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https://gitlab.com/suyu-emu/suyu.git
synced 2024-03-15 23:15:44 +00:00
texture_cache: Corrections, documentation and asserts
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parent
c0abc7124d
commit
88bc39374f
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@ -60,10 +60,10 @@ public:
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}
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}
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/**
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/***
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* `Guard` guarantees that rendertargets don't unregister themselves if the
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* collide. Protection is currently only done on 3D slices.
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**/
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***/
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void GuardRenderTargets(bool new_guard) {
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guard_render_targets = new_guard;
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}
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@ -191,19 +191,21 @@ public:
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}
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void SetEmptyDepthBuffer() {
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if (depth_buffer.target != nullptr) {
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depth_buffer.target->MarkAsRenderTarget(false);
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depth_buffer.target = nullptr;
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depth_buffer.view = nullptr;
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if (depth_buffer.target == nullptr) {
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return;
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}
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depth_buffer.target->MarkAsRenderTarget(false);
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depth_buffer.target = nullptr;
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depth_buffer.view = nullptr;
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}
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void SetEmptyColorBuffer(std::size_t index) {
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if (render_targets[index].target != nullptr) {
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render_targets[index].target->MarkAsRenderTarget(false);
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render_targets[index].target = nullptr;
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render_targets[index].view = nullptr;
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if (render_targets[index].target == nullptr) {
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return;
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}
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render_targets[index].target->MarkAsRenderTarget(false);
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render_targets[index].target = nullptr;
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render_targets[index].view = nullptr;
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}
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void DoFermiCopy(const Tegra::Engines::Fermi2D::Regs::Surface& src_config,
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@ -283,8 +285,8 @@ protected:
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gpu_addr);
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return;
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}
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bool continuouty = system.GPU().MemoryManager().IsBlockContinuous(gpu_addr, size);
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surface->MarkAsContinuous(continuouty);
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const bool continuous = system.GPU().MemoryManager().IsBlockContinuous(gpu_addr, size);
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surface->MarkAsContinuous(continuous);
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surface->SetCacheAddr(cache_ptr);
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surface->SetCpuAddr(*cpu_addr);
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RegisterInnerCache(surface);
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@ -381,8 +383,8 @@ private:
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const SurfaceParams& params, const GPUVAddr gpu_addr,
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const bool preserve_contents,
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const MatchTopologyResult untopological) {
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const bool do_load = Settings::values.use_accurate_gpu_emulation && preserve_contents;
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for (auto surface : overlaps) {
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const bool do_load = preserve_contents && Settings::values.use_accurate_gpu_emulation;
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for (auto& surface : overlaps) {
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Unregister(surface);
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}
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switch (PickStrategy(overlaps, params, gpu_addr, untopological)) {
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@ -394,7 +396,7 @@ private:
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[](const TSurface& a, const TSurface& b) -> bool {
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return a->GetModificationTick() < b->GetModificationTick();
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});
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for (auto surface : overlaps) {
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for (auto& surface : overlaps) {
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FlushSurface(surface);
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}
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return InitializeSurface(gpu_addr, params, preserve_contents);
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@ -460,19 +462,19 @@ private:
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const SurfaceParams& params, bool is_render) {
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const bool is_mirage = !current_surface->MatchFormat(params.pixel_format);
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const bool matches_target = current_surface->MatchTarget(params.target);
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auto match_check = ([&]() -> std::pair<TSurface, TView> {
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const auto match_check = ([&]() -> std::pair<TSurface, TView> {
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if (matches_target) {
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return {current_surface, current_surface->GetMainView()};
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}
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return {current_surface, current_surface->EmplaceOverview(params)};
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});
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if (is_mirage) {
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if (!is_render && siblings_table[current_surface->GetFormat()] == params.pixel_format) {
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return match_check();
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}
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return RebuildSurface(current_surface, params, is_render);
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if (!is_mirage) {
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return match_check();
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}
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return match_check();
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if (!is_render && siblings_table[current_surface->GetFormat()] == params.pixel_format) {
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return match_check();
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}
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return RebuildSurface(current_surface, params, is_render);
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}
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/**
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@ -493,7 +495,7 @@ private:
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bool modified = false;
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TSurface new_surface = GetUncachedSurface(gpu_addr, params);
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u32 passed_tests = 0;
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for (auto surface : overlaps) {
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for (auto& surface : overlaps) {
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const SurfaceParams& src_params = surface->GetSurfaceParams();
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if (src_params.is_layered || src_params.num_levels > 1) {
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// We send this cases to recycle as they are more complex to handle
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@ -504,8 +506,7 @@ private:
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if (!mipmap_layer) {
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continue;
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}
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const u32 layer{mipmap_layer->first};
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const u32 mipmap{mipmap_layer->second};
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const auto [layer, mipmap] = *mipmap_layer;
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if (new_surface->GetMipmapSize(mipmap) != candidate_size) {
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continue;
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}
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@ -519,7 +520,7 @@ private:
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}
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if (passed_tests == 0) {
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return {};
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// In Accurate GPU all test should pass, else we recycle
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// In Accurate GPU all tests should pass, else we recycle
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} else if (Settings::values.use_accurate_gpu_emulation && passed_tests != overlaps.size()) {
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return {};
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}
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@ -548,7 +549,6 @@ private:
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**/
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std::pair<TSurface, TView> GetSurface(const GPUVAddr gpu_addr, const SurfaceParams& params,
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bool preserve_contents, bool is_render) {
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const auto host_ptr{system.GPU().MemoryManager().GetPointer(gpu_addr)};
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const auto cache_addr{ToCacheAddr(host_ptr)};
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@ -570,17 +570,17 @@ private:
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auto iter = l1_cache.find(cache_addr);
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if (iter != l1_cache.end()) {
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TSurface& current_surface = iter->second;
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auto topological_result = current_surface->MatchesTopology(params);
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const auto topological_result = current_surface->MatchesTopology(params);
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if (topological_result != MatchTopologyResult::FullMatch) {
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std::vector<TSurface> overlaps{current_surface};
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return RecycleSurface(overlaps, params, gpu_addr, preserve_contents,
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topological_result);
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}
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MatchStructureResult s_result = current_surface->MatchesStructure(params);
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if (s_result != MatchStructureResult::None &&
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const auto struct_result = current_surface->MatchesStructure(params);
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if (struct_result != MatchStructureResult::None &&
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(params.target != SurfaceTarget::Texture3D ||
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current_surface->MatchTarget(params.target))) {
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if (s_result == MatchStructureResult::FullMatch) {
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if (struct_result == MatchStructureResult::FullMatch) {
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return ManageStructuralMatch(current_surface, params, is_render);
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} else {
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return RebuildSurface(current_surface, params, is_render);
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@ -602,8 +602,8 @@ private:
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// Now we need to figure the relationship between the texture and its overlaps
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// we do a topological test to ensure we can find some relationship. If it fails
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// inmediatly recycle the texture
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for (auto surface : overlaps) {
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auto topological_result = surface->MatchesTopology(params);
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for (const auto& surface : overlaps) {
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const auto topological_result = surface->MatchesTopology(params);
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if (topological_result != MatchTopologyResult::FullMatch) {
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return RecycleSurface(overlaps, params, gpu_addr, preserve_contents,
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topological_result);
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@ -620,7 +620,7 @@ private:
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if (current_surface->GetGpuAddr() == gpu_addr) {
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std::optional<std::pair<TSurface, TView>> view =
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TryReconstructSurface(overlaps, params, gpu_addr);
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if (view.has_value()) {
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if (view) {
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return *view;
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}
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}
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@ -630,7 +630,7 @@ private:
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// Now we check if the candidate is a mipmap/layer of the overlap
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std::optional<TView> view =
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current_surface->EmplaceView(params, gpu_addr, candidate_size);
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if (view.has_value()) {
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if (view) {
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const bool is_mirage = !current_surface->MatchFormat(params.pixel_format);
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if (is_mirage) {
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// On a mirage view, we need to recreate the surface under this new view
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@ -669,7 +669,7 @@ private:
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// using the overlaps. If a single overlap fails, this will fail.
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std::optional<std::pair<TSurface, TView>> view =
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TryReconstructSurface(overlaps, params, gpu_addr);
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if (view.has_value()) {
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if (view) {
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return *view;
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}
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}
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@ -738,16 +738,16 @@ private:
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std::vector<TSurface> surfaces;
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while (start <= end) {
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std::vector<TSurface>& list = registry[start];
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for (auto& s : list) {
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if (!s->IsPicked() && s->Overlaps(cache_addr, cache_addr_end)) {
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s->MarkAsPicked(true);
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surfaces.push_back(s);
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for (auto& surface : list) {
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if (!surface->IsPicked() && surface->Overlaps(cache_addr, cache_addr_end)) {
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surface->MarkAsPicked(true);
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surfaces.push_back(surface);
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}
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}
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start++;
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}
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for (auto& s : surfaces) {
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s->MarkAsPicked(false);
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for (auto& surface : surfaces) {
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surface->MarkAsPicked(false);
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}
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return surfaces;
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}
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