// Copyright 2014 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/simplified-operator.h" #include "src/compiler/access-builder.h" #include "src/compiler/js-graph.h" #include "src/compiler/node-properties.h" #include "src/compiler/simplified-operator-reducer.h" #include "src/compiler/types.h" #include "src/conversions-inl.h" #include "test/unittests/compiler/graph-unittest.h" #include "test/unittests/compiler/node-test-utils.h" #include "testing/gmock-support.h" using testing::BitEq; namespace v8 { namespace internal { namespace compiler { namespace simplified_operator_reducer_unittest { class SimplifiedOperatorReducerTest : public GraphTest { public: explicit SimplifiedOperatorReducerTest(int num_parameters = 1) : GraphTest(num_parameters), simplified_(zone()) {} ~SimplifiedOperatorReducerTest() override {} protected: Reduction Reduce(Node* node) { MachineOperatorBuilder machine(zone()); JSOperatorBuilder javascript(zone()); JSGraph jsgraph(isolate(), graph(), common(), &javascript, simplified(), &machine); GraphReducer graph_reducer(zone(), graph()); SimplifiedOperatorReducer reducer(&graph_reducer, &jsgraph); return reducer.Reduce(node); } SimplifiedOperatorBuilder* simplified() { return &simplified_; } private: SimplifiedOperatorBuilder simplified_; }; template class SimplifiedOperatorReducerTestWithParam : public SimplifiedOperatorReducerTest, public ::testing::WithParamInterface { public: explicit SimplifiedOperatorReducerTestWithParam(int num_parameters = 1) : SimplifiedOperatorReducerTest(num_parameters) {} ~SimplifiedOperatorReducerTestWithParam() override {} }; namespace { const double kFloat64Values[] = { -V8_INFINITY, -6.52696e+290, -1.05768e+290, -5.34203e+268, -1.01997e+268, -8.22758e+266, -1.58402e+261, -5.15246e+241, -5.92107e+226, -1.21477e+226, -1.67913e+188, -1.6257e+184, -2.60043e+170, -2.52941e+168, -3.06033e+116, -4.56201e+52, -3.56788e+50, -9.9066e+38, -3.07261e+31, -2.1271e+09, -1.91489e+09, -1.73053e+09, -9.30675e+08, -26030, -20453, -15790, -11699, -111, -97, -78, -63, -58, -1.53858e-06, -2.98914e-12, -1.14741e-39, -8.20347e-57, -1.48932e-59, -3.17692e-66, -8.93103e-81, -3.91337e-83, -6.0489e-92, -8.83291e-113, -4.28266e-117, -1.92058e-178, -2.0567e-192, -1.68167e-194, -1.51841e-214, -3.98738e-234, -7.31851e-242, -2.21875e-253, -1.11612e-293, -0.0, 0.0, 2.22507e-308, 1.06526e-307, 4.16643e-227, 6.76624e-223, 2.0432e-197, 3.16254e-184, 1.37315e-173, 2.88603e-172, 1.54155e-99, 4.42923e-81, 1.40539e-73, 5.4462e-73, 1.24064e-58, 3.11167e-58, 2.75826e-39, 0.143815, 58, 67, 601, 7941, 11644, 13697, 25680, 29882, 1.32165e+08, 1.62439e+08, 4.16837e+08, 9.59097e+08, 1.32491e+09, 1.8728e+09, 1.0672e+17, 2.69606e+46, 1.98285e+79, 1.0098e+82, 7.93064e+88, 3.67444e+121, 9.36506e+123, 7.27954e+162, 3.05316e+168, 1.16171e+175, 1.64771e+189, 1.1622e+202, 2.00748e+239, 2.51778e+244, 3.90282e+306, 1.79769e+308, V8_INFINITY}; const int32_t kInt32Values[] = { -2147483647 - 1, -2104508227, -2103151830, -1435284490, -1378926425, -1318814539, -1289388009, -1287537572, -1279026536, -1241605942, -1226046939, -941837148, -779818051, -413830641, -245798087, -184657557, -127145950, -105483328, -32325, -26653, -23858, -23834, -22363, -19858, -19044, -18744, -15528, -5309, -3372, -2093, -104, -98, -97, -93, -84, -80, -78, -76, -72, -58, -57, -56, -55, -45, -40, -34, -32, -25, -24, -5, -2, 0, 3, 10, 24, 34, 42, 46, 47, 48, 52, 56, 64, 65, 71, 76, 79, 81, 82, 97, 102, 103, 104, 106, 107, 109, 116, 122, 3653, 4485, 12405, 16504, 26262, 28704, 29755, 30554, 16476817, 605431957, 832401070, 873617242, 914205764, 1062628108, 1087581664, 1488498068, 1534668023, 1661587028, 1696896187, 1866841746, 2032089723, 2147483647}; const double kNaNs[] = {-std::numeric_limits::quiet_NaN(), std::numeric_limits::quiet_NaN(), bit_cast(uint64_t{0x7FFFFFFFFFFFFFFF}), bit_cast(uint64_t{0xFFFFFFFFFFFFFFFF})}; const CheckForMinusZeroMode kCheckForMinusZeroModes[] = { CheckForMinusZeroMode::kDontCheckForMinusZero, CheckForMinusZeroMode::kCheckForMinusZero}; } // namespace // ----------------------------------------------------------------------------- // BooleanNot TEST_F(SimplifiedOperatorReducerTest, BooleanNotWithBooleanNot) { Node* param0 = Parameter(0); Reduction reduction = Reduce( graph()->NewNode(simplified()->BooleanNot(), graph()->NewNode(simplified()->BooleanNot(), param0))); ASSERT_TRUE(reduction.Changed()); EXPECT_EQ(param0, reduction.replacement()); } TEST_F(SimplifiedOperatorReducerTest, BooleanNotWithFalseConstant) { Reduction reduction0 = Reduce(graph()->NewNode(simplified()->BooleanNot(), FalseConstant())); ASSERT_TRUE(reduction0.Changed()); EXPECT_THAT(reduction0.replacement(), IsTrueConstant()); } TEST_F(SimplifiedOperatorReducerTest, BooleanNotWithTrueConstant) { Reduction reduction1 = Reduce(graph()->NewNode(simplified()->BooleanNot(), TrueConstant())); ASSERT_TRUE(reduction1.Changed()); EXPECT_THAT(reduction1.replacement(), IsFalseConstant()); } // ----------------------------------------------------------------------------- // ChangeTaggedToBit TEST_F(SimplifiedOperatorReducerTest, ChangeBitToTaggedWithChangeTaggedToBit) { Node* param0 = Parameter(0); Reduction reduction = Reduce(graph()->NewNode( simplified()->ChangeBitToTagged(), graph()->NewNode(simplified()->ChangeTaggedToBit(), param0))); ASSERT_TRUE(reduction.Changed()); EXPECT_EQ(param0, reduction.replacement()); } TEST_F(SimplifiedOperatorReducerTest, ChangeBitToTaggedWithZeroConstant) { Reduction reduction = Reduce( graph()->NewNode(simplified()->ChangeBitToTagged(), Int32Constant(0))); ASSERT_TRUE(reduction.Changed()); EXPECT_THAT(reduction.replacement(), IsFalseConstant()); } TEST_F(SimplifiedOperatorReducerTest, ChangeBitToTaggedWithOneConstant) { Reduction reduction = Reduce( graph()->NewNode(simplified()->ChangeBitToTagged(), Int32Constant(1))); ASSERT_TRUE(reduction.Changed()); EXPECT_THAT(reduction.replacement(), IsTrueConstant()); } // ----------------------------------------------------------------------------- // ChangeTaggedToBit TEST_F(SimplifiedOperatorReducerTest, ChangeTaggedToBitWithFalseConstant) { Reduction reduction = Reduce( graph()->NewNode(simplified()->ChangeTaggedToBit(), FalseConstant())); ASSERT_TRUE(reduction.Changed()); EXPECT_THAT(reduction.replacement(), IsInt32Constant(0)); } TEST_F(SimplifiedOperatorReducerTest, ChangeTaggedToBitWithTrueConstant) { Reduction reduction = Reduce( graph()->NewNode(simplified()->ChangeTaggedToBit(), TrueConstant())); ASSERT_TRUE(reduction.Changed()); EXPECT_THAT(reduction.replacement(), IsInt32Constant(1)); } TEST_F(SimplifiedOperatorReducerTest, ChangeTaggedToBitWithChangeBitToTagged) { Node* param0 = Parameter(0); Reduction reduction = Reduce(graph()->NewNode( simplified()->ChangeTaggedToBit(), graph()->NewNode(simplified()->ChangeBitToTagged(), param0))); ASSERT_TRUE(reduction.Changed()); EXPECT_EQ(param0, reduction.replacement()); } // ----------------------------------------------------------------------------- // ChangeFloat64ToTagged TEST_F(SimplifiedOperatorReducerTest, ChangeFloat64ToTaggedWithConstant) { TRACED_FOREACH(CheckForMinusZeroMode, mode, kCheckForMinusZeroModes) { TRACED_FOREACH(double, n, kFloat64Values) { Reduction reduction = Reduce(graph()->NewNode( simplified()->ChangeFloat64ToTagged(mode), Float64Constant(n))); ASSERT_TRUE(reduction.Changed()); EXPECT_THAT(reduction.replacement(), IsNumberConstant(BitEq(n))); } } } // ----------------------------------------------------------------------------- // ChangeInt32ToTagged TEST_F(SimplifiedOperatorReducerTest, ChangeInt32ToTaggedWithConstant) { TRACED_FOREACH(int32_t, n, kInt32Values) { Reduction reduction = Reduce(graph()->NewNode( simplified()->ChangeInt32ToTagged(), Int32Constant(n))); ASSERT_TRUE(reduction.Changed()); EXPECT_THAT(reduction.replacement(), IsNumberConstant(BitEq(FastI2D(n)))); } } // ----------------------------------------------------------------------------- // ChangeTaggedToFloat64 TEST_F(SimplifiedOperatorReducerTest, ChangeTaggedToFloat64WithChangeFloat64ToTagged) { Node* param0 = Parameter(0); TRACED_FOREACH(CheckForMinusZeroMode, mode, kCheckForMinusZeroModes) { Reduction reduction = Reduce(graph()->NewNode( simplified()->ChangeTaggedToFloat64(), graph()->NewNode(simplified()->ChangeFloat64ToTagged(mode), param0))); ASSERT_TRUE(reduction.Changed()); EXPECT_EQ(param0, reduction.replacement()); } } TEST_F(SimplifiedOperatorReducerTest, ChangeTaggedToFloat64WithChangeInt32ToTagged) { Node* param0 = Parameter(0); Reduction reduction = Reduce(graph()->NewNode( simplified()->ChangeTaggedToFloat64(), graph()->NewNode(simplified()->ChangeInt32ToTagged(), param0))); ASSERT_TRUE(reduction.Changed()); EXPECT_THAT(reduction.replacement(), IsChangeInt32ToFloat64(param0)); } TEST_F(SimplifiedOperatorReducerTest, ChangeTaggedToFloat64WithChangeUint32ToTagged) { Node* param0 = Parameter(0); Reduction reduction = Reduce(graph()->NewNode( simplified()->ChangeTaggedToFloat64(), graph()->NewNode(simplified()->ChangeUint32ToTagged(), param0))); ASSERT_TRUE(reduction.Changed()); EXPECT_THAT(reduction.replacement(), IsChangeUint32ToFloat64(param0)); } TEST_F(SimplifiedOperatorReducerTest, ChangeTaggedToFloat64WithConstant) { TRACED_FOREACH(double, n, kFloat64Values) { Reduction reduction = Reduce(graph()->NewNode( simplified()->ChangeTaggedToFloat64(), NumberConstant(n))); ASSERT_TRUE(reduction.Changed()); EXPECT_THAT(reduction.replacement(), IsFloat64Constant(BitEq(n))); } } TEST_F(SimplifiedOperatorReducerTest, ChangeTaggedToFloat64WithNaNConstant) { TRACED_FOREACH(double, nan, kNaNs) { Reduction reduction = Reduce(graph()->NewNode( simplified()->ChangeTaggedToFloat64(), NumberConstant(nan))); ASSERT_TRUE(reduction.Changed()); EXPECT_THAT(reduction.replacement(), IsFloat64Constant(BitEq(nan))); } } // ----------------------------------------------------------------------------- // ChangeTaggedToInt32 TEST_F(SimplifiedOperatorReducerTest, ChangeTaggedToInt32WithChangeFloat64ToTagged) { Node* param0 = Parameter(0); TRACED_FOREACH(CheckForMinusZeroMode, mode, kCheckForMinusZeroModes) { Reduction reduction = Reduce(graph()->NewNode( simplified()->ChangeTaggedToInt32(), graph()->NewNode(simplified()->ChangeFloat64ToTagged(mode), param0))); ASSERT_TRUE(reduction.Changed()); EXPECT_THAT(reduction.replacement(), IsChangeFloat64ToInt32(param0)); } } TEST_F(SimplifiedOperatorReducerTest, ChangeTaggedToInt32WithChangeInt32ToTagged) { Node* param0 = Parameter(0); Reduction reduction = Reduce(graph()->NewNode( simplified()->ChangeTaggedToInt32(), graph()->NewNode(simplified()->ChangeInt32ToTagged(), param0))); ASSERT_TRUE(reduction.Changed()); EXPECT_EQ(param0, reduction.replacement()); } // ----------------------------------------------------------------------------- // ChangeTaggedToUint32 TEST_F(SimplifiedOperatorReducerTest, ChangeTaggedToUint32WithChangeFloat64ToTagged) { Node* param0 = Parameter(0); TRACED_FOREACH(CheckForMinusZeroMode, mode, kCheckForMinusZeroModes) { Reduction reduction = Reduce(graph()->NewNode( simplified()->ChangeTaggedToUint32(), graph()->NewNode(simplified()->ChangeFloat64ToTagged(mode), param0))); ASSERT_TRUE(reduction.Changed()); EXPECT_THAT(reduction.replacement(), IsChangeFloat64ToUint32(param0)); } } TEST_F(SimplifiedOperatorReducerTest, ChangeTaggedToUint32WithChangeUint32ToTagged) { Node* param0 = Parameter(0); Reduction reduction = Reduce(graph()->NewNode( simplified()->ChangeTaggedToUint32(), graph()->NewNode(simplified()->ChangeUint32ToTagged(), param0))); ASSERT_TRUE(reduction.Changed()); EXPECT_EQ(param0, reduction.replacement()); } // ----------------------------------------------------------------------------- // TruncateTaggedToWord32 TEST_F(SimplifiedOperatorReducerTest, TruncateTaggedToWord3WithChangeFloat64ToTagged) { Node* param0 = Parameter(0); TRACED_FOREACH(CheckForMinusZeroMode, mode, kCheckForMinusZeroModes) { Reduction reduction = Reduce(graph()->NewNode( simplified()->TruncateTaggedToWord32(), graph()->NewNode(simplified()->ChangeFloat64ToTagged(mode), param0))); ASSERT_TRUE(reduction.Changed()); EXPECT_THAT(reduction.replacement(), IsTruncateFloat64ToWord32(param0)); } } TEST_F(SimplifiedOperatorReducerTest, TruncateTaggedToWord32WithConstant) { TRACED_FOREACH(double, n, kFloat64Values) { Reduction reduction = Reduce(graph()->NewNode( simplified()->TruncateTaggedToWord32(), NumberConstant(n))); ASSERT_TRUE(reduction.Changed()); EXPECT_THAT(reduction.replacement(), IsInt32Constant(DoubleToInt32(n))); } } // ----------------------------------------------------------------------------- // CheckedFloat64ToInt32 TEST_F(SimplifiedOperatorReducerTest, CheckedFloat64ToInt32WithConstant) { Node* effect = graph()->start(); Node* control = graph()->start(); TRACED_FOREACH(int32_t, n, kInt32Values) { Reduction r = Reduce(graph()->NewNode( simplified()->CheckedFloat64ToInt32( CheckForMinusZeroMode::kDontCheckForMinusZero, VectorSlotPair()), Float64Constant(n), effect, control)); ASSERT_TRUE(r.Changed()); EXPECT_THAT(r.replacement(), IsInt32Constant(n)); } } // ----------------------------------------------------------------------------- // CheckHeapObject TEST_F(SimplifiedOperatorReducerTest, CheckHeapObjectWithChangeBitToTagged) { Node* param0 = Parameter(0); Node* effect = graph()->start(); Node* control = graph()->start(); Node* value = graph()->NewNode(simplified()->ChangeBitToTagged(), param0); Reduction reduction = Reduce(graph()->NewNode(simplified()->CheckHeapObject(), value, effect, control)); ASSERT_TRUE(reduction.Changed()); EXPECT_EQ(value, reduction.replacement()); } TEST_F(SimplifiedOperatorReducerTest, CheckHeapObjectWithHeapConstant) { Node* effect = graph()->start(); Node* control = graph()->start(); Handle kHeapObjects[] = { factory()->empty_string(), factory()->null_value(), factory()->species_symbol(), factory()->undefined_value()}; TRACED_FOREACH(Handle, object, kHeapObjects) { Node* value = HeapConstant(object); Reduction reduction = Reduce(graph()->NewNode( simplified()->CheckHeapObject(), value, effect, control)); ASSERT_TRUE(reduction.Changed()); EXPECT_EQ(value, reduction.replacement()); } } TEST_F(SimplifiedOperatorReducerTest, CheckHeapObjectWithCheckHeapObject) { Node* param0 = Parameter(0); Node* effect = graph()->start(); Node* control = graph()->start(); Node* value = effect = graph()->NewNode(simplified()->CheckHeapObject(), param0, effect, control); Reduction reduction = Reduce(graph()->NewNode(simplified()->CheckHeapObject(), value, effect, control)); ASSERT_TRUE(reduction.Changed()); EXPECT_EQ(value, reduction.replacement()); } // ----------------------------------------------------------------------------- // CheckSmi TEST_F(SimplifiedOperatorReducerTest, CheckSmiWithChangeInt31ToTaggedSigned) { Node* param0 = Parameter(0); Node* effect = graph()->start(); Node* control = graph()->start(); Node* value = graph()->NewNode(simplified()->ChangeInt31ToTaggedSigned(), param0); Reduction reduction = Reduce(graph()->NewNode( simplified()->CheckSmi(VectorSlotPair()), value, effect, control)); ASSERT_TRUE(reduction.Changed()); EXPECT_EQ(value, reduction.replacement()); } TEST_F(SimplifiedOperatorReducerTest, CheckSmiWithNumberConstant) { Node* effect = graph()->start(); Node* control = graph()->start(); Node* value = NumberConstant(1.0); Reduction reduction = Reduce(graph()->NewNode( simplified()->CheckSmi(VectorSlotPair()), value, effect, control)); ASSERT_TRUE(reduction.Changed()); EXPECT_EQ(value, reduction.replacement()); } TEST_F(SimplifiedOperatorReducerTest, CheckSmiWithCheckSmi) { Node* param0 = Parameter(0); Node* effect = graph()->start(); Node* control = graph()->start(); Node* value = effect = graph()->NewNode( simplified()->CheckSmi(VectorSlotPair()), param0, effect, control); Reduction reduction = Reduce(graph()->NewNode( simplified()->CheckSmi(VectorSlotPair()), value, effect, control)); ASSERT_TRUE(reduction.Changed()); EXPECT_EQ(value, reduction.replacement()); } // ----------------------------------------------------------------------------- // NumberAbs TEST_F(SimplifiedOperatorReducerTest, NumberAbsWithNumberConstant) { TRACED_FOREACH(double, n, kFloat64Values) { Reduction reduction = Reduce(graph()->NewNode(simplified()->NumberAbs(), NumberConstant(n))); ASSERT_TRUE(reduction.Changed()); EXPECT_THAT(reduction.replacement(), IsNumberConstant(std::fabs(n))); } } // ----------------------------------------------------------------------------- // ObjectIsSmi TEST_F(SimplifiedOperatorReducerTest, ObjectIsSmiWithChangeBitToTagged) { Node* param0 = Parameter(0); Reduction reduction = Reduce(graph()->NewNode( simplified()->ObjectIsSmi(), graph()->NewNode(simplified()->ChangeBitToTagged(), param0))); ASSERT_TRUE(reduction.Changed()); EXPECT_THAT(reduction.replacement(), IsFalseConstant()); } TEST_F(SimplifiedOperatorReducerTest, ObjectIsSmiWithChangeInt31ToTaggedSigned) { Node* param0 = Parameter(0); Reduction reduction = Reduce(graph()->NewNode( simplified()->ObjectIsSmi(), graph()->NewNode(simplified()->ChangeInt31ToTaggedSigned(), param0))); ASSERT_TRUE(reduction.Changed()); EXPECT_THAT(reduction.replacement(), IsTrueConstant()); } TEST_F(SimplifiedOperatorReducerTest, ObjectIsSmiWithHeapConstant) { Handle kHeapObjects[] = { factory()->empty_string(), factory()->null_value(), factory()->species_symbol(), factory()->undefined_value()}; TRACED_FOREACH(Handle, o, kHeapObjects) { Reduction reduction = Reduce(graph()->NewNode(simplified()->ObjectIsSmi(), HeapConstant(o))); ASSERT_TRUE(reduction.Changed()); EXPECT_THAT(reduction.replacement(), IsFalseConstant()); } } TEST_F(SimplifiedOperatorReducerTest, ObjectIsSmiWithNumberConstant) { TRACED_FOREACH(double, n, kFloat64Values) { Reduction reduction = Reduce( graph()->NewNode(simplified()->ObjectIsSmi(), NumberConstant(n))); ASSERT_TRUE(reduction.Changed()); EXPECT_THAT(reduction.replacement(), IsBooleanConstant(IsSmiDouble(n))); } } } // namespace simplified_operator_reducer_unittest } // namespace compiler } // namespace internal } // namespace v8