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webkit / WebKit / safari-4-branch / . / JavaScriptCore / runtime / JSValue.h
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/*
* Copyright (C) 1999-2001 Harri Porten (porten@kde.org)
* Copyright (C) 2001 Peter Kelly (pmk@post.com)
* Copyright (C) 2003, 2004, 2005, 2007, 2008 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.
*
*/
#include <stddef.h> // for size_t
#include <stdint.h>
#ifndef JSValue_h
#define JSValue_h
#include "CallData.h"
#include "ConstructData.h"
#include <math.h>
#include <wtf/AlwaysInline.h>
#include <wtf/Assertions.h>
#include <wtf/HashTraits.h>
#include <wtf/MathExtras.h>
namespace JSC {
class Identifier;
class JSCell;
class JSGlobalData;
class JSImmediate;
class JSObject;
class JSString;
class PropertySlot;
class PutPropertySlot;
class UString;
struct ClassInfo;
struct Instruction;
enum PreferredPrimitiveType { NoPreference, PreferNumber, PreferString };
#if USE(JSVALUE32_64)
typedef int64_t EncodedJSValue;
#else
typedef void* EncodedJSValue;
#endif
double nonInlineNaN();
int32_t toInt32SlowCase(double, bool& ok);
uint32_t toUInt32SlowCase(double, bool& ok);
class JSValue {
friend class JSImmediate;
friend struct EncodedJSValueHashTraits;
friend class JIT;
friend class JITStubs;
friend class JITStubCall;
public:
static EncodedJSValue encode(JSValue value);
static JSValue decode(EncodedJSValue ptr);
#if !USE(JSVALUE32_64)
private:
static JSValue makeImmediate(intptr_t value);
intptr_t immediateValue();
public:
#endif
enum JSNullTag { JSNull };
enum JSUndefinedTag { JSUndefined };
enum JSTrueTag { JSTrue };
enum JSFalseTag { JSFalse };
JSValue();
JSValue(JSNullTag);
JSValue(JSUndefinedTag);
JSValue(JSTrueTag);
JSValue(JSFalseTag);
JSValue(JSCell* ptr);
JSValue(const JSCell* ptr);
// Numbers
JSValue(ExecState*, double);
JSValue(ExecState*, char);
JSValue(ExecState*, unsigned char);
JSValue(ExecState*, short);
JSValue(ExecState*, unsigned short);
JSValue(ExecState*, int);
JSValue(ExecState*, unsigned);
JSValue(ExecState*, long);
JSValue(ExecState*, unsigned long);
JSValue(ExecState*, long long);
JSValue(ExecState*, unsigned long long);
JSValue(JSGlobalData*, double);
JSValue(JSGlobalData*, int);
JSValue(JSGlobalData*, unsigned);
operator bool() const;
bool operator==(const JSValue& other) const;
bool operator!=(const JSValue& other) const;
bool isInt32() const;
bool isUInt32() const;
bool isDouble() const;
bool isTrue() const;
bool isFalse() const;
int32_t asInt32() const;
uint32_t asUInt32() const;
double asDouble() const;
// Querying the type.
bool isUndefined() const;
bool isNull() const;
bool isUndefinedOrNull() const;
bool isBoolean() const;
bool isNumber() const;
bool isString() const;
bool isGetterSetter() const;
bool isObject() const;
bool isObject(const ClassInfo*) const;
// Extracting the value.
bool getBoolean(bool&) const;
bool getBoolean() const; // false if not a boolean
bool getNumber(double&) const;
double uncheckedGetNumber() const;
bool getString(UString&) const;
UString getString() const; // null string if not a string
JSObject* getObject() const; // 0 if not an object
CallType getCallData(CallData&);
ConstructType getConstructData(ConstructData&);
// Extracting integer values.
bool getUInt32(uint32_t&) const;
// Basic conversions.
JSValue toPrimitive(ExecState*, PreferredPrimitiveType = NoPreference) const;
bool getPrimitiveNumber(ExecState*, double& number, JSValue&);
bool toBoolean(ExecState*) const;
// toNumber conversion is expected to be side effect free if an exception has
// been set in the ExecState already.
double toNumber(ExecState*) const;
JSValue toJSNumber(ExecState*) const; // Fast path for when you expect that the value is an immediate number.
UString toString(ExecState*) const;
JSObject* toObject(ExecState*) const;
// Integer conversions.
double toInteger(ExecState*) const;
double toIntegerPreserveNaN(ExecState*) const;
int32_t toInt32(ExecState*) const;
int32_t toInt32(ExecState*, bool& ok) const;
uint32_t toUInt32(ExecState*) const;
uint32_t toUInt32(ExecState*, bool& ok) const;
// Floating point conversions (this is a convenience method for webcore;
// signle precision float is not a representation used in JS or JSC).
float toFloat(ExecState* exec) const { return static_cast<float>(toNumber(exec)); }
// Garbage collection.
void mark();
bool marked() const;
// Object operations, with the toObject operation included.
JSValue get(ExecState*, const Identifier& propertyName) const;
JSValue get(ExecState*, const Identifier& propertyName, PropertySlot&) const;
JSValue get(ExecState*, unsigned propertyName) const;
JSValue get(ExecState*, unsigned propertyName, PropertySlot&) const;
void put(ExecState*, const Identifier& propertyName, JSValue, PutPropertySlot&);
void put(ExecState*, unsigned propertyName, JSValue);
bool needsThisConversion() const;
JSObject* toThisObject(ExecState*) const;
UString toThisString(ExecState*) const;
JSString* toThisJSString(ExecState*);
static bool equal(ExecState* exec, JSValue v1, JSValue v2);
static bool equalSlowCase(ExecState* exec, JSValue v1, JSValue v2);
static bool equalSlowCaseInline(ExecState* exec, JSValue v1, JSValue v2);
static bool strictEqual(JSValue v1, JSValue v2);
static bool strictEqualSlowCase(JSValue v1, JSValue v2);
static bool strictEqualSlowCaseInline(JSValue v1, JSValue v2);
JSValue getJSNumber(); // JSValue() if this is not a JSNumber or number object
bool isCell() const;
JSCell* asCell() const;
#ifndef NDEBUG
char* description();
#endif
private:
enum HashTableDeletedValueTag { HashTableDeletedValue };
JSValue(HashTableDeletedValueTag);
inline const JSValue asValue() const { return *this; }
JSObject* toObjectSlowCase(ExecState*) const;
JSObject* toThisObjectSlowCase(ExecState*) const;
enum { Int32Tag = 0xffffffff };
enum { CellTag = 0xfffffffe };
enum { TrueTag = 0xfffffffd };
enum { FalseTag = 0xfffffffc };
enum { NullTag = 0xfffffffb };
enum { UndefinedTag = 0xfffffffa };
enum { DeletedValueTag = 0xfffffff9 };
enum { LowestTag = DeletedValueTag };
uint32_t tag() const;
int32_t payload() const;
JSObject* synthesizePrototype(ExecState*) const;
JSObject* synthesizeObject(ExecState*) const;
#if USE(JSVALUE32_64)
union {
EncodedJSValue asEncodedJSValue;
double asDouble;
#if PLATFORM(BIG_ENDIAN)
struct {
int32_t tag;
int32_t payload;
} asBits;
#else
struct {
int32_t payload;
int32_t tag;
} asBits;
#endif
} u;
#else // USE(JSVALUE32_64)
JSCell* m_ptr;
#endif // USE(JSVALUE32_64)
};
#if USE(JSVALUE32_64)
typedef IntHash<EncodedJSValue> EncodedJSValueHash;
struct EncodedJSValueHashTraits : HashTraits<EncodedJSValue> {
static const bool emptyValueIsZero = false;
static EncodedJSValue emptyValue() { return JSValue::encode(JSValue()); }
static void constructDeletedValue(EncodedJSValue& slot) { slot = JSValue::encode(JSValue(JSValue::HashTableDeletedValue)); }
static bool isDeletedValue(EncodedJSValue value) { return value == JSValue::encode(JSValue(JSValue::HashTableDeletedValue)); }
};
#else
typedef PtrHash<EncodedJSValue> EncodedJSValueHash;
struct EncodedJSValueHashTraits : HashTraits<EncodedJSValue> {
static void constructDeletedValue(EncodedJSValue& slot) { slot = JSValue::encode(JSValue(JSValue::HashTableDeletedValue)); }
static bool isDeletedValue(EncodedJSValue value) { return value == JSValue::encode(JSValue(JSValue::HashTableDeletedValue)); }
};
#endif
// Stand-alone helper functions.
inline JSValue jsNull()
{
return JSValue(JSValue::JSNull);
}
inline JSValue jsUndefined()
{
return JSValue(JSValue::JSUndefined);
}
inline JSValue jsBoolean(bool b)
{
return b ? JSValue(JSValue::JSTrue) : JSValue(JSValue::JSFalse);
}
ALWAYS_INLINE JSValue jsNumber(ExecState* exec, double d)
{
return JSValue(exec, d);
}
ALWAYS_INLINE JSValue jsNumber(ExecState* exec, char i)
{
return JSValue(exec, i);
}
ALWAYS_INLINE JSValue jsNumber(ExecState* exec, unsigned char i)
{
return JSValue(exec, i);
}
ALWAYS_INLINE JSValue jsNumber(ExecState* exec, short i)
{
return JSValue(exec, i);
}
ALWAYS_INLINE JSValue jsNumber(ExecState* exec, unsigned short i)
{
return JSValue(exec, i);
}
ALWAYS_INLINE JSValue jsNumber(ExecState* exec, int i)
{
return JSValue(exec, i);
}
ALWAYS_INLINE JSValue jsNumber(ExecState* exec, unsigned i)
{
return JSValue(exec, i);
}
ALWAYS_INLINE JSValue jsNumber(ExecState* exec, long i)
{
return JSValue(exec, i);
}
ALWAYS_INLINE JSValue jsNumber(ExecState* exec, unsigned long i)
{
return JSValue(exec, i);
}
ALWAYS_INLINE JSValue jsNumber(ExecState* exec, long long i)
{
return JSValue(exec, i);
}
ALWAYS_INLINE JSValue jsNumber(ExecState* exec, unsigned long long i)
{
return JSValue(exec, i);
}
ALWAYS_INLINE JSValue jsNumber(JSGlobalData* globalData, double d)
{
return JSValue(globalData, d);
}
ALWAYS_INLINE JSValue jsNumber(JSGlobalData* globalData, int i)
{
return JSValue(globalData, i);
}
ALWAYS_INLINE JSValue jsNumber(JSGlobalData* globalData, unsigned i)
{
return JSValue(globalData, i);
}
inline bool operator==(const JSValue a, const JSCell* b) { return a == JSValue(b); }
inline bool operator==(const JSCell* a, const JSValue b) { return JSValue(a) == b; }
inline bool operator!=(const JSValue a, const JSCell* b) { return a != JSValue(b); }
inline bool operator!=(const JSCell* a, const JSValue b) { return JSValue(a) != b; }
inline int32_t toInt32(double val)
{
if (!(val >= -2147483648.0 && val < 2147483648.0)) {
bool ignored;
return toInt32SlowCase(val, ignored);
}
return static_cast<int32_t>(val);
}
inline uint32_t toUInt32(double val)
{
if (!(val >= 0.0 && val < 4294967296.0)) {
bool ignored;
return toUInt32SlowCase(val, ignored);
}
return static_cast<uint32_t>(val);
}
ALWAYS_INLINE int32_t JSValue::toInt32(ExecState* exec) const
{
if (isInt32())
return asInt32();
bool ignored;
return toInt32SlowCase(toNumber(exec), ignored);
}
inline uint32_t JSValue::toUInt32(ExecState* exec) const
{
if (isUInt32())
return asInt32();
bool ignored;
return toUInt32SlowCase(toNumber(exec), ignored);
}
inline int32_t JSValue::toInt32(ExecState* exec, bool& ok) const
{
if (isInt32()) {
ok = true;
return asInt32();
}
return toInt32SlowCase(toNumber(exec), ok);
}
inline uint32_t JSValue::toUInt32(ExecState* exec, bool& ok) const
{
if (isUInt32()) {
ok = true;
return asInt32();
}
return toUInt32SlowCase(toNumber(exec), ok);
}
#if USE(JSVALUE32_64)
inline JSValue jsNaN(ExecState* exec)
{
return JSValue(exec, nonInlineNaN());
}
// JSValue member functions.
inline EncodedJSValue JSValue::encode(JSValue value)
{
return value.u.asEncodedJSValue;
}
inline JSValue JSValue::decode(EncodedJSValue encodedJSValue)
{
JSValue v;
v.u.asEncodedJSValue = encodedJSValue;
return v;
}
inline JSValue::JSValue()
{
u.asBits.tag = CellTag;
u.asBits.payload = 0;
}
inline JSValue::JSValue(JSNullTag)
{
u.asBits.tag = NullTag;
u.asBits.payload = 0;
}
inline JSValue::JSValue(JSUndefinedTag)
{
u.asBits.tag = UndefinedTag;
u.asBits.payload = 0;
}
inline JSValue::JSValue(JSTrueTag)
{
u.asBits.tag = TrueTag;
u.asBits.payload = 0;
}
inline JSValue::JSValue(JSFalseTag)
{
u.asBits.tag = FalseTag;
u.asBits.payload = 0;
}
inline JSValue::JSValue(HashTableDeletedValueTag)
{
u.asBits.tag = DeletedValueTag;
u.asBits.payload = 0;
}
inline JSValue::JSValue(JSCell* ptr)
{
u.asBits.tag = CellTag;
u.asBits.payload = reinterpret_cast<int32_t>(ptr);
}
inline JSValue::JSValue(const JSCell* ptr)
{
u.asBits.tag = CellTag;
u.asBits.payload = reinterpret_cast<int32_t>(const_cast<JSCell*>(ptr));
}
inline JSValue::operator bool() const
{
return u.asBits.payload || tag() != CellTag;
}
inline bool JSValue::operator==(const JSValue& other) const
{
return u.asEncodedJSValue == other.u.asEncodedJSValue;
}
inline bool JSValue::operator!=(const JSValue& other) const
{
return u.asEncodedJSValue != other.u.asEncodedJSValue;
}
inline bool JSValue::isUndefined() const
{
return tag() == UndefinedTag;
}
inline bool JSValue::isNull() const
{
return tag() == NullTag;
}
inline bool JSValue::isUndefinedOrNull() const
{
return isUndefined() || isNull();
}
inline bool JSValue::isCell() const
{
return tag() == CellTag;
}
inline bool JSValue::isInt32() const
{
return tag() == Int32Tag;
}
inline bool JSValue::isUInt32() const
{
return tag() == Int32Tag && asInt32() > -1;
}
inline bool JSValue::isDouble() const
{
return tag() < LowestTag;
}
inline bool JSValue::isTrue() const
{
return tag() == TrueTag;
}
inline bool JSValue::isFalse() const
{
return tag() == FalseTag;
}
inline uint32_t JSValue::tag() const
{
return u.asBits.tag;
}
inline int32_t JSValue::payload() const
{
return u.asBits.payload;
}
inline int32_t JSValue::asInt32() const
{
ASSERT(isInt32());
return u.asBits.payload;
}
inline uint32_t JSValue::asUInt32() const
{
ASSERT(isUInt32());
return u.asBits.payload;
}
inline double JSValue::asDouble() const
{
ASSERT(isDouble());
return u.asDouble;
}
ALWAYS_INLINE JSCell* JSValue::asCell() const
{
ASSERT(isCell());
return reinterpret_cast<JSCell*>(u.asBits.payload);
}
inline JSValue::JSValue(ExecState* exec, double d)
{
const int32_t asInt32 = static_cast<int32_t>(d);
if (asInt32 != d || (!asInt32 && signbit(d))) { // true for -0.0
u.asDouble = d;
return;
}
*this = JSValue(exec, static_cast<int32_t>(d));
}
inline JSValue::JSValue(ExecState* exec, char i)
{
*this = JSValue(exec, static_cast<int32_t>(i));
}
inline JSValue::JSValue(ExecState* exec, unsigned char i)
{
*this = JSValue(exec, static_cast<int32_t>(i));
}
inline JSValue::JSValue(ExecState* exec, short i)
{
*this = JSValue(exec, static_cast<int32_t>(i));
}
inline JSValue::JSValue(ExecState* exec, unsigned short i)
{
*this = JSValue(exec, static_cast<int32_t>(i));
}
inline JSValue::JSValue(ExecState*, int i)
{
u.asBits.tag = Int32Tag;
u.asBits.payload = i;
}
inline JSValue::JSValue(ExecState* exec, unsigned i)
{
if (static_cast<int32_t>(i) < 0) {
*this = JSValue(exec, static_cast<double>(i));
return;
}
*this = JSValue(exec, static_cast<int32_t>(i));
}
inline JSValue::JSValue(ExecState* exec, long i)
{
if (static_cast<int32_t>(i) != i) {
*this = JSValue(exec, static_cast<double>(i));
return;
}
*this = JSValue(exec, static_cast<int32_t>(i));
}
inline JSValue::JSValue(ExecState* exec, unsigned long i)
{
if (static_cast<uint32_t>(i) != i) {
*this = JSValue(exec, static_cast<double>(i));
return;
}
*this = JSValue(exec, static_cast<uint32_t>(i));
}
inline JSValue::JSValue(ExecState* exec, long long i)
{
if (static_cast<int32_t>(i) != i) {
*this = JSValue(exec, static_cast<double>(i));
return;
}
*this = JSValue(exec, static_cast<int32_t>(i));
}
inline JSValue::JSValue(ExecState* exec, unsigned long long i)
{
if (static_cast<uint32_t>(i) != i) {
*this = JSValue(exec, static_cast<double>(i));
return;
}
*this = JSValue(exec, static_cast<uint32_t>(i));
}
inline JSValue::JSValue(JSGlobalData* globalData, double d)
{
const int32_t asInt32 = static_cast<int32_t>(d);
if (asInt32 != d || (!asInt32 && signbit(d))) { // true for -0.0
u.asDouble = d;
return;
}
*this = JSValue(globalData, static_cast<int32_t>(d));
}
inline JSValue::JSValue(JSGlobalData*, int i)
{
u.asBits.tag = Int32Tag;
u.asBits.payload = i;
}
inline JSValue::JSValue(JSGlobalData* globalData, unsigned i)
{
if (static_cast<int32_t>(i) < 0) {
*this = JSValue(globalData, static_cast<double>(i));
return;
}
*this = JSValue(globalData, static_cast<int32_t>(i));
}
inline bool JSValue::isNumber() const
{
return isInt32() || isDouble();
}
inline bool JSValue::isBoolean() const
{
return isTrue() || isFalse();
}
inline bool JSValue::getBoolean(bool& v) const
{
if (isTrue()) {
v = true;
return true;
}
if (isFalse()) {
v = false;
return true;
}
return false;
}
inline bool JSValue::getBoolean() const
{
ASSERT(isBoolean());
return tag() == TrueTag;
}
inline double JSValue::uncheckedGetNumber() const
{
ASSERT(isNumber());
return isInt32() ? asInt32() : asDouble();
}
ALWAYS_INLINE JSValue JSValue::toJSNumber(ExecState* exec) const
{
return isNumber() ? asValue() : jsNumber(exec, this->toNumber(exec));
}
inline bool JSValue::getNumber(double& result) const
{
if (isInt32()) {
result = asInt32();
return true;
}
if (isDouble()) {
result = asDouble();
return true;
}
return false;
}
#else // USE(JSVALUE32_64)
// JSValue member functions.
inline EncodedJSValue JSValue::encode(JSValue value)
{
return reinterpret_cast<EncodedJSValue>(value.m_ptr);
}
inline JSValue JSValue::decode(EncodedJSValue ptr)
{
return JSValue(reinterpret_cast<JSCell*>(ptr));
}
inline JSValue JSValue::makeImmediate(intptr_t value)
{
return JSValue(reinterpret_cast<JSCell*>(value));
}
inline intptr_t JSValue::immediateValue()
{
return reinterpret_cast<intptr_t>(m_ptr);
}
// 0x0 can never occur naturally because it has a tag of 00, indicating a pointer value, but a payload of 0x0, which is in the (invalid) zero page.
inline JSValue::JSValue()
: m_ptr(0)
{
}
// 0x4 can never occur naturally because it has a tag of 00, indicating a pointer value, but a payload of 0x4, which is in the (invalid) zero page.
inline JSValue::JSValue(HashTableDeletedValueTag)
: m_ptr(reinterpret_cast<JSCell*>(0x4))
{
}
inline JSValue::JSValue(JSCell* ptr)
: m_ptr(ptr)
{
}
inline JSValue::JSValue(const JSCell* ptr)
: m_ptr(const_cast<JSCell*>(ptr))
{
}
inline JSValue::operator bool() const
{
return m_ptr;
}
inline bool JSValue::operator==(const JSValue& other) const
{
return m_ptr == other.m_ptr;
}
inline bool JSValue::operator!=(const JSValue& other) const
{
return m_ptr != other.m_ptr;
}
inline bool JSValue::isUndefined() const
{
return asValue() == jsUndefined();
}
inline bool JSValue::isNull() const
{
return asValue() == jsNull();
}
#endif // USE(JSVALUE32_64)
} // namespace JSC
#endif // JSValue_h