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261 lines
6.4 KiB
261 lines
6.4 KiB
// 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/control-equivalence.h"
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#include "src/bit-vector.h"
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#include "src/compiler/compiler-source-position-table.h"
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#include "src/compiler/graph-visualizer.h"
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#include "src/compiler/node-properties.h"
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#include "src/zone/zone-containers.h"
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#include "test/unittests/compiler/graph-unittest.h"
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namespace v8 {
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namespace internal {
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namespace compiler {
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#define ASSERT_EQUIVALENCE(...) \
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do { \
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Node* __n[] = {__VA_ARGS__}; \
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ASSERT_TRUE(IsEquivalenceClass(arraysize(__n), __n)); \
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} while (false)
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class ControlEquivalenceTest : public GraphTest {
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public:
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ControlEquivalenceTest() : all_nodes_(zone()), classes_(zone()) {
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Store(graph()->start());
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}
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protected:
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void ComputeEquivalence(Node* node) {
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graph()->SetEnd(graph()->NewNode(common()->End(1), node));
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if (FLAG_trace_turbo) {
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OFStream os(stdout);
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SourcePositionTable table(graph());
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os << AsJSON(*graph(), &table);
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}
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ControlEquivalence equivalence(zone(), graph());
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equivalence.Run(node);
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classes_.resize(graph()->NodeCount());
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for (Node* node : all_nodes_) {
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classes_[node->id()] = equivalence.ClassOf(node);
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}
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}
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bool IsEquivalenceClass(size_t length, Node** nodes) {
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BitVector in_class(static_cast<int>(graph()->NodeCount()), zone());
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size_t expected_class = classes_[nodes[0]->id()];
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for (size_t i = 0; i < length; ++i) {
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in_class.Add(nodes[i]->id());
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}
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for (Node* node : all_nodes_) {
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if (in_class.Contains(node->id())) {
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if (classes_[node->id()] != expected_class) return false;
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} else {
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if (classes_[node->id()] == expected_class) return false;
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}
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}
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return true;
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}
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Node* Value() { return NumberConstant(0.0); }
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Node* Branch(Node* control) {
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return Store(graph()->NewNode(common()->Branch(), Value(), control));
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}
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Node* IfTrue(Node* control) {
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return Store(graph()->NewNode(common()->IfTrue(), control));
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}
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Node* IfFalse(Node* control) {
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return Store(graph()->NewNode(common()->IfFalse(), control));
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}
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Node* Merge1(Node* control) {
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return Store(graph()->NewNode(common()->Merge(1), control));
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}
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Node* Merge2(Node* control1, Node* control2) {
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return Store(graph()->NewNode(common()->Merge(2), control1, control2));
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}
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Node* Loop2(Node* control) {
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return Store(graph()->NewNode(common()->Loop(2), control, control));
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}
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Node* End(Node* control) {
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return Store(graph()->NewNode(common()->End(1), control));
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}
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private:
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Node* Store(Node* node) {
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all_nodes_.push_back(node);
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return node;
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}
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ZoneVector<Node*> all_nodes_;
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ZoneVector<size_t> classes_;
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};
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// -----------------------------------------------------------------------------
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// Test cases.
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TEST_F(ControlEquivalenceTest, Empty1) {
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Node* start = graph()->start();
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ComputeEquivalence(start);
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ASSERT_EQUIVALENCE(start);
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}
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TEST_F(ControlEquivalenceTest, Empty2) {
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Node* start = graph()->start();
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Node* merge1 = Merge1(start);
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ComputeEquivalence(merge1);
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ASSERT_EQUIVALENCE(start, merge1);
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}
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TEST_F(ControlEquivalenceTest, Diamond1) {
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Node* start = graph()->start();
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Node* b = Branch(start);
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Node* t = IfTrue(b);
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Node* f = IfFalse(b);
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Node* m = Merge2(t, f);
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ComputeEquivalence(m);
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ASSERT_EQUIVALENCE(b, m, start);
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ASSERT_EQUIVALENCE(f);
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ASSERT_EQUIVALENCE(t);
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}
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TEST_F(ControlEquivalenceTest, Diamond2) {
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Node* start = graph()->start();
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Node* b1 = Branch(start);
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Node* t1 = IfTrue(b1);
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Node* f1 = IfFalse(b1);
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Node* b2 = Branch(f1);
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Node* t2 = IfTrue(b2);
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Node* f2 = IfFalse(b2);
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Node* m2 = Merge2(t2, f2);
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Node* m1 = Merge2(t1, m2);
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ComputeEquivalence(m1);
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ASSERT_EQUIVALENCE(b1, m1, start);
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ASSERT_EQUIVALENCE(t1);
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ASSERT_EQUIVALENCE(f1, b2, m2);
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ASSERT_EQUIVALENCE(t2);
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ASSERT_EQUIVALENCE(f2);
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}
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TEST_F(ControlEquivalenceTest, Diamond3) {
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Node* start = graph()->start();
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Node* b1 = Branch(start);
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Node* t1 = IfTrue(b1);
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Node* f1 = IfFalse(b1);
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Node* m1 = Merge2(t1, f1);
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Node* b2 = Branch(m1);
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Node* t2 = IfTrue(b2);
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Node* f2 = IfFalse(b2);
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Node* m2 = Merge2(t2, f2);
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ComputeEquivalence(m2);
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ASSERT_EQUIVALENCE(b1, m1, b2, m2, start);
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ASSERT_EQUIVALENCE(t1);
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ASSERT_EQUIVALENCE(f1);
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ASSERT_EQUIVALENCE(t2);
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ASSERT_EQUIVALENCE(f2);
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}
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TEST_F(ControlEquivalenceTest, Switch1) {
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Node* start = graph()->start();
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Node* b1 = Branch(start);
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Node* t1 = IfTrue(b1);
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Node* f1 = IfFalse(b1);
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Node* b2 = Branch(f1);
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Node* t2 = IfTrue(b2);
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Node* f2 = IfFalse(b2);
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Node* b3 = Branch(f2);
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Node* t3 = IfTrue(b3);
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Node* f3 = IfFalse(b3);
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Node* m1 = Merge2(t1, t2);
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Node* m2 = Merge2(m1, t3);
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Node* m3 = Merge2(m2, f3);
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ComputeEquivalence(m3);
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ASSERT_EQUIVALENCE(b1, m3, start);
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ASSERT_EQUIVALENCE(t1);
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ASSERT_EQUIVALENCE(f1, b2);
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ASSERT_EQUIVALENCE(t2);
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ASSERT_EQUIVALENCE(f2, b3);
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ASSERT_EQUIVALENCE(t3);
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ASSERT_EQUIVALENCE(f3);
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ASSERT_EQUIVALENCE(m1);
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ASSERT_EQUIVALENCE(m2);
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}
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TEST_F(ControlEquivalenceTest, Loop1) {
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Node* start = graph()->start();
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Node* l = Loop2(start);
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l->ReplaceInput(1, l);
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ComputeEquivalence(l);
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ASSERT_EQUIVALENCE(start);
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ASSERT_EQUIVALENCE(l);
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}
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TEST_F(ControlEquivalenceTest, Loop2) {
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Node* start = graph()->start();
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Node* l = Loop2(start);
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Node* b = Branch(l);
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Node* t = IfTrue(b);
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Node* f = IfFalse(b);
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l->ReplaceInput(1, t);
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ComputeEquivalence(f);
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ASSERT_EQUIVALENCE(f, start);
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ASSERT_EQUIVALENCE(t);
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ASSERT_EQUIVALENCE(l, b);
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}
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TEST_F(ControlEquivalenceTest, Irreducible) {
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Node* start = graph()->start();
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Node* b1 = Branch(start);
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Node* t1 = IfTrue(b1);
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Node* f1 = IfFalse(b1);
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Node* lp = Loop2(f1);
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Node* m1 = Merge2(t1, lp);
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Node* b2 = Branch(m1);
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Node* t2 = IfTrue(b2);
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Node* f2 = IfFalse(b2);
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Node* m2 = Merge2(t2, f2);
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Node* b3 = Branch(m2);
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Node* t3 = IfTrue(b3);
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Node* f3 = IfFalse(b3);
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lp->ReplaceInput(1, f3);
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ComputeEquivalence(t3);
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ASSERT_EQUIVALENCE(b1, t3, start);
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ASSERT_EQUIVALENCE(t1);
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ASSERT_EQUIVALENCE(f1);
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ASSERT_EQUIVALENCE(m1, b2, m2, b3);
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ASSERT_EQUIVALENCE(t2);
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ASSERT_EQUIVALENCE(f2);
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ASSERT_EQUIVALENCE(f3);
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ASSERT_EQUIVALENCE(lp);
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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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