early-access version 1461

This commit is contained in:
pineappleEA 2021-02-15 08:17:26 +01:00
parent 6d933e2d65
commit 039c046bd9
16 changed files with 115 additions and 160 deletions

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@ -1,7 +1,7 @@
yuzu emulator early access
=============
This is the source code for early-access 1460.
This is the source code for early-access 1461.
## Legal Notice

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@ -34,8 +34,7 @@ NvResult nvhost_nvdec::Ioctl1(Ioctl command, const std::vector<u8>& input,
case 0xa: {
if (command.length == 0x1c) {
LOG_INFO(Service_NVDRV, "NVDEC video stream ended");
Tegra::ChCommandHeaderList cmdlist(1);
cmdlist[0] = Tegra::ChCommandHeader{0xDEADB33F};
Tegra::ChCommandHeaderList cmdlist{{0xDEADB33F}};
system.GPU().PushCommandBuffer(cmdlist);
system.GPU().MemoryManager().InvalidateQueuedCaches();
}

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@ -29,8 +29,13 @@ NvResult nvhost_vic::Ioctl1(Ioctl command, const std::vector<u8>& input, std::ve
return GetWaitbase(input, output);
case 0x9:
return MapBuffer(input, output);
case 0xa:
case 0xa: {
if (command.length == 0x1c) {
Tegra::ChCommandHeaderList cmdlist{{0xDEADB33F}};
system.GPU().PushCommandBuffer(cmdlist);
}
return UnmapBuffer(input, output);
}
default:
break;
}

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@ -37,59 +37,43 @@ CDmaPusher::CDmaPusher(GPU& gpu_)
CDmaPusher::~CDmaPusher() = default;
void CDmaPusher::Push(ChCommandHeaderList&& entries) {
cdma_queue.push(std::move(entries));
}
void CDmaPusher::DispatchCalls() {
while (!cdma_queue.empty()) {
Step();
}
}
void CDmaPusher::Step() {
const auto entries{cdma_queue.front()};
cdma_queue.pop();
std::vector<u32> values(entries.size());
std::memcpy(values.data(), entries.data(), entries.size() * sizeof(u32));
for (const u32 value : values) {
void CDmaPusher::ProcessEntries(ChCommandHeaderList&& entries) {
for (const auto& value : entries) {
if (mask != 0) {
const auto lbs = static_cast<u32>(std::countr_zero(mask));
mask &= ~(1U << lbs);
ExecuteCommand(static_cast<u32>(offset + lbs), value);
ExecuteCommand(offset + lbs, value.raw);
continue;
} else if (count != 0) {
--count;
ExecuteCommand(static_cast<u32>(offset), value);
ExecuteCommand(offset, value.raw);
if (incrementing) {
++offset;
}
continue;
}
const auto mode = static_cast<ChSubmissionMode>((value >> 28) & 0xf);
const auto mode = value.submission_mode.Value();
switch (mode) {
case ChSubmissionMode::SetClass: {
mask = value & 0x3f;
offset = (value >> 16) & 0xfff;
current_class = static_cast<ChClassId>((value >> 6) & 0x3ff);
mask = value.value & 0x3f;
offset = value.method_offset;
current_class = static_cast<ChClassId>((value.value >> 6) & 0x3ff);
break;
}
case ChSubmissionMode::Incrementing:
case ChSubmissionMode::NonIncrementing:
count = value & 0xffff;
offset = (value >> 16) & 0xfff;
count = value.value;
offset = value.method_offset;
incrementing = mode == ChSubmissionMode::Incrementing;
break;
case ChSubmissionMode::Mask:
mask = value & 0xffff;
offset = (value >> 16) & 0xfff;
mask = value.value;
offset = value.method_offset;
break;
case ChSubmissionMode::Immediate: {
const u32 data = value & 0xfff;
offset = (value >> 16) & 0xfff;
ExecuteCommand(static_cast<u32>(offset), data);
const u32 data = value.value & 0xfff;
offset = value.method_offset;
ExecuteCommand(offset, data);
break;
}
default:
@ -102,8 +86,8 @@ void CDmaPusher::Step() {
void CDmaPusher::ExecuteCommand(u32 state_offset, u32 data) {
switch (current_class) {
case ChClassId::NvDec:
ThiStateWrite(nvdec_thi_state, state_offset, {data});
switch (static_cast<ThiMethod>(state_offset)) {
ThiStateWrite(nvdec_thi_state, offset, data);
switch (static_cast<ThiMethod>(offset)) {
case ThiMethod::IncSyncpt: {
LOG_DEBUG(Service_NVDRV, "NVDEC Class IncSyncpt Method");
const auto syncpoint_id = static_cast<u32>(data & 0xFF);
@ -120,7 +104,7 @@ void CDmaPusher::ExecuteCommand(u32 state_offset, u32 data) {
LOG_DEBUG(Service_NVDRV, "NVDEC method 0x{:X}",
static_cast<u32>(nvdec_thi_state.method_0));
nvdec_processor->ProcessMethod(static_cast<Nvdec::Method>(nvdec_thi_state.method_0),
{data});
data);
break;
default:
break;
@ -144,7 +128,7 @@ void CDmaPusher::ExecuteCommand(u32 state_offset, u32 data) {
case ThiMethod::SetMethod1:
LOG_DEBUG(Service_NVDRV, "VIC method 0x{:X}, Args=({})",
static_cast<u32>(vic_thi_state.method_0), data);
vic_processor->ProcessMethod(static_cast<Vic::Method>(vic_thi_state.method_0), {data});
vic_processor->ProcessMethod(static_cast<Vic::Method>(vic_thi_state.method_0), data);
break;
default:
break;
@ -153,7 +137,7 @@ void CDmaPusher::ExecuteCommand(u32 state_offset, u32 data) {
case ChClassId::Host1x:
// This device is mainly for syncpoint synchronization
LOG_DEBUG(Service_NVDRV, "Host1X Class Method");
host1x_processor->ProcessMethod(static_cast<Host1x::Method>(state_offset), {data});
host1x_processor->ProcessMethod(static_cast<Host1x::Method>(offset), data);
break;
default:
UNIMPLEMENTED_MSG("Current class not implemented {:X}", static_cast<u32>(current_class));
@ -161,10 +145,9 @@ void CDmaPusher::ExecuteCommand(u32 state_offset, u32 data) {
}
}
void CDmaPusher::ThiStateWrite(ThiRegisters& state, u32 state_offset,
const std::vector<u32>& arguments) {
u8* const state_offset_ptr = reinterpret_cast<u8*>(&state) + sizeof(u32) * state_offset;
std::memcpy(state_offset_ptr, arguments.data(), sizeof(u32) * arguments.size());
void CDmaPusher::ThiStateWrite(ThiRegisters& state, u32 state_offset, u32 argument) {
u8* const offset_ptr = reinterpret_cast<u8*>(&state) + sizeof(u32) * state_offset;
std::memcpy(offset_ptr, &argument, sizeof(u32));
}
} // namespace Tegra

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@ -5,9 +5,7 @@
#pragma once
#include <memory>
#include <unordered_map>
#include <vector>
#include <queue>
#include "common/bit_field.h"
#include "common/common_types.h"
@ -16,9 +14,9 @@
namespace Tegra {
class GPU;
class Host1x;
class Nvdec;
class Vic;
class Host1x;
enum class ChSubmissionMode : u32 {
SetClass = 0,
@ -48,16 +46,10 @@ enum class ChClassId : u32 {
NvDec = 0xf0
};
enum class ChMethod : u32 {
Empty = 0,
SetMethod = 0x10,
SetData = 0x11,
};
union ChCommandHeader {
u32 raw;
BitField<0, 16, u32> value;
BitField<16, 12, ChMethod> method_offset;
BitField<16, 12, u32> method_offset;
BitField<28, 4, ChSubmissionMode> submission_mode;
};
static_assert(sizeof(ChCommandHeader) == sizeof(u32), "ChCommand header is an invalid size");
@ -99,21 +91,15 @@ public:
explicit CDmaPusher(GPU& gpu_);
~CDmaPusher();
/// Push NVDEC command buffer entries into queue
void Push(ChCommandHeaderList&& entries);
/// Process queued command buffer entries
void DispatchCalls();
/// Process one queue element
void Step();
/// Process the command entry
void ProcessEntries(ChCommandHeaderList&& entries);
private:
/// Invoke command class devices to execute the command based on the current state
void ExecuteCommand(u32 state_offset, u32 data);
private:
/// Write arguments value to the ThiRegisters member at the specified offset
void ThiStateWrite(ThiRegisters& state, u32 state_offset, const std::vector<u32>& arguments);
void ThiStateWrite(ThiRegisters& state, u32 offset, u32 argument);
GPU& gpu;
std::shared_ptr<Tegra::Nvdec> nvdec_processor;
@ -124,13 +110,10 @@ private:
ThiRegisters vic_thi_state{};
ThiRegisters nvdec_thi_state{};
s32 count{};
s32 offset{};
u32 count{};
u32 offset{};
u32 mask{};
bool incrementing{};
// Queue of command lists to be processed
std::queue<ChCommandHeaderList> cdma_queue;
};
} // namespace Tegra

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@ -44,8 +44,10 @@ Codec::~Codec() {
}
void Codec::SetTargetCodec(NvdecCommon::VideoCodec codec) {
LOG_INFO(Service_NVDRV, "NVDEC video codec initialized to {}", codec);
if (current_codec != codec) {
LOG_INFO(Service_NVDRV, "NVDEC video codec initialized to {}", static_cast<u32>(codec));
current_codec = codec;
}
}
void Codec::StateWrite(u32 offset, u64 arguments) {
@ -55,7 +57,6 @@ void Codec::StateWrite(u32 offset, u64 arguments) {
void Codec::Decode() {
bool is_first_frame = false;
if (!initialized) {
if (current_codec == NvdecCommon::VideoCodec::H264) {
av_codec = avcodec_find_decoder(AV_CODEC_ID_H264);

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@ -12,16 +12,16 @@ Nvdec::Nvdec(GPU& gpu_) : gpu(gpu_), codec(std::make_unique<Codec>(gpu)) {}
Nvdec::~Nvdec() = default;
void Nvdec::ProcessMethod(Method method, const std::vector<u32>& arguments) {
void Nvdec::ProcessMethod(Method method, u32 argument) {
if (method == Method::SetVideoCodec) {
codec->StateWrite(static_cast<u32>(method), arguments[0]);
codec->StateWrite(static_cast<u32>(method), argument);
} else {
codec->StateWrite(static_cast<u32>(method), static_cast<u64>(arguments[0]) << 8);
codec->StateWrite(static_cast<u32>(method), static_cast<u64>(argument) << 8);
}
switch (method) {
case Method::SetVideoCodec:
codec->SetTargetCodec(static_cast<NvdecCommon::VideoCodec>(arguments[0]));
codec->SetTargetCodec(static_cast<NvdecCommon::VideoCodec>(argument));
break;
case Method::Execute:
Execute();

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@ -23,7 +23,7 @@ public:
~Nvdec();
/// Writes the method into the state, Invoke Execute() if encountered
void ProcessMethod(Method method, const std::vector<u32>& arguments);
void ProcessMethod(Method method, u32 argument);
/// Return most recently decoded frame
[[nodiscard]] AVFramePtr GetFrame();

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@ -18,18 +18,14 @@ extern "C" {
namespace Tegra {
Vic::Vic(GPU& gpu_, std::shared_ptr<Nvdec> nvdec_processor_)
: gpu(gpu_), nvdec_processor(std::move(nvdec_processor_)) {}
: gpu(gpu_),
nvdec_processor(std::move(nvdec_processor_)), converted_frame_buffer{nullptr, av_free} {}
Vic::~Vic() = default;
void Vic::VicStateWrite(u32 offset, u32 arguments) {
u8* const state_offset = reinterpret_cast<u8*>(&vic_state) + offset * sizeof(u32);
std::memcpy(state_offset, &arguments, sizeof(u32));
}
void Vic::ProcessMethod(Method method, const std::vector<u32>& arguments) {
LOG_DEBUG(HW_GPU, "Vic method 0x{:X}", method);
VicStateWrite(static_cast<u32>(method), arguments[0]);
const u64 arg = static_cast<u64>(arguments[0]) << 8;
void Vic::ProcessMethod(Method method, u32 argument) {
LOG_DEBUG(HW_GPU, "Vic method 0x{:X}", static_cast<u32>(method));
const u64 arg = static_cast<u64>(argument) << 8;
switch (method) {
case Method::Execute:
Execute();
@ -53,8 +49,7 @@ void Vic::ProcessMethod(Method method, const std::vector<u32>& arguments) {
void Vic::Execute() {
if (output_surface_luma_address == 0) {
LOG_ERROR(Service_NVDRV, "VIC Luma address not set. Received 0x{:X}",
vic_state.output_surface.luma_offset);
LOG_ERROR(Service_NVDRV, "VIC Luma address not set.");
return;
}
const VicConfig config{gpu.MemoryManager().Read<u64>(config_struct_address + 0x20)};
@ -89,8 +84,10 @@ void Vic::Execute() {
// Get Converted frame
const std::size_t linear_size = frame->width * frame->height * 4;
using AVMallocPtr = std::unique_ptr<u8, decltype(&av_free)>;
AVMallocPtr converted_frame_buffer{static_cast<u8*>(av_malloc(linear_size)), av_free};
// Only allocate frame_buffer once per stream, as the size is not expected to change
if (!converted_frame_buffer) {
converted_frame_buffer = AVMallocPtr{static_cast<u8*>(av_malloc(linear_size)), av_free};
}
const int converted_stride{frame->width * 4};
u8* const converted_frame_buf_addr{converted_frame_buffer.get()};
@ -104,12 +101,12 @@ void Vic::Execute() {
const u32 block_height = static_cast<u32>(config.block_linear_height_log2);
const auto size = Tegra::Texture::CalculateSize(true, 4, frame->width, frame->height, 1,
block_height, 0);
std::vector<u8> swizzled_data(size);
luma_buffer.resize(size);
Tegra::Texture::SwizzleSubrect(frame->width, frame->height, frame->width * 4,
frame->width, 4, swizzled_data.data(),
frame->width, 4, luma_buffer.data(),
converted_frame_buffer.get(), block_height, 0, 0);
gpu.MemoryManager().WriteBlock(output_surface_luma_address, swizzled_data.data(), size);
gpu.MemoryManager().WriteBlock(output_surface_luma_address, luma_buffer.data(), size);
} else {
// send pitch linear frame
gpu.MemoryManager().WriteBlock(output_surface_luma_address, converted_frame_buf_addr,
@ -132,15 +129,15 @@ void Vic::Execute() {
const auto stride = frame->linesize[0];
const auto half_stride = frame->linesize[1];
std::vector<u8> luma_buffer(aligned_width * surface_height);
std::vector<u8> chroma_buffer(aligned_width * half_height);
luma_buffer.resize(aligned_width * surface_height);
chroma_buffer.resize(aligned_width * half_height);
// Populate luma buffer
for (std::size_t y = 0; y < surface_height - 1; ++y) {
std::size_t src = y * stride;
std::size_t dst = y * aligned_width;
const std::size_t src = y * stride;
const std::size_t dst = y * aligned_width;
std::size_t size = surface_width;
const std::size_t size = surface_width;
for (std::size_t offset = 0; offset < size; ++offset) {
luma_buffer[dst + offset] = luma_ptr[src + offset];
@ -151,8 +148,8 @@ void Vic::Execute() {
// Populate chroma buffer from both channels with interleaving.
for (std::size_t y = 0; y < half_height; ++y) {
std::size_t src = y * half_stride;
std::size_t dst = y * aligned_width;
const std::size_t src = y * half_stride;
const std::size_t dst = y * aligned_width;
for (std::size_t x = 0; x < half_width; ++x) {
chroma_buffer[dst + x * 2] = chroma_b_ptr[src + x];

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@ -15,43 +15,6 @@ namespace Tegra {
class GPU;
class Nvdec;
struct PlaneOffsets {
u32 luma_offset{};
u32 chroma_u_offset{};
u32 chroma_v_offset{};
};
struct VicRegisters {
INSERT_PADDING_WORDS(64);
u32 nop{};
INSERT_PADDING_WORDS(15);
u32 pm_trigger{};
INSERT_PADDING_WORDS(47);
u32 set_application_id{};
u32 set_watchdog_timer{};
INSERT_PADDING_WORDS(17);
u32 context_save_area{};
u32 context_switch{};
INSERT_PADDING_WORDS(43);
u32 execute{};
INSERT_PADDING_WORDS(63);
std::array<std::array<PlaneOffsets, 8>, 8> surfacex_slots{};
u32 picture_index{};
u32 control_params{};
u32 config_struct_offset{};
u32 filter_struct_offset{};
u32 palette_offset{};
u32 hist_offset{};
u32 context_id{};
u32 fce_ucode_size{};
PlaneOffsets output_surface{};
u32 fce_ucode_offset{};
INSERT_PADDING_WORDS(4);
std::array<u32, 8> slot_context_id{};
INSERT_PADDING_WORDS(16);
};
static_assert(sizeof(VicRegisters) == 0x7A0, "VicRegisters is an invalid size");
class Vic {
public:
enum class Method : u32 {
@ -67,14 +30,11 @@ public:
~Vic();
/// Write to the device state.
void ProcessMethod(Method method, const std::vector<u32>& arguments);
void ProcessMethod(Method method, u32 argument);
private:
void Execute();
void VicStateWrite(u32 offset, u32 arguments);
VicRegisters vic_state{};
enum class VideoPixelFormat : u64_le {
RGBA8 = 0x1f,
BGRA8 = 0x20,
@ -88,8 +48,6 @@ private:
BitField<9, 2, u64_le> chroma_loc_vert;
BitField<11, 4, u64_le> block_linear_kind;
BitField<15, 4, u64_le> block_linear_height_log2;
BitField<19, 3, u64_le> reserved0;
BitField<22, 10, u64_le> reserved1;
BitField<32, 14, u64_le> surface_width_minus1;
BitField<46, 14, u64_le> surface_height_minus1;
};
@ -97,6 +55,13 @@ private:
GPU& gpu;
std::shared_ptr<Tegra::Nvdec> nvdec_processor;
/// Avoid reallocation of the following buffers every frame, as their
/// size does not change during a stream
using AVMallocPtr = std::unique_ptr<u8, decltype(&av_free)>;
AVMallocPtr converted_frame_buffer;
std::vector<u8> luma_buffer;
std::vector<u8> chroma_buffer;
GPUVAddr config_struct_address{};
GPUVAddr output_surface_luma_address{};
GPUVAddr output_surface_chroma_u_address{};

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@ -30,8 +30,7 @@ MICROPROFILE_DEFINE(GPU_wait, "GPU", "Wait for the GPU", MP_RGB(128, 128, 192));
GPU::GPU(Core::System& system_, bool is_async_, bool use_nvdec_)
: system{system_}, memory_manager{std::make_unique<Tegra::MemoryManager>(system)},
dma_pusher{std::make_unique<Tegra::DmaPusher>(system, *this)},
cdma_pusher{std::make_unique<Tegra::CDmaPusher>(*this)}, use_nvdec{use_nvdec_},
dma_pusher{std::make_unique<Tegra::DmaPusher>(system, *this)}, use_nvdec{use_nvdec_},
maxwell_3d{std::make_unique<Engines::Maxwell3D>(system, *memory_manager)},
fermi_2d{std::make_unique<Engines::Fermi2D>()},
kepler_compute{std::make_unique<Engines::KeplerCompute>(system, *memory_manager)},
@ -494,8 +493,7 @@ void GPU::PushCommandBuffer(Tegra::ChCommandHeaderList& entries) {
// TODO(ameerj): RE proper async nvdec operation
// gpu_thread.SubmitCommandBuffer(std::move(entries));
cdma_pusher->Push(std::move(entries));
cdma_pusher->DispatchCalls();
cdma_pusher->ProcessEntries(std::move(entries));
}
void GPU::SwapBuffers(const Tegra::FramebufferConfig* framebuffer) {

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@ -48,8 +48,7 @@ static void RunThread(Core::System& system, VideoCore::RendererBase& renderer,
dma_pusher.DispatchCalls();
} else if (auto* command_list = std::get_if<SubmitChCommandEntries>(&next.data)) {
// NVDEC
cdma_pusher.Push(std::move(command_list->entries));
cdma_pusher.DispatchCalls();
cdma_pusher.ProcessEntries(std::move(command_list->entries));
} else if (const auto* data = std::get_if<SwapBuffersCommand>(&next.data)) {
renderer.SwapBuffers(data->framebuffer ? &*data->framebuffer : nullptr);
} else if (std::holds_alternative<OnCommandListEndCommand>(next.data)) {

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@ -1891,13 +1891,21 @@ private:
Expression TextureGather(Operation operation) {
const auto& meta = std::get<MetaTexture>(operation.GetMeta());
UNIMPLEMENTED_IF(!meta.aoffi.empty());
const Id coords = GetCoordinates(operation, Type::Float);
spv::ImageOperandsMask mask = spv::ImageOperandsMask::MaskNone;
std::vector<Id> operands;
Id texture{};
if (!meta.aoffi.empty()) {
mask = mask | spv::ImageOperandsMask::Offset;
operands.push_back(GetOffsetCoordinates(operation));
}
if (meta.sampler.is_shadow) {
texture = OpImageDrefGather(t_float4, GetTextureSampler(operation), coords,
AsFloat(Visit(meta.depth_compare)));
AsFloat(Visit(meta.depth_compare)), mask, operands);
} else {
u32 component_value = 0;
if (meta.component) {
@ -1906,7 +1914,7 @@ private:
component_value = component->GetValue();
}
texture = OpImageGather(t_float4, GetTextureSampler(operation), coords,
Constant(t_uint, component_value));
Constant(t_uint, component_value), mask, operands);
}
return GetTextureElement(operation, texture, Type::Float);
}
@ -1974,13 +1982,22 @@ private:
const Id image = GetTextureImage(operation);
const Id coords = GetCoordinates(operation, Type::Int);
spv::ImageOperandsMask mask = spv::ImageOperandsMask::MaskNone;
std::vector<Id> operands;
Id fetch;
if (meta.lod && !meta.sampler.is_buffer) {
fetch = OpImageFetch(t_float4, image, coords, spv::ImageOperandsMask::Lod,
AsInt(Visit(meta.lod)));
} else {
fetch = OpImageFetch(t_float4, image, coords);
mask = mask | spv::ImageOperandsMask::Lod;
operands.push_back(AsInt(Visit(meta.lod)));
}
if (!meta.aoffi.empty()) {
mask = mask | spv::ImageOperandsMask::Offset;
operands.push_back(GetOffsetCoordinates(operation));
}
fetch = OpImageFetch(t_float4, image, coords, mask, operands);
return GetTextureElement(operation, fetch, Type::Float);
}

View file

@ -330,6 +330,7 @@ u32 ShaderIR::DecodeMemory(NodeBlock& bb, u32 pc) {
case StoreType::Bits32:
(this->*set_memory)(bb, GetAddress(0), GetRegister(instr.gpr0));
break;
case StoreType::Unsigned16:
case StoreType::Signed16: {
Node address = GetAddress(0);
Node memory = (this->*get_memory)(address);

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@ -806,6 +806,7 @@ Node4 ShaderIR::GetTldsCode(Instruction instr, TextureType texture_type, bool is
const std::size_t type_coord_count = GetCoordCount(texture_type);
const bool lod_enabled = instr.tlds.GetTextureProcessMode() == TextureProcessMode::LL;
const bool aoffi_enabled = instr.tlds.UsesMiscMode(TextureMiscMode::AOFFI);
// If enabled arrays index is always stored in the gpr8 field
const u64 array_register = instr.gpr8.Value();
@ -820,17 +821,23 @@ Node4 ShaderIR::GetTldsCode(Instruction instr, TextureType texture_type, bool is
std::vector<Node> coords;
for (std::size_t i = 0; i < type_coord_count; ++i) {
const bool last = (i == (type_coord_count - 1)) && (type_coord_count > 1);
coords.push_back(GetRegister(last ? last_coord_register : coord_register + i));
coords.push_back(
GetRegister(last && !aoffi_enabled ? last_coord_register : coord_register + i));
}
const Node array = is_array ? GetRegister(array_register) : nullptr;
// When lod is used always is in gpr20
const Node lod = lod_enabled ? GetRegister(instr.gpr20) : Immediate(0);
std::vector<Node> aoffi;
if (aoffi_enabled) {
aoffi = GetAoffiCoordinates(GetRegister(instr.gpr20), type_coord_count, false);
}
Node4 values;
for (u32 element = 0; element < values.size(); ++element) {
auto coords_copy = coords;
MetaTexture meta{*sampler, array, {}, {}, {}, {}, {}, lod, {}, element, {}};
MetaTexture meta{*sampler, array, {}, aoffi, {}, {}, {}, lod, {}, element, {}};
values[element] = Operation(OperationCode::TexelFetch, meta, std::move(coords_copy));
}
return values;

View file

@ -42,7 +42,7 @@ void ControllerDialog::refreshConfiguration() {
QAction* ControllerDialog::toggleViewAction() {
if (toggle_view_action == nullptr) {
toggle_view_action = new QAction(windowTitle(), this);
toggle_view_action = new QAction(tr("&Controller P1"), this);
toggle_view_action->setCheckable(true);
toggle_view_action->setChecked(isVisible());
connect(toggle_view_action, &QAction::toggled, this, &ControllerDialog::setVisible);