// Copyright 2006-2009 the V8 project authors. All rights reserved. // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following // disclaimer in the documentation and/or other materials provided // with the distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #include "v8.h" #include "api.h" #include "arguments.h" #include "ic-inl.h" #include "stub-cache.h" namespace v8 { namespace internal { // ----------------------------------------------------------------------- // StubCache implementation. StubCache::Entry StubCache::primary_[StubCache::kPrimaryTableSize]; StubCache::Entry StubCache::secondary_[StubCache::kSecondaryTableSize]; void StubCache::Initialize(bool create_heap_objects) { ASSERT(IsPowerOf2(kPrimaryTableSize)); ASSERT(IsPowerOf2(kSecondaryTableSize)); if (create_heap_objects) { HandleScope scope; Clear(); } } Code* StubCache::Set(String* name, Map* map, Code* code) { // Get the flags from the code. Code::Flags flags = Code::RemoveTypeFromFlags(code->flags()); // Validate that the name does not move on scavenge, and that we // can use identity checks instead of string equality checks. ASSERT(!Heap::InNewSpace(name)); ASSERT(name->IsSymbol()); // The state bits are not important to the hash function because // the stub cache only contains monomorphic stubs. Make sure that // the bits are the least significant so they will be the ones // masked out. ASSERT(Code::ExtractICStateFromFlags(flags) == MONOMORPHIC); ASSERT(Code::kFlagsICStateShift == 0); // Make sure that the code type is not included in the hash. ASSERT(Code::ExtractTypeFromFlags(flags) == 0); // Compute the primary entry. int primary_offset = PrimaryOffset(name, flags, map); Entry* primary = entry(primary_, primary_offset); Code* hit = primary->value; // If the primary entry has useful data in it, we retire it to the // secondary cache before overwriting it. if (hit != Builtins::builtin(Builtins::Illegal)) { Code::Flags primary_flags = Code::RemoveTypeFromFlags(hit->flags()); int secondary_offset = SecondaryOffset(primary->key, primary_flags, primary_offset); Entry* secondary = entry(secondary_, secondary_offset); *secondary = *primary; } // Update primary cache. primary->key = name; primary->value = code; return code; } Object* StubCache::ComputeLoadField(String* name, JSObject* receiver, JSObject* holder, int field_index) { Code::Flags flags = Code::ComputeMonomorphicFlags(Code::LOAD_IC, FIELD); Object* code = receiver->map()->FindInCodeCache(name, flags); if (code->IsUndefined()) { LoadStubCompiler compiler; code = compiler.CompileLoadField(receiver, holder, field_index, name); if (code->IsFailure()) return code; LOG(CodeCreateEvent(Logger::LOAD_IC_TAG, Code::cast(code), name)); Object* result = receiver->map()->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return code; } return Set(name, receiver->map(), Code::cast(code)); } Object* StubCache::ComputeLoadCallback(String* name, JSObject* receiver, JSObject* holder, AccessorInfo* callback) { ASSERT(v8::ToCData
(callback->getter()) != 0); Code::Flags flags = Code::ComputeMonomorphicFlags(Code::LOAD_IC, CALLBACKS); Object* code = receiver->map()->FindInCodeCache(name, flags); if (code->IsUndefined()) { LoadStubCompiler compiler; code = compiler.CompileLoadCallback(name, receiver, holder, callback); if (code->IsFailure()) return code; LOG(CodeCreateEvent(Logger::LOAD_IC_TAG, Code::cast(code), name)); Object* result = receiver->map()->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return code; } return Set(name, receiver->map(), Code::cast(code)); } Object* StubCache::ComputeLoadConstant(String* name, JSObject* receiver, JSObject* holder, Object* value) { Code::Flags flags = Code::ComputeMonomorphicFlags(Code::LOAD_IC, CONSTANT_FUNCTION); Object* code = receiver->map()->FindInCodeCache(name, flags); if (code->IsUndefined()) { LoadStubCompiler compiler; code = compiler.CompileLoadConstant(receiver, holder, value, name); if (code->IsFailure()) return code; LOG(CodeCreateEvent(Logger::LOAD_IC_TAG, Code::cast(code), name)); Object* result = receiver->map()->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return code; } return Set(name, receiver->map(), Code::cast(code)); } Object* StubCache::ComputeLoadInterceptor(String* name, JSObject* receiver, JSObject* holder) { Code::Flags flags = Code::ComputeMonomorphicFlags(Code::LOAD_IC, INTERCEPTOR); Object* code = receiver->map()->FindInCodeCache(name, flags); if (code->IsUndefined()) { LoadStubCompiler compiler; code = compiler.CompileLoadInterceptor(receiver, holder, name); if (code->IsFailure()) return code; LOG(CodeCreateEvent(Logger::LOAD_IC_TAG, Code::cast(code), name)); Object* result = receiver->map()->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return code; } return Set(name, receiver->map(), Code::cast(code)); } Object* StubCache::ComputeLoadNormal(String* name, JSObject* receiver) { Code* code = Builtins::builtin(Builtins::LoadIC_Normal); return Set(name, receiver->map(), code); } Object* StubCache::ComputeLoadGlobal(String* name, JSObject* receiver, GlobalObject* holder, JSGlobalPropertyCell* cell, bool is_dont_delete) { Code::Flags flags = Code::ComputeMonomorphicFlags(Code::LOAD_IC, NORMAL); Object* code = receiver->map()->FindInCodeCache(name, flags); if (code->IsUndefined()) { LoadStubCompiler compiler; code = compiler.CompileLoadGlobal(receiver, holder, cell, name, is_dont_delete); if (code->IsFailure()) return code; LOG(CodeCreateEvent(Logger::LOAD_IC_TAG, Code::cast(code), name)); Object* result = receiver->map()->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return code; } return Set(name, receiver->map(), Code::cast(code)); } Object* StubCache::ComputeKeyedLoadField(String* name, JSObject* receiver, JSObject* holder, int field_index) { Code::Flags flags = Code::ComputeMonomorphicFlags(Code::KEYED_LOAD_IC, FIELD); Object* code = receiver->map()->FindInCodeCache(name, flags); if (code->IsUndefined()) { KeyedLoadStubCompiler compiler; code = compiler.CompileLoadField(name, receiver, holder, field_index); if (code->IsFailure()) return code; LOG(CodeCreateEvent(Logger::KEYED_LOAD_IC_TAG, Code::cast(code), name)); Object* result = receiver->map()->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return result; } return code; } Object* StubCache::ComputeKeyedLoadConstant(String* name, JSObject* receiver, JSObject* holder, Object* value) { Code::Flags flags = Code::ComputeMonomorphicFlags(Code::KEYED_LOAD_IC, CONSTANT_FUNCTION); Object* code = receiver->map()->FindInCodeCache(name, flags); if (code->IsUndefined()) { KeyedLoadStubCompiler compiler; code = compiler.CompileLoadConstant(name, receiver, holder, value); if (code->IsFailure()) return code; LOG(CodeCreateEvent(Logger::KEYED_LOAD_IC_TAG, Code::cast(code), name)); Object* result = receiver->map()->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return result; } return code; } Object* StubCache::ComputeKeyedLoadInterceptor(String* name, JSObject* receiver, JSObject* holder) { Code::Flags flags = Code::ComputeMonomorphicFlags(Code::KEYED_LOAD_IC, INTERCEPTOR); Object* code = receiver->map()->FindInCodeCache(name, flags); if (code->IsUndefined()) { KeyedLoadStubCompiler compiler; code = compiler.CompileLoadInterceptor(receiver, holder, name); if (code->IsFailure()) return code; LOG(CodeCreateEvent(Logger::KEYED_LOAD_IC_TAG, Code::cast(code), name)); Object* result = receiver->map()->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return result; } return code; } Object* StubCache::ComputeKeyedLoadCallback(String* name, JSObject* receiver, JSObject* holder, AccessorInfo* callback) { Code::Flags flags = Code::ComputeMonomorphicFlags(Code::KEYED_LOAD_IC, CALLBACKS); Object* code = receiver->map()->FindInCodeCache(name, flags); if (code->IsUndefined()) { KeyedLoadStubCompiler compiler; code = compiler.CompileLoadCallback(name, receiver, holder, callback); if (code->IsFailure()) return code; LOG(CodeCreateEvent(Logger::KEYED_LOAD_IC_TAG, Code::cast(code), name)); Object* result = receiver->map()->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return result; } return code; } Object* StubCache::ComputeKeyedLoadArrayLength(String* name, JSArray* receiver) { Code::Flags flags = Code::ComputeMonomorphicFlags(Code::KEYED_LOAD_IC, CALLBACKS); Object* code = receiver->map()->FindInCodeCache(name, flags); if (code->IsUndefined()) { KeyedLoadStubCompiler compiler; code = compiler.CompileLoadArrayLength(name); if (code->IsFailure()) return code; LOG(CodeCreateEvent(Logger::KEYED_LOAD_IC_TAG, Code::cast(code), name)); Object* result = receiver->map()->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return result; } return code; } Object* StubCache::ComputeKeyedLoadStringLength(String* name, String* receiver) { Code::Flags flags = Code::ComputeMonomorphicFlags(Code::KEYED_LOAD_IC, CALLBACKS); Object* code = receiver->map()->FindInCodeCache(name, flags); if (code->IsUndefined()) { KeyedLoadStubCompiler compiler; code = compiler.CompileLoadStringLength(name); if (code->IsFailure()) return code; LOG(CodeCreateEvent(Logger::KEYED_LOAD_IC_TAG, Code::cast(code), name)); Object* result = receiver->map()->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return result; } return code; } Object* StubCache::ComputeKeyedLoadFunctionPrototype(String* name, JSFunction* receiver) { Code::Flags flags = Code::ComputeMonomorphicFlags(Code::KEYED_LOAD_IC, CALLBACKS); Object* code = receiver->map()->FindInCodeCache(name, flags); if (code->IsUndefined()) { KeyedLoadStubCompiler compiler; code = compiler.CompileLoadFunctionPrototype(name); if (code->IsFailure()) return code; LOG(CodeCreateEvent(Logger::KEYED_LOAD_IC_TAG, Code::cast(code), name)); Object* result = receiver->map()->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return result; } return code; } Object* StubCache::ComputeStoreField(String* name, JSObject* receiver, int field_index, Map* transition) { PropertyType type = (transition == NULL) ? FIELD : MAP_TRANSITION; Code::Flags flags = Code::ComputeMonomorphicFlags(Code::STORE_IC, type); Object* code = receiver->map()->FindInCodeCache(name, flags); if (code->IsUndefined()) { StoreStubCompiler compiler; code = compiler.CompileStoreField(receiver, field_index, transition, name); if (code->IsFailure()) return code; LOG(CodeCreateEvent(Logger::STORE_IC_TAG, Code::cast(code), name)); Object* result = receiver->map()->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return result; } return Set(name, receiver->map(), Code::cast(code)); } Object* StubCache::ComputeStoreGlobal(String* name, GlobalObject* receiver, JSGlobalPropertyCell* cell) { Code::Flags flags = Code::ComputeMonomorphicFlags(Code::STORE_IC, NORMAL); Object* code = receiver->map()->FindInCodeCache(name, flags); if (code->IsUndefined()) { StoreStubCompiler compiler; code = compiler.CompileStoreGlobal(receiver, cell, name); if (code->IsFailure()) return code; LOG(CodeCreateEvent(Logger::LOAD_IC_TAG, Code::cast(code), name)); Object* result = receiver->map()->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return code; } return Set(name, receiver->map(), Code::cast(code)); } Object* StubCache::ComputeStoreCallback(String* name, JSObject* receiver, AccessorInfo* callback) { ASSERT(v8::ToCData
(callback->setter()) != 0); Code::Flags flags = Code::ComputeMonomorphicFlags(Code::STORE_IC, CALLBACKS); Object* code = receiver->map()->FindInCodeCache(name, flags); if (code->IsUndefined()) { StoreStubCompiler compiler; code = compiler.CompileStoreCallback(receiver, callback, name); if (code->IsFailure()) return code; LOG(CodeCreateEvent(Logger::STORE_IC_TAG, Code::cast(code), name)); Object* result = receiver->map()->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return result; } return Set(name, receiver->map(), Code::cast(code)); } Object* StubCache::ComputeStoreInterceptor(String* name, JSObject* receiver) { Code::Flags flags = Code::ComputeMonomorphicFlags(Code::STORE_IC, INTERCEPTOR); Object* code = receiver->map()->FindInCodeCache(name, flags); if (code->IsUndefined()) { StoreStubCompiler compiler; code = compiler.CompileStoreInterceptor(receiver, name); if (code->IsFailure()) return code; LOG(CodeCreateEvent(Logger::STORE_IC_TAG, Code::cast(code), name)); Object* result = receiver->map()->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return result; } return Set(name, receiver->map(), Code::cast(code)); } Object* StubCache::ComputeKeyedStoreField(String* name, JSObject* receiver, int field_index, Map* transition) { PropertyType type = (transition == NULL) ? FIELD : MAP_TRANSITION; Code::Flags flags = Code::ComputeMonomorphicFlags(Code::KEYED_STORE_IC, type); Object* code = receiver->map()->FindInCodeCache(name, flags); if (code->IsUndefined()) { KeyedStoreStubCompiler compiler; code = compiler.CompileStoreField(receiver, field_index, transition, name); if (code->IsFailure()) return code; LOG(CodeCreateEvent(Logger::KEYED_STORE_IC_TAG, Code::cast(code), name)); Object* result = receiver->map()->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return result; } return code; } Object* StubCache::ComputeCallConstant(int argc, InLoopFlag in_loop, String* name, Object* object, JSObject* holder, JSFunction* function) { // Compute the check type and the map. Map* map = IC::GetCodeCacheMapForObject(object); // Compute check type based on receiver/holder. StubCompiler::CheckType check = StubCompiler::RECEIVER_MAP_CHECK; if (object->IsString()) { check = StubCompiler::STRING_CHECK; } else if (object->IsNumber()) { check = StubCompiler::NUMBER_CHECK; } else if (object->IsBoolean()) { check = StubCompiler::BOOLEAN_CHECK; } Code::Flags flags = Code::ComputeMonomorphicFlags(Code::CALL_IC, CONSTANT_FUNCTION, in_loop, argc); Object* code = map->FindInCodeCache(name, flags); if (code->IsUndefined()) { if (object->IsJSObject()) { Object* opt = Top::LookupSpecialFunction(JSObject::cast(object), holder, function); if (opt->IsJSFunction()) { check = StubCompiler::JSARRAY_HAS_FAST_ELEMENTS_CHECK; function = JSFunction::cast(opt); } } // If the function hasn't been compiled yet, we cannot do it now // because it may cause GC. To avoid this issue, we return an // internal error which will make sure we do not update any // caches. if (!function->is_compiled()) return Failure::InternalError(); // Compile the stub - only create stubs for fully compiled functions. CallStubCompiler compiler(argc, in_loop); code = compiler.CompileCallConstant(object, holder, function, name, check); if (code->IsFailure()) return code; ASSERT_EQ(flags, Code::cast(code)->flags()); LOG(CodeCreateEvent(Logger::CALL_IC_TAG, Code::cast(code), name)); Object* result = map->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return result; } return Set(name, map, Code::cast(code)); } Object* StubCache::ComputeCallField(int argc, InLoopFlag in_loop, String* name, Object* object, JSObject* holder, int index) { // Compute the check type and the map. Map* map = IC::GetCodeCacheMapForObject(object); // TODO(1233596): We cannot do receiver map check for non-JS objects // because they may be represented as immediates without a // map. Instead, we check against the map in the holder. if (object->IsNumber() || object->IsBoolean() || object->IsString()) { object = holder; } Code::Flags flags = Code::ComputeMonomorphicFlags(Code::CALL_IC, FIELD, in_loop, argc); Object* code = map->FindInCodeCache(name, flags); if (code->IsUndefined()) { CallStubCompiler compiler(argc, in_loop); code = compiler.CompileCallField(object, holder, index, name); if (code->IsFailure()) return code; ASSERT_EQ(flags, Code::cast(code)->flags()); LOG(CodeCreateEvent(Logger::CALL_IC_TAG, Code::cast(code), name)); Object* result = map->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return result; } return Set(name, map, Code::cast(code)); } Object* StubCache::ComputeCallInterceptor(int argc, String* name, Object* object, JSObject* holder) { // Compute the check type and the map. // If the object is a value, we use the prototype map for the cache. Map* map = IC::GetCodeCacheMapForObject(object); // TODO(1233596): We cannot do receiver map check for non-JS objects // because they may be represented as immediates without a // map. Instead, we check against the map in the holder. if (object->IsNumber() || object->IsBoolean() || object->IsString()) { object = holder; } Code::Flags flags = Code::ComputeMonomorphicFlags(Code::CALL_IC, INTERCEPTOR, NOT_IN_LOOP, argc); Object* code = map->FindInCodeCache(name, flags); if (code->IsUndefined()) { CallStubCompiler compiler(argc, NOT_IN_LOOP); code = compiler.CompileCallInterceptor(object, holder, name); if (code->IsFailure()) return code; ASSERT_EQ(flags, Code::cast(code)->flags()); LOG(CodeCreateEvent(Logger::CALL_IC_TAG, Code::cast(code), name)); Object* result = map->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return result; } return Set(name, map, Code::cast(code)); } Object* StubCache::ComputeCallNormal(int argc, InLoopFlag in_loop, String* name, JSObject* receiver) { Object* code = ComputeCallNormal(argc, in_loop); if (code->IsFailure()) return code; return Set(name, receiver->map(), Code::cast(code)); } Object* StubCache::ComputeCallGlobal(int argc, InLoopFlag in_loop, String* name, JSObject* receiver, GlobalObject* holder, JSGlobalPropertyCell* cell, JSFunction* function) { Code::Flags flags = Code::ComputeMonomorphicFlags(Code::CALL_IC, NORMAL, in_loop, argc); Object* code = receiver->map()->FindInCodeCache(name, flags); if (code->IsUndefined()) { // If the function hasn't been compiled yet, we cannot do it now // because it may cause GC. To avoid this issue, we return an // internal error which will make sure we do not update any // caches. if (!function->is_compiled()) return Failure::InternalError(); CallStubCompiler compiler(argc, in_loop); code = compiler.CompileCallGlobal(receiver, holder, cell, function, name); if (code->IsFailure()) return code; ASSERT_EQ(flags, Code::cast(code)->flags()); LOG(CodeCreateEvent(Logger::CALL_IC_TAG, Code::cast(code), name)); Object* result = receiver->map()->UpdateCodeCache(name, Code::cast(code)); if (result->IsFailure()) return code; } return Set(name, receiver->map(), Code::cast(code)); } static Object* GetProbeValue(Code::Flags flags) { // Use raw_unchecked... so we don't get assert failures during GC. NumberDictionary* dictionary = Heap::raw_unchecked_non_monomorphic_cache(); int entry = dictionary->FindEntry(flags); if (entry != -1) return dictionary->ValueAt(entry); return Heap::raw_unchecked_undefined_value(); } static Object* ProbeCache(Code::Flags flags) { Object* probe = GetProbeValue(flags); if (probe != Heap::undefined_value()) return probe; // Seed the cache with an undefined value to make sure that any // generated code object can always be inserted into the cache // without causing allocation failures. Object* result = Heap::non_monomorphic_cache()->AtNumberPut(flags, Heap::undefined_value()); if (result->IsFailure()) return result; Heap::public_set_non_monomorphic_cache(NumberDictionary::cast(result)); return probe; } static Object* FillCache(Object* code) { if (code->IsCode()) { int entry = Heap::non_monomorphic_cache()->FindEntry( Code::cast(code)->flags()); // The entry must be present see comment in ProbeCache. ASSERT(entry != -1); ASSERT(Heap::non_monomorphic_cache()->ValueAt(entry) == Heap::undefined_value()); Heap::non_monomorphic_cache()->ValueAtPut(entry, code); CHECK(GetProbeValue(Code::cast(code)->flags()) == code); } return code; } Code* StubCache::FindCallInitialize(int argc, InLoopFlag in_loop) { Code::Flags flags = Code::ComputeFlags(Code::CALL_IC, in_loop, UNINITIALIZED, NORMAL, argc); Object* result = ProbeCache(flags); ASSERT(!result->IsUndefined()); // This might be called during the marking phase of the collector // hence the unchecked cast. return reinterpret_cast(result); } Object* StubCache::ComputeCallInitialize(int argc, InLoopFlag in_loop) { Code::Flags flags = Code::ComputeFlags(Code::CALL_IC, in_loop, UNINITIALIZED, NORMAL, argc); Object* probe = ProbeCache(flags); if (!probe->IsUndefined()) return probe; StubCompiler compiler; return FillCache(compiler.CompileCallInitialize(flags)); } Object* StubCache::ComputeCallPreMonomorphic(int argc, InLoopFlag in_loop) { Code::Flags flags = Code::ComputeFlags(Code::CALL_IC, in_loop, PREMONOMORPHIC, NORMAL, argc); Object* probe = ProbeCache(flags); if (!probe->IsUndefined()) return probe; StubCompiler compiler; return FillCache(compiler.CompileCallPreMonomorphic(flags)); } Object* StubCache::ComputeCallNormal(int argc, InLoopFlag in_loop) { Code::Flags flags = Code::ComputeFlags(Code::CALL_IC, in_loop, MONOMORPHIC, NORMAL, argc); Object* probe = ProbeCache(flags); if (!probe->IsUndefined()) return probe; StubCompiler compiler; return FillCache(compiler.CompileCallNormal(flags)); } Object* StubCache::ComputeCallMegamorphic(int argc, InLoopFlag in_loop) { Code::Flags flags = Code::ComputeFlags(Code::CALL_IC, in_loop, MEGAMORPHIC, NORMAL, argc); Object* probe = ProbeCache(flags); if (!probe->IsUndefined()) return probe; StubCompiler compiler; return FillCache(compiler.CompileCallMegamorphic(flags)); } Object* StubCache::ComputeCallMiss(int argc) { Code::Flags flags = Code::ComputeFlags(Code::STUB, NOT_IN_LOOP, MEGAMORPHIC, NORMAL, argc); Object* probe = ProbeCache(flags); if (!probe->IsUndefined()) return probe; StubCompiler compiler; return FillCache(compiler.CompileCallMiss(flags)); } #ifdef ENABLE_DEBUGGER_SUPPORT Object* StubCache::ComputeCallDebugBreak(int argc) { Code::Flags flags = Code::ComputeFlags(Code::CALL_IC, NOT_IN_LOOP, DEBUG_BREAK, NORMAL, argc); Object* probe = ProbeCache(flags); if (!probe->IsUndefined()) return probe; StubCompiler compiler; return FillCache(compiler.CompileCallDebugBreak(flags)); } Object* StubCache::ComputeCallDebugPrepareStepIn(int argc) { Code::Flags flags = Code::ComputeFlags(Code::CALL_IC, NOT_IN_LOOP, DEBUG_PREPARE_STEP_IN, NORMAL, argc); Object* probe = ProbeCache(flags); if (!probe->IsUndefined()) return probe; StubCompiler compiler; return FillCache(compiler.CompileCallDebugPrepareStepIn(flags)); } #endif Object* StubCache::ComputeLazyCompile(int argc) { Code::Flags flags = Code::ComputeFlags(Code::STUB, NOT_IN_LOOP, UNINITIALIZED, NORMAL, argc); Object* probe = ProbeCache(flags); if (!probe->IsUndefined()) return probe; StubCompiler compiler; Object* result = FillCache(compiler.CompileLazyCompile(flags)); if (result->IsCode()) { Code* code = Code::cast(result); USE(code); LOG(CodeCreateEvent(Logger::LAZY_COMPILE_TAG, code, code->arguments_count())); } return result; } void StubCache::Clear() { for (int i = 0; i < kPrimaryTableSize; i++) { primary_[i].key = Heap::empty_string(); primary_[i].value = Builtins::builtin(Builtins::Illegal); } for (int j = 0; j < kSecondaryTableSize; j++) { secondary_[j].key = Heap::empty_string(); secondary_[j].value = Builtins::builtin(Builtins::Illegal); } } // ------------------------------------------------------------------------ // StubCompiler implementation. // Support function for computing call IC miss stubs. Handle ComputeCallMiss(int argc) { CALL_HEAP_FUNCTION(StubCache::ComputeCallMiss(argc), Code); } Object* LoadCallbackProperty(Arguments args) { ASSERT(args[0]->IsJSObject()); ASSERT(args[1]->IsJSObject()); AccessorInfo* callback = AccessorInfo::cast(args[2]); Address getter_address = v8::ToCData
(callback->getter()); v8::AccessorGetter fun = FUNCTION_CAST(getter_address); ASSERT(fun != NULL); CustomArguments custom_args(callback->data(), JSObject::cast(args[0]), JSObject::cast(args[1])); v8::AccessorInfo info(custom_args.end()); HandleScope scope; v8::Handle result; { // Leaving JavaScript. VMState state(EXTERNAL); #ifdef ENABLE_LOGGING_AND_PROFILING state.set_external_callback(getter_address); #endif result = fun(v8::Utils::ToLocal(args.at(4)), info); } RETURN_IF_SCHEDULED_EXCEPTION(); if (result.IsEmpty()) return Heap::undefined_value(); return *v8::Utils::OpenHandle(*result); } Object* StoreCallbackProperty(Arguments args) { JSObject* recv = JSObject::cast(args[0]); AccessorInfo* callback = AccessorInfo::cast(args[1]); Address setter_address = v8::ToCData
(callback->setter()); v8::AccessorSetter fun = FUNCTION_CAST(setter_address); ASSERT(fun != NULL); Handle name = args.at(2); Handle value = args.at(3); HandleScope scope; LOG(ApiNamedPropertyAccess("store", recv, *name)); CustomArguments custom_args(callback->data(), recv, recv); v8::AccessorInfo info(custom_args.end()); { // Leaving JavaScript. VMState state(EXTERNAL); #ifdef ENABLE_LOGGING_AND_PROFILING state.set_external_callback(setter_address); #endif fun(v8::Utils::ToLocal(name), v8::Utils::ToLocal(value), info); } RETURN_IF_SCHEDULED_EXCEPTION(); return *value; } /** * Attempts to load a property with an interceptor (which must be present), * but doesn't search the prototype chain. * * Returns |Heap::no_interceptor_result_sentinel()| if interceptor doesn't * provide any value for the given name. */ Object* LoadPropertyWithInterceptorOnly(Arguments args) { JSObject* receiver_handle = JSObject::cast(args[0]); JSObject* holder_handle = JSObject::cast(args[1]); Handle name_handle = args.at(2); Handle interceptor_info = args.at(3); Object* data_handle = args[4]; Address getter_address = v8::ToCData
(interceptor_info->getter()); v8::NamedPropertyGetter getter = FUNCTION_CAST(getter_address); ASSERT(getter != NULL); { // Use the interceptor getter. CustomArguments args(data_handle, receiver_handle, holder_handle); v8::AccessorInfo info(args.end()); HandleScope scope; v8::Handle r; { // Leaving JavaScript. VMState state(EXTERNAL); r = getter(v8::Utils::ToLocal(name_handle), info); } RETURN_IF_SCHEDULED_EXCEPTION(); if (!r.IsEmpty()) { return *v8::Utils::OpenHandle(*r); } } return Heap::no_interceptor_result_sentinel(); } static Object* ThrowReferenceError(String* name) { // If the load is non-contextual, just return the undefined result. // Note that both keyed and non-keyed loads may end up here, so we // can't use either LoadIC or KeyedLoadIC constructors. IC ic(IC::NO_EXTRA_FRAME); ASSERT(ic.target()->is_load_stub() || ic.target()->is_keyed_load_stub()); if (!ic.SlowIsContextual()) return Heap::undefined_value(); // Throw a reference error. HandleScope scope; Handle name_handle(name); Handle error = Factory::NewReferenceError("not_defined", HandleVector(&name_handle, 1)); return Top::Throw(*error); } static Object* LoadWithInterceptor(Arguments* args, PropertyAttributes* attrs) { Handle receiver_handle = args->at(0); Handle holder_handle = args->at(1); Handle name_handle = args->at(2); Handle interceptor_info = args->at(3); Handle data_handle = args->at(4); Address getter_address = v8::ToCData
(interceptor_info->getter()); v8::NamedPropertyGetter getter = FUNCTION_CAST(getter_address); ASSERT(getter != NULL); { // Use the interceptor getter. CustomArguments args(*data_handle, *receiver_handle, *holder_handle); v8::AccessorInfo info(args.end()); HandleScope scope; v8::Handle r; { // Leaving JavaScript. VMState state(EXTERNAL); r = getter(v8::Utils::ToLocal(name_handle), info); } RETURN_IF_SCHEDULED_EXCEPTION(); if (!r.IsEmpty()) { *attrs = NONE; return *v8::Utils::OpenHandle(*r); } } Object* result = holder_handle->GetPropertyPostInterceptor( *receiver_handle, *name_handle, attrs); RETURN_IF_SCHEDULED_EXCEPTION(); return result; } /** * Loads a property with an interceptor performing post interceptor * lookup if interceptor failed. */ Object* LoadPropertyWithInterceptorForLoad(Arguments args) { PropertyAttributes attr = NONE; Object* result = LoadWithInterceptor(&args, &attr); if (result->IsFailure()) return result; // If the property is present, return it. if (attr != ABSENT) return result; return ThrowReferenceError(String::cast(args[2])); } Object* LoadPropertyWithInterceptorForCall(Arguments args) { PropertyAttributes attr; Object* result = LoadWithInterceptor(&args, &attr); RETURN_IF_SCHEDULED_EXCEPTION(); // This is call IC. In this case, we simply return the undefined result which // will lead to an exception when trying to invoke the result as a // function. return result; } Object* StoreInterceptorProperty(Arguments args) { JSObject* recv = JSObject::cast(args[0]); String* name = String::cast(args[1]); Object* value = args[2]; ASSERT(recv->HasNamedInterceptor()); PropertyAttributes attr = NONE; Object* result = recv->SetPropertyWithInterceptor(name, value, attr); return result; } Object* StubCompiler::CompileCallInitialize(Code::Flags flags) { HandleScope scope; int argc = Code::ExtractArgumentsCountFromFlags(flags); CallIC::GenerateInitialize(masm(), argc); Object* result = GetCodeWithFlags(flags, "CompileCallInitialize"); if (!result->IsFailure()) { Counters::call_initialize_stubs.Increment(); Code* code = Code::cast(result); USE(code); LOG(CodeCreateEvent(Logger::CALL_INITIALIZE_TAG, code, code->arguments_count())); } return result; } Object* StubCompiler::CompileCallPreMonomorphic(Code::Flags flags) { HandleScope scope; int argc = Code::ExtractArgumentsCountFromFlags(flags); // The code of the PreMonomorphic stub is the same as the code // of the Initialized stub. They just differ on the code object flags. CallIC::GenerateInitialize(masm(), argc); Object* result = GetCodeWithFlags(flags, "CompileCallPreMonomorphic"); if (!result->IsFailure()) { Counters::call_premonomorphic_stubs.Increment(); Code* code = Code::cast(result); USE(code); LOG(CodeCreateEvent(Logger::CALL_PRE_MONOMORPHIC_TAG, code, code->arguments_count())); } return result; } Object* StubCompiler::CompileCallNormal(Code::Flags flags) { HandleScope scope; int argc = Code::ExtractArgumentsCountFromFlags(flags); CallIC::GenerateNormal(masm(), argc); Object* result = GetCodeWithFlags(flags, "CompileCallNormal"); if (!result->IsFailure()) { Counters::call_normal_stubs.Increment(); Code* code = Code::cast(result); USE(code); LOG(CodeCreateEvent(Logger::CALL_NORMAL_TAG, code, code->arguments_count())); } return result; } Object* StubCompiler::CompileCallMegamorphic(Code::Flags flags) { HandleScope scope; int argc = Code::ExtractArgumentsCountFromFlags(flags); CallIC::GenerateMegamorphic(masm(), argc); Object* result = GetCodeWithFlags(flags, "CompileCallMegamorphic"); if (!result->IsFailure()) { Counters::call_megamorphic_stubs.Increment(); Code* code = Code::cast(result); USE(code); LOG(CodeCreateEvent(Logger::CALL_MEGAMORPHIC_TAG, code, code->arguments_count())); } return result; } Object* StubCompiler::CompileCallMiss(Code::Flags flags) { HandleScope scope; int argc = Code::ExtractArgumentsCountFromFlags(flags); CallIC::GenerateMiss(masm(), argc); Object* result = GetCodeWithFlags(flags, "CompileCallMiss"); if (!result->IsFailure()) { Counters::call_megamorphic_stubs.Increment(); Code* code = Code::cast(result); USE(code); LOG(CodeCreateEvent(Logger::CALL_MISS_TAG, code, code->arguments_count())); } return result; } #ifdef ENABLE_DEBUGGER_SUPPORT Object* StubCompiler::CompileCallDebugBreak(Code::Flags flags) { HandleScope scope; Debug::GenerateCallICDebugBreak(masm()); Object* result = GetCodeWithFlags(flags, "CompileCallDebugBreak"); if (!result->IsFailure()) { Code* code = Code::cast(result); USE(code); LOG(CodeCreateEvent(Logger::CALL_DEBUG_BREAK_TAG, code, code->arguments_count())); } return result; } Object* StubCompiler::CompileCallDebugPrepareStepIn(Code::Flags flags) { HandleScope scope; // Use the same code for the the step in preparations as we do for // the miss case. int argc = Code::ExtractArgumentsCountFromFlags(flags); CallIC::GenerateMiss(masm(), argc); Object* result = GetCodeWithFlags(flags, "CompileCallDebugPrepareStepIn"); if (!result->IsFailure()) { Code* code = Code::cast(result); USE(code); LOG(CodeCreateEvent(Logger::CALL_DEBUG_PREPARE_STEP_IN_TAG, code, code->arguments_count())); } return result; } #endif Object* StubCompiler::GetCodeWithFlags(Code::Flags flags, const char* name) { // Check for allocation failures during stub compilation. if (failure_->IsFailure()) return failure_; // Create code object in the heap. CodeDesc desc; masm_.GetCode(&desc); Object* result = Heap::CreateCode(desc, NULL, flags, masm_.CodeObject()); #ifdef ENABLE_DISASSEMBLER if (FLAG_print_code_stubs && !result->IsFailure()) { Code::cast(result)->Disassemble(name); } #endif return result; } Object* StubCompiler::GetCodeWithFlags(Code::Flags flags, String* name) { if (FLAG_print_code_stubs && (name != NULL)) { return GetCodeWithFlags(flags, *name->ToCString()); } return GetCodeWithFlags(flags, reinterpret_cast(NULL)); } void StubCompiler::LookupPostInterceptor(JSObject* holder, String* name, LookupResult* lookup) { holder->LocalLookupRealNamedProperty(name, lookup); if (lookup->IsNotFound()) { Object* proto = holder->GetPrototype(); if (proto != Heap::null_value()) { proto->Lookup(name, lookup); } } } Object* LoadStubCompiler::GetCode(PropertyType type, String* name) { Code::Flags flags = Code::ComputeMonomorphicFlags(Code::LOAD_IC, type); return GetCodeWithFlags(flags, name); } Object* KeyedLoadStubCompiler::GetCode(PropertyType type, String* name) { Code::Flags flags = Code::ComputeMonomorphicFlags(Code::KEYED_LOAD_IC, type); return GetCodeWithFlags(flags, name); } Object* StoreStubCompiler::GetCode(PropertyType type, String* name) { Code::Flags flags = Code::ComputeMonomorphicFlags(Code::STORE_IC, type); return GetCodeWithFlags(flags, name); } Object* KeyedStoreStubCompiler::GetCode(PropertyType type, String* name) { Code::Flags flags = Code::ComputeMonomorphicFlags(Code::KEYED_STORE_IC, type); return GetCodeWithFlags(flags, name); } Object* CallStubCompiler::GetCode(PropertyType type, String* name) { int argc = arguments_.immediate(); Code::Flags flags = Code::ComputeMonomorphicFlags(Code::CALL_IC, type, in_loop_, argc); return GetCodeWithFlags(flags, name); } Object* ConstructStubCompiler::GetCode() { Code::Flags flags = Code::ComputeFlags(Code::STUB); Object* result = GetCodeWithFlags(flags, "ConstructStub"); if (!result->IsFailure()) { Code* code = Code::cast(result); USE(code); LOG(CodeCreateEvent(Logger::STUB_TAG, code, "ConstructStub")); } return result; } } } // namespace v8::internal