early-access version 4029
This commit is contained in:
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7bd2421ff9
commit
1ff2c37cf5
@ -305,7 +305,7 @@ find_package(ZLIB 1.2 REQUIRED)
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find_package(zstd 1.5 REQUIRED)
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if (NOT YUZU_USE_EXTERNAL_VULKAN_HEADERS)
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find_package(Vulkan 1.3.256 REQUIRED)
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find_package(Vulkan 1.3.274 REQUIRED)
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endif()
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if (ENABLE_LIBUSB)
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@ -1,7 +1,7 @@
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yuzu emulator early access
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=============
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This is the source code for early-access 4028.
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This is the source code for early-access 4029.
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## Legal Notice
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@ -39,7 +39,7 @@ fpsimd_context* GetFloatingPointState(mcontext_t& host_ctx) {
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}
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using namespace Common::Literals;
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constexpr u32 StackSize = 32_KiB;
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constexpr u32 StackSize = 128_KiB;
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} // namespace
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@ -5,8 +5,6 @@
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#include "common/bit_cast.h"
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#include "core/arm/nce/interpreter_visitor.h"
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#include <dynarmic/frontend/A64/decoder/a64.h>
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namespace Core {
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template <u32 BitSize>
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@ -249,6 +247,7 @@ bool InterpreterVisitor::LDR_lit_fpsimd(Imm<2> opc, Imm<19> imm19, Vec Vt) {
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return false;
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}
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// Size in bytes
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const u64 size = 4 << opc.ZeroExtend();
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const u64 offset = imm19.SignExtend<u64>() << 2;
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const u64 address = this->GetPc() + offset;
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@ -530,7 +529,7 @@ bool InterpreterVisitor::SIMDImmediate(bool wback, bool postindex, size_t scale,
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}
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case MemOp::Load: {
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u128 data{};
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m_memory.ReadBlock(address, &data, datasize);
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m_memory.ReadBlock(address, &data, datasize / 8);
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this->SetVec(Vt, data);
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break;
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}
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@ -4,9 +4,15 @@
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#pragma once
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#pragma GCC diagnostic push
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#pragma GCC diagnostic ignored "-Wshadow"
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#include <dynarmic/frontend/A64/a64_types.h>
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#include <dynarmic/frontend/A64/decoder/a64.h>
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#include <dynarmic/frontend/imm.h>
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#pragma GCC diagnostic pop
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namespace Core {
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class VisitorBase {
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@ -74,9 +74,17 @@ spv::ImageFormat GetImageFormat(ImageFormat format) {
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throw InvalidArgument("Invalid image format {}", format);
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}
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Id GetImageSampledType(EmitContext& ctx, const ImageDescriptor& desc) {
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if (desc.is_float) {
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return ctx.F32[1];
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} else {
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return ctx.U32[1];
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}
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}
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Id ImageType(EmitContext& ctx, const ImageDescriptor& desc) {
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const spv::ImageFormat format{GetImageFormat(desc.format)};
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const Id type{ctx.U32[1]};
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const Id type{GetImageSampledType(ctx, desc)};
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switch (desc.type) {
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case TextureType::Color1D:
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return ctx.TypeImage(type, spv::Dim::Dim1D, false, false, false, 2, format);
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@ -512,7 +512,7 @@ OPCODE(ImageQueryDimensions, U32x4, Opaq
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OPCODE(ImageQueryLod, F32x4, Opaque, Opaque, )
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OPCODE(ImageGradient, F32x4, Opaque, Opaque, Opaque, Opaque, Opaque, )
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OPCODE(ImageRead, U32x4, Opaque, Opaque, )
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OPCODE(ImageWrite, Void, Opaque, Opaque, U32x4, )
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OPCODE(ImageWrite, Void, Opaque, Opaque, Opaque, )
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OPCODE(IsTextureScaled, U1, U32, )
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OPCODE(IsImageScaled, U1, U32, )
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@ -19,8 +19,10 @@ struct HostTranslateInfo {
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u32 min_ssbo_alignment{}; ///< Minimum alignment supported by the device for SSBOs
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bool support_geometry_shader_passthrough{}; ///< True when the device supports geometry
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///< passthrough shaders
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bool support_conditional_barrier{}; ///< True when the device supports barriers in conditional
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///< control flow
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bool support_conditional_barrier{}; ///< True when the device supports barriers in conditional
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///< control flow
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bool support_ufloat_write_as_uint{}; ///< True when the device supports writing float images
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///< as bitcasts to uint
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};
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} // namespace Shader
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@ -372,6 +372,10 @@ TexturePixelFormat ReadTexturePixelFormat(Environment& env, const ConstBufferAdd
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return env.ReadTexturePixelFormat(GetTextureHandle(env, cbuf));
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}
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bool TexturePixelFormatIsFloat(Environment& env, const ConstBufferAddr& cbuf) {
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return ReadTexturePixelFormat(env, cbuf) == TexturePixelFormat::B10G11R11_FLOAT;
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}
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class Descriptors {
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public:
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explicit Descriptors(TextureBufferDescriptors& texture_buffer_descriptors_,
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@ -428,8 +432,9 @@ public:
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return desc.type == existing.type && desc.format == existing.format &&
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desc.cbuf_index == existing.cbuf_index &&
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desc.cbuf_offset == existing.cbuf_offset && desc.count == existing.count &&
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desc.size_shift == existing.size_shift;
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desc.size_shift == existing.size_shift && desc.is_float == existing.is_float;
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})};
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// TODO: handle is_float?
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image_descriptors[index].is_written |= desc.is_written;
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image_descriptors[index].is_read |= desc.is_read;
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return index;
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@ -500,6 +505,19 @@ void PatchTexelFetch(IR::Block& block, IR::Inst& inst, TexturePixelFormat pixel_
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ir.FPMul(ir.ConvertSToF(32, 32, ir.BitCast<IR::U32>(w)), max_value));
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inst.ReplaceUsesWith(converted);
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}
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void PatchSmallFloatImageWrite(IR::Block& block, IR::Inst& inst) {
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IR::IREmitter ir{block, IR::Block::InstructionList::s_iterator_to(inst)};
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const IR::Value old_value{inst.Arg(2)};
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const IR::F32 x(ir.BitCast<IR::F32>(IR::U32(ir.CompositeExtract(old_value, 0))));
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const IR::F32 y(ir.BitCast<IR::F32>(IR::U32(ir.CompositeExtract(old_value, 1))));
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const IR::F32 z(ir.BitCast<IR::F32>(IR::U32(ir.CompositeExtract(old_value, 2))));
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const IR::F32 w(ir.BitCast<IR::F32>(IR::U32(ir.CompositeExtract(old_value, 3))));
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const IR::Value converted = ir.CompositeConstruct(x, y, z, w);
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inst.SetArg(2, converted);
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}
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} // Anonymous namespace
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void TexturePass(Environment& env, IR::Program& program, const HostTranslateInfo& host_info) {
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@ -531,6 +549,9 @@ void TexturePass(Environment& env, IR::Program& program, const HostTranslateInfo
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inst->ReplaceOpcode(IndexedInstruction(*inst));
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const auto& cbuf{texture_inst.cbuf};
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const bool is_float_write{!host_info.support_ufloat_write_as_uint &&
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inst->GetOpcode() == IR::Opcode::ImageWrite &&
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TexturePixelFormatIsFloat(env, cbuf)};
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auto flags{inst->Flags<IR::TextureInstInfo>()};
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bool is_multisample{false};
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switch (inst->GetOpcode()) {
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@ -603,6 +624,7 @@ void TexturePass(Environment& env, IR::Program& program, const HostTranslateInfo
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.format = flags.image_format,
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.is_written = is_written,
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.is_read = is_read,
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.is_float = is_float_write,
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.cbuf_index = cbuf.index,
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.cbuf_offset = cbuf.offset,
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.count = cbuf.count,
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@ -662,6 +684,10 @@ void TexturePass(Environment& env, IR::Program& program, const HostTranslateInfo
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PatchTexelFetch(*texture_inst.block, *texture_inst.inst, pixel_format);
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}
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}
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if (is_float_write) {
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PatchSmallFloatImageWrite(*texture_inst.block, *inst);
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}
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}
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}
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@ -42,6 +42,7 @@ enum class TexturePixelFormat : u32 {
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R16G16B16A16_SNORM,
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R16G16_SNORM,
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R16_SNORM,
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B10G11R11_FLOAT,
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OTHER
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};
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@ -129,6 +130,7 @@ struct ImageDescriptor {
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ImageFormat format;
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bool is_written;
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bool is_read;
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bool is_float;
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u32 cbuf_index;
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u32 cbuf_offset;
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u32 count;
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@ -417,7 +417,7 @@ void RasterizerOpenGL::DispatchCompute() {
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void RasterizerOpenGL::ResetCounter(VideoCommon::QueryType type) {
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const auto query_cache_type = MaxwellToVideoCoreQuery(type);
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if (!query_cache_type.has_value()) {
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UNIMPLEMENTED_MSG("Reset query type: {}", type);
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UNIMPLEMENTED_IF_MSG(type != VideoCommon::QueryType::Payload, "Reset query type: {}", type);
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return;
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}
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query_cache.ResetCounter(*query_cache_type);
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@ -245,6 +245,7 @@ ShaderCache::ShaderCache(RasterizerOpenGL& rasterizer_, Core::Frontend::EmuWindo
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.min_ssbo_alignment = static_cast<u32>(device.GetShaderStorageBufferAlignment()),
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.support_geometry_shader_passthrough = device.HasGeometryShaderPassthrough(),
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.support_conditional_barrier = device.SupportsConditionalBarriers(),
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.support_ufloat_write_as_uint = true,
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} {
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if (use_asynchronous_shaders) {
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workers = CreateWorkers();
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}
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} // Anonymous namespace
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Buffer::Buffer(BufferCacheRuntime&, VideoCommon::NullBufferParams null_params)
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: VideoCommon::BufferBase<VideoCore::RasterizerInterface>(null_params), tracker{4096} {}
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Buffer::Buffer(BufferCacheRuntime& runtime, VideoCommon::NullBufferParams null_params)
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: VideoCommon::BufferBase<VideoCore::RasterizerInterface>(null_params), tracker{4096} {
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if (runtime.device.HasNullDescriptor()) {
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return;
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}
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device = &runtime.device;
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buffer = runtime.CreateNullBuffer();
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is_null = true;
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}
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Buffer::Buffer(BufferCacheRuntime& runtime, VideoCore::RasterizerInterface& rasterizer_,
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VAddr cpu_addr_, u64 size_bytes_)
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@ -93,8 +100,12 @@ Buffer::Buffer(BufferCacheRuntime& runtime, VideoCore::RasterizerInterface& rast
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VkBufferView Buffer::View(u32 offset, u32 size, VideoCore::Surface::PixelFormat format) {
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if (!device) {
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// Null buffer, return a null descriptor
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// Null buffer supported, return a null descriptor
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return VK_NULL_HANDLE;
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} else if (is_null) {
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// Null buffer not supported, adjust offset and size
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offset = 0;
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size = 0;
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}
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const auto it{std::ranges::find_if(views, [offset, size, format](const BufferView& view) {
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return offset == view.offset && size == view.size && format == view.format;
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@ -627,9 +638,12 @@ void BufferCacheRuntime::BindTransformFeedbackBuffers(VideoCommon::HostBindings<
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}
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void BufferCacheRuntime::ReserveNullBuffer() {
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if (null_buffer) {
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return;
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if (!null_buffer) {
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null_buffer = CreateNullBuffer();
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}
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}
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vk::Buffer BufferCacheRuntime::CreateNullBuffer() {
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VkBufferCreateInfo create_info{
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.sType = VK_STRUCTURE_TYPE_BUFFER_CREATE_INFO,
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.pNext = nullptr,
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@ -644,15 +658,17 @@ void BufferCacheRuntime::ReserveNullBuffer() {
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if (device.IsExtTransformFeedbackSupported()) {
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create_info.usage |= VK_BUFFER_USAGE_TRANSFORM_FEEDBACK_BUFFER_BIT_EXT;
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}
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null_buffer = memory_allocator.CreateBuffer(create_info, MemoryUsage::DeviceLocal);
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vk::Buffer ret = memory_allocator.CreateBuffer(create_info, MemoryUsage::DeviceLocal);
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if (device.HasDebuggingToolAttached()) {
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null_buffer.SetObjectNameEXT("Null buffer");
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ret.SetObjectNameEXT("Null buffer");
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}
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scheduler.RequestOutsideRenderPassOperationContext();
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scheduler.Record([buffer = *null_buffer](vk::CommandBuffer cmdbuf) {
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scheduler.Record([buffer = *ret](vk::CommandBuffer cmdbuf) {
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cmdbuf.FillBuffer(buffer, 0, VK_WHOLE_SIZE, 0);
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});
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return ret;
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}
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} // namespace Vulkan
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@ -63,6 +63,7 @@ private:
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vk::Buffer buffer;
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std::vector<BufferView> views;
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VideoCommon::UsageTracker tracker;
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bool is_null{};
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};
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class QuadArrayIndexBuffer;
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@ -151,6 +152,7 @@ private:
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}
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void ReserveNullBuffer();
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vk::Buffer CreateNullBuffer();
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const Device& device;
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MemoryAllocator& memory_allocator;
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@ -388,6 +388,9 @@ PipelineCache::PipelineCache(RasterizerVulkan& rasterizer_, const Device& device
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.min_ssbo_alignment = static_cast<u32>(device.GetStorageBufferAlignment()),
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.support_geometry_shader_passthrough = device.IsNvGeometryShaderPassthroughSupported(),
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.support_conditional_barrier = device.SupportsConditionalBarriers(),
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.support_ufloat_write_as_uint = driver_id != VK_DRIVER_ID_QUALCOMM_PROPRIETARY &&
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driver_id != VK_DRIVER_ID_MESA_TURNIP &&
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driver_id != VK_DRIVER_ID_ARM_PROPRIETARY,
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};
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if (device.GetMaxVertexInputAttributes() < Maxwell::NumVertexAttributes) {
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@ -76,6 +76,8 @@ static Shader::TexturePixelFormat ConvertTexturePixelFormat(const Tegra::Texture
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return Shader::TexturePixelFormat::R16G16_SNORM;
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case VideoCore::Surface::PixelFormat::R16_SNORM:
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return Shader::TexturePixelFormat::R16_SNORM;
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case VideoCore::Surface::PixelFormat::B10G11R11_FLOAT:
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return Shader::TexturePixelFormat::B10G11R11_FLOAT;
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default:
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return Shader::TexturePixelFormat::OTHER;
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}
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@ -377,6 +377,8 @@ const char* ToString(VkResult result) noexcept {
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return "VK_OPERATION_DEFERRED_KHR";
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case VkResult::VK_OPERATION_NOT_DEFERRED_KHR:
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return "VK_OPERATION_NOT_DEFERRED_KHR";
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case VkResult::VK_ERROR_INVALID_VIDEO_STD_PARAMETERS_KHR:
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return "VK_ERROR_INVALID_VIDEO_STD_PARAMETERS_KHR";
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case VkResult::VK_PIPELINE_COMPILE_REQUIRED_EXT:
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return "VK_PIPELINE_COMPILE_REQUIRED_EXT";
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case VkResult::VK_RESULT_MAX_ENUM:
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