6db78c8065
TurboFan is now a requirement and supported by all backends, so we don't need those macros (plus all the machinery on top) anymore. R=jarin@chromium.org Review URL: https://codereview.chromium.org/1282763002 Cr-Commit-Position: refs/heads/master@{#30082}
460 lines
13 KiB
C++
460 lines
13 KiB
C++
// 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/v8.h"
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#include "test/cctest/cctest.h"
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#include "test/cctest/compiler/codegen-tester.h"
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#include "test/cctest/compiler/value-helper.h"
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using namespace v8::internal;
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using namespace v8::internal::compiler;
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typedef RawMachineAssembler::Label MLabel;
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static IrOpcode::Value int32cmp_opcodes[] = {
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IrOpcode::kWord32Equal, IrOpcode::kInt32LessThan,
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IrOpcode::kInt32LessThanOrEqual, IrOpcode::kUint32LessThan,
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IrOpcode::kUint32LessThanOrEqual};
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TEST(BranchCombineWord32EqualZero_1) {
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// Test combining a branch with x == 0
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RawMachineAssemblerTester<int32_t> m(kMachInt32);
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int32_t eq_constant = -1033;
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int32_t ne_constant = 825118;
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Node* p0 = m.Parameter(0);
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MLabel blocka, blockb;
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m.Branch(m.Word32Equal(p0, m.Int32Constant(0)), &blocka, &blockb);
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m.Bind(&blocka);
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m.Return(m.Int32Constant(eq_constant));
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m.Bind(&blockb);
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m.Return(m.Int32Constant(ne_constant));
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FOR_INT32_INPUTS(i) {
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int32_t a = *i;
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int32_t expect = a == 0 ? eq_constant : ne_constant;
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CHECK_EQ(expect, m.Call(a));
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}
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}
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TEST(BranchCombineWord32EqualZero_chain) {
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// Test combining a branch with a chain of x == 0 == 0 == 0 ...
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int32_t eq_constant = -1133;
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int32_t ne_constant = 815118;
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for (int k = 0; k < 6; k++) {
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RawMachineAssemblerTester<int32_t> m(kMachInt32);
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Node* p0 = m.Parameter(0);
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MLabel blocka, blockb;
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Node* cond = p0;
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for (int j = 0; j < k; j++) {
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cond = m.Word32Equal(cond, m.Int32Constant(0));
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}
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m.Branch(cond, &blocka, &blockb);
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m.Bind(&blocka);
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m.Return(m.Int32Constant(eq_constant));
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m.Bind(&blockb);
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m.Return(m.Int32Constant(ne_constant));
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FOR_INT32_INPUTS(i) {
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int32_t a = *i;
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int32_t expect = (k & 1) == 1 ? (a == 0 ? eq_constant : ne_constant)
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: (a == 0 ? ne_constant : eq_constant);
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CHECK_EQ(expect, m.Call(a));
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}
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}
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}
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TEST(BranchCombineInt32LessThanZero_1) {
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// Test combining a branch with x < 0
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RawMachineAssemblerTester<int32_t> m(kMachInt32);
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int32_t eq_constant = -1433;
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int32_t ne_constant = 845118;
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Node* p0 = m.Parameter(0);
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MLabel blocka, blockb;
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m.Branch(m.Int32LessThan(p0, m.Int32Constant(0)), &blocka, &blockb);
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m.Bind(&blocka);
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m.Return(m.Int32Constant(eq_constant));
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m.Bind(&blockb);
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m.Return(m.Int32Constant(ne_constant));
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FOR_INT32_INPUTS(i) {
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int32_t a = *i;
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int32_t expect = a < 0 ? eq_constant : ne_constant;
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CHECK_EQ(expect, m.Call(a));
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}
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}
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TEST(BranchCombineUint32LessThan100_1) {
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// Test combining a branch with x < 100
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RawMachineAssemblerTester<int32_t> m(kMachUint32);
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int32_t eq_constant = 1471;
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int32_t ne_constant = 88845718;
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Node* p0 = m.Parameter(0);
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MLabel blocka, blockb;
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m.Branch(m.Uint32LessThan(p0, m.Int32Constant(100)), &blocka, &blockb);
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m.Bind(&blocka);
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m.Return(m.Int32Constant(eq_constant));
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m.Bind(&blockb);
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m.Return(m.Int32Constant(ne_constant));
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FOR_UINT32_INPUTS(i) {
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uint32_t a = *i;
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int32_t expect = a < 100 ? eq_constant : ne_constant;
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CHECK_EQ(expect, m.Call(a));
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}
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}
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TEST(BranchCombineUint32LessThanOrEqual100_1) {
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// Test combining a branch with x <= 100
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RawMachineAssemblerTester<int32_t> m(kMachUint32);
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int32_t eq_constant = 1479;
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int32_t ne_constant = 77845719;
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Node* p0 = m.Parameter(0);
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MLabel blocka, blockb;
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m.Branch(m.Uint32LessThanOrEqual(p0, m.Int32Constant(100)), &blocka, &blockb);
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m.Bind(&blocka);
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m.Return(m.Int32Constant(eq_constant));
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m.Bind(&blockb);
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m.Return(m.Int32Constant(ne_constant));
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FOR_UINT32_INPUTS(i) {
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uint32_t a = *i;
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int32_t expect = a <= 100 ? eq_constant : ne_constant;
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CHECK_EQ(expect, m.Call(a));
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}
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}
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TEST(BranchCombineZeroLessThanInt32_1) {
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// Test combining a branch with 0 < x
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RawMachineAssemblerTester<int32_t> m(kMachInt32);
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int32_t eq_constant = -2033;
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int32_t ne_constant = 225118;
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Node* p0 = m.Parameter(0);
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MLabel blocka, blockb;
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m.Branch(m.Int32LessThan(m.Int32Constant(0), p0), &blocka, &blockb);
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m.Bind(&blocka);
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m.Return(m.Int32Constant(eq_constant));
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m.Bind(&blockb);
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m.Return(m.Int32Constant(ne_constant));
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FOR_INT32_INPUTS(i) {
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int32_t a = *i;
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int32_t expect = 0 < a ? eq_constant : ne_constant;
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CHECK_EQ(expect, m.Call(a));
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}
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}
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TEST(BranchCombineInt32GreaterThanZero_1) {
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// Test combining a branch with x > 0
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RawMachineAssemblerTester<int32_t> m(kMachInt32);
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int32_t eq_constant = -1073;
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int32_t ne_constant = 825178;
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Node* p0 = m.Parameter(0);
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MLabel blocka, blockb;
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m.Branch(m.Int32GreaterThan(p0, m.Int32Constant(0)), &blocka, &blockb);
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m.Bind(&blocka);
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m.Return(m.Int32Constant(eq_constant));
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m.Bind(&blockb);
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m.Return(m.Int32Constant(ne_constant));
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FOR_INT32_INPUTS(i) {
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int32_t a = *i;
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int32_t expect = a > 0 ? eq_constant : ne_constant;
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CHECK_EQ(expect, m.Call(a));
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}
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}
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TEST(BranchCombineWord32EqualP) {
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// Test combining a branch with an Word32Equal.
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RawMachineAssemblerTester<int32_t> m(kMachInt32, kMachInt32);
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int32_t eq_constant = -1035;
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int32_t ne_constant = 825018;
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Node* p0 = m.Parameter(0);
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Node* p1 = m.Parameter(1);
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MLabel blocka, blockb;
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m.Branch(m.Word32Equal(p0, p1), &blocka, &blockb);
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m.Bind(&blocka);
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m.Return(m.Int32Constant(eq_constant));
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m.Bind(&blockb);
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m.Return(m.Int32Constant(ne_constant));
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FOR_INT32_INPUTS(i) {
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FOR_INT32_INPUTS(j) {
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int32_t a = *i;
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int32_t b = *j;
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int32_t expect = a == b ? eq_constant : ne_constant;
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CHECK_EQ(expect, m.Call(a, b));
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}
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}
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}
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TEST(BranchCombineWord32EqualI) {
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int32_t eq_constant = -1135;
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int32_t ne_constant = 925718;
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for (int left = 0; left < 2; left++) {
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FOR_INT32_INPUTS(i) {
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RawMachineAssemblerTester<int32_t> m(kMachInt32);
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int32_t a = *i;
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Node* p0 = m.Int32Constant(a);
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Node* p1 = m.Parameter(0);
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MLabel blocka, blockb;
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if (left == 1) m.Branch(m.Word32Equal(p0, p1), &blocka, &blockb);
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if (left == 0) m.Branch(m.Word32Equal(p1, p0), &blocka, &blockb);
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m.Bind(&blocka);
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m.Return(m.Int32Constant(eq_constant));
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m.Bind(&blockb);
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m.Return(m.Int32Constant(ne_constant));
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FOR_INT32_INPUTS(j) {
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int32_t b = *j;
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int32_t expect = a == b ? eq_constant : ne_constant;
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CHECK_EQ(expect, m.Call(b));
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}
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}
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}
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}
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TEST(BranchCombineInt32CmpP) {
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int32_t eq_constant = -1235;
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int32_t ne_constant = 725018;
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for (int op = 0; op < 2; op++) {
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RawMachineAssemblerTester<int32_t> m(kMachInt32, kMachInt32);
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Node* p0 = m.Parameter(0);
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Node* p1 = m.Parameter(1);
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MLabel blocka, blockb;
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if (op == 0) m.Branch(m.Int32LessThan(p0, p1), &blocka, &blockb);
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if (op == 1) m.Branch(m.Int32LessThanOrEqual(p0, p1), &blocka, &blockb);
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m.Bind(&blocka);
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m.Return(m.Int32Constant(eq_constant));
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m.Bind(&blockb);
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m.Return(m.Int32Constant(ne_constant));
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FOR_INT32_INPUTS(i) {
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FOR_INT32_INPUTS(j) {
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int32_t a = *i;
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int32_t b = *j;
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int32_t expect = 0;
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if (op == 0) expect = a < b ? eq_constant : ne_constant;
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if (op == 1) expect = a <= b ? eq_constant : ne_constant;
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CHECK_EQ(expect, m.Call(a, b));
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}
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}
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}
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}
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TEST(BranchCombineInt32CmpI) {
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int32_t eq_constant = -1175;
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int32_t ne_constant = 927711;
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for (int op = 0; op < 2; op++) {
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FOR_INT32_INPUTS(i) {
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RawMachineAssemblerTester<int32_t> m(kMachInt32);
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int32_t a = *i;
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Node* p0 = m.Int32Constant(a);
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Node* p1 = m.Parameter(0);
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MLabel blocka, blockb;
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if (op == 0) m.Branch(m.Int32LessThan(p0, p1), &blocka, &blockb);
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if (op == 1) m.Branch(m.Int32LessThanOrEqual(p0, p1), &blocka, &blockb);
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m.Bind(&blocka);
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m.Return(m.Int32Constant(eq_constant));
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m.Bind(&blockb);
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m.Return(m.Int32Constant(ne_constant));
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FOR_INT32_INPUTS(j) {
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int32_t b = *j;
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int32_t expect = 0;
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if (op == 0) expect = a < b ? eq_constant : ne_constant;
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if (op == 1) expect = a <= b ? eq_constant : ne_constant;
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CHECK_EQ(expect, m.Call(b));
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}
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}
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}
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}
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// Now come the sophisticated tests for many input shape combinations.
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// Materializes a boolean (1 or 0) from a comparison.
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class CmpMaterializeBoolGen : public BinopGen<int32_t> {
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public:
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CompareWrapper w;
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bool invert;
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CmpMaterializeBoolGen(IrOpcode::Value opcode, bool i)
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: w(opcode), invert(i) {}
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virtual void gen(RawMachineAssemblerTester<int32_t>* m, Node* a, Node* b) {
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Node* cond = w.MakeNode(m, a, b);
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if (invert) cond = m->Word32Equal(cond, m->Int32Constant(0));
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m->Return(cond);
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}
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virtual int32_t expected(int32_t a, int32_t b) {
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if (invert) return !w.Int32Compare(a, b) ? 1 : 0;
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return w.Int32Compare(a, b) ? 1 : 0;
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}
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};
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// Generates a branch and return one of two values from a comparison.
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class CmpBranchGen : public BinopGen<int32_t> {
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public:
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CompareWrapper w;
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bool invert;
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bool true_first;
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int32_t eq_constant;
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int32_t ne_constant;
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CmpBranchGen(IrOpcode::Value opcode, bool i, bool t, int32_t eq, int32_t ne)
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: w(opcode), invert(i), true_first(t), eq_constant(eq), ne_constant(ne) {}
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virtual void gen(RawMachineAssemblerTester<int32_t>* m, Node* a, Node* b) {
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MLabel blocka, blockb;
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Node* cond = w.MakeNode(m, a, b);
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if (invert) cond = m->Word32Equal(cond, m->Int32Constant(0));
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m->Branch(cond, &blocka, &blockb);
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if (true_first) {
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m->Bind(&blocka);
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m->Return(m->Int32Constant(eq_constant));
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m->Bind(&blockb);
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m->Return(m->Int32Constant(ne_constant));
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} else {
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m->Bind(&blockb);
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m->Return(m->Int32Constant(ne_constant));
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m->Bind(&blocka);
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m->Return(m->Int32Constant(eq_constant));
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}
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}
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virtual int32_t expected(int32_t a, int32_t b) {
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if (invert) return !w.Int32Compare(a, b) ? eq_constant : ne_constant;
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return w.Int32Compare(a, b) ? eq_constant : ne_constant;
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}
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};
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TEST(BranchCombineInt32CmpAllInputShapes_materialized) {
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for (size_t i = 0; i < arraysize(int32cmp_opcodes); i++) {
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CmpMaterializeBoolGen gen(int32cmp_opcodes[i], false);
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Int32BinopInputShapeTester tester(&gen);
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tester.TestAllInputShapes();
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}
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}
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TEST(BranchCombineInt32CmpAllInputShapes_inverted_materialized) {
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for (size_t i = 0; i < arraysize(int32cmp_opcodes); i++) {
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CmpMaterializeBoolGen gen(int32cmp_opcodes[i], true);
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Int32BinopInputShapeTester tester(&gen);
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tester.TestAllInputShapes();
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}
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}
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TEST(BranchCombineInt32CmpAllInputShapes_branch_true) {
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for (int i = 0; i < static_cast<int>(arraysize(int32cmp_opcodes)); i++) {
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CmpBranchGen gen(int32cmp_opcodes[i], false, false, 995 + i, -1011 - i);
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Int32BinopInputShapeTester tester(&gen);
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tester.TestAllInputShapes();
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}
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}
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TEST(BranchCombineInt32CmpAllInputShapes_branch_false) {
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for (int i = 0; i < static_cast<int>(arraysize(int32cmp_opcodes)); i++) {
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CmpBranchGen gen(int32cmp_opcodes[i], false, true, 795 + i, -2011 - i);
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Int32BinopInputShapeTester tester(&gen);
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tester.TestAllInputShapes();
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}
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}
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TEST(BranchCombineInt32CmpAllInputShapes_inverse_branch_true) {
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for (int i = 0; i < static_cast<int>(arraysize(int32cmp_opcodes)); i++) {
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CmpBranchGen gen(int32cmp_opcodes[i], true, false, 695 + i, -3011 - i);
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Int32BinopInputShapeTester tester(&gen);
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tester.TestAllInputShapes();
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}
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}
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TEST(BranchCombineInt32CmpAllInputShapes_inverse_branch_false) {
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for (int i = 0; i < static_cast<int>(arraysize(int32cmp_opcodes)); i++) {
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CmpBranchGen gen(int32cmp_opcodes[i], true, true, 595 + i, -4011 - i);
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Int32BinopInputShapeTester tester(&gen);
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tester.TestAllInputShapes();
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}
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}
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TEST(BranchCombineFloat64Compares) {
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double inf = V8_INFINITY;
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double nan = std::numeric_limits<double>::quiet_NaN();
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double inputs[] = {0.0, 1.0, -1.0, -inf, inf, nan};
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int32_t eq_constant = -1733;
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int32_t ne_constant = 915118;
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double input_a = 0.0;
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double input_b = 0.0;
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CompareWrapper cmps[] = {CompareWrapper(IrOpcode::kFloat64Equal),
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CompareWrapper(IrOpcode::kFloat64LessThan),
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CompareWrapper(IrOpcode::kFloat64LessThanOrEqual)};
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for (size_t c = 0; c < arraysize(cmps); c++) {
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CompareWrapper cmp = cmps[c];
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for (int invert = 0; invert < 2; invert++) {
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RawMachineAssemblerTester<int32_t> m;
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Node* a = m.LoadFromPointer(&input_a, kMachFloat64);
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Node* b = m.LoadFromPointer(&input_b, kMachFloat64);
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MLabel blocka, blockb;
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Node* cond = cmp.MakeNode(&m, a, b);
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if (invert) cond = m.Word32Equal(cond, m.Int32Constant(0));
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m.Branch(cond, &blocka, &blockb);
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m.Bind(&blocka);
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m.Return(m.Int32Constant(eq_constant));
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m.Bind(&blockb);
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m.Return(m.Int32Constant(ne_constant));
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for (size_t i = 0; i < arraysize(inputs); ++i) {
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for (size_t j = 0; j < arraysize(inputs); ++j) {
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input_a = inputs[i];
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input_b = inputs[j];
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int32_t expected =
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invert ? (cmp.Float64Compare(input_a, input_b) ? ne_constant
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: eq_constant)
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: (cmp.Float64Compare(input_a, input_b) ? eq_constant
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: ne_constant);
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CHECK_EQ(expected, m.Call());
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}
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}
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}
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}
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|
}
|