/* * Copyright (C) 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. * */ #include "config.h" #ifdef SKIP_STATIC_CONSTRUCTORS_ON_GCC #define ATOMICSTRING_HIDE_GLOBALS 1 #endif #include "AtomicString.h" #include "StaticConstructors.h" #include "StringHash.h" #include "ThreadGlobalData.h" #include #include #if USE(JSC) #include using JSC::Identifier; using JSC::UString; #endif namespace WebCore { static inline HashSet& stringTable() { return threadGlobalData().atomicStringTable(); } struct CStringTranslator { static unsigned hash(const char* c) { return StringImpl::computeHash(c); } static bool equal(StringImpl* r, const char* s) { int length = r->length(); const UChar* d = r->characters(); for (int i = 0; i != length; ++i) { unsigned char c = s[i]; if (d[i] != c) return false; } return s[length] == 0; } static void translate(StringImpl*& location, const char* const& c, unsigned hash) { location = StringImpl::create(c).releaseRef(); location->setHash(hash); location->setInTable(); } }; bool operator==(const AtomicString& a, const char* b) { StringImpl* impl = a.impl(); if ((!impl || !impl->characters()) && !b) return true; if ((!impl || !impl->characters()) || !b) return false; return CStringTranslator::equal(impl, b); } PassRefPtr AtomicString::add(const char* c) { if (!c) return 0; if (!*c) return StringImpl::empty(); pair::iterator, bool> addResult = stringTable().add(c); if (!addResult.second) return *addResult.first; return adoptRef(*addResult.first); } struct UCharBuffer { const UChar* s; unsigned length; }; static inline bool equal(StringImpl* string, const UChar* characters, unsigned length) { if (string->length() != length) return false; // FIXME: perhaps we should have a more abstract macro that indicates when // going 4 bytes at a time is unsafe #if CPU(ARM) || CPU(SH4) const UChar* stringCharacters = string->characters(); for (unsigned i = 0; i != length; ++i) { if (*stringCharacters++ != *characters++) return false; } return true; #else /* Do it 4-bytes-at-a-time on architectures where it's safe */ const uint32_t* stringCharacters = reinterpret_cast(string->characters()); const uint32_t* bufferCharacters = reinterpret_cast(characters); unsigned halfLength = length >> 1; for (unsigned i = 0; i != halfLength; ++i) { if (*stringCharacters++ != *bufferCharacters++) return false; } if (length & 1 && *reinterpret_cast(stringCharacters) != *reinterpret_cast(bufferCharacters)) return false; return true; #endif } struct UCharBufferTranslator { static unsigned hash(const UCharBuffer& buf) { return StringImpl::computeHash(buf.s, buf.length); } static bool equal(StringImpl* const& str, const UCharBuffer& buf) { return WebCore::equal(str, buf.s, buf.length); } static void translate(StringImpl*& location, const UCharBuffer& buf, unsigned hash) { location = StringImpl::create(buf.s, buf.length).releaseRef(); location->setHash(hash); location->setInTable(); } }; struct HashAndCharacters { unsigned hash; const UChar* characters; unsigned length; }; struct HashAndCharactersTranslator { static unsigned hash(const HashAndCharacters& buffer) { ASSERT(buffer.hash == StringImpl::computeHash(buffer.characters, buffer.length)); return buffer.hash; } static bool equal(StringImpl* const& string, const HashAndCharacters& buffer) { return WebCore::equal(string, buffer.characters, buffer.length); } static void translate(StringImpl*& location, const HashAndCharacters& buffer, unsigned hash) { location = StringImpl::create(buffer.characters, buffer.length).releaseRef(); location->setHash(hash); location->setInTable(); } }; PassRefPtr AtomicString::add(const UChar* s, int length) { if (!s) return 0; if (length == 0) return StringImpl::empty(); UCharBuffer buf = { s, length }; pair::iterator, bool> addResult = stringTable().add(buf); // If the string is newly-translated, then we need to adopt it. // The boolean in the pair tells us if that is so. return addResult.second ? adoptRef(*addResult.first) : *addResult.first; } PassRefPtr AtomicString::add(const UChar* s) { if (!s) return 0; int length = 0; while (s[length] != UChar(0)) length++; if (length == 0) return StringImpl::empty(); UCharBuffer buf = {s, length}; pair::iterator, bool> addResult = stringTable().add(buf); // If the string is newly-translated, then we need to adopt it. // The boolean in the pair tells us if that is so. return addResult.second ? adoptRef(*addResult.first) : *addResult.first; } PassRefPtr AtomicString::add(StringImpl* r) { if (!r || r->inTable()) return r; if (r->length() == 0) return StringImpl::empty(); StringImpl* result = *stringTable().add(r).first; if (result == r) r->setInTable(); return result; } void AtomicString::remove(StringImpl* r) { stringTable().remove(r); } AtomicString AtomicString::lower() const { // Note: This is a hot function in the Dromaeo benchmark. StringImpl* impl = this->impl(); RefPtr newImpl = impl->lower(); if (LIKELY(newImpl == impl)) return *this; return AtomicString(newImpl); } #if USE(JSC) PassRefPtr AtomicString::add(const JSC::Identifier& identifier) { if (identifier.isNull()) return 0; UString::Rep* string = identifier.ustring().rep(); unsigned length = string->length(); if (!length) return StringImpl::empty(); HashAndCharacters buffer = { string->existingHash(), string->data(), length }; pair::iterator, bool> addResult = stringTable().add(buffer); if (!addResult.second) return *addResult.first; return adoptRef(*addResult.first); } PassRefPtr AtomicString::add(const JSC::UString& ustring) { if (ustring.isNull()) return 0; UString::Rep* string = ustring.rep(); unsigned length = string->length(); if (!length) return StringImpl::empty(); HashAndCharacters buffer = { string->hash(), string->data(), length }; pair::iterator, bool> addResult = stringTable().add(buffer); if (!addResult.second) return *addResult.first; return adoptRef(*addResult.first); } AtomicStringImpl* AtomicString::find(const JSC::Identifier& identifier) { if (identifier.isNull()) return 0; UString::Rep* string = identifier.ustring().rep(); unsigned length = string->length(); if (!length) return static_cast(StringImpl::empty()); HashAndCharacters buffer = { string->existingHash(), string->data(), length }; HashSet::iterator iterator = stringTable().find(buffer); if (iterator == stringTable().end()) return 0; return static_cast(*iterator); } AtomicString::operator UString() const { return m_string; } #endif DEFINE_GLOBAL(AtomicString, nullAtom) DEFINE_GLOBAL(AtomicString, emptyAtom, "") DEFINE_GLOBAL(AtomicString, textAtom, "#text") DEFINE_GLOBAL(AtomicString, commentAtom, "#comment") DEFINE_GLOBAL(AtomicString, starAtom, "*") DEFINE_GLOBAL(AtomicString, xmlAtom, "xml") DEFINE_GLOBAL(AtomicString, xmlnsAtom, "xmlns") void AtomicString::init() { static bool initialized; if (!initialized) { // Initialization is not thread safe, so this function must be called from the main thread first. ASSERT(isMainThread()); // Use placement new to initialize the globals. new ((void*)&nullAtom) AtomicString; new ((void*)&emptyAtom) AtomicString(""); new ((void*)&textAtom) AtomicString("#text"); new ((void*)&commentAtom) AtomicString("#comment"); new ((void*)&starAtom) AtomicString("*"); new ((void*)&xmlAtom) AtomicString("xml"); new ((void*)&xmlnsAtom) AtomicString("xmlns"); initialized = true; } } }