2021-02-13 11:38:20 +00:00
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// Copyright 2021 Dolphin Emulator Project
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2021-07-05 01:22:19 +00:00
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// SPDX-License-Identifier: GPL-2.0-or-later
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2021-02-13 11:38:20 +00:00
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#include <functional>
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#include "Common/Arm64Emitter.h"
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#include "Common/BitUtils.h"
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#include "Common/CommonTypes.h"
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#include "Common/FPURoundMode.h"
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#include "Core/PowerPC/Interpreter/Interpreter_FPUtils.h"
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#include "Core/PowerPC/JitArm64/Jit.h"
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2021-05-02 15:14:06 +00:00
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#include "../TestValues.h"
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2021-02-13 11:38:20 +00:00
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#include <fmt/format.h>
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#include <gtest/gtest.h>
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namespace
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{
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using namespace Arm64Gen;
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// The ABI situation for returning an std::tuple seems annoying. Let's use this struct instead
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template <typename T>
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struct Pair
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{
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T value1;
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T value2;
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};
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class TestConversion : private JitArm64
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{
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public:
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TestConversion()
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{
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2021-06-19 17:05:35 +00:00
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const Common::ScopedJITPageWriteAndNoExecute enable_jit_page_writes;
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2021-02-13 11:38:20 +00:00
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AllocCodeSpace(4096);
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2021-08-22 12:21:54 +00:00
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AddChildCodeSpace(&m_far_code, 2048);
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2021-02-13 11:38:20 +00:00
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gpr.Init(this);
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fpr.Init(this);
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js.fpr_is_store_safe = BitSet32(0);
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GetAsmRoutines()->cdts = GetCodePtr();
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GenerateConvertDoubleToSingle();
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GetAsmRoutines()->cstd = GetCodePtr();
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GenerateConvertSingleToDouble();
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gpr.Lock(ARM64Reg::W30);
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fpr.Lock(ARM64Reg::Q0, ARM64Reg::Q1);
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convert_single_to_double_lower = Common::BitCast<u64 (*)(u32)>(GetCodePtr());
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m_float_emit.INS(32, ARM64Reg::S0, 0, ARM64Reg::W0);
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ConvertSingleToDoubleLower(0, ARM64Reg::D0, ARM64Reg::S0, ARM64Reg::Q1);
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m_float_emit.UMOV(64, ARM64Reg::X0, ARM64Reg::D0, 0);
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RET();
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convert_single_to_double_pair = Common::BitCast<Pair<u64> (*)(u32, u32)>(GetCodePtr());
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m_float_emit.INS(32, ARM64Reg::D0, 0, ARM64Reg::W0);
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m_float_emit.INS(32, ARM64Reg::D0, 1, ARM64Reg::W1);
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ConvertSingleToDoublePair(0, ARM64Reg::Q0, ARM64Reg::D0, ARM64Reg::Q1);
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m_float_emit.UMOV(64, ARM64Reg::X0, ARM64Reg::Q0, 0);
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m_float_emit.UMOV(64, ARM64Reg::X1, ARM64Reg::Q0, 1);
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RET();
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convert_double_to_single_lower = Common::BitCast<u32 (*)(u64)>(GetCodePtr());
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m_float_emit.INS(64, ARM64Reg::D0, 0, ARM64Reg::X0);
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ConvertDoubleToSingleLower(0, ARM64Reg::S0, ARM64Reg::D0);
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m_float_emit.UMOV(32, ARM64Reg::W0, ARM64Reg::S0, 0);
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RET();
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convert_double_to_single_pair = Common::BitCast<Pair<u32> (*)(u64, u64)>(GetCodePtr());
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m_float_emit.INS(64, ARM64Reg::Q0, 0, ARM64Reg::X0);
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m_float_emit.INS(64, ARM64Reg::Q0, 1, ARM64Reg::X1);
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ConvertDoubleToSinglePair(0, ARM64Reg::D0, ARM64Reg::Q0);
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m_float_emit.UMOV(64, ARM64Reg::X0, ARM64Reg::D0, 0);
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RET();
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gpr.Unlock(ARM64Reg::W30);
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fpr.Unlock(ARM64Reg::Q0, ARM64Reg::Q1);
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FlushIcache();
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// Set the rounding mode to something that's as annoying as possible to handle
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// (flush-to-zero enabled, and rounding not symmetric about the origin)
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FPURoundMode::SetSIMDMode(FPURoundMode::RoundMode::ROUND_UP, true);
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}
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~TestConversion() override
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{
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FPURoundMode::LoadDefaultSIMDState();
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FreeCodeSpace();
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}
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u64 ConvertSingleToDouble(u32 value) { return convert_single_to_double_lower(value); }
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Pair<u64> ConvertSingleToDouble(u32 value1, u32 value2)
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{
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return convert_single_to_double_pair(value1, value2);
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}
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u32 ConvertDoubleToSingle(u64 value) { return convert_double_to_single_lower(value); }
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Pair<u32> ConvertDoubleToSingle(u64 value1, u64 value2)
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{
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return convert_double_to_single_pair(value1, value2);
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}
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private:
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std::function<u64(u32)> convert_single_to_double_lower;
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std::function<Pair<u64>(u32, u32)> convert_single_to_double_pair;
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std::function<u32(u64)> convert_double_to_single_lower;
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std::function<Pair<u32>(u64, u64)> convert_double_to_single_pair;
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};
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} // namespace
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TEST(JitArm64, ConvertDoubleToSingle)
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{
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TestConversion test;
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2021-05-02 15:14:06 +00:00
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for (const u64 input : double_test_values)
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2021-02-13 11:38:20 +00:00
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{
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const u32 expected = ConvertToSingle(input);
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const u32 actual = test.ConvertDoubleToSingle(input);
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if (expected != actual)
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fmt::print("{:016x} -> {:08x} == {:08x}\n", input, actual, expected);
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EXPECT_EQ(expected, actual);
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}
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2021-05-02 15:14:06 +00:00
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for (const u64 input1 : double_test_values)
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{
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for (const u64 input2 : double_test_values)
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2021-02-13 11:38:20 +00:00
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{
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const u32 expected1 = ConvertToSingle(input1);
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const u32 expected2 = ConvertToSingle(input2);
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const auto [actual1, actual2] = test.ConvertDoubleToSingle(input1, input2);
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if (expected1 != actual1 || expected2 != actual2)
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{
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fmt::print("{:016x} -> {:08x} == {:08x},\n", input1, actual1, expected1);
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fmt::print("{:016x} -> {:08x} == {:08x}\n", input2, actual2, expected2);
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}
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EXPECT_EQ(expected1, actual1);
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EXPECT_EQ(expected2, actual2);
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}
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}
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}
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TEST(JitArm64, ConvertSingleToDouble)
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{
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TestConversion test;
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2021-05-02 15:14:06 +00:00
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for (const u32 input : single_test_values)
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2021-02-13 11:38:20 +00:00
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{
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const u64 expected = ConvertToDouble(input);
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const u64 actual = test.ConvertSingleToDouble(input);
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if (expected != actual)
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fmt::print("{:08x} -> {:016x} == {:016x}\n", input, actual, expected);
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EXPECT_EQ(expected, actual);
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}
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2021-05-02 15:14:06 +00:00
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for (const u32 input1 : single_test_values)
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2021-02-13 11:38:20 +00:00
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{
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2021-05-02 15:14:06 +00:00
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for (const u32 input2 : single_test_values)
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2021-02-13 11:38:20 +00:00
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{
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const u64 expected1 = ConvertToDouble(input1);
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const u64 expected2 = ConvertToDouble(input2);
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const auto [actual1, actual2] = test.ConvertSingleToDouble(input1, input2);
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if (expected1 != actual1 || expected2 != actual2)
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{
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fmt::print("{:08x} -> {:016x} == {:016x},\n", input1, actual1, expected1);
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fmt::print("{:08x} -> {:016x} == {:016x}\n", input2, actual2, expected2);
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}
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EXPECT_EQ(expected1, actual1);
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EXPECT_EQ(expected2, actual2);
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}
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}
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}
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