shader_jit/tests: Add additional shader-jit tests (#6648)

* shader_jit/tests: Add support for multiple inputs

Allows for multiple `Vec4f` inputs for each run

* shader_jit/tests: Add additional shader-jit tests

Add some more expansive tests for each of the shader-instructions for
regression-testing.  `MAD`/`MADI` is not added due to an upstream bug in
nihstro:

https://github.com/neobrain/nihstro/issues/68
This commit is contained in:
Wunk 2023-07-02 16:44:56 -07:00 committed by GitHub
parent c88acf7405
commit 0b37c1da57
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@ -8,6 +8,7 @@
#include <algorithm> #include <algorithm>
#include <cmath> #include <cmath>
#include <memory> #include <memory>
#include <span>
#include <catch2/catch_approx.hpp> #include <catch2/catch_approx.hpp>
#include <catch2/catch_test_macros.hpp> #include <catch2/catch_test_macros.hpp>
#include <nihstro/inline_assembly.h> #include <nihstro/inline_assembly.h>
@ -22,6 +23,11 @@ using OpCode = nihstro::OpCode;
using SourceRegister = nihstro::SourceRegister; using SourceRegister = nihstro::SourceRegister;
using Type = nihstro::InlineAsm::Type; using Type = nihstro::InlineAsm::Type;
static constexpr Common::Vec4f vec4_inf = Common::Vec4f::AssignToAll(INFINITY);
static constexpr Common::Vec4f vec4_nan = Common::Vec4f::AssignToAll(NAN);
static constexpr Common::Vec4f vec4_one = Common::Vec4f::AssignToAll(1.0f);
static constexpr Common::Vec4f vec4_zero = Common::Vec4f::AssignToAll(0.0f);
static std::unique_ptr<Pica::Shader::ShaderSetup> CompileShaderSetup( static std::unique_ptr<Pica::Shader::ShaderSetup> CompileShaderSetup(
std::initializer_list<nihstro::InlineAsm> code) { std::initializer_list<nihstro::InlineAsm> code) {
const auto shbin = nihstro::InlineAsm::CompileToRawBinary(code); const auto shbin = nihstro::InlineAsm::CompileToRawBinary(code);
@ -43,47 +49,155 @@ public:
shader_jit.Compile(&shader_setup->program_code, &shader_setup->swizzle_data); shader_jit.Compile(&shader_setup->program_code, &shader_setup->swizzle_data);
} }
float Run(float input) { Common::Vec4f Run(std::span<const Common::Vec4f> inputs) {
Pica::Shader::UnitState shader_unit; Pica::Shader::UnitState shader_unit;
RunJit(shader_unit, input); RunJit(shader_unit, inputs);
return shader_unit.registers.output[0].x.ToFloat32(); return {shader_unit.registers.output[0].x.ToFloat32(),
shader_unit.registers.output[0].y.ToFloat32(),
shader_unit.registers.output[0].z.ToFloat32(),
shader_unit.registers.output[0].w.ToFloat32()};
} }
void RunJit(Pica::Shader::UnitState& shader_unit, float input) { Common::Vec4f Run(std::initializer_list<float> inputs) {
shader_unit.registers.input[0].x = Pica::f24::FromFloat32(input); std::vector<Common::Vec4f> input_vecs;
shader_unit.registers.temporary[0].x = Pica::f24::Zero(); for (const float& input : inputs) {
input_vecs.emplace_back(input, 0.0f, 0.0f, 0.0f);
}
return Run(input_vecs);
}
Common::Vec4f Run(float input) {
return Run({input});
}
Common::Vec4f Run(std::initializer_list<Common::Vec4f> inputs) {
return Run(std::vector<Common::Vec4f>{inputs});
}
void RunJit(Pica::Shader::UnitState& shader_unit, std::span<const Common::Vec4f> inputs) {
for (std::size_t i = 0; i < inputs.size(); ++i) {
const Common::Vec4f& input = inputs[i];
shader_unit.registers.input[i].x = Pica::f24::FromFloat32(input.x);
shader_unit.registers.input[i].y = Pica::f24::FromFloat32(input.y);
shader_unit.registers.input[i].z = Pica::f24::FromFloat32(input.z);
shader_unit.registers.input[i].w = Pica::f24::FromFloat32(input.w);
}
shader_unit.registers.temporary.fill(
Common::Vec4<Pica::f24>::AssignToAll(Pica::f24::Zero()));
shader_jit.Run(*shader_setup, shader_unit, 0); shader_jit.Run(*shader_setup, shader_unit, 0);
} }
void RunInterpreter(Pica::Shader::UnitState& shader_unit, float input) { void RunJit(Pica::Shader::UnitState& shader_unit, float input) {
shader_unit.registers.input[0].x = Pica::f24::FromFloat32(input); const Common::Vec4f input_vec(input, 0, 0, 0);
shader_unit.registers.temporary[0].x = Pica::f24::Zero(); RunJit(shader_unit, {&input_vec, 1});
}
void RunInterpreter(Pica::Shader::UnitState& shader_unit,
std::span<const Common::Vec4f> inputs) {
for (std::size_t i = 0; i < inputs.size(); ++i) {
const Common::Vec4f& input = inputs[i];
shader_unit.registers.input[i].x = Pica::f24::FromFloat32(input.x);
shader_unit.registers.input[i].y = Pica::f24::FromFloat32(input.y);
shader_unit.registers.input[i].z = Pica::f24::FromFloat32(input.z);
shader_unit.registers.input[i].w = Pica::f24::FromFloat32(input.w);
}
shader_unit.registers.temporary.fill(
Common::Vec4<Pica::f24>::AssignToAll(Pica::f24::Zero()));
shader_interpreter.Run(*shader_setup, shader_unit); shader_interpreter.Run(*shader_setup, shader_unit);
} }
void RunInterpreter(Pica::Shader::UnitState& shader_unit, float input) {
const Common::Vec4f input_vec(input, 0, 0, 0);
RunInterpreter(shader_unit, {&input_vec, 1});
}
public: public:
JitShader shader_jit; JitShader shader_jit;
ShaderInterpreter shader_interpreter; ShaderInterpreter shader_interpreter;
std::unique_ptr<Pica::Shader::ShaderSetup> shader_setup; std::unique_ptr<Pica::Shader::ShaderSetup> shader_setup;
}; };
TEST_CASE("ADD", "[video_core][shader][shader_jit]") {
const auto sh_input1 = SourceRegister::MakeInput(0);
const auto sh_input2 = SourceRegister::MakeInput(1);
const auto sh_output = DestRegister::MakeOutput(0);
auto shader = ShaderTest({
{OpCode::Id::ADD, sh_output, sh_input1, sh_input2},
{OpCode::Id::END},
});
REQUIRE(shader.Run({+1.0f, -1.0f}).x == +0.0f);
REQUIRE(shader.Run({+0.0f, -0.0f}).x == -0.0f);
REQUIRE(std::isnan(shader.Run({+INFINITY, -INFINITY}).x));
REQUIRE(std::isinf(shader.Run({INFINITY, +1.0f}).x));
REQUIRE(std::isinf(shader.Run({INFINITY, -1.0f}).x));
}
TEST_CASE("DP3", "[video_core][shader][shader_jit]") {
const auto sh_input1 = SourceRegister::MakeInput(0);
const auto sh_input2 = SourceRegister::MakeInput(1);
const auto sh_output = DestRegister::MakeOutput(0);
auto shader = ShaderTest({
{OpCode::Id::DP3, sh_output, sh_input1, sh_input2},
{OpCode::Id::END},
});
REQUIRE(shader.Run({vec4_inf, vec4_zero}).x == 0.0f);
REQUIRE(std::isnan(shader.Run({vec4_nan, vec4_zero}).x));
REQUIRE(shader.Run({vec4_one, vec4_one}).x == 3.0f);
}
TEST_CASE("DP4", "[video_core][shader][shader_jit]") {
const auto sh_input1 = SourceRegister::MakeInput(0);
const auto sh_input2 = SourceRegister::MakeInput(1);
const auto sh_output = DestRegister::MakeOutput(0);
auto shader = ShaderTest({
{OpCode::Id::DP4, sh_output, sh_input1, sh_input2},
{OpCode::Id::END},
});
REQUIRE(shader.Run({vec4_inf, vec4_zero}).x == 0.0f);
REQUIRE(std::isnan(shader.Run({vec4_nan, vec4_zero}).x));
REQUIRE(shader.Run({vec4_one, vec4_one}).x == 4.0f);
}
TEST_CASE("DPH", "[video_core][shader][shader_jit]") {
const auto sh_input1 = SourceRegister::MakeInput(0);
const auto sh_input2 = SourceRegister::MakeInput(1);
const auto sh_output = DestRegister::MakeOutput(0);
auto shader = ShaderTest({
{OpCode::Id::DPH, sh_output, sh_input1, sh_input2},
{OpCode::Id::END},
});
REQUIRE(shader.Run({vec4_inf, vec4_zero}).x == 0.0f);
REQUIRE(std::isnan(shader.Run({vec4_nan, vec4_zero}).x));
REQUIRE(shader.Run({vec4_one, vec4_one}).x == 4.0f);
REQUIRE(shader.Run({vec4_zero, vec4_one}).x == 1.0f);
}
TEST_CASE("LG2", "[video_core][shader][shader_jit]") { TEST_CASE("LG2", "[video_core][shader][shader_jit]") {
const auto sh_input = SourceRegister::MakeInput(0); const auto sh_input = SourceRegister::MakeInput(0);
const auto sh_output = DestRegister::MakeOutput(0); const auto sh_output = DestRegister::MakeOutput(0);
auto shader = ShaderTest({ auto shader = ShaderTest({
// clang-format off
{OpCode::Id::LG2, sh_output, sh_input}, {OpCode::Id::LG2, sh_output, sh_input},
{OpCode::Id::END}, {OpCode::Id::END},
// clang-format on
}); });
REQUIRE(std::isnan(shader.Run(NAN))); REQUIRE(std::isnan(shader.Run(NAN).x));
REQUIRE(std::isnan(shader.Run(-1.f))); REQUIRE(std::isnan(shader.Run(-1.f).x));
REQUIRE(std::isinf(shader.Run(0.f))); REQUIRE(std::isinf(shader.Run(0.f).x));
REQUIRE(shader.Run(4.f) == Catch::Approx(2.f)); REQUIRE(shader.Run(4.f).x == Catch::Approx(2.f));
REQUIRE(shader.Run(64.f) == Catch::Approx(6.f)); REQUIRE(shader.Run(64.f).x == Catch::Approx(6.f));
REQUIRE(shader.Run(1.e24f) == Catch::Approx(79.7262742773f)); REQUIRE(shader.Run(1.e24f).x == Catch::Approx(79.7262742773f));
} }
TEST_CASE("EX2", "[video_core][shader][shader_jit]") { TEST_CASE("EX2", "[video_core][shader][shader_jit]") {
@ -91,21 +205,204 @@ TEST_CASE("EX2", "[video_core][shader][shader_jit]") {
const auto sh_output = DestRegister::MakeOutput(0); const auto sh_output = DestRegister::MakeOutput(0);
auto shader = ShaderTest({ auto shader = ShaderTest({
// clang-format off
{OpCode::Id::EX2, sh_output, sh_input}, {OpCode::Id::EX2, sh_output, sh_input},
{OpCode::Id::END}, {OpCode::Id::END},
// clang-format on
}); });
REQUIRE(std::isnan(shader.Run(NAN))); REQUIRE(std::isnan(shader.Run(NAN).x));
REQUIRE(shader.Run(-800.f) == Catch::Approx(0.f)); REQUIRE(shader.Run(-800.f).x == Catch::Approx(0.f));
REQUIRE(shader.Run(0.f) == Catch::Approx(1.f)); REQUIRE(shader.Run(0.f).x == Catch::Approx(1.f));
REQUIRE(shader.Run(2.f) == Catch::Approx(4.f)); REQUIRE(shader.Run(2.f).x == Catch::Approx(4.f));
REQUIRE(shader.Run(6.f) == Catch::Approx(64.f)); REQUIRE(shader.Run(6.f).x == Catch::Approx(64.f));
REQUIRE(shader.Run(79.7262742773f) == Catch::Approx(1.e24f)); REQUIRE(shader.Run(79.7262742773f).x == Catch::Approx(1.e24f));
REQUIRE(std::isinf(shader.Run(800.f))); REQUIRE(std::isinf(shader.Run(800.f).x));
} }
TEST_CASE("MUL", "[video_core][shader][shader_jit]") {
const auto sh_input1 = SourceRegister::MakeInput(0);
const auto sh_input2 = SourceRegister::MakeInput(1);
const auto sh_output = DestRegister::MakeOutput(0);
auto shader = ShaderTest({
{OpCode::Id::MUL, sh_output, sh_input1, sh_input2},
{OpCode::Id::END},
});
REQUIRE(shader.Run({+1.0f, -1.0f}).x == -1.0f);
REQUIRE(shader.Run({-1.0f, +1.0f}).x == -1.0f);
REQUIRE(shader.Run({INFINITY, 0.0f}).x == 0.0f);
REQUIRE(std::isnan(shader.Run({NAN, 0.0f}).x));
REQUIRE(shader.Run({+INFINITY, +INFINITY}).x == INFINITY);
REQUIRE(shader.Run({+INFINITY, -INFINITY}).x == -INFINITY);
}
TEST_CASE("SGE", "[video_core][shader][shader_jit]") {
const auto sh_input1 = SourceRegister::MakeInput(0);
const auto sh_input2 = SourceRegister::MakeInput(1);
const auto sh_output = DestRegister::MakeOutput(0);
auto shader = ShaderTest({
{OpCode::Id::SGE, sh_output, sh_input1, sh_input2},
{OpCode::Id::END},
});
REQUIRE(shader.Run({INFINITY, 0.0f}).x == 1.0f);
REQUIRE(shader.Run({0.0f, INFINITY}).x == 0.0f);
REQUIRE(shader.Run({NAN, 0.0f}).x == 0.0f);
REQUIRE(shader.Run({0.0f, NAN}).x == 0.0f);
REQUIRE(shader.Run({+INFINITY, +INFINITY}).x == 1.0f);
REQUIRE(shader.Run({+INFINITY, -INFINITY}).x == 1.0f);
REQUIRE(shader.Run({-INFINITY, +INFINITY}).x == 0.0f);
REQUIRE(shader.Run({+1.0f, -1.0f}).x == 1.0f);
REQUIRE(shader.Run({-1.0f, +1.0f}).x == 0.0f);
}
TEST_CASE("SLT", "[video_core][shader][shader_jit]") {
const auto sh_input1 = SourceRegister::MakeInput(0);
const auto sh_input2 = SourceRegister::MakeInput(1);
const auto sh_output = DestRegister::MakeOutput(0);
auto shader = ShaderTest({
{OpCode::Id::SLT, sh_output, sh_input1, sh_input2},
{OpCode::Id::END},
});
REQUIRE(shader.Run({INFINITY, 0.0f}).x == 0.0f);
REQUIRE(shader.Run({0.0f, INFINITY}).x == 1.0f);
REQUIRE(shader.Run({NAN, 0.0f}).x == 0.0f);
REQUIRE(shader.Run({0.0f, NAN}).x == 0.0f);
REQUIRE(shader.Run({+INFINITY, +INFINITY}).x == 0.0f);
REQUIRE(shader.Run({+INFINITY, -INFINITY}).x == 0.0f);
REQUIRE(shader.Run({-INFINITY, +INFINITY}).x == 1.0f);
REQUIRE(shader.Run({+1.0f, -1.0f}).x == 0.0f);
REQUIRE(shader.Run({-1.0f, +1.0f}).x == 1.0f);
}
TEST_CASE("FLR", "[video_core][shader][shader_jit]") {
const auto sh_input1 = SourceRegister::MakeInput(0);
const auto sh_output = DestRegister::MakeOutput(0);
auto shader = ShaderTest({
{OpCode::Id::FLR, sh_output, sh_input1},
{OpCode::Id::END},
});
REQUIRE(shader.Run({0.5}).x == 0.0f);
REQUIRE(shader.Run({-0.5}).x == -1.0f);
REQUIRE(shader.Run({1.5}).x == 1.0f);
REQUIRE(shader.Run({-1.5}).x == -2.0f);
REQUIRE(std::isnan(shader.Run({NAN}).x));
REQUIRE(std::isinf(shader.Run({INFINITY}).x));
}
TEST_CASE("MAX", "[video_core][shader][shader_jit]") {
const auto sh_input1 = SourceRegister::MakeInput(0);
const auto sh_input2 = SourceRegister::MakeInput(1);
const auto sh_output = DestRegister::MakeOutput(0);
auto shader = ShaderTest({
{OpCode::Id::MAX, sh_output, sh_input1, sh_input2},
{OpCode::Id::END},
});
REQUIRE(shader.Run({1.0f, 0.0f}).x == 1.0f);
REQUIRE(shader.Run({0.0f, 1.0f}).x == 1.0f);
REQUIRE(shader.Run({0.0f, +INFINITY}).x == +INFINITY);
// REQUIRE(shader.Run({0.0f, -INFINITY}).x == -INFINITY); // TODO: 3dbrew says this is -INFINITY
REQUIRE(std::isnan(shader.Run({0.0f, NAN}).x));
REQUIRE(shader.Run({NAN, 0.0f}).x == 0.0f);
REQUIRE(shader.Run({-INFINITY, +INFINITY}).x == +INFINITY);
}
TEST_CASE("MIN", "[video_core][shader][shader_jit]") {
const auto sh_input1 = SourceRegister::MakeInput(0);
const auto sh_input2 = SourceRegister::MakeInput(1);
const auto sh_output = DestRegister::MakeOutput(0);
auto shader = ShaderTest({
{OpCode::Id::MIN, sh_output, sh_input1, sh_input2},
{OpCode::Id::END},
});
REQUIRE(shader.Run({1.0f, 0.0f}).x == 0.0f);
REQUIRE(shader.Run({0.0f, 1.0f}).x == 0.0f);
REQUIRE(shader.Run({0.0f, +INFINITY}).x == 0.0f);
REQUIRE(shader.Run({0.0f, -INFINITY}).x == -INFINITY);
REQUIRE(std::isnan(shader.Run({0.0f, NAN}).x));
REQUIRE(shader.Run({NAN, 0.0f}).x == 0.0f);
REQUIRE(shader.Run({-INFINITY, +INFINITY}).x == -INFINITY);
}
TEST_CASE("RCP", "[video_core][shader][shader_jit]") {
const auto sh_input = SourceRegister::MakeInput(0);
const auto sh_output = DestRegister::MakeOutput(0);
auto shader = ShaderTest({
{OpCode::Id::RCP, sh_output, sh_input},
{OpCode::Id::END},
});
// REQUIRE(shader.Run({-0.0f}).x == INFINITY); // Violates IEEE
REQUIRE(shader.Run({0.0f}).x == INFINITY);
REQUIRE(shader.Run({INFINITY}).x == 0.0f);
REQUIRE(std::isnan(shader.Run({NAN}).x));
REQUIRE(shader.Run({16.0f}).x == Catch::Approx(0.0625f).margin(0.001f));
REQUIRE(shader.Run({8.0f}).x == Catch::Approx(0.125f).margin(0.001f));
REQUIRE(shader.Run({4.0f}).x == Catch::Approx(0.25f).margin(0.001f));
REQUIRE(shader.Run({2.0f}).x == Catch::Approx(0.5f).margin(0.001f));
REQUIRE(shader.Run({1.0f}).x == Catch::Approx(1.0f).margin(0.001f));
REQUIRE(shader.Run({0.5f}).x == Catch::Approx(2.0f).margin(0.001f));
REQUIRE(shader.Run({0.25f}).x == Catch::Approx(4.0f).margin(0.001f));
REQUIRE(shader.Run({0.125f}).x == Catch::Approx(8.0f).margin(0.002f));
REQUIRE(shader.Run({0.0625f}).x == Catch::Approx(16.0f).margin(0.004f));
}
TEST_CASE("RSQ", "[video_core][shader][shader_jit]") {
const auto sh_input = SourceRegister::MakeInput(0);
const auto sh_output = DestRegister::MakeOutput(0);
auto shader = ShaderTest({
{OpCode::Id::RSQ, sh_output, sh_input},
{OpCode::Id::END},
});
// REQUIRE(shader.Run({-0.0f}).x == INFINITY); // Violates IEEE
REQUIRE(std::isnan(shader.Run({-2.0f}).x));
REQUIRE(shader.Run({INFINITY}).x == 0.0f);
REQUIRE(std::isnan(shader.Run({-INFINITY}).x));
REQUIRE(std::isnan(shader.Run({NAN}).x));
REQUIRE(shader.Run({16.0f}).x == Catch::Approx(0.25f).margin(0.001f));
REQUIRE(shader.Run({8.0f}).x == Catch::Approx(1.0f / std::sqrt(8.0f)).margin(0.001f));
REQUIRE(shader.Run({4.0f}).x == Catch::Approx(0.5f).margin(0.001f));
REQUIRE(shader.Run({2.0f}).x == Catch::Approx(1.0f / std::sqrt(2.0f)).margin(0.001f));
REQUIRE(shader.Run({1.0f}).x == Catch::Approx(1.0f).margin(0.001f));
REQUIRE(shader.Run({0.5f}).x == Catch::Approx(1.0f / std::sqrt(0.5f)).margin(0.001f));
REQUIRE(shader.Run({0.25f}).x == Catch::Approx(2.0f).margin(0.001f));
REQUIRE(shader.Run({0.125f}).x == Catch::Approx(1.0 / std::sqrt(0.125)).margin(0.002f));
REQUIRE(shader.Run({0.0625f}).x == Catch::Approx(4.0f).margin(0.004f));
}
// TODO: Requires fix from https://github.com/neobrain/nihstro/issues/68
// TEST_CASE("MAD", "[video_core][shader][shader_jit]") {
// const auto sh_input1 = SourceRegister::MakeInput(0);
// const auto sh_input2 = SourceRegister::MakeInput(1);
// const auto sh_input3 = SourceRegister::MakeInput(2);
// const auto sh_output = DestRegister::MakeOutput(0);
// auto shader = ShaderTest({
// {OpCode::Id::MAD, sh_output, sh_input1, sh_input2, sh_input3},
// {OpCode::Id::END},
// });
// REQUIRE(shader.Run({vec4_inf, vec4_zero, vec4_zero}).x == 0.0f);
// REQUIRE(std::isnan(shader.Run({vec4_nan, vec4_zero, vec4_zero}).x));
// REQUIRE(shader.Run({vec4_one, vec4_one, vec4_one}).x == 2.0f);
// }
TEST_CASE("Nested Loop", "[video_core][shader][shader_jit]") { TEST_CASE("Nested Loop", "[video_core][shader][shader_jit]") {
const auto sh_input = SourceRegister::MakeInput(0); const auto sh_input = SourceRegister::MakeInput(0);
const auto sh_temp = SourceRegister::MakeTemporary(0); const auto sh_temp = SourceRegister::MakeTemporary(0);