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Issue 236143002: ES6: Add support for Map.prototype.forEach and Set.prototype.forEach (Closed) Base URL: http://v8.googlecode.com/svn/branches/bleeding_edge
Patch Set: static-ify Created 6 years, 8 months ago
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1 // Copyright 2013 the V8 project authors. All rights reserved. 1 // Copyright 2013 the V8 project authors. All rights reserved.
2 // Redistribution and use in source and binary forms, with or without 2 // Redistribution and use in source and binary forms, with or without
3 // modification, are permitted provided that the following conditions are 3 // modification, are permitted provided that the following conditions are
4 // met: 4 // met:
5 // 5 //
6 // * Redistributions of source code must retain the above copyright 6 // * Redistributions of source code must retain the above copyright
7 // notice, this list of conditions and the following disclaimer. 7 // notice, this list of conditions and the following disclaimer.
8 // * Redistributions in binary form must reproduce the above 8 // * Redistributions in binary form must reproduce the above
9 // copyright notice, this list of conditions and the following 9 // copyright notice, this list of conditions and the following
10 // disclaimer in the documentation and/or other materials provided 10 // disclaimer in the documentation and/or other materials provided
(...skipping 1674 matching lines...) Expand 10 before | Expand all | Expand 10 after
1685 case JS_GENERATOR_OBJECT_TYPE: 1685 case JS_GENERATOR_OBJECT_TYPE:
1686 case JS_MODULE_TYPE: 1686 case JS_MODULE_TYPE:
1687 case JS_VALUE_TYPE: 1687 case JS_VALUE_TYPE:
1688 case JS_DATE_TYPE: 1688 case JS_DATE_TYPE:
1689 case JS_ARRAY_TYPE: 1689 case JS_ARRAY_TYPE:
1690 case JS_ARRAY_BUFFER_TYPE: 1690 case JS_ARRAY_BUFFER_TYPE:
1691 case JS_TYPED_ARRAY_TYPE: 1691 case JS_TYPED_ARRAY_TYPE:
1692 case JS_DATA_VIEW_TYPE: 1692 case JS_DATA_VIEW_TYPE:
1693 case JS_SET_TYPE: 1693 case JS_SET_TYPE:
1694 case JS_MAP_TYPE: 1694 case JS_MAP_TYPE:
1695 case JS_SET_ITERATOR_TYPE:
1696 case JS_MAP_ITERATOR_TYPE:
1695 case JS_WEAK_MAP_TYPE: 1697 case JS_WEAK_MAP_TYPE:
1696 case JS_WEAK_SET_TYPE: 1698 case JS_WEAK_SET_TYPE:
1697 case JS_REGEXP_TYPE: 1699 case JS_REGEXP_TYPE:
1698 case JS_GLOBAL_PROXY_TYPE: 1700 case JS_GLOBAL_PROXY_TYPE:
1699 case JS_GLOBAL_OBJECT_TYPE: 1701 case JS_GLOBAL_OBJECT_TYPE:
1700 case JS_BUILTINS_OBJECT_TYPE: 1702 case JS_BUILTINS_OBJECT_TYPE:
1701 case JS_MESSAGE_OBJECT_TYPE: 1703 case JS_MESSAGE_OBJECT_TYPE:
1702 JSObject::BodyDescriptor::IterateBody(this, object_size, v); 1704 JSObject::BodyDescriptor::IterateBody(this, object_size, v);
1703 break; 1705 break;
1704 case JS_FUNCTION_TYPE: 1706 case JS_FUNCTION_TYPE:
(...skipping 14030 matching lines...) Expand 10 before | Expand all | Expand 10 after
15735 } 15737 }
15736 15738
15737 15739
15738 void WeakHashTable::AddEntry(int entry, Object* key, Object* value) { 15740 void WeakHashTable::AddEntry(int entry, Object* key, Object* value) {
15739 set(EntryToIndex(entry), key); 15741 set(EntryToIndex(entry), key);
15740 set(EntryToValueIndex(entry), value); 15742 set(EntryToValueIndex(entry), value);
15741 ElementAdded(); 15743 ElementAdded();
15742 } 15744 }
15743 15745
15744 15746
15745 template<class Derived, int entrysize> 15747 template<class Derived, class Iterator, int entrysize>
15746 Handle<Derived> OrderedHashTable<Derived, entrysize>::Allocate( 15748 Handle<Derived> OrderedHashTable<Derived, Iterator, entrysize>::Allocate(
15747 Isolate* isolate, int capacity, PretenureFlag pretenure) { 15749 Isolate* isolate, int capacity, PretenureFlag pretenure) {
15748 // Capacity must be a power of two, since we depend on being able 15750 // Capacity must be a power of two, since we depend on being able
15749 // to divide and multiple by 2 (kLoadFactor) to derive capacity 15751 // to divide and multiple by 2 (kLoadFactor) to derive capacity
15750 // from number of buckets. If we decide to change kLoadFactor 15752 // from number of buckets. If we decide to change kLoadFactor
15751 // to something other than 2, capacity should be stored as another 15753 // to something other than 2, capacity should be stored as another
15752 // field of this object. 15754 // field of this object.
15753 const int kMinCapacity = 4;
15754 capacity = RoundUpToPowerOf2(Max(kMinCapacity, capacity)); 15755 capacity = RoundUpToPowerOf2(Max(kMinCapacity, capacity));
15755 if (capacity > kMaxCapacity) { 15756 if (capacity > kMaxCapacity) {
15756 v8::internal::Heap::FatalProcessOutOfMemory("invalid table size", true); 15757 v8::internal::Heap::FatalProcessOutOfMemory("invalid table size", true);
15757 } 15758 }
15758 int num_buckets = capacity / kLoadFactor; 15759 int num_buckets = capacity / kLoadFactor;
15759 Handle<FixedArray> backing_store = isolate->factory()->NewFixedArray( 15760 Handle<FixedArray> backing_store = isolate->factory()->NewFixedArray(
15760 kHashTableStartIndex + num_buckets + (capacity * kEntrySize), pretenure); 15761 kHashTableStartIndex + num_buckets + (capacity * kEntrySize), pretenure);
15761 backing_store->set_map_no_write_barrier( 15762 backing_store->set_map_no_write_barrier(
15762 isolate->heap()->ordered_hash_table_map()); 15763 isolate->heap()->ordered_hash_table_map());
15763 Handle<Derived> table = Handle<Derived>::cast(backing_store); 15764 Handle<Derived> table = Handle<Derived>::cast(backing_store);
15764 for (int i = 0; i < num_buckets; ++i) { 15765 for (int i = 0; i < num_buckets; ++i) {
15765 table->set(kHashTableStartIndex + i, Smi::FromInt(kNotFound)); 15766 table->set(kHashTableStartIndex + i, Smi::FromInt(kNotFound));
15766 } 15767 }
15767 table->SetNumberOfBuckets(num_buckets); 15768 table->SetNumberOfBuckets(num_buckets);
15768 table->SetNumberOfElements(0); 15769 table->SetNumberOfElements(0);
15769 table->SetNumberOfDeletedElements(0); 15770 table->SetNumberOfDeletedElements(0);
15771 table->set_iterators(isolate->heap()->undefined_value());
15770 return table; 15772 return table;
15771 } 15773 }
15772 15774
15773 15775
15774 template<class Derived, int entrysize> 15776 template<class Derived, class Iterator, int entrysize>
15775 Handle<Derived> OrderedHashTable<Derived, entrysize>::EnsureGrowable( 15777 Handle<Derived> OrderedHashTable<Derived, Iterator, entrysize>::EnsureGrowable(
15776 Handle<Derived> table) { 15778 Handle<Derived> table) {
15777 int nof = table->NumberOfElements(); 15779 int nof = table->NumberOfElements();
15778 int nod = table->NumberOfDeletedElements(); 15780 int nod = table->NumberOfDeletedElements();
15779 int capacity = table->Capacity(); 15781 int capacity = table->Capacity();
15780 if ((nof + nod) < capacity) return table; 15782 if ((nof + nod) < capacity) return table;
15781 // Don't need to grow if we can simply clear out deleted entries instead. 15783 // Don't need to grow if we can simply clear out deleted entries instead.
15782 // Note that we can't compact in place, though, so we always allocate 15784 // Note that we can't compact in place, though, so we always allocate
15783 // a new table. 15785 // a new table.
15784 return Rehash(table, (nod < (capacity >> 1)) ? capacity << 1 : capacity); 15786 return Rehash(table, (nod < (capacity >> 1)) ? capacity << 1 : capacity);
15785 } 15787 }
15786 15788
15787 15789
15788 template<class Derived, int entrysize> 15790 template<class Derived, class Iterator, int entrysize>
15789 Handle<Derived> OrderedHashTable<Derived, entrysize>::Shrink( 15791 Handle<Derived> OrderedHashTable<Derived, Iterator, entrysize>::Shrink(
15790 Handle<Derived> table) { 15792 Handle<Derived> table) {
15791 int nof = table->NumberOfElements(); 15793 int nof = table->NumberOfElements();
15792 int capacity = table->Capacity(); 15794 int capacity = table->Capacity();
15793 if (nof > (capacity >> 2)) return table; 15795 if (nof > (capacity >> 2)) return table;
15794 return Rehash(table, capacity / 2); 15796 return Rehash(table, capacity / 2);
15795 } 15797 }
15796 15798
15797 15799
15798 template<class Derived, int entrysize> 15800 template<class Derived, class Iterator, int entrysize>
15799 Handle<Derived> OrderedHashTable<Derived, entrysize>::Rehash( 15801 Handle<Derived> OrderedHashTable<Derived, Iterator, entrysize>::Clear(
15802 Handle<Derived> table) {
15803 Handle<Derived> new_table =
15804 Allocate(table->GetIsolate(),
15805 kMinCapacity,
15806 table->GetHeap()->InNewSpace(*table) ? NOT_TENURED : TENURED);
15807
15808 new_table->set_iterators(table->iterators());
15809 table->set_iterators(table->GetHeap()->undefined_value());
15810
15811 DisallowHeapAllocation no_allocation;
15812 for (Object* object = new_table->iterators();
15813 !object->IsUndefined();
15814 object = Iterator::cast(object)->next_iterator()) {
15815 Iterator::cast(object)->TableCleared();
15816 Iterator::cast(object)->set_table(*new_table);
15817 }
15818
15819 return new_table;
15820 }
15821
15822
15823 template<class Derived, class Iterator, int entrysize>
15824 Handle<Derived> OrderedHashTable<Derived, Iterator, entrysize>::Rehash(
15800 Handle<Derived> table, int new_capacity) { 15825 Handle<Derived> table, int new_capacity) {
15801 Handle<Derived> new_table = 15826 Handle<Derived> new_table =
15802 Allocate(table->GetIsolate(), 15827 Allocate(table->GetIsolate(),
15803 new_capacity, 15828 new_capacity,
15804 table->GetHeap()->InNewSpace(*table) ? NOT_TENURED : TENURED); 15829 table->GetHeap()->InNewSpace(*table) ? NOT_TENURED : TENURED);
15805 int nof = table->NumberOfElements(); 15830 int nof = table->NumberOfElements();
15806 int nod = table->NumberOfDeletedElements(); 15831 int nod = table->NumberOfDeletedElements();
15807 int new_buckets = new_table->NumberOfBuckets(); 15832 int new_buckets = new_table->NumberOfBuckets();
15808 int new_entry = 0; 15833 int new_entry = 0;
15809 for (int old_entry = 0; old_entry < (nof + nod); ++old_entry) { 15834 for (int old_entry = 0; old_entry < (nof + nod); ++old_entry) {
15810 Object* key = table->KeyAt(old_entry); 15835 Object* key = table->KeyAt(old_entry);
15811 if (key->IsTheHole()) continue; 15836 if (key->IsTheHole()) continue;
15812 Object* hash = key->GetHash(); 15837 Object* hash = key->GetHash();
15813 int bucket = Smi::cast(hash)->value() & (new_buckets - 1); 15838 int bucket = Smi::cast(hash)->value() & (new_buckets - 1);
15814 Object* chain_entry = new_table->get(kHashTableStartIndex + bucket); 15839 Object* chain_entry = new_table->get(kHashTableStartIndex + bucket);
15815 new_table->set(kHashTableStartIndex + bucket, Smi::FromInt(new_entry)); 15840 new_table->set(kHashTableStartIndex + bucket, Smi::FromInt(new_entry));
15816 int new_index = new_table->EntryToIndex(new_entry); 15841 int new_index = new_table->EntryToIndex(new_entry);
15817 int old_index = table->EntryToIndex(old_entry); 15842 int old_index = table->EntryToIndex(old_entry);
15818 for (int i = 0; i < entrysize; ++i) { 15843 for (int i = 0; i < entrysize; ++i) {
15819 Object* value = table->get(old_index + i); 15844 Object* value = table->get(old_index + i);
15820 new_table->set(new_index + i, value); 15845 new_table->set(new_index + i, value);
15821 } 15846 }
15822 new_table->set(new_index + kChainOffset, chain_entry); 15847 new_table->set(new_index + kChainOffset, chain_entry);
15823 ++new_entry; 15848 ++new_entry;
15824 } 15849 }
15825 new_table->SetNumberOfElements(nof); 15850 new_table->SetNumberOfElements(nof);
15851
15852 new_table->set_iterators(table->iterators());
15853 table->set_iterators(table->GetHeap()->undefined_value());
15854
15855 DisallowHeapAllocation no_allocation;
15856 for (Object* object = new_table->iterators();
15857 !object->IsUndefined();
15858 object = Iterator::cast(object)->next_iterator()) {
15859 Iterator::cast(object)->TableCompacted();
15860 Iterator::cast(object)->set_table(*new_table);
15861 }
15862
15826 return new_table; 15863 return new_table;
15827 } 15864 }
15828 15865
15829 15866
15830 template<class Derived, int entrysize> 15867 template<class Derived, class Iterator, int entrysize>
15831 int OrderedHashTable<Derived, entrysize>::FindEntry(Object* key) { 15868 int OrderedHashTable<Derived, Iterator, entrysize>::FindEntry(Object* key) {
15832 ASSERT(!key->IsTheHole()); 15869 ASSERT(!key->IsTheHole());
15833 Object* hash = key->GetHash(); 15870 Object* hash = key->GetHash();
15834 if (hash->IsUndefined()) return kNotFound; 15871 if (hash->IsUndefined()) return kNotFound;
15835 for (int entry = HashToEntry(Smi::cast(hash)->value()); 15872 for (int entry = HashToEntry(Smi::cast(hash)->value());
15836 entry != kNotFound; 15873 entry != kNotFound;
15837 entry = ChainAt(entry)) { 15874 entry = ChainAt(entry)) {
15838 Object* candidate = KeyAt(entry); 15875 Object* candidate = KeyAt(entry);
15839 if (candidate->SameValue(key)) 15876 if (candidate->SameValue(key))
15840 return entry; 15877 return entry;
15841 } 15878 }
15842 return kNotFound; 15879 return kNotFound;
15843 } 15880 }
15844 15881
15845 15882
15846 template<class Derived, int entrysize> 15883 template<class Derived, class Iterator, int entrysize>
15847 int OrderedHashTable<Derived, entrysize>::AddEntry(int hash) { 15884 int OrderedHashTable<Derived, Iterator, entrysize>::AddEntry(int hash) {
15848 int entry = NumberOfElements() + NumberOfDeletedElements(); 15885 int entry = NumberOfElements() + NumberOfDeletedElements();
15849 int bucket = HashToBucket(hash); 15886 int bucket = HashToBucket(hash);
15850 int index = EntryToIndex(entry); 15887 int index = EntryToIndex(entry);
15851 Object* chain_entry = get(kHashTableStartIndex + bucket); 15888 Object* chain_entry = get(kHashTableStartIndex + bucket);
15852 set(kHashTableStartIndex + bucket, Smi::FromInt(entry)); 15889 set(kHashTableStartIndex + bucket, Smi::FromInt(entry));
15853 set(index + kChainOffset, chain_entry); 15890 set(index + kChainOffset, chain_entry);
15854 SetNumberOfElements(NumberOfElements() + 1); 15891 SetNumberOfElements(NumberOfElements() + 1);
15855 return index; 15892 return index;
15856 } 15893 }
15857 15894
15858 15895
15859 template<class Derived, int entrysize> 15896 template<class Derived, class Iterator, int entrysize>
15860 void OrderedHashTable<Derived, entrysize>::RemoveEntry(int entry) { 15897 void OrderedHashTable<Derived, Iterator, entrysize>::RemoveEntry(int entry) {
15861 int index = EntryToIndex(entry); 15898 int index = EntryToIndex(entry);
15862 for (int i = 0; i < entrysize; ++i) { 15899 for (int i = 0; i < entrysize; ++i) {
15863 set_the_hole(index + i); 15900 set_the_hole(index + i);
15864 } 15901 }
15865 SetNumberOfElements(NumberOfElements() - 1); 15902 SetNumberOfElements(NumberOfElements() - 1);
15866 SetNumberOfDeletedElements(NumberOfDeletedElements() + 1); 15903 SetNumberOfDeletedElements(NumberOfDeletedElements() + 1);
15904
15905 DisallowHeapAllocation no_allocation;
15906 for (Object* object = iterators();
15907 !object->IsUndefined();
15908 object = Iterator::cast(object)->next_iterator()) {
15909 Iterator::cast(object)->EntryRemoved(entry);
15910 }
15867 } 15911 }
15868 15912
15869 15913
15870 template class OrderedHashTable<OrderedHashSet, 1>; 15914 template<class Derived, class Iterator, int entrysize>
15871 template class OrderedHashTable<OrderedHashMap, 2>; 15915 Handle<Iterator> OrderedHashTable<Derived, Iterator, entrysize>::CreateIterator(
15916 Handle<Derived> table,
15917 int kind) {
15918 Object* undefined = table->GetHeap()->undefined_value();
adamk 2014/04/14 21:25:54 Please use a Handle here (available from isolate->
arv (Not doing code reviews) 2014/04/14 22:13:27 Done.
15919 Handle<Iterator> new_iterator = Iterator::Create(table->GetIsolate());
15920 new_iterator->set_previous_iterator(undefined);
15921 new_iterator->set_table(*table);
15922 new_iterator->set_index(Smi::FromInt(0));
15923 new_iterator->set_count(Smi::FromInt(0));
15924 new_iterator->set_kind(Smi::FromInt(kind));
15925
15926 Object* old_iterator = table->iterators();
adamk 2014/04/14 21:25:54 Style-wise I'd also handl-ify this one (in case mo
arv (Not doing code reviews) 2014/04/14 22:13:27 Done.
15927 if (!old_iterator->IsUndefined()) {
15928 Iterator::cast(old_iterator)->set_previous_iterator(*new_iterator);
15929 new_iterator->set_next_iterator(old_iterator);
15930 } else {
15931 new_iterator->set_next_iterator(undefined);
15932 }
15933
15934 table->set_iterators(*new_iterator);
15935
15936 return new_iterator;
15937 }
15938
15939
15940 template class OrderedHashTable<OrderedHashSet, JSSetIterator, 1>;
15941 template class OrderedHashTable<OrderedHashMap, JSMapIterator, 2>;
15872 15942
15873 15943
15874 bool OrderedHashSet::Contains(Object* key) { 15944 bool OrderedHashSet::Contains(Object* key) {
15875 return FindEntry(key) != kNotFound; 15945 return FindEntry(key) != kNotFound;
15876 } 15946 }
15877 15947
15878 15948
15879 Handle<OrderedHashSet> OrderedHashSet::Add(Handle<OrderedHashSet> table, 15949 Handle<OrderedHashSet> OrderedHashSet::Add(Handle<OrderedHashSet> table,
15880 Handle<Object> key) { 15950 Handle<Object> key) {
15881 if (table->FindEntry(*key) != kNotFound) return table; 15951 if (table->FindEntry(*key) != kNotFound) return table;
15882 15952
15883 table = EnsureGrowable(table); 15953 table = EnsureGrowable(table);
15884 15954
15885 Handle<Object> hash = GetOrCreateHash(key, table->GetIsolate()); 15955 Handle<Object> hash = GetOrCreateHash(key, table->GetIsolate());
15886 int index = table->AddEntry(Smi::cast(*hash)->value()); 15956 int index = table->AddEntry(Smi::cast(*hash)->value());
15887 table->set(index, *key); 15957 table->set(index, *key);
15888 return table; 15958 return table;
15889 } 15959 }
15890 15960
15891 15961
15892 Handle<OrderedHashSet> OrderedHashSet::Remove(Handle<OrderedHashSet> table, 15962 Handle<OrderedHashSet> OrderedHashSet::Remove(Handle<OrderedHashSet> table,
15893 Handle<Object> key) { 15963 Handle<Object> key) {
15894 int entry = table->FindEntry(*key); 15964 int entry = table->FindEntry(*key);
15895 if (entry == kNotFound) return table; 15965 if (entry == kNotFound) return table;
15896 table->RemoveEntry(entry); 15966 table->RemoveEntry(entry);
15897 // TODO(adamk): Don't shrink if we're being iterated over
15898 return Shrink(table); 15967 return Shrink(table);
15899 } 15968 }
15900 15969
15901 15970
15902 Object* OrderedHashMap::Lookup(Object* key) { 15971 Object* OrderedHashMap::Lookup(Object* key) {
15903 int entry = FindEntry(key); 15972 int entry = FindEntry(key);
15904 if (entry == kNotFound) return GetHeap()->the_hole_value(); 15973 if (entry == kNotFound) return GetHeap()->the_hole_value();
15905 return ValueAt(entry); 15974 return ValueAt(entry);
15906 } 15975 }
15907 15976
15908 15977
15909 Handle<OrderedHashMap> OrderedHashMap::Put(Handle<OrderedHashMap> table, 15978 Handle<OrderedHashMap> OrderedHashMap::Put(Handle<OrderedHashMap> table,
15910 Handle<Object> key, 15979 Handle<Object> key,
15911 Handle<Object> value) { 15980 Handle<Object> value) {
15912 int entry = table->FindEntry(*key); 15981 int entry = table->FindEntry(*key);
15913 15982
15914 if (value->IsTheHole()) { 15983 if (value->IsTheHole()) {
15915 if (entry == kNotFound) return table; 15984 if (entry == kNotFound) return table;
15916 table->RemoveEntry(entry); 15985 table->RemoveEntry(entry);
15917 // TODO(adamk): Only shrink if not iterating
15918 return Shrink(table); 15986 return Shrink(table);
15919 } 15987 }
15920 15988
15921 if (entry != kNotFound) { 15989 if (entry != kNotFound) {
15922 table->set(table->EntryToIndex(entry) + kValueOffset, *value); 15990 table->set(table->EntryToIndex(entry) + kValueOffset, *value);
15923 return table; 15991 return table;
15924 } 15992 }
15925 15993
15926 table = EnsureGrowable(table); 15994 table = EnsureGrowable(table);
15927 15995
15928 Handle<Object> hash = GetOrCreateHash(key, table->GetIsolate()); 15996 Handle<Object> hash = GetOrCreateHash(key, table->GetIsolate());
15929 int index = table->AddEntry(Smi::cast(*hash)->value()); 15997 int index = table->AddEntry(Smi::cast(*hash)->value());
15930 table->set(index, *key); 15998 table->set(index, *key);
15931 table->set(index + kValueOffset, *value); 15999 table->set(index + kValueOffset, *value);
15932 return table; 16000 return table;
15933 } 16001 }
15934 16002
15935 16003
16004 template<class Derived, class TableType>
16005 void OrderedHashTableIterator<Derived, TableType>::EntryRemoved(int index) {
16006 int i = this->index()->value();
16007 if (index < i) {
16008 set_count(Smi::FromInt(count()->value() - 1));
16009 }
16010 if (index == i) {
16011 Seek();
16012 }
16013 }
16014
16015
16016 template<class Derived, class TableType>
16017 void OrderedHashTableIterator<Derived, TableType>::Close() {
16018 if (Closed()) return;
16019
16020 TableType* table = TableType::cast(this->table());
16021 Object* previous = previous_iterator();
16022 Object* next = next_iterator();
16023
16024 if (previous->IsUndefined()) {
16025 ASSERT_EQ(table->iterators(), this);
16026 table->set_iterators(next);
16027 } else {
16028 ASSERT_EQ(Derived::cast(previous)->next_iterator(), this);
16029 Derived::cast(previous)->set_next_iterator(next);
16030 }
16031
16032 if (!next->IsUndefined()) {
16033 ASSERT_EQ(Derived::cast(next)->previous_iterator(), this);
16034 Derived::cast(next)->set_previous_iterator(previous);
16035 }
16036
16037 set_previous_iterator(GetHeap()->undefined_value());
16038 set_next_iterator(GetHeap()->undefined_value());
16039 set_table(GetHeap()->undefined_value());
16040 }
16041
16042
16043 template<class Derived, class TableType>
16044 void OrderedHashTableIterator<Derived, TableType>::Seek() {
16045 ASSERT(!Closed());
16046
16047 int index = this->index()->value();
16048
16049 TableType* table = TableType::cast(this->table());
16050 int element_count =
16051 table->NumberOfElements() + table->NumberOfDeletedElements();
16052
16053 while (index < element_count && table->KeyAt(index)->IsTheHole()) {
16054 index++;
16055 }
16056 set_index(Smi::FromInt(index));
16057 }
16058
16059
16060 template<class Derived, class TableType>
16061 void OrderedHashTableIterator<Derived, TableType>::MoveNext() {
16062 ASSERT(!Closed());
16063
16064 set_index(Smi::FromInt(index()->value() + 1));
16065 set_count(Smi::FromInt(count()->value() + 1));
16066 Seek();
16067 }
16068
16069
16070 template<class Derived, class TableType>
16071 Handle<JSObject> OrderedHashTableIterator<Derived, TableType>::Next(
16072 Handle<Derived> iterator) {
16073 Isolate* isolate = iterator->GetIsolate();
16074 Factory* factory = isolate->factory();
16075
16076 Object* object = iterator->table();
adamk 2014/04/14 21:25:54 Need to use a Handle here.
arv (Not doing code reviews) 2014/04/14 22:13:27 Done.
16077
16078 if (!object->IsUndefined()) {
16079 TableType* table = TableType::cast(object);
16080 int index = iterator->index()->value();
16081 if (index < table->NumberOfElements() + table->NumberOfDeletedElements()) {
16082 int entry_index = table->EntryToIndex(index);
16083 iterator->MoveNext();
16084 Handle<Object> value = Derived::ValueForKind(iterator, entry_index);
16085 return factory->CreateIteratorResultObject(value, false);
16086 } else {
16087 iterator->Close();
16088 }
16089 }
16090
16091 return factory->CreateIteratorResultObject(factory->undefined_value(), true);
16092 }
16093
16094
16095 template class OrderedHashTableIterator<JSSetIterator, OrderedHashSet>;
16096 template class OrderedHashTableIterator<JSMapIterator, OrderedHashMap>;
16097
16098
16099 Handle<JSSetIterator> JSSetIterator::Create(Isolate* isolate) {
16100 Handle<Map> map =
16101 isolate->factory()->NewMap(JS_SET_ITERATOR_TYPE, JSSetIterator::kSize);
16102 return
16103 Handle<JSSetIterator>::cast(isolate->factory()->NewJSObjectFromMap(map));
16104 }
16105
16106
16107 Handle<Object> JSSetIterator::ValueForKind(
16108 Handle<JSSetIterator> iterator, int entry_index) {
16109 int kind = iterator->kind()->value();
16110 // Set.prototype only has values and entries.
16111 ASSERT(kind == kKindValues || kind == kKindEntries);
16112
16113 Isolate* isolate = iterator->GetIsolate();
16114 Factory* factory = isolate->factory();
16115 OrderedHashSet* table = OrderedHashSet::cast(iterator->table());
adamk 2014/04/14 21:25:54 Needs to be a Handle too.
arv (Not doing code reviews) 2014/04/14 22:13:27 Done.
16116
16117 Handle<Object> value = Handle<Object>(table->get(entry_index), isolate);
16118
16119 if (kind == kKindEntries) {
16120 Handle<FixedArray> array = factory->NewFixedArray(2);
16121 array->set(0, *value);
16122 array->set(1, *value);
16123 return factory->NewJSArrayWithElements(array);
16124 }
16125
16126 return value;
16127 }
16128
16129
16130 Handle<JSMapIterator> JSMapIterator::Create(Isolate* isolate) {
16131 Handle<Map> map =
16132 isolate->factory()->NewMap(JS_MAP_ITERATOR_TYPE, JSMapIterator::kSize);
16133 return Handle<JSMapIterator>::cast(
16134 isolate->factory()->NewJSObjectFromMap(map));
16135 }
16136
16137
16138 Handle<Object> JSMapIterator::ValueForKind(
16139 Handle<JSMapIterator> iterator, int entry_index) {
16140 int kind = iterator->kind()->value();
16141 ASSERT(kind == kKindKeys || kind == kKindValues || kind == kKindEntries);
16142
16143 Isolate* isolate = iterator->GetIsolate();
16144 Factory* factory = isolate->factory();
16145 OrderedHashMap* table = OrderedHashMap::cast(iterator->table());
adamk 2014/04/14 21:25:54 And this one too.
arv (Not doing code reviews) 2014/04/14 22:13:27 Done.
16146
16147 switch (kind) {
16148 case kKindKeys:
16149 return Handle<Object>(table->get(entry_index), isolate);
16150
16151 case kKindValues:
16152 return Handle<Object>(table->get(entry_index + 1), isolate);
16153
16154 case kKindEntries: {
16155 Object* key = table->get(entry_index);
16156 Object* value = table->get(entry_index + 1);
adamk 2014/04/14 21:25:54 These both need to be Handles.
arv (Not doing code reviews) 2014/04/14 22:13:27 Done.
16157 Handle<FixedArray> array = factory->NewFixedArray(2);
16158 array->set(0, key);
16159 array->set(1, value);
16160 return factory->NewJSArrayWithElements(array);
16161 }
16162 }
16163
16164 UNREACHABLE();
16165 return factory->undefined_value();
16166 }
16167
16168
15936 DeclaredAccessorDescriptorIterator::DeclaredAccessorDescriptorIterator( 16169 DeclaredAccessorDescriptorIterator::DeclaredAccessorDescriptorIterator(
15937 DeclaredAccessorDescriptor* descriptor) 16170 DeclaredAccessorDescriptor* descriptor)
15938 : array_(descriptor->serialized_data()->GetDataStartAddress()), 16171 : array_(descriptor->serialized_data()->GetDataStartAddress()),
15939 length_(descriptor->serialized_data()->length()), 16172 length_(descriptor->serialized_data()->length()),
15940 offset_(0) { 16173 offset_(0) {
15941 } 16174 }
15942 16175
15943 16176
15944 const DeclaredAccessorDescriptorData* 16177 const DeclaredAccessorDescriptorData*
15945 DeclaredAccessorDescriptorIterator::Next() { 16178 DeclaredAccessorDescriptorIterator::Next() {
(...skipping 571 matching lines...) Expand 10 before | Expand all | Expand 10 after
16517 #define ERROR_MESSAGES_TEXTS(C, T) T, 16750 #define ERROR_MESSAGES_TEXTS(C, T) T,
16518 static const char* error_messages_[] = { 16751 static const char* error_messages_[] = {
16519 ERROR_MESSAGES_LIST(ERROR_MESSAGES_TEXTS) 16752 ERROR_MESSAGES_LIST(ERROR_MESSAGES_TEXTS)
16520 }; 16753 };
16521 #undef ERROR_MESSAGES_TEXTS 16754 #undef ERROR_MESSAGES_TEXTS
16522 return error_messages_[reason]; 16755 return error_messages_[reason];
16523 } 16756 }
16524 16757
16525 16758
16526 } } // namespace v8::internal 16759 } } // namespace v8::internal
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