e04eb281a3
{StaticCharVector}, according to its name, should return a {Vector<const char>}. For getting a {Vector<const uint8_t>}, the method should be called {StaticOneByteVector}, analog to the {OneByteVector} methods that already exist. Also, {StaticCharVector} is constexpr, but {StaticOneByteVector} cannot be, since it contains a {reinterpret_cast}. The same holds for {Vector::cast} in general. This CL - changes the return type of {StaticCharVector} to be {Vector<const char>}, - introduces a new {StaticOneByteVector} which returns {Vector<const uint8_t>}, - fixes constexpr annotations at various methods returning {Vector}s, - refactors users of {StaticCharVector} to either use {StaticOneByteVector} instead, or work on {char} if that makes more sense. R=leszeks@chromium.org Bug: v8:10426 Change-Id: I71e336097e41ad30f982aa6344ca3d67b3a01fe3 Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/2154196 Commit-Queue: Clemens Backes <clemensb@chromium.org> Reviewed-by: Leszek Swirski <leszeks@chromium.org> Cr-Commit-Position: refs/heads/master@{#67213}
419 lines
12 KiB
C++
419 lines
12 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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#ifndef V8_CCTEST_COMPILER_VALUE_HELPER_H_
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#define V8_CCTEST_COMPILER_VALUE_HELPER_H_
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#include <stdint.h>
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#include "src/base/template-utils.h"
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#include "src/compiler/common-operator.h"
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#include "src/compiler/node-matchers.h"
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#include "src/compiler/node.h"
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#include "src/execution/isolate.h"
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#include "src/objects/objects.h"
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#include "test/cctest/cctest.h"
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namespace v8 {
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namespace internal {
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namespace compiler {
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// A collection of utilities related to numerical and heap values, including
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// example input values of various types, including int32_t, uint32_t, double,
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// etc.
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class ValueHelper {
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public:
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Isolate* isolate_;
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ValueHelper() : isolate_(CcTest::InitIsolateOnce()) {}
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void CheckFloat64Constant(double expected, Node* node) {
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CHECK_EQ(IrOpcode::kFloat64Constant, node->opcode());
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CHECK_EQ(expected, OpParameter<double>(node->op()));
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}
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void CheckNumberConstant(double expected, Node* node) {
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CHECK_EQ(IrOpcode::kNumberConstant, node->opcode());
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CHECK_EQ(expected, OpParameter<double>(node->op()));
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}
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void CheckInt32Constant(int32_t expected, Node* node) {
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CHECK_EQ(IrOpcode::kInt32Constant, node->opcode());
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CHECK_EQ(expected, OpParameter<int32_t>(node->op()));
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}
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void CheckUint32Constant(int32_t expected, Node* node) {
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CHECK_EQ(IrOpcode::kInt32Constant, node->opcode());
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CHECK_EQ(expected, OpParameter<int32_t>(node->op()));
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}
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void CheckHeapConstant(HeapObject expected, Node* node) {
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CHECK_EQ(IrOpcode::kHeapConstant, node->opcode());
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CHECK_EQ(expected, *HeapConstantOf(node->op()));
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}
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static constexpr float float32_array[] = {
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-std::numeric_limits<float>::infinity(),
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-2.70497e+38f,
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-1.4698e+37f,
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-1.22813e+35f,
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-1.20555e+35f,
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-1.34584e+34f,
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-1.0079e+32f,
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-6.49364e+26f,
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-3.06077e+25f,
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-1.46821e+25f,
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-1.17658e+23f,
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-1.9617e+22f,
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-2.7357e+20f,
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-9223372036854775808.0f, // INT64_MIN
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-1.48708e+13f,
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-1.89633e+12f,
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-4.66622e+11f,
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-2.22581e+11f,
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-1.45381e+10f,
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-2147483904.0f, // First float32 after INT32_MIN
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-2147483648.0f, // INT32_MIN
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-2147483520.0f, // Last float32 before INT32_MIN
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-1.3956e+09f,
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-1.32951e+09f,
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-1.30721e+09f,
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-1.19756e+09f,
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-9.26822e+08f,
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-6.35647e+08f,
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-4.00037e+08f,
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-1.81227e+08f,
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-5.09256e+07f,
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-964300.0f,
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-192446.0f,
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-28455.0f,
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-27194.0f,
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-26401.0f,
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-20575.0f,
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-17069.0f,
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-9167.0f,
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-960.178f,
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-113.0f,
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-62.0f,
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-15.0f,
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-7.0f,
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-1.0f,
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-0.0256635f,
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-4.60374e-07f,
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-3.63759e-10f,
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-4.30175e-14f,
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-5.27385e-15f,
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-1.5707963267948966f,
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-1.48084e-15f,
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-2.220446049250313e-16f,
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-1.05755e-19f,
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-3.2995e-21f,
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-1.67354e-23f,
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-1.11885e-23f,
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-1.78506e-30f,
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-5.07594e-31f,
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-3.65799e-31f,
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-1.43718e-34f,
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-1.27126e-38f,
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-0.0f,
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0.0f,
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1.17549e-38f,
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1.56657e-37f,
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4.08512e-29f,
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3.31357e-28f,
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6.25073e-22f,
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4.1723e-13f,
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1.44343e-09f,
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1.5707963267948966f,
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5.27004e-08f,
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9.48298e-08f,
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5.57888e-07f,
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4.89988e-05f,
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0.244326f,
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1.0f,
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12.4895f,
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19.0f,
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47.0f,
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106.0f,
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538.324f,
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564.536f,
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819.124f,
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7048.0f,
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12611.0f,
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19878.0f,
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20309.0f,
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797056.0f,
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1.77219e+09f,
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2147483648.0f, // INT32_MAX + 1
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4294967296.0f, // UINT32_MAX + 1
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1.51116e+11f,
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4.18193e+13f,
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3.59167e+16f,
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9223372036854775808.0f, // INT64_MAX + 1
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18446744073709551616.0f, // UINT64_MAX + 1
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3.38211e+19f,
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2.67488e+20f,
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1.78831e+21f,
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9.20914e+21f,
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8.35654e+23f,
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1.4495e+24f,
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5.94015e+25f,
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4.43608e+30f,
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2.44502e+33f,
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2.61152e+33f,
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1.38178e+37f,
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1.71306e+37f,
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3.31899e+38f,
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3.40282e+38f,
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std::numeric_limits<float>::infinity(),
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std::numeric_limits<float>::quiet_NaN(),
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-std::numeric_limits<float>::quiet_NaN()};
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static constexpr Vector<const float> float32_vector() {
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return ArrayVector(float32_array);
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}
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static constexpr double float64_array[] = {
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-2e66,
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-2.220446049250313e-16,
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-9223373136366403584.0,
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-9223372036854775808.0, // INT64_MIN
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-2147483649.5,
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-2147483648.25,
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-2147483648.0,
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-2147483647.875,
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-2147483647.125,
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-2147483647.0,
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-999.75,
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-2e66,
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-1.75,
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-1.5707963267948966,
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-1.0,
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-0.5,
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-0.0,
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0.0,
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3e-88,
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0.125,
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0.25,
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0.375,
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0.5,
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1.0,
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1.17549e-38,
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1.56657e-37,
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1.0000001,
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1.25,
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1.5707963267948966,
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2,
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3.1e7,
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5.125,
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6.25,
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888,
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982983.25,
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2147483647.0,
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2147483647.375,
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2147483647.75,
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2147483648.0,
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2147483648.25,
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2147483649.25,
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9223372036854775808.0, // INT64_MAX + 1
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9223373136366403584.0,
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18446744073709551616.0, // UINT64_MAX + 1
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2e66,
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V8_INFINITY,
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-V8_INFINITY,
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std::numeric_limits<double>::quiet_NaN(),
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-std::numeric_limits<double>::quiet_NaN()};
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static constexpr Vector<const double> float64_vector() {
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return ArrayVector(float64_array);
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}
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static constexpr uint32_t uint32_array[] = {
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0x00000000, 0x00000001, 0xFFFFFFFF, 0x1B09788B, 0x04C5FCE8, 0xCC0DE5BF,
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// This row is useful for testing lea optimizations on intel.
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0x00000002, 0x00000003, 0x00000004, 0x00000005, 0x00000008, 0x00000009,
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0x273A798E, 0x187937A3, 0xECE3AF83, 0x5495A16B, 0x0B668ECC, 0x11223344,
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0x0000009E, 0x00000043, 0x0000AF73, 0x0000116B, 0x00658ECC, 0x002B3B4C,
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0x88776655, 0x70000000, 0x07200000, 0x7FFFFFFF, 0x56123761, 0x7FFFFF00,
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0x761C4761, 0x80000000, 0x88888888, 0xA0000000, 0xDDDDDDDD, 0xE0000000,
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0xEEEEEEEE, 0xFFFFFFFD, 0xF0000000, 0x007FFFFF, 0x003FFFFF, 0x001FFFFF,
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0x000FFFFF, 0x0007FFFF, 0x0003FFFF, 0x0001FFFF, 0x0000FFFF, 0x00007FFF,
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0x00003FFF, 0x00001FFF, 0x00000FFF, 0x000007FF, 0x000003FF, 0x000001FF,
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// Bit pattern of a quiet NaN and signaling NaN, with or without
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// additional payload.
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0x7FC00000, 0x7F800000, 0x7FFFFFFF, 0x7F876543};
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static constexpr Vector<const uint32_t> uint32_vector() {
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return ArrayVector(uint32_array);
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}
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static Vector<const int32_t> int32_vector() {
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return Vector<const int32_t>::cast(uint32_vector());
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}
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static constexpr uint64_t uint64_array[] = {
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0x00000000, 0x00000001, 0xFFFFFFFF, 0x1B09788B, 0x04C5FCE8, 0xCC0DE5BF,
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0x00000002, 0x00000003, 0x00000004, 0x00000005, 0x00000008, 0x00000009,
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0xFFFFFFFFFFFFFFFF, 0xFFFFFFFFFFFFFFFE, 0xFFFFFFFFFFFFFFFD,
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0x0000000000000000, 0x0000000100000000, 0xFFFFFFFF00000000,
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0x1B09788B00000000, 0x04C5FCE800000000, 0xCC0DE5BF00000000,
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0x0000000200000000, 0x0000000300000000, 0x0000000400000000,
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0x0000000500000000, 0x0000000800000000, 0x0000000900000000,
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0x273A798E187937A3, 0xECE3AF835495A16B, 0x0B668ECC11223344, 0x0000009E,
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0x00000043, 0x0000AF73, 0x0000116B, 0x00658ECC, 0x002B3B4C, 0x88776655,
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0x70000000, 0x07200000, 0x7FFFFFFF, 0x56123761, 0x7FFFFF00,
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0x761C4761EEEEEEEE, 0x80000000EEEEEEEE, 0x88888888DDDDDDDD,
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0xA0000000DDDDDDDD, 0xDDDDDDDDAAAAAAAA, 0xE0000000AAAAAAAA,
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0xEEEEEEEEEEEEEEEE, 0xFFFFFFFDEEEEEEEE, 0xF0000000DDDDDDDD,
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0x007FFFFFDDDDDDDD, 0x003FFFFFAAAAAAAA, 0x001FFFFFAAAAAAAA, 0x000FFFFF,
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0x0007FFFF, 0x0003FFFF, 0x0001FFFF, 0x0000FFFF, 0x00007FFF, 0x00003FFF,
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0x00001FFF, 0x00000FFF, 0x000007FF, 0x000003FF, 0x000001FF,
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0x00003FFFFFFFFFFF, 0x00001FFFFFFFFFFF, 0x00000FFFFFFFFFFF,
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0x000007FFFFFFFFFF, 0x000003FFFFFFFFFF, 0x000001FFFFFFFFFF,
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0x8000008000000000, 0x8000008000000001, 0x8000000000000400,
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0x8000000000000401, 0x0000000000000020,
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// Bit pattern of a quiet NaN and signaling NaN, with or without
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// additional payload.
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0x7FF8000000000000, 0x7FF0000000000000, 0x7FF8123456789ABC,
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0x7FF7654321FEDCBA};
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static constexpr Vector<const uint64_t> uint64_vector() {
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return ArrayVector(uint64_array);
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}
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static Vector<const int64_t> int64_vector() {
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return Vector<const int64_t>::cast(uint64_vector());
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}
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static constexpr int16_t int16_array[] = {
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0, 1, 2, INT16_MAX - 1, INT16_MAX, INT16_MIN, INT16_MIN + 1, -2, -1};
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static constexpr Vector<const int16_t> int16_vector() {
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return ArrayVector(int16_array);
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}
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static Vector<const uint16_t> uint16_vector() {
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return Vector<const uint16_t>::cast(int16_vector());
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}
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static constexpr int8_t int8_array[] = {
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0, 1, 2, INT8_MAX - 1, INT8_MAX, INT8_MIN, INT8_MIN + 1, -2, -1};
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static constexpr Vector<const int8_t> int8_vector() {
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return ArrayVector(int8_array);
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}
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static Vector<const uint8_t> uint8_vector() {
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return Vector<const uint8_t>::cast(ArrayVector(int8_array));
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}
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static constexpr uint32_t ror_array[31] = {
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1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16,
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17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31};
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static constexpr Vector<const uint32_t> ror_vector() {
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return ArrayVector(ror_array);
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}
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template <typename T>
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static inline Vector<const T> GetVector();
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};
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template <>
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inline Vector<const int8_t> ValueHelper::GetVector() {
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return int8_vector();
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}
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template <>
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inline Vector<const uint8_t> ValueHelper::GetVector() {
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return uint8_vector();
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}
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template <>
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inline Vector<const int16_t> ValueHelper::GetVector() {
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return int16_vector();
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}
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template <>
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inline Vector<const uint16_t> ValueHelper::GetVector() {
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return uint16_vector();
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}
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template <>
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inline Vector<const int32_t> ValueHelper::GetVector() {
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return int32_vector();
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}
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template <>
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inline Vector<const uint32_t> ValueHelper::GetVector() {
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return uint32_vector();
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}
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template <>
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inline Vector<const int64_t> ValueHelper::GetVector() {
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return int64_vector();
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}
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// Helper macros that can be used in FOR_INT32_INPUTS(i) { ... i ... }
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#define FOR_INPUTS(ctype, itype, var) \
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for (ctype var : ::v8::internal::compiler::ValueHelper::itype##_vector())
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#define FOR_INT32_INPUTS(var) FOR_INPUTS(int32_t, int32, var)
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#define FOR_UINT32_INPUTS(var) FOR_INPUTS(uint32_t, uint32, var)
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#define FOR_INT16_INPUTS(var) FOR_INPUTS(int16_t, int16, var)
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#define FOR_UINT16_INPUTS(var) FOR_INPUTS(uint16_t, uint16, var)
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#define FOR_INT8_INPUTS(var) FOR_INPUTS(int8_t, int8, var)
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#define FOR_UINT8_INPUTS(var) FOR_INPUTS(uint8_t, uint8, var)
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#define FOR_INT64_INPUTS(var) FOR_INPUTS(int64_t, int64, var)
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#define FOR_UINT64_INPUTS(var) FOR_INPUTS(uint64_t, uint64, var)
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#define FOR_FLOAT32_INPUTS(var) FOR_INPUTS(float, float32, var)
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#define FOR_FLOAT64_INPUTS(var) FOR_INPUTS(double, float64, var)
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#define FOR_INT32_SHIFTS(var) for (int32_t var = 0; var < 32; var++)
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#define FOR_UINT32_SHIFTS(var) for (uint32_t var = 0; var < 32; var++)
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template <typename type>
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struct FloatCompareWrapper {
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type value;
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explicit FloatCompareWrapper(type x) : value(x) {}
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bool operator==(FloatCompareWrapper<type> const& other) const {
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return std::isnan(value)
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? std::isnan(other.value)
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: value == other.value &&
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std::signbit(value) == std::signbit(other.value);
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}
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};
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template <typename type>
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std::ostream& operator<<(std::ostream& out, FloatCompareWrapper<type> wrapper) {
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uint8_t bytes[sizeof(type)];
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memcpy(bytes, &wrapper.value, sizeof(type));
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out << wrapper.value << " (0x";
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const char* kHexDigits = "0123456789ABCDEF";
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for (unsigned i = 0; i < sizeof(type); ++i) {
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out << kHexDigits[bytes[i] >> 4] << kHexDigits[bytes[i] & 15];
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}
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return out << ")";
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}
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#define CHECK_FLOAT_EQ(lhs, rhs) \
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do { \
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using FloatWrapper = ::v8::internal::compiler::FloatCompareWrapper<float>; \
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CHECK_EQ(FloatWrapper(lhs), FloatWrapper(rhs)); \
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} while (false)
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#define CHECK_DOUBLE_EQ(lhs, rhs) \
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do { \
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using DoubleWrapper = \
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::v8::internal::compiler::FloatCompareWrapper<double>; \
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CHECK_EQ(DoubleWrapper(lhs), DoubleWrapper(rhs)); \
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} while (false)
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} // namespace compiler
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} // namespace internal
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} // namespace v8
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#endif // V8_CCTEST_COMPILER_VALUE_HELPER_H_
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