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      1 /*
      2  * Copyright (C) 2008, 2009 Apple Inc. All rights reserved.
      3  *
      4  * Redistribution and use in source and binary forms, with or without
      5  * modification, are permitted provided that the following conditions
      6  * are met:
      7  * 1. Redistributions of source code must retain the above copyright
      8  *    notice, this list of conditions and the following disclaimer.
      9  * 2. Redistributions in binary form must reproduce the above copyright
     10  *    notice, this list of conditions and the following disclaimer in the
     11  *    documentation and/or other materials provided with the distribution.
     12  *
     13  * THIS SOFTWARE IS PROVIDED BY APPLE COMPUTER, INC. ``AS IS'' AND ANY
     14  * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
     15  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
     16  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL APPLE COMPUTER, INC. OR
     17  * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
     18  * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
     19  * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
     20  * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
     21  * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
     22  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
     23  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
     24  */
     25 
     26 #include "config.h"
     27 #include "Structure.h"
     28 
     29 #include "Identifier.h"
     30 #include "JSObject.h"
     31 #include "JSPropertyNameIterator.h"
     32 #include "Lookup.h"
     33 #include "PropertyNameArray.h"
     34 #include "StructureChain.h"
     35 #include <wtf/RefCountedLeakCounter.h>
     36 #include <wtf/RefPtr.h>
     37 
     38 #if ENABLE(JSC_MULTIPLE_THREADS)
     39 #include <wtf/Threading.h>
     40 #endif
     41 
     42 #define DUMP_STRUCTURE_ID_STATISTICS 0
     43 
     44 #ifndef NDEBUG
     45 #define DO_PROPERTYMAP_CONSTENCY_CHECK 0
     46 #else
     47 #define DO_PROPERTYMAP_CONSTENCY_CHECK 0
     48 #endif
     49 
     50 using namespace std;
     51 using namespace WTF;
     52 
     53 #if DUMP_PROPERTYMAP_STATS
     54 
     55 int numProbes;
     56 int numCollisions;
     57 int numRehashes;
     58 int numRemoves;
     59 
     60 #endif
     61 
     62 namespace JSC {
     63 
     64 #if DUMP_STRUCTURE_ID_STATISTICS
     65 static HashSet<Structure*>& liveStructureSet = *(new HashSet<Structure*>);
     66 #endif
     67 
     68 bool StructureTransitionTable::contains(StringImpl* rep, unsigned attributes) const
     69 {
     70     if (isUsingSingleSlot()) {
     71         Structure* transition = singleTransition();
     72         return transition && transition->m_nameInPrevious == rep && transition->m_attributesInPrevious == attributes;
     73     }
     74     return map()->contains(make_pair(rep, attributes));
     75 }
     76 
     77 inline Structure* StructureTransitionTable::get(StringImpl* rep, unsigned attributes) const
     78 {
     79     if (isUsingSingleSlot()) {
     80         Structure* transition = singleTransition();
     81         return (transition && transition->m_nameInPrevious == rep && transition->m_attributesInPrevious == attributes) ? transition : 0;
     82     }
     83     return map()->get(make_pair(rep, attributes));
     84 }
     85 
     86 inline void StructureTransitionTable::remove(Structure* structure)
     87 {
     88     if (isUsingSingleSlot()) {
     89         // If more than one transition had been added, then we wouldn't be in
     90         // single slot mode (even despecifying a from a specific value triggers
     91         // map mode).
     92         // As such, the passed structure *must* be the existing transition.
     93         ASSERT(singleTransition() == structure);
     94         clearSingleTransition();
     95     } else {
     96         // Check whether a mapping exists for structure's key, and whether the
     97         // entry is structure (the latter check may fail if we initially had a
     98         // transition with a specific value, and this has been despecified).
     99         TransitionMap::iterator entry = map()->find(make_pair(structure->m_nameInPrevious, structure->m_attributesInPrevious));
    100         if (entry != map()->end() && structure == entry.get().second)
    101             map()->remove(entry);
    102     }
    103 }
    104 
    105 inline void StructureTransitionTable::add(JSGlobalData& globalData, Structure* structure)
    106 {
    107     if (isUsingSingleSlot()) {
    108         Structure* existingTransition = singleTransition();
    109 
    110         // This handles the first transition being added.
    111         if (!existingTransition) {
    112             setSingleTransition(globalData, structure);
    113             return;
    114         }
    115 
    116         // This handles the second transition being added
    117         // (or the first transition being despecified!)
    118         setMap(new TransitionMap());
    119         add(globalData, existingTransition);
    120     }
    121 
    122     // Add the structure to the map.
    123     std::pair<TransitionMap::iterator, bool> result = map()->add(globalData, make_pair(structure->m_nameInPrevious, structure->m_attributesInPrevious), structure);
    124     if (!result.second) {
    125         // There already is an entry! - we should only hit this when despecifying.
    126         ASSERT(result.first.get().second->m_specificValueInPrevious);
    127         ASSERT(!structure->m_specificValueInPrevious);
    128         map()->set(result.first, structure);
    129     }
    130 }
    131 
    132 void Structure::dumpStatistics()
    133 {
    134 #if DUMP_STRUCTURE_ID_STATISTICS
    135     unsigned numberLeaf = 0;
    136     unsigned numberUsingSingleSlot = 0;
    137     unsigned numberSingletons = 0;
    138     unsigned numberWithPropertyMaps = 0;
    139     unsigned totalPropertyMapsSize = 0;
    140 
    141     HashSet<Structure*>::const_iterator end = liveStructureSet.end();
    142     for (HashSet<Structure*>::const_iterator it = liveStructureSet.begin(); it != end; ++it) {
    143         Structure* structure = *it;
    144 
    145         switch (structure->m_transitionTable.size()) {
    146             case 0:
    147                 ++numberLeaf;
    148                if (!structure->m_previous)
    149                     ++numberSingletons;
    150                 break;
    151 
    152             case 1:
    153                 ++numberUsingSingleSlot;
    154                 break;
    155         }
    156 
    157         if (structure->m_propertyTable) {
    158             ++numberWithPropertyMaps;
    159             totalPropertyMapsSize += structure->m_propertyTable->sizeInMemory();
    160         }
    161     }
    162 
    163     printf("Number of live Structures: %d\n", liveStructureSet.size());
    164     printf("Number of Structures using the single item optimization for transition map: %d\n", numberUsingSingleSlot);
    165     printf("Number of Structures that are leaf nodes: %d\n", numberLeaf);
    166     printf("Number of Structures that singletons: %d\n", numberSingletons);
    167     printf("Number of Structures with PropertyMaps: %d\n", numberWithPropertyMaps);
    168 
    169     printf("Size of a single Structures: %d\n", static_cast<unsigned>(sizeof(Structure)));
    170     printf("Size of sum of all property maps: %d\n", totalPropertyMapsSize);
    171     printf("Size of average of all property maps: %f\n", static_cast<double>(totalPropertyMapsSize) / static_cast<double>(liveStructureSet.size()));
    172 #else
    173     printf("Dumping Structure statistics is not enabled.\n");
    174 #endif
    175 }
    176 
    177 Structure::Structure(JSGlobalData& globalData, JSValue prototype, const TypeInfo& typeInfo, unsigned anonymousSlotCount, const ClassInfo* classInfo)
    178     : JSCell(globalData, globalData.structureStructure.get())
    179     , m_typeInfo(typeInfo)
    180     , m_prototype(globalData, this, prototype)
    181     , m_classInfo(classInfo)
    182     , m_propertyStorageCapacity(typeInfo.isFinal() ? JSFinalObject_inlineStorageCapacity : JSNonFinalObject_inlineStorageCapacity)
    183     , m_offset(noOffset)
    184     , m_dictionaryKind(NoneDictionaryKind)
    185     , m_isPinnedPropertyTable(false)
    186     , m_hasGetterSetterProperties(false)
    187     , m_hasNonEnumerableProperties(false)
    188     , m_attributesInPrevious(0)
    189     , m_specificFunctionThrashCount(0)
    190     , m_anonymousSlotCount(anonymousSlotCount)
    191     , m_preventExtensions(false)
    192 {
    193     ASSERT(m_prototype);
    194     ASSERT(m_prototype.isObject() || m_prototype.isNull());
    195 }
    196 
    197 const ClassInfo Structure::s_info = { "Structure", 0, 0, 0 };
    198 
    199 Structure::Structure(JSGlobalData& globalData)
    200     : JSCell(globalData, this)
    201     , m_typeInfo(CompoundType, OverridesMarkChildren)
    202     , m_prototype(globalData, this, jsNull())
    203     , m_classInfo(&s_info)
    204     , m_propertyStorageCapacity(0)
    205     , m_offset(noOffset)
    206     , m_dictionaryKind(NoneDictionaryKind)
    207     , m_isPinnedPropertyTable(false)
    208     , m_hasGetterSetterProperties(false)
    209     , m_hasNonEnumerableProperties(false)
    210     , m_attributesInPrevious(0)
    211     , m_specificFunctionThrashCount(0)
    212     , m_anonymousSlotCount(0)
    213     , m_preventExtensions(false)
    214 {
    215     ASSERT(m_prototype);
    216     ASSERT(m_prototype.isNull());
    217     ASSERT(!globalData.structureStructure);
    218 }
    219 
    220 Structure::Structure(JSGlobalData& globalData, const Structure* previous)
    221     : JSCell(globalData, globalData.structureStructure.get())
    222     , m_typeInfo(previous->typeInfo())
    223     , m_prototype(globalData, this, previous->storedPrototype())
    224     , m_classInfo(previous->m_classInfo)
    225     , m_propertyStorageCapacity(previous->m_propertyStorageCapacity)
    226     , m_offset(noOffset)
    227     , m_dictionaryKind(NoneDictionaryKind)
    228     , m_isPinnedPropertyTable(false)
    229     , m_hasGetterSetterProperties(previous->m_hasGetterSetterProperties)
    230     , m_hasNonEnumerableProperties(previous->m_hasNonEnumerableProperties)
    231     , m_attributesInPrevious(0)
    232     , m_specificFunctionThrashCount(previous->m_specificFunctionThrashCount)
    233     , m_anonymousSlotCount(previous->anonymousSlotCount())
    234     , m_preventExtensions(previous->m_preventExtensions)
    235 {
    236     ASSERT(m_prototype);
    237     ASSERT(m_prototype.isObject() || m_prototype.isNull());
    238 }
    239 
    240 Structure::~Structure()
    241 {
    242 }
    243 
    244 void Structure::materializePropertyMap(JSGlobalData& globalData)
    245 {
    246     ASSERT(!m_propertyTable);
    247 
    248     Vector<Structure*, 8> structures;
    249     structures.append(this);
    250 
    251     Structure* structure = this;
    252 
    253     // Search for the last Structure with a property table.
    254     while ((structure = structure->previousID())) {
    255         if (structure->m_isPinnedPropertyTable) {
    256             ASSERT(structure->m_propertyTable);
    257             ASSERT(!structure->m_previous);
    258 
    259             m_propertyTable = structure->m_propertyTable->copy(globalData, 0, m_offset + 1);
    260             break;
    261         }
    262 
    263         structures.append(structure);
    264     }
    265 
    266     if (!m_propertyTable)
    267         createPropertyMap(m_offset + 1);
    268 
    269     for (ptrdiff_t i = structures.size() - 2; i >= 0; --i) {
    270         structure = structures[i];
    271         PropertyMapEntry entry(globalData, this, structure->m_nameInPrevious.get(), m_anonymousSlotCount + structure->m_offset, structure->m_attributesInPrevious, structure->m_specificValueInPrevious.get());
    272         m_propertyTable->add(entry);
    273     }
    274 }
    275 
    276 void Structure::growPropertyStorageCapacity()
    277 {
    278     if (isUsingInlineStorage())
    279         m_propertyStorageCapacity = JSObject::baseExternalStorageCapacity;
    280     else
    281         m_propertyStorageCapacity *= 2;
    282 }
    283 
    284 void Structure::despecifyDictionaryFunction(JSGlobalData& globalData, const Identifier& propertyName)
    285 {
    286     StringImpl* rep = propertyName.impl();
    287 
    288     materializePropertyMapIfNecessary(globalData);
    289 
    290     ASSERT(isDictionary());
    291     ASSERT(m_propertyTable);
    292 
    293     PropertyMapEntry* entry = m_propertyTable->find(rep).first;
    294     ASSERT(entry);
    295     entry->specificValue.clear();
    296 }
    297 
    298 Structure* Structure::addPropertyTransitionToExistingStructure(Structure* structure, const Identifier& propertyName, unsigned attributes, JSCell* specificValue, size_t& offset)
    299 {
    300     ASSERT(!structure->isDictionary());
    301     ASSERT(structure->typeInfo().type() == ObjectType);
    302 
    303     if (Structure* existingTransition = structure->m_transitionTable.get(propertyName.impl(), attributes)) {
    304         JSCell* specificValueInPrevious = existingTransition->m_specificValueInPrevious.get();
    305         if (specificValueInPrevious && specificValueInPrevious != specificValue)
    306             return 0;
    307         ASSERT(existingTransition->m_offset != noOffset);
    308         offset = existingTransition->m_offset + existingTransition->m_anonymousSlotCount;
    309         ASSERT(offset >= structure->m_anonymousSlotCount);
    310         ASSERT(structure->m_anonymousSlotCount == existingTransition->m_anonymousSlotCount);
    311         return existingTransition;
    312     }
    313 
    314     return 0;
    315 }
    316 
    317 Structure* Structure::addPropertyTransition(JSGlobalData& globalData, Structure* structure, const Identifier& propertyName, unsigned attributes, JSCell* specificValue, size_t& offset)
    318 {
    319     // If we have a specific function, we may have got to this point if there is
    320     // already a transition with the correct property name and attributes, but
    321     // specialized to a different function.  In this case we just want to give up
    322     // and despecialize the transition.
    323     // In this case we clear the value of specificFunction which will result
    324     // in us adding a non-specific transition, and any subsequent lookup in
    325     // Structure::addPropertyTransitionToExistingStructure will just use that.
    326     if (specificValue && structure->m_transitionTable.contains(propertyName.impl(), attributes))
    327         specificValue = 0;
    328 
    329     ASSERT(!structure->isDictionary());
    330     ASSERT(structure->typeInfo().type() == ObjectType);
    331     ASSERT(!Structure::addPropertyTransitionToExistingStructure(structure, propertyName, attributes, specificValue, offset));
    332 
    333     if (structure->m_specificFunctionThrashCount == maxSpecificFunctionThrashCount)
    334         specificValue = 0;
    335 
    336     if (structure->transitionCount() > s_maxTransitionLength) {
    337         Structure* transition = toCacheableDictionaryTransition(globalData, structure);
    338         ASSERT(structure != transition);
    339         offset = transition->putSpecificValue(globalData, propertyName, attributes, specificValue);
    340         ASSERT(offset >= structure->m_anonymousSlotCount);
    341         ASSERT(structure->m_anonymousSlotCount == transition->m_anonymousSlotCount);
    342         if (transition->propertyStorageSize() > transition->propertyStorageCapacity())
    343             transition->growPropertyStorageCapacity();
    344         return transition;
    345     }
    346 
    347     Structure* transition = create(globalData, structure);
    348 
    349     transition->m_cachedPrototypeChain.set(globalData, transition, structure->m_cachedPrototypeChain.get());
    350     transition->m_previous.set(globalData, transition, structure);
    351     transition->m_nameInPrevious = propertyName.impl();
    352     transition->m_attributesInPrevious = attributes;
    353     transition->m_specificValueInPrevious.set(globalData, transition, specificValue);
    354 
    355     if (structure->m_propertyTable) {
    356         if (structure->m_isPinnedPropertyTable)
    357             transition->m_propertyTable = structure->m_propertyTable->copy(globalData, 0, structure->m_propertyTable->size() + 1);
    358         else
    359             transition->m_propertyTable = structure->m_propertyTable.release();
    360     } else {
    361         if (structure->m_previous)
    362             transition->materializePropertyMap(globalData);
    363         else
    364             transition->createPropertyMap();
    365     }
    366 
    367     offset = transition->putSpecificValue(globalData, propertyName, attributes, specificValue);
    368     ASSERT(offset >= structure->m_anonymousSlotCount);
    369     ASSERT(structure->m_anonymousSlotCount == transition->m_anonymousSlotCount);
    370     if (transition->propertyStorageSize() > transition->propertyStorageCapacity())
    371         transition->growPropertyStorageCapacity();
    372 
    373     transition->m_offset = offset - structure->m_anonymousSlotCount;
    374     ASSERT(structure->anonymousSlotCount() == transition->anonymousSlotCount());
    375     structure->m_transitionTable.add(globalData, transition);
    376     return transition;
    377 }
    378 
    379 Structure* Structure::removePropertyTransition(JSGlobalData& globalData, Structure* structure, const Identifier& propertyName, size_t& offset)
    380 {
    381     ASSERT(!structure->isUncacheableDictionary());
    382 
    383     Structure* transition = toUncacheableDictionaryTransition(globalData, structure);
    384 
    385     offset = transition->remove(propertyName);
    386     ASSERT(offset >= structure->m_anonymousSlotCount);
    387     ASSERT(structure->m_anonymousSlotCount == transition->m_anonymousSlotCount);
    388 
    389     return transition;
    390 }
    391 
    392 Structure* Structure::changePrototypeTransition(JSGlobalData& globalData, Structure* structure, JSValue prototype)
    393 {
    394     Structure* transition = create(globalData, structure);
    395 
    396     transition->m_prototype.set(globalData, transition, prototype);
    397 
    398     // Don't set m_offset, as one can not transition to this.
    399 
    400     structure->materializePropertyMapIfNecessary(globalData);
    401     transition->m_propertyTable = structure->copyPropertyTable(globalData, transition);
    402     transition->m_isPinnedPropertyTable = true;
    403 
    404     ASSERT(structure->anonymousSlotCount() == transition->anonymousSlotCount());
    405     return transition;
    406 }
    407 
    408 Structure* Structure::despecifyFunctionTransition(JSGlobalData& globalData, Structure* structure, const Identifier& replaceFunction)
    409 {
    410     ASSERT(structure->m_specificFunctionThrashCount < maxSpecificFunctionThrashCount);
    411     Structure* transition = create(globalData, structure);
    412 
    413     ++transition->m_specificFunctionThrashCount;
    414 
    415     // Don't set m_offset, as one can not transition to this.
    416 
    417     structure->materializePropertyMapIfNecessary(globalData);
    418     transition->m_propertyTable = structure->copyPropertyTable(globalData, transition);
    419     transition->m_isPinnedPropertyTable = true;
    420 
    421     if (transition->m_specificFunctionThrashCount == maxSpecificFunctionThrashCount)
    422         transition->despecifyAllFunctions(globalData);
    423     else {
    424         bool removed = transition->despecifyFunction(globalData, replaceFunction);
    425         ASSERT_UNUSED(removed, removed);
    426     }
    427 
    428     ASSERT(structure->anonymousSlotCount() == transition->anonymousSlotCount());
    429     return transition;
    430 }
    431 
    432 Structure* Structure::getterSetterTransition(JSGlobalData& globalData, Structure* structure)
    433 {
    434     Structure* transition = create(globalData, structure);
    435 
    436     // Don't set m_offset, as one can not transition to this.
    437 
    438     structure->materializePropertyMapIfNecessary(globalData);
    439     transition->m_propertyTable = structure->copyPropertyTable(globalData, transition);
    440     transition->m_isPinnedPropertyTable = true;
    441 
    442     ASSERT(structure->anonymousSlotCount() == transition->anonymousSlotCount());
    443     return transition;
    444 }
    445 
    446 Structure* Structure::toDictionaryTransition(JSGlobalData& globalData, Structure* structure, DictionaryKind kind)
    447 {
    448     ASSERT(!structure->isUncacheableDictionary());
    449 
    450     Structure* transition = create(globalData, structure);
    451 
    452     structure->materializePropertyMapIfNecessary(globalData);
    453     transition->m_propertyTable = structure->copyPropertyTable(globalData, transition);
    454     transition->m_isPinnedPropertyTable = true;
    455     transition->m_dictionaryKind = kind;
    456 
    457     ASSERT(structure->anonymousSlotCount() == transition->anonymousSlotCount());
    458     return transition;
    459 }
    460 
    461 Structure* Structure::toCacheableDictionaryTransition(JSGlobalData& globalData, Structure* structure)
    462 {
    463     return toDictionaryTransition(globalData, structure, CachedDictionaryKind);
    464 }
    465 
    466 Structure* Structure::toUncacheableDictionaryTransition(JSGlobalData& globalData, Structure* structure)
    467 {
    468     return toDictionaryTransition(globalData, structure, UncachedDictionaryKind);
    469 }
    470 
    471 // In future we may want to cache this transition.
    472 Structure* Structure::sealTransition(JSGlobalData& globalData, Structure* structure)
    473 {
    474     Structure* transition = preventExtensionsTransition(globalData, structure);
    475 
    476     if (transition->m_propertyTable) {
    477         PropertyTable::iterator end = transition->m_propertyTable->end();
    478         for (PropertyTable::iterator iter = transition->m_propertyTable->begin(); iter != end; ++iter)
    479             iter->attributes |= DontDelete;
    480     }
    481 
    482     return transition;
    483 }
    484 
    485 // In future we may want to cache this transition.
    486 Structure* Structure::freezeTransition(JSGlobalData& globalData, Structure* structure)
    487 {
    488     Structure* transition = preventExtensionsTransition(globalData, structure);
    489 
    490     if (transition->m_propertyTable) {
    491         PropertyTable::iterator end = transition->m_propertyTable->end();
    492         for (PropertyTable::iterator iter = transition->m_propertyTable->begin(); iter != end; ++iter)
    493             iter->attributes |= (DontDelete | ReadOnly);
    494     }
    495 
    496     return transition;
    497 }
    498 
    499 // In future we may want to cache this transition.
    500 Structure* Structure::preventExtensionsTransition(JSGlobalData& globalData, Structure* structure)
    501 {
    502     Structure* transition = create(globalData, structure);
    503 
    504     // Don't set m_offset, as one can not transition to this.
    505 
    506     structure->materializePropertyMapIfNecessary(globalData);
    507     transition->m_propertyTable = structure->copyPropertyTable(globalData, transition);
    508     transition->m_isPinnedPropertyTable = true;
    509     transition->m_preventExtensions = true;
    510 
    511     ASSERT(structure->anonymousSlotCount() == transition->anonymousSlotCount());
    512     return transition;
    513 }
    514 
    515 // In future we may want to cache this property.
    516 bool Structure::isSealed(JSGlobalData& globalData)
    517 {
    518     if (isExtensible())
    519         return false;
    520 
    521     materializePropertyMapIfNecessary(globalData);
    522     if (!m_propertyTable)
    523         return true;
    524 
    525     PropertyTable::iterator end = m_propertyTable->end();
    526     for (PropertyTable::iterator iter = m_propertyTable->begin(); iter != end; ++iter) {
    527         if ((iter->attributes & DontDelete) != DontDelete)
    528             return false;
    529     }
    530     return true;
    531 }
    532 
    533 // In future we may want to cache this property.
    534 bool Structure::isFrozen(JSGlobalData& globalData)
    535 {
    536     if (isExtensible())
    537         return false;
    538 
    539     materializePropertyMapIfNecessary(globalData);
    540     if (!m_propertyTable)
    541         return true;
    542 
    543     PropertyTable::iterator end = m_propertyTable->end();
    544     for (PropertyTable::iterator iter = m_propertyTable->begin(); iter != end; ++iter) {
    545         if ((iter->attributes & (DontDelete | ReadOnly)) != (DontDelete | ReadOnly))
    546             return false;
    547     }
    548     return true;
    549 }
    550 
    551 Structure* Structure::flattenDictionaryStructure(JSGlobalData& globalData, JSObject* object)
    552 {
    553     ASSERT(isDictionary());
    554     if (isUncacheableDictionary()) {
    555         ASSERT(m_propertyTable);
    556 
    557         unsigned anonymousSlotCount = m_anonymousSlotCount;
    558         size_t propertyCount = m_propertyTable->size();
    559         Vector<JSValue> values(propertyCount);
    560 
    561         unsigned i = 0;
    562         PropertyTable::iterator end = m_propertyTable->end();
    563         for (PropertyTable::iterator iter = m_propertyTable->begin(); iter != end; ++iter, ++i) {
    564             values[i] = object->getDirectOffset(iter->offset);
    565             // Update property table to have the new property offsets
    566             iter->offset = anonymousSlotCount + i;
    567         }
    568 
    569         // Copy the original property values into their final locations
    570         for (unsigned i = 0; i < propertyCount; i++)
    571             object->putDirectOffset(globalData, anonymousSlotCount + i, values[i]);
    572 
    573         m_propertyTable->clearDeletedOffsets();
    574     }
    575 
    576     m_dictionaryKind = NoneDictionaryKind;
    577     return this;
    578 }
    579 
    580 size_t Structure::addPropertyWithoutTransition(JSGlobalData& globalData, const Identifier& propertyName, unsigned attributes, JSCell* specificValue)
    581 {
    582     ASSERT(!m_enumerationCache);
    583 
    584     if (m_specificFunctionThrashCount == maxSpecificFunctionThrashCount)
    585         specificValue = 0;
    586 
    587     materializePropertyMapIfNecessary(globalData);
    588 
    589     m_isPinnedPropertyTable = true;
    590 
    591     size_t offset = putSpecificValue(globalData, propertyName, attributes, specificValue);
    592     ASSERT(offset >= m_anonymousSlotCount);
    593     if (propertyStorageSize() > propertyStorageCapacity())
    594         growPropertyStorageCapacity();
    595     return offset;
    596 }
    597 
    598 size_t Structure::removePropertyWithoutTransition(JSGlobalData& globalData, const Identifier& propertyName)
    599 {
    600     ASSERT(isUncacheableDictionary());
    601     ASSERT(!m_enumerationCache);
    602 
    603     materializePropertyMapIfNecessary(globalData);
    604 
    605     m_isPinnedPropertyTable = true;
    606     size_t offset = remove(propertyName);
    607     ASSERT(offset >= m_anonymousSlotCount);
    608     return offset;
    609 }
    610 
    611 #if DUMP_PROPERTYMAP_STATS
    612 
    613 struct PropertyMapStatisticsExitLogger {
    614     ~PropertyMapStatisticsExitLogger();
    615 };
    616 
    617 static PropertyMapStatisticsExitLogger logger;
    618 
    619 PropertyMapStatisticsExitLogger::~PropertyMapStatisticsExitLogger()
    620 {
    621     printf("\nJSC::PropertyMap statistics\n\n");
    622     printf("%d probes\n", numProbes);
    623     printf("%d collisions (%.1f%%)\n", numCollisions, 100.0 * numCollisions / numProbes);
    624     printf("%d rehashes\n", numRehashes);
    625     printf("%d removes\n", numRemoves);
    626 }
    627 
    628 #endif
    629 
    630 #if !DO_PROPERTYMAP_CONSTENCY_CHECK
    631 
    632 inline void Structure::checkConsistency()
    633 {
    634 }
    635 
    636 #endif
    637 
    638 PropertyTable* Structure::copyPropertyTable(JSGlobalData& globalData, Structure* owner)
    639 {
    640     return m_propertyTable ? new PropertyTable(globalData, owner, *m_propertyTable) : 0;
    641 }
    642 
    643 size_t Structure::get(JSGlobalData& globalData, StringImpl* propertyName, unsigned& attributes, JSCell*& specificValue)
    644 {
    645     materializePropertyMapIfNecessary(globalData);
    646     if (!m_propertyTable)
    647         return WTF::notFound;
    648 
    649     PropertyMapEntry* entry = m_propertyTable->find(propertyName).first;
    650     if (!entry)
    651         return WTF::notFound;
    652 
    653     attributes = entry->attributes;
    654     specificValue = entry->specificValue.get();
    655     ASSERT(entry->offset >= m_anonymousSlotCount);
    656     return entry->offset;
    657 }
    658 
    659 bool Structure::despecifyFunction(JSGlobalData& globalData, const Identifier& propertyName)
    660 {
    661     materializePropertyMapIfNecessary(globalData);
    662     if (!m_propertyTable)
    663         return false;
    664 
    665     ASSERT(!propertyName.isNull());
    666     PropertyMapEntry* entry = m_propertyTable->find(propertyName.impl()).first;
    667     if (!entry)
    668         return false;
    669 
    670     ASSERT(entry->specificValue);
    671     entry->specificValue.clear();
    672     return true;
    673 }
    674 
    675 void Structure::despecifyAllFunctions(JSGlobalData& globalData)
    676 {
    677     materializePropertyMapIfNecessary(globalData);
    678     if (!m_propertyTable)
    679         return;
    680 
    681     PropertyTable::iterator end = m_propertyTable->end();
    682     for (PropertyTable::iterator iter = m_propertyTable->begin(); iter != end; ++iter)
    683         iter->specificValue.clear();
    684 }
    685 
    686 size_t Structure::putSpecificValue(JSGlobalData& globalData, const Identifier& propertyName, unsigned attributes, JSCell* specificValue)
    687 {
    688     ASSERT(!propertyName.isNull());
    689     ASSERT(get(globalData, propertyName) == notFound);
    690 
    691     checkConsistency();
    692     if (attributes & DontEnum)
    693         m_hasNonEnumerableProperties = true;
    694 
    695     StringImpl* rep = propertyName.impl();
    696 
    697     if (!m_propertyTable)
    698         createPropertyMap();
    699 
    700     unsigned newOffset;
    701 
    702     if (m_propertyTable->hasDeletedOffset())
    703         newOffset = m_propertyTable->getDeletedOffset();
    704     else
    705         newOffset = m_propertyTable->size() + m_anonymousSlotCount;
    706     ASSERT(newOffset >= m_anonymousSlotCount);
    707 
    708     m_propertyTable->add(PropertyMapEntry(globalData, this, rep, newOffset, attributes, specificValue));
    709 
    710     checkConsistency();
    711     return newOffset;
    712 }
    713 
    714 size_t Structure::remove(const Identifier& propertyName)
    715 {
    716     ASSERT(!propertyName.isNull());
    717 
    718     checkConsistency();
    719 
    720     StringImpl* rep = propertyName.impl();
    721 
    722     if (!m_propertyTable)
    723         return notFound;
    724 
    725     PropertyTable::find_iterator position = m_propertyTable->find(rep);
    726     if (!position.first)
    727         return notFound;
    728 
    729     size_t offset = position.first->offset;
    730     ASSERT(offset >= m_anonymousSlotCount);
    731 
    732     m_propertyTable->remove(position);
    733     m_propertyTable->addDeletedOffset(offset);
    734 
    735     checkConsistency();
    736     return offset;
    737 }
    738 
    739 void Structure::createPropertyMap(unsigned capacity)
    740 {
    741     ASSERT(!m_propertyTable);
    742 
    743     checkConsistency();
    744     m_propertyTable = new PropertyTable(capacity);
    745     checkConsistency();
    746 }
    747 
    748 void Structure::getPropertyNames(JSGlobalData& globalData, PropertyNameArray& propertyNames, EnumerationMode mode)
    749 {
    750     materializePropertyMapIfNecessary(globalData);
    751     if (!m_propertyTable)
    752         return;
    753 
    754     bool knownUnique = !propertyNames.size();
    755 
    756     PropertyTable::iterator end = m_propertyTable->end();
    757     for (PropertyTable::iterator iter = m_propertyTable->begin(); iter != end; ++iter) {
    758         ASSERT(m_hasNonEnumerableProperties || !(iter->attributes & DontEnum));
    759         if (!(iter->attributes & DontEnum) || (mode == IncludeDontEnumProperties)) {
    760             if (knownUnique)
    761                 propertyNames.addKnownUnique(iter->key);
    762             else
    763                 propertyNames.add(iter->key);
    764         }
    765     }
    766 }
    767 
    768 void Structure::markChildren(MarkStack& markStack)
    769 {
    770     JSCell::markChildren(markStack);
    771     if (m_prototype)
    772         markStack.append(&m_prototype);
    773     if (m_cachedPrototypeChain)
    774         markStack.append(&m_cachedPrototypeChain);
    775     if (m_previous)
    776         markStack.append(&m_previous);
    777     if (m_specificValueInPrevious)
    778         markStack.append(&m_specificValueInPrevious);
    779     if (m_enumerationCache)
    780         markStack.append(&m_enumerationCache);
    781     if (m_propertyTable) {
    782         PropertyTable::iterator end = m_propertyTable->end();
    783         for (PropertyTable::iterator ptr = m_propertyTable->begin(); ptr != end; ++ptr) {
    784             if (ptr->specificValue)
    785                 markStack.append(&ptr->specificValue);
    786         }
    787     }
    788 }
    789 
    790 #if DO_PROPERTYMAP_CONSTENCY_CHECK
    791 
    792 void PropertyTable::checkConsistency()
    793 {
    794     ASSERT(m_indexSize >= PropertyTable::MinimumTableSize);
    795     ASSERT(m_indexMask);
    796     ASSERT(m_indexSize == m_indexMask + 1);
    797     ASSERT(!(m_indexSize & m_indexMask));
    798 
    799     ASSERT(m_keyCount <= m_indexSize / 2);
    800     ASSERT(m_keyCount + m_deletedCount <= m_indexSize / 2);
    801     ASSERT(m_deletedCount <= m_indexSize / 4);
    802 
    803     unsigned indexCount = 0;
    804     unsigned deletedIndexCount = 0;
    805     for (unsigned a = 0; a != m_indexSize; ++a) {
    806         unsigned entryIndex = m_index[a];
    807         if (entryIndex == PropertyTable::EmptyEntryIndex)
    808             continue;
    809         if (entryIndex == deletedEntryIndex()) {
    810             ++deletedIndexCount;
    811             continue;
    812         }
    813         ASSERT(entryIndex < deletedEntryIndex());
    814         ASSERT(entryIndex - 1 <= usedCount());
    815         ++indexCount;
    816 
    817         for (unsigned b = a + 1; b != m_indexSize; ++b)
    818             ASSERT(m_index[b] != entryIndex);
    819     }
    820     ASSERT(indexCount == m_keyCount);
    821     ASSERT(deletedIndexCount == m_deletedCount);
    822 
    823     ASSERT(!table()[deletedEntryIndex() - 1].key);
    824 
    825     unsigned nonEmptyEntryCount = 0;
    826     for (unsigned c = 0; c < usedCount(); ++c) {
    827         StringImpl* rep = table()[c].key;
    828         if (rep == PROPERTY_MAP_DELETED_ENTRY_KEY)
    829             continue;
    830         ++nonEmptyEntryCount;
    831         unsigned i = rep->existingHash();
    832         unsigned k = 0;
    833         unsigned entryIndex;
    834         while (1) {
    835             entryIndex = m_index[i & m_indexMask];
    836             ASSERT(entryIndex != PropertyTable::EmptyEntryIndex);
    837             if (rep == table()[entryIndex - 1].key)
    838                 break;
    839             if (k == 0)
    840                 k = 1 | doubleHash(rep->existingHash());
    841             i += k;
    842         }
    843         ASSERT(entryIndex == c + 1);
    844     }
    845 
    846     ASSERT(nonEmptyEntryCount == m_keyCount);
    847 }
    848 
    849 void Structure::checkConsistency()
    850 {
    851     if (!m_propertyTable)
    852         return;
    853 
    854     if (!m_hasNonEnumerableProperties) {
    855         PropertyTable::iterator end = m_propertyTable->end();
    856         for (PropertyTable::iterator iter = m_propertyTable->begin(); iter != end; ++iter) {
    857             ASSERT(!(iter->attributes & DontEnum));
    858             ASSERT(iter->offset >= m_anonymousSlotCount);
    859         }
    860     }
    861 
    862     m_propertyTable->checkConsistency();
    863 }
    864 
    865 #endif // DO_PROPERTYMAP_CONSTENCY_CHECK
    866 
    867 } // namespace JSC
    868