < length; i++) { // copy original type variable to relocate
	TypeVariableBinding originalVariable = originalVariables[i];
	substitutedVariables[i] = new TypeVariableBinding(originalVariable.sourceName, this, originalVariable.rank, parameterizedDeclaringClass.environment);
	substitutedVariables[i].tagBits \|= (originalVariable.tagBits & (TagBits.AnnotationNullMASK\|TagBits.HasNullTypeAnnotation));
	}
	this.typeVariables = substitutedVariables;

	// need to substitute old var refs with new ones (double substitution: declaringClass + new type variables)
	substitution = new Substitution() {
	public LookupEnvironment environment() {
	return parameterizedDeclaringClass.environment;
	}
	public boolean isRawSubstitution() {
	return !isStatic && parameterizedDeclaringClass.isRawSubstitution();
	}
	public TypeBinding substitute(TypeVariableBinding typeVariable) {
	// check this variable can be substituted given copied variables
	if (typeVariable.rank < length && TypeBinding.equalsEquals(originalVariables[typeVariable.rank], typeVariable)) {
	TypeBinding substitute = substitutedVariables[typeVariable.rank];
	return typeVariable.hasTypeAnnotations() ? environment().createAnnotatedType(substitute, typeVariable.getTypeAnnotations()) : substitute;
	}
	if (!isStatic)
	return parameterizedDeclaringClass.substitute(typeVariable);
	return typeVariable;
	}
	};

	// initialize new variable bounds
	for (int i = 0; i < length; i++) {
	TypeVariableBinding originalVariable = originalVariables[i];
	TypeVariableBinding substitutedVariable = substitutedVariables[i];
	TypeBinding substitutedSuperclass = Scope.substitute(substitution, originalVariable.superclass);
	ReferenceBinding[] substitutedInterfaces = Scope.substitute(substitution, originalVariable.superInterfaces);
	if (originalVariable.firstBound != null) {
	TypeBinding firstBound;
	firstBound = TypeBinding.equalsEquals(originalVariable.firstBound, originalVariable.superclass)
	? substitutedSuperclass // could be array type or interface
	: substitutedInterfaces[0];
	substitutedVariable.setFirstBound(firstBound);
	}
	switch (substitutedSuperclass.kind()) {
	case Binding.ARRAY_TYPE :
	substitutedVariable.setSuperClass(parameterizedDeclaringClass.environment.getResolvedType(TypeConstants.JAVA_LANG_OBJECT, null));
	substitutedVariable.setSuperInterfaces(substitutedInterfaces);
	break;
	default:
	if (substitutedSuperclass.isInterface()) {
	substitutedVariable.setSuperClass(parameterizedDeclaringClass.environment.getResolvedType(TypeConstants.JAVA_LANG_OBJECT, null));
	int interfaceCount = substitutedInterfaces.length;
	System.arraycopy(substitutedInterfaces, 0, substitutedInterfaces = new ReferenceBinding[interfaceCount+1], 1, interfaceCount);
	substitutedInterfaces[0] = (ReferenceBinding) substitutedSuperclass;
	substitutedVariable.setSuperInterfaces(substitutedInterfaces);
	} else {
	substitutedVariable.setSuperClass((ReferenceBinding) substitutedSuperclass); // typeVar was extending other typeVar which got substituted with interface
	substitutedVariable.setSuperInterfaces(substitutedInterfaces);
	}
	}
	}
	}
	if (substitution != null) {
	this.returnType = Scope.substitute(substitution, this.returnType);
	this.parameters = Scope.substitute(substitution, this.parameters);
	this.thrownExceptions = Scope.substitute(substitution, this.thrownExceptions);
	// error case where exception type variable would have been substituted by a non-reference type (207573)
	if (this.thrownExceptions == null) this.thrownExceptions = Binding.NO_EXCEPTIONS;

	// after substitution transfer nullness information from type annotations:
	if (parameterizedDeclaringClass.environment.globalOptions.isAnnotationBasedNullAnalysisEnabled) {
	long returnNullBits = NullAnnotationMatching.validNullTagBits(this.returnType.tagBits);
	if (returnNullBits != 0L) {
	this.tagBits &= ~TagBits.AnnotationNullMASK;
	this.tagBits \|= returnNullBits;
	}
	int parametersLen = this.parameters.length;
	for (int i=0; i<parametersLen; i++) {
	long paramTagBits = NullAnnotationMatching.validNullTagBits(this.parameters[i].tagBits);
	if (paramTagBits != 0) {
	if (this.parameterNonNullness == null)
	this.parameterNonNullness = new Boolean[parametersLen];
	this.parameterNonNullness[i] = Boolean.valueOf(paramTagBits == TagBits.AnnotationNonNull);
	}
	}
	}
	}
	checkMissingType: {
	if ((this.tagBits & TagBits.HasMissingType) != 0)
	break checkMissingType;
	if ((this.returnType.tagBits & TagBits.HasMissingType) != 0) {
	this.tagBits \|= TagBits.HasMissingType;
	break checkMissingType;
	}
	for (int i = 0, max = this.parameters.length; i < max; i++) {
	if ((this.parameters[i].tagBits & TagBits.HasMissingType) != 0) {
	this.tagBits \|= TagBits.HasMissingType;
	break checkMissingType;
	}
	}
	for (int i = 0, max = this.thrownExceptions.length; i < max; i++) {
	if ((this.thrownExceptions[i].tagBits & TagBits.HasMissingType) != 0) {
	this.tagBits \|= TagBits.HasMissingType;
	break checkMissingType;
	}
	}
	}
	}

	/**
	* Create method of parameterized type, substituting original parameters/exception/return type with type arguments.
	* This is a CODE ASSIST method ONLY.
	*/
	public ParameterizedMethodBinding(final ReferenceBinding declaringClass, MethodBinding originalMethod, char[][] alternateParamaterNames, final LookupEnvironment environment) {
	super(
	originalMethod.modifiers,
	originalMethod.selector,
	originalMethod.returnType,
	originalMethod.parameters,
	originalMethod.thrownExceptions,
	declaringClass);
	this.originalMethod = originalMethod;
	/* missing type bit cannot be copied as is it might come from the return type or a parameter type that
	* is substituted by a raw type.
	*/
	this.tagBits = originalMethod.tagBits & ~TagBits.HasMissingType;
	this.parameterNonNullness = originalMethod.parameterNonNullness;

	final TypeVariableBinding[] originalVariables = originalMethod.typeVariables;
	Substitution substitution = null;
	final int length = originalVariables.length;
	if (length == 0) {
	this.typeVariables = Binding.NO_TYPE_VARIABLES;
	} else {
	// at least fix up the declaringElement binding + bound substitution if non static
	final TypeVariableBinding[] substitutedVariables = new TypeVariableBinding[length];
	for (int i = 0; i < length; i++) { // copy original type variable to relocate
	TypeVariableBinding originalVariable = originalVariables[i];
	substitutedVariables[i] = new TypeVariableBinding(
	alternateParamaterNames == null ?
	originalVariable.sourceName :
	alternateParamaterNames[i],
	this,
	originalVariable.rank,
	environment);
	substitutedVariables[i].tagBits \|= (originalVariable.tagBits & (TagBits.AnnotationNullMASK\|TagBits.HasNullTypeAnnotation));
	}
	this.typeVariables = substitutedVariables;

	// need to substitute old var refs with new ones (double substitution: declaringClass + new type variables)
	substitution = new Substitution() {
	public LookupEnvironment environment() {
	return environment;
	}
	public boolean isRawSubstitution() {
	return false;
	}
	public TypeBinding substitute(TypeVariableBinding typeVariable) {
	// check this variable can be substituted given copied variables
	if (typeVariable.rank < length && TypeBinding.equalsEquals(originalVariables[typeVariable.rank], typeVariable)) {
	TypeBinding substitute = substitutedVariables[typeVariable.rank];
	return typeVariable.hasTypeAnnotations() ? environment().createAnnotatedType(substitute, typeVariable.getTypeAnnotations()) : substitute;
	}
	return typeVariable;
	}
	};

	// initialize new variable bounds
	for (int i = 0; i < length; i++) {
	TypeVariableBinding originalVariable = originalVariables[i];
	TypeVariableBinding substitutedVariable = substitutedVariables[i];
	TypeBinding substitutedSuperclass = Scope.substitute(substitution, originalVariable.superclass);
	ReferenceBinding[] substitutedInterfaces = Scope.substitute(substitution, originalVariable.superInterfaces);
	if (originalVariable.firstBound != null) {
	TypeBinding firstBound;
	firstBound = TypeBinding.equalsEquals(originalVariable.firstBound, originalVariable.superclass)
	? substitutedSuperclass // could be array type or interface
	: substitutedInterfaces[0];
	substitutedVariable.setFirstBound(firstBound);
	}
	switch (substitutedSuperclass.kind()) {
	case Binding.ARRAY_TYPE :
	substitutedVariable.setSuperClass(environment.getResolvedType(TypeConstants.JAVA_LANG_OBJECT, null));
	substitutedVariable.setSuperInterfaces(substitutedInterfaces);
	break;
	default:
	if (substitutedSuperclass.isInterface()) {
	substitutedVariable.setSuperClass(environment.getResolvedType(TypeConstants.JAVA_LANG_OBJECT, null));
	int interfaceCount = substitutedInterfaces.length;
	System.arraycopy(substitutedInterfaces, 0, substitutedInterfaces = new ReferenceBinding[interfaceCount+1], 1, interfaceCount);
	substitutedInterfaces[0] = (ReferenceBinding) substitutedSuperclass;
	substitutedVariable.setSuperInterfaces(substitutedInterfaces);
	} else {
	substitutedVariable.setSuperClass((ReferenceBinding) substitutedSuperclass); // typeVar was extending other typeVar which got substituted with interface
	substitutedVariable.setSuperInterfaces(substitutedInterfaces);
	}
	}
	}
	}
	if (substitution != null) {
	this.returnType = Scope.substitute(substitution, this.returnType);
	this.parameters = Scope.substitute(substitution, this.parameters);
	this.thrownExceptions = Scope.substitute(substitution, this.thrownExceptions);
	// error case where exception type variable would have been substituted by a non-reference type (207573)
	if (this.thrownExceptions == null) this.thrownExceptions = Binding.NO_EXCEPTIONS;
	}
	checkMissingType: {
	if ((this.tagBits & TagBits.HasMissingType) != 0)
	break checkMissingType;
	if ((this.returnType.tagBits & TagBits.HasMissingType) != 0) {
	this.tagBits \|= TagBits.HasMissingType;
	break checkMissingType;
	}
	for (int i = 0, max = this.parameters.length; i < max; i++) {
	if ((this.parameters[i].tagBits & TagBits.HasMissingType) != 0) {
	this.tagBits \|= TagBits.HasMissingType;
	break checkMissingType;
	}
	}
	for (int i = 0, max = this.thrownExceptions.length; i < max; i++) {
	if ((this.thrownExceptions[i].tagBits & TagBits.HasMissingType) != 0) {
	this.tagBits \|= TagBits.HasMissingType;
	break checkMissingType;
	}
	}
	}
	}

	public ParameterizedMethodBinding() {
	// no init
	}

	/**
	* The type of x.getClass() is substituted from 'Class<? extends Object>' into: 'Class<? extends raw(X)>
	*/
	public static ParameterizedMethodBinding instantiateGetClass(TypeBinding receiverType, MethodBinding originalMethod, Scope scope) {
	ParameterizedMethodBinding method = new ParameterizedMethodBinding();
	method.modifiers = originalMethod.modifiers;
	method.selector = originalMethod.selector;
	method.declaringClass = originalMethod.declaringClass;
	method.typeVariables = Binding.NO_TYPE_VARIABLES;
	method.originalMethod = originalMethod;
	method.parameters = originalMethod.parameters;
	method.thrownExceptions = originalMethod.thrownExceptions;
	method.tagBits = originalMethod.tagBits;
	ReferenceBinding genericClassType = scope.getJavaLangClass();
	LookupEnvironment environment = scope.environment();
	TypeBinding rawType = environment.convertToRawType(receiverType.erasure(), false /do not force conversion of enclosing types/);
	method.returnType = environment.createParameterizedType(
	genericClassType,
	new TypeBinding[] { environment.createWildcard(genericClassType, 0, rawType, null /no extra bound/, Wildcard.EXTENDS) },
	null);
	if ((method.returnType.tagBits & TagBits.HasMissingType) != 0) {
	method.tagBits \|= TagBits.HasMissingType;
	}
	return method;
	}

	/**
	* Returns true if some parameters got substituted.
	*/
	public boolean hasSubstitutedParameters() {
	return this.parameters != this.originalMethod.parameters;
	}

	/**
	* Returns true if the return type got substituted.
	*/
	public boolean hasSubstitutedReturnType() {
	return this.returnType != this.originalMethod.returnType; //$IDENTITY-COMPARISON$
	}

	/**
	* Returns the original method (as opposed to parameterized instances)
	*/
	public MethodBinding original() {
	return this.originalMethod.original();
	}


	public MethodBinding shallowOriginal() {
	return this.originalMethod;
	}

	// AspectJ Extension - delegate to the original method

	public boolean alwaysNeedsAccessMethod() {
	return originalMethod.alwaysNeedsAccessMethod();
	}

	public boolean canBeSeenBy(TypeBinding receiverType, InvocationSite invocationSite, Scope scope) {
	if (alwaysNeedsAccessMethod()) return originalMethod.canBeSeenBy(receiverType,invocationSite,scope);
	else return super.canBeSeenBy(receiverType,invocationSite,scope);
	}

	public MethodBinding getAccessMethod(boolean staticReference) {
	return originalMethod.getAccessMethod(staticReference);
	}

	public AbstractMethodDeclaration sourceMethod() {
	return originalMethod.sourceMethod();
	}

	// End AspectJ Extension
	}