v8/src/type-info.cc

497 lines
16 KiB
C++
Raw Normal View History

// Copyright 2012 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 "ast.h"
#include "code-stubs.h"
#include "compiler.h"
#include "ic.h"
#include "macro-assembler.h"
#include "stub-cache.h"
#include "type-info.h"
#include "ic-inl.h"
#include "objects-inl.h"
namespace v8 {
namespace internal {
TypeFeedbackOracle::TypeFeedbackOracle(Handle<Code> code,
Handle<FixedArray> feedback_vector,
Handle<Context> native_context,
Zone* zone)
: native_context_(native_context),
zone_(zone),
feedback_vector_(feedback_vector) {
BuildDictionary(code);
ASSERT(dictionary_->IsDictionary());
}
static uint32_t IdToKey(TypeFeedbackId ast_id) {
return static_cast<uint32_t>(ast_id.ToInt());
}
Handle<Object> TypeFeedbackOracle::GetInfo(TypeFeedbackId ast_id) {
int entry = dictionary_->FindEntry(IdToKey(ast_id));
if (entry != UnseededNumberDictionary::kNotFound) {
Object* value = dictionary_->ValueAt(entry);
if (value->IsCell()) {
Cell* cell = Cell::cast(value);
return Handle<Object>(cell->value(), isolate());
} else {
return Handle<Object>(value, isolate());
}
}
return Handle<Object>::cast(isolate()->factory()->undefined_value());
}
Handle<Object> TypeFeedbackOracle::GetInfo(int slot) {
ASSERT(slot >= 0 && slot < feedback_vector_->length());
Object* obj = feedback_vector_->get(slot);
if (!obj->IsJSFunction() ||
!CanRetainOtherContext(JSFunction::cast(obj), *native_context_)) {
return Handle<Object>(obj, isolate());
}
return Handle<Object>::cast(isolate()->factory()->undefined_value());
}
bool TypeFeedbackOracle::LoadIsUninitialized(TypeFeedbackId id) {
Handle<Object> maybe_code = GetInfo(id);
if (maybe_code->IsCode()) {
Handle<Code> code = Handle<Code>::cast(maybe_code);
return code->is_inline_cache_stub() && code->ic_state() == UNINITIALIZED;
}
return false;
}
bool TypeFeedbackOracle::StoreIsUninitialized(TypeFeedbackId ast_id) {
Handle<Object> maybe_code = GetInfo(ast_id);
if (!maybe_code->IsCode()) return false;
Handle<Code> code = Handle<Code>::cast(maybe_code);
return code->ic_state() == UNINITIALIZED;
}
bool TypeFeedbackOracle::StoreIsKeyedPolymorphic(TypeFeedbackId ast_id) {
Handle<Object> maybe_code = GetInfo(ast_id);
if (maybe_code->IsCode()) {
Handle<Code> code = Handle<Code>::cast(maybe_code);
return code->is_keyed_store_stub() &&
code->ic_state() == POLYMORPHIC;
}
return false;
}
bool TypeFeedbackOracle::CallIsMonomorphic(int slot) {
Handle<Object> value = GetInfo(slot);
return value->IsAllocationSite() || value->IsJSFunction();
}
bool TypeFeedbackOracle::CallNewIsMonomorphic(int slot) {
Handle<Object> info = GetInfo(slot);
return info->IsAllocationSite() || info->IsJSFunction();
}
byte TypeFeedbackOracle::ForInType(int feedback_vector_slot) {
Handle<Object> value = GetInfo(feedback_vector_slot);
return value.is_identical_to(
TypeFeedbackInfo::UninitializedSentinel(isolate()))
? ForInStatement::FAST_FOR_IN : ForInStatement::SLOW_FOR_IN;
}
KeyedAccessStoreMode TypeFeedbackOracle::GetStoreMode(
TypeFeedbackId ast_id) {
Handle<Object> maybe_code = GetInfo(ast_id);
if (maybe_code->IsCode()) {
Handle<Code> code = Handle<Code>::cast(maybe_code);
if (code->kind() == Code::KEYED_STORE_IC) {
return KeyedStoreIC::GetKeyedAccessStoreMode(code->extra_ic_state());
}
}
return STANDARD_STORE;
}
Handle<JSFunction> TypeFeedbackOracle::GetCallTarget(int slot) {
Handle<Object> info = GetInfo(slot);
if (info->IsAllocationSite()) {
return Handle<JSFunction>(isolate()->native_context()->array_function());
} else {
return Handle<JSFunction>::cast(info);
}
}
Handle<JSFunction> TypeFeedbackOracle::GetCallNewTarget(int slot) {
Handle<Object> info = GetInfo(slot);
if (info->IsAllocationSite()) {
return Handle<JSFunction>(isolate()->native_context()->array_function());
} else {
return Handle<JSFunction>::cast(info);
}
}
Handle<AllocationSite> TypeFeedbackOracle::GetCallNewAllocationSite(int slot) {
Handle<Object> info = GetInfo(slot);
if (info->IsAllocationSite()) {
return Handle<AllocationSite>::cast(info);
}
return Handle<AllocationSite>::null();
}
bool TypeFeedbackOracle::LoadIsBuiltin(
TypeFeedbackId id, Builtins::Name builtin) {
return *GetInfo(id) == isolate()->builtins()->builtin(builtin);
}
bool TypeFeedbackOracle::LoadIsStub(TypeFeedbackId id, ICStub* stub) {
Handle<Object> object = GetInfo(id);
if (!object->IsCode()) return false;
Handle<Code> code = Handle<Code>::cast(object);
if (!code->is_load_stub()) return false;
if (code->ic_state() != MONOMORPHIC) return false;
return stub->Describes(*code);
}
void TypeFeedbackOracle::CompareType(TypeFeedbackId id,
Type** left_type,
Type** right_type,
Type** combined_type) {
Handle<Object> info = GetInfo(id);
if (!info->IsCode()) {
// For some comparisons we don't have ICs, e.g. LiteralCompareTypeof.
*left_type = *right_type = *combined_type = Type::None(zone());
return;
}
Handle<Code> code = Handle<Code>::cast(info);
Handle<Map> map;
Map* raw_map = code->FindFirstMap();
if (raw_map != NULL) {
map = Map::CurrentMapForDeprecated(handle(raw_map));
if (!map.is_null() && CanRetainOtherContext(*map, *native_context_)) {
map = Handle<Map>::null();
}
}
if (code->is_compare_ic_stub()) {
int stub_minor_key = code->stub_info();
CompareIC::StubInfoToType(
stub_minor_key, left_type, right_type, combined_type, map, zone());
} else if (code->is_compare_nil_ic_stub()) {
CompareNilICStub stub(code->extra_ic_state());
*combined_type = stub.GetType(zone(), map);
*left_type = *right_type = stub.GetInputType(zone(), map);
}
}
void TypeFeedbackOracle::BinaryType(TypeFeedbackId id,
Type** left,
Type** right,
Type** result,
Maybe<int>* fixed_right_arg,
Handle<AllocationSite>* allocation_site,
Token::Value op) {
Handle<Object> object = GetInfo(id);
if (!object->IsCode()) {
// For some binary ops we don't have ICs, e.g. Token::COMMA, but for the
// operations covered by the BinaryOpIC we should always have them.
ASSERT(op < BinaryOpIC::State::FIRST_TOKEN ||
op > BinaryOpIC::State::LAST_TOKEN);
*left = *right = *result = Type::None(zone());
*fixed_right_arg = Maybe<int>();
*allocation_site = Handle<AllocationSite>::null();
return;
}
Handle<Code> code = Handle<Code>::cast(object);
ASSERT_EQ(Code::BINARY_OP_IC, code->kind());
BinaryOpIC::State state(code->extra_ic_state());
ASSERT_EQ(op, state.op());
*left = state.GetLeftType(zone());
*right = state.GetRightType(zone());
*result = state.GetResultType(zone());
*fixed_right_arg = state.fixed_right_arg();
AllocationSite* first_allocation_site = code->FindFirstAllocationSite();
if (first_allocation_site != NULL) {
*allocation_site = handle(first_allocation_site);
} else {
*allocation_site = Handle<AllocationSite>::null();
}
}
Type* TypeFeedbackOracle::CountType(TypeFeedbackId id) {
Handle<Object> object = GetInfo(id);
if (!object->IsCode()) return Type::None(zone());
Handle<Code> code = Handle<Code>::cast(object);
ASSERT_EQ(Code::BINARY_OP_IC, code->kind());
BinaryOpIC::State state(code->extra_ic_state());
return state.GetLeftType(zone());
}
void TypeFeedbackOracle::PropertyReceiverTypes(
TypeFeedbackId id, Handle<String> name,
SmallMapList* receiver_types, bool* is_prototype) {
receiver_types->Clear();
FunctionPrototypeStub proto_stub(Code::LOAD_IC);
*is_prototype = LoadIsStub(id, &proto_stub);
if (!*is_prototype) {
Code::Flags flags = Code::ComputeHandlerFlags(Code::LOAD_IC);
CollectReceiverTypes(id, name, flags, receiver_types);
}
}
void TypeFeedbackOracle::KeyedPropertyReceiverTypes(
TypeFeedbackId id, SmallMapList* receiver_types, bool* is_string) {
receiver_types->Clear();
*is_string = false;
if (LoadIsBuiltin(id, Builtins::kKeyedLoadIC_String)) {
*is_string = true;
} else {
CollectReceiverTypes(id, receiver_types);
}
}
void TypeFeedbackOracle::AssignmentReceiverTypes(
TypeFeedbackId id, Handle<String> name, SmallMapList* receiver_types) {
receiver_types->Clear();
Code::Flags flags = Code::ComputeHandlerFlags(Code::STORE_IC);
CollectReceiverTypes(id, name, flags, receiver_types);
}
void TypeFeedbackOracle::KeyedAssignmentReceiverTypes(
TypeFeedbackId id, SmallMapList* receiver_types,
KeyedAccessStoreMode* store_mode) {
receiver_types->Clear();
CollectReceiverTypes(id, receiver_types);
*store_mode = GetStoreMode(id);
}
void TypeFeedbackOracle::CountReceiverTypes(TypeFeedbackId id,
SmallMapList* receiver_types) {
receiver_types->Clear();
CollectReceiverTypes(id, receiver_types);
}
void TypeFeedbackOracle::CollectReceiverTypes(TypeFeedbackId ast_id,
Handle<String> name,
Code::Flags flags,
SmallMapList* types) {
Handle<Object> object = GetInfo(ast_id);
if (object->IsUndefined() || object->IsSmi()) return;
ASSERT(object->IsCode());
Handle<Code> code(Handle<Code>::cast(object));
if (FLAG_collect_megamorphic_maps_from_stub_cache &&
code->ic_state() == MEGAMORPHIC) {
types->Reserve(4, zone());
isolate()->stub_cache()->CollectMatchingMaps(
types, name, flags, native_context_, zone());
} else {
CollectReceiverTypes(ast_id, types);
}
}
// Check if a map originates from a given native context. We use this
// information to filter out maps from different context to avoid
// retaining objects from different tabs in Chrome via optimized code.
bool TypeFeedbackOracle::CanRetainOtherContext(Map* map,
Context* native_context) {
Object* constructor = NULL;
while (!map->prototype()->IsNull()) {
constructor = map->constructor();
if (!constructor->IsNull()) {
// If the constructor is not null or a JSFunction, we have to
// conservatively assume that it may retain a native context.
if (!constructor->IsJSFunction()) return true;
// Check if the constructor directly references a foreign context.
if (CanRetainOtherContext(JSFunction::cast(constructor),
native_context)) {
return true;
}
}
map = HeapObject::cast(map->prototype())->map();
}
constructor = map->constructor();
if (constructor->IsNull()) return false;
JSFunction* function = JSFunction::cast(constructor);
return CanRetainOtherContext(function, native_context);
}
bool TypeFeedbackOracle::CanRetainOtherContext(JSFunction* function,
Context* native_context) {
return function->context()->global_object() != native_context->global_object()
&& function->context()->global_object() != native_context->builtins();
}
void TypeFeedbackOracle::CollectReceiverTypes(TypeFeedbackId ast_id,
SmallMapList* types) {
Handle<Object> object = GetInfo(ast_id);
if (!object->IsCode()) return;
Handle<Code> code = Handle<Code>::cast(object);
MapHandleList maps;
if (code->ic_state() == MONOMORPHIC) {
Map* map = code->FindFirstMap();
if (map != NULL) maps.Add(handle(map));
} else if (code->ic_state() == POLYMORPHIC) {
code->FindAllMaps(&maps);
} else {
return;
}
types->Reserve(maps.length(), zone());
for (int i = 0; i < maps.length(); i++) {
Handle<Map> map(maps.at(i));
if (!CanRetainOtherContext(*map, *native_context_)) {
types->AddMapIfMissing(map, zone());
}
}
}
byte TypeFeedbackOracle::ToBooleanTypes(TypeFeedbackId id) {
Handle<Object> object = GetInfo(id);
return object->IsCode() ? Handle<Code>::cast(object)->to_boolean_state() : 0;
}
// Things are a bit tricky here: The iterator for the RelocInfos and the infos
// themselves are not GC-safe, so we first get all infos, then we create the
// dictionary (possibly triggering GC), and finally we relocate the collected
// infos before we process them.
void TypeFeedbackOracle::BuildDictionary(Handle<Code> code) {
DisallowHeapAllocation no_allocation;
ZoneList<RelocInfo> infos(16, zone());
HandleScope scope(isolate());
GetRelocInfos(code, &infos);
CreateDictionary(code, &infos);
ProcessRelocInfos(&infos);
// Allocate handle in the parent scope.
dictionary_ = scope.CloseAndEscape(dictionary_);
}
void TypeFeedbackOracle::GetRelocInfos(Handle<Code> code,
ZoneList<RelocInfo>* infos) {
int mask = RelocInfo::ModeMask(RelocInfo::CODE_TARGET_WITH_ID);
for (RelocIterator it(*code, mask); !it.done(); it.next()) {
infos->Add(*it.rinfo(), zone());
}
}
void TypeFeedbackOracle::CreateDictionary(Handle<Code> code,
ZoneList<RelocInfo>* infos) {
AllowHeapAllocation allocation_allowed;
Code* old_code = *code;
dictionary_ =
isolate()->factory()->NewUnseededNumberDictionary(infos->length());
RelocateRelocInfos(infos, old_code, *code);
}
void TypeFeedbackOracle::RelocateRelocInfos(ZoneList<RelocInfo>* infos,
Code* old_code,
Code* new_code) {
for (int i = 0; i < infos->length(); i++) {
RelocInfo* info = &(*infos)[i];
info->set_host(new_code);
info->set_pc(new_code->instruction_start() +
(info->pc() - old_code->instruction_start()));
}
}
void TypeFeedbackOracle::ProcessRelocInfos(ZoneList<RelocInfo>* infos) {
for (int i = 0; i < infos->length(); i++) {
RelocInfo reloc_entry = (*infos)[i];
Address target_address = reloc_entry.target_address();
TypeFeedbackId ast_id =
TypeFeedbackId(static_cast<unsigned>((*infos)[i].data()));
Code* target = Code::GetCodeFromTargetAddress(target_address);
switch (target->kind()) {
case Code::LOAD_IC:
case Code::STORE_IC:
case Code::KEYED_LOAD_IC:
case Code::KEYED_STORE_IC:
case Code::BINARY_OP_IC:
case Code::COMPARE_IC:
case Code::TO_BOOLEAN_IC:
case Code::COMPARE_NIL_IC:
SetInfo(ast_id, target);
break;
default:
break;
}
}
}
void TypeFeedbackOracle::SetInfo(TypeFeedbackId ast_id, Object* target) {
ASSERT(dictionary_->FindEntry(IdToKey(ast_id)) ==
UnseededNumberDictionary::kNotFound);
MaybeObject* maybe_result = dictionary_->AtNumberPut(IdToKey(ast_id), target);
USE(maybe_result);
#ifdef DEBUG
Object* result = NULL;
// Dictionary has been allocated with sufficient size for all elements.
ASSERT(maybe_result->ToObject(&result));
ASSERT(*dictionary_ == result);
#endif
}
} } // namespace v8::internal