/*******************************************************************************
* Copyright (c) 2000, 2004 IBM Corporation and others.
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Common Public License v1.0
* which accompanies this distribution, and is available at
* http://www.eclipse.org/legal/cpl-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.AbstractMethodDeclaration;
import org.eclipse.jdt.internal.compiler.ast.ConstructorDeclaration;
public class MethodBinding extends Binding implements BaseTypes, TypeConstants {
public int modifiers;
public char[] selector;
public TypeBinding returnType;
public TypeBinding[] parameters;
public ReferenceBinding[] thrownExceptions;
public ReferenceBinding declaringClass;
public TypeVariableBinding[] typeVariables = NoTypeVariables;
char[] signature;
protected MethodBinding() {
// for creating problem or synthetic method
}
public MethodBinding(int modifiers, char[] selector, TypeBinding returnType, TypeBinding[] parameters, ReferenceBinding[] thrownExceptions, ReferenceBinding declaringClass) {
this.modifiers = modifiers;
this.selector = selector;
this.returnType = returnType;
this.parameters = (parameters == null || parameters.length == 0) ? NoParameters : parameters;
this.thrownExceptions = (thrownExceptions == null || thrownExceptions.length == 0) ? NoExceptions : thrownExceptions;
this.declaringClass = declaringClass;
// propagate the strictfp & deprecated modifiers
if (this.declaringClass != null) {
if (this.declaringClass.isStrictfp())
if (!(isNative() || isAbstract()))
this.modifiers |= AccStrictfp;
if (this.declaringClass.isViewedAsDeprecated() && !isDeprecated())
this.modifiers |= AccDeprecatedImplicitly;
}
}
public MethodBinding(int modifiers, TypeBinding[] parameters, ReferenceBinding[] thrownExceptions, ReferenceBinding declaringClass) {
this(modifiers, ConstructorDeclaration.ConstantPoolName, VoidBinding, parameters, thrownExceptions, declaringClass);
}
// special API used to change method declaring class for runtime visibility check
public MethodBinding(MethodBinding initialMethodBinding, ReferenceBinding declaringClass) {
this.modifiers = initialMethodBinding.modifiers;
this.selector = initialMethodBinding.selector;
this.returnType = initialMethodBinding.returnType;
this.parameters = initialMethodBinding.parameters;
this.thrownExceptions = initialMethodBinding.thrownExceptions;
this.declaringClass = declaringClass;
}
/* Answer true if the argument types & the receiver's parameters are equal
*/
public final boolean areParametersEqual(MethodBinding method) {
TypeBinding[] args = method.parameters;
if (parameters == args)
return true;
int length = parameters.length;
if (length != args.length)
return false;
for (int i = 0; i < length; i++)
if (parameters[i] != args[i])
return false;
return true;
}
/* Answer true if the argument types & the receiver's parameters have the same erasure
*/
public final boolean areParameterErasuresEqual(MethodBinding method) {
TypeBinding[] args = method.parameters;
if (parameters == args)
return true;
int length = parameters.length;
if (length != args.length)
return false;
for (int i = 0; i < length; i++) {
if (parameters[i].erasure() != args[i].erasure()) return false;
}
return true;
}
/* API
* Answer the receiver's binding type from Binding.BindingID.
*/
public final int bindingType() {
return METHOD;
}
/* Answer true if the receiver is visible to the type provided by the scope.
* InvocationSite implements isSuperAccess() to provide additional information
* if the receiver is protected.
*
* NOTE: This method should ONLY be sent if the receiver is a constructor.
*
* NOTE: Cannot invoke this method with a compilation unit scope.
*/
public final boolean canBeSeenBy(InvocationSite invocationSite, Scope scope) {
if (isPublic()) return true;
SourceTypeBinding invocationType = scope.enclosingSourceType();
if (invocationType == declaringClass) return true;
if (isProtected()) {
// answer true if the receiver is in the same package as the invocationType
if (invocationType.fPackage == declaringClass.fPackage) return true;
return invocationSite.isSuperAccess();
}
if (isPrivate()) {
// answer true if the invocationType and the declaringClass have a common enclosingType
// already know they are not the identical type
ReferenceBinding outerInvocationType = invocationType;
ReferenceBinding temp = outerInvocationType.enclosingType();
while (temp != null) {
outerInvocationType = temp;
temp = temp.enclosingType();
}
ReferenceBinding outerDeclaringClass = (ReferenceBinding)declaringClass.erasure();
temp = outerDeclaringClass.enclosingType();
while (temp != null) {
outerDeclaringClass = temp;
temp = temp.enclosingType();
}
return outerInvocationType == outerDeclaringClass;
}
// isDefault()
return invocationType.fPackage == declaringClass.fPackage;
}
/* Answer true if the receiver is visible to the type provided by the scope.
* InvocationSite implements isSuperAccess() to provide additional information
* if the receiver is protected.
*
* NOTE: Cannot invoke this method with a compilation unit scope.
*/
public final boolean canBeSeenBy(TypeBinding receiverType, InvocationSite invocationSite, Scope scope) {
if (isPublic()) return true;
SourceTypeBinding invocationType = scope.enclosingSourceType();
if (invocationType == declaringClass && invocationType == receiverType) return true;
if (isProtected()) {
// answer true if the invocationType is the declaringClass or they are in the same package
// OR the invocationType is a subclass of the declaringClass
// AND the receiverType is the invocationType or its subclass
// OR the method is a static method accessed directly through a type
// OR previous assertions are true for one of the enclosing type
if (invocationType == declaringClass) return true;
if (invocationType.fPackage == declaringClass.fPackage) return true;
ReferenceBinding currentType = invocationType;
int depth = 0;
do {
if (declaringClass.isSuperclassOf(currentType)) {
if (invocationSite.isSuperAccess()){
return true;
}
// receiverType can be an array binding in one case... see if you can change it
if (receiverType instanceof ArrayBinding){
return false;
}
if (isStatic()){
if (depth > 0) invocationSite.setDepth(depth);
return true; // see 1FMEPDL - return invocationSite.isTypeAccess();
}
if (currentType == receiverType || currentType.isSuperclassOf((ReferenceBinding) receiverType)){
if (depth > 0) invocationSite.setDepth(depth);
return true;
}
}
depth++;
currentType = currentType.enclosingType();
} while (currentType != null);
return false;
}
if (isPrivate()) {
// answer true if the receiverType is the declaringClass
// AND the invocationType and the declaringClass have a common enclosingType
receiverCheck: {
if (receiverType != declaringClass) {
// special tolerance for type variable direct bounds
if (receiverType.isTypeVariable() && ((TypeVariableBinding) receiverType).isErasureBoundTo(declaringClass.erasure())) {
break receiverCheck;
}
return false;
}
}
if (invocationType != declaringClass) {
ReferenceBinding outerInvocationType = invocationType;
ReferenceBinding temp = outerInvocationType.enclosingType();
while (temp != null) {
outerInvocationType = temp;
temp = temp.enclosingType();
}
ReferenceBinding outerDeclaringClass = (ReferenceBinding)declaringClass.erasure();
temp = outerDeclaringClass.enclosingType();
while (temp != null) {
outerDeclaringClass = temp;
temp = temp.enclosingType();
}
if (outerInvocationType != outerDeclaringClass) return false;
}
return true;
}
// isDefault()
if (invocationType.fPackage != declaringClass.fPackage) return false;
// receiverType can be an array binding in one case... see if you can change it
if (receiverType instanceof ArrayBinding)
return false;
ReferenceBinding type = (ReferenceBinding) receiverType;
PackageBinding declaringPackage = declaringClass.fPackage;
do {
if (declaringClass == type) return true;
if (declaringPackage != type.fPackage) return false;
} while ((type = type.superclass()) != null);
return false;
}
/*
* Answer the declaring class to use in the constant pool
* may not be a reference binding (see subtypes)
*/
public TypeBinding constantPoolDeclaringClass() {
return this.declaringClass;
}
/* Answer the receiver's constant pool name.
*
* <init> for constructors
* <clinit> for clinit methods
* or the source name of the method
*/
public final char[] constantPoolName() {
return selector;
}
/**
*<typeParam1 ... typeParamM>(param1 ... paramN)returnType thrownException1 ... thrownExceptionP
* T foo(T t) throws X<T> ---> (TT;)TT;LX<TT;>;
* void bar(X<T> t) --> (LX<TT;>;)V
* <T> void bar(X<T> t) --> <T:Ljava.lang.Object;>(LX<TT;>;)V
*/
public char[] genericSignature() {
if ((this.modifiers & AccGenericSignature) == 0) return null;
StringBuffer sig = new StringBuffer(10);
if (this.typeVariables != NoTypeVariables) {
sig.append('<');
for (int i = 0, length = this.typeVariables.length; i < length; i++) {
sig.append(this.typeVariables[i].genericSignature());
}
sig.append('>');
}
sig.append('(');
for (int i = 0, length = this.parameters.length; i < length; i++) {
sig.append(this.parameters[i].genericTypeSignature());
}
sig.append(')').append(this.returnType.genericTypeSignature());
// only append thrown exception if any is generic/parameterized
for (int i = 0, length = this.thrownExceptions.length; i < length; i++) {
if((this.thrownExceptions[i].modifiers & AccGenericSignature) != 0) {
for (int j = 0; j < length; j++) {
sig.append(this.thrownExceptions[j].genericTypeSignature());
}
break;
}
}
int sigLength = sig.length();
char[] genericSignature = new char[sigLength];
sig.getChars(0, sigLength, genericSignature, 0);
return genericSignature;
}
public final int getAccessFlags() {
return modifiers & AccJustFlag;
}
public TypeVariableBinding getTypeVariable(char[] variableName) {
for (int i = this.typeVariables.length; --i >= 0;)
if (CharOperation.equals(this.typeVariables[i].sourceName, variableName))
return this.typeVariables[i];
return null;
}
/**
* Returns true if method got substituted parameter types
* (see ParameterizedMethodBinding)
*/
public boolean hasSubstitutedParameters() {
return false;
}
/* Answer true if the return type got substituted.
*/
public boolean hasSubstitutedReturnType() {
return false;
}
/* Answer true if the receiver is an abstract method
*/
public final boolean isAbstract() {
return (modifiers & AccAbstract) != 0;
}
/* Answer true if the receiver is a bridge method
*/
public final boolean isBridge() {
return (modifiers & AccBridge) != 0;
}
/* Answer true if the receiver is a constructor
*/
public final boolean isConstructor() {
return selector == ConstructorDeclaration.ConstantPoolName;
}
protected boolean isConstructorRelated() {
return isConstructor();
}
/* Answer true if the receiver has default visibility
*/
public final boolean isDefault() {
return !isPublic() && !isProtected() && !isPrivate();
}
/* Answer true if the receiver is a system generated default abstract method
*/
public final boolean isDefaultAbstract() {
return (modifiers & AccDefaultAbstract) != 0;
}
/* Answer true if the receiver is a deprecated method
*/
public final boolean isDeprecated() {
return (modifiers & AccDeprecated) != 0;
}
/* Answer true if the receiver is final and cannot be overridden
*/
public final boolean isFinal() {
return (modifiers & AccFinal) != 0;
}
/* Answer true if the receiver is implementing another method
* in other words, it is overriding and concrete, and overriden method is abstract
* Only set for source methods
*/
public final boolean isImplementing() {
return (modifiers & AccImplementing) != 0;
}
/* Answer true if the receiver is a native method
*/
public final boolean isNative() {
return (modifiers & AccNative) != 0;
}
/* Answer true if the receiver is overriding another method
* Only set for source methods
*/
public final boolean isOverriding() {
return (modifiers & AccOverriding) != 0;
}
/*
* Answer true if the receiver is a "public static void main(String[])" method
*/
public final boolean isMain() {
if (this.selector.length == 4 && CharOperation.equals(this.selector, MAIN)
&& ((this.modifiers & (AccPublic | AccStatic)) != 0)
&& VoidBinding == this.returnType
&& this.parameters.length == 1) {
TypeBinding paramType = this.parameters[0];
if (paramType.dimensions() == 1 && paramType.leafComponentType().id == TypeIds.T_JavaLangString) {
return true;
}
}
return false;
}
/* Answer true if the receiver has private visibility
*/
public final boolean isPrivate() {
return (modifiers & AccPrivate) != 0;
}
/* Answer true if the receiver has private visibility and is used locally
*/
public final boolean isPrivateUsed() {
return (modifiers & AccPrivateUsed) != 0;
}
/* Answer true if the receiver has protected visibility
*/
public final boolean isProtected() {
return (modifiers & AccProtected) != 0;
}
/* Answer true if the receiver has public visibility
*/
public final boolean isPublic() {
return (modifiers & AccPublic) != 0;
}
/* Answer true if the receiver got requested to clear the private modifier
* during private access emulation.
*/
public final boolean isRequiredToClearPrivateModifier() {
return (modifiers & AccClearPrivateModifier) != 0;
}
/* Answer true if the receiver is a static method
*/
public final boolean isStatic() {
return (modifiers & AccStatic) != 0;
}
/* Answer true if all float operations must adher to IEEE 754 float/double rules
*/
public final boolean isStrictfp() {
return (modifiers & AccStrictfp) != 0;
}
/* Answer true if the receiver is a synchronized method
*/
public final boolean isSynchronized() {
return (modifiers & AccSynchronized) != 0;
}
/* Answer true if the receiver has public visibility
*/
public final boolean isSynthetic() {
return (modifiers & AccSynthetic) != 0;
}
/* Answer true if the receiver is a vararg method
*/
public final boolean isVararg() {
return (modifiers & AccVarargs) != 0;
}
/* Answer true if the receiver's declaring type is deprecated (or any of its enclosing types)
*/
public final boolean isViewedAsDeprecated() {
return (modifiers & AccDeprecated) != 0 ||
(modifiers & AccDeprecatedImplicitly) != 0;
}
/**
* Returns the original method (as opposed to parameterized instances)
*/
public MethodBinding original() {
return this;
}
public char[] readableName() /* foo(int, Thread) */ {
StringBuffer buffer = new StringBuffer(parameters.length + 1 * 20);
if (isConstructor())
buffer.append(declaringClass.sourceName());
else
buffer.append(selector);
buffer.append('(');
if (parameters != NoParameters) {
for (int i = 0, length = parameters.length; i < length; i++) {
if (i > 0)
buffer.append(", "); //$NON-NLS-1$
buffer.append(parameters[i].sourceName());
}
}
buffer.append(')');
return buffer.toString().toCharArray();
}
/**
* @see org.eclipse.jdt.internal.compiler.lookup.Binding#shortReadableName()
*/
public char[] shortReadableName() {
StringBuffer buffer = new StringBuffer(parameters.length + 1 * 20);
if (isConstructor())
buffer.append(declaringClass.shortReadableName());
else
buffer.append(selector);
buffer.append('(');
if (parameters != NoParameters) {
for (int i = 0, length = parameters.length; i < length; i++) {
if (i > 0)
buffer.append(", "); //$NON-NLS-1$
buffer.append(parameters[i].shortReadableName());
}
}
buffer.append(')');
int nameLength = buffer.length();
char[] shortReadableName = new char[nameLength];
buffer.getChars(0, nameLength, shortReadableName, 0);
return shortReadableName;
}
protected final void setSelector(char[] selector) {
this.selector = selector;
this.signature = null;
}
/* Answer the receiver's signature.
*
* NOTE: This method should only be used during/after code gen.
* The signature is cached so if the signature of the return type or any parameter
* type changes, the cached state is invalid.
*/
public final char[] signature() /* (ILjava/lang/Thread;)Ljava/lang/Object; */ {
if (signature != null)
return signature;
StringBuffer buffer = new StringBuffer(parameters.length + 1 * 20);
buffer.append('(');
TypeBinding[] targetParameters = this.parameters;
boolean considerSynthetics = isConstructorRelated() && declaringClass.isNestedType();
if (considerSynthetics) {
// take into account the synthetic argument type signatures as well
ReferenceBinding[] syntheticArgumentTypes = declaringClass.syntheticEnclosingInstanceTypes();
int count = syntheticArgumentTypes == null ? 0 : syntheticArgumentTypes.length;
for (int i = 0; i < count; i++) {
buffer.append(syntheticArgumentTypes[i].signature());
}
if (this instanceof SyntheticAccessMethodBinding) {
targetParameters = ((SyntheticAccessMethodBinding)this).targetMethod.parameters;
}
}
if (targetParameters != NoParameters) {
for (int i = 0; i < targetParameters.length; i++) {
buffer.append(targetParameters[i].signature());
}
}
if (considerSynthetics) {
SyntheticArgumentBinding[] syntheticOuterArguments = declaringClass.syntheticOuterLocalVariables();
int count = syntheticOuterArguments == null ? 0 : syntheticOuterArguments.length;
for (int i = 0; i < count; i++) {
buffer.append(syntheticOuterArguments[i].type.signature());
}
// move the extra padding arguments of the synthetic constructor invocation to the end
for (int i = targetParameters.length, extraLength = parameters.length; i < extraLength; i++) {
buffer.append(parameters[i].signature());
}
}
buffer.append(')');
buffer.append(returnType.signature());
int nameLength = buffer.length();
signature = new char[nameLength];
buffer.getChars(0, nameLength, signature, 0);
return signature;
}
public final int sourceEnd() {
AbstractMethodDeclaration method = sourceMethod();
if (method == null)
return 0;
return method.sourceEnd;
}
AbstractMethodDeclaration sourceMethod() {
SourceTypeBinding sourceType;
try {
sourceType = (SourceTypeBinding) declaringClass;
} catch (ClassCastException e) {
return null;
}
AbstractMethodDeclaration[] methods = sourceType.scope.referenceContext.methods;
for (int i = methods.length; --i >= 0;)
if (this == methods[i].binding)
return methods[i];
return null;
}
public final int sourceStart() {
AbstractMethodDeclaration method = sourceMethod();
if (method == null)
return 0;
return method.sourceStart;
}
/* During private access emulation, the binding can be requested to loose its
* private visibility when the class file is dumped.
*/
public final void tagForClearingPrivateModifier() {
modifiers |= AccClearPrivateModifier;
}
public String toString() {
String s = (returnType != null) ? returnType.debugName() : "NULL TYPE"; //$NON-NLS-1$
s += " "; //$NON-NLS-1$
s += (selector != null) ? new String(selector) : "UNNAMED METHOD"; //$NON-NLS-1$
s += "("; //$NON-NLS-1$
if (parameters != null) {
if (parameters != NoParameters) {
for (int i = 0, length = parameters.length; i < length; i++) {
if (i > 0)
s += ", "; //$NON-NLS-1$
s += (parameters[i] != null) ? parameters[i].debugName() : "NULL TYPE"; //$NON-NLS-1$
}
}
} else {
s += "NULL PARAMETERS"; //$NON-NLS-1$
}
s += ") "; //$NON-NLS-1$
if (thrownExceptions != null) {
if (thrownExceptions != NoExceptions) {
s += "throws "; //$NON-NLS-1$
for (int i = 0, length = thrownExceptions.length; i < length; i++) {
if (i > 0)
s += ", "; //$NON-NLS-1$
s += (thrownExceptions[i] != null) ? thrownExceptions[i].debugName() : "NULL TYPE"; //$NON-NLS-1$
}
}
} else {
s += "NULL THROWN EXCEPTIONS"; //$NON-NLS-1$
}
return s;
}
public TypeVariableBinding[] typeVariables() {
return this.typeVariables;
}
}