// Copyright 2015 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "src/compiler/node.h" #include "src/compiler/operator.h" #include "test/unittests/test-utils.h" #include "testing/gmock-support.h" using testing::ElementsAre; using testing::UnorderedElementsAre; namespace v8 { namespace internal { namespace compiler { typedef TestWithZone NodeTest; namespace { const IrOpcode::Value kOpcode0 = static_cast(0); const IrOpcode::Value kOpcode1 = static_cast(1); const IrOpcode::Value kOpcode2 = static_cast(2); const Operator kOp0(kOpcode0, Operator::kNoProperties, "Op0", 0, 0, 0, 1, 0, 0); const Operator kOp1(kOpcode1, Operator::kNoProperties, "Op1", 1, 0, 0, 1, 0, 0); const Operator kOp2(kOpcode2, Operator::kNoProperties, "Op2", 2, 0, 0, 1, 0, 0); } // namespace TEST_F(NodeTest, New) { Node* const node = Node::New(zone(), 1, &kOp0, 0, nullptr, false); EXPECT_EQ(1U, node->id()); EXPECT_EQ(0, node->UseCount()); EXPECT_TRUE(node->uses().empty()); EXPECT_EQ(0, node->InputCount()); EXPECT_TRUE(node->inputs().empty()); EXPECT_EQ(&kOp0, node->op()); EXPECT_EQ(kOpcode0, node->opcode()); } TEST_F(NodeTest, NewWithInputs) { Node* n0 = Node::New(zone(), 0, &kOp0, 0, nullptr, false); EXPECT_EQ(0, n0->UseCount()); EXPECT_EQ(0, n0->InputCount()); Node* n1 = Node::New(zone(), 1, &kOp1, 1, &n0, false); EXPECT_EQ(1, n0->UseCount()); EXPECT_THAT(n0->uses(), UnorderedElementsAre(n1)); EXPECT_EQ(0, n1->UseCount()); EXPECT_EQ(1, n1->InputCount()); EXPECT_EQ(n0, n1->InputAt(0)); Node* n0_n1[] = {n0, n1}; Node* n2 = Node::New(zone(), 2, &kOp2, 2, n0_n1, false); EXPECT_EQ(2, n0->UseCount()); EXPECT_THAT(n0->uses(), UnorderedElementsAre(n1, n2)); EXPECT_THAT(n1->uses(), UnorderedElementsAre(n2)); EXPECT_EQ(2, n2->InputCount()); EXPECT_EQ(n0, n2->InputAt(0)); EXPECT_EQ(n1, n2->InputAt(1)); } TEST_F(NodeTest, InputIteratorEmpty) { Node* node = Node::New(zone(), 0, &kOp0, 0, nullptr, false); EXPECT_EQ(node->inputs().begin(), node->inputs().end()); } TEST_F(NodeTest, InputIteratorOne) { Node* n0 = Node::New(zone(), 0, &kOp0, 0, nullptr, false); Node* n1 = Node::New(zone(), 1, &kOp1, 1, &n0, false); EXPECT_THAT(n1->inputs(), ElementsAre(n0)); } TEST_F(NodeTest, InputIteratorTwo) { Node* n0 = Node::New(zone(), 0, &kOp0, 0, nullptr, false); Node* n1 = Node::New(zone(), 1, &kOp1, 1, &n0, false); Node* n0_n1[] = {n0, n1}; Node* n2 = Node::New(zone(), 2, &kOp2, 2, n0_n1, false); EXPECT_THAT(n2->inputs(), ElementsAre(n0, n1)); } TEST_F(NodeTest, UseIteratorEmpty) { Node* node = Node::New(zone(), 0, &kOp0, 0, nullptr, false); EXPECT_EQ(node->uses().begin(), node->uses().end()); } TEST_F(NodeTest, UseIteratorOne) { Node* n0 = Node::New(zone(), 0, &kOp0, 0, nullptr, false); Node* n1 = Node::New(zone(), 1, &kOp1, 1, &n0, false); EXPECT_THAT(n0->uses(), ElementsAre(n1)); } TEST_F(NodeTest, UseIteratorTwo) { Node* n0 = Node::New(zone(), 0, &kOp0, 0, nullptr, false); Node* n1 = Node::New(zone(), 1, &kOp1, 1, &n0, false); Node* n0_n1[] = {n0, n1}; Node* n2 = Node::New(zone(), 2, &kOp2, 2, n0_n1, false); EXPECT_THAT(n0->uses(), UnorderedElementsAre(n1, n2)); } TEST_F(NodeTest, OwnedBy) { Node* n0 = Node::New(zone(), 0, &kOp0, 0, nullptr, false); EXPECT_FALSE(n0->OwnedBy(n0)); Node* n1 = Node::New(zone(), 1, &kOp1, 1, &n0, false); EXPECT_FALSE(n0->OwnedBy(n0)); EXPECT_FALSE(n1->OwnedBy(n1)); EXPECT_TRUE(n0->OwnedBy(n1)); Node* n0_n1[] = {n0, n1}; Node* n2 = Node::New(zone(), 2, &kOp2, 2, n0_n1, false); EXPECT_FALSE(n0->OwnedBy(n0)); EXPECT_FALSE(n1->OwnedBy(n1)); EXPECT_FALSE(n2->OwnedBy(n2)); EXPECT_FALSE(n0->OwnedBy(n1)); EXPECT_FALSE(n0->OwnedBy(n2)); EXPECT_TRUE(n1->OwnedBy(n2)); EXPECT_TRUE(n0->OwnedBy(n1, n2)); n2->ReplaceInput(0, n2); EXPECT_TRUE(n0->OwnedBy(n1)); EXPECT_TRUE(n1->OwnedBy(n2)); n2->ReplaceInput(1, n0); EXPECT_FALSE(n0->OwnedBy(n1)); EXPECT_FALSE(n1->OwnedBy(n2)); } TEST_F(NodeTest, ReplaceUsesNone) { Node* n0 = Node::New(zone(), 0, &kOp0, 0, nullptr, false); Node* n1 = Node::New(zone(), 1, &kOp1, 1, &n0, false); Node* n0_n1[] = {n0, n1}; Node* n2 = Node::New(zone(), 2, &kOp2, 2, n0_n1, false); Node* node = Node::New(zone(), 42, &kOp0, 0, nullptr, false); EXPECT_TRUE(node->uses().empty()); node->ReplaceUses(n0); EXPECT_TRUE(node->uses().empty()); node->ReplaceUses(n1); EXPECT_TRUE(node->uses().empty()); node->ReplaceUses(n2); EXPECT_TRUE(node->uses().empty()); } TEST_F(NodeTest, AppendInput) { Node* n0 = Node::New(zone(), 0, &kOp0, 0, nullptr, false); Node* n1 = Node::New(zone(), 1, &kOp1, 1, &n0, false); Node* node = Node::New(zone(), 12345, &kOp0, 0, nullptr, true); EXPECT_TRUE(node->inputs().empty()); node->AppendInput(zone(), n0); EXPECT_FALSE(node->inputs().empty()); EXPECT_THAT(node->inputs(), ElementsAre(n0)); node->AppendInput(zone(), n1); EXPECT_THAT(node->inputs(), ElementsAre(n0, n1)); node->AppendInput(zone(), n0); EXPECT_THAT(node->inputs(), ElementsAre(n0, n1, n0)); node->AppendInput(zone(), n0); EXPECT_THAT(node->inputs(), ElementsAre(n0, n1, n0, n0)); node->AppendInput(zone(), n1); EXPECT_THAT(node->inputs(), ElementsAre(n0, n1, n0, n0, n1)); } TEST_F(NodeTest, TrimThenAppend) { Node* n0 = Node::New(zone(), 0, &kOp0, 0, nullptr, false); Node* n1 = Node::New(zone(), 1, &kOp0, 0, nullptr, false); Node* n2 = Node::New(zone(), 2, &kOp0, 0, nullptr, false); Node* n3 = Node::New(zone(), 3, &kOp0, 0, nullptr, false); Node* n4 = Node::New(zone(), 4, &kOp0, 0, nullptr, false); Node* n5 = Node::New(zone(), 5, &kOp0, 0, nullptr, false); Node* n6 = Node::New(zone(), 6, &kOp0, 0, nullptr, false); Node* n7 = Node::New(zone(), 7, &kOp0, 0, nullptr, false); Node* n8 = Node::New(zone(), 8, &kOp0, 0, nullptr, false); Node* n9 = Node::New(zone(), 9, &kOp0, 0, nullptr, false); Node* node = Node::New(zone(), 12345, &kOp0, 0, nullptr, true); EXPECT_TRUE(node->inputs().empty()); node->AppendInput(zone(), n0); EXPECT_FALSE(node->inputs().empty()); EXPECT_THAT(node->inputs(), ElementsAre(n0)); node->TrimInputCount(0); EXPECT_TRUE(node->inputs().empty()); node->AppendInput(zone(), n1); EXPECT_FALSE(node->inputs().empty()); EXPECT_THAT(node->inputs(), ElementsAre(n1)); node->AppendInput(zone(), n2); EXPECT_FALSE(node->inputs().empty()); EXPECT_THAT(node->inputs(), ElementsAre(n1, n2)); node->TrimInputCount(1); EXPECT_FALSE(node->inputs().empty()); EXPECT_THAT(node->inputs(), ElementsAre(n1)); node->AppendInput(zone(), n3); EXPECT_FALSE(node->inputs().empty()); EXPECT_THAT(node->inputs(), ElementsAre(n1, n3)); node->AppendInput(zone(), n4); EXPECT_FALSE(node->inputs().empty()); EXPECT_THAT(node->inputs(), ElementsAre(n1, n3, n4)); node->AppendInput(zone(), n5); EXPECT_FALSE(node->inputs().empty()); EXPECT_THAT(node->inputs(), ElementsAre(n1, n3, n4, n5)); node->AppendInput(zone(), n6); EXPECT_FALSE(node->inputs().empty()); EXPECT_THAT(node->inputs(), ElementsAre(n1, n3, n4, n5, n6)); node->AppendInput(zone(), n7); EXPECT_FALSE(node->inputs().empty()); EXPECT_THAT(node->inputs(), ElementsAre(n1, n3, n4, n5, n6, n7)); node->TrimInputCount(4); EXPECT_THAT(node->inputs(), ElementsAre(n1, n3, n4, n5)); node->AppendInput(zone(), n8); EXPECT_FALSE(node->inputs().empty()); EXPECT_THAT(node->inputs(), ElementsAre(n1, n3, n4, n5, n8)); node->AppendInput(zone(), n9); EXPECT_FALSE(node->inputs().empty()); EXPECT_THAT(node->inputs(), ElementsAre(n1, n3, n4, n5, n8, n9)); } TEST_F(NodeTest, BigNodes) { static const int kMaxSize = 512; Node* inputs[kMaxSize]; Node* n0 = Node::New(zone(), 0, &kOp0, 0, nullptr, false); Node* n1 = Node::New(zone(), 1, &kOp1, 1, &n0, false); for (int i = 0; i < kMaxSize; i++) { inputs[i] = i & 1 ? n0 : n1; } for (int size = 13; size <= kMaxSize; size += 9) { Node* node = Node::New(zone(), 12345, &kOp0, size, inputs, false); EXPECT_EQ(size, node->InputCount()); for (int i = 0; i < size; i++) { EXPECT_EQ(inputs[i], node->InputAt(i)); } } } } // namespace compiler } // namespace internal } // namespace v8