| Index: src/ic/ic-state.cc
|
| diff --git a/src/ic/ic-state.cc b/src/ic/ic-state.cc
|
| new file mode 100644
|
| index 0000000000000000000000000000000000000000..4238a7237ef88fd25fd39834fa7fe9c9eb8e1c8c
|
| --- /dev/null
|
| +++ b/src/ic/ic-state.cc
|
| @@ -0,0 +1,614 @@
|
| +// Copyright 2014 the V8 project authors. All rights reserved.
|
| +// Use of this source code is governed by a BSD-style license that can be
|
| +// found in the LICENSE file.
|
| +
|
| +#include "src/v8.h"
|
| +
|
| +#include "src/ic/ic.h"
|
| +#include "src/ic/ic-state.h"
|
| +
|
| +namespace v8 {
|
| +namespace internal {
|
| +
|
| +void ICUtility::Clear(Isolate* isolate, Address address,
|
| + ConstantPoolArray* constant_pool) {
|
| + IC::Clear(isolate, address, constant_pool);
|
| +}
|
| +
|
| +
|
| +CallICState::CallICState(ExtraICState extra_ic_state)
|
| + : argc_(ArgcBits::decode(extra_ic_state)),
|
| + call_type_(CallTypeBits::decode(extra_ic_state)) {}
|
| +
|
| +
|
| +ExtraICState CallICState::GetExtraICState() const {
|
| + ExtraICState extra_ic_state =
|
| + ArgcBits::encode(argc_) | CallTypeBits::encode(call_type_);
|
| + return extra_ic_state;
|
| +}
|
| +
|
| +
|
| +OStream& operator<<(OStream& os, const CallICState& s) {
|
| + return os << "(args(" << s.arg_count() << "), "
|
| + << (s.call_type() == CallICState::METHOD ? "METHOD" : "FUNCTION")
|
| + << ", ";
|
| +}
|
| +
|
| +
|
| +BinaryOpICState::BinaryOpICState(Isolate* isolate, ExtraICState extra_ic_state)
|
| + : isolate_(isolate) {
|
| + op_ =
|
| + static_cast<Token::Value>(FIRST_TOKEN + OpField::decode(extra_ic_state));
|
| + mode_ = OverwriteModeField::decode(extra_ic_state);
|
| + fixed_right_arg_ =
|
| + Maybe<int>(HasFixedRightArgField::decode(extra_ic_state),
|
| + 1 << FixedRightArgValueField::decode(extra_ic_state));
|
| + left_kind_ = LeftKindField::decode(extra_ic_state);
|
| + if (fixed_right_arg_.has_value) {
|
| + right_kind_ = Smi::IsValid(fixed_right_arg_.value) ? SMI : INT32;
|
| + } else {
|
| + right_kind_ = RightKindField::decode(extra_ic_state);
|
| + }
|
| + result_kind_ = ResultKindField::decode(extra_ic_state);
|
| + DCHECK_LE(FIRST_TOKEN, op_);
|
| + DCHECK_LE(op_, LAST_TOKEN);
|
| +}
|
| +
|
| +
|
| +ExtraICState BinaryOpICState::GetExtraICState() const {
|
| + ExtraICState extra_ic_state =
|
| + OpField::encode(op_ - FIRST_TOKEN) | OverwriteModeField::encode(mode_) |
|
| + LeftKindField::encode(left_kind_) |
|
| + ResultKindField::encode(result_kind_) |
|
| + HasFixedRightArgField::encode(fixed_right_arg_.has_value);
|
| + if (fixed_right_arg_.has_value) {
|
| + extra_ic_state = FixedRightArgValueField::update(
|
| + extra_ic_state, WhichPowerOf2(fixed_right_arg_.value));
|
| + } else {
|
| + extra_ic_state = RightKindField::update(extra_ic_state, right_kind_);
|
| + }
|
| + return extra_ic_state;
|
| +}
|
| +
|
| +
|
| +// static
|
| +void BinaryOpICState::GenerateAheadOfTime(
|
| + Isolate* isolate, void (*Generate)(Isolate*, const BinaryOpICState&)) {
|
| +// TODO(olivf) We should investigate why adding stubs to the snapshot is so
|
| +// expensive at runtime. When solved we should be able to add most binops to
|
| +// the snapshot instead of hand-picking them.
|
| +// Generated list of commonly used stubs
|
| +#define GENERATE(op, left_kind, right_kind, result_kind, mode) \
|
| + do { \
|
| + BinaryOpICState state(isolate, op, mode); \
|
| + state.left_kind_ = left_kind; \
|
| + state.fixed_right_arg_.has_value = false; \
|
| + state.right_kind_ = right_kind; \
|
| + state.result_kind_ = result_kind; \
|
| + Generate(isolate, state); \
|
| + } while (false)
|
| + GENERATE(Token::ADD, INT32, INT32, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::ADD, INT32, INT32, INT32, OVERWRITE_LEFT);
|
| + GENERATE(Token::ADD, INT32, INT32, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::ADD, INT32, INT32, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::ADD, INT32, NUMBER, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::ADD, INT32, NUMBER, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::ADD, INT32, NUMBER, NUMBER, OVERWRITE_RIGHT);
|
| + GENERATE(Token::ADD, INT32, SMI, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::ADD, INT32, SMI, INT32, OVERWRITE_LEFT);
|
| + GENERATE(Token::ADD, INT32, SMI, INT32, OVERWRITE_RIGHT);
|
| + GENERATE(Token::ADD, NUMBER, INT32, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::ADD, NUMBER, INT32, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::ADD, NUMBER, INT32, NUMBER, OVERWRITE_RIGHT);
|
| + GENERATE(Token::ADD, NUMBER, NUMBER, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::ADD, NUMBER, NUMBER, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::ADD, NUMBER, NUMBER, NUMBER, OVERWRITE_RIGHT);
|
| + GENERATE(Token::ADD, NUMBER, SMI, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::ADD, NUMBER, SMI, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::ADD, NUMBER, SMI, NUMBER, OVERWRITE_RIGHT);
|
| + GENERATE(Token::ADD, SMI, INT32, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::ADD, SMI, INT32, INT32, OVERWRITE_LEFT);
|
| + GENERATE(Token::ADD, SMI, INT32, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::ADD, SMI, NUMBER, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::ADD, SMI, NUMBER, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::ADD, SMI, NUMBER, NUMBER, OVERWRITE_RIGHT);
|
| + GENERATE(Token::ADD, SMI, SMI, INT32, OVERWRITE_LEFT);
|
| + GENERATE(Token::ADD, SMI, SMI, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::BIT_AND, INT32, INT32, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::BIT_AND, INT32, INT32, INT32, OVERWRITE_LEFT);
|
| + GENERATE(Token::BIT_AND, INT32, INT32, INT32, OVERWRITE_RIGHT);
|
| + GENERATE(Token::BIT_AND, INT32, INT32, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::BIT_AND, INT32, INT32, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::BIT_AND, INT32, SMI, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::BIT_AND, INT32, SMI, INT32, OVERWRITE_RIGHT);
|
| + GENERATE(Token::BIT_AND, INT32, SMI, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::BIT_AND, INT32, SMI, SMI, OVERWRITE_LEFT);
|
| + GENERATE(Token::BIT_AND, INT32, SMI, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::BIT_AND, NUMBER, INT32, INT32, OVERWRITE_RIGHT);
|
| + GENERATE(Token::BIT_AND, NUMBER, SMI, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::BIT_AND, NUMBER, SMI, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::BIT_AND, SMI, INT32, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::BIT_AND, SMI, INT32, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::BIT_AND, SMI, NUMBER, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::BIT_AND, SMI, SMI, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::BIT_AND, SMI, SMI, SMI, OVERWRITE_LEFT);
|
| + GENERATE(Token::BIT_AND, SMI, SMI, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::BIT_OR, INT32, INT32, INT32, OVERWRITE_LEFT);
|
| + GENERATE(Token::BIT_OR, INT32, INT32, INT32, OVERWRITE_RIGHT);
|
| + GENERATE(Token::BIT_OR, INT32, INT32, SMI, OVERWRITE_LEFT);
|
| + GENERATE(Token::BIT_OR, INT32, SMI, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::BIT_OR, INT32, SMI, INT32, OVERWRITE_LEFT);
|
| + GENERATE(Token::BIT_OR, INT32, SMI, INT32, OVERWRITE_RIGHT);
|
| + GENERATE(Token::BIT_OR, INT32, SMI, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::BIT_OR, INT32, SMI, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::BIT_OR, NUMBER, SMI, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::BIT_OR, NUMBER, SMI, INT32, OVERWRITE_LEFT);
|
| + GENERATE(Token::BIT_OR, NUMBER, SMI, INT32, OVERWRITE_RIGHT);
|
| + GENERATE(Token::BIT_OR, NUMBER, SMI, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::BIT_OR, NUMBER, SMI, SMI, OVERWRITE_LEFT);
|
| + GENERATE(Token::BIT_OR, SMI, INT32, INT32, OVERWRITE_LEFT);
|
| + GENERATE(Token::BIT_OR, SMI, INT32, INT32, OVERWRITE_RIGHT);
|
| + GENERATE(Token::BIT_OR, SMI, INT32, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::BIT_OR, SMI, SMI, SMI, OVERWRITE_LEFT);
|
| + GENERATE(Token::BIT_OR, SMI, SMI, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::BIT_XOR, INT32, INT32, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::BIT_XOR, INT32, INT32, INT32, OVERWRITE_LEFT);
|
| + GENERATE(Token::BIT_XOR, INT32, INT32, INT32, OVERWRITE_RIGHT);
|
| + GENERATE(Token::BIT_XOR, INT32, INT32, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::BIT_XOR, INT32, INT32, SMI, OVERWRITE_LEFT);
|
| + GENERATE(Token::BIT_XOR, INT32, NUMBER, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::BIT_XOR, INT32, SMI, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::BIT_XOR, INT32, SMI, INT32, OVERWRITE_LEFT);
|
| + GENERATE(Token::BIT_XOR, INT32, SMI, INT32, OVERWRITE_RIGHT);
|
| + GENERATE(Token::BIT_XOR, NUMBER, INT32, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::BIT_XOR, NUMBER, SMI, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::BIT_XOR, NUMBER, SMI, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::BIT_XOR, SMI, INT32, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::BIT_XOR, SMI, INT32, INT32, OVERWRITE_LEFT);
|
| + GENERATE(Token::BIT_XOR, SMI, INT32, SMI, OVERWRITE_LEFT);
|
| + GENERATE(Token::BIT_XOR, SMI, SMI, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::BIT_XOR, SMI, SMI, SMI, OVERWRITE_LEFT);
|
| + GENERATE(Token::BIT_XOR, SMI, SMI, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::DIV, INT32, INT32, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::DIV, INT32, INT32, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::DIV, INT32, NUMBER, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::DIV, INT32, NUMBER, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::DIV, INT32, SMI, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::DIV, INT32, SMI, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::DIV, NUMBER, INT32, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::DIV, NUMBER, INT32, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::DIV, NUMBER, NUMBER, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::DIV, NUMBER, NUMBER, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::DIV, NUMBER, NUMBER, NUMBER, OVERWRITE_RIGHT);
|
| + GENERATE(Token::DIV, NUMBER, SMI, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::DIV, NUMBER, SMI, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::DIV, SMI, INT32, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::DIV, SMI, INT32, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::DIV, SMI, INT32, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::DIV, SMI, NUMBER, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::DIV, SMI, NUMBER, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::DIV, SMI, NUMBER, NUMBER, OVERWRITE_RIGHT);
|
| + GENERATE(Token::DIV, SMI, SMI, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::DIV, SMI, SMI, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::DIV, SMI, SMI, NUMBER, OVERWRITE_RIGHT);
|
| + GENERATE(Token::DIV, SMI, SMI, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::DIV, SMI, SMI, SMI, OVERWRITE_LEFT);
|
| + GENERATE(Token::DIV, SMI, SMI, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::MOD, NUMBER, SMI, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::MOD, SMI, SMI, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::MOD, SMI, SMI, SMI, OVERWRITE_LEFT);
|
| + GENERATE(Token::MUL, INT32, INT32, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::MUL, INT32, INT32, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::MUL, INT32, NUMBER, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::MUL, INT32, NUMBER, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::MUL, INT32, SMI, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::MUL, INT32, SMI, INT32, OVERWRITE_LEFT);
|
| + GENERATE(Token::MUL, INT32, SMI, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::MUL, NUMBER, INT32, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::MUL, NUMBER, INT32, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::MUL, NUMBER, INT32, NUMBER, OVERWRITE_RIGHT);
|
| + GENERATE(Token::MUL, NUMBER, NUMBER, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::MUL, NUMBER, NUMBER, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::MUL, NUMBER, SMI, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::MUL, NUMBER, SMI, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::MUL, NUMBER, SMI, NUMBER, OVERWRITE_RIGHT);
|
| + GENERATE(Token::MUL, SMI, INT32, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::MUL, SMI, INT32, INT32, OVERWRITE_LEFT);
|
| + GENERATE(Token::MUL, SMI, INT32, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::MUL, SMI, NUMBER, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::MUL, SMI, NUMBER, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::MUL, SMI, NUMBER, NUMBER, OVERWRITE_RIGHT);
|
| + GENERATE(Token::MUL, SMI, SMI, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::MUL, SMI, SMI, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::MUL, SMI, SMI, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::MUL, SMI, SMI, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::MUL, SMI, SMI, SMI, OVERWRITE_LEFT);
|
| + GENERATE(Token::MUL, SMI, SMI, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::SAR, INT32, SMI, INT32, OVERWRITE_RIGHT);
|
| + GENERATE(Token::SAR, INT32, SMI, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::SAR, INT32, SMI, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::SAR, NUMBER, SMI, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::SAR, NUMBER, SMI, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::SAR, SMI, SMI, SMI, OVERWRITE_LEFT);
|
| + GENERATE(Token::SAR, SMI, SMI, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::SHL, INT32, SMI, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::SHL, INT32, SMI, INT32, OVERWRITE_RIGHT);
|
| + GENERATE(Token::SHL, INT32, SMI, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::SHL, INT32, SMI, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::SHL, NUMBER, SMI, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::SHL, SMI, SMI, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::SHL, SMI, SMI, INT32, OVERWRITE_LEFT);
|
| + GENERATE(Token::SHL, SMI, SMI, INT32, OVERWRITE_RIGHT);
|
| + GENERATE(Token::SHL, SMI, SMI, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::SHL, SMI, SMI, SMI, OVERWRITE_LEFT);
|
| + GENERATE(Token::SHL, SMI, SMI, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::SHR, INT32, SMI, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::SHR, INT32, SMI, SMI, OVERWRITE_LEFT);
|
| + GENERATE(Token::SHR, INT32, SMI, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::SHR, NUMBER, SMI, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::SHR, NUMBER, SMI, SMI, OVERWRITE_LEFT);
|
| + GENERATE(Token::SHR, NUMBER, SMI, INT32, OVERWRITE_RIGHT);
|
| + GENERATE(Token::SHR, SMI, SMI, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::SHR, SMI, SMI, SMI, OVERWRITE_LEFT);
|
| + GENERATE(Token::SHR, SMI, SMI, SMI, OVERWRITE_RIGHT);
|
| + GENERATE(Token::SUB, INT32, INT32, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::SUB, INT32, INT32, INT32, OVERWRITE_LEFT);
|
| + GENERATE(Token::SUB, INT32, NUMBER, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::SUB, INT32, NUMBER, NUMBER, OVERWRITE_RIGHT);
|
| + GENERATE(Token::SUB, INT32, SMI, INT32, OVERWRITE_LEFT);
|
| + GENERATE(Token::SUB, INT32, SMI, INT32, OVERWRITE_RIGHT);
|
| + GENERATE(Token::SUB, NUMBER, INT32, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::SUB, NUMBER, INT32, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::SUB, NUMBER, NUMBER, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::SUB, NUMBER, NUMBER, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::SUB, NUMBER, NUMBER, NUMBER, OVERWRITE_RIGHT);
|
| + GENERATE(Token::SUB, NUMBER, SMI, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::SUB, NUMBER, SMI, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::SUB, NUMBER, SMI, NUMBER, OVERWRITE_RIGHT);
|
| + GENERATE(Token::SUB, SMI, INT32, INT32, NO_OVERWRITE);
|
| + GENERATE(Token::SUB, SMI, NUMBER, NUMBER, NO_OVERWRITE);
|
| + GENERATE(Token::SUB, SMI, NUMBER, NUMBER, OVERWRITE_LEFT);
|
| + GENERATE(Token::SUB, SMI, NUMBER, NUMBER, OVERWRITE_RIGHT);
|
| + GENERATE(Token::SUB, SMI, SMI, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::SUB, SMI, SMI, SMI, OVERWRITE_LEFT);
|
| + GENERATE(Token::SUB, SMI, SMI, SMI, OVERWRITE_RIGHT);
|
| +#undef GENERATE
|
| +#define GENERATE(op, left_kind, fixed_right_arg_value, result_kind, mode) \
|
| + do { \
|
| + BinaryOpICState state(isolate, op, mode); \
|
| + state.left_kind_ = left_kind; \
|
| + state.fixed_right_arg_.has_value = true; \
|
| + state.fixed_right_arg_.value = fixed_right_arg_value; \
|
| + state.right_kind_ = SMI; \
|
| + state.result_kind_ = result_kind; \
|
| + Generate(isolate, state); \
|
| + } while (false)
|
| + GENERATE(Token::MOD, SMI, 2, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::MOD, SMI, 4, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::MOD, SMI, 4, SMI, OVERWRITE_LEFT);
|
| + GENERATE(Token::MOD, SMI, 8, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::MOD, SMI, 16, SMI, OVERWRITE_LEFT);
|
| + GENERATE(Token::MOD, SMI, 32, SMI, NO_OVERWRITE);
|
| + GENERATE(Token::MOD, SMI, 2048, SMI, NO_OVERWRITE);
|
| +#undef GENERATE
|
| +}
|
| +
|
| +
|
| +Type* BinaryOpICState::GetResultType(Zone* zone) const {
|
| + Kind result_kind = result_kind_;
|
| + if (HasSideEffects()) {
|
| + result_kind = NONE;
|
| + } else if (result_kind == GENERIC && op_ == Token::ADD) {
|
| + return Type::Union(Type::Number(zone), Type::String(zone), zone);
|
| + } else if (result_kind == NUMBER && op_ == Token::SHR) {
|
| + return Type::Unsigned32(zone);
|
| + }
|
| + DCHECK_NE(GENERIC, result_kind);
|
| + return KindToType(result_kind, zone);
|
| +}
|
| +
|
| +
|
| +OStream& operator<<(OStream& os, const BinaryOpICState& s) {
|
| + os << "(" << Token::Name(s.op_);
|
| + if (s.mode_ == OVERWRITE_LEFT)
|
| + os << "_ReuseLeft";
|
| + else if (s.mode_ == OVERWRITE_RIGHT)
|
| + os << "_ReuseRight";
|
| + if (s.CouldCreateAllocationMementos()) os << "_CreateAllocationMementos";
|
| + os << ":" << BinaryOpICState::KindToString(s.left_kind_) << "*";
|
| + if (s.fixed_right_arg_.has_value) {
|
| + os << s.fixed_right_arg_.value;
|
| + } else {
|
| + os << BinaryOpICState::KindToString(s.right_kind_);
|
| + }
|
| + return os << "->" << BinaryOpICState::KindToString(s.result_kind_) << ")";
|
| +}
|
| +
|
| +
|
| +void BinaryOpICState::Update(Handle<Object> left, Handle<Object> right,
|
| + Handle<Object> result) {
|
| + ExtraICState old_extra_ic_state = GetExtraICState();
|
| +
|
| + left_kind_ = UpdateKind(left, left_kind_);
|
| + right_kind_ = UpdateKind(right, right_kind_);
|
| +
|
| + int32_t fixed_right_arg_value = 0;
|
| + bool has_fixed_right_arg =
|
| + op_ == Token::MOD && right->ToInt32(&fixed_right_arg_value) &&
|
| + fixed_right_arg_value > 0 &&
|
| + base::bits::IsPowerOfTwo32(fixed_right_arg_value) &&
|
| + FixedRightArgValueField::is_valid(WhichPowerOf2(fixed_right_arg_value)) &&
|
| + (left_kind_ == SMI || left_kind_ == INT32) &&
|
| + (result_kind_ == NONE || !fixed_right_arg_.has_value);
|
| + fixed_right_arg_ = Maybe<int32_t>(has_fixed_right_arg, fixed_right_arg_value);
|
| +
|
| + result_kind_ = UpdateKind(result, result_kind_);
|
| +
|
| + if (!Token::IsTruncatingBinaryOp(op_)) {
|
| + Kind input_kind = Max(left_kind_, right_kind_);
|
| + if (result_kind_ < input_kind && input_kind <= NUMBER) {
|
| + result_kind_ = input_kind;
|
| + }
|
| + }
|
| +
|
| + // We don't want to distinguish INT32 and NUMBER for string add (because
|
| + // NumberToString can't make use of this anyway).
|
| + if (left_kind_ == STRING && right_kind_ == INT32) {
|
| + DCHECK_EQ(STRING, result_kind_);
|
| + DCHECK_EQ(Token::ADD, op_);
|
| + right_kind_ = NUMBER;
|
| + } else if (right_kind_ == STRING && left_kind_ == INT32) {
|
| + DCHECK_EQ(STRING, result_kind_);
|
| + DCHECK_EQ(Token::ADD, op_);
|
| + left_kind_ = NUMBER;
|
| + }
|
| +
|
| + // Reset overwrite mode unless we can actually make use of it, or may be able
|
| + // to make use of it at some point in the future.
|
| + if ((mode_ == OVERWRITE_LEFT && left_kind_ > NUMBER) ||
|
| + (mode_ == OVERWRITE_RIGHT && right_kind_ > NUMBER) ||
|
| + result_kind_ > NUMBER) {
|
| + mode_ = NO_OVERWRITE;
|
| + }
|
| +
|
| + if (old_extra_ic_state == GetExtraICState()) {
|
| + // Tagged operations can lead to non-truncating HChanges
|
| + if (left->IsUndefined() || left->IsBoolean()) {
|
| + left_kind_ = GENERIC;
|
| + } else {
|
| + DCHECK(right->IsUndefined() || right->IsBoolean());
|
| + right_kind_ = GENERIC;
|
| + }
|
| + }
|
| +}
|
| +
|
| +
|
| +BinaryOpICState::Kind BinaryOpICState::UpdateKind(Handle<Object> object,
|
| + Kind kind) const {
|
| + Kind new_kind = GENERIC;
|
| + bool is_truncating = Token::IsTruncatingBinaryOp(op());
|
| + if (object->IsBoolean() && is_truncating) {
|
| + // Booleans will be automatically truncated by HChange.
|
| + new_kind = INT32;
|
| + } else if (object->IsUndefined()) {
|
| + // Undefined will be automatically truncated by HChange.
|
| + new_kind = is_truncating ? INT32 : NUMBER;
|
| + } else if (object->IsSmi()) {
|
| + new_kind = SMI;
|
| + } else if (object->IsHeapNumber()) {
|
| + double value = Handle<HeapNumber>::cast(object)->value();
|
| + new_kind = IsInt32Double(value) ? INT32 : NUMBER;
|
| + } else if (object->IsString() && op() == Token::ADD) {
|
| + new_kind = STRING;
|
| + }
|
| + if (new_kind == INT32 && SmiValuesAre32Bits()) {
|
| + new_kind = NUMBER;
|
| + }
|
| + if (kind != NONE && ((new_kind <= NUMBER && kind > NUMBER) ||
|
| + (new_kind > NUMBER && kind <= NUMBER))) {
|
| + new_kind = GENERIC;
|
| + }
|
| + return Max(kind, new_kind);
|
| +}
|
| +
|
| +
|
| +// static
|
| +const char* BinaryOpICState::KindToString(Kind kind) {
|
| + switch (kind) {
|
| + case NONE:
|
| + return "None";
|
| + case SMI:
|
| + return "Smi";
|
| + case INT32:
|
| + return "Int32";
|
| + case NUMBER:
|
| + return "Number";
|
| + case STRING:
|
| + return "String";
|
| + case GENERIC:
|
| + return "Generic";
|
| + }
|
| + UNREACHABLE();
|
| + return NULL;
|
| +}
|
| +
|
| +
|
| +// static
|
| +Type* BinaryOpICState::KindToType(Kind kind, Zone* zone) {
|
| + switch (kind) {
|
| + case NONE:
|
| + return Type::None(zone);
|
| + case SMI:
|
| + return Type::SignedSmall(zone);
|
| + case INT32:
|
| + return Type::Signed32(zone);
|
| + case NUMBER:
|
| + return Type::Number(zone);
|
| + case STRING:
|
| + return Type::String(zone);
|
| + case GENERIC:
|
| + return Type::Any(zone);
|
| + }
|
| + UNREACHABLE();
|
| + return NULL;
|
| +}
|
| +
|
| +
|
| +const char* CompareICState::GetStateName(State state) {
|
| + switch (state) {
|
| + case UNINITIALIZED:
|
| + return "UNINITIALIZED";
|
| + case SMI:
|
| + return "SMI";
|
| + case NUMBER:
|
| + return "NUMBER";
|
| + case INTERNALIZED_STRING:
|
| + return "INTERNALIZED_STRING";
|
| + case STRING:
|
| + return "STRING";
|
| + case UNIQUE_NAME:
|
| + return "UNIQUE_NAME";
|
| + case OBJECT:
|
| + return "OBJECT";
|
| + case KNOWN_OBJECT:
|
| + return "KNOWN_OBJECT";
|
| + case GENERIC:
|
| + return "GENERIC";
|
| + }
|
| + UNREACHABLE();
|
| + return NULL;
|
| +}
|
| +
|
| +
|
| +Type* CompareICState::StateToType(Zone* zone, State state, Handle<Map> map) {
|
| + switch (state) {
|
| + case UNINITIALIZED:
|
| + return Type::None(zone);
|
| + case SMI:
|
| + return Type::SignedSmall(zone);
|
| + case NUMBER:
|
| + return Type::Number(zone);
|
| + case STRING:
|
| + return Type::String(zone);
|
| + case INTERNALIZED_STRING:
|
| + return Type::InternalizedString(zone);
|
| + case UNIQUE_NAME:
|
| + return Type::UniqueName(zone);
|
| + case OBJECT:
|
| + return Type::Receiver(zone);
|
| + case KNOWN_OBJECT:
|
| + return map.is_null() ? Type::Receiver(zone) : Type::Class(map, zone);
|
| + case GENERIC:
|
| + return Type::Any(zone);
|
| + }
|
| + UNREACHABLE();
|
| + return NULL;
|
| +}
|
| +
|
| +
|
| +CompareICState::State CompareICState::NewInputState(State old_state,
|
| + Handle<Object> value) {
|
| + switch (old_state) {
|
| + case UNINITIALIZED:
|
| + if (value->IsSmi()) return SMI;
|
| + if (value->IsHeapNumber()) return NUMBER;
|
| + if (value->IsInternalizedString()) return INTERNALIZED_STRING;
|
| + if (value->IsString()) return STRING;
|
| + if (value->IsSymbol()) return UNIQUE_NAME;
|
| + if (value->IsJSObject()) return OBJECT;
|
| + break;
|
| + case SMI:
|
| + if (value->IsSmi()) return SMI;
|
| + if (value->IsHeapNumber()) return NUMBER;
|
| + break;
|
| + case NUMBER:
|
| + if (value->IsNumber()) return NUMBER;
|
| + break;
|
| + case INTERNALIZED_STRING:
|
| + if (value->IsInternalizedString()) return INTERNALIZED_STRING;
|
| + if (value->IsString()) return STRING;
|
| + if (value->IsSymbol()) return UNIQUE_NAME;
|
| + break;
|
| + case STRING:
|
| + if (value->IsString()) return STRING;
|
| + break;
|
| + case UNIQUE_NAME:
|
| + if (value->IsUniqueName()) return UNIQUE_NAME;
|
| + break;
|
| + case OBJECT:
|
| + if (value->IsJSObject()) return OBJECT;
|
| + break;
|
| + case GENERIC:
|
| + break;
|
| + case KNOWN_OBJECT:
|
| + UNREACHABLE();
|
| + break;
|
| + }
|
| + return GENERIC;
|
| +}
|
| +
|
| +
|
| +// static
|
| +CompareICState::State CompareICState::TargetState(
|
| + State old_state, State old_left, State old_right, Token::Value op,
|
| + bool has_inlined_smi_code, Handle<Object> x, Handle<Object> y) {
|
| + switch (old_state) {
|
| + case UNINITIALIZED:
|
| + if (x->IsSmi() && y->IsSmi()) return SMI;
|
| + if (x->IsNumber() && y->IsNumber()) return NUMBER;
|
| + if (Token::IsOrderedRelationalCompareOp(op)) {
|
| + // Ordered comparisons treat undefined as NaN, so the
|
| + // NUMBER stub will do the right thing.
|
| + if ((x->IsNumber() && y->IsUndefined()) ||
|
| + (y->IsNumber() && x->IsUndefined())) {
|
| + return NUMBER;
|
| + }
|
| + }
|
| + if (x->IsInternalizedString() && y->IsInternalizedString()) {
|
| + // We compare internalized strings as plain ones if we need to determine
|
| + // the order in a non-equality compare.
|
| + return Token::IsEqualityOp(op) ? INTERNALIZED_STRING : STRING;
|
| + }
|
| + if (x->IsString() && y->IsString()) return STRING;
|
| + if (!Token::IsEqualityOp(op)) return GENERIC;
|
| + if (x->IsUniqueName() && y->IsUniqueName()) return UNIQUE_NAME;
|
| + if (x->IsJSObject() && y->IsJSObject()) {
|
| + if (Handle<JSObject>::cast(x)->map() ==
|
| + Handle<JSObject>::cast(y)->map()) {
|
| + return KNOWN_OBJECT;
|
| + } else {
|
| + return OBJECT;
|
| + }
|
| + }
|
| + return GENERIC;
|
| + case SMI:
|
| + return x->IsNumber() && y->IsNumber() ? NUMBER : GENERIC;
|
| + case INTERNALIZED_STRING:
|
| + DCHECK(Token::IsEqualityOp(op));
|
| + if (x->IsString() && y->IsString()) return STRING;
|
| + if (x->IsUniqueName() && y->IsUniqueName()) return UNIQUE_NAME;
|
| + return GENERIC;
|
| + case NUMBER:
|
| + // If the failure was due to one side changing from smi to heap number,
|
| + // then keep the state (if other changed at the same time, we will get
|
| + // a second miss and then go to generic).
|
| + if (old_left == SMI && x->IsHeapNumber()) return NUMBER;
|
| + if (old_right == SMI && y->IsHeapNumber()) return NUMBER;
|
| + return GENERIC;
|
| + case KNOWN_OBJECT:
|
| + DCHECK(Token::IsEqualityOp(op));
|
| + if (x->IsJSObject() && y->IsJSObject()) {
|
| + return OBJECT;
|
| + }
|
| + return GENERIC;
|
| + case STRING:
|
| + case UNIQUE_NAME:
|
| + case OBJECT:
|
| + case GENERIC:
|
| + return GENERIC;
|
| + }
|
| + UNREACHABLE();
|
| + return GENERIC; // Make the compiler happy.
|
| +}
|
| +}
|
| +} // namespace v8::internal
|
|
|
Chromium Code Reviews
Issue 565873002:
Removing ic.h from code-stubs.h (Closed)
Base URL: https://v8.googlecode.com/svn/branches/bleeding_edge