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Mozilla/mozilla/js2/src/js2op_invocation.cpp
rogerl%netscape.com 602d6ca073 String.prototype bug fixn's 
git-svn-id: svn://10.0.0.236/trunk@139201 18797224-902f-48f8-a5cc-f745e15eee43
2003-03-10 16:15:52 +00:00

399 lines
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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
*
* The contents of this file are subject to the Netscape 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/NPL/
*
* 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 the JavaScript 2 Prototype.
*
* The Initial Developer of the Original Code is Netscape
* Communications Corporation. Portions created by Netscape are
* Copyright (C) 1998 Netscape Communications Corporation. All
* Rights Reserved.
*
* Contributor(s):
*
* Alternatively, the contents of this file may be used under the
* terms of the GNU Public License (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 NPL, indicate your decision by
* deleting the provisions above and replace 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 NPL or the GPL.
*/
case eNew:
{
uint16 argCount = BytecodeContainer::getShort(pc);
pc += sizeof(uint16);
a = top(argCount + 1);
if (!JS2VAL_IS_OBJECT(a) || JS2VAL_IS_NULL(a)) {
meta->reportError(Exception::badValueError, "object is not a constructor", errorPos());
}
JS2Object *obj = JS2VAL_TO_OBJECT(a);
if (obj->kind == ClassKind) {
JS2Class *c = checked_cast<JS2Class *>(obj);
a = c->construct(meta, a, base(argCount), argCount);
pop(argCount + 1);
push(a);
}
else {
FunctionWrapper *fWrap = NULL;
if ((obj->kind == SimpleInstanceKind)
&& (meta->objectType(a) == meta->functionClass)) {
fWrap = (checked_cast<SimpleInstance *>(obj))->fWrap;
}
else
if ((obj->kind == PrototypeInstanceKind)
&& ((checked_cast<PrototypeInstance *>(obj))->type == meta->functionClass)) {
fWrap = (checked_cast<FunctionInstance *>(obj))->fWrap;
}
if (fWrap) {
// XXX - I made this stuff up - extract the 'prototype' property from
// the function being invoked (defaulting to Object.prototype). Then
// construct a new prototypeInstance, setting the acquired prototype
// parent. Finally invoke the function, but insert the constructed
// object at the bottom of the stack to be the 'return' value.
// XXX this won't last - if a non-primitive is returned from the function,
// it's supposed to supplant the constructed object. XXX and I think the
// stack is out of balance anyway...
js2val protoVal;
JS2Object *protoObj = meta->objectClass->prototype;
Multiname mn(prototype_StringAtom); // gc safe because the content is rooted elsewhere
LookupKind lookup(true, JS2VAL_NULL); // make it a lexical lookup since we want it to
// fail if 'prototype' hasn't been defined
// XXX (prototype should always exist for functions)
if (meta->readProperty(&a, &mn, &lookup, RunPhase, &protoVal)) {
if (!JS2VAL_IS_OBJECT(protoVal))
meta->reportError(Exception::badValueError, "Non-object prototype value", errorPos());
protoObj = JS2VAL_TO_OBJECT(protoVal);
}
if (fWrap->code) { // native code, pass pointer to argument base
a = fWrap->code(meta, a, base(argCount), argCount);
pop(argCount + 1);
push(a);
}
else {
pFrame = new ParameterFrame(fWrap->compileFrame);
pFrame->instantiate(meta->env);
PrototypeInstance *pInst = new PrototypeInstance(meta, protoObj, meta->objectClass);
baseVal = OBJECT_TO_JS2VAL(pInst);
pFrame->thisObject = baseVal;
pFrame->assignArguments(meta, obj, base(argCount), argCount);
jsr(phase, fWrap->bCon, base(argCount + 1) - execStack, baseVal); // seems out of order, but we need to catch the current top frame
meta->env->addFrame(pFrame);
pFrame = NULL;
}
}
else
meta->reportError(Exception::typeError, "object is not a constructor", errorPos());
// }
// else
// meta->reportError(Exception::typeError, "object is not a constructor", errorPos());
}
}
break;
case eCall:
{
// XXX Remove the arguments from the stack, (native calls have done this already)
// (important that they're tracked for gc in any mechanism)
uint16 argCount = BytecodeContainer::getShort(pc);
pc += sizeof(uint16);
a = top(argCount + 2); // 'this'
b = top(argCount + 1); // target function
uint32 length = 0;
if (JS2VAL_IS_PRIMITIVE(b))
meta->reportError(Exception::badValueError, "Can't call on primitive value", errorPos());
JS2Object *fObj = JS2VAL_TO_OBJECT(b);
FunctionWrapper *fWrap = NULL;
if ((fObj->kind == SimpleInstanceKind)
&& (meta->objectType(b) == meta->functionClass)) {
fWrap = (checked_cast<SimpleInstance *>(fObj))->fWrap;
}
else
if ((fObj->kind == PrototypeInstanceKind)
&& ((checked_cast<PrototypeInstance *>(fObj))->type == meta->functionClass)) {
fWrap = (checked_cast<FunctionInstance *>(fObj))->fWrap;
length = getLength(meta, fObj);
}
if (fWrap) {
if (fWrap->compileFrame->prototype) {
if (JS2VAL_IS_VOID(a) || JS2VAL_IS_NULL(a)) {
Frame *g = meta->env->getPackageOrGlobalFrame();
if (g->kind == GlobalObjectKind)
a = OBJECT_TO_JS2VAL(g);
}
}
if (fWrap->code) { // native code
while (length > argCount) {
push(JS2VAL_UNDEFINED);
argCount++;
}
a = fWrap->code(meta, a, base(argCount), argCount);
pop(argCount + 2);
push(a);
}
else {
pFrame = new ParameterFrame(fWrap->compileFrame);
pFrame->instantiate(meta->env);
pFrame->thisObject = a;
// assignArguments(runtimeFrame, fWrap->compileFrame->signature);
// XXX
pFrame->assignArguments(meta, fObj, base(argCount), argCount);
jsr(phase, fWrap->bCon, base(argCount + 2) - execStack, JS2VAL_VOID); // seems out of order, but we need to catch the current top frame
meta->env->addFrame(pFrame);
pFrame = NULL;
}
}
else
if (fObj->kind == MethodClosureKind) { // XXX I made this up (particularly the frame push of the objectType)
MethodClosure *mc = checked_cast<MethodClosure *>(fObj);
SimpleInstance *fInst = mc->method->fInst;
FunctionWrapper *fWrap = fInst->fWrap;
if (fWrap->code) {
a = fWrap->code(meta, mc->thisObject, base(argCount), argCount);
pop(argCount + 2);
push(a);
}
else {
pFrame = new ParameterFrame(fWrap->compileFrame);
pFrame->instantiate(meta->env);
pFrame->thisObject = mc->thisObject;
// assignArguments(runtimeFrame, fWrap->compileFrame->signature);
pFrame->assignArguments(meta, fObj, base(argCount), argCount);
jsr(phase, fWrap->bCon, base(argCount + 2) - execStack, JS2VAL_VOID); // seems out of order, but we need to catch the current top frame
meta->env->addFrame(meta->objectType(mc->thisObject));
meta->env->addFrame(pFrame);
pFrame = NULL;
}
}
else
if (fObj->kind == ClassKind) {
JS2Class *c = checked_cast<JS2Class *>(fObj);
if (c->call)
a = c->call(meta, JS2VAL_NULL, base(argCount), argCount);
else
a = JS2VAL_UNDEFINED;
pop(argCount + 2);
push(a);
}
else
meta->reportError(Exception::badValueError, "Un-callable object", errorPos());
}
break;
case ePopv:
{
retval = pop();
}
break;
case eVoid:
{
pop();
push(JS2VAL_VOID);
}
break;
case eReturn:
{
retval = top();
rts();
if (pc == NULL)
return retval;
push(retval);
}
break;
case eReturnVoid:
{
rts();
if (pc == NULL)
return retval;
push(retval);
}
break;
case ePushFrame:
{
Frame *f = checked_cast<Frame *>(bCon->mObjectList[BytecodeContainer::getShort(pc)]);
pc += sizeof(short);
meta->env->addFrame(f);
f->instantiate(meta->env);
}
break;
case eWithin:
{
a = pop();
a = meta->toObject(a);
meta->env->addFrame(new WithFrame(JS2VAL_TO_OBJECT(a)));
}
break;
case ePopFrame:
case eWithout:
{
meta->env->removeTopFrame();
}
break;
case eIs:
{
b = pop();
a = pop(); // doing a is b
if (!JS2VAL_IS_OBJECT(b))
meta->reportError(Exception::badValueError, "Type expected", errorPos());
JS2Object *obj = JS2VAL_TO_OBJECT(b);
if (obj->kind != ClassKind)
meta->reportError(Exception::badValueError, "Type expected", errorPos());
JS2Class *isClass = checked_cast<JS2Class *>(obj);
push(BOOLEAN_TO_JS2VAL(meta->objectType(a) == isClass));
}
break;
case eInstanceof: // XXX prototype version
{
b = pop();
a = pop(); // doing a instanceof b
if (!JS2VAL_IS_OBJECT(b))
meta->reportError(Exception::typeError, "Object expected for instanceof", errorPos());
JS2Object *obj = JS2VAL_TO_OBJECT(b);
if ((obj->kind == PrototypeInstanceKind)
&& (checked_cast<PrototypeInstance *>(obj)->type == meta->functionClass)) {
// XXX this is [[hasInstance]] from ECMA3
if (!JS2VAL_IS_OBJECT(a))
push(JS2VAL_FALSE);
else {
if (JS2VAL_TO_OBJECT(a)->kind != PrototypeInstanceKind)
meta->reportError(Exception::typeError, "PrototypeInstance expected for instanceof", errorPos());
JS2Object *a_protoObj = checked_cast<PrototypeInstance *>(JS2VAL_TO_OBJECT(a))->parent;
js2val b_protoVal;
JS2Object *b_protoObj = NULL;
Multiname mn(prototype_StringAtom); // gc safe because the content is rooted elsewhere
LookupKind lookup(true, JS2VAL_NULL); // make it a lexical lookup since we want it to
// fail if 'prototype' hasn't been defined
// XXX (prototype should always exist for functions)
if (meta->readProperty(&a, &mn, &lookup, RunPhase, &b_protoVal)) {
if (!JS2VAL_IS_OBJECT(b_protoVal))
meta->reportError(Exception::typeError, "Non-object prototype value in instanceOf", errorPos());
b_protoObj = JS2VAL_TO_OBJECT(b_protoVal);
}
bool result = false;
while (a_protoObj) {
if (b_protoObj == a_protoObj) {
result = true;
break;
}
a_protoObj = checked_cast<PrototypeInstance *>(a_protoObj)->parent;
}
push(BOOLEAN_TO_JS2VAL(result));
}
}
else { // XXX also support a instanceof <<class>> since some of these are
// the ECMA3 builtins.
if (obj->kind == ClassKind) {
if (!JS2VAL_IS_OBJECT(a))
push(JS2VAL_FALSE);
else {
if (JS2VAL_TO_OBJECT(a)->kind != PrototypeInstanceKind)
meta->reportError(Exception::typeError, "PrototypeInstance expected for instanceof", errorPos());
JS2Object *a_protoObj = checked_cast<PrototypeInstance *>(JS2VAL_TO_OBJECT(a))->parent;
JS2Object *b_protoObj = checked_cast<JS2Class *>(obj)->prototype;
bool result = false;
while (a_protoObj) {
if (b_protoObj == a_protoObj) {
result = true;
break;
}
a_protoObj = checked_cast<PrototypeInstance *>(a_protoObj)->parent;
}
push(BOOLEAN_TO_JS2VAL(result));
}
}
else
meta->reportError(Exception::typeError, "Function or Class expected in instanceOf", errorPos());
}
}
break;
case eTypeof:
{
a = pop();
if (JS2VAL_IS_UNDEFINED(a))
a = STRING_TO_JS2VAL(undefined_StringAtom);
else
if (JS2VAL_IS_BOOLEAN(a))
a = allocString("boolean");
else
if (JS2VAL_IS_NUMBER(a))
a = allocString("number");
else
if (JS2VAL_IS_STRING(a))
a = allocString("string");
else {
ASSERT(JS2VAL_IS_OBJECT(a));
if (JS2VAL_IS_NULL(a))
a = STRING_TO_JS2VAL(object_StringAtom);
else {
JS2Object *obj = JS2VAL_TO_OBJECT(a);
switch (obj->kind) {
case MultinameKind:
a = allocString("namespace");
break;
case AttributeObjectKind:
a = allocString("attribute");
break;
case ClassKind:
case MethodClosureKind:
a = STRING_TO_JS2VAL(Function_StringAtom);
break;
case PrototypeInstanceKind:
if (checked_cast<PrototypeInstance *>(obj)->type == meta->functionClass)
a = STRING_TO_JS2VAL(Function_StringAtom);
else
a = STRING_TO_JS2VAL(object_StringAtom);
break;
case PackageKind:
case GlobalObjectKind:
a = STRING_TO_JS2VAL(object_StringAtom);
break;
case SimpleInstanceKind:
a = STRING_TO_JS2VAL(checked_cast<SimpleInstance *>(obj)->type->getName());
break;
}
}
}
push(a);
}
break;
case eCoerce:
{
JS2Class *c = BytecodeContainer::getType(pc);
pc += sizeof(JS2Class *);
a = pop();
push(c->implicitCoerce(meta, a));
}
break;
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