function_object.cpp [plain text]
#include "config.h"
#include "function_object.h"
#include "internal.h"
#include "function.h"
#include "array_object.h"
#include "nodes.h"
#include "lexer.h"
#include "debugger.h"
#include "object.h"
#include <assert.h>
#include <stdio.h>
#include <string.h>
using namespace KJS;
FunctionPrototype::FunctionPrototype(ExecState *exec)
{
putDirect(lengthPropertyName, jsNumber(0), DontDelete|ReadOnly|DontEnum);
putDirectFunction(new FunctionProtoFunc(exec, this, FunctionProtoFunc::ToString, 0, toStringPropertyName), DontEnum);
static const Identifier applyPropertyName("apply");
putDirectFunction(new FunctionProtoFunc(exec, this, FunctionProtoFunc::Apply, 2, applyPropertyName), DontEnum);
static const Identifier callPropertyName("call");
putDirectFunction(new FunctionProtoFunc(exec, this, FunctionProtoFunc::Call, 1, callPropertyName), DontEnum);
}
FunctionPrototype::~FunctionPrototype()
{
}
JSValue *FunctionPrototype::callAsFunction(ExecState *, JSObject *, const List &)
{
return jsUndefined();
}
FunctionProtoFunc::FunctionProtoFunc(ExecState*, FunctionPrototype* funcProto, int i, int len, const Identifier& name)
: InternalFunctionImp(funcProto, name)
, id(i)
{
putDirect(lengthPropertyName, len, DontDelete|ReadOnly|DontEnum);
}
JSValue *FunctionProtoFunc::callAsFunction(ExecState *exec, JSObject *thisObj, const List &args)
{
JSValue *result = NULL;
switch (id) {
case ToString:
if (!thisObj || !thisObj->inherits(&InternalFunctionImp::info)) {
#ifndef NDEBUG
fprintf(stderr,"attempted toString() call on null or non-function object\n");
#endif
return throwError(exec, TypeError);
}
if (thisObj->inherits(&DeclaredFunctionImp::info)) {
DeclaredFunctionImp *fi = static_cast<DeclaredFunctionImp*>(thisObj);
return jsString("function " + fi->functionName().ustring() + "(" +
fi->parameterString() + ") " + fi->body->toString());
} else if (thisObj->inherits(&InternalFunctionImp::info) &&
!static_cast<InternalFunctionImp*>(thisObj)->functionName().isNull()) {
result = jsString("\nfunction " + static_cast<InternalFunctionImp*>(thisObj)->functionName().ustring() + "() {\n"
" [native code]\n}\n");
} else {
result = jsString("[function]");
}
break;
case Apply: {
JSValue *thisArg = args[0];
JSValue *argArray = args[1];
JSObject *func = thisObj;
if (!func->implementsCall())
return throwError(exec, TypeError);
JSObject *applyThis;
if (thisArg->isUndefinedOrNull())
applyThis = exec->dynamicInterpreter()->globalObject();
else
applyThis = thisArg->toObject(exec);
List applyArgs;
if (!argArray->isUndefinedOrNull()) {
if (argArray->isObject() &&
(static_cast<JSObject *>(argArray)->inherits(&ArrayInstance::info) ||
static_cast<JSObject *>(argArray)->inherits(&Arguments::info))) {
JSObject *argArrayObj = static_cast<JSObject *>(argArray);
unsigned int length = argArrayObj->get(exec,lengthPropertyName)->toUInt32(exec);
for (unsigned int i = 0; i < length; i++)
applyArgs.append(argArrayObj->get(exec,i));
}
else
return throwError(exec, TypeError);
}
result = func->call(exec,applyThis,applyArgs);
}
break;
case Call: {
JSValue *thisArg = args[0];
JSObject *func = thisObj;
if (!func->implementsCall())
return throwError(exec, TypeError);
JSObject *callThis;
if (thisArg->isUndefinedOrNull())
callThis = exec->dynamicInterpreter()->globalObject();
else
callThis = thisArg->toObject(exec);
result = func->call(exec,callThis,args.copyTail());
}
break;
}
return result;
}
FunctionObjectImp::FunctionObjectImp(ExecState*, FunctionPrototype* funcProto)
: InternalFunctionImp(funcProto)
{
putDirect(prototypePropertyName, funcProto, DontEnum|DontDelete|ReadOnly);
putDirect(lengthPropertyName, jsNumber(1), ReadOnly|DontDelete|DontEnum);
}
FunctionObjectImp::~FunctionObjectImp()
{
}
bool FunctionObjectImp::implementsConstruct() const
{
return true;
}
JSObject* FunctionObjectImp::construct(ExecState* exec, const List& args, const Identifier& functionName, const UString& sourceURL, int lineNumber)
{
UString p("");
UString body;
int argsSize = args.size();
if (argsSize == 0) {
body = "";
} else if (argsSize == 1) {
body = args[0]->toString(exec);
} else {
p = args[0]->toString(exec);
for (int k = 1; k < argsSize - 1; k++)
p += "," + args[k]->toString(exec);
body = args[argsSize-1]->toString(exec);
}
int sid;
int errLine;
UString errMsg;
RefPtr<ProgramNode> progNode = Parser::parse(sourceURL, lineNumber, body.data(),body.size(),&sid,&errLine,&errMsg);
Debugger *dbg = exec->dynamicInterpreter()->debugger();
if (dbg) {
bool cont = dbg->sourceParsed(exec, sid, UString(), body, lineNumber, errLine, errMsg);
if (!cont) {
dbg->imp()->abort();
return new JSObject();
}
}
if (!progNode)
return throwError(exec, SyntaxError, errMsg, errLine, sid, sourceURL);
ScopeChain scopeChain;
scopeChain.push(exec->lexicalInterpreter()->globalObject());
FunctionBodyNode *bodyNode = progNode.get();
FunctionImp* fimp = new DeclaredFunctionImp(exec, functionName, bodyNode, scopeChain);
int len = p.size();
const UChar *c = p.data();
int i = 0, params = 0;
UString param;
while (i < len) {
while (*c == ' ' && i < len)
c++, i++;
if (Lexer::isIdentStart(c->uc)) { param = UString(c, 1);
c++, i++;
while (i < len && (Lexer::isIdentPart(c->uc))) {
param += UString(c, 1);
c++, i++;
}
while (i < len && *c == ' ')
c++, i++;
if (i == len) {
fimp->addParameter(Identifier(param));
params++;
break;
} else if (*c == ',') {
fimp->addParameter(Identifier(param));
params++;
c++, i++;
continue;
} }
return throwError(exec, SyntaxError, "Syntax error in parameter list");
}
List consArgs;
JSObject *objCons = exec->lexicalInterpreter()->builtinObject();
JSObject *prototype = objCons->construct(exec,List::empty());
prototype->put(exec, constructorPropertyName, fimp, DontEnum|DontDelete|ReadOnly);
fimp->put(exec, prototypePropertyName, prototype, DontEnum|DontDelete|ReadOnly);
return fimp;
}
JSObject* FunctionObjectImp::construct(ExecState* exec, const List& args)
{
return construct(exec, args, "anonymous", UString(), 0);
}
JSValue* FunctionObjectImp::callAsFunction(ExecState* exec, JSObject* , const List &args)
{
return construct(exec, args);
}