/* * Copyright (C) 2017 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "base/arena_allocator.h" #include "nodes.h" #include "optimizing_unit_test.h" namespace art { /** * Fixture class for testing vector nodes. */ class NodesVectorTest : public OptimizingUnitTest { public: NodesVectorTest() : graph_(CreateGraph()) { BuildGraph(); } ~NodesVectorTest() { } void BuildGraph() { graph_->SetNumberOfVRegs(1); entry_block_ = new (GetAllocator()) HBasicBlock(graph_); exit_block_ = new (GetAllocator()) HBasicBlock(graph_); graph_->AddBlock(entry_block_); graph_->AddBlock(exit_block_); graph_->SetEntryBlock(entry_block_); graph_->SetExitBlock(exit_block_); int8_parameter_ = new (GetAllocator()) HParameterValue(graph_->GetDexFile(), dex::TypeIndex(1), 0, DataType::Type::kInt8); entry_block_->AddInstruction(int8_parameter_); int16_parameter_ = new (GetAllocator()) HParameterValue(graph_->GetDexFile(), dex::TypeIndex(2), 0, DataType::Type::kInt16); entry_block_->AddInstruction(int16_parameter_); int32_parameter_ = new (GetAllocator()) HParameterValue(graph_->GetDexFile(), dex::TypeIndex(0), 0, DataType::Type::kInt32); entry_block_->AddInstruction(int32_parameter_); } // General building fields. HGraph* graph_; HBasicBlock* entry_block_; HBasicBlock* exit_block_; HInstruction* int8_parameter_; HInstruction* int16_parameter_; HInstruction* int32_parameter_; }; // // The actual vector nodes tests. // TEST(NodesVector, Alignment) { EXPECT_TRUE(Alignment(1, 0).IsAlignedAt(1)); EXPECT_FALSE(Alignment(1, 0).IsAlignedAt(2)); EXPECT_TRUE(Alignment(2, 0).IsAlignedAt(1)); EXPECT_TRUE(Alignment(2, 1).IsAlignedAt(1)); EXPECT_TRUE(Alignment(2, 0).IsAlignedAt(2)); EXPECT_FALSE(Alignment(2, 1).IsAlignedAt(2)); EXPECT_FALSE(Alignment(2, 0).IsAlignedAt(4)); EXPECT_FALSE(Alignment(2, 1).IsAlignedAt(4)); EXPECT_TRUE(Alignment(4, 0).IsAlignedAt(1)); EXPECT_TRUE(Alignment(4, 2).IsAlignedAt(1)); EXPECT_TRUE(Alignment(4, 0).IsAlignedAt(2)); EXPECT_TRUE(Alignment(4, 2).IsAlignedAt(2)); EXPECT_TRUE(Alignment(4, 0).IsAlignedAt(4)); EXPECT_FALSE(Alignment(4, 2).IsAlignedAt(4)); EXPECT_FALSE(Alignment(4, 0).IsAlignedAt(8)); EXPECT_FALSE(Alignment(4, 2).IsAlignedAt(8)); EXPECT_TRUE(Alignment(16, 0).IsAlignedAt(1)); EXPECT_TRUE(Alignment(16, 0).IsAlignedAt(2)); EXPECT_TRUE(Alignment(16, 0).IsAlignedAt(4)); EXPECT_TRUE(Alignment(16, 8).IsAlignedAt(8)); EXPECT_TRUE(Alignment(16, 0).IsAlignedAt(16)); EXPECT_FALSE(Alignment(16, 1).IsAlignedAt(16)); EXPECT_FALSE(Alignment(16, 7).IsAlignedAt(16)); EXPECT_FALSE(Alignment(16, 0).IsAlignedAt(32)); EXPECT_EQ(16u, Alignment(16, 0).Base()); EXPECT_EQ(0u, Alignment(16, 0).Offset()); EXPECT_EQ(4u, Alignment(16, 4).Offset()); } TEST(NodesVector, AlignmentEQ) { EXPECT_TRUE(Alignment(2, 0) == Alignment(2, 0)); EXPECT_TRUE(Alignment(2, 1) == Alignment(2, 1)); EXPECT_TRUE(Alignment(4, 0) == Alignment(4, 0)); EXPECT_TRUE(Alignment(4, 2) == Alignment(4, 2)); EXPECT_FALSE(Alignment(4, 0) == Alignment(2, 0)); EXPECT_FALSE(Alignment(4, 0) == Alignment(4, 1)); EXPECT_FALSE(Alignment(4, 0) == Alignment(8, 0)); } TEST(NodesVector, AlignmentString) { EXPECT_STREQ("ALIGN(1,0)", Alignment(1, 0).ToString().c_str()); EXPECT_STREQ("ALIGN(2,0)", Alignment(2, 0).ToString().c_str()); EXPECT_STREQ("ALIGN(2,1)", Alignment(2, 1).ToString().c_str()); EXPECT_STREQ("ALIGN(16,0)", Alignment(16, 0).ToString().c_str()); EXPECT_STREQ("ALIGN(16,1)", Alignment(16, 1).ToString().c_str()); EXPECT_STREQ("ALIGN(16,8)", Alignment(16, 8).ToString().c_str()); EXPECT_STREQ("ALIGN(16,9)", Alignment(16, 9).ToString().c_str()); } TEST_F(NodesVectorTest, VectorOperationProperties) { HVecOperation* v0 = new (GetAllocator()) HVecReplicateScalar(GetAllocator(), int32_parameter_, DataType::Type::kInt32, 4, kNoDexPc); HVecOperation* v1 = new (GetAllocator()) HVecReplicateScalar(GetAllocator(), int32_parameter_, DataType::Type::kInt32, 4, kNoDexPc); HVecOperation* v2 = new (GetAllocator()) HVecReplicateScalar(GetAllocator(), int32_parameter_, DataType::Type::kInt32, 2, kNoDexPc); HVecOperation* v3 = new (GetAllocator()) HVecReplicateScalar(GetAllocator(), int32_parameter_, DataType::Type::kInt16, 4, kNoDexPc); HVecOperation* v4 = new (GetAllocator()) HVecStore( GetAllocator(), int32_parameter_, int32_parameter_, v0, DataType::Type::kInt32, SideEffects::ArrayWriteOfType(DataType::Type::kInt32), 4, kNoDexPc); EXPECT_TRUE(v0->Equals(v0)); EXPECT_TRUE(v1->Equals(v1)); EXPECT_TRUE(v2->Equals(v2)); EXPECT_TRUE(v3->Equals(v3)); EXPECT_TRUE(v4->Equals(v4)); EXPECT_TRUE(v0->Equals(v1)); EXPECT_FALSE(v0->Equals(v2)); // different vector lengths EXPECT_FALSE(v0->Equals(v3)); // different packed types EXPECT_FALSE(v0->Equals(v4)); // different kinds EXPECT_TRUE(v1->Equals(v0)); // switch operands EXPECT_FALSE(v4->Equals(v0)); EXPECT_EQ(4u, v0->GetVectorLength()); EXPECT_EQ(4u, v1->GetVectorLength()); EXPECT_EQ(2u, v2->GetVectorLength()); EXPECT_EQ(4u, v3->GetVectorLength()); EXPECT_EQ(4u, v4->GetVectorLength()); EXPECT_EQ(DataType::Type::kFloat64, v0->GetType()); EXPECT_EQ(DataType::Type::kFloat64, v1->GetType()); EXPECT_EQ(DataType::Type::kFloat64, v2->GetType()); EXPECT_EQ(DataType::Type::kFloat64, v3->GetType()); EXPECT_EQ(DataType::Type::kFloat64, v4->GetType()); EXPECT_EQ(DataType::Type::kInt32, v0->GetPackedType()); EXPECT_EQ(DataType::Type::kInt32, v1->GetPackedType()); EXPECT_EQ(DataType::Type::kInt32, v2->GetPackedType()); EXPECT_EQ(DataType::Type::kInt16, v3->GetPackedType()); EXPECT_EQ(DataType::Type::kInt32, v4->GetPackedType()); EXPECT_EQ(16u, v0->GetVectorNumberOfBytes()); EXPECT_EQ(16u, v1->GetVectorNumberOfBytes()); EXPECT_EQ(8u, v2->GetVectorNumberOfBytes()); EXPECT_EQ(8u, v3->GetVectorNumberOfBytes()); EXPECT_EQ(16u, v4->GetVectorNumberOfBytes()); EXPECT_FALSE(v0->CanBeMoved()); EXPECT_FALSE(v1->CanBeMoved()); EXPECT_FALSE(v2->CanBeMoved()); EXPECT_FALSE(v3->CanBeMoved()); EXPECT_FALSE(v4->CanBeMoved()); } TEST_F(NodesVectorTest, VectorAlignmentAndStringCharAtMatterOnLoad) { HVecLoad* v0 = new (GetAllocator()) HVecLoad(GetAllocator(), int32_parameter_, int32_parameter_, DataType::Type::kInt32, SideEffects::ArrayReadOfType(DataType::Type::kInt32), 4, /*is_string_char_at*/ false, kNoDexPc); HVecLoad* v1 = new (GetAllocator()) HVecLoad(GetAllocator(), int32_parameter_, int32_parameter_, DataType::Type::kInt32, SideEffects::ArrayReadOfType(DataType::Type::kInt32), 4, /*is_string_char_at*/ false, kNoDexPc); HVecLoad* v2 = new (GetAllocator()) HVecLoad(GetAllocator(), int32_parameter_, int32_parameter_, DataType::Type::kInt32, SideEffects::ArrayReadOfType(DataType::Type::kInt32), 4, /*is_string_char_at*/ true, kNoDexPc); EXPECT_TRUE(v0->CanBeMoved()); EXPECT_TRUE(v1->CanBeMoved()); EXPECT_TRUE(v2->CanBeMoved()); EXPECT_FALSE(v0->IsStringCharAt()); EXPECT_FALSE(v1->IsStringCharAt()); EXPECT_TRUE(v2->IsStringCharAt()); EXPECT_TRUE(v0->Equals(v0)); EXPECT_TRUE(v1->Equals(v1)); EXPECT_TRUE(v2->Equals(v2)); EXPECT_TRUE(v0->Equals(v1)); EXPECT_FALSE(v0->Equals(v2)); // different is_string_char_at EXPECT_TRUE(v0->GetAlignment() == Alignment(4, 0)); EXPECT_TRUE(v1->GetAlignment() == Alignment(4, 0)); EXPECT_TRUE(v2->GetAlignment() == Alignment(4, 0)); v1->SetAlignment(Alignment(8, 0)); EXPECT_TRUE(v1->GetAlignment() == Alignment(8, 0)); EXPECT_FALSE(v0->Equals(v1)); // no longer equal } TEST_F(NodesVectorTest, VectorAlignmentMattersOnStore) { HVecOperation* p0 = new (GetAllocator()) HVecReplicateScalar(GetAllocator(), int32_parameter_, DataType::Type::kInt32, 4, kNoDexPc); HVecStore* v0 = new (GetAllocator()) HVecStore( GetAllocator(), int32_parameter_, int32_parameter_, p0, DataType::Type::kInt32, SideEffects::ArrayWriteOfType(DataType::Type::kInt32), 4, kNoDexPc); HVecStore* v1 = new (GetAllocator()) HVecStore( GetAllocator(), int32_parameter_, int32_parameter_, p0, DataType::Type::kInt32, SideEffects::ArrayWriteOfType(DataType::Type::kInt32), 4, kNoDexPc); EXPECT_FALSE(v0->CanBeMoved()); EXPECT_FALSE(v1->CanBeMoved()); EXPECT_TRUE(v0->Equals(v1)); EXPECT_TRUE(v0->GetAlignment() == Alignment(4, 0)); EXPECT_TRUE(v1->GetAlignment() == Alignment(4, 0)); v1->SetAlignment(Alignment(8, 0)); EXPECT_TRUE(v1->GetAlignment() == Alignment(8, 0)); EXPECT_FALSE(v0->Equals(v1)); // no longer equal } TEST_F(NodesVectorTest, VectorAttributesMatterOnHalvingAdd) { HVecOperation* u0 = new (GetAllocator()) HVecReplicateScalar(GetAllocator(), int32_parameter_, DataType::Type::kUint32, 4, kNoDexPc); HVecOperation* u1 = new (GetAllocator()) HVecReplicateScalar(GetAllocator(), int16_parameter_, DataType::Type::kUint16, 8, kNoDexPc); HVecOperation* u2 = new (GetAllocator()) HVecReplicateScalar(GetAllocator(), int8_parameter_, DataType::Type::kUint8, 16, kNoDexPc); HVecOperation* p0 = new (GetAllocator()) HVecReplicateScalar(GetAllocator(), int32_parameter_, DataType::Type::kInt32, 4, kNoDexPc); HVecOperation* p1 = new (GetAllocator()) HVecReplicateScalar(GetAllocator(), int16_parameter_, DataType::Type::kInt16, 8, kNoDexPc); HVecOperation* p2 = new (GetAllocator()) HVecReplicateScalar(GetAllocator(), int8_parameter_, DataType::Type::kInt8, 16, kNoDexPc); HVecHalvingAdd* v0 = new (GetAllocator()) HVecHalvingAdd( GetAllocator(), u0, u0, DataType::Type::kUint32, 4, /*is_rounded*/ true, kNoDexPc); HVecHalvingAdd* v1 = new (GetAllocator()) HVecHalvingAdd( GetAllocator(), u0, u0, DataType::Type::kUint32, 4, /*is_rounded*/ false, kNoDexPc); HVecHalvingAdd* v2 = new (GetAllocator()) HVecHalvingAdd( GetAllocator(), p0, p0, DataType::Type::kInt32, 4, /*is_rounded*/ true, kNoDexPc); HVecHalvingAdd* v3 = new (GetAllocator()) HVecHalvingAdd( GetAllocator(), p0, p0, DataType::Type::kInt32, 4, /*is_rounded*/ false, kNoDexPc); HVecHalvingAdd* v4 = new (GetAllocator()) HVecHalvingAdd( GetAllocator(), u1, u1, DataType::Type::kUint16, 8, /*is_rounded*/ true, kNoDexPc); HVecHalvingAdd* v5 = new (GetAllocator()) HVecHalvingAdd( GetAllocator(), u1, u1, DataType::Type::kUint16, 8, /*is_rounded*/ false, kNoDexPc); HVecHalvingAdd* v6 = new (GetAllocator()) HVecHalvingAdd( GetAllocator(), p1, p1, DataType::Type::kInt16, 8, /*is_rounded*/ true, kNoDexPc); HVecHalvingAdd* v7 = new (GetAllocator()) HVecHalvingAdd( GetAllocator(), p1, p1, DataType::Type::kInt16, 8, /*is_rounded*/ false, kNoDexPc); HVecHalvingAdd* v8 = new (GetAllocator()) HVecHalvingAdd( GetAllocator(), u2, u2, DataType::Type::kUint8, 16, /*is_rounded*/ true, kNoDexPc); HVecHalvingAdd* v9 = new (GetAllocator()) HVecHalvingAdd( GetAllocator(), u2, u2, DataType::Type::kUint8, 16, /*is_rounded*/ false, kNoDexPc); HVecHalvingAdd* v10 = new (GetAllocator()) HVecHalvingAdd( GetAllocator(), p2, p2, DataType::Type::kInt8, 16, /*is_rounded*/ true, kNoDexPc); HVecHalvingAdd* v11 = new (GetAllocator()) HVecHalvingAdd( GetAllocator(), p2, p2, DataType::Type::kInt8, 16, /*is_rounded*/ false, kNoDexPc); HVecHalvingAdd* hadd_insns[] = { v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11 }; EXPECT_FALSE(u0->CanBeMoved()); EXPECT_FALSE(u1->CanBeMoved()); EXPECT_FALSE(u2->CanBeMoved()); EXPECT_FALSE(p0->CanBeMoved()); EXPECT_FALSE(p1->CanBeMoved()); EXPECT_FALSE(p2->CanBeMoved()); for (HVecHalvingAdd* hadd_insn : hadd_insns) { EXPECT_TRUE(hadd_insn->CanBeMoved()); } EXPECT_TRUE(v0->IsRounded()); EXPECT_TRUE(!v1->IsRounded()); EXPECT_TRUE(v2->IsRounded()); EXPECT_TRUE(!v3->IsRounded()); EXPECT_TRUE(v4->IsRounded()); EXPECT_TRUE(!v5->IsRounded()); EXPECT_TRUE(v6->IsRounded()); EXPECT_TRUE(!v7->IsRounded()); EXPECT_TRUE(v8->IsRounded()); EXPECT_TRUE(!v9->IsRounded()); EXPECT_TRUE(v10->IsRounded()); EXPECT_TRUE(!v11->IsRounded()); for (HVecHalvingAdd* hadd_insn1 : hadd_insns) { for (HVecHalvingAdd* hadd_insn2 : hadd_insns) { EXPECT_EQ(hadd_insn1 == hadd_insn2, hadd_insn1->Equals(hadd_insn2)); } } } TEST_F(NodesVectorTest, VectorOperationMattersOnMultiplyAccumulate) { HVecOperation* v0 = new (GetAllocator()) HVecReplicateScalar(GetAllocator(), int32_parameter_, DataType::Type::kInt32, 4, kNoDexPc); HVecMultiplyAccumulate* v1 = new (GetAllocator()) HVecMultiplyAccumulate( GetAllocator(), HInstruction::kAdd, v0, v0, v0, DataType::Type::kInt32, 4, kNoDexPc); HVecMultiplyAccumulate* v2 = new (GetAllocator()) HVecMultiplyAccumulate( GetAllocator(), HInstruction::kSub, v0, v0, v0, DataType::Type::kInt32, 4, kNoDexPc); HVecMultiplyAccumulate* v3 = new (GetAllocator()) HVecMultiplyAccumulate( GetAllocator(), HInstruction::kAdd, v0, v0, v0, DataType::Type::kInt32, 2, kNoDexPc); EXPECT_FALSE(v0->CanBeMoved()); EXPECT_TRUE(v1->CanBeMoved()); EXPECT_TRUE(v2->CanBeMoved()); EXPECT_TRUE(v3->CanBeMoved()); EXPECT_EQ(HInstruction::kAdd, v1->GetOpKind()); EXPECT_EQ(HInstruction::kSub, v2->GetOpKind()); EXPECT_EQ(HInstruction::kAdd, v3->GetOpKind()); EXPECT_TRUE(v1->Equals(v1)); EXPECT_TRUE(v2->Equals(v2)); EXPECT_TRUE(v3->Equals(v3)); EXPECT_FALSE(v1->Equals(v2)); // different operators EXPECT_FALSE(v1->Equals(v3)); // different vector lengths } TEST_F(NodesVectorTest, VectorKindMattersOnReduce) { HVecOperation* v0 = new (GetAllocator()) HVecReplicateScalar(GetAllocator(), int32_parameter_, DataType::Type::kInt32, 4, kNoDexPc); HVecReduce* v1 = new (GetAllocator()) HVecReduce( GetAllocator(), v0, DataType::Type::kInt32, 4, HVecReduce::kSum, kNoDexPc); HVecReduce* v2 = new (GetAllocator()) HVecReduce( GetAllocator(), v0, DataType::Type::kInt32, 4, HVecReduce::kMin, kNoDexPc); HVecReduce* v3 = new (GetAllocator()) HVecReduce( GetAllocator(), v0, DataType::Type::kInt32, 4, HVecReduce::kMax, kNoDexPc); EXPECT_FALSE(v0->CanBeMoved()); EXPECT_TRUE(v1->CanBeMoved()); EXPECT_TRUE(v2->CanBeMoved()); EXPECT_TRUE(v3->CanBeMoved()); EXPECT_EQ(HVecReduce::kSum, v1->GetReductionKind()); EXPECT_EQ(HVecReduce::kMin, v2->GetReductionKind()); EXPECT_EQ(HVecReduce::kMax, v3->GetReductionKind()); EXPECT_TRUE(v1->Equals(v1)); EXPECT_TRUE(v2->Equals(v2)); EXPECT_TRUE(v3->Equals(v3)); EXPECT_FALSE(v1->Equals(v2)); // different kinds EXPECT_FALSE(v1->Equals(v3)); } } // namespace art