Implement Async downloads in normal and fix a few issues.
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parent
f2d3212de9
commit
ed4553806a
3 changed files with 61 additions and 39 deletions
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@ -22,6 +22,8 @@ BufferCache<P>::BufferCache(VideoCore::RasterizerInterface& rasterizer_,
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void(slot_buffers.insert(runtime, NullBufferParams{}));
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void(slot_buffers.insert(runtime, NullBufferParams{}));
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common_ranges.clear();
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common_ranges.clear();
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active_async_buffers = IMPLEMENTS_ASYNC_DOWNLOADS && !Settings::IsGPULevelHigh();
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if (!runtime.CanReportMemoryUsage()) {
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if (!runtime.CanReportMemoryUsage()) {
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minimum_memory = DEFAULT_EXPECTED_MEMORY;
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minimum_memory = DEFAULT_EXPECTED_MEMORY;
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critical_memory = DEFAULT_CRITICAL_MEMORY;
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critical_memory = DEFAULT_CRITICAL_MEMORY;
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@ -72,6 +74,8 @@ void BufferCache<P>::TickFrame() {
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uniform_cache_hits[0] = 0;
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uniform_cache_hits[0] = 0;
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uniform_cache_shots[0] = 0;
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uniform_cache_shots[0] = 0;
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active_async_buffers = IMPLEMENTS_ASYNC_DOWNLOADS && !Settings::IsGPULevelHigh();
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const bool skip_preferred = hits * 256 < shots * 251;
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const bool skip_preferred = hits * 256 < shots * 251;
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uniform_buffer_skip_cache_size = skip_preferred ? DEFAULT_SKIP_CACHE_SIZE : 0;
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uniform_buffer_skip_cache_size = skip_preferred ? DEFAULT_SKIP_CACHE_SIZE : 0;
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@ -130,7 +134,7 @@ void BufferCache<P>::WaitOnAsyncFlushes(VAddr cpu_addr, u64 size) {
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template <class P>
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template <class P>
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void BufferCache<P>::ClearDownload(IntervalType subtract_interval) {
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void BufferCache<P>::ClearDownload(IntervalType subtract_interval) {
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async_downloads -= std::make_pair(subtract_interval, std::numeric_limits<int>::max());
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RemoveEachInOverlapCounter(async_downloads, subtract_interval, -1024);
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uncommitted_ranges.subtract(subtract_interval);
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uncommitted_ranges.subtract(subtract_interval);
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pending_ranges.subtract(subtract_interval);
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pending_ranges.subtract(subtract_interval);
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for (auto& interval_set : committed_ranges) {
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for (auto& interval_set : committed_ranges) {
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@ -173,18 +177,14 @@ bool BufferCache<P>::DMACopy(GPUVAddr src_address, GPUVAddr dest_address, u64 am
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}};
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}};
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boost::container::small_vector<IntervalType, 4> tmp_intervals;
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boost::container::small_vector<IntervalType, 4> tmp_intervals;
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const bool is_high_accuracy =
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Settings::values.gpu_accuracy.GetValue() == Settings::GPUAccuracy::High;
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auto mirror = [&](VAddr base_address, VAddr base_address_end) {
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auto mirror = [&](VAddr base_address, VAddr base_address_end) {
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const u64 size = base_address_end - base_address;
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const u64 size = base_address_end - base_address;
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const VAddr diff = base_address - *cpu_src_address;
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const VAddr diff = base_address - *cpu_src_address;
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const VAddr new_base_address = *cpu_dest_address + diff;
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const VAddr new_base_address = *cpu_dest_address + diff;
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const IntervalType add_interval{new_base_address, new_base_address + size};
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const IntervalType add_interval{new_base_address, new_base_address + size};
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tmp_intervals.push_back(add_interval);
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tmp_intervals.push_back(add_interval);
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if (is_high_accuracy) {
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uncommitted_ranges.add(add_interval);
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uncommitted_ranges.add(add_interval);
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pending_ranges.add(add_interval);
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pending_ranges.add(add_interval);
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}
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};
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};
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ForEachInRangeSet(common_ranges, *cpu_src_address, amount, mirror);
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ForEachInRangeSet(common_ranges, *cpu_src_address, amount, mirror);
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// This subtraction in this order is important for overlapping copies.
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// This subtraction in this order is important for overlapping copies.
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@ -468,7 +468,7 @@ void BufferCache<P>::CommitAsyncFlushesHigh() {
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AccumulateFlushes();
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AccumulateFlushes();
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if (committed_ranges.empty()) {
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if (committed_ranges.empty()) {
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if constexpr (IMPLEMENTS_ASYNC_DOWNLOADS) {
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if (active_async_buffers) {
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async_buffers.emplace_back(std::optional<Async_Buffer>{});
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async_buffers.emplace_back(std::optional<Async_Buffer>{});
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}
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}
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return;
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return;
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@ -529,11 +529,12 @@ void BufferCache<P>::CommitAsyncFlushesHigh() {
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}
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}
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committed_ranges.clear();
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committed_ranges.clear();
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if (downloads.empty()) {
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if (downloads.empty()) {
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if constexpr (IMPLEMENTS_ASYNC_DOWNLOADS) {
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if (active_async_buffers) {
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async_buffers.emplace_back(std::optional<Async_Buffer>{});
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async_buffers.emplace_back(std::optional<Async_Buffer>{});
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}
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}
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return;
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return;
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}
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}
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if (active_async_buffers) {
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if constexpr (IMPLEMENTS_ASYNC_DOWNLOADS) {
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if constexpr (IMPLEMENTS_ASYNC_DOWNLOADS) {
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auto download_staging = runtime.DownloadStagingBuffer(total_size_bytes, true);
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auto download_staging = runtime.DownloadStagingBuffer(total_size_bytes, true);
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boost::container::small_vector<BufferCopy, 4> normalized_copies;
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boost::container::small_vector<BufferCopy, 4> normalized_copies;
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@ -554,6 +555,7 @@ void BufferCache<P>::CommitAsyncFlushesHigh() {
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runtime.PostCopyBarrier();
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runtime.PostCopyBarrier();
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pending_downloads.emplace_back(std::move(normalized_copies));
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pending_downloads.emplace_back(std::move(normalized_copies));
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async_buffers.emplace_back(download_staging);
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async_buffers.emplace_back(download_staging);
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}
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} else {
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} else {
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if constexpr (USE_MEMORY_MAPS) {
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if constexpr (USE_MEMORY_MAPS) {
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auto download_staging = runtime.DownloadStagingBuffer(total_size_bytes);
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auto download_staging = runtime.DownloadStagingBuffer(total_size_bytes);
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@ -624,7 +626,8 @@ void BufferCache<P>::PopAsyncBuffers() {
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common_ranges.subtract(base_interval);
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common_ranges.subtract(base_interval);
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}
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}
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});
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});
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async_downloads -= std::make_pair(IntervalType(cpu_addr, cpu_addr + copy.size), 1);
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const IntervalType subtract_interval{cpu_addr, cpu_addr + copy.size};
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RemoveEachInOverlapCounter(async_downloads, subtract_interval, -1);
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}
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}
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runtime.FreeDeferredStagingBuffer(*async_buffer);
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runtime.FreeDeferredStagingBuffer(*async_buffer);
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async_buffers.pop_front();
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async_buffers.pop_front();
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@ -1198,11 +1201,9 @@ void BufferCache<P>::MarkWrittenBuffer(BufferId buffer_id, VAddr cpu_addr, u32 s
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const IntervalType base_interval{cpu_addr, cpu_addr + size};
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const IntervalType base_interval{cpu_addr, cpu_addr + size};
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common_ranges.add(base_interval);
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common_ranges.add(base_interval);
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if (Settings::values.gpu_accuracy.GetValue() == Settings::GPUAccuracy::High) {
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uncommitted_ranges.add(base_interval);
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uncommitted_ranges.add(base_interval);
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pending_ranges.add(base_interval);
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pending_ranges.add(base_interval);
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}
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}
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}
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template <class P>
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template <class P>
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BufferId BufferCache<P>::FindBuffer(VAddr cpu_addr, u32 size) {
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BufferId BufferCache<P>::FindBuffer(VAddr cpu_addr, u32 size) {
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@ -1542,7 +1543,7 @@ void BufferCache<P>::DownloadBufferMemory(Buffer& buffer, VAddr cpu_addr, u64 si
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.size = new_size,
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.size = new_size,
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});
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});
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// Align up to avoid cache conflicts
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// Align up to avoid cache conflicts
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constexpr u64 align = 8ULL;
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constexpr u64 align = 64ULL;
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constexpr u64 mask = ~(align - 1ULL);
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constexpr u64 mask = ~(align - 1ULL);
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total_size_bytes += (new_size + align - 1) & mask;
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total_size_bytes += (new_size + align - 1) & mask;
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largest_copy = std::max(largest_copy, new_size);
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largest_copy = std::max(largest_copy, new_size);
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@ -345,13 +345,30 @@ private:
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if (inter_addr < start_address) {
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if (inter_addr < start_address) {
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inter_addr = start_address;
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inter_addr = start_address;
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}
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}
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if (it->second <= 0) {
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__debugbreak();
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}
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func(inter_addr, inter_addr_end, it->second);
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func(inter_addr, inter_addr_end, it->second);
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}
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}
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}
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}
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void RemoveEachInOverlapCounter(OverlapCounter& current_range, const IntervalType search_interval, int subtract_value) {
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bool any_removals = false;
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current_range.add(std::make_pair(search_interval, subtract_value));
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do {
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any_removals = false;
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auto it = current_range.lower_bound(search_interval);
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if (it == current_range.end()) {
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return;
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}
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auto end_it = current_range.upper_bound(search_interval);
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for (; it != end_it; it++) {
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if (it->second <= 0) {
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any_removals = true;
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current_range.erase(it);
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break;
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}
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}
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} while (any_removals);
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}
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static bool IsRangeGranular(VAddr cpu_addr, size_t size) {
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static bool IsRangeGranular(VAddr cpu_addr, size_t size) {
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return (cpu_addr & ~Core::Memory::YUZU_PAGEMASK) ==
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return (cpu_addr & ~Core::Memory::YUZU_PAGEMASK) ==
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((cpu_addr + size) & ~Core::Memory::YUZU_PAGEMASK);
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((cpu_addr + size) & ~Core::Memory::YUZU_PAGEMASK);
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@ -554,6 +571,8 @@ private:
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u64 minimum_memory = 0;
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u64 minimum_memory = 0;
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u64 critical_memory = 0;
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u64 critical_memory = 0;
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bool active_async_buffers = false;
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std::array<BufferId, ((1ULL << 39) >> PAGE_BITS)> page_table;
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std::array<BufferId, ((1ULL << 39) >> PAGE_BITS)> page_table;
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};
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};
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@ -273,7 +273,7 @@ public:
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untracked_words[word_index] &= ~bits;
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untracked_words[word_index] &= ~bits;
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NotifyRasterizer<true>(word_index, current_bits, ~u64{0});
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NotifyRasterizer<true>(word_index, current_bits, ~u64{0});
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}
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}
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const u64 word = current_word;
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const u64 word = current_word & ~(type == Type::GPU ? untracked_words[word_index] : 0);
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u64 page = page_begin;
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u64 page = page_begin;
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page_begin = 0;
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page_begin = 0;
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@ -321,6 +321,7 @@ public:
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[[nodiscard]] bool IsRegionModified(u64 offset, u64 size) const noexcept {
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[[nodiscard]] bool IsRegionModified(u64 offset, u64 size) const noexcept {
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static_assert(type != Type::Untracked);
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static_assert(type != Type::Untracked);
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const u64* const untracked_words = Array<Type::Untracked>();
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const u64* const state_words = Array<type>();
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const u64* const state_words = Array<type>();
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const u64 num_query_words = size / BYTES_PER_WORD + 1;
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const u64 num_query_words = size / BYTES_PER_WORD + 1;
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const u64 word_begin = offset / BYTES_PER_WORD;
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const u64 word_begin = offset / BYTES_PER_WORD;
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@ -328,7 +329,8 @@ public:
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const u64 page_limit = Common::DivCeil(offset + size, BYTES_PER_PAGE);
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const u64 page_limit = Common::DivCeil(offset + size, BYTES_PER_PAGE);
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u64 page_index = (offset / BYTES_PER_PAGE) % PAGES_PER_WORD;
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u64 page_index = (offset / BYTES_PER_PAGE) % PAGES_PER_WORD;
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for (u64 word_index = word_begin; word_index < word_end; ++word_index, page_index = 0) {
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for (u64 word_index = word_begin; word_index < word_end; ++word_index, page_index = 0) {
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const u64 word = state_words[word_index];
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const u64 off_word = type == Type::GPU ? untracked_words[word_index] : 0;
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const u64 word = state_words[word_index] & ~off_word;
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if (word == 0) {
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if (word == 0) {
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continue;
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continue;
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}
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}
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