mirror of
https://github.com/dolphin-emu/dolphin
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100 lines
4.2 KiB
C++
100 lines
4.2 KiB
C++
// Copyright 2018 Dolphin Emulator Project
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// SPDX-License-Identifier: GPL-2.0-or-later
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#include <array>
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#include <bit>
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#include <limits>
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#include <random>
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#include <gtest/gtest.h>
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#include "Common/FloatUtils.h"
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#include "../Core/PowerPC/TestValues.h"
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TEST(FloatUtils, IsQNAN)
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{
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EXPECT_TRUE(Common::IsQNAN(std::numeric_limits<double>::quiet_NaN()));
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EXPECT_FALSE(Common::IsQNAN(Common::SNANConstant<double>()));
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}
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TEST(FloatUtils, IsSNAN)
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{
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EXPECT_FALSE(Common::IsSNAN(std::numeric_limits<double>::quiet_NaN()));
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EXPECT_TRUE(Common::IsSNAN(Common::SNANConstant<double>()));
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}
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TEST(FloatUtils, FlushToZero)
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{
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// To test the software implementation we need to make sure FTZ and DAZ are disabled.
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// Using volatile here to ensure the compiler doesn't constant-fold it,
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// we want the multiplication to occur at test runtime.
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volatile float s = std::numeric_limits<float>::denorm_min();
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volatile double d = std::numeric_limits<double>::denorm_min();
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EXPECT_LT(0.f, s * 2);
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EXPECT_LT(0.0, d * 2);
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EXPECT_EQ(+0.0, Common::FlushToZero(+std::numeric_limits<double>::denorm_min()));
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EXPECT_EQ(-0.0, Common::FlushToZero(-std::numeric_limits<double>::denorm_min()));
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EXPECT_EQ(+0.0, Common::FlushToZero(+std::numeric_limits<double>::min() / 2));
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EXPECT_EQ(-0.0, Common::FlushToZero(-std::numeric_limits<double>::min() / 2));
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EXPECT_EQ(std::numeric_limits<double>::min(),
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Common::FlushToZero(std::numeric_limits<double>::min()));
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EXPECT_EQ(std::numeric_limits<double>::max(),
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Common::FlushToZero(std::numeric_limits<double>::max()));
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EXPECT_EQ(+std::numeric_limits<double>::infinity(),
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Common::FlushToZero(+std::numeric_limits<double>::infinity()));
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EXPECT_EQ(-std::numeric_limits<double>::infinity(),
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Common::FlushToZero(-std::numeric_limits<double>::infinity()));
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// Test all subnormals as well as an equally large set of random normal floats.
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std::default_random_engine engine(0);
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std::uniform_int_distribution<u32> dist(0x00800000u, 0x7fffffffu);
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for (u32 i = 0; i <= 0x007fffffu; ++i)
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{
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u32 i_tmp = i;
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EXPECT_EQ(+0.f, Common::FlushToZero(std::bit_cast<float>(i_tmp)));
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i_tmp |= 0x80000000u;
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EXPECT_EQ(-0.f, Common::FlushToZero(std::bit_cast<float>(i_tmp)));
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i_tmp = dist(engine);
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EXPECT_EQ(i_tmp, std::bit_cast<u32>(Common::FlushToZero(std::bit_cast<float>(i_tmp))));
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i_tmp |= 0x80000000u;
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EXPECT_EQ(i_tmp, std::bit_cast<u32>(Common::FlushToZero(std::bit_cast<float>(i_tmp))));
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}
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}
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TEST(FloatUtils, ApproximateReciprocalSquareRoot)
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{
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constexpr std::array<u64, 57> expected_values{
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0x7FF0'0000'0000'0000, 0x617F'FE80'0000'0000, 0x60BF'FE80'0000'0000, 0x5FE0'0008'2C00'0000,
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0x5FDF'FE80'0000'0000, 0x5FDF'FE80'0000'0000, 0x3FEF'FE80'0000'0000, 0x1FF0'0008'2C00'0000,
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0x0000'0000'0000'0000, 0x7FF8'0000'0000'0001, 0x7FFF'FFFF'FFFF'FFFF, 0x7FF8'0000'0000'0000,
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0x7FFF'FFFF'FFFF'FFFF, 0xFFF0'0000'0000'0000, 0x7FF8'0000'0000'0000, 0x7FF8'0000'0000'0000,
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0x7FF8'0000'0000'0000, 0x7FF8'0000'0000'0000, 0x7FF8'0000'0000'0000, 0x7FF8'0000'0000'0000,
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0x7FF8'0000'0000'0000, 0x7FF8'0000'0000'0000, 0xFFF8'0000'0000'0001, 0xFFFF'FFFF'FFFF'FFFF,
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0xFFF8'0000'0000'0000, 0xFFFF'FFFF'FFFF'FFFF, 0x43E6'9FA0'0000'0000, 0x43DF'FE80'0000'0000,
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0x7FF8'0000'0000'0000, 0x7FF8'0000'0000'0000, 0x43E6'9360'6000'0000, 0x43DF'ED30'7000'0000,
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0x7FF8'0000'0000'0000, 0x7FF8'0000'0000'0000, 0x44A6'9FA0'0000'0000, 0x4496'9FA0'0000'0000,
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0x448F'FE80'0000'0000, 0x7FF8'0000'0000'0000, 0x7FF8'0000'0000'0000, 0x7FF8'0000'0000'0000,
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0x44A6'9360'6000'0000, 0x4496'9360'6000'0000, 0x448F'ED30'7000'0000, 0x7FF8'0000'0000'0000,
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0x7FF8'0000'0000'0000, 0x7FF8'0000'0000'0000, 0x3C06'9FA0'0000'0000, 0x3BFF'FE80'0000'0000,
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0x7FF8'0000'0000'0000, 0x7FF8'0000'0000'0000, 0x43EF'FE80'0000'0000, 0x43F6'9FA0'0000'0000,
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0x7FF8'0000'0000'0000, 0x7FF8'0000'0000'0000, 0x3FEA'2040'0000'0000, 0x3FA0'3108'0000'0000,
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0x7FF8'0000'0000'0000};
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for (size_t i = 0; i < double_test_values.size(); ++i)
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{
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u64 ivalue = double_test_values[i];
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double dvalue = std::bit_cast<double>(ivalue);
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u64 expected = expected_values[i];
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u64 actual = std::bit_cast<u64>(Common::ApproximateReciprocalSquareRoot(dvalue));
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EXPECT_EQ(expected, actual);
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}
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}
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