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accelerateDMA: Fixes and feedback.
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@ -202,6 +202,36 @@ private:
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}
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}
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template <typename Func>
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void ForEachWrittenRange(VAddr cpu_addr, u64 size, Func&& func) {
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const VAddr start_address = cpu_addr;
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const VAddr end_address = start_address + size;
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const VAddr search_base =
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static_cast<VAddr>(std::min<s64>(0LL, static_cast<s64>(start_address - size)));
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const IntervalType search_interval{search_base, search_base + 1};
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auto it = common_ranges.lower_bound(search_interval);
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if (it == common_ranges.end()) {
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it = common_ranges.begin();
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}
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for (; it != common_ranges.end(); it++) {
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VAddr inter_addr_end = it->upper();
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VAddr inter_addr = it->lower();
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if (inter_addr >= end_address) {
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break;
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}
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if (inter_addr_end <= start_address) {
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continue;
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}
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if (inter_addr_end > end_address) {
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inter_addr_end = end_address;
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}
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if (inter_addr < start_address) {
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inter_addr = start_address;
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}
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func(inter_addr, inter_addr_end);
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}
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}
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static bool IsRangeGranular(VAddr cpu_addr, size_t size) {
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return (cpu_addr & ~Core::Memory::PAGE_MASK) ==
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((cpu_addr + size) & ~Core::Memory::PAGE_MASK);
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@ -441,12 +471,15 @@ bool BufferCache<P>::DMACopy(GPUVAddr src_address, GPUVAddr dest_address, u64 am
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}
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const bool source_dirty = IsRegionGpuModified(*cpu_src_address, amount);
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const bool dest_dirty = IsRegionGpuModified(*cpu_dest_address, amount);
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if (!(source_dirty || dest_dirty)) {
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if (!source_dirty && !dest_dirty) {
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return false;
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}
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const IntervalType subtract_interval{*cpu_dest_address, *cpu_dest_address + amount};
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common_ranges.subtract(subtract_interval);
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uncommitted_ranges.subtract(subtract_interval);
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for (auto& interval_set : committed_ranges) {
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interval_set.subtract(subtract_interval);
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}
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BufferId buffer_a;
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BufferId buffer_b;
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@ -457,46 +490,28 @@ bool BufferCache<P>::DMACopy(GPUVAddr src_address, GPUVAddr dest_address, u64 am
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} while (has_deleted_buffers);
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auto& src_buffer = slot_buffers[buffer_a];
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auto& dest_buffer = slot_buffers[buffer_b];
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SynchronizeBuffer(src_buffer, *cpu_src_address, amount);
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SynchronizeBuffer(dest_buffer, *cpu_dest_address, amount);
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SynchronizeBuffer(src_buffer, *cpu_src_address, static_cast<u32>(amount));
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SynchronizeBuffer(dest_buffer, *cpu_dest_address, static_cast<u32>(amount));
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std::array copies{BufferCopy{
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.src_offset = src_buffer.Offset(*cpu_src_address),
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.dst_offset = dest_buffer.Offset(*cpu_dest_address),
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.size = amount,
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}};
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auto mirror = [&](VAddr base_address, u64 size) {
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VAddr diff = base_address - *cpu_src_address;
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VAddr new_base_address = *cpu_dest_address + diff;
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boost::container::small_vector<IntervalType, 4> tmp_intervals;
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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 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 IntervalType add_interval{new_base_address, new_base_address + size};
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common_ranges.add(add_interval);
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uncommitted_ranges.add(add_interval);
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tmp_intervals.push_back(add_interval);
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};
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const VAddr start_address = *cpu_src_address;
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const VAddr end_address = start_address + amount;
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const IntervalType search_interval{start_address - amount, 1};
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auto it = common_ranges.lower_bound(search_interval);
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if (it == common_ranges.end()) {
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it = common_ranges.begin();
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}
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while (it != common_ranges.end()) {
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VAddr inter_addr_end = it->upper();
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VAddr inter_addr = it->lower();
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if (inter_addr >= end_address) {
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break;
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}
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if (inter_addr_end <= start_address) {
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it++;
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continue;
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}
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if (inter_addr_end > end_address) {
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inter_addr_end = end_address;
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}
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if (inter_addr < start_address) {
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inter_addr = start_address;
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}
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mirror(inter_addr, inter_addr_end - inter_addr);
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it++;
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ForEachWrittenRange(*cpu_src_address, amount, mirror);
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// This subtraction in this order is important for overlapping copies.
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common_ranges.subtract(subtract_interval);
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for (const IntervalType add_interval : tmp_intervals) {
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common_ranges.add(add_interval);
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}
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runtime.CopyBuffer(dest_buffer, src_buffer, copies);
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@ -695,30 +710,7 @@ void BufferCache<P>::CommitAsyncFlushesHigh() {
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const VAddr start_address = buffer_addr + range_offset;
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const VAddr end_address = start_address + range_size;
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const IntervalType search_interval{cpu_addr, 1};
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auto it = common_ranges.lower_bound(search_interval);
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if (it == common_ranges.end()) {
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it = common_ranges.begin();
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}
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while (it != common_ranges.end()) {
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VAddr inter_addr_end = it->upper();
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VAddr inter_addr = it->lower();
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if (inter_addr >= end_address) {
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break;
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}
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if (inter_addr_end <= start_address) {
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it++;
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continue;
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}
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if (inter_addr_end > end_address) {
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inter_addr_end = end_address;
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}
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if (inter_addr < start_address) {
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inter_addr = start_address;
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}
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add_download(inter_addr, inter_addr_end);
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it++;
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}
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ForEachWrittenRange(start_address, range_size, add_download);
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const IntervalType subtract_interval{start_address, end_address};
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common_ranges.subtract(subtract_interval);
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});
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@ -816,7 +808,9 @@ void BufferCache<P>::BindHostIndexBuffer() {
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const u32 size = index_buffer.size;
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SynchronizeBuffer(buffer, index_buffer.cpu_addr, size);
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if constexpr (HAS_FULL_INDEX_AND_PRIMITIVE_SUPPORT) {
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runtime.BindIndexBuffer(buffer, offset, size);
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const u32 new_offset = offset + maxwell3d.regs.index_array.first *
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maxwell3d.regs.index_array.FormatSizeInBytes();
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runtime.BindIndexBuffer(buffer, new_offset, size);
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} else {
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runtime.BindIndexBuffer(maxwell3d.regs.draw.topology, maxwell3d.regs.index_array.format,
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maxwell3d.regs.index_array.first, maxwell3d.regs.index_array.count,
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@ -1429,30 +1423,7 @@ void BufferCache<P>::DownloadBufferMemory(Buffer& buffer, VAddr cpu_addr, u64 si
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const VAddr start_address = buffer_addr + range_offset;
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const VAddr end_address = start_address + range_size;
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const IntervalType search_interval{start_address - range_size, 1};
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auto it = common_ranges.lower_bound(search_interval);
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if (it == common_ranges.end()) {
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it = common_ranges.begin();
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}
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while (it != common_ranges.end()) {
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VAddr inter_addr_end = it->upper();
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VAddr inter_addr = it->lower();
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if (inter_addr >= end_address) {
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break;
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}
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if (inter_addr_end <= start_address) {
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it++;
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continue;
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}
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if (inter_addr_end > end_address) {
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inter_addr_end = end_address;
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}
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if (inter_addr < start_address) {
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inter_addr = start_address;
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}
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add_download(inter_addr, inter_addr_end);
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it++;
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}
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ForEachWrittenRange(start_address, range_size, add_download);
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const IntervalType subtract_interval{start_address, end_address};
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common_ranges.subtract(subtract_interval);
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});
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@ -10,13 +10,15 @@
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#include <stop_token>
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#include "common/common_types.h"
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#include "video_core/engines/fermi_2d.h"
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#include "video_core/engines/maxwell_dma.h"
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#include "video_core/gpu.h"
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#include "video_core/guest_driver.h"
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namespace Tegra {
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class MemoryManager;
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namespace Engines {
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class AccelerateDMAInterface;
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}
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} // namespace Tegra
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namespace VideoCore {
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@ -13,6 +13,7 @@
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#include <boost/container/static_vector.hpp>
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#include "common/common_types.h"
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#include "video_core/engines/maxwell_dma.h"
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#include "video_core/rasterizer_accelerated.h"
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#include "video_core/rasterizer_interface.h"
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#include "video_core/renderer_vulkan/blit_image.h"
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@ -51,12 +52,12 @@ class StateTracker;
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class AccelerateDMA : public Tegra::Engines::AccelerateDMAInterface {
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public:
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explicit AccelerateDMA(BufferCache& buffer_cache);
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explicit AccelerateDMA(BufferCache& buffer_cache);
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bool BufferCopy(GPUVAddr start_address, GPUVAddr end_address, u64 amount) override;
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bool BufferCopy(GPUVAddr start_address, GPUVAddr end_address, u64 amount) override;
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private:
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BufferCache& buffer_cache;
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private:
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BufferCache& buffer_cache;
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};
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class RasterizerVulkan final : public VideoCore::RasterizerAccelerated {
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