/*
* Copyright (c) 1998, 2011, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
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package com.sun.tools.jdi;
import com.sun.jdi.*;
import java.util.List;
import java.util.Iterator;
import java.util.ArrayList;
import java.util.Comparator;
public abstract class MethodImpl extends TypeComponentImpl
implements Method {
private JNITypeParser signatureParser;
abstract int argSlotCount() throws AbsentInformationException;
abstract List<Location> allLineLocations(SDE.Stratum stratum,
String sourceName)
throws AbsentInformationException;
abstract List<Location> locationsOfLine(SDE.Stratum stratum,
String sourceName,
int lineNumber)
throws AbsentInformationException;
MethodImpl(VirtualMachine vm, ReferenceTypeImpl declaringType,
long ref,
String name, String signature,
String genericSignature, int modifiers) {
super(vm, declaringType, ref, name, signature,
genericSignature, modifiers);
signatureParser = new JNITypeParser(signature);
}
static MethodImpl createMethodImpl(VirtualMachine vm,
ReferenceTypeImpl declaringType,
long ref,
String name,
String signature,
String genericSignature,
int modifiers) {
if ((modifiers &
(VMModifiers.NATIVE | VMModifiers.ABSTRACT)) != 0) {
return new NonConcreteMethodImpl(vm, declaringType, ref,
name, signature,
genericSignature,
modifiers);
} else {
return new ConcreteMethodImpl(vm, declaringType, ref,
name, signature,
genericSignature,
modifiers);
}
}
public boolean equals(Object obj) {
if ((obj != null) && (obj instanceof MethodImpl)) {
MethodImpl other = (MethodImpl)obj;
return (declaringType().equals(other.declaringType())) &&
(ref() == other.ref()) &&
super.equals(obj);
} else {
return false;
}
}
public int hashCode() {
return (int)ref();
}
public final List<Location> allLineLocations()
throws AbsentInformationException {
return allLineLocations(vm.getDefaultStratum(), null);
}
public List<Location> allLineLocations(String stratumID,
String sourceName)
throws AbsentInformationException {
return allLineLocations(declaringType.stratum(stratumID),
sourceName);
}
public final List<Location> locationsOfLine(int lineNumber)
throws AbsentInformationException {
return locationsOfLine(vm.getDefaultStratum(),
null, lineNumber);
}
public List<Location> locationsOfLine(String stratumID,
String sourceName,
int lineNumber)
throws AbsentInformationException {
return locationsOfLine(declaringType.stratum(stratumID),
sourceName, lineNumber);
}
LineInfo codeIndexToLineInfo(SDE.Stratum stratum,
long codeIndex) {
if (stratum.isJava()) {
return new BaseLineInfo(-1, declaringType);
} else {
return new StratumLineInfo(stratum.id(), -1,
null, null);
}
}
/**
* @return a text representation of the declared return type
* of this method.
*/
public String returnTypeName() {
return signatureParser.typeName();
}
private String returnSignature() {
return signatureParser.signature();
}
public Type returnType() throws ClassNotLoadedException {
return findType(returnSignature());
}
public Type findType(String signature) throws ClassNotLoadedException {
ReferenceTypeImpl enclosing = (ReferenceTypeImpl)declaringType();
return enclosing.findType(signature);
}
public List<String> argumentTypeNames() {
return signatureParser.argumentTypeNames();
}
public List<String> argumentSignatures() {
return signatureParser.argumentSignatures();
}
Type argumentType(int index) throws ClassNotLoadedException {
ReferenceTypeImpl enclosing = (ReferenceTypeImpl)declaringType();
String signature = argumentSignatures().get(index);
return enclosing.findType(signature);
}
public List<Type> argumentTypes() throws ClassNotLoadedException {
int size = argumentSignatures().size();
ArrayList<Type> types = new ArrayList<Type>(size);
for (int i = 0; i < size; i++) {
Type type = argumentType(i);
types.add(type);
}
return types;
}
public int compareTo(Method method) {
ReferenceTypeImpl declaringType = (ReferenceTypeImpl)declaringType();
int rc = declaringType.compareTo(method.declaringType());
if (rc == 0) {
rc = declaringType.indexOf(this) -
declaringType.indexOf(method);
}
return rc;
}
public boolean isAbstract() {
return isModifierSet(VMModifiers.ABSTRACT);
}
public boolean isDefault() {
return !isModifierSet(VMModifiers.ABSTRACT) &&
!isModifierSet(VMModifiers.STATIC) &&
!isModifierSet(VMModifiers.PRIVATE) &&
declaringType() instanceof InterfaceType;
}
public boolean isSynchronized() {
return isModifierSet(VMModifiers.SYNCHRONIZED);
}
public boolean isNative() {
return isModifierSet(VMModifiers.NATIVE);
}
public boolean isVarArgs() {
return isModifierSet(VMModifiers.VARARGS);
}
public boolean isBridge() {
return isModifierSet(VMModifiers.BRIDGE);
}
public boolean isConstructor() {
return name().equals("<init>");
}
public boolean isStaticInitializer() {
return name().equals("<clinit>");
}
public boolean isObsolete() {
try {
return JDWP.Method.IsObsolete.process(vm,
declaringType, ref).isObsolete;
} catch (JDWPException exc) {
throw exc.toJDIException();
}
}
/*
* A container class for the return value to allow
* proper type-checking.
*/
class ReturnContainer implements ValueContainer {
ReturnContainer() {
}
public Type type() throws ClassNotLoadedException {
return returnType();
}
public String typeName(){
return returnTypeName();
}
public String signature() {
return returnSignature(); //type().signature();
}
public Type findType(String signature) throws ClassNotLoadedException {
return MethodImpl.this.findType(signature);
}
}
ReturnContainer retValContainer = null;
ReturnContainer getReturnValueContainer() {
if (retValContainer == null) {
retValContainer = new ReturnContainer();
}
return retValContainer;
}
/*
* A container class for the argument to allow
* proper type-checking.
*/
class ArgumentContainer implements ValueContainer {
int index;
ArgumentContainer(int index) {
this.index = index;
}
public Type type() throws ClassNotLoadedException {
return argumentType(index);
}
public String typeName(){
return argumentTypeNames().get(index);
}
public String signature() {
return argumentSignatures().get(index);
}
public Type findType(String signature) throws ClassNotLoadedException {
return MethodImpl.this.findType(signature);
}
}
/*
* This is a var args method. Thus, its last param is an
* array. If the method has n params, then:
* 1. If there are n args and the last is the same type as the type of
* the last param, do nothing. IE, a String[]
* can be passed to a String...
* 2. If there are >= n arguments and for each arg whose number is >= n,
* the arg type is 'compatible' with the component type of
* the last param, then do
* - create an array of the type of the last param
* - put the n, ... args into this array.
* We might have to do conversions here.
* - put this array into arguments(n)
* - delete arguments(n+1), ...
* NOTE that this might modify the input list.
*/
void handleVarArgs(List<Value> arguments)
throws ClassNotLoadedException, InvalidTypeException {
List<Type> paramTypes = this.argumentTypes();
ArrayType lastParamType = (ArrayType)paramTypes.get(paramTypes.size() - 1);
Type componentType = lastParamType.componentType();
int argCount = arguments.size();
int paramCount = paramTypes.size();
if (argCount < paramCount - 1) {
// Error; will be caught later.
return;
}
if (argCount == paramCount - 1) {
// It is ok to pass 0 args to the var arg.
// We have to gen a 0 length array.
ArrayReference argArray = lastParamType.newInstance(0);
arguments.add(argArray);
return;
}
Value nthArgValue = arguments.get(paramCount - 1);
if (nthArgValue == null) {
return;
}
Type nthArgType = nthArgValue.type();
if (nthArgType instanceof ArrayTypeImpl) {
if (argCount == paramCount &&
((ArrayTypeImpl)nthArgType).isAssignableTo(lastParamType)) {
/*
* This is case 1. A compatible array is being passed to the
* var args array param. We don't have to do anything.
*/
return;
}
}
/*
* Case 2. We have to verify that the n, n+1, ... args are compatible
* with componentType, and do conversions if necessary and create
* an array of componentType to hold these possibly converted values.
*/
int count = argCount - paramCount + 1;
ArrayReference argArray = lastParamType.newInstance(count);
/*
* This will copy arguments(paramCount - 1) ... to argArray(0) ...
* doing whatever conversions are needed! It will throw an
* exception if an incompatible arg is encountered
*/
argArray.setValues(0, arguments, paramCount - 1, count);
arguments.set(paramCount - 1, argArray);
/*
* Remove the excess args
*/
for (int ii = paramCount; ii < argCount; ii++) {
arguments.remove(paramCount);
}
return;
}
/*
* The output list will be different than the input list.
*/
List<Value> validateAndPrepareArgumentsForInvoke(List<? extends Value> origArguments)
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