0227b62fdb
This CL splits the backend of TurboFan off into its own directory, without changing namespaces. This makes ownership management a bit more fine-grained with a logical separation. R=mstarzinger@chromium.org,jarin@chromium.org,adamk@chromium.org Change-Id: I2ac40d6ca2c4f04b8474b630aae0286ecf79ef42 Reviewed-on: https://chromium-review.googlesource.com/c/1308333 Commit-Queue: Ben Titzer <titzer@chromium.org> Reviewed-by: Adam Klein <adamk@chromium.org> Reviewed-by: Jaroslav Sevcik <jarin@chromium.org> Reviewed-by: Michael Starzinger <mstarzinger@chromium.org> Cr-Commit-Position: refs/heads/master@{#57437}
178 lines
7.1 KiB
C++
178 lines
7.1 KiB
C++
// Copyright 2016 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/instruction.h"
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#include "src/register-configuration.h"
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#include "test/unittests/test-utils.h"
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#include "testing/gtest-support.h"
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namespace v8 {
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namespace internal {
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namespace compiler {
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namespace instruction_unittest {
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namespace {
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const MachineRepresentation kWord = MachineRepresentation::kWord32;
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const MachineRepresentation kFloat = MachineRepresentation::kFloat32;
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const MachineRepresentation kDouble = MachineRepresentation::kFloat64;
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bool Interfere(LocationOperand::LocationKind kind, MachineRepresentation rep1,
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int index1, MachineRepresentation rep2, int index2) {
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return AllocatedOperand(kind, rep1, index1)
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.InterferesWith(AllocatedOperand(kind, rep2, index2));
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}
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bool Contains(const ZoneVector<MoveOperands*>* moves,
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const InstructionOperand& to, const InstructionOperand& from) {
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for (auto move : *moves) {
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if (move->destination().Equals(to) && move->source().Equals(from)) {
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return true;
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}
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}
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return false;
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}
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} // namespace
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class InstructionTest : public TestWithZone {
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public:
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InstructionTest() = default;
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~InstructionTest() override = default;
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ParallelMove* CreateParallelMove(
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const std::vector<InstructionOperand>& operand_pairs) {
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ParallelMove* parallel_move = new (zone()) ParallelMove(zone());
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for (size_t i = 0; i < operand_pairs.size(); i += 2)
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parallel_move->AddMove(operand_pairs[i + 1], operand_pairs[i]);
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return parallel_move;
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}
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};
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TEST_F(InstructionTest, OperandInterference) {
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// All general registers and slots interfere only with themselves.
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for (int i = 0; i < RegisterConfiguration::kMaxGeneralRegisters; ++i) {
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EXPECT_TRUE(Interfere(LocationOperand::REGISTER, kWord, i, kWord, i));
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EXPECT_TRUE(Interfere(LocationOperand::STACK_SLOT, kWord, i, kWord, i));
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for (int j = i + 1; j < RegisterConfiguration::kMaxGeneralRegisters; ++j) {
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EXPECT_FALSE(Interfere(LocationOperand::REGISTER, kWord, i, kWord, j));
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EXPECT_FALSE(Interfere(LocationOperand::STACK_SLOT, kWord, i, kWord, j));
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}
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}
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// All FP registers interfere with themselves.
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for (int i = 0; i < RegisterConfiguration::kMaxFPRegisters; ++i) {
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EXPECT_TRUE(Interfere(LocationOperand::REGISTER, kFloat, i, kFloat, i));
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EXPECT_TRUE(Interfere(LocationOperand::STACK_SLOT, kFloat, i, kFloat, i));
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EXPECT_TRUE(Interfere(LocationOperand::REGISTER, kDouble, i, kDouble, i));
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EXPECT_TRUE(Interfere(LocationOperand::STACK_SLOT, kDouble, i, kDouble, i));
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}
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if (kSimpleFPAliasing) {
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// Simple FP aliasing: interfering registers of different reps have the same
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// index.
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for (int i = 0; i < RegisterConfiguration::kMaxFPRegisters; ++i) {
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EXPECT_TRUE(Interfere(LocationOperand::REGISTER, kFloat, i, kDouble, i));
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EXPECT_TRUE(Interfere(LocationOperand::REGISTER, kDouble, i, kFloat, i));
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for (int j = i + 1; j < RegisterConfiguration::kMaxFPRegisters; ++j) {
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EXPECT_FALSE(Interfere(LocationOperand::REGISTER, kWord, i, kWord, j));
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EXPECT_FALSE(
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Interfere(LocationOperand::STACK_SLOT, kWord, i, kWord, j));
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}
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}
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} else {
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// Complex FP aliasing: sub-registers intefere with containing registers.
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// Test sub-register indices which may not exist on the platform. This is
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// necessary since the GapResolver may split large moves into smaller ones.
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for (int i = 0; i < RegisterConfiguration::kMaxFPRegisters; ++i) {
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EXPECT_TRUE(
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Interfere(LocationOperand::REGISTER, kFloat, i * 2, kDouble, i));
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EXPECT_TRUE(
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Interfere(LocationOperand::REGISTER, kFloat, i * 2 + 1, kDouble, i));
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EXPECT_TRUE(
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Interfere(LocationOperand::REGISTER, kDouble, i, kFloat, i * 2));
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EXPECT_TRUE(
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Interfere(LocationOperand::REGISTER, kDouble, i, kFloat, i * 2 + 1));
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for (int j = i + 1; j < RegisterConfiguration::kMaxFPRegisters; ++j) {
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EXPECT_FALSE(
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Interfere(LocationOperand::REGISTER, kFloat, i * 2, kDouble, j));
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EXPECT_FALSE(Interfere(LocationOperand::REGISTER, kFloat, i * 2 + 1,
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kDouble, j));
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EXPECT_FALSE(
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Interfere(LocationOperand::REGISTER, kDouble, i, kFloat, j * 2));
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EXPECT_FALSE(Interfere(LocationOperand::REGISTER, kDouble, i, kFloat,
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j * 2 + 1));
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}
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}
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}
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}
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TEST_F(InstructionTest, PrepareInsertAfter) {
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InstructionOperand r0 = AllocatedOperand(LocationOperand::REGISTER,
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MachineRepresentation::kWord32, 0);
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InstructionOperand r1 = AllocatedOperand(LocationOperand::REGISTER,
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MachineRepresentation::kWord32, 1);
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InstructionOperand r2 = AllocatedOperand(LocationOperand::REGISTER,
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MachineRepresentation::kWord32, 2);
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InstructionOperand d0 = AllocatedOperand(LocationOperand::REGISTER,
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MachineRepresentation::kFloat64, 0);
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InstructionOperand d1 = AllocatedOperand(LocationOperand::REGISTER,
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MachineRepresentation::kFloat64, 1);
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InstructionOperand d2 = AllocatedOperand(LocationOperand::REGISTER,
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MachineRepresentation::kFloat64, 2);
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{
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// Moves inserted after should pick up assignments to their sources.
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// Moves inserted after should cause interfering moves to be eliminated.
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ZoneVector<MoveOperands*> to_eliminate(zone());
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std::vector<InstructionOperand> moves = {
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r1, r0, // r1 <- r0
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r2, r0, // r2 <- r0
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d1, d0, // d1 <- d0
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d2, d0 // d2 <- d0
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};
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ParallelMove* pm = CreateParallelMove(moves);
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MoveOperands m1(r1, r2); // r2 <- r1
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pm->PrepareInsertAfter(&m1, &to_eliminate);
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CHECK(m1.source().Equals(r0));
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CHECK(Contains(&to_eliminate, r2, r0));
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MoveOperands m2(d1, d2); // d2 <- d1
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pm->PrepareInsertAfter(&m2, &to_eliminate);
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CHECK(m2.source().Equals(d0));
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CHECK(Contains(&to_eliminate, d2, d0));
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}
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if (!kSimpleFPAliasing) {
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// Moves inserted after should cause all interfering moves to be eliminated.
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auto s0 = AllocatedOperand(LocationOperand::REGISTER,
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MachineRepresentation::kFloat32, 0);
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auto s1 = AllocatedOperand(LocationOperand::REGISTER,
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MachineRepresentation::kFloat32, 1);
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auto s2 = AllocatedOperand(LocationOperand::REGISTER,
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MachineRepresentation::kFloat32, 2);
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{
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ZoneVector<MoveOperands*> to_eliminate(zone());
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std::vector<InstructionOperand> moves = {
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s0, s2, // s0 <- s2
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s1, s2 // s1 <- s2
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};
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ParallelMove* pm = CreateParallelMove(moves);
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MoveOperands m1(d1, d0); // d0 <- d1
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pm->PrepareInsertAfter(&m1, &to_eliminate);
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CHECK(Contains(&to_eliminate, s0, s2));
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CHECK(Contains(&to_eliminate, s1, s2));
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}
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}
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}
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} // namespace instruction_unittest
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} // namespace compiler
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} // namespace internal
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} // namespace v8
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