2f839277dc
... that controls whether the TF graph zones should support compression. Bug: v8:9923 Change-Id: Ifbe237b75e9c92e62eb32b69d6b3b1a818269b83 Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/2308347 Commit-Queue: Igor Sheludko <ishell@chromium.org> Reviewed-by: Tobias Tebbi <tebbi@chromium.org> Reviewed-by: Ross McIlroy <rmcilroy@chromium.org> Cr-Commit-Position: refs/heads/master@{#69036}
336 lines
9.8 KiB
C++
336 lines
9.8 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/backend/code-generator.h"
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#include "src/compiler/backend/instruction.h"
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#include "src/compiler/common-operator.h"
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#include "src/compiler/graph.h"
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#include "src/compiler/linkage.h"
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#include "src/compiler/machine-operator.h"
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#include "src/compiler/node.h"
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#include "src/compiler/operator.h"
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#include "src/compiler/schedule.h"
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#include "src/compiler/scheduler.h"
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#include "src/objects/objects-inl.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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using TestInstr = v8::internal::compiler::Instruction;
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using TestInstrSeq = v8::internal::compiler::InstructionSequence;
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// A testing helper for the register code abstraction.
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class InstructionTester : public HandleAndZoneScope {
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public: // We're all friends here.
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InstructionTester()
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: HandleAndZoneScope(kCompressGraphZone),
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graph(zone()),
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schedule(zone()),
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common(zone()),
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machine(zone()),
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code(nullptr) {}
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Graph graph;
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Schedule schedule;
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CommonOperatorBuilder common;
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MachineOperatorBuilder machine;
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TestInstrSeq* code;
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Zone* zone() { return main_zone(); }
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void allocCode() {
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if (schedule.rpo_order()->size() == 0) {
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// Compute the RPO order.
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Scheduler::ComputeSpecialRPO(main_zone(), &schedule);
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CHECK_NE(0u, schedule.rpo_order()->size());
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}
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InstructionBlocks* instruction_blocks =
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TestInstrSeq::InstructionBlocksFor(main_zone(), &schedule);
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code = main_zone()->New<TestInstrSeq>(main_isolate(), main_zone(),
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instruction_blocks);
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}
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Node* Int32Constant(int32_t val) {
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Node* node = graph.NewNode(common.Int32Constant(val));
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schedule.AddNode(schedule.start(), node);
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return node;
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}
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Node* Float64Constant(double val) {
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Node* node = graph.NewNode(common.Float64Constant(val));
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schedule.AddNode(schedule.start(), node);
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return node;
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}
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Node* Parameter(int32_t which) {
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Node* node = graph.NewNode(common.Parameter(which));
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schedule.AddNode(schedule.start(), node);
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return node;
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}
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Node* NewNode(BasicBlock* block) {
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Node* node = graph.NewNode(common.Int32Constant(111));
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schedule.AddNode(block, node);
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return node;
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}
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int NewInstr() {
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InstructionCode opcode = static_cast<InstructionCode>(110);
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TestInstr* instr = TestInstr::New(zone(), opcode);
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return code->AddInstruction(instr);
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}
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int NewNop() {
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TestInstr* instr = TestInstr::New(zone(), kArchNop);
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return code->AddInstruction(instr);
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}
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UnallocatedOperand Unallocated(int vreg) {
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return UnallocatedOperand(UnallocatedOperand::REGISTER_OR_SLOT, vreg);
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}
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RpoNumber RpoFor(BasicBlock* block) {
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return RpoNumber::FromInt(block->rpo_number());
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}
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InstructionBlock* BlockAt(BasicBlock* block) {
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return code->InstructionBlockAt(RpoFor(block));
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}
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BasicBlock* GetBasicBlock(int instruction_index) {
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const InstructionBlock* block =
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code->GetInstructionBlock(instruction_index);
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return schedule.rpo_order()->at(block->rpo_number().ToSize());
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}
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int first_instruction_index(BasicBlock* block) {
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return BlockAt(block)->first_instruction_index();
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}
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int last_instruction_index(BasicBlock* block) {
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return BlockAt(block)->last_instruction_index();
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}
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};
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TEST(InstructionBasic) {
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InstructionTester R;
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for (int i = 0; i < 10; i++) {
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R.Int32Constant(i); // Add some nodes to the graph.
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}
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BasicBlock* last = R.schedule.start();
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for (int i = 0; i < 5; i++) {
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BasicBlock* block = R.schedule.NewBasicBlock();
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R.schedule.AddGoto(last, block);
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last = block;
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}
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R.allocCode();
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BasicBlockVector* blocks = R.schedule.rpo_order();
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CHECK_EQ(static_cast<int>(blocks->size()), R.code->InstructionBlockCount());
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for (auto block : *blocks) {
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CHECK_EQ(block->rpo_number(), R.BlockAt(block)->rpo_number().ToInt());
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CHECK(!block->loop_end());
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}
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}
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TEST(InstructionGetBasicBlock) {
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InstructionTester R;
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BasicBlock* b0 = R.schedule.start();
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BasicBlock* b1 = R.schedule.NewBasicBlock();
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BasicBlock* b2 = R.schedule.NewBasicBlock();
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BasicBlock* b3 = R.schedule.end();
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R.schedule.AddGoto(b0, b1);
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R.schedule.AddGoto(b1, b2);
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R.schedule.AddGoto(b2, b3);
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R.allocCode();
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R.code->StartBlock(R.RpoFor(b0));
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int i0 = R.NewInstr();
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int i1 = R.NewInstr();
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R.code->EndBlock(R.RpoFor(b0));
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R.code->StartBlock(R.RpoFor(b1));
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int i2 = R.NewInstr();
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int i3 = R.NewInstr();
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int i4 = R.NewInstr();
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int i5 = R.NewInstr();
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R.code->EndBlock(R.RpoFor(b1));
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R.code->StartBlock(R.RpoFor(b2));
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int i6 = R.NewInstr();
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int i7 = R.NewInstr();
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int i8 = R.NewInstr();
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R.code->EndBlock(R.RpoFor(b2));
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R.code->StartBlock(R.RpoFor(b3));
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R.NewNop();
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R.code->EndBlock(R.RpoFor(b3));
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CHECK_EQ(b0, R.GetBasicBlock(i0));
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CHECK_EQ(b0, R.GetBasicBlock(i1));
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CHECK_EQ(b1, R.GetBasicBlock(i2));
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CHECK_EQ(b1, R.GetBasicBlock(i3));
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CHECK_EQ(b1, R.GetBasicBlock(i4));
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CHECK_EQ(b1, R.GetBasicBlock(i5));
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CHECK_EQ(b2, R.GetBasicBlock(i6));
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CHECK_EQ(b2, R.GetBasicBlock(i7));
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CHECK_EQ(b2, R.GetBasicBlock(i8));
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CHECK_EQ(b0, R.GetBasicBlock(R.first_instruction_index(b0)));
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CHECK_EQ(b0, R.GetBasicBlock(R.last_instruction_index(b0)));
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CHECK_EQ(b1, R.GetBasicBlock(R.first_instruction_index(b1)));
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CHECK_EQ(b1, R.GetBasicBlock(R.last_instruction_index(b1)));
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CHECK_EQ(b2, R.GetBasicBlock(R.first_instruction_index(b2)));
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CHECK_EQ(b2, R.GetBasicBlock(R.last_instruction_index(b2)));
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CHECK_EQ(b3, R.GetBasicBlock(R.first_instruction_index(b3)));
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CHECK_EQ(b3, R.GetBasicBlock(R.last_instruction_index(b3)));
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}
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TEST(InstructionIsGapAt) {
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InstructionTester R;
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BasicBlock* b0 = R.schedule.start();
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R.schedule.AddReturn(b0, R.Int32Constant(1));
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R.allocCode();
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TestInstr* i0 = TestInstr::New(R.zone(), 100);
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TestInstr* g = TestInstr::New(R.zone(), 103);
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R.code->StartBlock(R.RpoFor(b0));
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R.code->AddInstruction(i0);
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R.code->AddInstruction(g);
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R.code->EndBlock(R.RpoFor(b0));
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CHECK_EQ(2, R.code->instructions().size());
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}
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TEST(InstructionIsGapAt2) {
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InstructionTester R;
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BasicBlock* b0 = R.schedule.start();
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BasicBlock* b1 = R.schedule.end();
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R.schedule.AddGoto(b0, b1);
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R.schedule.AddReturn(b1, R.Int32Constant(1));
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R.allocCode();
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TestInstr* i0 = TestInstr::New(R.zone(), 100);
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TestInstr* g = TestInstr::New(R.zone(), 103);
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R.code->StartBlock(R.RpoFor(b0));
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R.code->AddInstruction(i0);
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R.code->AddInstruction(g);
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R.code->EndBlock(R.RpoFor(b0));
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TestInstr* i1 = TestInstr::New(R.zone(), 102);
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TestInstr* g1 = TestInstr::New(R.zone(), 104);
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R.code->StartBlock(R.RpoFor(b1));
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R.code->AddInstruction(i1);
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R.code->AddInstruction(g1);
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R.code->EndBlock(R.RpoFor(b1));
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CHECK_EQ(4, R.code->instructions().size());
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}
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TEST(InstructionAddGapMove) {
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InstructionTester R;
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BasicBlock* b0 = R.schedule.start();
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R.schedule.AddReturn(b0, R.Int32Constant(1));
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R.allocCode();
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TestInstr* i0 = TestInstr::New(R.zone(), 100);
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TestInstr* g = TestInstr::New(R.zone(), 103);
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R.code->StartBlock(R.RpoFor(b0));
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R.code->AddInstruction(i0);
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R.code->AddInstruction(g);
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R.code->EndBlock(R.RpoFor(b0));
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CHECK_EQ(2, R.code->instructions().size());
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int index = 0;
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for (auto instr : R.code->instructions()) {
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UnallocatedOperand op1 = R.Unallocated(index++);
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UnallocatedOperand op2 = R.Unallocated(index++);
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instr->GetOrCreateParallelMove(TestInstr::START, R.zone())
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->AddMove(op1, op2);
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ParallelMove* move = instr->GetParallelMove(TestInstr::START);
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CHECK(move);
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CHECK_EQ(1u, move->size());
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MoveOperands* cur = move->at(0);
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CHECK(op1.Equals(cur->source()));
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CHECK(op2.Equals(cur->destination()));
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}
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}
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TEST(InstructionOperands) {
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v8::internal::AccountingAllocator allocator;
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Zone zone(&allocator, ZONE_NAME);
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{
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TestInstr* i = TestInstr::New(&zone, 101);
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CHECK_EQ(0, static_cast<int>(i->OutputCount()));
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CHECK_EQ(0, static_cast<int>(i->InputCount()));
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CHECK_EQ(0, static_cast<int>(i->TempCount()));
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}
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int vreg = 15;
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InstructionOperand outputs[] = {
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UnallocatedOperand(UnallocatedOperand::MUST_HAVE_REGISTER, vreg),
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UnallocatedOperand(UnallocatedOperand::MUST_HAVE_REGISTER, vreg),
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UnallocatedOperand(UnallocatedOperand::MUST_HAVE_REGISTER, vreg),
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UnallocatedOperand(UnallocatedOperand::MUST_HAVE_REGISTER, vreg)};
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InstructionOperand inputs[] = {
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UnallocatedOperand(UnallocatedOperand::MUST_HAVE_REGISTER, vreg),
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UnallocatedOperand(UnallocatedOperand::MUST_HAVE_REGISTER, vreg),
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UnallocatedOperand(UnallocatedOperand::MUST_HAVE_REGISTER, vreg),
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UnallocatedOperand(UnallocatedOperand::MUST_HAVE_REGISTER, vreg)};
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InstructionOperand temps[] = {
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UnallocatedOperand(UnallocatedOperand::MUST_HAVE_REGISTER, vreg),
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UnallocatedOperand(UnallocatedOperand::MUST_HAVE_REGISTER, vreg),
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UnallocatedOperand(UnallocatedOperand::MUST_HAVE_REGISTER, vreg),
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UnallocatedOperand(UnallocatedOperand::MUST_HAVE_REGISTER, vreg)};
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for (size_t i = 0; i < arraysize(outputs); i++) {
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for (size_t j = 0; j < arraysize(inputs); j++) {
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for (size_t k = 0; k < arraysize(temps); k++) {
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TestInstr* m =
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TestInstr::New(&zone, 101, i, outputs, j, inputs, k, temps);
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CHECK(i == m->OutputCount());
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CHECK(j == m->InputCount());
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CHECK(k == m->TempCount());
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for (size_t z = 0; z < i; z++) {
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CHECK(outputs[z].Equals(*m->OutputAt(z)));
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}
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for (size_t z = 0; z < j; z++) {
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CHECK(inputs[z].Equals(*m->InputAt(z)));
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}
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for (size_t z = 0; z < k; z++) {
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CHECK(temps[z].Equals(*m->TempAt(z)));
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}
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}
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}
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}
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}
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} // namespace compiler
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} // namespace internal
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} // namespace v8
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