video_core: Track renderpass scopes properly

This commit is contained in:
IndecisiveTurtle 2024-07-01 00:43:59 +03:00 committed by TheTurtle
parent ad10020836
commit 22b930ba5e
36 changed files with 400 additions and 166 deletions

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@ -209,6 +209,8 @@ void VideoOutDriver::Flip(std::chrono::microseconds timeout) {
bool VideoOutDriver::SubmitFlip(VideoOutPort* port, s32 index, s64 flip_arg, bool VideoOutDriver::SubmitFlip(VideoOutPort* port, s32 index, s64 flip_arg,
bool is_eop /*= false*/) { bool is_eop /*= false*/) {
std::scoped_lock lock{mutex};
Vulkan::Frame* frame; Vulkan::Frame* frame;
if (index == -1) { if (index == -1) {
frame = renderer->PrepareBlankFrame(); frame = renderer->PrepareBlankFrame();
@ -218,8 +220,6 @@ bool VideoOutDriver::SubmitFlip(VideoOutPort* port, s32 index, s64 flip_arg,
frame = renderer->PrepareFrame(group, buffer.address_left); frame = renderer->PrepareFrame(group, buffer.address_left);
} }
std::scoped_lock lock{mutex};
if (index != -1 && requests.size() >= port->NumRegisteredBuffers()) { if (index != -1 && requests.size() >= port->NumRegisteredBuffers()) {
LOG_ERROR(Lib_VideoOut, "Flip queue is full"); LOG_ERROR(Lib_VideoOut, "Flip queue is full");
return false; return false;

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@ -242,7 +242,7 @@ void sceVideoOutGetBufferLabelAddress(s32 handle, uintptr_t* label_addr) {
s32 sceVideoOutSubmitEopFlip(s32 handle, u32 buf_id, u32 mode, u32 arg, void** unk) { s32 sceVideoOutSubmitEopFlip(s32 handle, u32 buf_id, u32 mode, u32 arg, void** unk) {
auto* port = driver->GetPort(handle); auto* port = driver->GetPort(handle);
if (!port) { if (!port) {
return 0x8029000b; return ORBIS_VIDEO_OUT_ERROR_INVALID_HANDLE;
} }
Platform::IrqC::Instance()->RegisterOnce( Platform::IrqC::Instance()->RegisterOnce(

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@ -126,7 +126,7 @@ void Emulator::Run(const std::filesystem::path& file) {
std::jthread([this](std::stop_token stop_token) { linker->Execute(); }); std::jthread([this](std::stop_token stop_token) { linker->Execute(); });
// Begin main window loop until the application exits // Begin main window loop until the application exits
static constexpr std::chrono::microseconds FlipPeriod{10}; static constexpr std::chrono::milliseconds FlipPeriod{16};
while (window.isOpen()) { while (window.isOpen()) {
window.waitEvent(); window.waitEvent();

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@ -200,6 +200,8 @@ void DefineEntryPoint(const IR::Program& program, EmitContext& ctx, Id main) {
ctx.AddCapability(spv::Capability::GroupNonUniformQuad); ctx.AddCapability(spv::Capability::GroupNonUniformQuad);
} }
ctx.AddCapability(spv::Capability::DemoteToHelperInvocationEXT); ctx.AddCapability(spv::Capability::DemoteToHelperInvocationEXT);
ctx.AddCapability(spv::Capability::ImageGatherExtended);
ctx.AddCapability(spv::Capability::ImageQuery);
// if (program.info.stores_frag_depth) { // if (program.info.stores_frag_depth) {
// ctx.AddExecutionMode(main, spv::ExecutionMode::DepthReplacing); // ctx.AddExecutionMode(main, spv::ExecutionMode::DepthReplacing);
// } // }

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@ -7,7 +7,7 @@
namespace Shader::Backend::SPIRV { namespace Shader::Backend::SPIRV {
void EmitBitCastU16F16(EmitContext&) { void EmitBitCastU16F16(EmitContext&) {
throw NotImplementedException("SPIR-V Instruction"); UNREACHABLE_MSG("SPIR-V Instruction");
} }
Id EmitBitCastU32F32(EmitContext& ctx, Id value) { Id EmitBitCastU32F32(EmitContext& ctx, Id value) {
@ -15,11 +15,11 @@ Id EmitBitCastU32F32(EmitContext& ctx, Id value) {
} }
void EmitBitCastU64F64(EmitContext&) { void EmitBitCastU64F64(EmitContext&) {
throw NotImplementedException("SPIR-V Instruction"); UNREACHABLE_MSG("SPIR-V Instruction");
} }
void EmitBitCastF16U16(EmitContext&) { void EmitBitCastF16U16(EmitContext&) {
throw NotImplementedException("SPIR-V Instruction"); UNREACHABLE_MSG("SPIR-V Instruction");
} }
Id EmitBitCastF32U32(EmitContext& ctx, Id value) { Id EmitBitCastF32U32(EmitContext& ctx, Id value) {
@ -27,7 +27,7 @@ Id EmitBitCastF32U32(EmitContext& ctx, Id value) {
} }
void EmitBitCastF64U64(EmitContext&) { void EmitBitCastF64U64(EmitContext&) {
throw NotImplementedException("SPIR-V Instruction"); UNREACHABLE_MSG("SPIR-V Instruction");
} }
Id EmitPackUint2x32(EmitContext& ctx, Id value) { Id EmitPackUint2x32(EmitContext& ctx, Id value) {

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@ -115,27 +115,27 @@ Id EmitCompositeInsertF32x4(EmitContext& ctx, Id composite, Id object, u32 index
} }
void EmitCompositeConstructF64x2(EmitContext&) { void EmitCompositeConstructF64x2(EmitContext&) {
throw NotImplementedException("SPIR-V Instruction"); UNREACHABLE_MSG("SPIR-V Instruction");
} }
void EmitCompositeConstructF64x3(EmitContext&) { void EmitCompositeConstructF64x3(EmitContext&) {
throw NotImplementedException("SPIR-V Instruction"); UNREACHABLE_MSG("SPIR-V Instruction");
} }
void EmitCompositeConstructF64x4(EmitContext&) { void EmitCompositeConstructF64x4(EmitContext&) {
throw NotImplementedException("SPIR-V Instruction"); UNREACHABLE_MSG("SPIR-V Instruction");
} }
void EmitCompositeExtractF64x2(EmitContext&) { void EmitCompositeExtractF64x2(EmitContext&) {
throw NotImplementedException("SPIR-V Instruction"); UNREACHABLE_MSG("SPIR-V Instruction");
} }
void EmitCompositeExtractF64x3(EmitContext&) { void EmitCompositeExtractF64x3(EmitContext&) {
throw NotImplementedException("SPIR-V Instruction"); UNREACHABLE_MSG("SPIR-V Instruction");
} }
void EmitCompositeExtractF64x4(EmitContext&) { void EmitCompositeExtractF64x4(EmitContext&) {
throw NotImplementedException("SPIR-V Instruction"); UNREACHABLE_MSG("SPIR-V Instruction");
} }
Id EmitCompositeInsertF64x2(EmitContext& ctx, Id composite, Id object, u32 index) { Id EmitCompositeInsertF64x2(EmitContext& ctx, Id composite, Id object, u32 index) {

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@ -195,10 +195,36 @@ void EmitStoreBufferF32x2(EmitContext& ctx, IR::Inst* inst, u32 handle, Id addre
} }
void EmitStoreBufferF32x3(EmitContext& ctx, IR::Inst* inst, u32 handle, Id address, Id value) { void EmitStoreBufferF32x3(EmitContext& ctx, IR::Inst* inst, u32 handle, Id address, Id value) {
const auto info = inst->Flags<IR::BufferInstInfo>();
const auto& buffer = ctx.buffers[handle];
if (info.index_enable && info.offset_enable) {
UNREACHABLE();
} else if (info.index_enable) {
for (u32 i = 0; i < 3; i++) {
const Id index{ctx.OpIAdd(ctx.U32[1], address, ctx.ConstU32(i))};
const Id ptr{
ctx.OpAccessChain(buffer.pointer_type, buffer.id, ctx.u32_zero_value, index)};
ctx.OpStore(ptr, ctx.OpCompositeExtract(ctx.F32[1], value, i));
}
return;
}
UNREACHABLE(); UNREACHABLE();
} }
void EmitStoreBufferF32x4(EmitContext& ctx, IR::Inst* inst, u32 handle, Id address, Id value) { void EmitStoreBufferF32x4(EmitContext& ctx, IR::Inst* inst, u32 handle, Id address, Id value) {
const auto info = inst->Flags<IR::BufferInstInfo>();
const auto& buffer = ctx.buffers[handle];
if (info.index_enable && info.offset_enable) {
UNREACHABLE();
} else if (info.index_enable) {
for (u32 i = 0; i < 4; i++) {
const Id index{ctx.OpIAdd(ctx.U32[1], address, ctx.ConstU32(i))};
const Id ptr{
ctx.OpAccessChain(buffer.pointer_type, buffer.id, ctx.u32_zero_value, index)};
ctx.OpStore(ptr, ctx.OpCompositeExtract(ctx.F32[1], value, i));
}
return;
}
UNREACHABLE(); UNREACHABLE();
} }

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@ -1,18 +1,34 @@
// SPDX-FileCopyrightText: Copyright 2024 shadPS4 Emulator Project // SPDX-FileCopyrightText: Copyright 2024 shadPS4 Emulator Project
// SPDX-License-Identifier: GPL-2.0-or-later // SPDX-License-Identifier: GPL-2.0-or-later
#include <boost/container/static_vector.hpp>
#include "shader_recompiler/backend/spirv/emit_spirv_instructions.h" #include "shader_recompiler/backend/spirv/emit_spirv_instructions.h"
#include "shader_recompiler/backend/spirv/spirv_emit_context.h" #include "shader_recompiler/backend/spirv/spirv_emit_context.h"
namespace Shader::Backend::SPIRV { namespace Shader::Backend::SPIRV {
struct ImageOperands {
void Add(spv::ImageOperandsMask new_mask, Id value) {
mask = static_cast<spv::ImageOperandsMask>(static_cast<u32>(mask) |
static_cast<u32>(new_mask));
operands.push_back(value);
}
spv::ImageOperandsMask mask{};
boost::container::static_vector<Id, 4> operands;
};
Id EmitImageSampleImplicitLod(EmitContext& ctx, IR::Inst* inst, u32 handle, Id coords, Id bias_lc, Id EmitImageSampleImplicitLod(EmitContext& ctx, IR::Inst* inst, u32 handle, Id coords, Id bias_lc,
Id offset) { Id offset) {
const auto& texture = ctx.images[handle & 0xFFFF]; const auto& texture = ctx.images[handle & 0xFFFF];
const Id image = ctx.OpLoad(texture.image_type, texture.id); const Id image = ctx.OpLoad(texture.image_type, texture.id);
const Id sampler = ctx.OpLoad(ctx.sampler_type, ctx.samplers[handle >> 16]); const Id sampler = ctx.OpLoad(ctx.sampler_type, ctx.samplers[handle >> 16]);
const Id sampled_image = ctx.OpSampledImage(texture.sampled_type, image, sampler); const Id sampled_image = ctx.OpSampledImage(texture.sampled_type, image, sampler);
return ctx.OpImageSampleImplicitLod(ctx.F32[4], sampled_image, coords); ImageOperands operands;
if (Sirit::ValidId(offset)) {
operands.Add(spv::ImageOperandsMask::Offset, offset);
}
return ctx.OpImageSampleImplicitLod(ctx.F32[4], sampled_image, coords, operands.mask, operands.operands);
} }
Id EmitImageSampleExplicitLod(EmitContext& ctx, IR::Inst* inst, u32 handle, Id coords, Id bias_lc, Id EmitImageSampleExplicitLod(EmitContext& ctx, IR::Inst* inst, u32 handle, Id coords, Id bias_lc,
@ -25,9 +41,13 @@ Id EmitImageSampleExplicitLod(EmitContext& ctx, IR::Inst* inst, u32 handle, Id c
spv::ImageOperandsMask::Lod, ctx.ConstF32(0.f)); spv::ImageOperandsMask::Lod, ctx.ConstF32(0.f));
} }
Id EmitImageSampleDrefImplicitLod(EmitContext& ctx, IR::Inst* inst, const IR::Value& index, Id EmitImageSampleDrefImplicitLod(EmitContext& ctx, IR::Inst* inst, u32 handle,
Id coords, Id dref, Id bias_lc, const IR::Value& offset) { Id coords, Id dref, Id bias_lc, const IR::Value& offset) {
throw NotImplementedException("SPIR-V Instruction"); const auto& texture = ctx.images[handle & 0xFFFF];
const Id image = ctx.OpLoad(texture.image_type, texture.id);
const Id sampler = ctx.OpLoad(ctx.sampler_type, ctx.samplers[handle >> 16]);
const Id sampled_image = ctx.OpSampledImage(texture.sampled_type, image, sampler);
return ctx.OpImageSampleDrefImplicitLod(ctx.F32[1], sampled_image, coords, dref);
} }
Id EmitImageSampleDrefExplicitLod(EmitContext& ctx, IR::Inst* inst, u32 handle, Id coords, Id dref, Id EmitImageSampleDrefExplicitLod(EmitContext& ctx, IR::Inst* inst, u32 handle, Id coords, Id dref,
@ -42,12 +62,16 @@ Id EmitImageSampleDrefExplicitLod(EmitContext& ctx, IR::Inst* inst, u32 handle,
Id EmitImageGather(EmitContext& ctx, IR::Inst* inst, const IR::Value& index, Id coords, Id EmitImageGather(EmitContext& ctx, IR::Inst* inst, const IR::Value& index, Id coords,
const IR::Value& offset, const IR::Value& offset2) { const IR::Value& offset, const IR::Value& offset2) {
throw NotImplementedException("SPIR-V Instruction"); UNREACHABLE_MSG("SPIR-V Instruction");
} }
Id EmitImageGatherDref(EmitContext& ctx, IR::Inst* inst, const IR::Value& index, Id coords, Id EmitImageGatherDref(EmitContext& ctx, IR::Inst* inst, u32 handle, Id coords,
const IR::Value& offset, const IR::Value& offset2, Id dref) { const IR::Value& offset, const IR::Value& offset2, Id dref) {
throw NotImplementedException("SPIR-V Instruction"); const auto& texture = ctx.images[handle & 0xFFFF];
const Id image = ctx.OpLoad(texture.image_type, texture.id);
const Id sampler = ctx.OpLoad(ctx.sampler_type, ctx.samplers[handle >> 16]);
const Id sampled_image = ctx.OpSampledImage(texture.sampled_type, image, sampler);
return ctx.OpImageDrefGather(ctx.F32[4], sampled_image, coords, dref);
} }
Id EmitImageFetch(EmitContext& ctx, IR::Inst* inst, u32 handle, Id coords, Id offset, Id lod, Id EmitImageFetch(EmitContext& ctx, IR::Inst* inst, u32 handle, Id coords, Id offset, Id lod,
@ -83,21 +107,21 @@ Id EmitImageQueryDimensions(EmitContext& ctx, IR::Inst* inst, u32 handle, Id lod
case AmdGpu::ImageType::Color3D: case AmdGpu::ImageType::Color3D:
return ctx.OpCompositeConstruct(ctx.U32[4], query(ctx.U32[3]), mips()); return ctx.OpCompositeConstruct(ctx.U32[4], query(ctx.U32[3]), mips());
default: default:
throw NotImplementedException("SPIR-V Instruction"); UNREACHABLE_MSG("SPIR-V Instruction");
} }
} }
Id EmitImageQueryLod(EmitContext& ctx, IR::Inst* inst, const IR::Value& index, Id coords) { Id EmitImageQueryLod(EmitContext& ctx, IR::Inst* inst, const IR::Value& index, Id coords) {
throw NotImplementedException("SPIR-V Instruction"); UNREACHABLE_MSG("SPIR-V Instruction");
} }
Id EmitImageGradient(EmitContext& ctx, IR::Inst* inst, const IR::Value& index, Id coords, Id EmitImageGradient(EmitContext& ctx, IR::Inst* inst, const IR::Value& index, Id coords,
Id derivatives, const IR::Value& offset, Id lod_clamp) { Id derivatives, const IR::Value& offset, Id lod_clamp) {
throw NotImplementedException("SPIR-V Instruction"); UNREACHABLE_MSG("SPIR-V Instruction");
} }
Id EmitImageRead(EmitContext& ctx, IR::Inst* inst, const IR::Value& index, Id coords) { Id EmitImageRead(EmitContext& ctx, IR::Inst* inst, const IR::Value& index, Id coords) {
throw NotImplementedException("SPIR-V Instruction"); UNREACHABLE_MSG("SPIR-V Instruction");
} }
void EmitImageWrite(EmitContext& ctx, IR::Inst* inst, u32 handle, Id coords, Id color) { void EmitImageWrite(EmitContext& ctx, IR::Inst* inst, u32 handle, Id coords, Id color) {

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@ -338,13 +338,13 @@ Id EmitImageSampleImplicitLod(EmitContext& ctx, IR::Inst* inst, u32 handle, Id c
Id offset); Id offset);
Id EmitImageSampleExplicitLod(EmitContext& ctx, IR::Inst* inst, u32 handle, Id coords, Id bias_lc, Id EmitImageSampleExplicitLod(EmitContext& ctx, IR::Inst* inst, u32 handle, Id coords, Id bias_lc,
Id offset); Id offset);
Id EmitImageSampleDrefImplicitLod(EmitContext& ctx, IR::Inst* inst, const IR::Value& index, Id EmitImageSampleDrefImplicitLod(EmitContext& ctx, IR::Inst* inst, u32 handle,
Id coords, Id dref, Id bias_lc, const IR::Value& offset); Id coords, Id dref, Id bias_lc, const IR::Value& offset);
Id EmitImageSampleDrefExplicitLod(EmitContext& ctx, IR::Inst* inst, u32 handle, Id coords, Id dref, Id EmitImageSampleDrefExplicitLod(EmitContext& ctx, IR::Inst* inst, u32 handle, Id coords, Id dref,
Id bias_lc, Id offset); Id bias_lc, Id offset);
Id EmitImageGather(EmitContext& ctx, IR::Inst* inst, const IR::Value& index, Id coords, Id EmitImageGather(EmitContext& ctx, IR::Inst* inst, const IR::Value& index, Id coords,
const IR::Value& offset, const IR::Value& offset2); const IR::Value& offset, const IR::Value& offset2);
Id EmitImageGatherDref(EmitContext& ctx, IR::Inst* inst, const IR::Value& index, Id coords, Id EmitImageGatherDref(EmitContext& ctx, IR::Inst* inst, u32 handle, Id coords,
const IR::Value& offset, const IR::Value& offset2, Id dref); const IR::Value& offset, const IR::Value& offset2, Id dref);
Id EmitImageFetch(EmitContext& ctx, IR::Inst* inst, u32 handle, Id coords, Id offset, Id lod, Id EmitImageFetch(EmitContext& ctx, IR::Inst* inst, u32 handle, Id coords, Id offset, Id lod,
Id ms); Id ms);

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@ -11,7 +11,7 @@ Id EmitSelectU1(EmitContext& ctx, Id cond, Id true_value, Id false_value) {
} }
Id EmitSelectU8(EmitContext&, Id, Id, Id) { Id EmitSelectU8(EmitContext&, Id, Id, Id) {
throw NotImplementedException("SPIR-V Instruction"); UNREACHABLE_MSG("SPIR-V Instruction");
} }
Id EmitSelectU16(EmitContext& ctx, Id cond, Id true_value, Id false_value) { Id EmitSelectU16(EmitContext& ctx, Id cond, Id true_value, Id false_value) {

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@ -11,11 +11,11 @@ Id EmitUndefU1(EmitContext& ctx) {
} }
Id EmitUndefU8(EmitContext&) { Id EmitUndefU8(EmitContext&) {
throw NotImplementedException("SPIR-V Instruction"); UNREACHABLE_MSG("SPIR-V Instruction");
} }
Id EmitUndefU16(EmitContext&) { Id EmitUndefU16(EmitContext&) {
throw NotImplementedException("SPIR-V Instruction"); UNREACHABLE_MSG("SPIR-V Instruction");
} }
Id EmitUndefU32(EmitContext& ctx) { Id EmitUndefU32(EmitContext& ctx) {
@ -23,7 +23,7 @@ Id EmitUndefU32(EmitContext& ctx) {
} }
Id EmitUndefU64(EmitContext&) { Id EmitUndefU64(EmitContext&) {
throw NotImplementedException("SPIR-V Instruction"); UNREACHABLE_MSG("SPIR-V Instruction");
} }
} // namespace Shader::Backend::SPIRV } // namespace Shader::Backend::SPIRV

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@ -118,6 +118,7 @@ Id GetAttributeType(EmitContext& ctx, AmdGpu::NumberFormat fmt) {
switch (fmt) { switch (fmt) {
case AmdGpu::NumberFormat::Float: case AmdGpu::NumberFormat::Float:
case AmdGpu::NumberFormat::Unorm: case AmdGpu::NumberFormat::Unorm:
case AmdGpu::NumberFormat::Snorm:
return ctx.F32[4]; return ctx.F32[4];
case AmdGpu::NumberFormat::Sint: case AmdGpu::NumberFormat::Sint:
return ctx.S32[4]; return ctx.S32[4];
@ -137,6 +138,7 @@ EmitContext::SpirvAttribute EmitContext::GetAttributeInfo(AmdGpu::NumberFormat f
switch (fmt) { switch (fmt) {
case AmdGpu::NumberFormat::Float: case AmdGpu::NumberFormat::Float:
case AmdGpu::NumberFormat::Unorm: case AmdGpu::NumberFormat::Unorm:
case AmdGpu::NumberFormat::Snorm:
return {id, input_f32, F32[1], 4}; return {id, input_f32, F32[1], 4};
case AmdGpu::NumberFormat::Uint: case AmdGpu::NumberFormat::Uint:
return {id, input_u32, U32[1], 4}; return {id, input_u32, U32[1], 4};
@ -253,6 +255,7 @@ void EmitContext::DefineOutputs(const Info& info) {
} }
void EmitContext::DefineBuffers(const Info& info) { void EmitContext::DefineBuffers(const Info& info) {
boost::container::small_vector<Id, 8> type_ids;
for (u32 i = 0; const auto& buffer : info.buffers) { for (u32 i = 0; const auto& buffer : info.buffers) {
const auto* data_types = True(buffer.used_types & IR::Type::F32) ? &F32 : &U32; const auto* data_types = True(buffer.used_types & IR::Type::F32) ? &F32 : &U32;
const Id data_type = (*data_types)[1]; const Id data_type = (*data_types)[1];
@ -260,13 +263,15 @@ void EmitContext::DefineBuffers(const Info& info) {
const u32 num_elements = stride * buffer.num_records; const u32 num_elements = stride * buffer.num_records;
const Id record_array_type{TypeArray(data_type, ConstU32(num_elements))}; const Id record_array_type{TypeArray(data_type, ConstU32(num_elements))};
const Id struct_type{TypeStruct(record_array_type)}; const Id struct_type{TypeStruct(record_array_type)};
Decorate(record_array_type, spv::Decoration::ArrayStride, 4); if (std::ranges::find(type_ids, record_array_type.value, &Id::value) == type_ids.end()) {
Decorate(record_array_type, spv::Decoration::ArrayStride, 4);
const auto name = fmt::format("{}_cbuf_block_{}{}", stage, 'f', sizeof(float) * CHAR_BIT); const auto name = fmt::format("{}_cbuf_block_{}{}", stage, 'f', sizeof(float) * CHAR_BIT);
Name(struct_type, name); Name(struct_type, name);
Decorate(struct_type, spv::Decoration::Block); Decorate(struct_type, spv::Decoration::Block);
MemberName(struct_type, 0, "data"); MemberName(struct_type, 0, "data");
MemberDecorate(struct_type, 0, spv::Decoration::Offset, 0U); MemberDecorate(struct_type, 0, spv::Decoration::Offset, 0U);
}
type_ids.push_back(record_array_type);
const auto storage_class = const auto storage_class =
buffer.is_storage ? spv::StorageClass::StorageBuffer : spv::StorageClass::Uniform; buffer.is_storage ? spv::StorageClass::StorageBuffer : spv::StorageClass::Uniform;

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@ -329,12 +329,16 @@ void Translate(IR::Block* block, std::span<const GcnInst> inst_list, Info& info)
break; break;
case Opcode::IMAGE_SAMPLE_LZ_O: case Opcode::IMAGE_SAMPLE_LZ_O:
case Opcode::IMAGE_SAMPLE_O: case Opcode::IMAGE_SAMPLE_O:
case Opcode::IMAGE_SAMPLE_C:
case Opcode::IMAGE_SAMPLE_C_LZ: case Opcode::IMAGE_SAMPLE_C_LZ:
case Opcode::IMAGE_SAMPLE_LZ: case Opcode::IMAGE_SAMPLE_LZ:
case Opcode::IMAGE_SAMPLE: case Opcode::IMAGE_SAMPLE:
case Opcode::IMAGE_SAMPLE_L: case Opcode::IMAGE_SAMPLE_L:
translator.IMAGE_SAMPLE(inst); translator.IMAGE_SAMPLE(inst);
break; break;
case Opcode::IMAGE_GATHER4_C:
translator.IMAGE_GATHER(inst);
break;
case Opcode::IMAGE_STORE: case Opcode::IMAGE_STORE:
translator.IMAGE_STORE(inst); translator.IMAGE_STORE(inst);
break; break;
@ -450,16 +454,22 @@ void Translate(IR::Block* block, std::span<const GcnInst> inst_list, Info& info)
translator.BUFFER_LOAD_FORMAT(1, false, inst); translator.BUFFER_LOAD_FORMAT(1, false, inst);
break; break;
case Opcode::BUFFER_LOAD_FORMAT_XYZ: case Opcode::BUFFER_LOAD_FORMAT_XYZ:
case Opcode::BUFFER_LOAD_DWORDX3:
translator.BUFFER_LOAD_FORMAT(3, false, inst); translator.BUFFER_LOAD_FORMAT(3, false, inst);
break; break;
case Opcode::BUFFER_LOAD_FORMAT_XYZW: case Opcode::BUFFER_LOAD_FORMAT_XYZW:
case Opcode::BUFFER_LOAD_DWORDX4:
translator.BUFFER_LOAD_FORMAT(4, false, inst); translator.BUFFER_LOAD_FORMAT(4, false, inst);
break; break;
case Opcode::BUFFER_STORE_FORMAT_X: case Opcode::BUFFER_STORE_FORMAT_X:
case Opcode::BUFFER_STORE_DWORD: case Opcode::BUFFER_STORE_DWORD:
translator.BUFFER_STORE_FORMAT(1, false, inst); translator.BUFFER_STORE_FORMAT(1, false, inst);
break; break;
case Opcode::BUFFER_STORE_DWORDX3:
translator.BUFFER_STORE_FORMAT(3, false, inst);
break;
case Opcode::BUFFER_STORE_FORMAT_XYZW: case Opcode::BUFFER_STORE_FORMAT_XYZW:
case Opcode::BUFFER_STORE_DWORDX4:
translator.BUFFER_STORE_FORMAT(4, false, inst); translator.BUFFER_STORE_FORMAT(4, false, inst);
break; break;
case Opcode::V_MAX_F32: case Opcode::V_MAX_F32:

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@ -146,6 +146,7 @@ public:
// MIMG // MIMG
void IMAGE_GET_RESINFO(const GcnInst& inst); void IMAGE_GET_RESINFO(const GcnInst& inst);
void IMAGE_SAMPLE(const GcnInst& inst); void IMAGE_SAMPLE(const GcnInst& inst);
void IMAGE_GATHER(const GcnInst& inst);
void IMAGE_STORE(const GcnInst& inst); void IMAGE_STORE(const GcnInst& inst);
void IMAGE_LOAD(bool has_mip, const GcnInst& inst); void IMAGE_LOAD(bool has_mip, const GcnInst& inst);

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@ -76,6 +76,7 @@ void Translator::IMAGE_SAMPLE(const GcnInst& inst) {
info.has_bias.Assign(flags.test(MimgModifier::LodBias)); info.has_bias.Assign(flags.test(MimgModifier::LodBias));
info.has_lod_clamp.Assign(flags.test(MimgModifier::LodClamp)); info.has_lod_clamp.Assign(flags.test(MimgModifier::LodClamp));
info.force_level0.Assign(flags.test(MimgModifier::Level0)); info.force_level0.Assign(flags.test(MimgModifier::Level0));
info.has_offset.Assign(flags.test(MimgModifier::Offset));
info.explicit_lod.Assign(explicit_lod); info.explicit_lod.Assign(explicit_lod);
// Issue IR instruction, leaving unknown fields blank to patch later. // Issue IR instruction, leaving unknown fields blank to patch later.
@ -108,6 +109,74 @@ void Translator::IMAGE_SAMPLE(const GcnInst& inst) {
} }
} }
void Translator::IMAGE_GATHER(const GcnInst& inst) {
const auto& mimg = inst.control.mimg;
if (mimg.da) {
LOG_WARNING(Render_Vulkan, "Image instruction declares an array");
}
IR::VectorReg addr_reg{inst.src[0].code};
IR::VectorReg dest_reg{inst.dst[0].code};
const IR::ScalarReg tsharp_reg{inst.src[2].code * 4};
const IR::ScalarReg sampler_reg{inst.src[3].code * 4};
const auto flags = MimgModifierFlags(mimg.mod);
// Load first dword of T# and S#. We will use them as the handle that will guide resource
// tracking pass where to read the sharps. This will later also get patched to the SPIRV texture
// binding index.
const IR::Value handle =
ir.CompositeConstruct(ir.GetScalarReg(tsharp_reg), ir.GetScalarReg(sampler_reg));
// Load first address components as denoted in 8.2.4 VGPR Usage Sea Islands Series Instruction
// Set Architecture
const IR::Value offset =
flags.test(MimgModifier::Offset) ? ir.GetVectorReg(addr_reg++) : IR::Value{};
const IR::F32 bias =
flags.test(MimgModifier::LodBias) ? ir.GetVectorReg<IR::F32>(addr_reg++) : IR::F32{};
const IR::F32 dref =
flags.test(MimgModifier::Pcf) ? ir.GetVectorReg<IR::F32>(addr_reg++) : IR::F32{};
// Derivatives are tricky because their number depends on the texture type which is located in
// T#. We don't have access to T# though until resource tracking pass. For now assume no
// derivatives are present, otherwise we don't know where coordinates are placed in the address
// stream.
ASSERT_MSG(!flags.test(MimgModifier::Derivative), "Derivative image instruction");
// Now we can load body components as noted in Table 8.9 Image Opcodes with Sampler
// Since these are at most 4 dwords, we load them into a single uvec4 and place them
// in coords field of the instruction. Then the resource tracking pass will patch the
// IR instruction to fill in lod_clamp field.
const IR::Value body = ir.CompositeConstruct(
ir.GetVectorReg<IR::F32>(addr_reg), ir.GetVectorReg<IR::F32>(addr_reg + 1),
ir.GetVectorReg<IR::F32>(addr_reg + 2), ir.GetVectorReg<IR::F32>(addr_reg + 3));
const bool explicit_lod = flags.any(MimgModifier::Level0, MimgModifier::Lod);
IR::TextureInstInfo info{};
info.is_depth.Assign(flags.test(MimgModifier::Pcf));
info.has_bias.Assign(flags.test(MimgModifier::LodBias));
info.has_lod_clamp.Assign(flags.test(MimgModifier::LodClamp));
info.force_level0.Assign(flags.test(MimgModifier::Level0));
info.explicit_lod.Assign(explicit_lod);
// Issue IR instruction, leaving unknown fields blank to patch later.
const IR::Value texel = [&]() -> IR::Value {
const IR::F32 lod = flags.test(MimgModifier::Level0) ? ir.Imm32(0.f) : IR::F32{};
if (!flags.test(MimgModifier::Pcf)) {
return ir.ImageGather(handle, body, offset, {}, info);
}
return ir.ImageGatherDref(handle, body, offset, {}, dref, info);
}();
for (u32 i = 0; i < 4; i++) {
if (((mimg.dmask >> i) & 1) == 0) {
continue;
}
const IR::F32 value = IR::F32{ir.CompositeExtract(texel, i)};
ir.SetVectorReg(dest_reg++, value);
}
}
void Translator::IMAGE_LOAD(bool has_mip, const GcnInst& inst) { void Translator::IMAGE_LOAD(bool has_mip, const GcnInst& inst) {
const auto& mimg = inst.control.mimg; const auto& mimg = inst.control.mimg;
IR::VectorReg addr_reg{inst.src[0].code}; IR::VectorReg addr_reg{inst.src[0].code};

View File

@ -198,6 +198,7 @@ SharpLocation TrackSharp(const IR::Inst* inst) {
void PatchBufferInstruction(IR::Block& block, IR::Inst& inst, Info& info, void PatchBufferInstruction(IR::Block& block, IR::Inst& inst, Info& info,
Descriptors& descriptors) { Descriptors& descriptors) {
static constexpr size_t MaxUboSize = 65536;
IR::Inst* producer = inst.Arg(0).InstRecursive(); IR::Inst* producer = inst.Arg(0).InstRecursive();
const auto sharp = TrackSharp(producer); const auto sharp = TrackSharp(producer);
const auto buffer = info.ReadUd<AmdGpu::Buffer>(sharp.sgpr_base, sharp.dword_offset); const auto buffer = info.ReadUd<AmdGpu::Buffer>(sharp.sgpr_base, sharp.dword_offset);
@ -207,7 +208,7 @@ void PatchBufferInstruction(IR::Block& block, IR::Inst& inst, Info& info,
.stride = buffer.GetStride(), .stride = buffer.GetStride(),
.num_records = u32(buffer.num_records), .num_records = u32(buffer.num_records),
.used_types = BufferDataType(inst), .used_types = BufferDataType(inst),
.is_storage = IsBufferStore(inst), .is_storage = IsBufferStore(inst) || buffer.GetSize() > MaxUboSize,
}); });
const auto inst_info = inst.Flags<IR::BufferInstInfo>(); const auto inst_info = inst.Flags<IR::BufferInstInfo>();
IR::IREmitter ir{block, IR::Block::InstructionList::s_iterator_to(inst)}; IR::IREmitter ir{block, IR::Block::InstructionList::s_iterator_to(inst)};
@ -252,25 +253,14 @@ IR::Value PatchCubeCoord(IR::IREmitter& ir, const IR::Value& s, const IR::Value&
} }
void PatchImageInstruction(IR::Block& block, IR::Inst& inst, Info& info, Descriptors& descriptors) { void PatchImageInstruction(IR::Block& block, IR::Inst& inst, Info& info, Descriptors& descriptors) {
std::deque<IR::Inst*> insts{&inst}; IR::Inst* producer = inst.Arg(0).InstRecursive();
const auto& pred = [](auto opcode) -> bool { while (producer->GetOpcode() == IR::Opcode::Phi) {
return (opcode == IR::Opcode::CompositeConstructU32x2 || // IMAGE_SAMPLE (image+sampler) producer = producer->Arg(0).InstRecursive();
opcode == IR::Opcode::ReadConst || // IMAGE_LOAD (image only)
opcode == IR::Opcode::GetUserData);
};
IR::Inst* producer{};
while (!insts.empty() && (producer = insts.front(), !pred(producer->GetOpcode()))) {
for (auto arg_idx = 0u; arg_idx < producer->NumArgs(); ++arg_idx) {
const auto arg = producer->Arg(arg_idx);
if (arg.TryInstRecursive()) {
insts.push_back(arg.InstRecursive());
}
}
insts.pop_front();
} }
ASSERT(producer->GetOpcode() ==
ASSERT(pred(producer->GetOpcode())); IR::Opcode::CompositeConstructU32x2 || // IMAGE_SAMPLE (image+sampler)
producer->GetOpcode() == IR::Opcode::ReadConst || // IMAGE_LOAD (image only)
producer->GetOpcode() == IR::Opcode::GetUserData);
const auto [tsharp_handle, ssharp_handle] = [&] -> std::pair<IR::Inst*, IR::Inst*> { const auto [tsharp_handle, ssharp_handle] = [&] -> std::pair<IR::Inst*, IR::Inst*> {
if (producer->GetOpcode() == IR::Opcode::CompositeConstructU32x2) { if (producer->GetOpcode() == IR::Opcode::CompositeConstructU32x2) {
return std::make_pair(producer->Arg(0).InstRecursive(), return std::make_pair(producer->Arg(0).InstRecursive(),
@ -335,6 +325,22 @@ void PatchImageInstruction(IR::Block& block, IR::Inst& inst, Info& info, Descrip
}(); }();
inst.SetArg(1, coords); inst.SetArg(1, coords);
if (inst_info.has_offset) {
// The offsets are six-bit signed integers: X=[5:0], Y=[13:8], and Z=[21:16].
const u32 arg_pos = inst_info.is_depth ? 4 : 3;
const IR::Value arg = inst.Arg(arg_pos);
ASSERT_MSG(arg.Type() == IR::Type::U32, "Unexpected offset type");
const auto sign_ext = [&](u32 value) { return ir.Imm32(s32(value << 24) >> 24); };
union {
u32 raw;
BitField<0, 6, u32> x;
BitField<8, 6, u32> y;
BitField<16, 6, u32> z;
} offset{arg.U32()};
const IR::Value value = ir.CompositeConstruct(sign_ext(offset.x), sign_ext(offset.y));
inst.SetArg(arg_pos, value);
}
if (inst_info.has_lod_clamp) { if (inst_info.has_lod_clamp) {
// Final argument contains lod_clamp // Final argument contains lod_clamp
const u32 arg_pos = inst_info.is_depth ? 5 : 4; const u32 arg_pos = inst_info.is_depth ? 5 : 4;

View File

@ -38,6 +38,7 @@ union TextureInstInfo {
BitField<2, 1, u32> has_lod_clamp; BitField<2, 1, u32> has_lod_clamp;
BitField<3, 1, u32> force_level0; BitField<3, 1, u32> force_level0;
BitField<4, 1, u32> explicit_lod; BitField<4, 1, u32> explicit_lod;
BitField<5, 1, u32> has_offset;
}; };
union BufferInstInfo { union BufferInstInfo {

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@ -52,7 +52,7 @@ struct BufferResource {
auto operator<=>(const BufferResource&) const = default; auto operator<=>(const BufferResource&) const = default;
}; };
using BufferResourceList = boost::container::static_vector<BufferResource, 8>; using BufferResourceList = boost::container::static_vector<BufferResource, 16>;
struct ImageResource { struct ImageResource {
u32 sgpr_base; u32 sgpr_base;
@ -62,13 +62,13 @@ struct ImageResource {
bool is_storage; bool is_storage;
bool is_depth; bool is_depth;
}; };
using ImageResourceList = boost::container::static_vector<ImageResource, 8>; using ImageResourceList = boost::container::static_vector<ImageResource, 16>;
struct SamplerResource { struct SamplerResource {
u32 sgpr_base; u32 sgpr_base;
u32 dword_offset; u32 dword_offset;
}; };
using SamplerResourceList = boost::container::static_vector<SamplerResource, 8>; using SamplerResourceList = boost::container::static_vector<SamplerResource, 16>;
struct Info { struct Info {
struct VsInput { struct VsInput {

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@ -187,6 +187,13 @@ Liverpool::Task Liverpool::ProcessGraphics(std::span<const u32> dcb, std::span<c
case PM4ItOpcode::ClearState: { case PM4ItOpcode::ClearState: {
break; break;
} }
case PM4ItOpcode::SetConfigReg: {
const auto* set_data = reinterpret_cast<const PM4CmdSetData*>(header);
const auto reg_addr = ConfigRegWordOffset + set_data->reg_offset;
const auto* payload = reinterpret_cast<const u32*>(header + 2);
std::memcpy(&regs.reg_array[reg_addr], payload, (count - 1) * sizeof(u32));
break;
}
case PM4ItOpcode::SetContextReg: { case PM4ItOpcode::SetContextReg: {
const auto* set_data = reinterpret_cast<const PM4CmdSetData*>(header); const auto* set_data = reinterpret_cast<const PM4CmdSetData*>(header);
const auto reg_addr = ContextRegWordOffset + set_data->reg_offset; const auto reg_addr = ContextRegWordOffset + set_data->reg_offset;

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@ -43,6 +43,7 @@ struct Liverpool {
static constexpr u32 NumShaderUserData = 16; static constexpr u32 NumShaderUserData = 16;
static constexpr u32 UconfigRegWordOffset = 0xC000; static constexpr u32 UconfigRegWordOffset = 0xC000;
static constexpr u32 ContextRegWordOffset = 0xA000; static constexpr u32 ContextRegWordOffset = 0xA000;
static constexpr u32 ConfigRegWordOffset = 0x2000;
static constexpr u32 ShRegWordOffset = 0x2C00; static constexpr u32 ShRegWordOffset = 0x2C00;
static constexpr u32 NumRegs = 0xD000; static constexpr u32 NumRegs = 0xD000;
@ -789,6 +790,7 @@ struct Liverpool {
u32 raw; u32 raw;
BitField<0, 1, u32> depth_clear_enable; BitField<0, 1, u32> depth_clear_enable;
BitField<1, 1, u32> stencil_clear_enable; BitField<1, 1, u32> stencil_clear_enable;
BitField<6, 1, u32> depth_compress_disable;
}; };
union AaConfig { union AaConfig {

View File

@ -366,6 +366,9 @@ vk::Format SurfaceFormat(AmdGpu::DataFormat data_format, AmdGpu::NumberFormat nu
if (data_format == AmdGpu::DataFormat::Format8_8 && num_format == AmdGpu::NumberFormat::Unorm) { if (data_format == AmdGpu::DataFormat::Format8_8 && num_format == AmdGpu::NumberFormat::Unorm) {
return vk::Format::eR8G8Unorm; return vk::Format::eR8G8Unorm;
} }
if (data_format == AmdGpu::DataFormat::FormatBc7 && num_format == AmdGpu::NumberFormat::Unorm) {
return vk::Format::eBc7UnormBlock;
}
if (data_format == AmdGpu::DataFormat::FormatBc2 && num_format == AmdGpu::NumberFormat::Unorm) { if (data_format == AmdGpu::DataFormat::FormatBc2 && num_format == AmdGpu::NumberFormat::Unorm) {
return vk::Format::eBc2UnormBlock; return vk::Format::eBc2UnormBlock;
} }
@ -376,9 +379,15 @@ vk::Format SurfaceFormat(AmdGpu::DataFormat data_format, AmdGpu::NumberFormat nu
if (data_format == AmdGpu::DataFormat::Format2_10_10_10 && num_format == AmdGpu::NumberFormat::Unorm) { if (data_format == AmdGpu::DataFormat::Format2_10_10_10 && num_format == AmdGpu::NumberFormat::Unorm) {
return vk::Format::eA2R10G10B10UnormPack32; return vk::Format::eA2R10G10B10UnormPack32;
} }
if (data_format == AmdGpu::DataFormat::Format2_10_10_10 && num_format == AmdGpu::NumberFormat::Snorm) {
return vk::Format::eA2R10G10B10SnormPack32;
}
if (data_format == AmdGpu::DataFormat::Format10_11_11 && num_format == AmdGpu::NumberFormat::Float) { if (data_format == AmdGpu::DataFormat::Format10_11_11 && num_format == AmdGpu::NumberFormat::Float) {
return vk::Format::eB10G11R11UfloatPack32; return vk::Format::eB10G11R11UfloatPack32;
} }
if (data_format == AmdGpu::DataFormat::Format16_16 && num_format == AmdGpu::NumberFormat::Float) {
return vk::Format::eR16G16Sfloat;
}
UNREACHABLE_MSG("Unknown data_format={} and num_format={}", u32(data_format), u32(num_format)); UNREACHABLE_MSG("Unknown data_format={} and num_format={}", u32(data_format), u32(num_format));
} }

View File

@ -381,6 +381,7 @@ Frame* RendererVulkan::GetRenderFrame() {
{ {
std::unique_lock lock{free_mutex}; std::unique_lock lock{free_mutex};
free_cv.wait(lock, [this] { return !free_queue.empty(); }); free_cv.wait(lock, [this] { return !free_queue.empty(); });
LOG_INFO(Render_Vulkan, "Got render frame, remaining {}", free_queue.size() - 1);
// Take the frame from the queue // Take the frame from the queue
frame = free_queue.front(); frame = free_queue.front();

View File

@ -85,7 +85,7 @@ ComputePipeline::~ComputePipeline() = default;
bool ComputePipeline::BindResources(Core::MemoryManager* memory, StreamBuffer& staging, bool ComputePipeline::BindResources(Core::MemoryManager* memory, StreamBuffer& staging,
VideoCore::TextureCache& texture_cache) const { VideoCore::TextureCache& texture_cache) const {
// Bind resource buffers and textures. // Bind resource buffers and textures.
boost::container::static_vector<vk::DescriptorBufferInfo, 4> buffer_infos; boost::container::static_vector<vk::DescriptorBufferInfo, 8> buffer_infos;
boost::container::static_vector<vk::DescriptorImageInfo, 8> image_infos; boost::container::static_vector<vk::DescriptorImageInfo, 8> image_infos;
boost::container::small_vector<vk::WriteDescriptorSet, 16> set_writes; boost::container::small_vector<vk::WriteDescriptorSet, 16> set_writes;
u32 binding{}; u32 binding{};
@ -115,7 +115,7 @@ bool ComputePipeline::BindResources(Core::MemoryManager* memory, StreamBuffer& s
// need its full emulation anyways. For cases of metadata read a warning will be logged. // need its full emulation anyways. For cases of metadata read a warning will be logged.
if (buffer.is_storage) { if (buffer.is_storage) {
if (texture_cache.TouchMeta(address, true)) { if (texture_cache.TouchMeta(address, true)) {
LOG_TRACE(Render_Vulkan, "Metadata update skipped"); LOG_WARNING(Render_Vulkan, "Metadata update skipped");
return false; return false;
} }
} else { } else {
@ -127,7 +127,7 @@ bool ComputePipeline::BindResources(Core::MemoryManager* memory, StreamBuffer& s
for (const auto& image : info.images) { for (const auto& image : info.images) {
const auto tsharp = info.ReadUd<AmdGpu::Image>(image.sgpr_base, image.dword_offset); const auto tsharp = info.ReadUd<AmdGpu::Image>(image.sgpr_base, image.dword_offset);
const auto& image_view = texture_cache.FindImageView(tsharp, image.is_storage); const auto& image_view = texture_cache.FindImageView(tsharp, image.is_storage, image.is_depth);
image_infos.emplace_back(VK_NULL_HANDLE, *image_view.image_view, vk::ImageLayout::eGeneral); image_infos.emplace_back(VK_NULL_HANDLE, *image_view.image_view, vk::ImageLayout::eGeneral);
set_writes.push_back({ set_writes.push_back({
.dstSet = VK_NULL_HANDLE, .dstSet = VK_NULL_HANDLE,

View File

@ -187,7 +187,7 @@ GraphicsPipeline::GraphicsPipeline(const Instance& instance_, Scheduler& schedul
const vk::PipelineRenderingCreateInfoKHR pipeline_rendering_ci = { const vk::PipelineRenderingCreateInfoKHR pipeline_rendering_ci = {
.colorAttachmentCount = num_color_formats, .colorAttachmentCount = num_color_formats,
.pColorAttachmentFormats = key.color_formats.data(), .pColorAttachmentFormats = key.color_formats.data(),
.depthAttachmentFormat = key.depth.depth_enable ? key.depth_format : vk::Format::eUndefined, .depthAttachmentFormat = key.depth_format,
.stencilAttachmentFormat = vk::Format::eUndefined, .stencilAttachmentFormat = vk::Format::eUndefined,
}; };
@ -320,7 +320,7 @@ void GraphicsPipeline::BindResources(Core::MemoryManager* memory, StreamBuffer&
// Bind resource buffers and textures. // Bind resource buffers and textures.
boost::container::static_vector<vk::DescriptorBufferInfo, 16> buffer_infos; boost::container::static_vector<vk::DescriptorBufferInfo, 16> buffer_infos;
boost::container::static_vector<vk::DescriptorImageInfo, 16> image_infos; boost::container::static_vector<vk::DescriptorImageInfo, 32> image_infos;
boost::container::small_vector<vk::WriteDescriptorSet, 16> set_writes; boost::container::small_vector<vk::WriteDescriptorSet, 16> set_writes;
u32 binding{}; u32 binding{};
@ -350,9 +350,10 @@ void GraphicsPipeline::BindResources(Core::MemoryManager* memory, StreamBuffer&
for (const auto& image : stage.images) { for (const auto& image : stage.images) {
const auto tsharp = stage.ReadUd<AmdGpu::Image>(image.sgpr_base, image.dword_offset); const auto tsharp = stage.ReadUd<AmdGpu::Image>(image.sgpr_base, image.dword_offset);
const auto& image_view = texture_cache.FindImageView(tsharp, image.is_storage); const auto& image_view = texture_cache.FindImageView(tsharp, image.is_storage, image.is_depth);
image_infos.emplace_back(VK_NULL_HANDLE, *image_view.image_view, image_infos.emplace_back(VK_NULL_HANDLE, *image_view.image_view,
vk::ImageLayout::eShaderReadOnlyOptimal); (image.is_storage || image.is_depth) ? vk::ImageLayout::eGeneral
: vk::ImageLayout::eShaderReadOnlyOptimal);
set_writes.push_back({ set_writes.push_back({
.dstSet = VK_NULL_HANDLE, .dstSet = VK_NULL_HANDLE,
.dstBinding = binding++, .dstBinding = binding++,

View File

@ -205,6 +205,7 @@ bool Instance::CreateDevice() {
.logicOp = features.logicOp, .logicOp = features.logicOp,
.samplerAnisotropy = features.samplerAnisotropy, .samplerAnisotropy = features.samplerAnisotropy,
.fragmentStoresAndAtomics = features.fragmentStoresAndAtomics, .fragmentStoresAndAtomics = features.fragmentStoresAndAtomics,
.shaderImageGatherExtended = true,
.shaderStorageImageMultisample = true, .shaderStorageImageMultisample = true,
.shaderClipDistance = features.shaderClipDistance, .shaderClipDistance = features.shaderClipDistance,
}, },

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@ -117,8 +117,8 @@ void PipelineCache::RefreshGraphicsKey() {
key.num_samples = regs.aa_config.NumSamples(); key.num_samples = regs.aa_config.NumSamples();
const auto& db = regs.depth_buffer; const auto& db = regs.depth_buffer;
key.depth_format = LiverpoolToVK::DepthFormat(db.z_info.format, db.stencil_info.format);
if (key.depth.depth_enable) { if (key.depth.depth_enable) {
key.depth_format = LiverpoolToVK::DepthFormat(db.z_info.format, db.stencil_info.format);
key.depth.depth_enable.Assign(key.depth_format != vk::Format::eUndefined); key.depth.depth_enable.Assign(key.depth_format != vk::Format::eUndefined);
} }
@ -206,6 +206,10 @@ std::unique_ptr<GraphicsPipeline> PipelineCache::CreateGraphicsPipeline() {
block_pool.ReleaseContents(); block_pool.ReleaseContents();
inst_pool.ReleaseContents(); inst_pool.ReleaseContents();
if (hash == 0xa34c48f8) {
printf("bad\n");
}
// Recompile shader to IR. // Recompile shader to IR.
try { try {
LOG_INFO(Render_Vulkan, "Compiling {} shader {:#x}", stage, hash); LOG_INFO(Render_Vulkan, "Compiling {} shader {:#x}", stage, hash);
@ -214,12 +218,11 @@ std::unique_ptr<GraphicsPipeline> PipelineCache::CreateGraphicsPipeline() {
// Compile IR to SPIR-V // Compile IR to SPIR-V
auto spv_code = Shader::Backend::SPIRV::EmitSPIRV(profile, programs[i], binding); auto spv_code = Shader::Backend::SPIRV::EmitSPIRV(profile, programs[i], binding);
stages[i] = CompileSPV(spv_code, instance.GetDevice());
infos[i] = &programs[i].info;
if (Config::dumpShaders()) { if (Config::dumpShaders()) {
DumpShader(spv_code, hash, stage, "spv"); DumpShader(spv_code, hash, stage, "spv");
} }
stages[i] = CompileSPV(spv_code, instance.GetDevice());
infos[i] = &programs[i].info;
} catch (const Shader::Exception& e) { } catch (const Shader::Exception& e) {
UNREACHABLE_MSG("{}", e.what()); UNREACHABLE_MSG("{}", e.what());
} }
@ -246,22 +249,25 @@ std::unique_ptr<ComputePipeline> PipelineCache::CreateComputePipeline() {
inst_pool.ReleaseContents(); inst_pool.ReleaseContents();
// Recompile shader to IR. // Recompile shader to IR.
LOG_INFO(Render_Vulkan, "Compiling cs shader {:#x}", compute_key); try {
const Shader::Info info = LOG_INFO(Render_Vulkan, "Compiling cs shader {:#x}", compute_key);
MakeShaderInfo(Shader::Stage::Compute, cs_pgm.user_data, liverpool->regs); const Shader::Info info =
auto program = Shader::TranslateProgram(inst_pool, block_pool, code, std::move(info)); MakeShaderInfo(Shader::Stage::Compute, cs_pgm.user_data, liverpool->regs);
auto program = Shader::TranslateProgram(inst_pool, block_pool, code, std::move(info));
// Compile IR to SPIR-V // Compile IR to SPIR-V
u32 binding{}; u32 binding{};
const auto spv_code = Shader::Backend::SPIRV::EmitSPIRV(profile, program, binding); const auto spv_code = Shader::Backend::SPIRV::EmitSPIRV(profile, program, binding);
const auto module = CompileSPV(spv_code, instance.GetDevice()); if (Config::dumpShaders()) {
DumpShader(spv_code, compute_key, Shader::Stage::Compute, "spv");
if (Config::dumpShaders()) { }
DumpShader(spv_code, compute_key, Shader::Stage::Compute, "spv"); const auto module = CompileSPV(spv_code, instance.GetDevice());
return std::make_unique<ComputePipeline>(instance, scheduler, *pipeline_cache, &program.info,
module);
} catch (const Shader::Exception& e) {
UNREACHABLE_MSG("{}", e.what());
return nullptr;
} }
return std::make_unique<ComputePipeline>(instance, scheduler, *pipeline_cache, &program.info,
module);
} }
void PipelineCache::DumpShader(std::span<const u32> code, u64 hash, Shader::Stage stage, void PipelineCache::DumpShader(std::span<const u32> code, u64 hash, Shader::Stage stage,

View File

@ -23,7 +23,7 @@ Rasterizer::Rasterizer(const Instance& instance_, Scheduler& scheduler_,
: instance{instance_}, scheduler{scheduler_}, texture_cache{texture_cache_}, : instance{instance_}, scheduler{scheduler_}, texture_cache{texture_cache_},
liverpool{liverpool_}, memory{Core::Memory::Instance()}, liverpool{liverpool_}, memory{Core::Memory::Instance()},
pipeline_cache{instance, scheduler, liverpool}, pipeline_cache{instance, scheduler, liverpool},
vertex_index_buffer{instance, scheduler, VertexIndexFlags, 128_MB} { vertex_index_buffer{instance, scheduler, VertexIndexFlags, 512_MB, BufferType::Upload} {
if (!Config::nullGpu()) { if (!Config::nullGpu()) {
liverpool->BindRasterizer(this); liverpool->BindRasterizer(this);
} }
@ -46,71 +46,9 @@ void Rasterizer::Draw(bool is_indexed, u32 index_offset) {
pipeline->BindResources(memory, vertex_index_buffer, texture_cache); pipeline->BindResources(memory, vertex_index_buffer, texture_cache);
boost::container::static_vector<vk::RenderingAttachmentInfo, Liverpool::NumColorBuffers> BeginRendering();
color_attachments{};
for (auto col_buf_id = 0u; col_buf_id < Liverpool::NumColorBuffers; ++col_buf_id) {
const auto& col_buf = regs.color_buffers[col_buf_id];
if (!col_buf) {
continue;
}
const auto& hint = liverpool->last_cb_extent[col_buf_id];
const auto& image_view = texture_cache.RenderTarget(col_buf, hint);
const bool is_clear = texture_cache.IsMetaCleared(col_buf.CmaskAddress());
color_attachments.push_back({
.imageView = *image_view.image_view,
.imageLayout = vk::ImageLayout::eGeneral,
.loadOp = is_clear ? vk::AttachmentLoadOp::eClear : vk::AttachmentLoadOp::eLoad,
.storeOp = vk::AttachmentStoreOp::eStore,
.clearValue =
is_clear ? LiverpoolToVK::ColorBufferClearValue(col_buf) : vk::ClearValue{},
});
texture_cache.TouchMeta(col_buf.CmaskAddress(), false);
}
vk::RenderingAttachmentInfo depth_attachment{};
u32 num_depth_attachments{};
if (pipeline->IsDepthEnabled() && regs.depth_buffer.Address() != 0) {
const auto htile_address = regs.depth_htile_data_base.GetAddress();
const bool is_clear = regs.depth_render_control.depth_clear_enable ||
texture_cache.IsMetaCleared(htile_address);
const auto& image_view =
texture_cache.DepthTarget(regs.depth_buffer, htile_address, liverpool->last_db_extent);
depth_attachment = {
.imageView = *image_view.image_view,
.imageLayout = vk::ImageLayout::eGeneral,
.loadOp = is_clear ? vk::AttachmentLoadOp::eClear : vk::AttachmentLoadOp::eLoad,
.storeOp = is_clear ? vk::AttachmentStoreOp::eNone : vk::AttachmentStoreOp::eStore,
.clearValue = vk::ClearValue{.depthStencil = {.depth = regs.depth_clear,
.stencil = regs.stencil_clear}},
};
texture_cache.TouchMeta(htile_address, false);
num_depth_attachments++;
}
// TODO: Don't restart renderpass every draw
const auto& scissor = regs.screen_scissor;
vk::RenderingInfo rendering_info = {
.renderArea =
{
.offset = {scissor.top_left_x, scissor.top_left_y},
.extent = {scissor.GetWidth(), scissor.GetHeight()},
},
.layerCount = 1,
.colorAttachmentCount = static_cast<u32>(color_attachments.size()),
.pColorAttachments = color_attachments.data(),
.pDepthAttachment = num_depth_attachments ? &depth_attachment : nullptr,
};
auto& area = rendering_info.renderArea.extent;
if (area.width == 2048) {
area.width = 1920;
area.height = 1080;
}
UpdateDynamicState(*pipeline); UpdateDynamicState(*pipeline);
cmdbuf.beginRendering(rendering_info);
cmdbuf.bindPipeline(vk::PipelineBindPoint::eGraphics, pipeline->Handle()); cmdbuf.bindPipeline(vk::PipelineBindPoint::eGraphics, pipeline->Handle());
if (is_indexed) { if (is_indexed) {
cmdbuf.drawIndexed(num_indices, regs.num_instances.NumInstances(), 0, 0, 0); cmdbuf.drawIndexed(num_indices, regs.num_instances.NumInstances(), 0, 0, 0);
@ -120,7 +58,6 @@ void Rasterizer::Draw(bool is_indexed, u32 index_offset) {
: regs.num_indices; : regs.num_indices;
cmdbuf.draw(num_vertices, regs.num_instances.NumInstances(), 0, 0); cmdbuf.draw(num_vertices, regs.num_instances.NumInstances(), 0, 0);
} }
cmdbuf.endRendering();
} }
void Rasterizer::DispatchDirect() { void Rasterizer::DispatchDirect() {
@ -138,15 +75,66 @@ void Rasterizer::DispatchDirect() {
return; return;
} }
scheduler.EndRendering();
cmdbuf.bindPipeline(vk::PipelineBindPoint::eCompute, pipeline->Handle()); cmdbuf.bindPipeline(vk::PipelineBindPoint::eCompute, pipeline->Handle());
cmdbuf.dispatch(cs_program.dim_x, cs_program.dim_y, cs_program.dim_z); cmdbuf.dispatch(cs_program.dim_x, cs_program.dim_y, cs_program.dim_z);
} }
void Rasterizer::BeginRendering() {
const auto& regs = liverpool->regs;
RenderState state;
for (auto col_buf_id = 0u; col_buf_id < Liverpool::NumColorBuffers; ++col_buf_id) {
const auto& col_buf = regs.color_buffers[col_buf_id];
if (!col_buf) {
continue;
}
const auto& hint = liverpool->last_cb_extent[col_buf_id];
const auto& image_view = texture_cache.RenderTarget(col_buf, hint);
state.width = std::min<u32>(state.width, hint.width);
state.height = std::min<u32>(state.height, hint.height);
const bool is_clear = texture_cache.IsMetaCleared(col_buf.CmaskAddress());
state.color_attachments[state.num_color_attachments++] = {
.imageView = *image_view.image_view,
.imageLayout = vk::ImageLayout::eGeneral,
.loadOp = is_clear ? vk::AttachmentLoadOp::eClear : vk::AttachmentLoadOp::eLoad,
.storeOp = vk::AttachmentStoreOp::eStore,
.clearValue =
is_clear ? LiverpoolToVK::ColorBufferClearValue(col_buf) : vk::ClearValue{},
};
texture_cache.TouchMeta(col_buf.CmaskAddress(), false);
}
if (regs.depth_buffer.z_info.format != Liverpool::DepthBuffer::ZFormat::Invald &&
regs.depth_buffer.Address() != 0) {
const auto htile_address = regs.depth_htile_data_base.GetAddress();
const bool is_clear = regs.depth_render_control.depth_clear_enable ||
texture_cache.IsMetaCleared(htile_address);
const auto& hint = liverpool->last_db_extent;
const auto& image_view = texture_cache.DepthTarget(regs.depth_buffer, htile_address, hint);
state.width = std::min<u32>(state.width, hint.width);
state.height = std::min<u32>(state.height, hint.height);
state.depth_attachment = {
.imageView = *image_view.image_view,
.imageLayout = vk::ImageLayout::eGeneral,
.loadOp = is_clear ? vk::AttachmentLoadOp::eClear : vk::AttachmentLoadOp::eLoad,
.storeOp = is_clear ? vk::AttachmentStoreOp::eNone : vk::AttachmentStoreOp::eStore,
.clearValue = vk::ClearValue{.depthStencil = {.depth = regs.depth_clear,
.stencil = regs.stencil_clear}},
};
texture_cache.TouchMeta(htile_address, false);
state.num_depth_attachments++;
}
scheduler.BeginRendering(state);
}
u32 Rasterizer::SetupIndexBuffer(bool& is_indexed, u32 index_offset) { u32 Rasterizer::SetupIndexBuffer(bool& is_indexed, u32 index_offset) {
// Emulate QuadList primitive type with CPU made index buffer. // Emulate QuadList primitive type with CPU made index buffer.
const auto& regs = liverpool->regs; const auto& regs = liverpool->regs;
if (liverpool->regs.primitive_type == Liverpool::PrimitiveType::QuadList) { if (liverpool->regs.primitive_type == Liverpool::PrimitiveType::QuadList) {
ASSERT_MSG(!is_indexed, "Using QuadList primitive with indexed draw"); //ASSERT_MSG(!is_indexed, "Using QuadList primitive with indexed draw");
is_indexed = true; is_indexed = true;
// Emit indices. // Emit indices.

View File

@ -37,6 +37,8 @@ private:
u32 SetupIndexBuffer(bool& is_indexed, u32 index_offset); u32 SetupIndexBuffer(bool& is_indexed, u32 index_offset);
void MapMemory(VAddr addr, size_t size); void MapMemory(VAddr addr, size_t size);
void BeginRendering();
void UpdateDynamicState(const GraphicsPipeline& pipeline); void UpdateDynamicState(const GraphicsPipeline& pipeline);
void UpdateViewportScissorState(); void UpdateViewportScissorState();
void UpdateDepthStencilState(); void UpdateDepthStencilState();

View File

@ -18,6 +18,37 @@ Scheduler::~Scheduler() {
std::free(profiler_scope); std::free(profiler_scope);
} }
void Scheduler::BeginRendering(const RenderState& new_state) {
if (is_rendering && render_state == new_state) {
return;
}
EndRendering();
is_rendering = true;
render_state = new_state;
const vk::RenderingInfo rendering_info = {
.renderArea = {
.offset = {0, 0},
.extent = {render_state.width, render_state.height},
},
.layerCount = 1,
.colorAttachmentCount = static_cast<u32>(render_state.color_attachments.size()),
.pColorAttachments = render_state.color_attachments.data(),
.pDepthAttachment = render_state.num_depth_attachments ?
&render_state.depth_attachment : nullptr,
};
current_cmdbuf.beginRendering(rendering_info);
}
void Scheduler::EndRendering() {
if (!is_rendering) {
return;
}
is_rendering = false;
current_cmdbuf.endRendering();
}
void Scheduler::Flush(vk::Semaphore signal, vk::Semaphore wait) { void Scheduler::Flush(vk::Semaphore signal, vk::Semaphore wait) {
// When flushing, we only send data to the worker thread; no waiting is necessary. // When flushing, we only send data to the worker thread; no waiting is necessary.
SubmitExecution(signal, wait); SubmitExecution(signal, wait);
@ -55,6 +86,7 @@ void Scheduler::AllocateWorkerCommandBuffers() {
} }
void Scheduler::SubmitExecution(vk::Semaphore signal_semaphore, vk::Semaphore wait_semaphore) { void Scheduler::SubmitExecution(vk::Semaphore signal_semaphore, vk::Semaphore wait_semaphore) {
std::scoped_lock lk{submit_mutex};
const u64 signal_value = master_semaphore.NextTick(); const u64 signal_value = master_semaphore.NextTick();
auto* profiler_ctx = instance.GetProfilerContext(); auto* profiler_ctx = instance.GetProfilerContext();
@ -63,7 +95,7 @@ void Scheduler::SubmitExecution(vk::Semaphore signal_semaphore, vk::Semaphore wa
TracyVkCollect(profiler_ctx, current_cmdbuf); TracyVkCollect(profiler_ctx, current_cmdbuf);
} }
std::scoped_lock lk{submit_mutex}; EndRendering();
master_semaphore.SubmitWork(current_cmdbuf, wait_semaphore, signal_semaphore, signal_value); master_semaphore.SubmitWork(current_cmdbuf, wait_semaphore, signal_semaphore, signal_value);
master_semaphore.Refresh(); master_semaphore.Refresh();
AllocateWorkerCommandBuffers(); AllocateWorkerCommandBuffers();

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@ -4,6 +4,7 @@
#pragma once #pragma once
#include <condition_variable> #include <condition_variable>
#include <boost/container/static_vector.hpp>
#include "common/types.h" #include "common/types.h"
#include "video_core/renderer_vulkan/vk_master_semaphore.h" #include "video_core/renderer_vulkan/vk_master_semaphore.h"
#include "video_core/renderer_vulkan/vk_resource_pool.h" #include "video_core/renderer_vulkan/vk_resource_pool.h"
@ -12,6 +13,19 @@ namespace Vulkan {
class Instance; class Instance;
struct RenderState {
std::array<vk::RenderingAttachmentInfo, 8> color_attachments{};
vk::RenderingAttachmentInfo depth_attachment{};
u32 num_color_attachments{};
u32 num_depth_attachments{};
u32 width = std::numeric_limits<u32>::max();
u32 height = std::numeric_limits<u32>::max();
bool operator==(const RenderState& other) const noexcept {
return std::memcmp(this, &other, sizeof(RenderState)) == 0;
}
};
class Scheduler { class Scheduler {
public: public:
explicit Scheduler(const Instance& instance); explicit Scheduler(const Instance& instance);
@ -26,6 +40,12 @@ public:
/// Waits for the given tick to trigger on the GPU. /// Waits for the given tick to trigger on the GPU.
void Wait(u64 tick); void Wait(u64 tick);
/// Starts a new rendering scope with provided state.
void BeginRendering(const RenderState& new_state);
/// Ends current rendering scope.
void EndRendering();
/// Returns the current command buffer. /// Returns the current command buffer.
vk::CommandBuffer CommandBuffer() const { vk::CommandBuffer CommandBuffer() const {
return current_cmdbuf; return current_cmdbuf;
@ -59,6 +79,8 @@ private:
CommandPool command_pool; CommandPool command_pool;
vk::CommandBuffer current_cmdbuf; vk::CommandBuffer current_cmdbuf;
std::condition_variable_any event_cv; std::condition_variable_any event_cv;
RenderState render_state;
bool is_rendering = false;
tracy::VkCtxScope* profiler_scope{}; tracy::VkCtxScope* profiler_scope{};
}; };

View File

@ -221,6 +221,7 @@ Image::Image(const Vulkan::Instance& instance_, Vulkan::Scheduler& scheduler_,
: instance{&instance_}, scheduler{&scheduler_}, info{info_}, : instance{&instance_}, scheduler{&scheduler_}, info{info_},
image{instance->GetDevice(), instance->GetAllocator()}, cpu_addr{cpu_addr}, image{instance->GetDevice(), instance->GetAllocator()}, cpu_addr{cpu_addr},
cpu_addr_end{cpu_addr + info.guest_size_bytes} { cpu_addr_end{cpu_addr + info.guest_size_bytes} {
ASSERT(info.pixel_format != vk::Format::eUndefined);
vk::ImageCreateFlags flags{vk::ImageCreateFlagBits::eMutableFormat | vk::ImageCreateFlags flags{vk::ImageCreateFlagBits::eMutableFormat |
vk::ImageCreateFlagBits::eExtendedUsage}; vk::ImageCreateFlagBits::eExtendedUsage};
if (info.type == vk::ImageType::e2D && info.resources.layers >= 6 && if (info.type == vk::ImageType::e2D && info.resources.layers >= 6 &&
@ -272,7 +273,8 @@ Image::Image(const Vulkan::Instance& instance_, Vulkan::Scheduler& scheduler_,
Transit(vk::ImageLayout::eGeneral, vk::AccessFlagBits::eNone); Transit(vk::ImageLayout::eGeneral, vk::AccessFlagBits::eNone);
} }
void Image::Transit(vk::ImageLayout dst_layout, vk::Flags<vk::AccessFlagBits> dst_mask) { void Image::Transit(vk::ImageLayout dst_layout, vk::Flags<vk::AccessFlagBits> dst_mask,
vk::CommandBuffer cmdbuf) {
if (dst_layout == layout && dst_mask == access_mask) { if (dst_layout == layout && dst_mask == access_mask) {
return; return;
} }
@ -300,7 +302,12 @@ void Image::Transit(vk::ImageLayout dst_layout, vk::Flags<vk::AccessFlagBits> ds
dst_mask == vk::AccessFlagBits::eTransferWrite) dst_mask == vk::AccessFlagBits::eTransferWrite)
? vk::PipelineStageFlagBits::eTransfer ? vk::PipelineStageFlagBits::eTransfer
: vk::PipelineStageFlagBits::eAllGraphics | vk::PipelineStageFlagBits::eComputeShader; : vk::PipelineStageFlagBits::eAllGraphics | vk::PipelineStageFlagBits::eComputeShader;
const auto cmdbuf = scheduler->CommandBuffer();
if (!cmdbuf) {
// When using external cmdbuf you are responsible for ending rp.
scheduler->EndRendering();
cmdbuf = scheduler->CommandBuffer();
}
cmdbuf.pipelineBarrier(pl_stage, dst_pl_stage, vk::DependencyFlagBits::eByRegion, {}, {}, cmdbuf.pipelineBarrier(pl_stage, dst_pl_stage, vk::DependencyFlagBits::eByRegion, {}, {},
barrier); barrier);
@ -310,6 +317,7 @@ void Image::Transit(vk::ImageLayout dst_layout, vk::Flags<vk::AccessFlagBits> ds
} }
void Image::Upload(vk::Buffer buffer, u64 offset) { void Image::Upload(vk::Buffer buffer, u64 offset) {
scheduler->EndRendering();
Transit(vk::ImageLayout::eTransferDstOptimal, vk::AccessFlagBits::eTransferWrite); Transit(vk::ImageLayout::eTransferDstOptimal, vk::AccessFlagBits::eTransferWrite);
// Copy to the image. // Copy to the image.
@ -318,7 +326,7 @@ void Image::Upload(vk::Buffer buffer, u64 offset) {
.bufferRowLength = info.pitch, .bufferRowLength = info.pitch,
.bufferImageHeight = info.size.height, .bufferImageHeight = info.size.height,
.imageSubresource{ .imageSubresource{
.aspectMask = vk::ImageAspectFlagBits::eColor, .aspectMask = aspect_mask,
.mipLevel = 0, .mipLevel = 0,
.baseArrayLayer = 0, .baseArrayLayer = 0,
.layerCount = 1, .layerCount = 1,

View File

@ -132,7 +132,8 @@ struct Image {
return image_view_ids[std::distance(image_view_infos.begin(), it)]; return image_view_ids[std::distance(image_view_infos.begin(), it)];
} }
void Transit(vk::ImageLayout dst_layout, vk::Flags<vk::AccessFlagBits> dst_mask); void Transit(vk::ImageLayout dst_layout, vk::Flags<vk::AccessFlagBits> dst_mask,
vk::CommandBuffer cmdbuf = {});
void Upload(vk::Buffer buffer, u64 offset); void Upload(vk::Buffer buffer, u64 offset);
const Vulkan::Instance* instance; const Vulkan::Instance* instance;

View File

@ -80,8 +80,10 @@ ImageView::ImageView(const Vulkan::Instance& instance, const ImageViewInfo& info
// When sampling D32 texture from shader, the T# specifies R32 Float format so adjust it. // When sampling D32 texture from shader, the T# specifies R32 Float format so adjust it.
vk::Format format = info.format; vk::Format format = info.format;
vk::ImageAspectFlags aspect = image.aspect_mask;
if (image.aspect_mask & vk::ImageAspectFlagBits::eDepth && format == vk::Format::eR32Sfloat) { if (image.aspect_mask & vk::ImageAspectFlagBits::eDepth && format == vk::Format::eR32Sfloat) {
format = vk::Format::eD32Sfloat; format = image.info.pixel_format;
aspect = vk::ImageAspectFlagBits::eDepth;
} }
const vk::ImageViewCreateInfo image_view_ci = { const vk::ImageViewCreateInfo image_view_ci = {
@ -91,7 +93,7 @@ ImageView::ImageView(const Vulkan::Instance& instance, const ImageViewInfo& info
.format = format, .format = format,
.components = info.mapping, .components = info.mapping,
.subresourceRange{ .subresourceRange{
.aspectMask = image.aspect_mask, .aspectMask = aspect,
.baseMipLevel = 0U, .baseMipLevel = 0U,
.levelCount = 1, .levelCount = 1,
.baseArrayLayer = 0, .baseArrayLayer = 0,

View File

@ -116,10 +116,15 @@ Image& TextureCache::FindImage(const ImageInfo& info, VAddr cpu_address, bool re
std::unique_lock lock{m_page_table}; std::unique_lock lock{m_page_table};
boost::container::small_vector<ImageId, 2> image_ids; boost::container::small_vector<ImageId, 2> image_ids;
ForEachImageInRegion(cpu_address, info.guest_size_bytes, [&](ImageId image_id, Image& image) { ForEachImageInRegion(cpu_address, info.guest_size_bytes, [&](ImageId image_id, Image& image) {
if (image.cpu_addr == cpu_address && image.info.size.width == info.size.width && // Address and width must match.
image.info.IsDepthStencil() == info.IsDepthStencil()) { if (image.cpu_addr != cpu_address || image.info.size.width != info.size.width) {
image_ids.push_back(image_id); return;
} }
if (info.IsDepthStencil() != image.info.IsDepthStencil() &&
info.pixel_format != vk::Format::eR32Sfloat) {
return;
}
image_ids.push_back(image_id);
}); });
ASSERT_MSG(image_ids.size() <= 1, "Overlapping images not allowed!"); ASSERT_MSG(image_ids.size() <= 1, "Overlapping images not allowed!");
@ -129,7 +134,7 @@ Image& TextureCache::FindImage(const ImageInfo& info, VAddr cpu_address, bool re
image_id = slot_images.insert(instance, scheduler, info, cpu_address); image_id = slot_images.insert(instance, scheduler, info, cpu_address);
RegisterImage(image_id); RegisterImage(image_id);
} else { } else {
image_id = image_ids[0]; image_id = image_ids.size() > 1 ? image_ids[1] : image_ids[0];
} }
RegisterMeta(info, image_id); RegisterMeta(info, image_id);
@ -163,11 +168,11 @@ ImageView& TextureCache::RegisterImageView(Image& image, const ImageViewInfo& vi
return slot_image_views[view_id]; return slot_image_views[view_id];
} }
ImageView& TextureCache::FindImageView(const AmdGpu::Image& desc, bool is_storage) { ImageView& TextureCache::FindImageView(const AmdGpu::Image& desc, bool is_storage, bool is_depth) {
const ImageInfo info{desc}; const ImageInfo info{desc};
Image& image = FindImage(info, desc.Address()); Image& image = FindImage(info, desc.Address());
if (is_storage) { if (is_storage || is_depth) {
image.Transit(vk::ImageLayout::eGeneral, vk::AccessFlagBits::eShaderWrite); image.Transit(vk::ImageLayout::eGeneral, vk::AccessFlagBits::eShaderWrite);
image.info.usage.storage = true; image.info.usage.storage = true;
} else { } else {
@ -202,7 +207,7 @@ ImageView& TextureCache::DepthTarget(const AmdGpu::Liverpool::DepthBuffer& buffe
auto& image = FindImage(info, buffer.Address(), false); auto& image = FindImage(info, buffer.Address(), false);
image.flags &= ~ImageFlagBits::CpuModified; image.flags &= ~ImageFlagBits::CpuModified;
image.Transit(vk::ImageLayout::eDepthStencilAttachmentOptimal, image.Transit(vk::ImageLayout::eGeneral,
vk::AccessFlagBits::eDepthStencilAttachmentWrite | vk::AccessFlagBits::eDepthStencilAttachmentWrite |
vk::AccessFlagBits::eDepthStencilAttachmentRead); vk::AccessFlagBits::eDepthStencilAttachmentRead);
@ -261,6 +266,8 @@ void TextureCache::RefreshImage(Image& image) {
.imageExtent = {width, height, 1}, .imageExtent = {width, height, 1},
}; };
scheduler.EndRendering();
const auto cmdbuf = scheduler.CommandBuffer(); const auto cmdbuf = scheduler.CommandBuffer();
image.Transit(vk::ImageLayout::eTransferDstOptimal, vk::AccessFlagBits::eTransferWrite); image.Transit(vk::ImageLayout::eTransferDstOptimal, vk::AccessFlagBits::eTransferWrite);

View File

@ -52,7 +52,8 @@ public:
bool refresh_on_create = true); bool refresh_on_create = true);
/// Retrieves an image view with the properties of the specified image descriptor. /// Retrieves an image view with the properties of the specified image descriptor.
[[nodiscard]] ImageView& FindImageView(const AmdGpu::Image& image, bool is_storage); [[nodiscard]] ImageView& FindImageView(const AmdGpu::Image& image, bool is_storage,
bool is_depth);
/// Retrieves the render target with specified properties /// Retrieves the render target with specified properties
[[nodiscard]] ImageView& RenderTarget(const AmdGpu::Liverpool::ColorBuffer& buffer, [[nodiscard]] ImageView& RenderTarget(const AmdGpu::Liverpool::ColorBuffer& buffer,

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@ -231,7 +231,7 @@ static constexpr vk::BufferUsageFlags StagingFlags = vk::BufferUsageFlagBits::eT
TileManager::TileManager(const Vulkan::Instance& instance, Vulkan::Scheduler& scheduler) TileManager::TileManager(const Vulkan::Instance& instance, Vulkan::Scheduler& scheduler)
: instance{instance}, scheduler{scheduler}, : instance{instance}, scheduler{scheduler},
staging{instance, scheduler, StagingFlags, 64_MB, Vulkan::BufferType::Upload} { staging{instance, scheduler, StagingFlags, 128_MB, Vulkan::BufferType::Upload} {
static const std::array detiler_shaders{ static const std::array detiler_shaders{
HostShaders::DETILE_M8X1_COMP, HostShaders::DETILE_M8X2_COMP, HostShaders::DETILE_M8X1_COMP, HostShaders::DETILE_M8X2_COMP,