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Rhino is an open-source implementation of JavaScript written entirely in Java. It is typically embedded into Java applications to provide scripting to end users.

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/* -*- Mode: java; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
 *
 * ***** BEGIN LICENSE BLOCK *****
 * Version: MPL 1.1/GPL 2.0
 *
 * The contents of this file are subject to the Mozilla Public License Version
 * 1.1 (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.mozilla.org/MPL/
 *
 * Software distributed under the License is distributed on an "AS IS" basis,
 * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
 * for the specific language governing rights and limitations under the
 * License.
 *
 * The Original Code is Rhino code, released
 * May 6, 1999.
 *
 * The Initial Developer of the Original Code is
 * Netscape Communications Corporation.
 * Portions created by the Initial Developer are Copyright (C) 1997-1999
 * the Initial Developer. All Rights Reserved.
 *
 * Contributor(s):
 *   Norris Boyd
 *   Igor Bukanov
 *   Roger Lawrence
 *   Mike McCabe
 *
 * Alternatively, the contents of this file may be used under the terms of
 * the GNU General Public License Version 2 or later (the "GPL"), in which
 * case the provisions of the GPL are applicable instead of those above. If
 * you wish to allow use of your version of this file only under the terms of
 * the GPL and not to allow others to use your version of this file under the
 * MPL, indicate your decision by deleting the provisions above and replacing
 * them with the notice and other provisions required by the GPL. If you do
 * not delete the provisions above, a recipient may use your version of this
 * file under either the MPL or the GPL.
 *
 * ***** END LICENSE BLOCK ***** */

package org.mozilla.javascript;

/**
 * The base class for Function objects
 * See ECMA 15.3.
 * @author Norris Boyd
 */
public class BaseFunction extends IdScriptableObject implements Function
{

    static final long serialVersionUID = 5311394446546053859L;

    private static final Object FUNCTION_TAG = new Object();

    static void init(Scriptable scope, boolean sealed)
    {
        BaseFunction obj = new BaseFunction();
        obj.isPrototypePropertyImmune = true;
        obj.exportAsJSClass(MAX_PROTOTYPE_ID, scope, sealed);
    }

    public BaseFunction()
    {
    }

    public BaseFunction(Scriptable scope, Scriptable prototype)
    {
        super(scope, prototype);
    }

    public String getClassName() {
        return "Function";
    }

    /**
     * Implements the instanceof operator for JavaScript Function objects.
     * 

* * foo = new Foo();
* foo instanceof Foo; // true
*
* * @param instance The value that appeared on the LHS of the instanceof * operator * @return true if the "prototype" property of "this" appears in * value's prototype chain * */ public boolean hasInstance(Scriptable instance) { Object protoProp = ScriptableObject.getProperty(this, "prototype"); if (protoProp instanceof Scriptable) { return ScriptRuntime.jsDelegatesTo(instance, (Scriptable)protoProp); } throw ScriptRuntime.typeError1("msg.instanceof.bad.prototype", getFunctionName()); } // #string_id_map# private static final int Id_length = 1, Id_arity = 2, Id_name = 3, Id_prototype = 4, Id_arguments = 5, MAX_INSTANCE_ID = 5; protected int getMaxInstanceId() { return MAX_INSTANCE_ID; } protected int findInstanceIdInfo(String s) { int id; // #generated# Last update: 2001-05-20 00:12:12 GMT+02:00 L0: { id = 0; String X = null; int c; L: switch (s.length()) { case 4: X="name";id=Id_name; break L; case 5: X="arity";id=Id_arity; break L; case 6: X="length";id=Id_length; break L; case 9: c=s.charAt(0); if (c=='a') { X="arguments";id=Id_arguments; } else if (c=='p') { X="prototype";id=Id_prototype; } break L; } if (X!=null && X!=s && !X.equals(s)) id = 0; } // #/generated# // #/string_id_map# if (id == 0) return super.findInstanceIdInfo(s); int attr; switch (id) { case Id_length: case Id_arity: case Id_name: attr = DONTENUM | READONLY | PERMANENT; break; case Id_prototype: attr = (isPrototypePropertyImmune) ? DONTENUM | READONLY | PERMANENT : DONTENUM; break; case Id_arguments: attr = DONTENUM | PERMANENT; break; default: throw new IllegalStateException(); } return instanceIdInfo(attr, id); } protected String getInstanceIdName(int id) { switch (id) { case Id_length: return "length"; case Id_arity: return "arity"; case Id_name: return "name"; case Id_prototype: return "prototype"; case Id_arguments: return "arguments"; } return super.getInstanceIdName(id); } protected Object getInstanceIdValue(int id) { switch (id) { case Id_length: return ScriptRuntime.wrapInt(getLength()); case Id_arity: return ScriptRuntime.wrapInt(getArity()); case Id_name: return getFunctionName(); case Id_prototype: return getPrototypeProperty(); case Id_arguments: return getArguments(); } return super.getInstanceIdValue(id); } protected void setInstanceIdValue(int id, Object value) { if (id == Id_prototype) { if (!isPrototypePropertyImmune) { prototypeProperty = (value != null) ? value : UniqueTag.NULL_VALUE; } return; } else if (id == Id_arguments) { if (value == NOT_FOUND) { // This should not be called since "arguments" is PERMANENT Kit.codeBug(); } defaultPut("arguments", value); } super.setInstanceIdValue(id, value); } protected void fillConstructorProperties(IdFunctionObject ctor) { // Fix up bootstrapping problem: getPrototype of the IdFunctionObject // can not return Function.prototype because Function object is not // yet defined. ctor.setPrototype(this); super.fillConstructorProperties(ctor); } protected void initPrototypeId(int id) { String s; int arity; switch (id) { case Id_constructor: arity=1; s="constructor"; break; case Id_toString: arity=1; s="toString"; break; case Id_toSource: arity=1; s="toSource"; break; case Id_apply: arity=2; s="apply"; break; case Id_call: arity=1; s="call"; break; default: throw new IllegalArgumentException(String.valueOf(id)); } initPrototypeMethod(FUNCTION_TAG, id, s, arity); } public Object execIdCall(IdFunctionObject f, Context cx, Scriptable scope, Scriptable thisObj, Object[] args) { if (!f.hasTag(FUNCTION_TAG)) { return super.execIdCall(f, cx, scope, thisObj, args); } int id = f.methodId(); switch (id) { case Id_constructor: return jsConstructor(cx, scope, args); case Id_toString: { BaseFunction realf = realFunction(thisObj, f); int indent = ScriptRuntime.toInt32(args, 0); return realf.decompile(indent, 0); } case Id_toSource: { BaseFunction realf = realFunction(thisObj, f); int indent = 0; int flags = Decompiler.TO_SOURCE_FLAG; if (args.length != 0) { indent = ScriptRuntime.toInt32(args[0]); if (indent >= 0) { flags = 0; } else { indent = 0; } } return realf.decompile(indent, flags); } case Id_apply: case Id_call: return ScriptRuntime.applyOrCall(id == Id_apply, cx, scope, thisObj, args); } throw new IllegalArgumentException(String.valueOf(id)); } private BaseFunction realFunction(Scriptable thisObj, IdFunctionObject f) { Object x = thisObj.getDefaultValue(ScriptRuntime.FunctionClass); if (x instanceof BaseFunction) { return (BaseFunction)x; } throw ScriptRuntime.typeError1("msg.incompat.call", f.getFunctionName()); } /** * Make value as DontEnum, DontDelete, ReadOnly * prototype property of this Function object */ public void setImmunePrototypeProperty(Object value) { if (isPrototypePropertyImmune) { throw new IllegalStateException(); } prototypeProperty = (value != null) ? value : UniqueTag.NULL_VALUE; isPrototypePropertyImmune = true; } protected Scriptable getClassPrototype() { Object protoVal = getPrototypeProperty(); if (protoVal instanceof Scriptable) { return (Scriptable) protoVal; } return getClassPrototype(this, "Object"); } /** * Should be overridden. */ public Object call(Context cx, Scriptable scope, Scriptable thisObj, Object[] args) { return Undefined.instance; } public Scriptable construct(Context cx, Scriptable scope, Object[] args) { Scriptable result = createObject(cx, scope); if (result != null) { Object val = call(cx, scope, result, args); if (val instanceof Scriptable) { result = (Scriptable)val; } } else { Object val = call(cx, scope, null, args); if (!(val instanceof Scriptable)) { // It is program error not to return Scriptable from // the call method if createObject returns null. throw new IllegalStateException( "Bad implementaion of call as constructor, name=" +getFunctionName()+" in "+getClass().getName()); } result = (Scriptable)val; if (result.getPrototype() == null) { result.setPrototype(getClassPrototype()); } if (result.getParentScope() == null) { Scriptable parent = getParentScope(); if (result != parent) { result.setParentScope(parent); } } } return result; } /** * Creates new script object. * The default implementation of {@link #construct} uses the method to * to get the value for thisObj argument when invoking * {@link #call}. * The methos is allowed to return null to indicate that * {@link #call} will create a new object itself. In this case * {@link #construct} will set scope and prototype on the result * {@link #call} unless they are already set. */ public Scriptable createObject(Context cx, Scriptable scope) { Scriptable newInstance = new NativeObject(); newInstance.setPrototype(getClassPrototype()); newInstance.setParentScope(getParentScope()); return newInstance; } /** * Decompile the source information associated with this js * function/script back into a string. * * @param indent How much to indent the decompiled result. * * @param flags Flags specifying format of decompilation output. */ String decompile(int indent, int flags) { StringBuffer sb = new StringBuffer(); boolean justbody = (0 != (flags & Decompiler.ONLY_BODY_FLAG)); if (!justbody) { sb.append("function "); sb.append(getFunctionName()); sb.append("() {\n\t"); } sb.append("[native code, arity="); sb.append(getArity()); sb.append("]\n"); if (!justbody) { sb.append("}\n"); } return sb.toString(); } public int getArity() { return 0; } public int getLength() { return 0; } public String getFunctionName() { return ""; } final Object getPrototypeProperty() { Object result = prototypeProperty; if (result == null) { synchronized (this) { result = prototypeProperty; if (result == null) { setupDefaultPrototype(); result = prototypeProperty; } } } else if (result == UniqueTag.NULL_VALUE) { result = null; } return result; } private void setupDefaultPrototype() { NativeObject obj = new NativeObject(); final int attr = ScriptableObject.DONTENUM; obj.defineProperty("constructor", this, attr); // put the prototype property into the object now, then in the // wacky case of a user defining a function Object(), we don't // get an infinite loop trying to find the prototype. prototypeProperty = obj; Scriptable proto = getObjectPrototype(this); if (proto != obj) { // not the one we just made, it must remain grounded obj.setPrototype(proto); } } private Object getArguments() { // .arguments is deprecated, so we use a slow // way of getting it that doesn't add to the invocation cost. // TODO: add warning, error based on version Object value = defaultGet("arguments"); if (value != NOT_FOUND) { // Should after changing .arguments its // activation still be available during Function call? // This code assumes it should not: // defaultGet("arguments") != NOT_FOUND // means assigned arguments return value; } Context cx = Context.getContext(); NativeCall activation = ScriptRuntime.findFunctionActivation(cx, this); return (activation == null) ? null : activation.get("arguments", activation); } private static Object jsConstructor(Context cx, Scriptable scope, Object[] args) { int arglen = args.length; StringBuffer sourceBuf = new StringBuffer(); sourceBuf.append("function "); /* version != 1.2 Function constructor behavior - * print 'anonymous' as the function name if the * version (under which the function was compiled) is * less than 1.2... or if it's greater than 1.2, because * we need to be closer to ECMA. */ if (cx.getLanguageVersion() != Context.VERSION_1_2) { sourceBuf.append("anonymous"); } sourceBuf.append('('); // Append arguments as coma separated strings for (int i = 0; i < arglen - 1; i++) { if (i > 0) { sourceBuf.append(','); } sourceBuf.append(ScriptRuntime.toString(args[i])); } sourceBuf.append(") {"); if (arglen != 0) { // append function body String funBody = ScriptRuntime.toString(args[arglen - 1]); sourceBuf.append(funBody); } sourceBuf.append('}'); String source = sourceBuf.toString(); int[] linep = new int[1]; String filename = Context.getSourcePositionFromStack(linep); if (filename == null) { filename = ""; linep[0] = 1; } String sourceURI = ScriptRuntime. makeUrlForGeneratedScript(false, filename, linep[0]); Scriptable global = ScriptableObject.getTopLevelScope(scope); ErrorReporter reporter; reporter = DefaultErrorReporter.forEval(cx.getErrorReporter()); // Compile with explicit interpreter instance to force interpreter // mode. return cx.compileFunction(global, source, new Interpreter(), reporter, sourceURI, 1, null); } protected int findPrototypeId(String s) { int id; // #string_id_map# // #generated# Last update: 2004-03-17 13:23:22 CET L0: { id = 0; String X = null; int c; L: switch (s.length()) { case 4: X="call";id=Id_call; break L; case 5: X="apply";id=Id_apply; break L; case 8: c=s.charAt(3); if (c=='o') { X="toSource";id=Id_toSource; } else if (c=='t') { X="toString";id=Id_toString; } break L; case 11: X="constructor";id=Id_constructor; break L; } if (X!=null && X!=s && !X.equals(s)) id = 0; } // #/generated# return id; } private static final int Id_constructor = 1, Id_toString = 2, Id_toSource = 3, Id_apply = 4, Id_call = 5, MAX_PROTOTYPE_ID = 5; // #/string_id_map# private Object prototypeProperty; private boolean isPrototypePropertyImmune; }





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