7a4f8e4d83
This is some initial cleanup to keep /src clean. The AccountingAllocator is actually exclusively used by zones and this common subfolder makes that more clear. BUG=v8:5409 Review-Url: https://codereview.chromium.org/2344143003 Cr-Commit-Position: refs/heads/master@{#39558}
770 lines
16 KiB
C++
770 lines
16 KiB
C++
// Copyright 2014 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/compiler/instruction.h"
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#include "src/compiler/instruction-codes.h"
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#include "src/compiler/jump-threading.h"
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#include "test/cctest/cctest.h"
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namespace v8 {
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namespace internal {
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namespace compiler {
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class TestCode : public HandleAndZoneScope {
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public:
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TestCode()
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: HandleAndZoneScope(),
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blocks_(main_zone()),
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sequence_(main_isolate(), main_zone(), &blocks_),
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rpo_number_(RpoNumber::FromInt(0)),
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current_(NULL) {}
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ZoneVector<InstructionBlock*> blocks_;
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InstructionSequence sequence_;
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RpoNumber rpo_number_;
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InstructionBlock* current_;
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int Jump(int target) {
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Start();
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InstructionOperand ops[] = {UseRpo(target)};
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sequence_.AddInstruction(
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Instruction::New(main_zone(), kArchJmp, 0, NULL, 1, ops, 0, NULL));
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int pos = static_cast<int>(sequence_.instructions().size() - 1);
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End();
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return pos;
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}
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void Fallthru() {
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Start();
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End();
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}
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int Branch(int ttarget, int ftarget) {
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Start();
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InstructionOperand ops[] = {UseRpo(ttarget), UseRpo(ftarget)};
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InstructionCode code = 119 | FlagsModeField::encode(kFlags_branch) |
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FlagsConditionField::encode(kEqual);
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sequence_.AddInstruction(
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Instruction::New(main_zone(), code, 0, NULL, 2, ops, 0, NULL));
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int pos = static_cast<int>(sequence_.instructions().size() - 1);
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End();
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return pos;
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}
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void Nop() {
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Start();
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sequence_.AddInstruction(Instruction::New(main_zone(), kArchNop));
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}
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void RedundantMoves() {
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Start();
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sequence_.AddInstruction(Instruction::New(main_zone(), kArchNop));
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int index = static_cast<int>(sequence_.instructions().size()) - 1;
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AddGapMove(index, AllocatedOperand(LocationOperand::REGISTER,
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MachineRepresentation::kWord32, 13),
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AllocatedOperand(LocationOperand::REGISTER,
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MachineRepresentation::kWord32, 13));
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}
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void NonRedundantMoves() {
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Start();
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sequence_.AddInstruction(Instruction::New(main_zone(), kArchNop));
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int index = static_cast<int>(sequence_.instructions().size()) - 1;
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AddGapMove(index, ConstantOperand(11),
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AllocatedOperand(LocationOperand::REGISTER,
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MachineRepresentation::kWord32, 11));
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}
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void Other() {
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Start();
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sequence_.AddInstruction(Instruction::New(main_zone(), 155));
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}
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void End() {
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Start();
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sequence_.EndBlock(current_->rpo_number());
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current_ = NULL;
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rpo_number_ = RpoNumber::FromInt(rpo_number_.ToInt() + 1);
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}
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InstructionOperand UseRpo(int num) {
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return sequence_.AddImmediate(Constant(RpoNumber::FromInt(num)));
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}
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void Start(bool deferred = false) {
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if (current_ == NULL) {
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current_ = new (main_zone())
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InstructionBlock(main_zone(), rpo_number_, RpoNumber::Invalid(),
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RpoNumber::Invalid(), deferred, false);
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blocks_.push_back(current_);
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sequence_.StartBlock(rpo_number_);
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}
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}
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void Defer() {
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CHECK(current_ == NULL);
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Start(true);
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}
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void AddGapMove(int index, const InstructionOperand& from,
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const InstructionOperand& to) {
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sequence_.InstructionAt(index)
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->GetOrCreateParallelMove(Instruction::START, main_zone())
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->AddMove(from, to);
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}
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};
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void VerifyForwarding(TestCode& code, int count, int* expected) {
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v8::internal::AccountingAllocator allocator;
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Zone local_zone(&allocator);
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ZoneVector<RpoNumber> result(&local_zone);
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JumpThreading::ComputeForwarding(&local_zone, result, &code.sequence_, true);
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CHECK(count == static_cast<int>(result.size()));
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for (int i = 0; i < count; i++) {
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CHECK(expected[i] == result[i].ToInt());
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}
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}
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TEST(FwEmpty1) {
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TestCode code;
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// B0
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code.Jump(1);
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// B1
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code.Jump(2);
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// B2
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code.End();
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static int expected[] = {2, 2, 2};
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VerifyForwarding(code, 3, expected);
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}
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TEST(FwEmptyN) {
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for (int i = 0; i < 9; i++) {
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TestCode code;
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// B0
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code.Jump(1);
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// B1
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for (int j = 0; j < i; j++) code.Nop();
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code.Jump(2);
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// B2
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code.End();
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static int expected[] = {2, 2, 2};
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VerifyForwarding(code, 3, expected);
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}
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}
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TEST(FwNone1) {
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TestCode code;
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// B0
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code.End();
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static int expected[] = {0};
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VerifyForwarding(code, 1, expected);
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}
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TEST(FwMoves1) {
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TestCode code;
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// B0
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code.RedundantMoves();
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code.End();
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static int expected[] = {0};
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VerifyForwarding(code, 1, expected);
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}
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TEST(FwMoves2) {
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TestCode code;
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// B0
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code.RedundantMoves();
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code.Fallthru();
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// B1
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code.End();
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static int expected[] = {1, 1};
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VerifyForwarding(code, 2, expected);
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}
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TEST(FwMoves2b) {
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TestCode code;
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// B0
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code.NonRedundantMoves();
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code.Fallthru();
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// B1
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code.End();
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static int expected[] = {0, 1};
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VerifyForwarding(code, 2, expected);
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}
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TEST(FwOther2) {
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TestCode code;
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// B0
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code.Other();
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code.Fallthru();
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// B1
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code.End();
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static int expected[] = {0, 1};
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VerifyForwarding(code, 2, expected);
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}
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TEST(FwNone2a) {
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TestCode code;
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// B0
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code.Fallthru();
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// B1
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code.End();
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static int expected[] = {1, 1};
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VerifyForwarding(code, 2, expected);
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}
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TEST(FwNone2b) {
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TestCode code;
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// B0
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code.Jump(1);
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// B1
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code.End();
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static int expected[] = {1, 1};
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VerifyForwarding(code, 2, expected);
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}
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TEST(FwLoop1) {
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TestCode code;
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// B0
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code.Jump(0);
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static int expected[] = {0};
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VerifyForwarding(code, 1, expected);
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}
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TEST(FwLoop2) {
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TestCode code;
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// B0
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code.Fallthru();
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// B1
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code.Jump(0);
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static int expected[] = {0, 0};
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VerifyForwarding(code, 2, expected);
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}
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TEST(FwLoop3) {
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TestCode code;
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// B0
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code.Fallthru();
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// B1
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code.Fallthru();
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// B2
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code.Jump(0);
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static int expected[] = {0, 0, 0};
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VerifyForwarding(code, 3, expected);
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}
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TEST(FwLoop1b) {
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TestCode code;
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// B0
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code.Fallthru();
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// B1
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code.Jump(1);
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static int expected[] = {1, 1};
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VerifyForwarding(code, 2, expected);
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}
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TEST(FwLoop2b) {
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TestCode code;
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// B0
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code.Fallthru();
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// B1
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code.Fallthru();
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// B2
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code.Jump(1);
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static int expected[] = {1, 1, 1};
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VerifyForwarding(code, 3, expected);
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}
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TEST(FwLoop3b) {
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TestCode code;
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// B0
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code.Fallthru();
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// B1
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code.Fallthru();
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// B2
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code.Fallthru();
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// B3
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code.Jump(1);
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static int expected[] = {1, 1, 1, 1};
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VerifyForwarding(code, 4, expected);
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}
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TEST(FwLoop2_1a) {
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TestCode code;
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// B0
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code.Fallthru();
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// B1
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code.Fallthru();
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// B2
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code.Fallthru();
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// B3
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code.Jump(1);
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// B4
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code.Jump(2);
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static int expected[] = {1, 1, 1, 1, 1};
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VerifyForwarding(code, 5, expected);
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}
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TEST(FwLoop2_1b) {
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TestCode code;
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// B0
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code.Fallthru();
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// B1
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code.Fallthru();
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// B2
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code.Jump(4);
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// B3
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code.Jump(1);
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// B4
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code.Jump(2);
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static int expected[] = {2, 2, 2, 2, 2};
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VerifyForwarding(code, 5, expected);
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}
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TEST(FwLoop2_1c) {
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TestCode code;
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// B0
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code.Fallthru();
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// B1
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code.Fallthru();
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// B2
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code.Jump(4);
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// B3
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code.Jump(2);
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// B4
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code.Jump(1);
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static int expected[] = {1, 1, 1, 1, 1};
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VerifyForwarding(code, 5, expected);
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}
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TEST(FwLoop2_1d) {
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TestCode code;
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// B0
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code.Fallthru();
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// B1
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code.Fallthru();
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// B2
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code.Jump(1);
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// B3
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code.Jump(1);
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// B4
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code.Jump(1);
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static int expected[] = {1, 1, 1, 1, 1};
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VerifyForwarding(code, 5, expected);
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}
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TEST(FwLoop3_1a) {
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TestCode code;
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// B0
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code.Fallthru();
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// B1
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code.Fallthru();
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// B2
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code.Fallthru();
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// B3
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code.Jump(2);
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// B4
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code.Jump(1);
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// B5
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code.Jump(0);
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static int expected[] = {2, 2, 2, 2, 2, 2};
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VerifyForwarding(code, 6, expected);
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}
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TEST(FwDiamonds) {
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for (int i = 0; i < 2; i++) {
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for (int j = 0; j < 2; j++) {
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TestCode code;
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// B0
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code.Branch(1, 2);
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// B1
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if (i) code.Other();
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code.Jump(3);
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// B2
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if (j) code.Other();
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code.Jump(3);
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// B3
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code.End();
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int expected[] = {0, i ? 1 : 3, j ? 2 : 3, 3};
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VerifyForwarding(code, 4, expected);
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}
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}
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}
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TEST(FwDiamonds2) {
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for (int i = 0; i < 2; i++) {
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for (int j = 0; j < 2; j++) {
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for (int k = 0; k < 2; k++) {
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TestCode code;
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// B0
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code.Branch(1, 2);
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// B1
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if (i) code.Other();
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code.Jump(3);
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// B2
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if (j) code.Other();
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code.Jump(3);
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// B3
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if (k) code.NonRedundantMoves();
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code.Jump(4);
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// B4
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code.End();
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int merge = k ? 3 : 4;
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int expected[] = {0, i ? 1 : merge, j ? 2 : merge, merge, 4};
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VerifyForwarding(code, 5, expected);
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}
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}
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}
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}
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TEST(FwDoubleDiamonds) {
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for (int i = 0; i < 2; i++) {
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for (int j = 0; j < 2; j++) {
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for (int x = 0; x < 2; x++) {
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for (int y = 0; y < 2; y++) {
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TestCode code;
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// B0
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code.Branch(1, 2);
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// B1
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if (i) code.Other();
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code.Jump(3);
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// B2
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if (j) code.Other();
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code.Jump(3);
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// B3
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code.Branch(4, 5);
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// B4
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if (x) code.Other();
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code.Jump(6);
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// B5
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if (y) code.Other();
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code.Jump(6);
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// B6
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code.End();
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int expected[] = {0, i ? 1 : 3, j ? 2 : 3, 3,
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x ? 4 : 6, y ? 5 : 6, 6};
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VerifyForwarding(code, 7, expected);
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}
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}
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}
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}
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}
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template <int kSize>
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void RunPermutationsRecursive(int outer[kSize], int start,
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void (*run)(int*, int)) {
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int permutation[kSize];
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for (int i = 0; i < kSize; i++) permutation[i] = outer[i];
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int count = kSize - start;
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if (count == 0) return run(permutation, kSize);
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for (int i = start; i < kSize; i++) {
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permutation[start] = outer[i];
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permutation[i] = outer[start];
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RunPermutationsRecursive<kSize>(permutation, start + 1, run);
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permutation[i] = outer[i];
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permutation[start] = outer[start];
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}
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}
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template <int kSize>
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void RunAllPermutations(void (*run)(int*, int)) {
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int permutation[kSize];
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for (int i = 0; i < kSize; i++) permutation[i] = i;
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RunPermutationsRecursive<kSize>(permutation, 0, run);
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}
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void PrintPermutation(int* permutation, int size) {
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printf("{ ");
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for (int i = 0; i < size; i++) {
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if (i > 0) printf(", ");
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printf("%d", permutation[i]);
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}
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printf(" }\n");
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}
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int find(int x, int* permutation, int size) {
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for (int i = 0; i < size; i++) {
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if (permutation[i] == x) return i;
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}
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return size;
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}
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void RunPermutedChain(int* permutation, int size) {
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TestCode code;
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int cur = -1;
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for (int i = 0; i < size; i++) {
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code.Jump(find(cur + 1, permutation, size) + 1);
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cur = permutation[i];
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}
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code.Jump(find(cur + 1, permutation, size) + 1);
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code.End();
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int expected[] = {size + 1, size + 1, size + 1, size + 1,
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size + 1, size + 1, size + 1};
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VerifyForwarding(code, size + 2, expected);
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}
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TEST(FwPermuted_chain) {
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RunAllPermutations<3>(RunPermutedChain);
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RunAllPermutations<4>(RunPermutedChain);
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RunAllPermutations<5>(RunPermutedChain);
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}
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void RunPermutedDiamond(int* permutation, int size) {
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TestCode code;
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int br = 1 + find(0, permutation, size);
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code.Jump(br);
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for (int i = 0; i < size; i++) {
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switch (permutation[i]) {
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case 0:
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code.Branch(1 + find(1, permutation, size),
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1 + find(2, permutation, size));
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break;
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case 1:
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code.Jump(1 + find(3, permutation, size));
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break;
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case 2:
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code.Jump(1 + find(3, permutation, size));
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break;
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case 3:
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code.Jump(5);
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break;
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}
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|
}
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|
code.End();
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|
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int expected[] = {br, 5, 5, 5, 5, 5};
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expected[br] = br;
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VerifyForwarding(code, 6, expected);
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}
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|
|
|
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TEST(FwPermuted_diamond) { RunAllPermutations<4>(RunPermutedDiamond); }
|
|
|
|
|
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void ApplyForwarding(TestCode& code, int size, int* forward) {
|
|
ZoneVector<RpoNumber> vector(code.main_zone());
|
|
for (int i = 0; i < size; i++) {
|
|
vector.push_back(RpoNumber::FromInt(forward[i]));
|
|
}
|
|
JumpThreading::ApplyForwarding(vector, &code.sequence_);
|
|
}
|
|
|
|
|
|
void CheckJump(TestCode& code, int pos, int target) {
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|
Instruction* instr = code.sequence_.InstructionAt(pos);
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|
CHECK_EQ(kArchJmp, instr->arch_opcode());
|
|
CHECK_EQ(1, static_cast<int>(instr->InputCount()));
|
|
CHECK_EQ(0, static_cast<int>(instr->OutputCount()));
|
|
CHECK_EQ(0, static_cast<int>(instr->TempCount()));
|
|
CHECK_EQ(target, code.sequence_.InputRpo(instr, 0).ToInt());
|
|
}
|
|
|
|
|
|
void CheckNop(TestCode& code, int pos) {
|
|
Instruction* instr = code.sequence_.InstructionAt(pos);
|
|
CHECK_EQ(kArchNop, instr->arch_opcode());
|
|
CHECK_EQ(0, static_cast<int>(instr->InputCount()));
|
|
CHECK_EQ(0, static_cast<int>(instr->OutputCount()));
|
|
CHECK_EQ(0, static_cast<int>(instr->TempCount()));
|
|
}
|
|
|
|
|
|
void CheckBranch(TestCode& code, int pos, int t1, int t2) {
|
|
Instruction* instr = code.sequence_.InstructionAt(pos);
|
|
CHECK_EQ(2, static_cast<int>(instr->InputCount()));
|
|
CHECK_EQ(0, static_cast<int>(instr->OutputCount()));
|
|
CHECK_EQ(0, static_cast<int>(instr->TempCount()));
|
|
CHECK_EQ(t1, code.sequence_.InputRpo(instr, 0).ToInt());
|
|
CHECK_EQ(t2, code.sequence_.InputRpo(instr, 1).ToInt());
|
|
}
|
|
|
|
|
|
void CheckAssemblyOrder(TestCode& code, int size, int* expected) {
|
|
int i = 0;
|
|
for (auto const block : code.sequence_.instruction_blocks()) {
|
|
CHECK_EQ(expected[i++], block->ao_number().ToInt());
|
|
}
|
|
}
|
|
|
|
|
|
TEST(Rewire1) {
|
|
TestCode code;
|
|
|
|
// B0
|
|
int j1 = code.Jump(1);
|
|
// B1
|
|
int j2 = code.Jump(2);
|
|
// B2
|
|
code.End();
|
|
|
|
static int forward[] = {2, 2, 2};
|
|
ApplyForwarding(code, 3, forward);
|
|
CheckJump(code, j1, 2);
|
|
CheckNop(code, j2);
|
|
|
|
static int assembly[] = {0, 1, 1};
|
|
CheckAssemblyOrder(code, 3, assembly);
|
|
}
|
|
|
|
|
|
TEST(Rewire1_deferred) {
|
|
TestCode code;
|
|
|
|
// B0
|
|
int j1 = code.Jump(1);
|
|
// B1
|
|
int j2 = code.Jump(2);
|
|
// B2
|
|
code.Defer();
|
|
int j3 = code.Jump(3);
|
|
// B3
|
|
code.End();
|
|
|
|
static int forward[] = {3, 3, 3, 3};
|
|
ApplyForwarding(code, 4, forward);
|
|
CheckJump(code, j1, 3);
|
|
CheckNop(code, j2);
|
|
CheckNop(code, j3);
|
|
|
|
static int assembly[] = {0, 1, 2, 1};
|
|
CheckAssemblyOrder(code, 4, assembly);
|
|
}
|
|
|
|
|
|
TEST(Rewire2_deferred) {
|
|
TestCode code;
|
|
|
|
// B0
|
|
code.Other();
|
|
int j1 = code.Jump(1);
|
|
// B1
|
|
code.Defer();
|
|
code.Fallthru();
|
|
// B2
|
|
code.Defer();
|
|
int j2 = code.Jump(3);
|
|
// B3
|
|
code.End();
|
|
|
|
static int forward[] = {0, 1, 2, 3};
|
|
ApplyForwarding(code, 4, forward);
|
|
CheckJump(code, j1, 1);
|
|
CheckJump(code, j2, 3);
|
|
|
|
static int assembly[] = {0, 2, 3, 1};
|
|
CheckAssemblyOrder(code, 4, assembly);
|
|
}
|
|
|
|
|
|
TEST(Rewire_diamond) {
|
|
for (int i = 0; i < 2; i++) {
|
|
for (int j = 0; j < 2; j++) {
|
|
TestCode code;
|
|
// B0
|
|
int j1 = code.Jump(1);
|
|
// B1
|
|
int b1 = code.Branch(2, 3);
|
|
// B2
|
|
int j2 = code.Jump(4);
|
|
// B3
|
|
int j3 = code.Jump(4);
|
|
// B5
|
|
code.End();
|
|
|
|
int forward[] = {0, 1, i ? 4 : 2, j ? 4 : 3, 4};
|
|
ApplyForwarding(code, 5, forward);
|
|
CheckJump(code, j1, 1);
|
|
CheckBranch(code, b1, i ? 4 : 2, j ? 4 : 3);
|
|
if (i) {
|
|
CheckNop(code, j2);
|
|
} else {
|
|
CheckJump(code, j2, 4);
|
|
}
|
|
if (j) {
|
|
CheckNop(code, j3);
|
|
} else {
|
|
CheckJump(code, j3, 4);
|
|
}
|
|
|
|
int assembly[] = {0, 1, 2, 3, 4};
|
|
if (i) {
|
|
for (int k = 3; k < 5; k++) assembly[k]--;
|
|
}
|
|
if (j) {
|
|
for (int k = 4; k < 5; k++) assembly[k]--;
|
|
}
|
|
CheckAssemblyOrder(code, 5, assembly);
|
|
}
|
|
}
|
|
}
|
|
|
|
} // namespace compiler
|
|
} // namespace internal
|
|
} // namespace v8
|