a29114a3be
2007-03-05 Andrew Haley <aph@redhat.com> * java/lang/reflect/natVMProxy.cc (ncode_closure.meth): Delete. (generateProxyClass): Don't pass method to ncode. (run_proxy): Call _Jv_GetReflectedMethod to find the proxy method. * java/lang/reflect/Method.h: Rebuild. * java/lang/reflect/Method.java (internalGetParameterTypes, internalGetExceptionTypes): New methods. * headers.txt (class java/lang/reflect/Method): Declare _Jv_GetReflectedMethod. Be its friend. * java/lang/natClass.cc (_Jv_GetReflectedMethod): New method. * java/lang/Class.h: Declare it. Be its friend. From-SVN: r122554
502 lines
16 KiB
Java
502 lines
16 KiB
Java
// Method.java - Represent method of class or interface.
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/* Copyright (C) 1998, 1999, 2000, 2001, 2002, 2003, 2006, 2007 Free Software Foundation
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This file is part of libgcj.
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This software is copyrighted work licensed under the terms of the
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Libgcj License. Please consult the file "LIBGCJ_LICENSE" for
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details. */
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package java.lang.reflect;
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import gnu.gcj.RawData;
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import gnu.java.lang.reflect.MethodSignatureParser;
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import java.lang.annotation.Annotation;
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/**
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* The Method class represents a member method of a class. It also allows
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* dynamic invocation, via reflection. This works for both static and
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* instance methods. Invocation on Method objects knows how to do
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* widening conversions, but throws {@link IllegalArgumentException} if
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* a narrowing conversion would be necessary. You can query for information
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* on this Method regardless of location, but invocation access may be limited
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* by Java language access controls. If you can't do it in the compiler, you
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* can't normally do it here either.<p>
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*
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* <B>Note:</B> This class returns and accepts types as Classes, even
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* primitive types; there are Class types defined that represent each
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* different primitive type. They are <code>java.lang.Boolean.TYPE,
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* java.lang.Byte.TYPE,</code>, also available as <code>boolean.class,
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* byte.class</code>, etc. These are not to be confused with the
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* classes <code>java.lang.Boolean, java.lang.Byte</code>, etc., which are
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* real classes.<p>
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*
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* Also note that this is not a serializable class. It is entirely feasible
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* to make it serializable using the Externalizable interface, but this is
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* on Sun, not me.
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*
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* @author John Keiser
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* @author Eric Blake <ebb9@email.byu.edu>
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* @author Tom Tromey <tromey@redhat.com>
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* @see Member
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* @see Class
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* @see java.lang.Class#getMethod(String,Class[])
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* @see java.lang.Class#getDeclaredMethod(String,Class[])
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* @see java.lang.Class#getMethods()
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* @see java.lang.Class#getDeclaredMethods()
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* @since 1.1
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* @status updated to 1.4
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*/
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public final class Method
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extends AccessibleObject implements Member, GenericDeclaration
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{
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static final int METHOD_MODIFIERS
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= Modifier.ABSTRACT | Modifier.FINAL | Modifier.NATIVE
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| Modifier.PRIVATE | Modifier.PROTECTED | Modifier.PUBLIC
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| Modifier.STATIC | Modifier.STRICT | Modifier.SYNCHRONIZED;
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/**
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* This class is uninstantiable.
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*/
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private Method ()
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{
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}
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/**
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* Gets the class that declared this method, or the class where this method
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* is a non-inherited member.
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* @return the class that declared this member
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*/
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public Class<?> getDeclaringClass()
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{
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return declaringClass;
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}
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/**
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* Gets the name of this method.
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* @return the name of this method
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*/
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public native String getName ();
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/**
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* Return the raw modifiers for this method.
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* @return the method's modifiers
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*/
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private native int getModifiersInternal();
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/**
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* Gets the modifiers this method uses. Use the <code>Modifier</code>
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* class to interpret the values. A method can only have a subset of the
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* following modifiers: public, private, protected, abstract, static,
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* final, synchronized, native, and strictfp.
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*
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* @return an integer representing the modifiers to this Member
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* @see Modifier
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*/
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public int getModifiers()
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{
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return getModifiersInternal() & METHOD_MODIFIERS;
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}
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/**
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* Return true if this method is a bridge method. A bridge method
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* is generated by the compiler in some situations involving
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* generics and inheritance.
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* @since 1.5
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*/
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public boolean isBridge()
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{
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return (getModifiersInternal() & Modifier.BRIDGE) != 0;
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}
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/**
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* Return true if this method is synthetic, false otherwise.
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* @since 1.5
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*/
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public boolean isSynthetic()
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{
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return (getModifiersInternal() & Modifier.SYNTHETIC) != 0;
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}
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/**
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* Return true if this is a varargs method, that is if
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* the method takes a variable number of arguments.
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* @since 1.5
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*/
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public boolean isVarArgs()
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{
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return (getModifiersInternal() & Modifier.VARARGS) != 0;
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}
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/**
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* Gets the return type of this method.
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* @return the type of this method
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*/
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public Class<?> getReturnType ()
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{
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if (return_type == null)
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getType();
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return return_type;
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}
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/**
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* Get the parameter list for this method, in declaration order. If the
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* method takes no parameters, returns a 0-length array (not null).
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*
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* @return a list of the types of the method's parameters
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*/
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public Class<?>[] getParameterTypes ()
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{
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if (parameter_types == null)
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getType();
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return (Class<?>[]) parameter_types.clone();
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}
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// Just like getParameterTypes, but don't clone the array.
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// Package private for use by VMProxy.
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final Class<?>[] internalGetParameterTypes ()
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{
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if (parameter_types == null)
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getType();
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return (Class<?>[]) parameter_types;
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}
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/**
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* Get the exception types this method says it throws, in no particular
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* order. If the method has no throws clause, returns a 0-length array
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* (not null).
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*
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* @return a list of the types in the method's throws clause
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*/
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public Class<?>[] getExceptionTypes ()
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{
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if (exception_types == null)
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getType();
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return (Class<?>[]) exception_types.clone();
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}
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// Just like getExceptionTypes, but don't clone the array.
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// Package private for use by VMProxy.
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final Class<?>[] internalGetExceptionTypes ()
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{
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if (exception_types == null)
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getType();
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return (Class<?>[]) exception_types;
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}
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/**
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* Compare two objects to see if they are semantically equivalent.
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* Two Methods are semantically equivalent if they have the same declaring
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* class, name, and parameter list. This ignores different exception
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* clauses or return types.
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*
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* @param o the object to compare to
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* @return <code>true</code> if they are equal; <code>false</code> if not
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*/
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public boolean equals (Object obj)
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{
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if (! (obj instanceof Method))
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return false;
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Method m = (Method) obj;
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return declaringClass == m.declaringClass && offset == m.offset;
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}
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/**
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* Get the hash code for the Method. The Method hash code is the hash code
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* of its name XOR'd with the hash code of its class name.
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*
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* @return the hash code for the object
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*/
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public int hashCode()
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{
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return getDeclaringClass().getName().hashCode() ^ getName().hashCode();
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}
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/**
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* Get a String representation of the Method. A Method's String
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* representation is "<modifiers> <returntype>
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* <methodname>(<paramtypes>) throws <exceptions>", where
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* everything after ')' is omitted if there are no exceptions.<br> Example:
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* <code>public static int run(java.lang.Runnable,int)</code>
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*
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* @return the String representation of the Method
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*/
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public String toString()
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{
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if (parameter_types == null)
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getType ();
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StringBuffer b = new StringBuffer ();
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int mods = getModifiers();
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if (mods != 0)
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{
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Modifier.toString(mods, b);
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b.append(" ");
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}
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appendClassName (b, return_type);
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b.append(" ");
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appendClassName (b, declaringClass);
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b.append(".");
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b.append(getName());
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b.append("(");
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for (int i = 0; i < parameter_types.length; ++i)
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{
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appendClassName (b, parameter_types[i]);
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if (i < parameter_types.length - 1)
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b.append(",");
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}
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b.append(")");
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if (exception_types.length > 0)
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{
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b.append(" throws ");
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for (int i = 0; i < exception_types.length; ++i)
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{
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appendClassName (b, exception_types[i]);
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if (i < exception_types.length - 1)
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b.append(",");
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}
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}
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return b.toString();
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}
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public String toGenericString()
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{
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// 128 is a reasonable buffer initial size for constructor
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StringBuilder sb = new StringBuilder(128);
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Modifier.toString(getModifiers(), sb).append(' ');
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Constructor.addTypeParameters(sb, getTypeParameters());
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sb.append(getGenericReturnType()).append(' ');
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sb.append(getDeclaringClass().getName()).append('.');
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sb.append(getName()).append('(');
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Type[] types = getGenericParameterTypes();
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if (types.length > 0)
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{
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sb.append(types[0]);
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for (int i = 1; i < types.length; i++)
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sb.append(',').append(types[i]);
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}
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sb.append(')');
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types = getGenericExceptionTypes();
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if (types.length > 0)
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{
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sb.append(" throws ").append(types[0]);
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for (int i = 1; i < types.length; i++)
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sb.append(',').append(types[i]);
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}
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return sb.toString();
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}
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/**
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* Invoke the method. Arguments are automatically unwrapped and widened,
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* and the result is automatically wrapped, if needed.<p>
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*
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* If the method is static, <code>o</code> will be ignored. Otherwise,
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* the method uses dynamic lookup as described in JLS 15.12.4.4. You cannot
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* mimic the behavior of nonvirtual lookup (as in super.foo()). This means
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* you will get a <code>NullPointerException</code> if <code>o</code> is
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* null, and an <code>IllegalArgumentException</code> if it is incompatible
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* with the declaring class of the method. If the method takes 0 arguments,
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* you may use null or a 0-length array for <code>args</code>.<p>
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*
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* Next, if this Method enforces access control, your runtime context is
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* evaluated, and you may have an <code>IllegalAccessException</code> if
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* you could not acces this method in similar compiled code. If the method
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* is static, and its class is uninitialized, you trigger class
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* initialization, which may end in a
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* <code>ExceptionInInitializerError</code>.<p>
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*
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* Finally, the method is invoked. If it completes normally, the return value
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* will be null for a void method, a wrapped object for a primitive return
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* method, or the actual return of an Object method. If it completes
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* abruptly, the exception is wrapped in an
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* <code>InvocationTargetException</code>.
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*
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* @param o the object to invoke the method on
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* @param args the arguments to the method
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* @return the return value of the method, wrapped in the appropriate
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* wrapper if it is primitive
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* @throws IllegalAccessException if the method could not normally be called
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* by the Java code (i.e. it is not public)
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* @throws IllegalArgumentException if the number of arguments is incorrect;
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* if the arguments types are wrong even with a widening conversion;
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* or if <code>o</code> is not an instance of the class or interface
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* declaring this method
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* @throws InvocationTargetException if the method throws an exception
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* @throws NullPointerException if <code>o</code> is null and this field
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* requires an instance
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* @throws ExceptionInInitializerError if accessing a static method triggered
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* class initialization, which then failed
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*/
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public native Object invoke (Object obj, Object... args)
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throws IllegalAccessException, IllegalArgumentException,
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InvocationTargetException;
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/**
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* Returns an array of <code>TypeVariable</code> objects that represents
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* the type variables declared by this constructor, in declaration order.
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* An array of size zero is returned if this class has no type
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* variables.
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*
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* @return the type variables associated with this class.
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* @throws GenericSignatureFormatError if the generic signature does
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* not conform to the format specified in the Virtual Machine
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* specification, version 3.
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* @since 1.5
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*/
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public TypeVariable<Method>[] getTypeParameters()
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{
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String sig = getSignature();
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if (sig == null)
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return new TypeVariable[0];
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MethodSignatureParser p = new MethodSignatureParser(this, sig);
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return p.getTypeParameters();
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}
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/**
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* Return the String in the Signature attribute for this method. If there
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* is no Signature attribute, return null.
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*/
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private native String getSignature();
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/**
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* Returns an array of <code>Type</code> objects that represents
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* the exception types declared by this method, in declaration order.
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* An array of size zero is returned if this method declares no
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* exceptions.
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*
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* @return the exception types declared by this method.
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* @throws GenericSignatureFormatError if the generic signature does
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* not conform to the format specified in the Virtual Machine
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* specification, version 3.
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* @since 1.5
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*/
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public Type[] getGenericExceptionTypes()
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{
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String sig = getSignature();
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if (sig == null)
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return getExceptionTypes();
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MethodSignatureParser p = new MethodSignatureParser(this, sig);
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return p.getGenericExceptionTypes();
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}
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/**
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* Returns an array of <code>Type</code> objects that represents
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* the parameter list for this method, in declaration order.
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* An array of size zero is returned if this method takes no
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* parameters.
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*
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* @return a list of the types of the method's parameters
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* @throws GenericSignatureFormatError if the generic signature does
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* not conform to the format specified in the Virtual Machine
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* specification, version 3.
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* @since 1.5
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*/
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public Type[] getGenericParameterTypes()
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{
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String sig = getSignature();
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if (sig == null)
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return getParameterTypes();
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MethodSignatureParser p = new MethodSignatureParser(this, sig);
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return p.getGenericParameterTypes();
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}
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/**
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* Returns the return type of this method.
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*
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* @return the return type of this method
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* @throws GenericSignatureFormatError if the generic signature does
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* not conform to the format specified in the Virtual Machine
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* specification, version 3.
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* @since 1.5
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*/
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public Type getGenericReturnType()
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{
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String sig = getSignature();
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if (sig == null)
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return getReturnType();
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MethodSignatureParser p = new MethodSignatureParser(this, sig);
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return p.getGenericReturnType();
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}
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/**
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* If this method is an annotation method, returns the default
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* value for the method. If there is no default value, or if the
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* method is not a member of an annotation type, returns null.
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* Primitive types are wrapped.
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*
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* @throws TypeNotPresentException if the method returns a Class,
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* and the class cannot be found
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*
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* @since 1.5
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*/
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public native Object getDefaultValue();
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public <T extends Annotation> T getAnnotation(Class<T> annoClass)
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{
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Annotation[] annos = getDeclaredAnnotations();
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for (int i = 0; i < annos.length; ++i)
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if (annos[i].annotationType() == annoClass)
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return (T) annos[i];
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return null;
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}
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public Annotation[] getDeclaredAnnotations()
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{
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Annotation[] result = getDeclaredAnnotationsInternal();
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if (result == null)
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result = new Annotation[0];
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return result;
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}
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public Annotation[][] getParameterAnnotations()
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{
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// FIXME: should check that we have the right number
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// of parameters ...?
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Annotation[][] result = getParameterAnnotationsInternal();
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if (result == null)
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result = new Annotation[0][0];
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return result;
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}
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private native Annotation[] getDeclaredAnnotationsInternal();
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private native Annotation[][] getParameterAnnotationsInternal();
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private native void getType ();
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// Append a class name to a string buffer. We try to print the
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// fully-qualified name, the way that a Java programmer would expect
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// it to be written. Weirdly, Class has no appropriate method for
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// this.
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static void appendClassName (StringBuffer buf, Class k)
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{
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if (k.isArray ())
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{
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appendClassName (buf, k.getComponentType ());
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buf.append ("[]");
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}
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else
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{
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// This is correct for primitive and reference types. Really
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// we'd like `Main$Inner' to be printed as `Main.Inner', I
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// think, but that is a pain.
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buf.append (k.getName ());
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}
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}
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// Declaring class.
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private Class declaringClass;
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// Exception types.
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Class[] exception_types;
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// Name cache. (Initially null.)
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private String name;
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// Parameter types.
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Class[] parameter_types;
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// Return type.
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Class return_type;
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// Offset in bytes from the start of declaringClass's methods array.
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private int offset;
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}
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