early-access version 1857

This commit is contained in:
pineappleEA 2021-07-07 22:12:25 +02:00
parent c73b4b3ce7
commit 28b8f1ac43
7 changed files with 69 additions and 158 deletions

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@ -1,7 +1,7 @@
yuzu emulator early access
=============
This is the source code for early-access 1855.
This is the source code for early-access 1857.
## Legal Notice

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@ -81,7 +81,7 @@ public:
{
std::unique_lock lock{queue_mutex};
requests.emplace(std::move(work));
++work_scherduled;
++work_scheduled;
}
condition.notify_one();
}
@ -94,7 +94,7 @@ public:
});
std::unique_lock lock{queue_mutex};
wait_condition.wait(lock, [this] {
return workers_stopped >= workers_queued || work_done >= work_scherduled;
return workers_stopped >= workers_queued || work_done >= work_scheduled;
});
}
@ -103,7 +103,7 @@ private:
std::mutex queue_mutex;
std::condition_variable_any condition;
std::condition_variable wait_condition;
std::atomic<size_t> work_scherduled{};
std::atomic<size_t> work_scheduled{};
std::atomic<size_t> work_done{};
std::atomic<size_t> workers_stopped{};
std::atomic<size_t> workers_queued{};

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@ -14,7 +14,7 @@ class UniqueFunction {
class CallableBase {
public:
virtual ~CallableBase() = default;
virtual ResultType operator()(Args...) = 0;
virtual ResultType operator()(Args&&...) = 0;
};
template <typename Functor>
@ -23,7 +23,7 @@ class UniqueFunction {
Callable(Functor&& functor_) : functor{std::move(functor_)} {}
~Callable() override = default;
ResultType operator()(Args... args) override {
ResultType operator()(Args&&... args) override {
return functor(std::forward<Args>(args)...);
}
@ -38,25 +38,20 @@ public:
UniqueFunction(Functor&& functor)
: callable{std::make_unique<Callable<Functor>>(std::move(functor))} {}
UniqueFunction& operator=(UniqueFunction<ResultType, Args...>&& rhs) noexcept {
callable = std::move(rhs.callable);
return *this;
}
UniqueFunction& operator=(UniqueFunction&& rhs) noexcept = default;
UniqueFunction(UniqueFunction&& rhs) noexcept = default;
UniqueFunction(UniqueFunction<ResultType, Args...>&& rhs) noexcept
: callable{std::move(rhs.callable)} {}
UniqueFunction& operator=(const UniqueFunction&) = delete;
UniqueFunction(const UniqueFunction&) = delete;
ResultType operator()(Args... args) const {
ResultType operator()(Args&&... args) const {
return (*callable)(std::forward<Args>(args)...);
}
explicit operator bool() const noexcept {
return callable != nullptr;
return static_cast<bool>(callable);
}
UniqueFunction& operator=(const UniqueFunction<ResultType, Args...>&) = delete;
UniqueFunction(const UniqueFunction<ResultType, Args...>&) = delete;
private:
std::unique_ptr<CallableBase> callable;
};

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@ -7,6 +7,10 @@
#include "video_core/engines/fermi_2d.h"
#include "video_core/memory_manager.h"
#include "video_core/rasterizer_interface.h"
#include "video_core/surface.h"
using VideoCore::Surface::BytesPerBlock;
using VideoCore::Surface::PixelFormatFromRenderTargetFormat;
namespace Tegra::Engines {
@ -49,7 +53,7 @@ void Fermi2D::Blit() {
UNIMPLEMENTED_IF_MSG(regs.clip_enable != 0, "Clipped blit enabled");
const auto& args = regs.pixels_from_memory;
const Config config{
Config config{
.operation = regs.operation,
.filter = args.sample_mode.filter,
.dst_x0 = args.dst_x0,
@ -61,7 +65,21 @@ void Fermi2D::Blit() {
.src_x1 = static_cast<s32>((args.du_dx * args.dst_width + args.src_x0) >> 32),
.src_y1 = static_cast<s32>((args.dv_dy * args.dst_height + args.src_y0) >> 32),
};
if (!rasterizer->AccelerateSurfaceCopy(regs.src, regs.dst, config)) {
Surface src = regs.src;
const auto bytes_per_pixel = BytesPerBlock(PixelFormatFromRenderTargetFormat(src.format));
const auto need_align_to_pitch =
src.linear == Tegra::Engines::Fermi2D::MemoryLayout::Pitch &&
static_cast<s32>(src.width) == config.src_x1 &&
config.src_x1 > static_cast<s32>(src.pitch / bytes_per_pixel) && config.src_x0 > 0;
if (need_align_to_pitch) {
auto address = src.Address() + config.src_x0 * bytes_per_pixel;
src.addr_upper = static_cast<u32>(address >> 32);
src.addr_lower = static_cast<u32>(address);
src.width -= config.src_x0;
config.src_x1 -= config.src_x0;
config.src_x0 = 0;
}
if (!rasterizer->AccelerateSurfaceCopy(src, regs.dst, config)) {
UNIMPLEMENTED();
}
}

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@ -261,9 +261,9 @@ void UtilShaders::CopyBC4(Image& dst_image, Image& src_image, std::span<const Im
glUniform3ui(LOC_SRC_OFFSET, copy.src_offset.x, copy.src_offset.y, copy.src_offset.z);
glUniform3ui(LOC_DST_OFFSET, copy.dst_offset.x, copy.dst_offset.y, copy.dst_offset.z);
glBindImageTexture(BINDING_INPUT_IMAGE, src_image.StorageHandle(),
copy.src_subresource.base_level, GL_FALSE, 0, GL_READ_ONLY, GL_RG32UI);
copy.src_subresource.base_level, GL_TRUE, 0, GL_READ_ONLY, GL_RG32UI);
glBindImageTexture(BINDING_OUTPUT_IMAGE, dst_image.StorageHandle(),
copy.dst_subresource.base_level, GL_FALSE, 0, GL_WRITE_ONLY, GL_RGBA8UI);
copy.dst_subresource.base_level, GL_TRUE, 0, GL_WRITE_ONLY, GL_RGBA8UI);
glDispatchCompute(copy.extent.width, copy.extent.height, copy.extent.depth);
}
program_manager.RestoreGuestCompute();

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@ -159,9 +159,7 @@ public:
/// Blit an image with the given parameters
void BlitImage(const Tegra::Engines::Fermi2D::Surface& dst,
const Tegra::Engines::Fermi2D::Surface& src,
const Tegra::Engines::Fermi2D::Config& copy,
std::optional<Region2D> src_region_override = {},
std::optional<Region2D> dst_region_override = {});
const Tegra::Engines::Fermi2D::Config& copy);
/// Invalidate the contents of the color buffer index
/// These contents become unspecified, the cache can assume aggressive optimizations.
@ -760,9 +758,7 @@ void TextureCache<P>::UnmapGPUMemory(GPUVAddr gpu_addr, size_t size) {
template <class P>
void TextureCache<P>::BlitImage(const Tegra::Engines::Fermi2D::Surface& dst,
const Tegra::Engines::Fermi2D::Surface& src,
const Tegra::Engines::Fermi2D::Config& copy,
std::optional<Region2D> src_override,
std::optional<Region2D> dst_override) {
const Tegra::Engines::Fermi2D::Config& copy) {
const BlitImages images = GetBlitImages(dst, src);
const ImageId dst_id = images.dst_id;
const ImageId src_id = images.src_id;
@ -773,47 +769,25 @@ void TextureCache<P>::BlitImage(const Tegra::Engines::Fermi2D::Surface& dst,
const ImageBase& src_image = slot_images[src_id];
// TODO: Deduplicate
const std::optional dst_base = dst_image.TryFindBase(dst.Address());
const SubresourceRange dst_range{.base = dst_base.value(), .extent = {1, 1}};
const ImageViewInfo dst_view_info(ImageViewType::e2D, images.dst_format, dst_range);
const auto [dst_framebuffer_id, dst_view_id] = RenderTargetFromImage(dst_id, dst_view_info);
const auto [src_samples_x, src_samples_y] = SamplesLog2(src_image.info.num_samples);
// out of bounds texture blit checking
const bool use_override = src_override.has_value();
const s32 src_x0 = copy.src_x0 >> src_samples_x;
s32 src_x1 = use_override ? src_override->end.x : copy.src_x1 >> src_samples_x;
const s32 src_y0 = copy.src_y0 >> src_samples_y;
const s32 src_y1 = copy.src_y1 >> src_samples_y;
const auto src_width = static_cast<s32>(src_image.info.size.width);
const bool width_oob = src_x1 > src_width;
const auto width_diff = width_oob ? src_x1 - src_width : 0;
if (width_oob) {
src_x1 = src_width;
}
const Region2D src_dimensions{
Offset2D{.x = src_x0, .y = src_y0},
Offset2D{.x = src_x1, .y = src_y1},
};
const auto src_region = use_override ? *src_override : src_dimensions;
const std::optional src_base = src_image.TryFindBase(src.Address());
const SubresourceRange src_range{.base = src_base.value(), .extent = {1, 1}};
const ImageViewInfo src_view_info(ImageViewType::e2D, images.src_format, src_range);
const auto [src_framebuffer_id, src_view_id] = RenderTargetFromImage(src_id, src_view_info);
const auto [dst_samples_x, dst_samples_y] = SamplesLog2(dst_image.info.num_samples);
const s32 dst_x0 = copy.dst_x0 >> dst_samples_x;
const s32 dst_x1 = copy.dst_x1 >> dst_samples_x;
const s32 dst_y0 = copy.dst_y0 >> dst_samples_y;
const s32 dst_y1 = copy.dst_y1 >> dst_samples_y;
const Region2D dst_dimensions{
Offset2D{.x = dst_x0, .y = dst_y0},
Offset2D{.x = dst_x1 - width_diff, .y = dst_y1},
const auto [src_samples_x, src_samples_y] = SamplesLog2(src_image.info.num_samples);
const Region2D src_region{
Offset2D{.x = copy.src_x0 >> src_samples_x, .y = copy.src_y0 >> src_samples_y},
Offset2D{.x = copy.src_x1 >> src_samples_x, .y = copy.src_y1 >> src_samples_y},
};
const std::optional dst_base = dst_image.TryFindBase(dst.Address());
const SubresourceRange dst_range{.base = dst_base.value(), .extent = {1, 1}};
const ImageViewInfo dst_view_info(ImageViewType::e2D, images.dst_format, dst_range);
const auto [dst_framebuffer_id, dst_view_id] = RenderTargetFromImage(dst_id, dst_view_info);
const auto [dst_samples_x, dst_samples_y] = SamplesLog2(dst_image.info.num_samples);
const Region2D dst_region{
Offset2D{.x = copy.dst_x0 >> dst_samples_x, .y = copy.dst_y0 >> dst_samples_y},
Offset2D{.x = copy.dst_x1 >> dst_samples_x, .y = copy.dst_y1 >> dst_samples_y},
};
const auto dst_region = use_override ? *dst_override : dst_dimensions;
// Always call this after src_framebuffer_id was queried, as the address might be invalidated.
Framebuffer* const dst_framebuffer = &slot_framebuffers[dst_framebuffer_id];
@ -830,21 +804,6 @@ void TextureCache<P>::BlitImage(const Tegra::Engines::Fermi2D::Surface& dst,
runtime.BlitImage(dst_framebuffer, dst_view, src_view, dst_region, src_region, copy.filter,
copy.operation);
}
if (width_oob) {
// Continue copy of the oob region of the texture on the next row
auto oob_src = src;
oob_src.height++;
const Region2D src_region_override{
Offset2D{.x = 0, .y = src_y0 + 1},
Offset2D{.x = width_diff, .y = src_y1 + 1},
};
const Region2D dst_region_override{
Offset2D{.x = dst_x1 - width_diff, .y = dst_y0},
Offset2D{.x = dst_x1, .y = dst_y1},
};
BlitImage(dst, oob_src, copy, src_region_override, dst_region_override);
}
}
template <class P>

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@ -18,15 +18,11 @@
#include <algorithm>
#include <cassert>
#include <cstring>
#if __cpp_lib_parallel_algorithm
#include <execution>
#endif
#include <span>
#include <vector>
#include <boost/container/static_vector.hpp>
#include "common/alignment.h"
#include "common/common_types.h"
#include "video_core/textures/astc.h"
@ -1554,87 +1550,30 @@ static void DecompressBlock(std::span<const u8, 16> inBuf, const u32 blockWidth,
void Decompress(std::span<const uint8_t> data, uint32_t width, uint32_t height, uint32_t depth,
uint32_t block_width, uint32_t block_height, std::span<uint8_t> output) {
struct ASTCStrideInfo {
u32 z{};
u32 index{};
};
u32 block_index = 0;
std::size_t depth_offset = 0;
for (u32 z = 0; z < depth; z++) {
for (u32 y = 0; y < height; y += block_height) {
for (u32 x = 0; x < width; x += block_width) {
const std::span<const u8, 16> blockPtr{data.subspan(block_index * 16, 16)};
const u32 rows = Common::DivideUp(height, block_height);
const u32 cols = Common::DivideUp(width, block_width);
// Blocks can be at most 12x12
std::array<u32, 12 * 12> uncompData;
DecompressBlock(blockPtr, block_width, block_height, uncompData);
const u32 num_strides = depth * rows;
std::vector<ASTCStrideInfo> astc_strides(num_strides);
u32 decompWidth = std::min(block_width, width - x);
u32 decompHeight = std::min(block_height, height - y);
for (u32 z = 0; z < depth; ++z) {
for (u32 index = 0; index < rows; ++index) {
astc_strides.emplace_back(ASTCStrideInfo{
.z{z},
.index{index},
});
}
}
auto decompress_stride = [&](const ASTCStrideInfo& stride) {
const u32 y = stride.index * block_height;
const u32 depth_offset = stride.z * height * width * 4;
for (u32 x_index = 0; x_index < cols; ++x_index) {
const u32 block_index = (stride.z * rows * cols) + (stride.index * cols) + x_index;
const u32 x = x_index * block_width;
const std::span<const u8, 16> blockPtr{data.subspan(block_index * 16, 16)};
// Blocks can be at most 12x12
std::array<u32, 12 * 12> uncompData;
DecompressBlock(blockPtr, block_width, block_height, uncompData);
const u32 decompWidth = std::min(block_width, width - x);
const u32 decompHeight = std::min(block_height, height - y);
const std::span<u8> outRow = output.subspan(depth_offset + (y * width + x) * 4);
for (u32 h = 0; h < decompHeight; ++h) {
std::memcpy(outRow.data() + h * width * 4, uncompData.data() + h * block_width,
decompWidth * 4);
const std::span<u8> outRow = output.subspan(depth_offset + (y * width + x) * 4);
for (u32 jj = 0; jj < decompHeight; jj++) {
std::memcpy(outRow.data() + jj * width * 4,
uncompData.data() + jj * block_width, decompWidth * 4);
}
++block_index;
}
}
};
#if __cpp_lib_parallel_algorithm
std::for_each(std::execution::par, astc_strides.cbegin(), astc_strides.cend(),
decompress_stride);
#else
std::for_each(astc_strides.cbegin(), astc_strides.cend(), decompress_stride);
#endif
// const u32 rows = Common::DivideUp(height, block_height);
// const u32 cols = Common::DivideUp(width, block_width);
// for (u32 z = 0; z < depth; ++z) {
// const u32 depth_offset = z * height * width * 4;
// for (u32 y_index = 0; y_index < rows; ++y_index) {
// const u32 y = y_index * block_height;
// for (u32 x_index = 0; x_index < cols; ++x_index) {
// const u32 block_index = (z * rows * cols) + (y_index * cols) + x_index;
// const u32 x = x_index * block_width;
// const std::span<const u8, 16> blockPtr{data.subspan(block_index * 16, 16)};
// // Blocks can be at most 12x12
// std::array<u32, 12 * 12> uncompData;
// DecompressBlock(blockPtr, block_width, block_height, uncompData);
// u32 decompWidth = std::min(block_width, width - x);
// u32 decompHeight = std::min(block_height, height - y);
// const std::span<u8> outRow = output.subspan(depth_offset + (y * width + x) * 4);
// for (u32 h = 0; h < decompHeight; ++h) {
// std::memcpy(outRow.data() + h * width * 4, uncompData.data() + h *
// block_width,
// decompWidth * 4);
// }
// }
// }
// }
depth_offset += height * width * 4;
}
}
} // namespace Tegra::Texture::ASTC