Object* Map::UpdateCodeCache(String* name, Code* code) {
+ // Allocate the code cache if not present.
+ if (code_cache()->IsUndefined()) {
+ Object* result = Heap::AllocateCodeCache();
+ if (result->IsFailure()) return result;
+ set_code_cache(result);
+ }
+
+ // Update the code cache.
+ return CodeCache::cast(code_cache())->Update(name, code);
+}
+
+
+Object* Map::FindInCodeCache(String* name, Code::Flags flags) {
+ // Do a lookup if a code cache exists.
+ if (!code_cache()->IsUndefined()) {
+ return CodeCache::cast(code_cache())->Lookup(name, flags);
+ } else {
+ return Heap::undefined_value();
+ }
+}
+
+
+int Map::IndexInCodeCache(Code* code) {
+ // Get the internal index if a code cache exists.
+ if (!code_cache()->IsUndefined()) {
+ return CodeCache::cast(code_cache())->GetIndex(code);
+ }
+ return -1;
+}
+
+
+void Map::RemoveFromCodeCache(int index) {
+ // No GC is supposed to happen between a call to IndexInCodeCache and
+ // RemoveFromCodeCache so the code cache must be there.
+ ASSERT(!code_cache()->IsUndefined());
+ return CodeCache::cast(code_cache())->RemoveByIndex(index);
+}
+
+
+Object* CodeCache::Update(String* name, Code* code) {
ASSERT(code->ic_state() == MONOMORPHIC);
- FixedArray* cache = code_cache();
- // When updating the code cache we disregard the type encoded in the
+ // The number of monomorphic stubs for normal load/store/call IC's can grow to
+ // a large number and therefore they need to go into a hash table. They are
+ // used to load global properties from cells.
+ if (code->type() == NORMAL) {
+ // Make sure that a hash table is allocated for the normal load code cache.
+ if (normal_type_cache()->IsUndefined()) {
+ Object* result =
+ CodeCacheHashTable::Allocate(CodeCacheHashTable::kInitialSize);
+ if (result->IsFailure()) return result;
+ set_normal_type_cache(result);
+ }
+ return UpdateNormalTypeCache(name, code);
+ } else {
+ ASSERT(default_cache()->IsFixedArray());
+ return UpdateDefaultCache(name, code);
+ }
+}
+
+
+Object* CodeCache::UpdateDefaultCache(String* name, Code* code) {
+ // When updating the default code cache we disregard the type encoded in the
// flags. This allows call constant stubs to overwrite call field
// stubs, etc.
Code::Flags flags = Code::RemoveTypeFromFlags(code->flags());
// First check whether we can update existing code cache without
// extending it.
+ FixedArray* cache = default_cache();
int length = cache->length();
int deleted_index = -1;
- for (int i = 0; i < length; i += 2) {
+ for (int i = 0; i < length; i += kCodeCacheEntrySize) {
Object* key = cache->get(i);
if (key->IsNull()) {
if (deleted_index < 0) deleted_index = i;
}
if (key->IsUndefined()) {
if (deleted_index >= 0) i = deleted_index;
- cache->set(i + 0, name);
- cache->set(i + 1, code);
+ cache->set(i + kCodeCacheEntryNameOffset, name);
+ cache->set(i + kCodeCacheEntryCodeOffset, code);
return this;
}
if (name->Equals(String::cast(key))) {
- Code::Flags found = Code::cast(cache->get(i + 1))->flags();
+ Code::Flags found =
+ Code::cast(cache->get(i + kCodeCacheEntryCodeOffset))->flags();
if (Code::RemoveTypeFromFlags(found) == flags) {
- cache->set(i + 1, code);
+ cache->set(i + kCodeCacheEntryCodeOffset, code);
return this;
}
}
// Reached the end of the code cache. If there were deleted
// elements, reuse the space for the first of them.
if (deleted_index >= 0) {
- cache->set(deleted_index + 0, name);
- cache->set(deleted_index + 1, code);
+ cache->set(deleted_index + kCodeCacheEntryNameOffset, name);
+ cache->set(deleted_index + kCodeCacheEntryCodeOffset, code);
return this;
}
- // Extend the code cache with some new entries (at least one).
- int new_length = length + ((length >> 1) & ~1) + 2;
- ASSERT((new_length & 1) == 0); // must be a multiple of two
+ // Extend the code cache with some new entries (at least one). Must be a
+ // multiple of the entry size.
+ int new_length = length + ((length >> 1)) + kCodeCacheEntrySize;
+ new_length = new_length - new_length % kCodeCacheEntrySize;
+ ASSERT((new_length % kCodeCacheEntrySize) == 0);
Object* result = cache->CopySize(new_length);
if (result->IsFailure()) return result;
// Add the (name, code) pair to the new cache.
cache = FixedArray::cast(result);
- cache->set(length + 0, name);
- cache->set(length + 1, code);
- set_code_cache(cache);
+ cache->set(length + kCodeCacheEntryNameOffset, name);
+ cache->set(length + kCodeCacheEntryCodeOffset, code);
+ set_default_cache(cache);
return this;
}
-Object* Map::FindInCodeCache(String* name, Code::Flags flags) {
- FixedArray* cache = code_cache();
+Object* CodeCache::UpdateNormalTypeCache(String* name, Code* code) {
+ // Adding a new entry can cause a new cache to be allocated.
+ CodeCacheHashTable* cache = CodeCacheHashTable::cast(normal_type_cache());
+ Object* new_cache = cache->Put(name, code);
+ if (new_cache->IsFailure()) return new_cache;
+ set_normal_type_cache(new_cache);
+ return this;
+}
+
+
+Object* CodeCache::Lookup(String* name, Code::Flags flags) {
+ if (Code::ExtractTypeFromFlags(flags) == NORMAL) {
+ return LookupNormalTypeCache(name, flags);
+ } else {
+ return LookupDefaultCache(name, flags);
+ }
+}
+
+
+Object* CodeCache::LookupDefaultCache(String* name, Code::Flags flags) {
+ FixedArray* cache = default_cache();
int length = cache->length();
- for (int i = 0; i < length; i += 2) {
- Object* key = cache->get(i);
+ for (int i = 0; i < length; i += kCodeCacheEntrySize) {
+ Object* key = cache->get(i + kCodeCacheEntryNameOffset);
// Skip deleted elements.
if (key->IsNull()) continue;
if (key->IsUndefined()) return key;
if (name->Equals(String::cast(key))) {
- Code* code = Code::cast(cache->get(i + 1));
- if (code->flags() == flags) return code;
+ Code* code = Code::cast(cache->get(i + kCodeCacheEntryCodeOffset));
+ if (code->flags() == flags) {
+ return code;
+ }
}
}
return Heap::undefined_value();
}
-int Map::IndexInCodeCache(Code* code) {
- FixedArray* array = code_cache();
+Object* CodeCache::LookupNormalTypeCache(String* name, Code::Flags flags) {
+ if (!normal_type_cache()->IsUndefined()) {
+ CodeCacheHashTable* cache = CodeCacheHashTable::cast(normal_type_cache());
+ return cache->Lookup(name, flags);
+ } else {
+ return Heap::undefined_value();
+ }
+}
+
+
+int CodeCache::GetIndex(Code* code) {
+ // This is not used for normal load/store/call IC's.
+ ASSERT(code->type() != NORMAL);
+
+ FixedArray* array = default_cache();
int len = array->length();
- for (int i = 0; i < len; i += 2) {
- if (array->get(i + 1) == code) return i + 1;
+ for (int i = 0; i < len; i += kCodeCacheEntrySize) {
+ if (array->get(i + kCodeCacheEntryCodeOffset) == code) return i + 1;
}
return -1;
}
-void Map::RemoveFromCodeCache(int index) {
- FixedArray* array = code_cache();
+void CodeCache::RemoveByIndex(int index) {
+ FixedArray* array = default_cache();
ASSERT(array->length() >= index && array->get(index)->IsCode());
// Use null instead of undefined for deleted elements to distinguish
// deleted elements from unused elements. This distinction is used
// when looking up in the cache and when updating the cache.
- array->set_null(index - 1); // key
- array->set_null(index); // code
+ ASSERT_EQ(1, kCodeCacheEntryCodeOffset - kCodeCacheEntryNameOffset);
+ array->set_null(index - 1); // Name.
+ array->set_null(index); // Code.
+}
+
+
+// The key in the code cache hash table consists of the property name and the
+// code object. The actual match is on the name and the code flags. If a key
+// is created using the flags and not a code object it can only be used for
+// lookup not to create a new entry.
+class CodeCacheHashTableKey : public HashTableKey {
+ public:
+ CodeCacheHashTableKey(String* name, Code::Flags flags)
+ : name_(name), flags_(flags), code_(NULL) { }
+
+ CodeCacheHashTableKey(String* name, Code* code)
+ : name_(name),
+ flags_(code->flags()),
+ code_(code) { }
+
+
+ bool IsMatch(Object* other) {
+ if (!other->IsFixedArray()) return false;
+ FixedArray* pair = FixedArray::cast(other);
+ String* name = String::cast(pair->get(0));
+ Code::Flags flags = Code::cast(pair->get(1))->flags();
+ if (flags != flags_) {
+ return false;
+ }
+ return name_->Equals(name);
+ }
+
+ static uint32_t NameFlagsHashHelper(String* name, Code::Flags flags) {
+ return name->Hash() ^ flags;
+ }
+
+ uint32_t Hash() { return NameFlagsHashHelper(name_, flags_); }
+
+ uint32_t HashForObject(Object* obj) {
+ FixedArray* pair = FixedArray::cast(obj);
+ String* name = String::cast(pair->get(0));
+ Code* code = Code::cast(pair->get(1));
+ return NameFlagsHashHelper(name, code->flags());
+ }
+
+ Object* AsObject() {
+ ASSERT(code_ != NULL);
+ Object* obj = Heap::AllocateFixedArray(2);
+ if (obj->IsFailure()) return obj;
+ FixedArray* pair = FixedArray::cast(obj);
+ pair->set(0, name_);
+ pair->set(1, code_);
+ return pair;
+ }
+
+ private:
+ String* name_;
+ Code::Flags flags_;
+ Code* code_;
+};
+
+
+Object* CodeCacheHashTable::Lookup(String* name, Code::Flags flags) {
+ CodeCacheHashTableKey key(name, flags);
+ int entry = FindEntry(&key);
+ if (entry == kNotFound) return Heap::undefined_value();
+ return get(EntryToIndex(entry) + 1);
+}
+
+
+Object* CodeCacheHashTable::Put(String* name, Code* code) {
+ CodeCacheHashTableKey key(name, code);
+ Object* obj = EnsureCapacity(1, &key);
+
+ // Don't use this, as the table might have grown.
+ CodeCacheHashTable* cache = reinterpret_cast<CodeCacheHashTable*>(obj);
+
+ int entry = cache->FindInsertionEntry(key.Hash());
+ Object* k = key.AsObject();
+ if (k->IsFailure()) return k;
+
+ cache->set(EntryToIndex(entry), k);
+ cache->set(EntryToIndex(entry) + 1, code);
+ cache->ElementAdded();
+ return cache;
}
}
-
template<typename Shape, typename Key>
uint32_t HashTable<Shape, Key>::FindInsertionEntry(uint32_t hash) {
uint32_t capacity = Capacity();
// - Dictionary
// - SymbolTable
// - CompilationCacheTable
+// - CodeCacheHashTable
// - MapCache
// - Context
// - GlobalContext
// - TypeSwitchInfo
// - DebugInfo
// - BreakPointInfo
+// - CodeCache
//
// Formats of Object*:
// Smi: [31 bit signed int] 0
V(SIGNATURE_INFO_TYPE) \
V(TYPE_SWITCH_INFO_TYPE) \
V(SCRIPT_TYPE) \
+ V(CODE_CACHE_TYPE) \
\
V(JS_VALUE_TYPE) \
V(JS_OBJECT_TYPE) \
V(OBJECT_TEMPLATE_INFO, ObjectTemplateInfo, object_template_info) \
V(SIGNATURE_INFO, SignatureInfo, signature_info) \
V(TYPE_SWITCH_INFO, TypeSwitchInfo, type_switch_info) \
- V(SCRIPT, Script, script)
+ V(SCRIPT, Script, script) \
+ V(CODE_CACHE, CodeCache, code_cache)
#ifdef ENABLE_DEBUGGER_SUPPORT
#define STRUCT_LIST_DEBUGGER(V) \
SIGNATURE_INFO_TYPE,
TYPE_SWITCH_INFO_TYPE,
SCRIPT_TYPE,
+ CODE_CACHE_TYPE,
#ifdef ENABLE_DEBUGGER_SUPPORT
DEBUG_INFO_TYPE,
BREAK_POINT_INFO_TYPE,
inline bool IsDictionary();
inline bool IsSymbolTable();
inline bool IsCompilationCacheTable();
+ inline bool IsCodeCacheHashTable();
inline bool IsMapCache();
inline bool IsPrimitive();
inline bool IsGlobalObject();
DECL_ACCESSORS(instance_descriptors, DescriptorArray)
// [stub cache]: contains stubs compiled for this map.
- DECL_ACCESSORS(code_cache, FixedArray)
+ DECL_ACCESSORS(code_cache, Object)
Object* CopyDropDescriptors();
static const int kNeedsLoading = 0;
static const int kIsExtensible = 1;
+ // Layout of the default cache. It holds alternating name and code objects.
+ static const int kCodeCacheEntrySize = 2;
+ static const int kCodeCacheEntryNameOffset = 0;
+ static const int kCodeCacheEntryCodeOffset = 1;
+
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(Map);
};
};
+class CodeCache: public Struct {
+ public:
+ DECL_ACCESSORS(default_cache, FixedArray)
+ DECL_ACCESSORS(normal_type_cache, Object)
+
+ // Add the code object to the cache.
+ Object* Update(String* name, Code* code);
+
+ // Lookup code object in the cache. Returns code object if found.
+ Object* Lookup(String* name, Code::Flags flags);
+
+ // Get the internal index of a code object in the cache. Returns -1 if the
+ // code object is not in that cache. This index can be used to later call
+ // RemoveByIndex. The cache cannot be modified between a call to GetIndex and
+ // RemoveByIndex.
+ int GetIndex(Code* code);
+
+ // Remove an object from the cache with the provided internal index.
+ void RemoveByIndex(int index);
+
+ static inline CodeCache* cast(Object* obj);
+
+#ifdef DEBUG
+ void CodeCachePrint();
+ void CodeCacheVerify();
+#endif
+
+ static const int kDefaultCacheOffset = HeapObject::kHeaderSize;
+ static const int kNormalTypeCacheOffset =
+ kDefaultCacheOffset + kPointerSize;
+ static const int kSize = kNormalTypeCacheOffset + kPointerSize;
+
+ private:
+ Object* UpdateDefaultCache(String* name, Code* code);
+ Object* UpdateNormalTypeCache(String* name, Code* code);
+ Object* LookupDefaultCache(String* name, Code::Flags flags);
+ Object* LookupNormalTypeCache(String* name, Code::Flags flags);
+
+ // Code cache layout of the default cache. Elements are alternating name and
+ // code objects for non normal load/store/call IC's.
+ static const int kCodeCacheEntrySize = 2;
+ static const int kCodeCacheEntryNameOffset = 0;
+ static const int kCodeCacheEntryCodeOffset = 1;
+
+ DISALLOW_IMPLICIT_CONSTRUCTORS(CodeCache);
+};
+
+
+class CodeCacheHashTableShape {
+ public:
+ static inline bool IsMatch(HashTableKey* key, Object* value) {
+ return key->IsMatch(value);
+ }
+
+ static inline uint32_t Hash(HashTableKey* key) {
+ return key->Hash();
+ }
+
+ static inline uint32_t HashForObject(HashTableKey* key, Object* object) {
+ return key->HashForObject(object);
+ }
+
+ static Object* AsObject(HashTableKey* key) {
+ return key->AsObject();
+ }
+
+ static const int kPrefixSize = 0;
+ static const int kEntrySize = 2;
+};
+
+
+class CodeCacheHashTable: public HashTable<CodeCacheHashTableShape,
+ HashTableKey*> {
+ public:
+ Object* Lookup(String* name, Code::Flags flags);
+ Object* Put(String* name, Code* code);
+
+ static inline CodeCacheHashTable* cast(Object* obj);
+
+ // Initial size of the fixed array backing the hash table.
+ static const int kInitialSize = 64;
+
+ private:
+ DISALLOW_IMPLICIT_CONSTRUCTORS(CodeCacheHashTable);
+};
+
+
enum AllowNullsFlag {ALLOW_NULLS, DISALLOW_NULLS};
enum RobustnessFlag {ROBUST_STRING_TRAVERSAL, FAST_STRING_TRAVERSAL};
projects / platform / upstream / v8.git / commitdiff