src/third_party/WebKit/Source/JavaScriptCore/runtime/Operations.h - cobalt - Git at Google

 /*
  *  Copyright (C) 1999-2000 Harri Porten (porten@kde.org)
  *  Copyright (C) 2002, 2005, 2006, 2007, 2008, 2009 Apple Inc. All rights reserved.
  *
  *  This library is free software; you can redistribute it and/or
  *  modify it under the terms of the GNU Library General Public
  *  License as published by the Free Software Foundation; either
  *  version 2 of the License, or (at your option) any later version.
  *
  *  This library 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
  *  Library General Public License for more details.
  *
  *  You should have received a copy of the GNU Library General Public License
  *  along with this library; see the file COPYING.LIB.  If not, write to
  *  the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
  *  Boston, MA 02110-1301, USA.
  *
  */

 #ifndef Operations_h
 #define Operations_h

 #include "ExceptionHelpers.h"
 #include "Interpreter.h"
 #include "JSProxy.h"
 #include "JSString.h"
 #include "JSValueInlines.h"

 namespace JSC {

     NEVER_INLINE JSValue jsAddSlowCase(CallFrame*, JSValue, JSValue);
     JSValue jsTypeStringForValue(CallFrame*, JSValue);
     bool jsIsObjectType(CallFrame*, JSValue);
     bool jsIsFunctionType(JSValue);

     ALWAYS_INLINE JSValue jsString(ExecState* exec, JSString* s1, JSString* s2)
     {
         JSGlobalData& globalData = exec->globalData();

         unsigned length1 = s1->length();
         if (!length1)
             return s2;
         unsigned length2 = s2->length();
         if (!length2)
             return s1;
         if ((length1 + length2) < length1)
             return throwOutOfMemoryError(exec);

         return JSRopeString::create(globalData, s1, s2);
     }

     ALWAYS_INLINE JSValue jsString(ExecState* exec, const String& u1, const String& u2, const String& u3)
     {
         JSGlobalData* globalData = &exec->globalData();

         unsigned length1 = u1.length();
         unsigned length2 = u2.length();
         unsigned length3 = u3.length();
         if (!length1)
             return jsString(exec, jsString(globalData, u2), jsString(globalData, u3));
         if (!length2)
             return jsString(exec, jsString(globalData, u1), jsString(globalData, u3));
         if (!length3)
             return jsString(exec, jsString(globalData, u1), jsString(globalData, u2));

         if ((length1 + length2) < length1)
             return throwOutOfMemoryError(exec);
         if ((length1 + length2 + length3) < length3)
             return throwOutOfMemoryError(exec);

         return JSRopeString::create(exec->globalData(), jsString(globalData, u1), jsString(globalData, u2), jsString(globalData, u3));
     }

     ALWAYS_INLINE JSValue jsString(ExecState* exec, Register* strings, unsigned count)
     {
         JSGlobalData* globalData = &exec->globalData();
         JSRopeString::RopeBuilder ropeBuilder(*globalData);

         unsigned oldLength = 0;

         for (unsigned i = 0; i < count; ++i) {
             JSValue v = strings[i].jsValue();
             ropeBuilder.append(v.toString(exec));

             if (ropeBuilder.length() < oldLength) // True for overflow
                 return throwOutOfMemoryError(exec);
             oldLength = ropeBuilder.length();
         }

         return ropeBuilder.release();
     }

     ALWAYS_INLINE JSValue jsStringFromArguments(ExecState* exec, JSValue thisValue)
     {
         JSGlobalData* globalData = &exec->globalData();
         JSRopeString::RopeBuilder ropeBuilder(*globalData);
         ropeBuilder.append(thisValue.toString(exec));

         unsigned oldLength = 0;

         for (unsigned i = 0; i < exec->argumentCount(); ++i) {
             JSValue v = exec->argument(i);
             ropeBuilder.append(v.toString(exec));

             if (ropeBuilder.length() < oldLength) // True for overflow
                 return throwOutOfMemoryError(exec);
             oldLength = ropeBuilder.length();
         }

         return ropeBuilder.release();
     }

     // ECMA 11.9.3
     inline bool JSValue::equal(ExecState* exec, JSValue v1, JSValue v2)
     {
         if (v1.isInt32() && v2.isInt32())
             return v1 == v2;

         return equalSlowCase(exec, v1, v2);
     }

     ALWAYS_INLINE bool JSValue::equalSlowCaseInline(ExecState* exec, JSValue v1, JSValue v2)
     {
         do {
             if (v1.isNumber() && v2.isNumber())
                 return v1.asNumber() == v2.asNumber();

             bool s1 = v1.isString();
             bool s2 = v2.isString();
             if (s1 && s2)
                 return asString(v1)->value(exec) == asString(v2)->value(exec);

             if (v1.isUndefinedOrNull()) {
                 if (v2.isUndefinedOrNull())
                     return true;
                 if (!v2.isCell())
                     return false;
                 return v2.asCell()->structure()->masqueradesAsUndefined(exec->lexicalGlobalObject());
             }

             if (v2.isUndefinedOrNull()) {
                 if (!v1.isCell())
                     return false;
                 return v1.asCell()->structure()->masqueradesAsUndefined(exec->lexicalGlobalObject());
             }

             if (v1.isObject()) {
                 if (v2.isObject())
                     return v1 == v2;
                 JSValue p1 = v1.toPrimitive(exec);
                 if (exec->hadException())
                     return false;
                 v1 = p1;
                 if (v1.isInt32() && v2.isInt32())
                     return v1 == v2;
                 continue;
             }

             if (v2.isObject()) {
                 JSValue p2 = v2.toPrimitive(exec);
                 if (exec->hadException())
                     return false;
                 v2 = p2;
                 if (v1.isInt32() && v2.isInt32())
                     return v1 == v2;
                 continue;
             }

             if (s1 || s2) {
                 double d1 = v1.toNumber(exec);
                 double d2 = v2.toNumber(exec);
                 return d1 == d2;
             }

             if (v1.isBoolean()) {
                 if (v2.isNumber())
                     return static_cast<double>(v1.asBoolean()) == v2.asNumber();
             } else if (v2.isBoolean()) {
                 if (v1.isNumber())
                     return v1.asNumber() == static_cast<double>(v2.asBoolean());
             }

             return v1 == v2;
         } while (true);
     }

     // ECMA 11.9.3
     ALWAYS_INLINE bool JSValue::strictEqualSlowCaseInline(ExecState* exec, JSValue v1, JSValue v2)
     {
         ASSERT(v1.isCell() && v2.isCell());

         if (v1.asCell()->isString() && v2.asCell()->isString())
             return asString(v1)->value(exec) == asString(v2)->value(exec);

         return v1 == v2;
     }

     inline bool JSValue::strictEqual(ExecState* exec, JSValue v1, JSValue v2)
     {
         if (v1.isInt32() && v2.isInt32())
             return v1 == v2;

         if (v1.isNumber() && v2.isNumber())
             return v1.asNumber() == v2.asNumber();

         if (!v1.isCell() || !v2.isCell())
             return v1 == v2;

         return strictEqualSlowCaseInline(exec, v1, v2);
     }

     // See ES5 11.8.1/11.8.2/11.8.5 for definition of leftFirst, this value ensures correct
     // evaluation ordering for argument conversions for '<' and '>'. For '<' pass the value
     // true, for leftFirst, for '>' pass the value false (and reverse operand order).
     template<bool leftFirst>
     ALWAYS_INLINE bool jsLess(CallFrame* callFrame, JSValue v1, JSValue v2)
     {
         if (v1.isInt32() && v2.isInt32())
             return v1.asInt32() < v2.asInt32();

         if (v1.isNumber() && v2.isNumber())
             return v1.asNumber() < v2.asNumber();

         if (isJSString(v1) && isJSString(v2))
             return codePointCompareLessThan(asString(v1)->value(callFrame), asString(v2)->value(callFrame));

         double n1;
         double n2;
         JSValue p1;
         JSValue p2;
         bool wasNotString1;
         bool wasNotString2;
         if (leftFirst) {
             wasNotString1 = v1.getPrimitiveNumber(callFrame, n1, p1);
             wasNotString2 = v2.getPrimitiveNumber(callFrame, n2, p2);
         } else {
             wasNotString2 = v2.getPrimitiveNumber(callFrame, n2, p2);
             wasNotString1 = v1.getPrimitiveNumber(callFrame, n1, p1);
         }

         if (wasNotString1 | wasNotString2)
             return n1 < n2;
         return codePointCompareLessThan(asString(p1)->value(callFrame), asString(p2)->value(callFrame));
     }

     // See ES5 11.8.3/11.8.4/11.8.5 for definition of leftFirst, this value ensures correct
     // evaluation ordering for argument conversions for '<=' and '=>'. For '<=' pass the
     // value true, for leftFirst, for '=>' pass the value false (and reverse operand order).
     template<bool leftFirst>
     ALWAYS_INLINE bool jsLessEq(CallFrame* callFrame, JSValue v1, JSValue v2)
     {
         if (v1.isInt32() && v2.isInt32())
             return v1.asInt32() <= v2.asInt32();

         if (v1.isNumber() && v2.isNumber())
             return v1.asNumber() <= v2.asNumber();

         if (isJSString(v1) && isJSString(v2))
             return !codePointCompareLessThan(asString(v2)->value(callFrame), asString(v1)->value(callFrame));

         double n1;
         double n2;
         JSValue p1;
         JSValue p2;
         bool wasNotString1;
         bool wasNotString2;
         if (leftFirst) {
             wasNotString1 = v1.getPrimitiveNumber(callFrame, n1, p1);
             wasNotString2 = v2.getPrimitiveNumber(callFrame, n2, p2);
         } else {
             wasNotString2 = v2.getPrimitiveNumber(callFrame, n2, p2);
             wasNotString1 = v1.getPrimitiveNumber(callFrame, n1, p1);
         }

         if (wasNotString1 | wasNotString2)
             return n1 <= n2;
         return !codePointCompareLessThan(asString(p2)->value(callFrame), asString(p1)->value(callFrame));
     }

     // Fast-path choices here are based on frequency data from SunSpider:
     //    <times> Add case: <t1> <t2>
     //    ---------------------------
     //    5626160 Add case: 3 3 (of these, 3637690 are for immediate values)
     //    247412  Add case: 5 5
     //    20900   Add case: 5 6
     //    13962   Add case: 5 3
     //    4000    Add case: 3 5

     ALWAYS_INLINE JSValue jsAdd(CallFrame* callFrame, JSValue v1, JSValue v2)
     {
         if (v1.isNumber() && v2.isNumber())
             return jsNumber(v1.asNumber() + v2.asNumber());

         if (v1.isString() && !v2.isObject())
             return jsString(callFrame, asString(v1), v2.toString(callFrame));

         // All other cases are pretty uncommon
         return jsAddSlowCase(callFrame, v1, v2);
     }

 #define InvalidPrototypeChain (std::numeric_limits<size_t>::max())

     inline size_t normalizePrototypeChainForChainAccess(CallFrame* callFrame, JSValue base, JSValue slotBase, const Identifier& propertyName, PropertyOffset& slotOffset)
     {
         JSCell* cell = base.asCell();
         size_t count = 0;

         while (slotBase != cell) {
             if (cell->isProxy())
                 return InvalidPrototypeChain;

             if (cell->structure()->typeInfo().hasImpureGetOwnPropertySlot())
                 return InvalidPrototypeChain;

             JSValue v = cell->structure()->prototypeForLookup(callFrame);

             // If we didn't find slotBase in base's prototype chain, then base
             // must be a proxy for another object.

             if (v.isNull())
                 return InvalidPrototypeChain;

             cell = v.asCell();

             // Since we're accessing a prototype in a loop, it's a good bet that it
             // should not be treated as a dictionary.
             if (cell->structure()->isDictionary()) {
                 asObject(cell)->flattenDictionaryObject(callFrame->globalData());
                 if (slotBase == cell)
                     slotOffset = cell->structure()->get(callFrame->globalData(), propertyName);
             }

             ++count;
         }

         ASSERT(count);
         return count;
     }

     inline size_t normalizePrototypeChain(CallFrame* callFrame, JSCell* base)
     {
         size_t count = 0;
         while (1) {
             if (base->isProxy())
                 return InvalidPrototypeChain;

             JSValue v = base->structure()->prototypeForLookup(callFrame);
             if (v.isNull())
                 return count;

             base = v.asCell();

             // Since we're accessing a prototype in a loop, it's a good bet that it
             // should not be treated as a dictionary.
             if (base->structure()->isDictionary())
                 asObject(base)->flattenDictionaryObject(callFrame->globalData());

             ++count;
         }
     }

     inline bool isPrototypeChainNormalized(JSGlobalObject* globalObject, Structure* structure)
     {
         for (;;) {
             if (structure->typeInfo().type() == ProxyType)
                 return false;

             JSValue v = structure->prototypeForLookup(globalObject);
             if (v.isNull())
                 return true;

             structure = v.asCell()->structure();

             if (structure->isDictionary())
                 return false;
         }
     }

 } // namespace JSC

 #endif // Operations_h
	/*
	* Copyright (C) 1999-2000 Harri Porten (porten@kde.org)
	* Copyright (C) 2002, 2005, 2006, 2007, 2008, 2009 Apple Inc. All rights reserved.
	*
	* This library is free software; you can redistribute it and/or
	* modify it under the terms of the GNU Library General Public
	* License as published by the Free Software Foundation; either
	* version 2 of the License, or (at your option) any later version.
	*
	* This library 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
	* Library General Public License for more details.
	*
	* You should have received a copy of the GNU Library General Public License
	* along with this library; see the file COPYING.LIB. If not, write to
	* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
	* Boston, MA 02110-1301, USA.
	*
	*/

	#ifndef Operations_h
	#define Operations_h

	#include "ExceptionHelpers.h"
	#include "Interpreter.h"
	#include "JSProxy.h"
	#include "JSString.h"
	#include "JSValueInlines.h"

	namespace JSC {

	NEVER_INLINE JSValue jsAddSlowCase(CallFrame*, JSValue, JSValue);
	JSValue jsTypeStringForValue(CallFrame*, JSValue);
	bool jsIsObjectType(CallFrame*, JSValue);
	bool jsIsFunctionType(JSValue);

	ALWAYS_INLINE JSValue jsString(ExecState* exec, JSString* s1, JSString* s2)
	{
	JSGlobalData& globalData = exec->globalData();

	unsigned length1 = s1->length();
	if (!length1)
	return s2;
	unsigned length2 = s2->length();
	if (!length2)
	return s1;
	if ((length1 + length2) < length1)
	return throwOutOfMemoryError(exec);

	return JSRopeString::create(globalData, s1, s2);
	}

	ALWAYS_INLINE JSValue jsString(ExecState* exec, const String& u1, const String& u2, const String& u3)
	{
	JSGlobalData* globalData = &exec->globalData();

	unsigned length1 = u1.length();
	unsigned length2 = u2.length();
	unsigned length3 = u3.length();
	if (!length1)
	return jsString(exec, jsString(globalData, u2), jsString(globalData, u3));
	if (!length2)
	return jsString(exec, jsString(globalData, u1), jsString(globalData, u3));
	if (!length3)
	return jsString(exec, jsString(globalData, u1), jsString(globalData, u2));

	if ((length1 + length2) < length1)
	return throwOutOfMemoryError(exec);
	if ((length1 + length2 + length3) < length3)
	return throwOutOfMemoryError(exec);

	return JSRopeString::create(exec->globalData(), jsString(globalData, u1), jsString(globalData, u2), jsString(globalData, u3));
	}

	ALWAYS_INLINE JSValue jsString(ExecState* exec, Register* strings, unsigned count)
	{
	JSGlobalData* globalData = &exec->globalData();
	JSRopeString::RopeBuilder ropeBuilder(*globalData);

	unsigned oldLength = 0;

	for (unsigned i = 0; i < count; ++i) {
	JSValue v = strings[i].jsValue();
	ropeBuilder.append(v.toString(exec));

	if (ropeBuilder.length() < oldLength) // True for overflow
	return throwOutOfMemoryError(exec);
	oldLength = ropeBuilder.length();
	}

	return ropeBuilder.release();
	}

	ALWAYS_INLINE JSValue jsStringFromArguments(ExecState* exec, JSValue thisValue)
	{
	JSGlobalData* globalData = &exec->globalData();
	JSRopeString::RopeBuilder ropeBuilder(*globalData);
	ropeBuilder.append(thisValue.toString(exec));

	unsigned oldLength = 0;

	for (unsigned i = 0; i < exec->argumentCount(); ++i) {
	JSValue v = exec->argument(i);
	ropeBuilder.append(v.toString(exec));

	if (ropeBuilder.length() < oldLength) // True for overflow
	return throwOutOfMemoryError(exec);
	oldLength = ropeBuilder.length();
	}

	return ropeBuilder.release();
	}

	// ECMA 11.9.3
	inline bool JSValue::equal(ExecState* exec, JSValue v1, JSValue v2)
	{
	if (v1.isInt32() && v2.isInt32())
	return v1 == v2;

	return equalSlowCase(exec, v1, v2);
	}

	ALWAYS_INLINE bool JSValue::equalSlowCaseInline(ExecState* exec, JSValue v1, JSValue v2)
	{
	do {
	if (v1.isNumber() && v2.isNumber())
	return v1.asNumber() == v2.asNumber();

	bool s1 = v1.isString();
	bool s2 = v2.isString();
	if (s1 && s2)
	return asString(v1)->value(exec) == asString(v2)->value(exec);

	if (v1.isUndefinedOrNull()) {
	if (v2.isUndefinedOrNull())
	return true;
	if (!v2.isCell())
	return false;
	return v2.asCell()->structure()->masqueradesAsUndefined(exec->lexicalGlobalObject());
	}

	if (v2.isUndefinedOrNull()) {
	if (!v1.isCell())
	return false;
	return v1.asCell()->structure()->masqueradesAsUndefined(exec->lexicalGlobalObject());
	}

	if (v1.isObject()) {
	if (v2.isObject())
	return v1 == v2;
	JSValue p1 = v1.toPrimitive(exec);
	if (exec->hadException())
	return false;
	v1 = p1;
	if (v1.isInt32() && v2.isInt32())
	return v1 == v2;
	continue;
	}

	if (v2.isObject()) {
	JSValue p2 = v2.toPrimitive(exec);
	if (exec->hadException())
	return false;
	v2 = p2;
	if (v1.isInt32() && v2.isInt32())
	return v1 == v2;
	continue;
	}

	if (s1 \|\| s2) {
	double d1 = v1.toNumber(exec);
	double d2 = v2.toNumber(exec);
	return d1 == d2;
	}

	if (v1.isBoolean()) {
	if (v2.isNumber())
	return static_cast<double>(v1.asBoolean()) == v2.asNumber();
	} else if (v2.isBoolean()) {
	if (v1.isNumber())
	return v1.asNumber() == static_cast<double>(v2.asBoolean());
	}

	return v1 == v2;
	} while (true);
	}

	// ECMA 11.9.3
	ALWAYS_INLINE bool JSValue::strictEqualSlowCaseInline(ExecState* exec, JSValue v1, JSValue v2)
	{
	ASSERT(v1.isCell() && v2.isCell());

	if (v1.asCell()->isString() && v2.asCell()->isString())
	return asString(v1)->value(exec) == asString(v2)->value(exec);

	return v1 == v2;
	}

	inline bool JSValue::strictEqual(ExecState* exec, JSValue v1, JSValue v2)
	{
	if (v1.isInt32() && v2.isInt32())
	return v1 == v2;

	if (v1.isNumber() && v2.isNumber())
	return v1.asNumber() == v2.asNumber();

	if (!v1.isCell() \|\| !v2.isCell())
	return v1 == v2;

	return strictEqualSlowCaseInline(exec, v1, v2);
	}

	// See ES5 11.8.1/11.8.2/11.8.5 for definition of leftFirst, this value ensures correct
	// evaluation ordering for argument conversions for '<' and '>'. For '<' pass the value
	// true, for leftFirst, for '>' pass the value false (and reverse operand order).
	template<bool leftFirst>
	ALWAYS_INLINE bool jsLess(CallFrame* callFrame, JSValue v1, JSValue v2)
	{
	if (v1.isInt32() && v2.isInt32())
	return v1.asInt32() < v2.asInt32();

	if (v1.isNumber() && v2.isNumber())
	return v1.asNumber() < v2.asNumber();

	if (isJSString(v1) && isJSString(v2))
	return codePointCompareLessThan(asString(v1)->value(callFrame), asString(v2)->value(callFrame));

	double n1;
	double n2;
	JSValue p1;
	JSValue p2;
	bool wasNotString1;
	bool wasNotString2;
	if (leftFirst) {
	wasNotString1 = v1.getPrimitiveNumber(callFrame, n1, p1);
	wasNotString2 = v2.getPrimitiveNumber(callFrame, n2, p2);
	} else {
	wasNotString2 = v2.getPrimitiveNumber(callFrame, n2, p2);
	wasNotString1 = v1.getPrimitiveNumber(callFrame, n1, p1);
	}

	if (wasNotString1 \| wasNotString2)
	return n1 < n2;
	return codePointCompareLessThan(asString(p1)->value(callFrame), asString(p2)->value(callFrame));
	}

	// See ES5 11.8.3/11.8.4/11.8.5 for definition of leftFirst, this value ensures correct
	// evaluation ordering for argument conversions for '<=' and '=>'. For '<=' pass the
	// value true, for leftFirst, for '=>' pass the value false (and reverse operand order).
	template<bool leftFirst>
	ALWAYS_INLINE bool jsLessEq(CallFrame* callFrame, JSValue v1, JSValue v2)
	{
	if (v1.isInt32() && v2.isInt32())
	return v1.asInt32() <= v2.asInt32();

	if (v1.isNumber() && v2.isNumber())
	return v1.asNumber() <= v2.asNumber();

	if (isJSString(v1) && isJSString(v2))
	return !codePointCompareLessThan(asString(v2)->value(callFrame), asString(v1)->value(callFrame));

	double n1;
	double n2;
	JSValue p1;
	JSValue p2;
	bool wasNotString1;
	bool wasNotString2;
	if (leftFirst) {
	wasNotString1 = v1.getPrimitiveNumber(callFrame, n1, p1);
	wasNotString2 = v2.getPrimitiveNumber(callFrame, n2, p2);
	} else {
	wasNotString2 = v2.getPrimitiveNumber(callFrame, n2, p2);
	wasNotString1 = v1.getPrimitiveNumber(callFrame, n1, p1);
	}

	if (wasNotString1 \| wasNotString2)
	return n1 <= n2;
	return !codePointCompareLessThan(asString(p2)->value(callFrame), asString(p1)->value(callFrame));
	}

	// Fast-path choices here are based on frequency data from SunSpider:
	// <times> Add case: <t1> <t2>
	// ---------------------------
	// 5626160 Add case: 3 3 (of these, 3637690 are for immediate values)
	// 247412 Add case: 5 5
	// 20900 Add case: 5 6
	// 13962 Add case: 5 3
	// 4000 Add case: 3 5

	ALWAYS_INLINE JSValue jsAdd(CallFrame* callFrame, JSValue v1, JSValue v2)
	{
	if (v1.isNumber() && v2.isNumber())
	return jsNumber(v1.asNumber() + v2.asNumber());

	if (v1.isString() && !v2.isObject())
	return jsString(callFrame, asString(v1), v2.toString(callFrame));

	// All other cases are pretty uncommon
	return jsAddSlowCase(callFrame, v1, v2);
	}

	#define InvalidPrototypeChain (std::numeric_limits<size_t>::max())

	inline size_t normalizePrototypeChainForChainAccess(CallFrame* callFrame, JSValue base, JSValue slotBase, const Identifier& propertyName, PropertyOffset& slotOffset)
	{
	JSCell* cell = base.asCell();
	size_t count = 0;

	while (slotBase != cell) {
	if (cell->isProxy())
	return InvalidPrototypeChain;

	if (cell->structure()->typeInfo().hasImpureGetOwnPropertySlot())
	return InvalidPrototypeChain;

	JSValue v = cell->structure()->prototypeForLookup(callFrame);

	// If we didn't find slotBase in base's prototype chain, then base
	// must be a proxy for another object.

	if (v.isNull())
	return InvalidPrototypeChain;

	cell = v.asCell();

	// Since we're accessing a prototype in a loop, it's a good bet that it
	// should not be treated as a dictionary.
	if (cell->structure()->isDictionary()) {
	asObject(cell)->flattenDictionaryObject(callFrame->globalData());
	if (slotBase == cell)
	slotOffset = cell->structure()->get(callFrame->globalData(), propertyName);
	}

	++count;
	}

	ASSERT(count);
	return count;
	}

	inline size_t normalizePrototypeChain(CallFrame* callFrame, JSCell* base)
	{
	size_t count = 0;
	while (1) {
	if (base->isProxy())
	return InvalidPrototypeChain;

	JSValue v = base->structure()->prototypeForLookup(callFrame);
	if (v.isNull())
	return count;

	base = v.asCell();

	// Since we're accessing a prototype in a loop, it's a good bet that it
	// should not be treated as a dictionary.
	if (base->structure()->isDictionary())
	asObject(base)->flattenDictionaryObject(callFrame->globalData());

	++count;
	}
	}

	inline bool isPrototypeChainNormalized(JSGlobalObject* globalObject, Structure* structure)
	{
	for (;;) {
	if (structure->typeInfo().type() == ProxyType)
	return false;

	JSValue v = structure->prototypeForLookup(globalObject);
	if (v.isNull())
	return true;

	structure = v.asCell()->structure();

	if (structure->isDictionary())
	return false;
	}
	}

	} // namespace JSC

	#endif // Operations_h