/******************************************************************************* * Copyright (c) 2000, 2008 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 net.sourceforge.phpdt.core.dom; /** * A method binding represents a method or constructor of a class or interface. * Method bindings usually correspond directly to method or * constructor declarations found in the source code. * However, in certain cases of references to a generic method, * the method binding may correspond to a copy of a generic method * declaration with substitutions for the method's type parameters * (for these, getTypeArguments returns a non-empty * list, and either isParameterizedMethod or * isRawMethod returns true). * And in certain cases of references to a method declared in a * generic type, the method binding may correspond to a copy of a * method declaration with substitutions for the type's type * parameters (for these, getTypeArguments returns * an empty list, and both isParameterizedMethod and * isRawMethod return false). * * @see ITypeBinding#getDeclaredMethods() * @since 2.0 * @noimplement This interface is not intended to be implemented by clients. */ public interface IMethodBinding extends IBinding { /** * Returns whether this binding is for a constructor or a method. * * @return true if this is the binding for a constructor, * and false if this is the binding for a method */ public boolean isConstructor(); /** * Returns whether this binding is known to be a compiler-generated * default constructor. *

* This method returns false for: *

* * @return true if this is known to be the binding for a * compiler-generated default constructor, and false * otherwise * @since 3.0 */ public boolean isDefaultConstructor(); /** * Returns the name of the method declared in this binding. The method name * is always a simple identifier. The name of a constructor is always the * same as the declared name of its declaring class. * * @return the name of this method, or the declared name of this * constructor's declaring class */ public String getName(); /** * Returns the type binding representing the class or interface * that declares this method or constructor. * * @return the binding of the class or interface that declares this method * or constructor */ public ITypeBinding getDeclaringClass(); /** * Returns the resolved default value of an annotation type member, * or null if the member has no default value, or if this * is not the binding for an annotation type member. *

* Resolved values are represented as follows (same as for * {@link IMemberValuePairBinding#getValue()}): *

* * @return the default value of this annotation type member, or null * if none or not applicable * @since 3.2 */ public Object getDefaultValue(); /** * Returns the resolved annotations of a parameter of this method. * The result returned is the same regardless of whether * this is a parameterized method. * * @param paramIndex the index of the parameter of interest * @return the resolved annotations of the paramIndexth parameter, * or an empty list if there are none * @throws ArrayIndexOutOfBoundsException if paramIndex is * not a valid index * @since 3.2 */ public IAnnotationBinding[] getParameterAnnotations(int paramIndex); /** * Returns a list of type bindings representing the formal parameter types, * in declaration order, of this method or constructor. Returns an array of * length 0 if this method or constructor does not takes any parameters. *

* Note that the binding for the last parameter type of a vararg method * declaration like void fun(Foo... args) is always for * an array type (i.e., Foo[]) reflecting the the way varargs * get compiled. However, the type binding obtained directly from * the SingleVariableDeclaration for the vararg parameter * is always for the type as written; i.e., the type binding for * Foo. *

*

* Note: The result does not include synthetic parameters introduced by * inner class emulation. *

* * @return a (possibly empty) list of type bindings for the formal * parameters of this method or constructor */ public ITypeBinding[] getParameterTypes(); /** * Returns the binding for the return type of this method. Returns the * special primitive void return type for constructors. * * @return the binding for the return type of this method, or the * void return type for constructors */ public ITypeBinding getReturnType(); /** * Returns a list of type bindings representing the types of the exceptions thrown * by this method or constructor. Returns an array of length 0 if this method * throws no exceptions. The resulting types are in no particular order. * * @return a list of type bindings for exceptions * thrown by this method or constructor */ public ITypeBinding[] getExceptionTypes(); /** * Returns the type parameters of this method or constructor binding. *

* Note that type parameters only occur on the binding of the * declaring generic method. Type bindings corresponding to a raw or * parameterized reference to a generic method do not carry type * parameters (they instead have non-empty type arguments * and non-trivial erasure). *

* * @return the list of binding for the type variables for the type * parameters of this method, or otherwise the empty list * @see ITypeBinding#isTypeVariable() * @since 3.1 */ public ITypeBinding[] getTypeParameters(); /** * Returns whether this is the binding for an annotation type member. * * @return true iff this is the binding for an annotation type member * and false otherwise * @since 3.2 */ public boolean isAnnotationMember(); /** * Returns whether this method binding represents a declaration of * a generic method. *

* Note that type parameters only occur on the binding of the * declaring generic method; e.g., public <T> T identity(T t);. * Method bindings corresponding to a raw or parameterized reference to a generic * method do not carry type parameters (they instead have non-empty type arguments * and non-trivial erasure). * This method is fully equivalent to getTypeParameters().length > 0). *

*

* Note that {@link #isGenericMethod()}, * {@link #isParameterizedMethod()}, * and {@link #isRawMethod()} are mutually exclusive. *

* * @return true if this method binding represents a * declaration of a generic method, and false otherwise * @see #getTypeParameters() * @since 3.1 */ public boolean isGenericMethod(); /** * Returns whether this method binding represents an instance of * a generic method corresponding to a parameterized method reference. *

* Note that {@link #isGenericMethod()}, * {@link #isParameterizedMethod()}, * and {@link #isRawMethod()} are mutually exclusive. *

* * @return true if this method binding represents a * an instance of a generic method corresponding to a parameterized * method reference, and false otherwise * @see #getMethodDeclaration() * @see #getTypeArguments() * @since 3.1 */ public boolean isParameterizedMethod(); /** * Returns the type arguments of this generic method instance, or the * empty list for other method bindings. *

* Note that type arguments only occur on a method binding that represents * an instance of a generic method corresponding to a raw or parameterized * reference to a generic method. Do not confuse these with type parameters * which only occur on the method binding corresponding directly to the * declaration of a generic method. *

* * @return the list of type bindings for the type arguments used to * instantiate the corrresponding generic method, or otherwise the empty list * @see #getMethodDeclaration() * @see #isParameterizedMethod() * @see #isRawMethod() * @since 3.1 */ public ITypeBinding[] getTypeArguments(); /** * Returns the binding for the method declaration corresponding to this * method binding. For parameterized methods ({@link #isParameterizedMethod()}) * and raw methods ({@link #isRawMethod()}), this method returns the binding * for the corresponding generic method. For other method bindings, this * returns the same binding. * *

Note: The one notable exception is the method Object.getClass(), * which is declared to return Class<? extends Object>, but * when invoked its return type becomes Class<? extends * R>, where R is the compile type of * the receiver of the method invocation.

* * @return the method binding * @since 3.1 */ public IMethodBinding getMethodDeclaration(); /** * Returns whether this method binding represents an instance of * a generic method corresponding to a raw method reference. *

* Note that {@link #isGenericMethod()}, * {@link #isParameterizedMethod()}, * and {@link #isRawMethod()} are mutually exclusive. *

* * @return true if this method binding represents a * an instance of a generic method corresponding to a raw * method reference, and false otherwise * @see #getMethodDeclaration() * @see #getTypeArguments() * @since 3.1 */ public boolean isRawMethod(); /** * Returns whether this method's signature is a subsignature of the given method as * specified in section 8.4.2 of The Java Language Specification, Third Edition (JLS3). * * @return true if this method's signature is a subsignature of the given method * @since 3.1 */ public boolean isSubsignature(IMethodBinding otherMethod); /** * Returns whether this is a variable arity method. *

* Note: Variable arity ("varargs") methods were added in JLS3. *

* * @return true if this is a variable arity method, * and false otherwise * @since 3.1 */ public boolean isVarargs(); /** * Returns whether this method overrides the given method, * as specified in section 8.4.8.1 of The Java Language * Specification, Third Edition (JLS3). * * @param method the method that is possibly overriden * @return true if this method overrides the given method, * and false otherwise * @since 3.1 */ public boolean overrides(IMethodBinding method); }