2134c5c0ba
R=mvstanton@chromium.org Review URL: https://codereview.chromium.org/606083004 git-svn-id: https://v8.googlecode.com/svn/branches/bleeding_edge@24377 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
672 lines
21 KiB
C++
672 lines
21 KiB
C++
// Copyright 2012 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "src/lithium.h"
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#include "src/v8.h"
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#include "src/scopes.h"
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#include "src/serialize.h"
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#if V8_TARGET_ARCH_IA32
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#include "src/ia32/lithium-ia32.h" // NOLINT
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#include "src/ia32/lithium-codegen-ia32.h" // NOLINT
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#elif V8_TARGET_ARCH_X64
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#include "src/x64/lithium-x64.h" // NOLINT
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#include "src/x64/lithium-codegen-x64.h" // NOLINT
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#elif V8_TARGET_ARCH_ARM
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#include "src/arm/lithium-arm.h" // NOLINT
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#include "src/arm/lithium-codegen-arm.h" // NOLINT
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#elif V8_TARGET_ARCH_MIPS
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#include "src/mips/lithium-mips.h" // NOLINT
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#include "src/mips/lithium-codegen-mips.h" // NOLINT
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#elif V8_TARGET_ARCH_ARM64
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#include "src/arm64/lithium-arm64.h" // NOLINT
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#include "src/arm64/lithium-codegen-arm64.h" // NOLINT
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#elif V8_TARGET_ARCH_MIPS64
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#include "src/mips64/lithium-mips64.h" // NOLINT
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#include "src/mips64/lithium-codegen-mips64.h" // NOLINT
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#elif V8_TARGET_ARCH_X87
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#include "src/x87/lithium-x87.h" // NOLINT
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#include "src/x87/lithium-codegen-x87.h" // NOLINT
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#else
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#error "Unknown architecture."
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#endif
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namespace v8 {
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namespace internal {
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void LOperand::PrintTo(StringStream* stream) {
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LUnallocated* unalloc = NULL;
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switch (kind()) {
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case INVALID:
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stream->Add("(0)");
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break;
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case UNALLOCATED:
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unalloc = LUnallocated::cast(this);
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stream->Add("v%d", unalloc->virtual_register());
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if (unalloc->basic_policy() == LUnallocated::FIXED_SLOT) {
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stream->Add("(=%dS)", unalloc->fixed_slot_index());
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break;
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}
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switch (unalloc->extended_policy()) {
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case LUnallocated::NONE:
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break;
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case LUnallocated::FIXED_REGISTER: {
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int reg_index = unalloc->fixed_register_index();
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if (reg_index < 0 ||
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reg_index >= Register::kMaxNumAllocatableRegisters) {
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stream->Add("(=invalid_reg#%d)", reg_index);
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} else {
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const char* register_name =
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Register::AllocationIndexToString(reg_index);
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stream->Add("(=%s)", register_name);
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}
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break;
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}
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case LUnallocated::FIXED_DOUBLE_REGISTER: {
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int reg_index = unalloc->fixed_register_index();
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if (reg_index < 0 ||
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reg_index >= DoubleRegister::kMaxNumAllocatableRegisters) {
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stream->Add("(=invalid_double_reg#%d)", reg_index);
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} else {
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const char* double_register_name =
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DoubleRegister::AllocationIndexToString(reg_index);
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stream->Add("(=%s)", double_register_name);
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}
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break;
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}
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case LUnallocated::MUST_HAVE_REGISTER:
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stream->Add("(R)");
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break;
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case LUnallocated::MUST_HAVE_DOUBLE_REGISTER:
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stream->Add("(D)");
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break;
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case LUnallocated::WRITABLE_REGISTER:
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stream->Add("(WR)");
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break;
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case LUnallocated::SAME_AS_FIRST_INPUT:
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stream->Add("(1)");
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break;
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case LUnallocated::ANY:
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stream->Add("(-)");
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break;
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}
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break;
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case CONSTANT_OPERAND:
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stream->Add("[constant:%d]", index());
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break;
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case STACK_SLOT:
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stream->Add("[stack:%d]", index());
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break;
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case DOUBLE_STACK_SLOT:
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stream->Add("[double_stack:%d]", index());
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break;
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case REGISTER: {
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int reg_index = index();
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if (reg_index < 0 || reg_index >= Register::kMaxNumAllocatableRegisters) {
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stream->Add("(=invalid_reg#%d|R)", reg_index);
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} else {
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stream->Add("[%s|R]", Register::AllocationIndexToString(reg_index));
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}
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break;
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}
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case DOUBLE_REGISTER: {
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int reg_index = index();
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if (reg_index < 0 ||
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reg_index >= DoubleRegister::kMaxNumAllocatableRegisters) {
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stream->Add("(=invalid_double_reg#%d|R)", reg_index);
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} else {
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stream->Add("[%s|R]",
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DoubleRegister::AllocationIndexToString(reg_index));
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}
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break;
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}
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}
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}
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template<LOperand::Kind kOperandKind, int kNumCachedOperands>
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LSubKindOperand<kOperandKind, kNumCachedOperands>*
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LSubKindOperand<kOperandKind, kNumCachedOperands>::cache = NULL;
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template<LOperand::Kind kOperandKind, int kNumCachedOperands>
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void LSubKindOperand<kOperandKind, kNumCachedOperands>::SetUpCache() {
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if (cache) return;
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cache = new LSubKindOperand[kNumCachedOperands];
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for (int i = 0; i < kNumCachedOperands; i++) {
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cache[i].ConvertTo(kOperandKind, i);
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}
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}
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template<LOperand::Kind kOperandKind, int kNumCachedOperands>
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void LSubKindOperand<kOperandKind, kNumCachedOperands>::TearDownCache() {
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delete[] cache;
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cache = NULL;
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}
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void LOperand::SetUpCaches() {
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#define LITHIUM_OPERAND_SETUP(name, type, number) L##name::SetUpCache();
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LITHIUM_OPERAND_LIST(LITHIUM_OPERAND_SETUP)
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#undef LITHIUM_OPERAND_SETUP
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}
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void LOperand::TearDownCaches() {
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#define LITHIUM_OPERAND_TEARDOWN(name, type, number) L##name::TearDownCache();
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LITHIUM_OPERAND_LIST(LITHIUM_OPERAND_TEARDOWN)
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#undef LITHIUM_OPERAND_TEARDOWN
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}
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bool LParallelMove::IsRedundant() const {
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for (int i = 0; i < move_operands_.length(); ++i) {
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if (!move_operands_[i].IsRedundant()) return false;
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}
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return true;
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}
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void LParallelMove::PrintDataTo(StringStream* stream) const {
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bool first = true;
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for (int i = 0; i < move_operands_.length(); ++i) {
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if (!move_operands_[i].IsEliminated()) {
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LOperand* source = move_operands_[i].source();
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LOperand* destination = move_operands_[i].destination();
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if (!first) stream->Add(" ");
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first = false;
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if (source->Equals(destination)) {
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destination->PrintTo(stream);
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} else {
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destination->PrintTo(stream);
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stream->Add(" = ");
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source->PrintTo(stream);
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}
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stream->Add(";");
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}
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}
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}
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void LEnvironment::PrintTo(StringStream* stream) {
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stream->Add("[id=%d|", ast_id().ToInt());
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if (deoptimization_index() != Safepoint::kNoDeoptimizationIndex) {
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stream->Add("deopt_id=%d|", deoptimization_index());
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}
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stream->Add("parameters=%d|", parameter_count());
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stream->Add("arguments_stack_height=%d|", arguments_stack_height());
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for (int i = 0; i < values_.length(); ++i) {
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if (i != 0) stream->Add(";");
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if (values_[i] == NULL) {
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stream->Add("[hole]");
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} else {
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values_[i]->PrintTo(stream);
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}
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}
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stream->Add("]");
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}
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void LPointerMap::RecordPointer(LOperand* op, Zone* zone) {
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// Do not record arguments as pointers.
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if (op->IsStackSlot() && op->index() < 0) return;
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DCHECK(!op->IsDoubleRegister() && !op->IsDoubleStackSlot());
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pointer_operands_.Add(op, zone);
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}
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void LPointerMap::RemovePointer(LOperand* op) {
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// Do not record arguments as pointers.
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if (op->IsStackSlot() && op->index() < 0) return;
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DCHECK(!op->IsDoubleRegister() && !op->IsDoubleStackSlot());
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for (int i = 0; i < pointer_operands_.length(); ++i) {
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if (pointer_operands_[i]->Equals(op)) {
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pointer_operands_.Remove(i);
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--i;
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}
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}
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}
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void LPointerMap::RecordUntagged(LOperand* op, Zone* zone) {
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// Do not record arguments as pointers.
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if (op->IsStackSlot() && op->index() < 0) return;
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DCHECK(!op->IsDoubleRegister() && !op->IsDoubleStackSlot());
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untagged_operands_.Add(op, zone);
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}
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void LPointerMap::PrintTo(StringStream* stream) {
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stream->Add("{");
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for (int i = 0; i < pointer_operands_.length(); ++i) {
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if (i != 0) stream->Add(";");
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pointer_operands_[i]->PrintTo(stream);
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}
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stream->Add("}");
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}
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int StackSlotOffset(int index) {
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if (index >= 0) {
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// Local or spill slot. Skip the frame pointer, function, and
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// context in the fixed part of the frame.
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return -(index + 1) * kPointerSize -
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StandardFrameConstants::kFixedFrameSizeFromFp;
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} else {
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// Incoming parameter. Skip the return address.
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return -(index + 1) * kPointerSize + kFPOnStackSize + kPCOnStackSize;
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}
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}
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LChunk::LChunk(CompilationInfo* info, HGraph* graph)
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: spill_slot_count_(0),
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info_(info),
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graph_(graph),
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instructions_(32, info->zone()),
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pointer_maps_(8, info->zone()),
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inlined_closures_(1, info->zone()),
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deprecation_dependencies_(MapLess(), MapAllocator(info->zone())),
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stability_dependencies_(MapLess(), MapAllocator(info->zone())) {}
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LLabel* LChunk::GetLabel(int block_id) const {
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HBasicBlock* block = graph_->blocks()->at(block_id);
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int first_instruction = block->first_instruction_index();
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return LLabel::cast(instructions_[first_instruction]);
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}
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int LChunk::LookupDestination(int block_id) const {
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LLabel* cur = GetLabel(block_id);
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while (cur->replacement() != NULL) {
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cur = cur->replacement();
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}
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return cur->block_id();
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}
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Label* LChunk::GetAssemblyLabel(int block_id) const {
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LLabel* label = GetLabel(block_id);
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DCHECK(!label->HasReplacement());
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return label->label();
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}
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void LChunk::MarkEmptyBlocks() {
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LPhase phase("L_Mark empty blocks", this);
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for (int i = 0; i < graph()->blocks()->length(); ++i) {
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HBasicBlock* block = graph()->blocks()->at(i);
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int first = block->first_instruction_index();
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int last = block->last_instruction_index();
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LInstruction* first_instr = instructions()->at(first);
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LInstruction* last_instr = instructions()->at(last);
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LLabel* label = LLabel::cast(first_instr);
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if (last_instr->IsGoto()) {
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LGoto* goto_instr = LGoto::cast(last_instr);
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if (label->IsRedundant() &&
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!label->is_loop_header()) {
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bool can_eliminate = true;
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for (int i = first + 1; i < last && can_eliminate; ++i) {
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LInstruction* cur = instructions()->at(i);
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if (cur->IsGap()) {
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LGap* gap = LGap::cast(cur);
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if (!gap->IsRedundant()) {
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can_eliminate = false;
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}
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} else {
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can_eliminate = false;
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}
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}
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if (can_eliminate) {
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label->set_replacement(GetLabel(goto_instr->block_id()));
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}
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}
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}
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}
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}
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void LChunk::AddInstruction(LInstruction* instr, HBasicBlock* block) {
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LInstructionGap* gap = new (zone()) LInstructionGap(block);
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gap->set_hydrogen_value(instr->hydrogen_value());
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int index = -1;
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if (instr->IsControl()) {
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instructions_.Add(gap, zone());
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index = instructions_.length();
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instructions_.Add(instr, zone());
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} else {
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index = instructions_.length();
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instructions_.Add(instr, zone());
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instructions_.Add(gap, zone());
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}
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if (instr->HasPointerMap()) {
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pointer_maps_.Add(instr->pointer_map(), zone());
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instr->pointer_map()->set_lithium_position(index);
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}
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}
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LConstantOperand* LChunk::DefineConstantOperand(HConstant* constant) {
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return LConstantOperand::Create(constant->id(), zone());
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}
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int LChunk::GetParameterStackSlot(int index) const {
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// The receiver is at index 0, the first parameter at index 1, so we
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// shift all parameter indexes down by the number of parameters, and
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// make sure they end up negative so they are distinguishable from
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// spill slots.
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int result = index - info()->num_parameters() - 1;
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DCHECK(result < 0);
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return result;
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}
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// A parameter relative to ebp in the arguments stub.
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int LChunk::ParameterAt(int index) {
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DCHECK(-1 <= index); // -1 is the receiver.
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return (1 + info()->scope()->num_parameters() - index) *
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kPointerSize;
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}
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LGap* LChunk::GetGapAt(int index) const {
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return LGap::cast(instructions_[index]);
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}
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bool LChunk::IsGapAt(int index) const {
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return instructions_[index]->IsGap();
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}
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int LChunk::NearestGapPos(int index) const {
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while (!IsGapAt(index)) index--;
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return index;
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}
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void LChunk::AddGapMove(int index, LOperand* from, LOperand* to) {
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GetGapAt(index)->GetOrCreateParallelMove(
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LGap::START, zone())->AddMove(from, to, zone());
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}
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HConstant* LChunk::LookupConstant(LConstantOperand* operand) const {
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return HConstant::cast(graph_->LookupValue(operand->index()));
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}
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Representation LChunk::LookupLiteralRepresentation(
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LConstantOperand* operand) const {
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return graph_->LookupValue(operand->index())->representation();
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}
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void LChunk::CommitDependencies(Handle<Code> code) const {
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for (MapSet::const_iterator it = deprecation_dependencies_.begin(),
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iend = deprecation_dependencies_.end(); it != iend; ++it) {
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Handle<Map> map = *it;
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DCHECK(!map->is_deprecated());
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DCHECK(map->CanBeDeprecated());
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Map::AddDependentCode(map, DependentCode::kTransitionGroup, code);
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}
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for (MapSet::const_iterator it = stability_dependencies_.begin(),
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iend = stability_dependencies_.end(); it != iend; ++it) {
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Handle<Map> map = *it;
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DCHECK(map->is_stable());
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DCHECK(map->CanTransition());
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Map::AddDependentCode(map, DependentCode::kPrototypeCheckGroup, code);
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}
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info_->CommitDependencies(code);
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}
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LChunk* LChunk::NewChunk(HGraph* graph) {
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DisallowHandleAllocation no_handles;
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DisallowHeapAllocation no_gc;
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graph->DisallowAddingNewValues();
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int values = graph->GetMaximumValueID();
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CompilationInfo* info = graph->info();
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if (values > LUnallocated::kMaxVirtualRegisters) {
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info->AbortOptimization(kNotEnoughVirtualRegistersForValues);
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return NULL;
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}
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LAllocator allocator(values, graph);
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LChunkBuilder builder(info, graph, &allocator);
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LChunk* chunk = builder.Build();
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if (chunk == NULL) return NULL;
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if (!allocator.Allocate(chunk)) {
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info->AbortOptimization(kNotEnoughVirtualRegistersRegalloc);
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return NULL;
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}
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chunk->set_allocated_double_registers(
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allocator.assigned_double_registers());
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return chunk;
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}
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Handle<Code> LChunk::Codegen() {
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MacroAssembler assembler(info()->isolate(), NULL, 0);
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LOG_CODE_EVENT(info()->isolate(),
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CodeStartLinePosInfoRecordEvent(
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assembler.positions_recorder()));
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// Code serializer only takes unoptimized code.
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DCHECK(!info()->will_serialize());
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LCodeGen generator(this, &assembler, info());
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MarkEmptyBlocks();
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if (generator.GenerateCode()) {
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generator.CheckEnvironmentUsage();
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CodeGenerator::MakeCodePrologue(info(), "optimized");
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Code::Flags flags = info()->flags();
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Handle<Code> code =
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CodeGenerator::MakeCodeEpilogue(&assembler, flags, info());
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generator.FinishCode(code);
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CommitDependencies(code);
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code->set_is_crankshafted(true);
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void* jit_handler_data =
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assembler.positions_recorder()->DetachJITHandlerData();
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LOG_CODE_EVENT(info()->isolate(),
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CodeEndLinePosInfoRecordEvent(*code, jit_handler_data));
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CodeGenerator::PrintCode(code, info());
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DCHECK(!(info()->isolate()->serializer_enabled() &&
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info()->GetMustNotHaveEagerFrame() &&
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generator.NeedsEagerFrame()));
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return code;
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}
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assembler.AbortedCodeGeneration();
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return Handle<Code>::null();
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}
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void LChunk::set_allocated_double_registers(BitVector* allocated_registers) {
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allocated_double_registers_ = allocated_registers;
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BitVector* doubles = allocated_double_registers();
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BitVector::Iterator iterator(doubles);
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while (!iterator.Done()) {
|
|
if (info()->saves_caller_doubles()) {
|
|
if (kDoubleSize == kPointerSize * 2) {
|
|
spill_slot_count_ += 2;
|
|
} else {
|
|
spill_slot_count_++;
|
|
}
|
|
}
|
|
iterator.Advance();
|
|
}
|
|
}
|
|
|
|
|
|
void LChunkBuilderBase::Abort(BailoutReason reason) {
|
|
info()->AbortOptimization(reason);
|
|
status_ = ABORTED;
|
|
}
|
|
|
|
|
|
void LChunkBuilderBase::Retry(BailoutReason reason) {
|
|
info()->RetryOptimization(reason);
|
|
status_ = ABORTED;
|
|
}
|
|
|
|
|
|
LEnvironment* LChunkBuilderBase::CreateEnvironment(
|
|
HEnvironment* hydrogen_env, int* argument_index_accumulator,
|
|
ZoneList<HValue*>* objects_to_materialize) {
|
|
if (hydrogen_env == NULL) return NULL;
|
|
|
|
LEnvironment* outer =
|
|
CreateEnvironment(hydrogen_env->outer(), argument_index_accumulator,
|
|
objects_to_materialize);
|
|
BailoutId ast_id = hydrogen_env->ast_id();
|
|
DCHECK(!ast_id.IsNone() ||
|
|
hydrogen_env->frame_type() != JS_FUNCTION);
|
|
|
|
int omitted_count = (hydrogen_env->frame_type() == JS_FUNCTION)
|
|
? 0
|
|
: hydrogen_env->specials_count();
|
|
|
|
int value_count = hydrogen_env->length() - omitted_count;
|
|
LEnvironment* result =
|
|
new(zone()) LEnvironment(hydrogen_env->closure(),
|
|
hydrogen_env->frame_type(),
|
|
ast_id,
|
|
hydrogen_env->parameter_count(),
|
|
argument_count_,
|
|
value_count,
|
|
outer,
|
|
hydrogen_env->entry(),
|
|
zone());
|
|
int argument_index = *argument_index_accumulator;
|
|
|
|
// Store the environment description into the environment
|
|
// (with holes for nested objects)
|
|
for (int i = 0; i < hydrogen_env->length(); ++i) {
|
|
if (hydrogen_env->is_special_index(i) &&
|
|
hydrogen_env->frame_type() != JS_FUNCTION) {
|
|
continue;
|
|
}
|
|
LOperand* op;
|
|
HValue* value = hydrogen_env->values()->at(i);
|
|
CHECK(!value->IsPushArguments()); // Do not deopt outgoing arguments
|
|
if (value->IsArgumentsObject() || value->IsCapturedObject()) {
|
|
op = LEnvironment::materialization_marker();
|
|
} else {
|
|
op = UseAny(value);
|
|
}
|
|
result->AddValue(op,
|
|
value->representation(),
|
|
value->CheckFlag(HInstruction::kUint32));
|
|
}
|
|
|
|
// Recursively store the nested objects into the environment
|
|
for (int i = 0; i < hydrogen_env->length(); ++i) {
|
|
if (hydrogen_env->is_special_index(i)) continue;
|
|
|
|
HValue* value = hydrogen_env->values()->at(i);
|
|
if (value->IsArgumentsObject() || value->IsCapturedObject()) {
|
|
AddObjectToMaterialize(value, objects_to_materialize, result);
|
|
}
|
|
}
|
|
|
|
if (hydrogen_env->frame_type() == JS_FUNCTION) {
|
|
*argument_index_accumulator = argument_index;
|
|
}
|
|
|
|
return result;
|
|
}
|
|
|
|
|
|
// Add an object to the supplied environment and object materialization list.
|
|
//
|
|
// Notes:
|
|
//
|
|
// We are building three lists here:
|
|
//
|
|
// 1. In the result->object_mapping_ list (added to by the
|
|
// LEnvironment::Add*Object methods), we store the lengths (number
|
|
// of fields) of the captured objects in depth-first traversal order, or
|
|
// in case of duplicated objects, we store the index to the duplicate object
|
|
// (with a tag to differentiate between captured and duplicated objects).
|
|
//
|
|
// 2. The object fields are stored in the result->values_ list
|
|
// (added to by the LEnvironment.AddValue method) sequentially as lists
|
|
// of fields with holes for nested objects (the holes will be expanded
|
|
// later by LCodegen::AddToTranslation according to the
|
|
// LEnvironment.object_mapping_ list).
|
|
//
|
|
// 3. The auxiliary objects_to_materialize array stores the hydrogen values
|
|
// in the same order as result->object_mapping_ list. This is used
|
|
// to detect duplicate values and calculate the corresponding object index.
|
|
void LChunkBuilderBase::AddObjectToMaterialize(HValue* value,
|
|
ZoneList<HValue*>* objects_to_materialize, LEnvironment* result) {
|
|
int object_index = objects_to_materialize->length();
|
|
// Store the hydrogen value into the de-duplication array
|
|
objects_to_materialize->Add(value, zone());
|
|
// Find out whether we are storing a duplicated value
|
|
int previously_materialized_object = -1;
|
|
for (int prev = 0; prev < object_index; ++prev) {
|
|
if (objects_to_materialize->at(prev) == value) {
|
|
previously_materialized_object = prev;
|
|
break;
|
|
}
|
|
}
|
|
// Store the captured object length (or duplicated object index)
|
|
// into the environment. For duplicated objects, we stop here.
|
|
int length = value->OperandCount();
|
|
bool is_arguments = value->IsArgumentsObject();
|
|
if (previously_materialized_object >= 0) {
|
|
result->AddDuplicateObject(previously_materialized_object);
|
|
return;
|
|
} else {
|
|
result->AddNewObject(is_arguments ? length - 1 : length, is_arguments);
|
|
}
|
|
// Store the captured object's fields into the environment
|
|
for (int i = is_arguments ? 1 : 0; i < length; ++i) {
|
|
LOperand* op;
|
|
HValue* arg_value = value->OperandAt(i);
|
|
if (arg_value->IsArgumentsObject() || arg_value->IsCapturedObject()) {
|
|
// Insert a hole for nested objects
|
|
op = LEnvironment::materialization_marker();
|
|
} else {
|
|
DCHECK(!arg_value->IsPushArguments());
|
|
// For ordinary values, tell the register allocator we need the value
|
|
// to be alive here
|
|
op = UseAny(arg_value);
|
|
}
|
|
result->AddValue(op,
|
|
arg_value->representation(),
|
|
arg_value->CheckFlag(HInstruction::kUint32));
|
|
}
|
|
// Recursively store all the nested captured objects into the environment
|
|
for (int i = is_arguments ? 1 : 0; i < length; ++i) {
|
|
HValue* arg_value = value->OperandAt(i);
|
|
if (arg_value->IsArgumentsObject() || arg_value->IsCapturedObject()) {
|
|
AddObjectToMaterialize(arg_value, objects_to_materialize, result);
|
|
}
|
|
}
|
|
}
|
|
|
|
|
|
LPhase::~LPhase() {
|
|
if (ShouldProduceTraceOutput()) {
|
|
isolate()->GetHTracer()->TraceLithium(name(), chunk_);
|
|
}
|
|
}
|
|
|
|
|
|
} } // namespace v8::internal
|