Buffer cache: always use async buffer downloads and fix regression.
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6f90dff293
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36c302fa32
@ -535,12 +535,12 @@ TEST_CASE("MemoryTracker: Cached write downloads") {
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memory_track->MarkRegionAsGpuModified(c + PAGE, PAGE);
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int num = 0;
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memory_track->ForEachDownloadRangeAndClear(c, WORD, [&](u64 offset, u64 size) { ++num; });
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REQUIRE(num == 1);
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REQUIRE(num == 0);
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num = 0;
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memory_track->ForEachUploadRange(c, WORD, [&](u64 offset, u64 size) { ++num; });
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REQUIRE(num == 0);
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REQUIRE(!memory_track->IsRegionCpuModified(c + PAGE, PAGE));
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REQUIRE(!memory_track->IsRegionGpuModified(c + PAGE, PAGE));
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REQUIRE(memory_track->IsRegionGpuModified(c + PAGE, PAGE));
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memory_track->FlushCachedWrites();
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REQUIRE(memory_track->IsRegionCpuModified(c + PAGE, PAGE));
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REQUIRE(!memory_track->IsRegionGpuModified(c + PAGE, PAGE));
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@ -23,8 +23,6 @@ BufferCache<P>::BufferCache(VideoCore::RasterizerInterface& rasterizer_,
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common_ranges.clear();
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inline_buffer_id = NULL_BUFFER_ID;
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active_async_buffers = !Settings::IsGPULevelHigh();
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if (!runtime.CanReportMemoryUsage()) {
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minimum_memory = DEFAULT_EXPECTED_MEMORY;
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critical_memory = DEFAULT_CRITICAL_MEMORY;
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@ -75,8 +73,6 @@ void BufferCache<P>::TickFrame() {
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uniform_cache_hits[0] = 0;
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uniform_cache_shots[0] = 0;
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active_async_buffers = !Settings::IsGPULevelHigh();
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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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@ -491,9 +487,8 @@ void BufferCache<P>::CommitAsyncFlushesHigh() {
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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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}
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async_buffers.emplace_back(std::optional<Async_Buffer>{});
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}
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return;
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}
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@ -554,64 +549,65 @@ void BufferCache<P>::CommitAsyncFlushesHigh() {
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committed_ranges.clear();
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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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}
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async_buffers.emplace_back(std::optional<Async_Buffer>{});
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}
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return;
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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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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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IntervalSet new_async_range{};
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runtime.PreCopyBarrier();
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for (auto& [copy, buffer_id] : downloads) {
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copy.dst_offset += download_staging.offset;
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const std::array copies{copy};
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BufferCopy second_copy{copy};
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Buffer& buffer = slot_buffers[buffer_id];
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second_copy.src_offset = static_cast<size_t>(buffer.CpuAddr()) + copy.src_offset;
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VAddr orig_cpu_addr = static_cast<VAddr>(second_copy.src_offset);
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const IntervalType base_interval{orig_cpu_addr, orig_cpu_addr + copy.size};
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async_downloads += std::make_pair(base_interval, 1);
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runtime.CopyBuffer(download_staging.buffer, buffer, copies, false);
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normalized_copies.push_back(second_copy);
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}
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runtime.PostCopyBarrier();
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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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} else {
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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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boost::container::small_vector<BufferCopy, 4> normalized_copies;
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IntervalSet new_async_range{};
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runtime.PreCopyBarrier();
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for (auto& [copy, buffer_id] : downloads) {
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copy.dst_offset += download_staging.offset;
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const std::array copies{copy};
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BufferCopy second_copy{copy};
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Buffer& buffer = slot_buffers[buffer_id];
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second_copy.src_offset = static_cast<size_t>(buffer.CpuAddr()) + copy.src_offset;
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VAddr orig_cpu_addr = static_cast<VAddr>(second_copy.src_offset);
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const IntervalType base_interval{orig_cpu_addr, orig_cpu_addr + copy.size};
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async_downloads += std::make_pair(base_interval, 1);
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runtime.CopyBuffer(download_staging.buffer, buffer, copies, false);
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normalized_copies.push_back(second_copy);
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}
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runtime.PostCopyBarrier();
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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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} else {
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if (!Settings::IsGPULevelHigh()) {
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committed_ranges.clear();
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uncommitted_ranges.clear();
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}
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} else {
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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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runtime.PreCopyBarrier();
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for (auto& [copy, buffer_id] : downloads) {
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// Have in mind the staging buffer offset for the copy
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copy.dst_offset += download_staging.offset;
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const std::array copies{copy};
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runtime.CopyBuffer(download_staging.buffer, slot_buffers[buffer_id], copies, false);
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}
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runtime.PostCopyBarrier();
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runtime.Finish();
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for (const auto& [copy, buffer_id] : downloads) {
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const Buffer& buffer = slot_buffers[buffer_id];
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const VAddr cpu_addr = buffer.CpuAddr() + copy.src_offset;
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// Undo the modified offset
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const u64 dst_offset = copy.dst_offset - download_staging.offset;
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const u8* read_mapped_memory = download_staging.mapped_span.data() + dst_offset;
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cpu_memory.WriteBlockUnsafe(cpu_addr, read_mapped_memory, copy.size);
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}
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} else {
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const std::span<u8> immediate_buffer = ImmediateBuffer(largest_copy);
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for (const auto& [copy, buffer_id] : downloads) {
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Buffer& buffer = slot_buffers[buffer_id];
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buffer.ImmediateDownload(copy.src_offset, immediate_buffer.subspan(0, copy.size));
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const VAddr cpu_addr = buffer.CpuAddr() + copy.src_offset;
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cpu_memory.WriteBlockUnsafe(cpu_addr, immediate_buffer.data(), copy.size);
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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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runtime.PreCopyBarrier();
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for (auto& [copy, buffer_id] : downloads) {
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// Have in mind the staging buffer offset for the copy
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copy.dst_offset += download_staging.offset;
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const std::array copies{copy};
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runtime.CopyBuffer(download_staging.buffer, slot_buffers[buffer_id], copies,
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false);
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}
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runtime.PostCopyBarrier();
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runtime.Finish();
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for (const auto& [copy, buffer_id] : downloads) {
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const Buffer& buffer = slot_buffers[buffer_id];
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const VAddr cpu_addr = buffer.CpuAddr() + copy.src_offset;
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// Undo the modified offset
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const u64 dst_offset = copy.dst_offset - download_staging.offset;
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const u8* read_mapped_memory = download_staging.mapped_span.data() + dst_offset;
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cpu_memory.WriteBlockUnsafe(cpu_addr, read_mapped_memory, copy.size);
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}
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} else {
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const std::span<u8> immediate_buffer = ImmediateBuffer(largest_copy);
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for (const auto& [copy, buffer_id] : downloads) {
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Buffer& buffer = slot_buffers[buffer_id];
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buffer.ImmediateDownload(copy.src_offset,
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immediate_buffer.subspan(0, copy.size));
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const VAddr cpu_addr = buffer.CpuAddr() + copy.src_offset;
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cpu_memory.WriteBlockUnsafe(cpu_addr, immediate_buffer.data(), copy.size);
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}
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}
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}
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}
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@ -572,8 +572,6 @@ private:
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u64 critical_memory = 0;
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BufferId inline_buffer_id;
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bool active_async_buffers = false;
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std::array<BufferId, ((1ULL << 39) >> CACHING_PAGEBITS)> page_table;
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std::vector<u8> tmp_buffer;
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};
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@ -302,6 +302,9 @@ public:
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(pending_pointer - pending_offset) * BYTES_PER_PAGE);
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};
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IterateWords(offset, size, [&](size_t index, u64 mask) {
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if constexpr (type == Type::GPU) {
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mask &= ~untracked_words[index];
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}
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const u64 word = state_words[index] & mask;
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if constexpr (clear) {
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if constexpr (type == Type::CPU || type == Type::CachedCPU) {
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@ -350,8 +353,13 @@ public:
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static_assert(type != Type::Untracked);
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const std::span<const u64> state_words = words.template Span<type>();
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[[maybe_unused]] const std::span<const u64> untracked_words =
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words.template Span<Type::Untracked>();
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bool result = false;
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IterateWords(offset, size, [&](size_t index, u64 mask) {
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if constexpr (type == Type::GPU) {
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mask &= ~untracked_words[index];
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}
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const u64 word = state_words[index] & mask;
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if (word != 0) {
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result = true;
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@ -372,9 +380,14 @@ public:
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[[nodiscard]] std::pair<u64, u64> ModifiedRegion(u64 offset, u64 size) const noexcept {
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static_assert(type != Type::Untracked);
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const std::span<const u64> state_words = words.template Span<type>();
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[[maybe_unused]] const std::span<const u64> untracked_words =
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words.template Span<Type::Untracked>();
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u64 begin = std::numeric_limits<u64>::max();
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u64 end = 0;
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IterateWords(offset, size, [&](size_t index, u64 mask) {
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if constexpr (type == Type::GPU) {
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mask &= ~untracked_words[index];
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}
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const u64 word = state_words[index] & mask;
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if (word == 0) {
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return;
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