early-access version 3939
This commit is contained in:
parent
ec28817fce
commit
d05c5685fb
@ -1,7 +1,7 @@
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yuzu emulator early access
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yuzu emulator early access
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=============
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=============
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This is the source code for early-access 3938.
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This is the source code for early-access 3939.
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## Legal Notice
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## Legal Notice
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@ -41,6 +41,7 @@ void CoreData::BuildRandom(Age age, Gender gender, Race race) {
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}
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}
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}
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}
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SetDefault();
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SetGender(gender);
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SetGender(gender);
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SetFavoriteColor(MiiUtil::GetRandomValue(FavoriteColor::Max));
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SetFavoriteColor(MiiUtil::GetRandomValue(FavoriteColor::Max));
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SetRegionMove(0);
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SetRegionMove(0);
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@ -111,16 +111,33 @@ Id GetCbuf(EmitContext& ctx, Id result_type, Id UniformDefinitions::*member_ptr,
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} else if (element_size > 1) {
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} else if (element_size > 1) {
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const u32 log2_element_size{static_cast<u32>(std::countr_zero(element_size))};
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const u32 log2_element_size{static_cast<u32>(std::countr_zero(element_size))};
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const Id shift{ctx.Const(log2_element_size)};
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const Id shift{ctx.Const(log2_element_size)};
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buffer_offset = ctx.OpShiftRightArithmetic(ctx.U32[1], ctx.Def(offset), shift);
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buffer_offset = ctx.OpShiftRightLogical(ctx.U32[1], ctx.Def(offset), shift);
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} else {
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} else {
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buffer_offset = ctx.Def(offset);
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buffer_offset = ctx.Def(offset);
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}
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}
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if (!binding.IsImmediate()) {
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if (!binding.IsImmediate()) {
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return ctx.OpFunctionCall(result_type, indirect_func, ctx.Def(binding), buffer_offset);
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return ctx.OpFunctionCall(result_type, indirect_func, ctx.Def(binding), buffer_offset);
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}
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}
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const Id cbuf{ctx.cbufs[binding.U32()].*member_ptr};
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const Id cbuf{ctx.cbufs[binding.U32()].*member_ptr};
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const Id access_chain{ctx.OpAccessChain(uniform_type, cbuf, ctx.u32_zero_value, buffer_offset)};
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const Id access_chain{ctx.OpAccessChain(uniform_type, cbuf, ctx.u32_zero_value, buffer_offset)};
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return ctx.OpLoad(result_type, access_chain);
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const Id val = ctx.OpLoad(result_type, access_chain);
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if (offset.IsImmediate() || !ctx.profile.has_broken_robust) {
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return val;
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}
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const auto is_float = UniformDefinitions::IsFloat(member_ptr);
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const auto num_elements = UniformDefinitions::NumElements(member_ptr);
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const std::array zero_vec{
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is_float ? ctx.Const(0.0f) : ctx.Const(0u),
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is_float ? ctx.Const(0.0f) : ctx.Const(0u),
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is_float ? ctx.Const(0.0f) : ctx.Const(0u),
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is_float ? ctx.Const(0.0f) : ctx.Const(0u),
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};
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const Id cond = ctx.OpULessThanEqual(ctx.TypeBool(), buffer_offset, ctx.Const(0xFFFFu));
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const Id zero = ctx.OpCompositeConstruct(result_type, std::span(zero_vec.data(), num_elements));
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return ctx.OpSelect(result_type, cond, val, zero);
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}
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}
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Id GetCbufU32(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset) {
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Id GetCbufU32(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset) {
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@ -138,7 +155,7 @@ Id GetCbufElement(EmitContext& ctx, Id vector, const IR::Value& offset, u32 inde
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const u32 element{(offset.U32() / 4) % 4 + index_offset};
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const u32 element{(offset.U32() / 4) % 4 + index_offset};
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return ctx.OpCompositeExtract(ctx.U32[1], vector, element);
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return ctx.OpCompositeExtract(ctx.U32[1], vector, element);
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}
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}
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const Id shift{ctx.OpShiftRightArithmetic(ctx.U32[1], ctx.Def(offset), ctx.Const(2u))};
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const Id shift{ctx.OpShiftRightLogical(ctx.U32[1], ctx.Def(offset), ctx.Const(2u))};
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Id element{ctx.OpBitwiseAnd(ctx.U32[1], shift, ctx.Const(3u))};
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Id element{ctx.OpBitwiseAnd(ctx.U32[1], shift, ctx.Const(3u))};
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if (index_offset > 0) {
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if (index_offset > 0) {
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element = ctx.OpIAdd(ctx.U32[1], element, ctx.Const(index_offset));
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element = ctx.OpIAdd(ctx.U32[1], element, ctx.Const(index_offset));
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@ -64,6 +64,42 @@ struct UniformDefinitions {
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Id F32{};
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Id F32{};
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Id U32x2{};
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Id U32x2{};
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Id U32x4{};
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Id U32x4{};
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constexpr static size_t NumElements(Id UniformDefinitions::*member_ptr) {
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if (member_ptr == &UniformDefinitions::U8) {
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return 1;
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}
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if (member_ptr == &UniformDefinitions::S8) {
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return 1;
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}
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if (member_ptr == &UniformDefinitions::U16) {
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return 1;
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}
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if (member_ptr == &UniformDefinitions::S16) {
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return 1;
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}
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if (member_ptr == &UniformDefinitions::U32) {
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return 1;
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}
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if (member_ptr == &UniformDefinitions::F32) {
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return 1;
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}
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if (member_ptr == &UniformDefinitions::U32x2) {
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return 2;
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}
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if (member_ptr == &UniformDefinitions::U32x4) {
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return 4;
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}
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ASSERT(false);
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return 1;
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}
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constexpr static bool IsFloat(Id UniformDefinitions::*member_ptr) {
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if (member_ptr == &UniformDefinitions::F32) {
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return true;
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}
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return false;
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}
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};
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};
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struct StorageTypeDefinition {
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struct StorageTypeDefinition {
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@ -9,7 +9,6 @@ namespace Shader {
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struct Profile {
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struct Profile {
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u32 supported_spirv{0x00010000};
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u32 supported_spirv{0x00010000};
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bool unified_descriptor_binding{};
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bool unified_descriptor_binding{};
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bool support_descriptor_aliasing{};
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bool support_descriptor_aliasing{};
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bool support_int8{};
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bool support_int8{};
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@ -82,6 +81,9 @@ struct Profile {
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bool has_broken_spirv_subgroup_mask_vector_extract_dynamic{};
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bool has_broken_spirv_subgroup_mask_vector_extract_dynamic{};
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u32 gl_max_compute_smem_size{};
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u32 gl_max_compute_smem_size{};
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/// Maxwell and earlier nVidia architectures have broken robust support
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bool has_broken_robust{};
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};
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};
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} // namespace Shader
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} // namespace Shader
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@ -356,7 +356,11 @@ PipelineCache::PipelineCache(RasterizerVulkan& rasterizer_, const Device& device
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.has_broken_fp16_float_controls = driver_id == VK_DRIVER_ID_NVIDIA_PROPRIETARY,
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.has_broken_fp16_float_controls = driver_id == VK_DRIVER_ID_NVIDIA_PROPRIETARY,
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.ignore_nan_fp_comparisons = false,
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.ignore_nan_fp_comparisons = false,
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.has_broken_spirv_subgroup_mask_vector_extract_dynamic =
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.has_broken_spirv_subgroup_mask_vector_extract_dynamic =
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driver_id == VK_DRIVER_ID_QUALCOMM_PROPRIETARY};
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driver_id == VK_DRIVER_ID_QUALCOMM_PROPRIETARY,
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.has_broken_robust =
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device.IsNvidia() && device.GetNvidiaArch() <= NvidiaArchitecture::Arch_Maxwell,
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};
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host_info = Shader::HostTranslateInfo{
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host_info = Shader::HostTranslateInfo{
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.support_float64 = device.IsFloat64Supported(),
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.support_float64 = device.IsFloat64Supported(),
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.support_float16 = device.IsFloat16Supported(),
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.support_float16 = device.IsFloat16Supported(),
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@ -83,15 +83,6 @@ constexpr std::array VK_FORMAT_A4B4G4R4_UNORM_PACK16{
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} // namespace Alternatives
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} // namespace Alternatives
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enum class NvidiaArchitecture {
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KeplerOrOlder,
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Maxwell,
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Pascal,
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Volta,
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Turing,
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AmpereOrNewer,
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};
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template <typename T>
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template <typename T>
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void SetNext(void**& next, T& data) {
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void SetNext(void**& next, T& data) {
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*next = &data;
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*next = &data;
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@ -326,9 +317,9 @@ NvidiaArchitecture GetNvidiaArchitecture(vk::PhysicalDevice physical,
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if (shading_rate_props.primitiveFragmentShadingRateWithMultipleViewports) {
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if (shading_rate_props.primitiveFragmentShadingRateWithMultipleViewports) {
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// Only Ampere and newer support this feature
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// Only Ampere and newer support this feature
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// TODO: Find a way to differentiate Ampere and Ada
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// TODO: Find a way to differentiate Ampere and Ada
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return NvidiaArchitecture::AmpereOrNewer;
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return NvidiaArchitecture::Arch_AmpereOrNewer;
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}
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}
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return NvidiaArchitecture::Turing;
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return NvidiaArchitecture::Arch_Turing;
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}
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}
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if (exts.contains(VK_EXT_BLEND_OPERATION_ADVANCED_EXTENSION_NAME)) {
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if (exts.contains(VK_EXT_BLEND_OPERATION_ADVANCED_EXTENSION_NAME)) {
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@ -340,7 +331,7 @@ NvidiaArchitecture GetNvidiaArchitecture(vk::PhysicalDevice physical,
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physical_properties.pNext = &advanced_blending_props;
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physical_properties.pNext = &advanced_blending_props;
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physical.GetProperties2(physical_properties);
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physical.GetProperties2(physical_properties);
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if (advanced_blending_props.advancedBlendMaxColorAttachments == 1) {
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if (advanced_blending_props.advancedBlendMaxColorAttachments == 1) {
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return NvidiaArchitecture::Maxwell;
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return NvidiaArchitecture::Arch_Maxwell;
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}
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}
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if (exts.contains(VK_EXT_CONSERVATIVE_RASTERIZATION_EXTENSION_NAME)) {
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if (exts.contains(VK_EXT_CONSERVATIVE_RASTERIZATION_EXTENSION_NAME)) {
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@ -350,13 +341,13 @@ NvidiaArchitecture GetNvidiaArchitecture(vk::PhysicalDevice physical,
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physical_properties.pNext = &conservative_raster_props;
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physical_properties.pNext = &conservative_raster_props;
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physical.GetProperties2(physical_properties);
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physical.GetProperties2(physical_properties);
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if (conservative_raster_props.degenerateLinesRasterized) {
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if (conservative_raster_props.degenerateLinesRasterized) {
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return NvidiaArchitecture::Volta;
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return NvidiaArchitecture::Arch_Volta;
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}
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}
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return NvidiaArchitecture::Pascal;
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return NvidiaArchitecture::Arch_Pascal;
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}
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}
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}
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}
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return NvidiaArchitecture::KeplerOrOlder;
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return NvidiaArchitecture::Arch_KeplerOrOlder;
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}
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}
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std::vector<const char*> ExtensionListForVulkan(
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std::vector<const char*> ExtensionListForVulkan(
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throw vk::Exception(VK_ERROR_INCOMPATIBLE_DRIVER);
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throw vk::Exception(VK_ERROR_INCOMPATIBLE_DRIVER);
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}
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}
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if (is_nvidia) {
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nvidia_arch = GetNvidiaArchitecture(physical, supported_extensions);
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}
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SetupFamilies(surface);
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SetupFamilies(surface);
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const auto queue_cis = GetDeviceQueueCreateInfos();
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const auto queue_cis = GetDeviceQueueCreateInfos();
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@ -532,11 +527,11 @@ Device::Device(VkInstance instance_, vk::PhysicalDevice physical_, VkSurfaceKHR
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if (is_nvidia) {
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if (is_nvidia) {
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const u32 nv_major_version = (properties.properties.driverVersion >> 22) & 0x3ff;
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const u32 nv_major_version = (properties.properties.driverVersion >> 22) & 0x3ff;
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const auto arch = GetNvidiaArchitecture(physical, supported_extensions);
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const auto arch = GetNvidiaArch();
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if (arch >= NvidiaArchitecture::AmpereOrNewer) {
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if (arch >= NvidiaArchitecture::Arch_AmpereOrNewer) {
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LOG_WARNING(Render_Vulkan, "Ampere and newer have broken float16 math");
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LOG_WARNING(Render_Vulkan, "Ampere and newer have broken float16 math");
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features.shader_float16_int8.shaderFloat16 = false;
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features.shader_float16_int8.shaderFloat16 = false;
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} else if (arch <= NvidiaArchitecture::Volta) {
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} else if (arch <= NvidiaArchitecture::Arch_Volta) {
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if (nv_major_version < 527) {
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if (nv_major_version < 527) {
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LOG_WARNING(Render_Vulkan, "Volta and older have broken VK_KHR_push_descriptor");
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LOG_WARNING(Render_Vulkan, "Volta and older have broken VK_KHR_push_descriptor");
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RemoveExtension(extensions.push_descriptor, VK_KHR_PUSH_DESCRIPTOR_EXTENSION_NAME);
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RemoveExtension(extensions.push_descriptor, VK_KHR_PUSH_DESCRIPTOR_EXTENSION_NAME);
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@ -686,8 +681,8 @@ Device::Device(VkInstance instance_, vk::PhysicalDevice physical_, VkSurfaceKHR
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RemoveExtension(extensions.push_descriptor, VK_KHR_PUSH_DESCRIPTOR_EXTENSION_NAME);
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RemoveExtension(extensions.push_descriptor, VK_KHR_PUSH_DESCRIPTOR_EXTENSION_NAME);
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}
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}
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} else if (extensions.push_descriptor && is_nvidia) {
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} else if (extensions.push_descriptor && is_nvidia) {
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const auto arch = GetNvidiaArchitecture(physical, supported_extensions);
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const auto arch = GetNvidiaArch();
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if (arch <= NvidiaArchitecture::Pascal) {
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if (arch <= NvidiaArchitecture::Arch_Pascal) {
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LOG_WARNING(Render_Vulkan,
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LOG_WARNING(Render_Vulkan,
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"Pascal and older architectures have broken VK_KHR_push_descriptor");
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"Pascal and older architectures have broken VK_KHR_push_descriptor");
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RemoveExtension(extensions.push_descriptor, VK_KHR_PUSH_DESCRIPTOR_EXTENSION_NAME);
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RemoveExtension(extensions.push_descriptor, VK_KHR_PUSH_DESCRIPTOR_EXTENSION_NAME);
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/// Subgroup size of the guest emulated hardware (Nvidia has 32 threads per subgroup).
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/// Subgroup size of the guest emulated hardware (Nvidia has 32 threads per subgroup).
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const u32 GuestWarpSize = 32;
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const u32 GuestWarpSize = 32;
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enum class NvidiaArchitecture {
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Arch_KeplerOrOlder,
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Arch_Maxwell,
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Arch_Pascal,
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Arch_Volta,
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Arch_Turing,
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Arch_AmpereOrNewer,
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};
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/// Handles data specific to a physical device.
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/// Handles data specific to a physical device.
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class Device {
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class Device {
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public:
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public:
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@ -670,6 +679,14 @@ public:
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return false;
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return false;
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}
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}
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bool IsNvidia() const noexcept {
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return properties.driver.driverID == VK_DRIVER_ID_NVIDIA_PROPRIETARY;
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}
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NvidiaArchitecture GetNvidiaArch() const noexcept {
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return nvidia_arch;
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}
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private:
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private:
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/// Checks if the physical device is suitable and configures the object state
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/// Checks if the physical device is suitable and configures the object state
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/// with all necessary info about its properties.
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/// with all necessary info about its properties.
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@ -788,6 +805,7 @@ private:
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bool supports_conditional_barriers{}; ///< Allows barriers in conditional control flow.
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bool supports_conditional_barriers{}; ///< Allows barriers in conditional control flow.
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u64 device_access_memory{}; ///< Total size of device local memory in bytes.
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u64 device_access_memory{}; ///< Total size of device local memory in bytes.
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u32 sets_per_pool{}; ///< Sets per Description Pool
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u32 sets_per_pool{}; ///< Sets per Description Pool
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NvidiaArchitecture nvidia_arch{NvidiaArchitecture::Arch_AmpereOrNewer};
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// Telemetry parameters
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// Telemetry parameters
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std::set<std::string, std::less<>> supported_extensions; ///< Reported Vulkan extensions.
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std::set<std::string, std::less<>> supported_extensions; ///< Reported Vulkan extensions.
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