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https://github.com/citra-emu/citra-canary.git
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Merge PR 7372
This commit is contained in:
parent
0ff3440232
commit
ab626208c5
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@ -14,6 +14,7 @@ add_executable(tests
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audio_core/audio_fixures.h
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audio_core/audio_fixures.h
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audio_core/decoder_tests.cpp
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audio_core/decoder_tests.cpp
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video_core/shader/shader_jit_compiler.cpp
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video_core/shader/shader_jit_compiler.cpp
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video_core/pica_float.cpp
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audio_core/merryhime_3ds_audio/merry_audio/merry_audio.cpp
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audio_core/merryhime_3ds_audio/merry_audio/merry_audio.cpp
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audio_core/merryhime_3ds_audio/merry_audio/merry_audio.h
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audio_core/merryhime_3ds_audio/merry_audio/merry_audio.h
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audio_core/merryhime_3ds_audio/merry_audio/service_fixture.cpp
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audio_core/merryhime_3ds_audio/merry_audio/service_fixture.cpp
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30
src/tests/video_core/pica_float.cpp
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30
src/tests/video_core/pica_float.cpp
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@ -0,0 +1,30 @@
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// Copyright 2024 Citra Emulator Project
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// Licensed under GPLv2 or any later version
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// Refer to the license.txt file included.
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#include <cmath>
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#include <catch2/catch_approx.hpp>
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#include <catch2/catch_test_macros.hpp>
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#include "video_core/pica_types.h"
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using Pica::f24;
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TEST_CASE("Infinities", "[video_core][pica_float]") {
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REQUIRE(std::isinf(f24::FromFloat32(INFINITY).ToFloat32()));
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REQUIRE(std::isinf(f24::FromFloat32(1.e20f).ToFloat32()));
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REQUIRE(std::isinf(f24::FromFloat32(-1.e20f).ToFloat32()));
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}
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TEST_CASE("Subnormals", "[video_core][pica_float]") {
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REQUIRE(f24::FromFloat32(1e-20f).ToFloat32() == 0.f);
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}
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TEST_CASE("NaN", "[video_core][pica_float]") {
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const auto inf = f24::FromFloat32(INFINITY);
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const auto nan = f24::FromFloat32(NAN);
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REQUIRE(std::isnan(nan.ToFloat32()));
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REQUIRE(std::isnan((nan * f24::Zero()).ToFloat32()));
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REQUIRE(std::isnan((inf - inf).ToFloat32()));
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REQUIRE((inf * f24::Zero()).ToFloat32() == 0.f);
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}
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@ -260,7 +260,7 @@ TEST_CASE("LG2", "[video_core][shader][shader_jit]") {
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REQUIRE(std::isinf(shader.Run(0.f).x));
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REQUIRE(std::isinf(shader.Run(0.f).x));
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REQUIRE(shader.Run(4.f).x == Catch::Approx(2.f));
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REQUIRE(shader.Run(4.f).x == Catch::Approx(2.f));
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REQUIRE(shader.Run(64.f).x == Catch::Approx(6.f));
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REQUIRE(shader.Run(64.f).x == Catch::Approx(6.f));
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REQUIRE(shader.Run(1.e24f).x == Catch::Approx(79.7262742773f));
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// REQUIRE(std::isinf(shader.Run(INFINITY).x));
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}
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}
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TEST_CASE("EX2", "[video_core][shader][shader_jit]") {
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TEST_CASE("EX2", "[video_core][shader][shader_jit]") {
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@ -277,8 +277,9 @@ TEST_CASE("EX2", "[video_core][shader][shader_jit]") {
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REQUIRE(shader.Run(0.f).x == Catch::Approx(1.f));
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REQUIRE(shader.Run(0.f).x == Catch::Approx(1.f));
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REQUIRE(shader.Run(2.f).x == Catch::Approx(4.f));
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REQUIRE(shader.Run(2.f).x == Catch::Approx(4.f));
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REQUIRE(shader.Run(6.f).x == Catch::Approx(64.f));
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REQUIRE(shader.Run(6.f).x == Catch::Approx(64.f));
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REQUIRE(shader.Run(79.7262742773f).x == Catch::Approx(1.e24f));
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REQUIRE(std::isinf(shader.Run(800.f).x));
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REQUIRE(std::isinf(shader.Run(800.f).x));
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// If we respect f24 precision, 2^79 = inf, as 79 > 63
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// REQUIRE(std::isinf(shader.Run(79.7262742773f).x));
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}
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}
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TEST_CASE("MUL", "[video_core][shader][shader_jit]") {
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TEST_CASE("MUL", "[video_core][shader][shader_jit]") {
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@ -469,7 +470,7 @@ TEST_CASE("Uniform Read", "[video_core][shader][shader_jit]") {
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const float color = (i * 2.0f) / 255.0f;
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const float color = (i * 2.0f) / 255.0f;
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const auto color_f24 = Pica::f24::FromFloat32(color);
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const auto color_f24 = Pica::f24::FromFloat32(color);
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shader.shader_setup->uniforms.f[i] = {color_f24, color_f24, color_f24, Pica::f24::One()};
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shader.shader_setup->uniforms.f[i] = {color_f24, color_f24, color_f24, Pica::f24::One()};
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f_uniforms[i] = {color, color, color, 1.0f};
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f_uniforms[i] = {color_f24.ToFloat32(), color_f24.ToFloat32(), color_f24.ToFloat32(), 1.0f};
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}
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}
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for (u32 i = 0; i < 96; ++i) {
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for (u32 i = 0; i < 96; ++i) {
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@ -506,7 +507,8 @@ TEST_CASE("Address Register Offset", "[video_core][shader][shader_jit]") {
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const auto color_f24 = Pica::f24::FromFloat32(color);
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const auto color_f24 = Pica::f24::FromFloat32(color);
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shader.shader_setup->uniforms.f[i] = {color_f24, color_f24, color_f24,
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shader.shader_setup->uniforms.f[i] = {color_f24, color_f24, color_f24,
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Pica::f24::One()};
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Pica::f24::One()};
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f_uniforms[i] = {color, color, color, 1.f};
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f_uniforms[i] = {color_f24.ToFloat32(), color_f24.ToFloat32(), color_f24.ToFloat32(),
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1.f};
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} else if (i >= 0x60 && i < 0x64) {
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} else if (i >= 0x60 && i < 0x64) {
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const u8 color = static_cast<u8>((i - 0x60) * 0x10);
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const u8 color = static_cast<u8>((i - 0x60) * 0x10);
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shader.shader_setup->uniforms.i[i - 0x60] = {color, color, color, 255};
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shader.shader_setup->uniforms.i[i - 0x60] = {color, color, color, 255};
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@ -4,8 +4,10 @@
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#pragma once
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#pragma once
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#include <bit>
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#include <cmath>
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#include <cmath>
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#include <cstring>
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#include <cstring>
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#include <limits>
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#include <boost/serialization/access.hpp>
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#include <boost/serialization/access.hpp>
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#include "common/common_types.h"
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#include "common/common_types.h"
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@ -28,6 +30,41 @@ public:
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static constexpr Float<M, E> FromFloat32(float val) {
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static constexpr Float<M, E> FromFloat32(float val) {
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Float<M, E> ret;
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Float<M, E> ret;
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ret.value = val;
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ret.value = val;
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return Trunc(ret);
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}
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static constexpr Float<M, E> MinNormal() {
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Float<M, E> ret;
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// Mininum normal value = 1.0 / (1 << ((1 << (E - 1)) - 2));
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if constexpr (E == 5) {
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ret.value = 0x1.p-14;
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} else {
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// E == 7
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ret.value = (0x1.p-62);
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}
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return ret;
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}
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// these values are approximate, rounded up
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static constexpr Float<M, E> Max() {
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Float<M, E> ret;
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if constexpr (E == 5) {
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ret.value = 0x1.p16;
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} else {
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// E == 7
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ret.value = 0x1.p64;
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}
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return ret;
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}
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// before C++23 std::isnormal and std::abs aren't considered constexpr so this function can't be
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// used as constexpr until the compilers support that.
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static constexpr Float<M, E> Trunc(const Float<M, E>& val) {
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Float<M, E> ret = val.Flushed().InfChecked();
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if (std::isnormal(val.ToFloat32())) {
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u32 hex = std::bit_cast<u32>(ret.ToFloat32()) & (0xffffffff ^ ((1 << (23 - M)) - 1));
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ret.value = std::bit_cast<float>(hex);
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}
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return ret;
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return ret;
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}
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}
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@ -50,17 +87,21 @@ public:
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hex = sign;
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hex = sign;
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}
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}
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std::memcpy(&res.value, &hex, sizeof(float));
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res.value = std::bit_cast<float>(hex);
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return res;
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return res;
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}
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}
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static constexpr Float<M, E> Zero() {
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static constexpr Float<M, E> Zero() {
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return FromFloat32(0.f);
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Float<M, E> ret;
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ret.value = 0.f;
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return ret;
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}
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}
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static constexpr Float<M, E> One() {
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static constexpr Float<M, E> One() {
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return FromFloat32(1.f);
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Float<M, E> ret;
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ret.value = 1.f;
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return ret;
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}
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}
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// Not recommended for anything but logging
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// Not recommended for anything but logging
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return value;
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return value;
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}
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}
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constexpr Float<M, E> Flushed() const {
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Float<M, E> ret;
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ret.value = value;
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if (std::abs(value) < MinNormal().ToFloat32()) {
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ret.value = 0;
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}
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return ret;
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}
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constexpr Float<M, E> InfChecked() const {
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Float<M, E> ret;
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ret.value = value;
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if (std::abs(value) > Max().ToFloat32()) {
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ret.value = value * std::numeric_limits<float>::infinity();
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}
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return ret;
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}
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constexpr Float<M, E> operator*(const Float<M, E>& flt) const {
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constexpr Float<M, E> operator*(const Float<M, E>& flt) const {
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float result = value * flt.ToFloat32();
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float result = value * flt.ToFloat32();
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// PICA gives 0 instead of NaN when multiplying by inf
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// PICA gives 0 instead of NaN when multiplying by inf
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}
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}
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constexpr Float<M, E>& operator/=(const Float<M, E>& flt) {
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constexpr Float<M, E>& operator/=(const Float<M, E>& flt) {
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value /= flt.ToFloat32();
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value = operator/(flt).value;
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return *this;
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return *this;
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}
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}
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constexpr Float<M, E>& operator+=(const Float<M, E>& flt) {
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constexpr Float<M, E>& operator+=(const Float<M, E>& flt) {
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value += flt.ToFloat32();
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value = operator+(flt).value;
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return *this;
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return *this;
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}
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}
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constexpr Float<M, E>& operator-=(const Float<M, E>& flt) {
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constexpr Float<M, E>& operator-=(const Float<M, E>& flt) {
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value -= flt.ToFloat32();
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value = operator-(flt).value;
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return *this;
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return *this;
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}
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}
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constexpr Float<M, E> operator-() const {
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constexpr Float<M, E> operator-() const {
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return Float<M, E>::FromFloat32(-ToFloat32());
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Float<M, E> ret;
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ret.value = -value;
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return ret;
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}
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}
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constexpr bool operator<(const Float<M, E>& flt) const {
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constexpr bool operator<(const Float<M, E>& flt) const {
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// negative/positive z values when computing with f32 precision,
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// negative/positive z values when computing with f32 precision,
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// causing some vertices to get erroneously clipped. To workaround this problem,
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// causing some vertices to get erroneously clipped. To workaround this problem,
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// we can use a very small epsilon value for clip plane comparison.
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// we can use a very small epsilon value for clip plane comparison.
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constexpr f32 EPSILON_Z = 0.00000001f;
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constexpr f32 EPSILON_Z = 0.f;
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struct Vertex : Pica::OutputVertex {
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struct Vertex : Pica::OutputVertex {
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Vertex(const OutputVertex& v) : OutputVertex(v) {}
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Vertex(const OutputVertex& v) : OutputVertex(v) {}
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@ -125,9 +125,8 @@ void RasterizerSoftware::AddTriangle(const Pica::OutputVertex& v0, const Pica::O
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auto* input_list = &buffer_b;
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auto* input_list = &buffer_b;
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// NOTE: We clip against a w=epsilon plane to guarantee that the output has a positive w value.
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// NOTE: We clip against a w=epsilon plane to guarantee that the output has a positive w value.
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// TODO: Not sure if this is a valid approach. Also should probably instead use the smallest
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// TODO: Not sure if this is a valid approach.
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// epsilon possible within f24 accuracy.
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static constexpr f24 EPSILON = f24::MinNormal();
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static constexpr f24 EPSILON = f24::FromFloat32(0.00001f);
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static constexpr f24 f0 = f24::Zero();
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static constexpr f24 f0 = f24::Zero();
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static constexpr f24 f1 = f24::One();
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static constexpr f24 f1 = f24::One();
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static constexpr std::array<ClippingEdge, 7> clipping_edges = {{
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static constexpr std::array<ClippingEdge, 7> clipping_edges = {{
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max_y = ((max_y + Fix12P4::FracMask()) & Fix12P4::IntMask());
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max_y = ((max_y + Fix12P4::FracMask()) & Fix12P4::IntMask());
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const int bias0 =
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const int bias0 =
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IsRightSideOrFlatBottomEdge(vtxpos[0].xy(), vtxpos[1].xy(), vtxpos[2].xy()) ? -1 : 0;
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IsRightSideOrFlatBottomEdge(vtxpos[0].xy(), vtxpos[1].xy(), vtxpos[2].xy()) ? 1 : 0;
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const int bias1 =
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const int bias1 =
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IsRightSideOrFlatBottomEdge(vtxpos[1].xy(), vtxpos[2].xy(), vtxpos[0].xy()) ? -1 : 0;
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IsRightSideOrFlatBottomEdge(vtxpos[1].xy(), vtxpos[2].xy(), vtxpos[0].xy()) ? 1 : 0;
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const int bias2 =
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const int bias2 =
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IsRightSideOrFlatBottomEdge(vtxpos[2].xy(), vtxpos[0].xy(), vtxpos[1].xy()) ? -1 : 0;
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IsRightSideOrFlatBottomEdge(vtxpos[2].xy(), vtxpos[0].xy(), vtxpos[1].xy()) ? 1 : 0;
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const auto w_inverse = Common::MakeVec(v0.pos.w, v1.pos.w, v2.pos.w);
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const auto w_inverse = Common::MakeVec(v0.pos.w, v1.pos.w, v2.pos.w);
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@ -314,13 +313,13 @@ void RasterizerSoftware::ProcessTriangle(const Vertex& v0, const Vertex& v1, con
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}
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}
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// Calculate the barycentric coordinates w0, w1 and w2
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// Calculate the barycentric coordinates w0, w1 and w2
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const s32 w0 = bias0 + SignedArea(vtxpos[1].xy(), vtxpos[2].xy(), {x, y});
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const s32 w0 = SignedArea(vtxpos[1].xy(), vtxpos[2].xy(), {x, y});
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const s32 w1 = bias1 + SignedArea(vtxpos[2].xy(), vtxpos[0].xy(), {x, y});
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const s32 w1 = SignedArea(vtxpos[2].xy(), vtxpos[0].xy(), {x, y});
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const s32 w2 = bias2 + SignedArea(vtxpos[0].xy(), vtxpos[1].xy(), {x, y});
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const s32 w2 = SignedArea(vtxpos[0].xy(), vtxpos[1].xy(), {x, y});
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const s32 wsum = w0 + w1 + w2;
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const s32 wsum = w0 + w1 + w2;
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// If current pixel is not covered by the current primitive
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// If current pixel is not covered by the current primitive
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if (w0 < 0 || w1 < 0 || w2 < 0) {
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if (w0 < bias0 || w1 < bias1 || w2 < bias2) {
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continue;
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continue;
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}
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}
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