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/*
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER.
*
* Copyright (c) 1997-2010 Oracle and/or its affiliates. All rights reserved.
*
* The contents of this file are subject to the terms of either the GNU
* General Public License Version 2 only ("GPL") or the Common Development
* and Distribution License("CDDL") (collectively, the "License"). You
* may not use this file except in compliance with the License. You can
* obtain a copy of the License at
* https://glassfish.dev.java.net/public/CDDL+GPL_1_1.html
* or packager/legal/LICENSE.txt. See the License for the specific
* language governing permissions and limitations under the License.
*
* When distributing the software, include this License Header Notice in each
* file and include the License file at packager/legal/LICENSE.txt.
*
* GPL Classpath Exception:
* Oracle designates this particular file as subject to the "Classpath"
* exception as provided by Oracle in the GPL Version 2 section of the License
* file that accompanied this code.
*
* Modifications:
* If applicable, add the following below the License Header, with the fields
* enclosed by brackets [] replaced by your own identifying information:
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* recipient has the option to distribute your version of this file under
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* its licensees as provided above. However, if you add GPL Version 2 code
* and therefore, elected the GPL Version 2 license, then the option applies
* only if the new code is made subject to such option by the copyright
* holder.
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* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
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* Unless required by applicable law or agreed to in writing, software
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/*
* $Id: FunctionCall.java,v 1.10 2010-11-01 04:34:16 joehw Exp $
*/
package com.sun.org.apache.xalan.internal.xsltc.compiler;
import java.lang.reflect.Constructor;
import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.util.Enumeration;
import java.util.Hashtable;
import java.util.Vector;
import com.sun.org.apache.bcel.internal.generic.ConstantPoolGen;
import com.sun.org.apache.bcel.internal.generic.IFEQ;
import com.sun.org.apache.bcel.internal.generic.INVOKEINTERFACE;
import com.sun.org.apache.bcel.internal.generic.INVOKESPECIAL;
import com.sun.org.apache.bcel.internal.generic.INVOKESTATIC;
import com.sun.org.apache.bcel.internal.generic.INVOKEVIRTUAL;
import com.sun.org.apache.bcel.internal.generic.InstructionConstants;
import com.sun.org.apache.bcel.internal.generic.InstructionList;
import com.sun.org.apache.bcel.internal.generic.InvokeInstruction;
import com.sun.org.apache.bcel.internal.generic.LocalVariableGen;
import com.sun.org.apache.bcel.internal.generic.NEW;
import com.sun.org.apache.bcel.internal.generic.PUSH;
import com.sun.org.apache.xalan.internal.xsltc.compiler.util.BooleanType;
import com.sun.org.apache.xalan.internal.xsltc.compiler.util.ClassGenerator;
import com.sun.org.apache.xalan.internal.xsltc.compiler.util.ErrorMsg;
import com.sun.org.apache.xalan.internal.xsltc.compiler.util.IntType;
import com.sun.org.apache.xalan.internal.xsltc.compiler.util.MethodGenerator;
import com.sun.org.apache.xalan.internal.xsltc.compiler.util.MethodType;
import com.sun.org.apache.xalan.internal.xsltc.compiler.util.MultiHashtable;
import com.sun.org.apache.xalan.internal.xsltc.compiler.util.ObjectType;
import com.sun.org.apache.xalan.internal.xsltc.compiler.util.ReferenceType;
import com.sun.org.apache.xalan.internal.xsltc.compiler.util.Type;
import com.sun.org.apache.xalan.internal.xsltc.compiler.util.TypeCheckError;
/**
* @author Jacek Ambroziak
* @author Santiago Pericas-Geertsen
* @author Morten Jorgensen
* @author Erwin Bolwidt
* @author Todd Miller
*/
class FunctionCall extends Expression {
// Name of this function call
private QName _fname;
// Arguments to this function call (might not be any)
private final Vector _arguments;
// Empty argument list, used for certain functions
private final static Vector EMPTY_ARG_LIST = new Vector(0);
// Valid namespaces for Java function-call extension
protected final static String EXT_XSLTC =
TRANSLET_URI;
protected final static String JAVA_EXT_XSLTC =
EXT_XSLTC + "/java";
protected final static String EXT_XALAN =
"http://xml.apache.org/xalan";
protected final static String JAVA_EXT_XALAN =
"http://xml.apache.org/xalan/java";
protected final static String JAVA_EXT_XALAN_OLD =
"http://xml.apache.org/xslt/java";
protected final static String EXSLT_COMMON =
"http://exslt.org/common";
protected final static String EXSLT_MATH =
"http://exslt.org/math";
protected final static String EXSLT_SETS =
"http://exslt.org/sets";
protected final static String EXSLT_DATETIME =
"http://exslt.org/dates-and-times";
protected final static String EXSLT_STRINGS =
"http://exslt.org/strings";
// Namespace format constants
protected final static int NAMESPACE_FORMAT_JAVA = 0;
protected final static int NAMESPACE_FORMAT_CLASS = 1;
protected final static int NAMESPACE_FORMAT_PACKAGE = 2;
protected final static int NAMESPACE_FORMAT_CLASS_OR_PACKAGE = 3;
// Namespace format
private int _namespace_format = NAMESPACE_FORMAT_JAVA;
/**
* Stores reference to object for non-static Java calls
*/
Expression _thisArgument = null;
// External Java function's class/method/signature
private String _className;
private Class _clazz;
private Method _chosenMethod;
private Constructor _chosenConstructor;
private MethodType _chosenMethodType;
// Encapsulates all unsupported external function calls
private boolean unresolvedExternal;
// If FunctionCall is a external java constructor
private boolean _isExtConstructor = false;
// If the java method is static
private boolean _isStatic = false;
// Legal conversions between internal and Java types.
private static final MultiHashtable _internal2Java = new MultiHashtable();
// Legal conversions between Java and internal types.
private static final Hashtable _java2Internal = new Hashtable();
// The mappings between EXSLT extension namespaces and implementation classes
private static final Hashtable _extensionNamespaceTable = new Hashtable();
// Extension functions that are implemented in BasisLibrary
private static final Hashtable _extensionFunctionTable = new Hashtable();
/**
* inner class to used in internal2Java mappings, contains
* the Java type and the distance between the internal type and
* the Java type.
*/
static class JavaType {
public Class type;
public int distance;
public JavaType(Class type, int distance){
this.type = type;
this.distance = distance;
}
public boolean equals(Object query){
return query.equals(type);
}
}
/**
* Defines 2 conversion tables:
* 1. From internal types to Java types and
* 2. From Java types to internal types.
* These two tables are used when calling external (Java) functions.
*/
static {
try {
final Class nodeClass = Class.forName("org.w3c.dom.Node");
final Class nodeListClass = Class.forName("org.w3c.dom.NodeList");
// -- Internal to Java --------------------------------------------
// Type.Boolean -> { boolean(0), Boolean(1), Object(2) }
_internal2Java.put(Type.Boolean, new JavaType(Boolean.TYPE, 0));
_internal2Java.put(Type.Boolean, new JavaType(Boolean.class, 1));
_internal2Java.put(Type.Boolean, new JavaType(Object.class, 2));
// Type.Real -> { double(0), Double(1), float(2), long(3), int(4),
// short(5), byte(6), char(7), Object(8) }
_internal2Java.put(Type.Real, new JavaType(Double.TYPE, 0));
_internal2Java.put(Type.Real, new JavaType(Double.class, 1));
_internal2Java.put(Type.Real, new JavaType(Float.TYPE, 2));
_internal2Java.put(Type.Real, new JavaType(Long.TYPE, 3));
_internal2Java.put(Type.Real, new JavaType(Integer.TYPE, 4));
_internal2Java.put(Type.Real, new JavaType(Short.TYPE, 5));
_internal2Java.put(Type.Real, new JavaType(Byte.TYPE, 6));
_internal2Java.put(Type.Real, new JavaType(Character.TYPE, 7));
_internal2Java.put(Type.Real, new JavaType(Object.class, 8));
// Type.Int must be the same as Type.Real
_internal2Java.put(Type.Int, new JavaType(Double.TYPE, 0));
_internal2Java.put(Type.Int, new JavaType(Double.class, 1));
_internal2Java.put(Type.Int, new JavaType(Float.TYPE, 2));
_internal2Java.put(Type.Int, new JavaType(Long.TYPE, 3));
_internal2Java.put(Type.Int, new JavaType(Integer.TYPE, 4));
_internal2Java.put(Type.Int, new JavaType(Short.TYPE, 5));
_internal2Java.put(Type.Int, new JavaType(Byte.TYPE, 6));
_internal2Java.put(Type.Int, new JavaType(Character.TYPE, 7));
_internal2Java.put(Type.Int, new JavaType(Object.class, 8));
// Type.String -> { String(0), Object(1) }
_internal2Java.put(Type.String, new JavaType(String.class, 0));
_internal2Java.put(Type.String, new JavaType(Object.class, 1));
// Type.NodeSet -> { NodeList(0), Node(1), Object(2), String(3) }
_internal2Java.put(Type.NodeSet, new JavaType(nodeListClass, 0));
_internal2Java.put(Type.NodeSet, new JavaType(nodeClass, 1));
_internal2Java.put(Type.NodeSet, new JavaType(Object.class, 2));
_internal2Java.put(Type.NodeSet, new JavaType(String.class, 3));
// Type.Node -> { Node(0), NodeList(1), Object(2), String(3) }
_internal2Java.put(Type.Node, new JavaType(nodeListClass, 0));
_internal2Java.put(Type.Node, new JavaType(nodeClass, 1));
_internal2Java.put(Type.Node, new JavaType(Object.class, 2));
_internal2Java.put(Type.Node, new JavaType(String.class, 3));
// Type.ResultTree -> { NodeList(0), Node(1), Object(2), String(3) }
_internal2Java.put(Type.ResultTree, new JavaType(nodeListClass, 0));
_internal2Java.put(Type.ResultTree, new JavaType(nodeClass, 1));
_internal2Java.put(Type.ResultTree, new JavaType(Object.class, 2));
_internal2Java.put(Type.ResultTree, new JavaType(String.class, 3));
_internal2Java.put(Type.Reference, new JavaType(Object.class, 0));
// Possible conversions between Java and internal types
_java2Internal.put(Boolean.TYPE, Type.Boolean);
_java2Internal.put(Void.TYPE, Type.Void);
_java2Internal.put(Character.TYPE, Type.Real);
_java2Internal.put(Byte.TYPE, Type.Real);
_java2Internal.put(Short.TYPE, Type.Real);
_java2Internal.put(Integer.TYPE, Type.Real);
_java2Internal.put(Long.TYPE, Type.Real);
_java2Internal.put(Float.TYPE, Type.Real);
_java2Internal.put(Double.TYPE, Type.Real);
_java2Internal.put(String.class, Type.String);
_java2Internal.put(Object.class, Type.Reference);
// Conversions from org.w3c.dom.Node/NodeList to internal NodeSet
_java2Internal.put(nodeListClass, Type.NodeSet);
_java2Internal.put(nodeClass, Type.NodeSet);
// Initialize the extension namespace table
_extensionNamespaceTable.put(EXT_XALAN, "com.sun.org.apache.xalan.internal.lib.Extensions");
_extensionNamespaceTable.put(EXSLT_COMMON, "com.sun.org.apache.xalan.internal.lib.ExsltCommon");
_extensionNamespaceTable.put(EXSLT_MATH, "com.sun.org.apache.xalan.internal.lib.ExsltMath");
_extensionNamespaceTable.put(EXSLT_SETS, "com.sun.org.apache.xalan.internal.lib.ExsltSets");
_extensionNamespaceTable.put(EXSLT_DATETIME, "com.sun.org.apache.xalan.internal.lib.ExsltDatetime");
_extensionNamespaceTable.put(EXSLT_STRINGS, "com.sun.org.apache.xalan.internal.lib.ExsltStrings");
// Initialize the extension function table
_extensionFunctionTable.put(EXSLT_COMMON + ":nodeSet", "nodeset");
_extensionFunctionTable.put(EXSLT_COMMON + ":objectType", "objectType");
_extensionFunctionTable.put(EXT_XALAN + ":nodeset", "nodeset");
}
catch (ClassNotFoundException e) {
System.err.println(e);
}
}
public FunctionCall(QName fname, Vector arguments) {
_fname = fname;
_arguments = arguments;
_type = null;
}
public FunctionCall(QName fname) {
this(fname, EMPTY_ARG_LIST);
}
public String getName() {
return(_fname.toString());
}
public void setParser(Parser parser) {
super.setParser(parser);
if (_arguments != null) {
final int n = _arguments.size();
for (int i = 0; i < n; i++) {
final Expression exp = (Expression)_arguments.elementAt(i);
exp.setParser(parser);
exp.setParent(this);
}
}
}
public String getClassNameFromUri(String uri)
{
String className = (String)_extensionNamespaceTable.get(uri);
if (className != null)
return className;
else {
if (uri.startsWith(JAVA_EXT_XSLTC)) {
int length = JAVA_EXT_XSLTC.length() + 1;
return (uri.length() > length) ? uri.substring(length) : EMPTYSTRING;
}
else if (uri.startsWith(JAVA_EXT_XALAN)) {
int length = JAVA_EXT_XALAN.length() + 1;
return (uri.length() > length) ? uri.substring(length) : EMPTYSTRING;
}
else if (uri.startsWith(JAVA_EXT_XALAN_OLD)) {
int length = JAVA_EXT_XALAN_OLD.length() + 1;
return (uri.length() > length) ? uri.substring(length) : EMPTYSTRING;
}
else {
int index = uri.lastIndexOf('/');
return (index > 0) ? uri.substring(index+1) : uri;
}
}
}
/**
* Type check a function call. Since different type conversions apply,
* type checking is different for standard and external (Java) functions.
*/
public Type typeCheck(SymbolTable stable)
throws TypeCheckError
{
if (_type != null) return _type;
final String namespace = _fname.getNamespace();
String local = _fname.getLocalPart();
if (isExtension()) {
_fname = new QName(null, null, local);
return typeCheckStandard(stable);
}
else if (isStandard()) {
return typeCheckStandard(stable);
}
// Handle extension functions (they all have a namespace)
else {
try {
_className = getClassNameFromUri(namespace);
final int pos = local.lastIndexOf('.');
if (pos > 0) {
_isStatic = true;
if (_className != null && _className.length() > 0) {
_namespace_format = NAMESPACE_FORMAT_PACKAGE;
_className = _className + "." + local.substring(0, pos);
}
else {
_namespace_format = NAMESPACE_FORMAT_JAVA;
_className = local.substring(0, pos);
}
_fname = new QName(namespace, null, local.substring(pos + 1));
}
else {
if (_className != null && _className.length() > 0) {
try {
_clazz = ObjectFactory.findProviderClass(
_className, ObjectFactory.findClassLoader(), true);
_namespace_format = NAMESPACE_FORMAT_CLASS;
}
catch (ClassNotFoundException e) {
_namespace_format = NAMESPACE_FORMAT_PACKAGE;
}
}
else
_namespace_format = NAMESPACE_FORMAT_JAVA;
if (local.indexOf('-') > 0) {
local = replaceDash(local);
}
String extFunction = (String)_extensionFunctionTable.get(namespace + ":" + local);
if (extFunction != null) {
_fname = new QName(null, null, extFunction);
return typeCheckStandard(stable);
}
else
_fname = new QName(namespace, null, local);
}
return typeCheckExternal(stable);
}
catch (TypeCheckError e) {
ErrorMsg errorMsg = e.getErrorMsg();
if (errorMsg == null) {
final String name = _fname.getLocalPart();
errorMsg = new ErrorMsg(ErrorMsg.METHOD_NOT_FOUND_ERR, name);
}
getParser().reportError(ERROR, errorMsg);
return _type = Type.Void;
}
}
}
/**
* Type check a call to a standard function. Insert CastExprs when needed.
* If as a result of the insertion of a CastExpr a type check error is
* thrown, then catch it and re-throw it with a new "this".
*/
public Type typeCheckStandard(SymbolTable stable) throws TypeCheckError {
_fname.clearNamespace(); // HACK!!!
final int n = _arguments.size();
final Vector argsType = typeCheckArgs(stable);
final MethodType args = new MethodType(Type.Void, argsType);
final MethodType ptype =
lookupPrimop(stable, _fname.getLocalPart(), args);
if (ptype != null) {
for (int i = 0; i < n; i++) {
final Type argType = (Type) ptype.argsType().elementAt(i);
final Expression exp = (Expression)_arguments.elementAt(i);
if (!argType.identicalTo(exp.getType())) {
try {
_arguments.setElementAt(new CastExpr(exp, argType), i);
}
catch (TypeCheckError e) {
throw new TypeCheckError(this); // invalid conversion
}
}
}
_chosenMethodType = ptype;
return _type = ptype.resultType();
}
throw new TypeCheckError(this);
}
public Type typeCheckConstructor(SymbolTable stable) throws TypeCheckError{
final Vector constructors = findConstructors();
if (constructors == null) {
// Constructor not found in this class
throw new TypeCheckError(ErrorMsg.CONSTRUCTOR_NOT_FOUND,
_className);
}
final int nConstructors = constructors.size();
final int nArgs = _arguments.size();
final Vector argsType = typeCheckArgs(stable);
// Try all constructors
int bestConstrDistance = Integer.MAX_VALUE;
_type = null; // reset
for (int j, i = 0; i < nConstructors; i++) {
// Check if all parameters to this constructor can be converted
final Constructor constructor =
(Constructor)constructors.elementAt(i);
final Class[] paramTypes = constructor.getParameterTypes();
Class extType = null;
int currConstrDistance = 0;
for (j = 0; j < nArgs; j++) {
// Convert from internal (translet) type to external (Java) type
extType = paramTypes[j];
final Type intType = (Type)argsType.elementAt(j);
Object match = _internal2Java.maps(intType, extType);
if (match != null) {
currConstrDistance += ((JavaType)match).distance;
}
else if (intType instanceof ObjectType) {
ObjectType objectType = (ObjectType)intType;
if (objectType.getJavaClass() == extType)
continue;
else if (extType.isAssignableFrom(objectType.getJavaClass()))
currConstrDistance += 1;
else {
currConstrDistance = Integer.MAX_VALUE;
break;
}
}
else {
// no mapping available
currConstrDistance = Integer.MAX_VALUE;
break;
}
}
if (j == nArgs && currConstrDistance < bestConstrDistance ) {
_chosenConstructor = constructor;
_isExtConstructor = true;
bestConstrDistance = currConstrDistance;
_type = (_clazz != null) ? Type.newObjectType(_clazz)
: Type.newObjectType(_className);
}
}
if (_type != null) {
return _type;
}
throw new TypeCheckError(ErrorMsg.ARGUMENT_CONVERSION_ERR, getMethodSignature(argsType));
}
/**
* Type check a call to an external (Java) method.
* The method must be static an public, and a legal type conversion
* must exist for all its arguments and its return type.
* Every method of name _fname is inspected
* as a possible candidate.
*/
public Type typeCheckExternal(SymbolTable stable) throws TypeCheckError {
int nArgs = _arguments.size();
final String name = _fname.getLocalPart();
// check if function is a contructor 'new'
if (_fname.getLocalPart().equals("new")) {
return typeCheckConstructor(stable);
}
// check if we are calling an instance method
else {
boolean hasThisArgument = false;
if (nArgs == 0)
_isStatic = true;
if (!_isStatic) {
if (_namespace_format == NAMESPACE_FORMAT_JAVA
|| _namespace_format == NAMESPACE_FORMAT_PACKAGE)
hasThisArgument = true;
Expression firstArg = (Expression)_arguments.elementAt(0);
Type firstArgType = (Type)firstArg.typeCheck(stable);
if (_namespace_format == NAMESPACE_FORMAT_CLASS
&& firstArgType instanceof ObjectType
&& _clazz != null
&& _clazz.isAssignableFrom(((ObjectType)firstArgType).getJavaClass()))
hasThisArgument = true;
if (hasThisArgument) {
_thisArgument = (Expression) _arguments.elementAt(0);
_arguments.remove(0); nArgs--;
if (firstArgType instanceof ObjectType) {
_className = ((ObjectType) firstArgType).getJavaClassName();
}
else
throw new TypeCheckError(ErrorMsg.NO_JAVA_FUNCT_THIS_REF, name);
}
}
else if (_className.length() == 0) {
/*
* Warn user if external function could not be resolved.
* Warning will _NOT_ be issued is the call is properly
* wrapped in an or element. For details
* see If.parserContents() and When.parserContents()
*/
final Parser parser = getParser();
if (parser != null) {
reportWarning(this, parser, ErrorMsg.FUNCTION_RESOLVE_ERR,
_fname.toString());
}
unresolvedExternal = true;
return _type = Type.Int; // use "Int" as "unknown"
}
}
final Vector methods = findMethods();
if (methods == null) {
// Method not found in this class
throw new TypeCheckError(ErrorMsg.METHOD_NOT_FOUND_ERR, _className + "." + name);
}
Class extType = null;
final int nMethods = methods.size();
final Vector argsType = typeCheckArgs(stable);
// Try all methods to identify the best fit
int bestMethodDistance = Integer.MAX_VALUE;
_type = null; // reset internal type
for (int j, i = 0; i < nMethods; i++) {
// Check if all paramteters to this method can be converted
final Method method = (Method)methods.elementAt(i);
final Class[] paramTypes = method.getParameterTypes();
int currMethodDistance = 0;
for (j = 0; j < nArgs; j++) {
// Convert from internal (translet) type to external (Java) type
extType = paramTypes[j];
final Type intType = (Type)argsType.elementAt(j);
Object match = _internal2Java.maps(intType, extType);
if (match != null) {
currMethodDistance += ((JavaType)match).distance;
}
else {
// no mapping available
//
// Allow a Reference type to match any external (Java) type at
// the moment. The real type checking is performed at runtime.
if (intType instanceof ReferenceType) {
currMethodDistance += 1;
}
else if (intType instanceof ObjectType) {
ObjectType object = (ObjectType)intType;
if (extType.getName().equals(object.getJavaClassName()))
currMethodDistance += 0;
else if (extType.isAssignableFrom(object.getJavaClass()))
currMethodDistance += 1;
else {
currMethodDistance = Integer.MAX_VALUE;
break;
}
}
else {
currMethodDistance = Integer.MAX_VALUE;
break;
}
}
}
if (j == nArgs) {
// Check if the return type can be converted
extType = method.getReturnType();
_type = (Type) _java2Internal.get(extType);
if (_type == null) {
_type = Type.newObjectType(extType);
}
// Use this method if all parameters & return type match
if (_type != null && currMethodDistance < bestMethodDistance) {
_chosenMethod = method;
bestMethodDistance = currMethodDistance;
}
}
}
// It is an error if the chosen method is an instance menthod but we don't
// have a this argument.
if (_chosenMethod != null && _thisArgument == null &&
!Modifier.isStatic(_chosenMethod.getModifiers())) {
throw new TypeCheckError(ErrorMsg.NO_JAVA_FUNCT_THIS_REF, getMethodSignature(argsType));
}
if (_type != null) {
if (_type == Type.NodeSet) {
getXSLTC().setMultiDocument(true);
}
return _type;
}
throw new TypeCheckError(ErrorMsg.ARGUMENT_CONVERSION_ERR, getMethodSignature(argsType));
}
/**
* Type check the actual arguments of this function call.
*/
public Vector typeCheckArgs(SymbolTable stable) throws TypeCheckError {
final Vector result = new Vector();
final Enumeration e = _arguments.elements();
while (e.hasMoreElements()) {
final Expression exp = (Expression)e.nextElement();
result.addElement(exp.typeCheck(stable));
}
return result;
}
protected final Expression argument(int i) {
return (Expression)_arguments.elementAt(i);
}
protected final Expression argument() {
return argument(0);
}
protected final int argumentCount() {
return _arguments.size();
}
protected final void setArgument(int i, Expression exp) {
_arguments.setElementAt(exp, i);
}
/**
* Compile the function call and treat as an expression
* Update true/false-lists.
*/
public void translateDesynthesized(ClassGenerator classGen,
MethodGenerator methodGen)
{
Type type = Type.Boolean;
if (_chosenMethodType != null)
type = _chosenMethodType.resultType();
final InstructionList il = methodGen.getInstructionList();
translate(classGen, methodGen);
if ((type instanceof BooleanType) || (type instanceof IntType)) {
_falseList.add(il.append(new IFEQ(null)));
}
}
/**
* Translate a function call. The compiled code will leave the function's
* return value on the JVM's stack.
*/
public void translate(ClassGenerator classGen, MethodGenerator methodGen) {
final int n = argumentCount();
final ConstantPoolGen cpg = classGen.getConstantPool();
final InstructionList il = methodGen.getInstructionList();
final boolean isSecureProcessing = classGen.getParser().getXSLTC().isSecureProcessing();
int index;
// Translate calls to methods in the BasisLibrary
if (isStandard() || isExtension()) {
for (int i = 0; i < n; i++) {
final Expression exp = argument(i);
exp.translate(classGen, methodGen);
exp.startIterator(classGen, methodGen);
}
// append "F" to the function's name
final String name = _fname.toString().replace('-', '_') + "F";
String args = Constants.EMPTYSTRING;
// Special precautions for some method calls
if (name.equals("sumF")) {
args = DOM_INTF_SIG;
il.append(methodGen.loadDOM());
}
else if (name.equals("normalize_spaceF")) {
if (_chosenMethodType.toSignature(args).
equals("()Ljava/lang/String;")) {
args = "I"+DOM_INTF_SIG;
il.append(methodGen.loadContextNode());
il.append(methodGen.loadDOM());
}
}
// Invoke the method in the basis library
index = cpg.addMethodref(BASIS_LIBRARY_CLASS, name,
_chosenMethodType.toSignature(args));
il.append(new INVOKESTATIC(index));
}
// Add call to BasisLibrary.unresolved_externalF() to generate
// run-time error message for unsupported external functions
else if (unresolvedExternal) {
index = cpg.addMethodref(BASIS_LIBRARY_CLASS,
"unresolved_externalF",
"(Ljava/lang/String;)V");
il.append(new PUSH(cpg, _fname.toString()));
il.append(new INVOKESTATIC(index));
}
else if (_isExtConstructor) {
if (isSecureProcessing)
translateUnallowedExtension(cpg, il);
final String clazz =
_chosenConstructor.getDeclaringClass().getName();
Class[] paramTypes = _chosenConstructor.getParameterTypes();
LocalVariableGen[] paramTemp = new LocalVariableGen[n];
// Backwards branches are prohibited if an uninitialized object is
// on the stack by section 4.9.4 of the JVM Specification, 2nd Ed.
// We don't know whether this code might contain backwards branches
// so we mustn't create the new object until after we've created
// the suspect arguments to its constructor. Instead we calculate
// the values of the arguments to the constructor first, store them
// in temporary variables, create the object and reload the
// arguments from the temporaries to avoid the problem.
for (int i = 0; i < n; i++) {
final Expression exp = argument(i);
Type expType = exp.getType();
exp.translate(classGen, methodGen);
// Convert the argument to its Java type
exp.startIterator(classGen, methodGen);
expType.translateTo(classGen, methodGen, paramTypes[i]);
paramTemp[i] =
methodGen.addLocalVariable("function_call_tmp"+i,
expType.toJCType(),
il.getEnd(), null);
il.append(expType.STORE(paramTemp[i].getIndex()));
}
il.append(new NEW(cpg.addClass(_className)));
il.append(InstructionConstants.DUP);
for (int i = 0; i < n; i++) {
final Expression arg = argument(i);
il.append(arg.getType().LOAD(paramTemp[i].getIndex()));
}
final StringBuffer buffer = new StringBuffer();
buffer.append('(');
for (int i = 0; i < paramTypes.length; i++) {
buffer.append(getSignature(paramTypes[i]));
}
buffer.append(')');
buffer.append("V");
index = cpg.addMethodref(clazz,
"",
buffer.toString());
il.append(new INVOKESPECIAL(index));
// Convert the return type back to our internal type
(Type.Object).translateFrom(classGen, methodGen,
_chosenConstructor.getDeclaringClass());
}
// Invoke function calls that are handled in separate classes
else {
if (isSecureProcessing)
translateUnallowedExtension(cpg, il);
final String clazz = _chosenMethod.getDeclaringClass().getName();
Class[] paramTypes = _chosenMethod.getParameterTypes();
// Push "this" if it is an instance method
if (_thisArgument != null) {
_thisArgument.translate(classGen, methodGen);
}
for (int i = 0; i < n; i++) {
final Expression exp = argument(i);
exp.translate(classGen, methodGen);
// Convert the argument to its Java type
exp.startIterator(classGen, methodGen);
exp.getType().translateTo(classGen, methodGen, paramTypes[i]);
}
final StringBuffer buffer = new StringBuffer();
buffer.append('(');
for (int i = 0; i < paramTypes.length; i++) {
buffer.append(getSignature(paramTypes[i]));
}
buffer.append(')');
buffer.append(getSignature(_chosenMethod.getReturnType()));
if (_thisArgument != null && _clazz.isInterface()) {
index = cpg.addInterfaceMethodref(clazz,
_fname.getLocalPart(),
buffer.toString());
il.append(new INVOKEINTERFACE(index, n+1));
}
else {
index = cpg.addMethodref(clazz,
_fname.getLocalPart(),
buffer.toString());
il.append(_thisArgument != null ? (InvokeInstruction) new INVOKEVIRTUAL(index) :
(InvokeInstruction) new INVOKESTATIC(index));
}
// Convert the return type back to our internal type
_type.translateFrom(classGen, methodGen,
_chosenMethod.getReturnType());
}
}
public String toString() {
return "funcall(" + _fname + ", " + _arguments + ')';
}
public boolean isStandard() {
final String namespace = _fname.getNamespace();
return (namespace == null) || (namespace.equals(Constants.EMPTYSTRING));
}
public boolean isExtension() {
final String namespace = _fname.getNamespace();
return (namespace != null) && (namespace.equals(EXT_XSLTC));
}
/**
* Returns a vector with all methods named _fname
* after stripping its namespace or null
* if no such methods exist.
*/
private Vector findMethods() {
Vector result = null;
final String namespace = _fname.getNamespace();
if (_className != null && _className.length() > 0) {
final int nArgs = _arguments.size();
try {
if (_clazz == null) {
_clazz = ObjectFactory.findProviderClass(
_className, ObjectFactory.findClassLoader(), true);
if (_clazz == null) {
final ErrorMsg msg =
new ErrorMsg(ErrorMsg.CLASS_NOT_FOUND_ERR, _className);
getParser().reportError(Constants.ERROR, msg);
}
}
final String methodName = _fname.getLocalPart();
final Method[] methods = _clazz.getMethods();
for (int i = 0; i < methods.length; i++) {
final int mods = methods[i].getModifiers();
// Is it public and same number of args ?
if (Modifier.isPublic(mods)
&& methods[i].getName().equals(methodName)
&& methods[i].getParameterTypes().length == nArgs)
{
if (result == null) {
result = new Vector();
}
result.addElement(methods[i]);
}
}
}
catch (ClassNotFoundException e) {
final ErrorMsg msg = new ErrorMsg(ErrorMsg.CLASS_NOT_FOUND_ERR, _className);
getParser().reportError(Constants.ERROR, msg);
}
}
return result;
}
/**
* Returns a vector with all constructors named _fname
* after stripping its namespace or null
* if no such methods exist.
*/
private Vector findConstructors() {
Vector result = null;
final String namespace = _fname.getNamespace();
final int nArgs = _arguments.size();
try {
if (_clazz == null) {
_clazz = ObjectFactory.findProviderClass(
_className, ObjectFactory.findClassLoader(), true);
if (_clazz == null) {
final ErrorMsg msg = new ErrorMsg(ErrorMsg.CLASS_NOT_FOUND_ERR, _className);
getParser().reportError(Constants.ERROR, msg);
}
}
final Constructor[] constructors = _clazz.getConstructors();
for (int i = 0; i < constructors.length; i++) {
final int mods = constructors[i].getModifiers();
// Is it public, static and same number of args ?
if (Modifier.isPublic(mods) &&
constructors[i].getParameterTypes().length == nArgs)
{
if (result == null) {
result = new Vector();
}
result.addElement(constructors[i]);
}
}
}
catch (ClassNotFoundException e) {
final ErrorMsg msg = new ErrorMsg(ErrorMsg.CLASS_NOT_FOUND_ERR, _className);
getParser().reportError(Constants.ERROR, msg);
}
return result;
}
/**
* Compute the JVM signature for the class.
*/
static final String getSignature(Class clazz) {
if (clazz.isArray()) {
final StringBuffer sb = new StringBuffer();
Class cl = clazz;
while (cl.isArray()) {
sb.append("[");
cl = cl.getComponentType();
}
sb.append(getSignature(cl));
return sb.toString();
}
else if (clazz.isPrimitive()) {
if (clazz == Integer.TYPE) {
return "I";
}
else if (clazz == Byte.TYPE) {
return "B";
}
else if (clazz == Long.TYPE) {
return "J";
}
else if (clazz == Float.TYPE) {
return "F";
}
else if (clazz == Double.TYPE) {
return "D";
}
else if (clazz == Short.TYPE) {
return "S";
}
else if (clazz == Character.TYPE) {
return "C";
}
else if (clazz == Boolean.TYPE) {
return "Z";
}
else if (clazz == Void.TYPE) {
return "V";
}
else {
final String name = clazz.toString();
ErrorMsg err = new ErrorMsg(ErrorMsg.UNKNOWN_SIG_TYPE_ERR,name);
throw new Error(err.toString());
}
}
else {
return "L" + clazz.getName().replace('.', '/') + ';';
}
}
/**
* Compute the JVM method descriptor for the method.
*/
static final String getSignature(Method meth) {
final StringBuffer sb = new StringBuffer();
sb.append('(');
final Class[] params = meth.getParameterTypes(); // avoid clone
for (int j = 0; j < params.length; j++) {
sb.append(getSignature(params[j]));
}
return sb.append(')').append(getSignature(meth.getReturnType()))
.toString();
}
/**
* Compute the JVM constructor descriptor for the constructor.
*/
static final String getSignature(Constructor cons) {
final StringBuffer sb = new StringBuffer();
sb.append('(');
final Class[] params = cons.getParameterTypes(); // avoid clone
for (int j = 0; j < params.length; j++) {
sb.append(getSignature(params[j]));
}
return sb.append(")V").toString();
}
/**
* Return the signature of the current method
*/
private String getMethodSignature(Vector argsType) {
final StringBuffer buf = new StringBuffer(_className);
buf.append('.').append(_fname.getLocalPart()).append('(');
int nArgs = argsType.size();
for (int i = 0; i < nArgs; i++) {
final Type intType = (Type)argsType.elementAt(i);
buf.append(intType.toString());
if (i < nArgs - 1) buf.append(", ");
}
buf.append(')');
return buf.toString();
}
/**
* To support EXSLT extensions, convert names with dash to allowable Java names:
* e.g., convert abc-xyz to abcXyz.
* Note: dashes only appear in middle of an EXSLT function or element name.
*/
protected static String replaceDash(String name)
{
char dash = '-';
StringBuffer buff = new StringBuffer("");
for (int i = 0; i < name.length(); i++) {
if (i > 0 && name.charAt(i-1) == dash)
buff.append(Character.toUpperCase(name.charAt(i)));
else if (name.charAt(i) != dash)
buff.append(name.charAt(i));
}
return buff.toString();
}
/**
* Translate code to call the BasisLibrary.unallowed_extensionF(String)
* method.
*/
private void translateUnallowedExtension(ConstantPoolGen cpg,
InstructionList il) {
int index = cpg.addMethodref(BASIS_LIBRARY_CLASS,
"unallowed_extension_functionF",
"(Ljava/lang/String;)V");
il.append(new PUSH(cpg, _fname.toString()));
il.append(new INVOKESTATIC(index));
}
}