/* * Copyright (C) 2003, 2004, 2005, 2006, 2007 Apple Inc. All rights reserved. * Copyright (C) 2006 Alexey Proskuryakov (ap@webkit.org) * * 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 KJS_JS_IMMEDIATE_H #define KJS_JS_IMMEDIATE_H #include "JSType.h" #include #include #include #include #include #include #include namespace KJS { class ExecState; class JSObject; class JSValue; class UString; /* * A JSValue* is either a pointer to a cell (a heap-allocated object) or an immediate (a type-tagged * signed int masquerading as a pointer). The low two bits in a JSValue* are available * for type tagging because allocator alignment guarantees they will be 00 in cell pointers. * * For example, on a 32 bit system: * * JSCell*: XXXXXXXXXXXXXXXXXXXXXXXXXXXXXX 00 * [ high 30 bits: pointer address ] [ low 2 bits -- always 0 ] * * JSImmediate: XXXXXXXXXXXXXXXXXXXXXXXXXXXXXX TT * [ high 30 bits: signed int ] [ low 2 bits -- type tag ] * * The bit "payload" (the high 30 bits) is a 30 bit signed int for immediate numbers, a flag to distinguish true/false * and undefined/null. * * Notice that the JSType value of NullType is 4, which requires 3 bits to encode. Since we only have 2 bits * available for type tagging, we tag the null immediate with UndefinedType, and JSImmediate::type() has * to sort them out. */ class JSImmediate { public: static ALWAYS_INLINE bool isImmediate(const JSValue* v) { return getTag(v) != 0; } static ALWAYS_INLINE bool isNumber(const JSValue* v) { return (getTag(v) == NumberType); } static ALWAYS_INLINE bool isBoolean(const JSValue* v) { return (getTag(v) == BooleanType); } // Since we have room for only 3 unique tags, null and undefined have to share. static ALWAYS_INLINE bool isUndefinedOrNull(const JSValue* v) { return (getTag(v) == UndefinedType); } static JSValue* from(char); static JSValue* from(signed char); static JSValue* from(unsigned char); static JSValue* from(short); static JSValue* from(unsigned short); static JSValue* from(int); static JSValue* from(unsigned); static JSValue* from(long); static JSValue* from(unsigned long); static JSValue* from(long long); static JSValue* from(unsigned long long); static JSValue* from(double); static ALWAYS_INLINE bool areBothImmediateNumbers(const JSValue* v1, const JSValue* v2) { return (reinterpret_cast(v1) & reinterpret_cast(v2) & TagMask) == NumberType; } static ALWAYS_INLINE JSValue* andImmediateNumbers(const JSValue* v1, const JSValue* v2) { ASSERT(areBothImmediateNumbers(v1, v2)); return reinterpret_cast(reinterpret_cast(v1) & reinterpret_cast(v2)); } static double toDouble(const JSValue*); static bool toBoolean(const JSValue*); static JSObject* toObject(const JSValue*, ExecState*); static UString toString(const JSValue*); static JSType type(const JSValue*); static bool getUInt32(const JSValue*, uint32_t&); static bool getTruncatedInt32(const JSValue*, int32_t&); static bool getTruncatedUInt32(const JSValue*, uint32_t&); static int32_t getTruncatedInt32(const JSValue*); static JSValue* trueImmediate(); static JSValue* falseImmediate(); static JSValue* undefinedImmediate(); static JSValue* nullImmediate(); private: static const uintptr_t TagMask = 3; // type tags are 2 bits long // Immediate values are restricted to a 30 bit signed value. static const int minImmediateInt = -(1 << 29); static const int maxImmediateInt = (1 << 29) - 1; static const unsigned maxImmediateUInt = maxImmediateInt; static ALWAYS_INLINE JSValue* tag(uintptr_t bits, uintptr_t tag) { return reinterpret_cast(bits | tag); } static ALWAYS_INLINE uintptr_t unTag(const JSValue* v) { return reinterpret_cast(v) & ~TagMask; } static ALWAYS_INLINE uintptr_t getTag(const JSValue* v) { return reinterpret_cast(v) & TagMask; } }; ALWAYS_INLINE JSValue* JSImmediate::trueImmediate() { return tag(1 << 2, BooleanType); } ALWAYS_INLINE JSValue* JSImmediate::falseImmediate() { return tag(0, BooleanType); } ALWAYS_INLINE JSValue* JSImmediate::undefinedImmediate() { return tag(1 << 2, UndefinedType); } ALWAYS_INLINE JSValue* JSImmediate::nullImmediate() { return tag(0, UndefinedType); } ALWAYS_INLINE bool JSImmediate::toBoolean(const JSValue* v) { ASSERT(isImmediate(v)); uintptr_t bits = unTag(v); return (bits != 0) & (JSImmediate::getTag(v) != UndefinedType); } ALWAYS_INLINE JSValue* JSImmediate::from(char i) { return tag(i << 2, NumberType); } ALWAYS_INLINE JSValue* JSImmediate::from(signed char i) { return tag(i << 2, NumberType); } ALWAYS_INLINE JSValue* JSImmediate::from(unsigned char i) { return tag(i << 2, NumberType); } ALWAYS_INLINE JSValue* JSImmediate::from(short i) { return tag(i << 2, NumberType); } ALWAYS_INLINE JSValue* JSImmediate::from(unsigned short i) { return tag(i << 2, NumberType); } ALWAYS_INLINE JSValue* JSImmediate::from(int i) { if ((i < minImmediateInt) | (i > maxImmediateInt)) return 0; return tag(i << 2, NumberType); } ALWAYS_INLINE JSValue* JSImmediate::from(unsigned i) { if (i > maxImmediateUInt) return 0; return tag(i << 2, NumberType); } ALWAYS_INLINE JSValue* JSImmediate::from(long i) { if ((i < minImmediateInt) | (i > maxImmediateInt)) return 0; return tag(i << 2, NumberType); } ALWAYS_INLINE JSValue* JSImmediate::from(unsigned long i) { if (i > maxImmediateUInt) return 0; return tag(i << 2, NumberType); } ALWAYS_INLINE JSValue* JSImmediate::from(long long i) { if ((i < minImmediateInt) | (i > maxImmediateInt)) return 0; return tag(static_cast(i) << 2, NumberType); } ALWAYS_INLINE JSValue* JSImmediate::from(unsigned long long i) { if (i > maxImmediateUInt) return 0; return tag(static_cast(i) << 2, NumberType); } ALWAYS_INLINE JSValue* JSImmediate::from(double d) { const int intVal = static_cast(d); if ((intVal < minImmediateInt) | (intVal > maxImmediateInt)) return 0; // Check for data loss from conversion to int. if ((intVal != d) || (signbit(d) && !intVal)) return 0; return tag(intVal << 2, NumberType); } ALWAYS_INLINE int32_t JSImmediate::getTruncatedInt32(const JSValue* v) { ASSERT(isNumber(v)); return static_cast(unTag(v)) >> 2; } ALWAYS_INLINE double JSImmediate::toDouble(const JSValue* v) { ASSERT(isImmediate(v)); const int32_t i = static_cast(unTag(v)) >> 2; if (JSImmediate::getTag(v) == UndefinedType && i) return std::numeric_limits::quiet_NaN(); return i; } ALWAYS_INLINE bool JSImmediate::getUInt32(const JSValue* v, uint32_t& i) { const int32_t si = static_cast(unTag(v)) >> 2; i = si; return isNumber(v) & (si >= 0); } ALWAYS_INLINE bool JSImmediate::getTruncatedInt32(const JSValue* v, int32_t& i) { i = static_cast(unTag(v)) >> 2; return isNumber(v); } ALWAYS_INLINE bool JSImmediate::getTruncatedUInt32(const JSValue* v, uint32_t& i) { return getUInt32(v, i); } } // namespace KJS #endif