/* * Copyright (C) 1999-2001 Harri Porten (porten@kde.org) * Copyright (C) 2001 Peter Kelly (pmk@post.com) * Copyright (C) 2003, 2004, 2005, 2006, 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. * */ #ifndef JSString_h #define JSString_h #include "CallFrame.h" #include "CommonIdentifiers.h" #include "Identifier.h" #include "JSNumberCell.h" #include "PropertyDescriptor.h" #include "PropertySlot.h" #include "RopeImpl.h" namespace JSC { class JSString; JSString* jsEmptyString(JSGlobalData*); JSString* jsEmptyString(ExecState*); JSString* jsString(JSGlobalData*, const UString&); // returns empty string if passed null string JSString* jsString(ExecState*, const UString&); // returns empty string if passed null string JSString* jsSingleCharacterString(JSGlobalData*, UChar); JSString* jsSingleCharacterString(ExecState*, UChar); JSString* jsSingleCharacterSubstring(ExecState*, const UString&, unsigned offset); JSString* jsSubstring(JSGlobalData*, const UString&, unsigned offset, unsigned length); JSString* jsSubstring(ExecState*, const UString&, unsigned offset, unsigned length); // Non-trivial strings are two or more characters long. // These functions are faster than just calling jsString. JSString* jsNontrivialString(JSGlobalData*, const UString&); JSString* jsNontrivialString(ExecState*, const UString&); JSString* jsNontrivialString(JSGlobalData*, const char*); JSString* jsNontrivialString(ExecState*, const char*); // Should be used for strings that are owned by an object that will // likely outlive the JSValue this makes, such as the parse tree or a // DOM object that contains a UString JSString* jsOwnedString(JSGlobalData*, const UString&); JSString* jsOwnedString(ExecState*, const UString&); typedef void (*JSStringFinalizerCallback)(JSString*, void* context); JSString* jsStringWithFinalizer(ExecState*, const UString&, JSStringFinalizerCallback callback, void* context); class JS_EXPORTCLASS JSString : public JSCell { public: friend class JIT; friend class JSGlobalData; friend class SpecializedThunkJIT; friend struct ThunkHelpers; class RopeBuilder { public: RopeBuilder(unsigned fiberCount) : m_index(0) , m_rope(RopeImpl::tryCreateUninitialized(fiberCount)) { } bool isOutOfMemory() { return !m_rope; } void append(RopeImpl::Fiber& fiber) { ASSERT(m_rope); m_rope->initializeFiber(m_index, fiber); } void append(const UString& string) { ASSERT(m_rope); m_rope->initializeFiber(m_index, string.rep()); } void append(JSString* jsString) { if (jsString->isRope()) { for (unsigned i = 0; i < jsString->m_fiberCount; ++i) append(jsString->m_other.m_fibers[i]); } else append(jsString->string()); } PassRefPtr release() { ASSERT(m_index == m_rope->fiberCount()); return m_rope.release(); } unsigned length() { return m_rope->length(); } private: unsigned m_index; RefPtr m_rope; }; ALWAYS_INLINE JSString(JSGlobalData* globalData, const UString& value) : JSCell(globalData->stringStructure.get()) , m_length(value.size()) , m_value(value) , m_fiberCount(0) { ASSERT(!m_value.isNull()); Heap::heap(this)->reportExtraMemoryCost(value.cost()); } enum HasOtherOwnerType { HasOtherOwner }; JSString(JSGlobalData* globalData, const UString& value, HasOtherOwnerType) : JSCell(globalData->stringStructure.get()) , m_length(value.size()) , m_value(value) , m_fiberCount(0) { ASSERT(!m_value.isNull()); } JSString(JSGlobalData* globalData, PassRefPtr value, HasOtherOwnerType) : JSCell(globalData->stringStructure.get()) , m_length(value->length()) , m_value(value) , m_fiberCount(0) { ASSERT(!m_value.isNull()); } JSString(JSGlobalData* globalData, PassRefPtr rope) : JSCell(globalData->stringStructure.get()) , m_length(rope->length()) , m_fiberCount(1) { m_other.m_fibers[0] = rope.releaseRef(); } // This constructor constructs a new string by concatenating s1 & s2. // This should only be called with fiberCount <= 3. JSString(JSGlobalData* globalData, unsigned fiberCount, JSString* s1, JSString* s2) : JSCell(globalData->stringStructure.get()) , m_length(s1->length() + s2->length()) , m_fiberCount(fiberCount) { ASSERT(fiberCount <= s_maxInternalRopeLength); unsigned index = 0; appendStringInConstruct(index, s1); appendStringInConstruct(index, s2); ASSERT(fiberCount == index); } // This constructor constructs a new string by concatenating s1 & s2. // This should only be called with fiberCount <= 3. JSString(JSGlobalData* globalData, unsigned fiberCount, JSString* s1, const UString& u2) : JSCell(globalData->stringStructure.get()) , m_length(s1->length() + u2.size()) , m_fiberCount(fiberCount) { ASSERT(fiberCount <= s_maxInternalRopeLength); unsigned index = 0; appendStringInConstruct(index, s1); appendStringInConstruct(index, u2); ASSERT(fiberCount == index); } // This constructor constructs a new string by concatenating s1 & s2. // This should only be called with fiberCount <= 3. JSString(JSGlobalData* globalData, unsigned fiberCount, const UString& u1, JSString* s2) : JSCell(globalData->stringStructure.get()) , m_length(u1.size() + s2->length()) , m_fiberCount(fiberCount) { ASSERT(fiberCount <= s_maxInternalRopeLength); unsigned index = 0; appendStringInConstruct(index, u1); appendStringInConstruct(index, s2); ASSERT(fiberCount == index); } // This constructor constructs a new string by concatenating v1, v2 & v3. // This should only be called with fiberCount <= 3 ... which since every // value must require a fiberCount of at least one implies that the length // for each value must be exactly 1! JSString(ExecState* exec, JSValue v1, JSValue v2, JSValue v3) : JSCell(exec->globalData().stringStructure.get()) , m_length(0) , m_fiberCount(s_maxInternalRopeLength) { unsigned index = 0; appendValueInConstructAndIncrementLength(exec, index, v1); appendValueInConstructAndIncrementLength(exec, index, v2); appendValueInConstructAndIncrementLength(exec, index, v3); ASSERT(index == s_maxInternalRopeLength); } JSString(JSGlobalData* globalData, const UString& value, JSStringFinalizerCallback finalizer, void* context) : JSCell(globalData->stringStructure.get()) , m_length(value.size()) , m_value(value) , m_fiberCount(0) { ASSERT(!m_value.isNull()); // nasty hack because we can't union non-POD types m_other.m_finalizerCallback = finalizer; m_other.m_finalizerContext = context; Heap::heap(this)->reportExtraMemoryCost(value.cost()); } ~JSString() { ASSERT(vptr() == JSGlobalData::jsStringVPtr); for (unsigned i = 0; i < m_fiberCount; ++i) RopeImpl::deref(m_other.m_fibers[i]); if (!m_fiberCount && m_other.m_finalizerCallback) m_other.m_finalizerCallback(this, m_other.m_finalizerContext); } const UString& value(ExecState* exec) const { if (isRope()) resolveRope(exec); return m_value; } const UString tryGetValue() const { // If this is a rope, m_value should be null - // if this is not a rope, m_value should be non-null. ASSERT(isRope() == m_value.isNull()); return m_value; } unsigned length() { return m_length; } bool getStringPropertySlot(ExecState*, const Identifier& propertyName, PropertySlot&); bool getStringPropertySlot(ExecState*, unsigned propertyName, PropertySlot&); bool getStringPropertyDescriptor(ExecState*, const Identifier& propertyName, PropertyDescriptor&); bool canGetIndex(unsigned i) { return i < m_length; } JSString* getIndex(ExecState*, unsigned); JSString* getIndexSlowCase(ExecState*, unsigned); static PassRefPtr createStructure(JSValue proto) { return Structure::create(proto, TypeInfo(StringType, OverridesGetOwnPropertySlot | NeedsThisConversion), AnonymousSlotCount); } private: enum VPtrStealingHackType { VPtrStealingHack }; JSString(VPtrStealingHackType) : JSCell(0) , m_fiberCount(0) { } void resolveRope(ExecState*) const; void appendStringInConstruct(unsigned& index, const UString& string) { UStringImpl* impl = string.rep(); impl->ref(); m_other.m_fibers[index++] = impl; } void appendStringInConstruct(unsigned& index, JSString* jsString) { if (jsString->isRope()) { for (unsigned i = 0; i < jsString->m_fiberCount; ++i) { RopeImpl::Fiber fiber = jsString->m_other.m_fibers[i]; fiber->ref(); m_other.m_fibers[index++] = fiber; } } else appendStringInConstruct(index, jsString->string()); } void appendValueInConstructAndIncrementLength(ExecState* exec, unsigned& index, JSValue v) { if (v.isString()) { ASSERT(asCell(v)->isString()); JSString* s = static_cast(asCell(v)); ASSERT(s->fiberCount() == 1); appendStringInConstruct(index, s); m_length += s->length(); } else { UString u(v.toString(exec)); UStringImpl* impl = u.rep(); impl->ref(); m_other.m_fibers[index++] = impl; m_length += u.size(); } } virtual JSValue toPrimitive(ExecState*, PreferredPrimitiveType) const; virtual bool getPrimitiveNumber(ExecState*, double& number, JSValue& value); virtual bool toBoolean(ExecState*) const; virtual double toNumber(ExecState*) const; virtual JSObject* toObject(ExecState*) const; virtual UString toString(ExecState*) const; virtual JSObject* toThisObject(ExecState*) const; // Actually getPropertySlot, not getOwnPropertySlot (see JSCell). virtual bool getOwnPropertySlot(ExecState*, const Identifier& propertyName, PropertySlot&); virtual bool getOwnPropertySlot(ExecState*, unsigned propertyName, PropertySlot&); virtual bool getOwnPropertyDescriptor(ExecState*, const Identifier&, PropertyDescriptor&); static const unsigned s_maxInternalRopeLength = 3; // A string is represented either by a UString or a RopeImpl. unsigned m_length; mutable UString m_value; mutable unsigned m_fiberCount; // This structure exists to support a temporary workaround for a GC issue. struct JSStringFinalizerStruct { JSStringFinalizerStruct() : m_finalizerCallback(0) {} union { mutable RopeImpl::Fiber m_fibers[s_maxInternalRopeLength]; struct { JSStringFinalizerCallback m_finalizerCallback; void* m_finalizerContext; }; }; } m_other; bool isRope() const { return m_fiberCount; } UString& string() { ASSERT(!isRope()); return m_value; } unsigned fiberCount() { return m_fiberCount ? m_fiberCount : 1; } friend JSValue jsString(ExecState* exec, JSString* s1, JSString* s2); friend JSValue jsString(ExecState* exec, const UString& u1, JSString* s2); friend JSValue jsString(ExecState* exec, JSString* s1, const UString& u2); friend JSValue jsString(ExecState* exec, Register* strings, unsigned count); friend JSValue jsString(ExecState* exec, JSValue thisValue, const ArgList& args); friend JSString* jsStringWithFinalizer(ExecState*, const UString&, JSStringFinalizerCallback callback, void* context); }; JSString* asString(JSValue); // When an object is created from a different DLL, MSVC changes vptr to a "local" one right after invoking a constructor, // see . // This breaks isJSString(), and we don't need that hack anyway, so we change vptr back to primary one. // The below function must be called by any inline function that invokes a JSString constructor. #if COMPILER(MSVC) && !defined(BUILDING_JavaScriptCore) inline JSString* fixupVPtr(JSGlobalData* globalData, JSString* string) { string->setVPtr(globalData->jsStringVPtr); return string; } #else inline JSString* fixupVPtr(JSGlobalData*, JSString* string) { return string; } #endif inline JSString* asString(JSValue value) { ASSERT(asCell(value)->isString()); return static_cast(asCell(value)); } inline JSString* jsEmptyString(JSGlobalData* globalData) { return globalData->smallStrings.emptyString(globalData); } inline JSString* jsSingleCharacterString(JSGlobalData* globalData, UChar c) { if (c <= 0xFF) return globalData->smallStrings.singleCharacterString(globalData, c); return fixupVPtr(globalData, new (globalData) JSString(globalData, UString(&c, 1))); } inline JSString* jsSingleCharacterSubstring(ExecState* exec, const UString& s, unsigned offset) { JSGlobalData* globalData = &exec->globalData(); ASSERT(offset < static_cast(s.size())); UChar c = s.data()[offset]; if (c <= 0xFF) return globalData->smallStrings.singleCharacterString(globalData, c); return fixupVPtr(globalData, new (globalData) JSString(globalData, UString(UString::Rep::create(s.rep(), offset, 1)))); } inline JSString* jsNontrivialString(JSGlobalData* globalData, const char* s) { ASSERT(s); ASSERT(s[0]); ASSERT(s[1]); return fixupVPtr(globalData, new (globalData) JSString(globalData, s)); } inline JSString* jsNontrivialString(JSGlobalData* globalData, const UString& s) { ASSERT(s.size() > 1); return fixupVPtr(globalData, new (globalData) JSString(globalData, s)); } inline JSString* JSString::getIndex(ExecState* exec, unsigned i) { ASSERT(canGetIndex(i)); if (isRope()) return getIndexSlowCase(exec, i); ASSERT(i < m_value.size()); return jsSingleCharacterSubstring(exec, value(exec), i); } inline JSString* jsString(JSGlobalData* globalData, const UString& s) { int size = s.size(); if (!size) return globalData->smallStrings.emptyString(globalData); if (size == 1) { UChar c = s.data()[0]; if (c <= 0xFF) return globalData->smallStrings.singleCharacterString(globalData, c); } return fixupVPtr(globalData, new (globalData) JSString(globalData, s)); } inline JSString* jsStringWithFinalizer(ExecState* exec, const UString& s, JSStringFinalizerCallback callback, void* context) { ASSERT(s.size() && (s.size() > 1 || s.data()[0] > 0xFF)); JSGlobalData* globalData = &exec->globalData(); return fixupVPtr(globalData, new (globalData) JSString(globalData, s, callback, context)); } inline JSString* jsSubstring(JSGlobalData* globalData, const UString& s, unsigned offset, unsigned length) { ASSERT(offset <= static_cast(s.size())); ASSERT(length <= static_cast(s.size())); ASSERT(offset + length <= static_cast(s.size())); if (!length) return globalData->smallStrings.emptyString(globalData); if (length == 1) { UChar c = s.data()[offset]; if (c <= 0xFF) return globalData->smallStrings.singleCharacterString(globalData, c); } return fixupVPtr(globalData, new (globalData) JSString(globalData, UString(UString::Rep::create(s.rep(), offset, length)), JSString::HasOtherOwner)); } inline JSString* jsOwnedString(JSGlobalData* globalData, const UString& s) { int size = s.size(); if (!size) return globalData->smallStrings.emptyString(globalData); if (size == 1) { UChar c = s.data()[0]; if (c <= 0xFF) return globalData->smallStrings.singleCharacterString(globalData, c); } return fixupVPtr(globalData, new (globalData) JSString(globalData, s, JSString::HasOtherOwner)); } inline JSString* jsEmptyString(ExecState* exec) { return jsEmptyString(&exec->globalData()); } inline JSString* jsString(ExecState* exec, const UString& s) { return jsString(&exec->globalData(), s); } inline JSString* jsSingleCharacterString(ExecState* exec, UChar c) { return jsSingleCharacterString(&exec->globalData(), c); } inline JSString* jsSubstring(ExecState* exec, const UString& s, unsigned offset, unsigned length) { return jsSubstring(&exec->globalData(), s, offset, length); } inline JSString* jsNontrivialString(ExecState* exec, const UString& s) { return jsNontrivialString(&exec->globalData(), s); } inline JSString* jsNontrivialString(ExecState* exec, const char* s) { return jsNontrivialString(&exec->globalData(), s); } inline JSString* jsOwnedString(ExecState* exec, const UString& s) { return jsOwnedString(&exec->globalData(), s); } ALWAYS_INLINE bool JSString::getStringPropertySlot(ExecState* exec, const Identifier& propertyName, PropertySlot& slot) { if (propertyName == exec->propertyNames().length) { slot.setValue(jsNumber(exec, m_length)); return true; } bool isStrictUInt32; unsigned i = propertyName.toStrictUInt32(&isStrictUInt32); if (isStrictUInt32 && i < m_length) { slot.setValue(getIndex(exec, i)); return true; } return false; } ALWAYS_INLINE bool JSString::getStringPropertySlot(ExecState* exec, unsigned propertyName, PropertySlot& slot) { if (propertyName < m_length) { slot.setValue(getIndex(exec, propertyName)); return true; } return false; } inline bool isJSString(JSGlobalData* globalData, JSValue v) { return v.isCell() && v.asCell()->vptr() == globalData->jsStringVPtr; } // --- JSValue inlines ---------------------------- inline UString JSValue::toString(ExecState* exec) const { if (isString()) return static_cast(asCell())->value(exec); if (isInt32()) return exec->globalData().numericStrings.add(asInt32()); if (isDouble()) return exec->globalData().numericStrings.add(asDouble()); if (isTrue()) return "true"; if (isFalse()) return "false"; if (isNull()) return "null"; if (isUndefined()) return "undefined"; ASSERT(isCell()); return asCell()->toString(exec); } inline UString JSValue::toPrimitiveString(ExecState* exec) const { if (isString()) return static_cast(asCell())->value(exec); if (isInt32()) return exec->globalData().numericStrings.add(asInt32()); if (isDouble()) return exec->globalData().numericStrings.add(asDouble()); if (isTrue()) return "true"; if (isFalse()) return "false"; if (isNull()) return "null"; if (isUndefined()) return "undefined"; ASSERT(isCell()); return asCell()->toPrimitive(exec, NoPreference).toString(exec); } } // namespace JSC #endif // JSString_h