mirror of
https://github.com/yuzu-emu/yuzu-mainline.git
synced 2024-12-12 17:24:24 +01:00
texture_cache: Reintroduce preserve_contents accurately
This reverts commit 94b0e2e5da
.
preserve_contents proved to be a meaningful optimization. This commit
reintroduces it but properly implemented on OpenGL.
We have to make sure the clear removes all the previous contents of the
image.
It's not currently implemented on Vulkan because we can do smart things
there that's preferred to be introduced in a separate commit.
This commit is contained in:
parent
378aed07e9
commit
8da16cf9fb
@ -348,7 +348,7 @@ void RasterizerOpenGL::ConfigureFramebuffers() {
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texture_cache.GuardRenderTargets(true);
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View depth_surface = texture_cache.GetDepthBufferSurface();
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View depth_surface = texture_cache.GetDepthBufferSurface(true);
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const auto& regs = gpu.regs;
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UNIMPLEMENTED_IF(regs.rt_separate_frag_data == 0);
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@ -357,7 +357,7 @@ void RasterizerOpenGL::ConfigureFramebuffers() {
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FramebufferCacheKey key;
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const auto colors_count = static_cast<std::size_t>(regs.rt_control.count);
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for (std::size_t index = 0; index < colors_count; ++index) {
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View color_surface{texture_cache.GetColorBufferSurface(index)};
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View color_surface{texture_cache.GetColorBufferSurface(index, true)};
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if (!color_surface) {
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continue;
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}
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@ -381,28 +381,52 @@ void RasterizerOpenGL::ConfigureFramebuffers() {
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glBindFramebuffer(GL_DRAW_FRAMEBUFFER, framebuffer_cache.GetFramebuffer(key));
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}
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void RasterizerOpenGL::ConfigureClearFramebuffer(bool using_color_fb, bool using_depth_fb,
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bool using_stencil_fb) {
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void RasterizerOpenGL::ConfigureClearFramebuffer(bool using_color, bool using_depth_stencil) {
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auto& gpu = system.GPU().Maxwell3D();
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const auto& regs = gpu.regs;
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texture_cache.GuardRenderTargets(true);
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View color_surface;
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if (using_color_fb) {
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if (using_color) {
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// Determine if we have to preserve the contents.
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// First we have to make sure all clear masks are enabled.
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bool preserve_contents = !regs.clear_buffers.R || !regs.clear_buffers.G ||
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!regs.clear_buffers.B || !regs.clear_buffers.A;
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const std::size_t index = regs.clear_buffers.RT;
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color_surface = texture_cache.GetColorBufferSurface(index);
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if (regs.clear_flags.scissor) {
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// Then we have to confirm scissor testing clears the whole image.
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const auto& scissor = regs.scissor_test[0];
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preserve_contents |= scissor.min_x > 0;
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preserve_contents |= scissor.min_y > 0;
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preserve_contents |= scissor.max_x < regs.rt[index].width;
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preserve_contents |= scissor.max_y < regs.rt[index].height;
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}
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color_surface = texture_cache.GetColorBufferSurface(index, preserve_contents);
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texture_cache.MarkColorBufferInUse(index);
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}
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View depth_surface;
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if (using_depth_fb || using_stencil_fb) {
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depth_surface = texture_cache.GetDepthBufferSurface();
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if (using_depth_stencil) {
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bool preserve_contents = false;
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if (regs.clear_flags.scissor) {
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// For depth stencil clears we only have to confirm scissor test covers the whole image.
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const auto& scissor = regs.scissor_test[0];
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preserve_contents |= scissor.min_x > 0;
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preserve_contents |= scissor.min_y > 0;
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preserve_contents |= scissor.max_x < regs.zeta_width;
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preserve_contents |= scissor.max_y < regs.zeta_height;
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}
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depth_surface = texture_cache.GetDepthBufferSurface(preserve_contents);
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texture_cache.MarkDepthBufferInUse();
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}
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texture_cache.GuardRenderTargets(false);
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FramebufferCacheKey key;
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key.colors[0] = color_surface;
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key.zeta = depth_surface;
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key.colors[0] = std::move(color_surface);
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key.zeta = std::move(depth_surface);
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state_tracker.NotifyFramebuffer();
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glBindFramebuffer(GL_DRAW_FRAMEBUFFER, framebuffer_cache.GetFramebuffer(key));
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@ -422,8 +446,7 @@ void RasterizerOpenGL::Clear() {
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if (regs.clear_buffers.R || regs.clear_buffers.G || regs.clear_buffers.B ||
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regs.clear_buffers.A) {
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use_color = true;
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}
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if (use_color) {
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state_tracker.NotifyColorMask0();
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glColorMaski(0, regs.clear_buffers.R != 0, regs.clear_buffers.G != 0,
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regs.clear_buffers.B != 0, regs.clear_buffers.A != 0);
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@ -461,7 +484,7 @@ void RasterizerOpenGL::Clear() {
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UNIMPLEMENTED_IF(regs.clear_flags.viewport);
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ConfigureClearFramebuffer(use_color, use_depth, use_stencil);
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ConfigureClearFramebuffer(use_color, use_depth || use_stencil);
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if (use_color) {
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glClearBufferfv(GL_COLOR, 0, regs.clear_color);
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@ -95,7 +95,8 @@ private:
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/// Configures the color and depth framebuffer states.
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void ConfigureFramebuffers();
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void ConfigureClearFramebuffer(bool using_color_fb, bool using_depth_fb, bool using_stencil_fb);
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/// Configures the color and depth framebuffer for clearing.
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void ConfigureClearFramebuffer(bool using_color, bool using_depth_stencil);
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/// Configures the current constbuffers to use for the draw command.
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void SetupDrawConstBuffers(std::size_t stage_index, const Shader& shader);
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@ -652,7 +652,7 @@ RasterizerVulkan::Texceptions RasterizerVulkan::UpdateAttachments() {
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Texceptions texceptions;
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for (std::size_t rt = 0; rt < Maxwell::NumRenderTargets; ++rt) {
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if (update_rendertargets) {
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color_attachments[rt] = texture_cache.GetColorBufferSurface(rt);
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color_attachments[rt] = texture_cache.GetColorBufferSurface(rt, true);
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}
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if (color_attachments[rt] && WalkAttachmentOverlaps(*color_attachments[rt])) {
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texceptions[rt] = true;
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@ -660,7 +660,7 @@ RasterizerVulkan::Texceptions RasterizerVulkan::UpdateAttachments() {
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}
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if (update_rendertargets) {
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zeta_attachment = texture_cache.GetDepthBufferSurface();
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zeta_attachment = texture_cache.GetDepthBufferSurface(true);
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}
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if (zeta_attachment && WalkAttachmentOverlaps(*zeta_attachment)) {
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texceptions[ZETA_TEXCEPTION_INDEX] = true;
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@ -143,7 +143,7 @@ public:
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}
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const auto params{SurfaceParams::CreateForTexture(format_lookup_table, tic, entry)};
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const auto [surface, view] = GetSurface(gpu_addr, *cpu_addr, params, false);
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const auto [surface, view] = GetSurface(gpu_addr, *cpu_addr, params, true, false);
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if (guard_samplers) {
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sampled_textures.push_back(surface);
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}
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@ -163,7 +163,7 @@ public:
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return GetNullSurface(SurfaceParams::ExpectedTarget(entry));
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}
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const auto params{SurfaceParams::CreateForImage(format_lookup_table, tic, entry)};
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const auto [surface, view] = GetSurface(gpu_addr, *cpu_addr, params, false);
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const auto [surface, view] = GetSurface(gpu_addr, *cpu_addr, params, true, false);
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if (guard_samplers) {
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sampled_textures.push_back(surface);
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}
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@ -178,7 +178,7 @@ public:
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return any_rt;
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}
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TView GetDepthBufferSurface() {
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TView GetDepthBufferSurface(bool preserve_contents) {
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std::lock_guard lock{mutex};
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auto& maxwell3d = system.GPU().Maxwell3D();
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if (!maxwell3d.dirty.flags[VideoCommon::Dirty::ZetaBuffer]) {
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@ -199,7 +199,7 @@ public:
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return {};
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}
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const auto depth_params{SurfaceParams::CreateForDepthBuffer(system)};
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auto surface_view = GetSurface(gpu_addr, *cpu_addr, depth_params, true);
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auto surface_view = GetSurface(gpu_addr, *cpu_addr, depth_params, preserve_contents, true);
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if (depth_buffer.target)
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depth_buffer.target->MarkAsRenderTarget(false, NO_RT);
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depth_buffer.target = surface_view.first;
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@ -209,7 +209,7 @@ public:
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return surface_view.second;
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}
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TView GetColorBufferSurface(std::size_t index) {
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TView GetColorBufferSurface(std::size_t index, bool preserve_contents) {
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std::lock_guard lock{mutex};
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ASSERT(index < Tegra::Engines::Maxwell3D::Regs::NumRenderTargets);
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auto& maxwell3d = system.GPU().Maxwell3D();
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@ -239,8 +239,9 @@ public:
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return {};
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}
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auto surface_view = GetSurface(gpu_addr, *cpu_addr,
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SurfaceParams::CreateForFramebuffer(system, index), true);
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auto surface_view =
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GetSurface(gpu_addr, *cpu_addr, SurfaceParams::CreateForFramebuffer(system, index),
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preserve_contents, true);
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if (render_targets[index].target) {
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auto& surface = render_targets[index].target;
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surface->MarkAsRenderTarget(false, NO_RT);
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@ -300,9 +301,9 @@ public:
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const std::optional<VAddr> src_cpu_addr =
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system.GPU().MemoryManager().GpuToCpuAddress(src_gpu_addr);
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std::pair<TSurface, TView> dst_surface =
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GetSurface(dst_gpu_addr, *dst_cpu_addr, dst_params, false);
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GetSurface(dst_gpu_addr, *dst_cpu_addr, dst_params, true, false);
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std::pair<TSurface, TView> src_surface =
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GetSurface(src_gpu_addr, *src_cpu_addr, src_params, false);
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GetSurface(src_gpu_addr, *src_cpu_addr, src_params, true, false);
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ImageBlit(src_surface.second, dst_surface.second, copy_config);
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dst_surface.first->MarkAsModified(true, Tick());
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}
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@ -532,18 +533,22 @@ private:
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* @param overlaps The overlapping surfaces registered in the cache.
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* @param params The parameters for the new surface.
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* @param gpu_addr The starting address of the new surface.
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* @param preserve_contents Indicates that the new surface should be loaded from memory or left
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* blank.
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* @param untopological Indicates to the recycler that the texture has no way to match the
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* overlaps due to topological reasons.
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**/
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std::pair<TSurface, TView> RecycleSurface(std::vector<TSurface>& overlaps,
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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 = preserve_contents && Settings::IsGPULevelExtreme();
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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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case RecycleStrategy::Ignore: {
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return InitializeSurface(gpu_addr, params, Settings::IsGPULevelExtreme());
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return InitializeSurface(gpu_addr, params, do_load);
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}
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case RecycleStrategy::Flush: {
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std::sort(overlaps.begin(), overlaps.end(),
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@ -553,7 +558,7 @@ private:
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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);
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return InitializeSurface(gpu_addr, params, preserve_contents);
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}
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case RecycleStrategy::BufferCopy: {
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auto new_surface = GetUncachedSurface(gpu_addr, params);
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@ -562,7 +567,7 @@ private:
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}
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default: {
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UNIMPLEMENTED_MSG("Unimplemented Texture Cache Recycling Strategy!");
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return InitializeSurface(gpu_addr, params);
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return InitializeSurface(gpu_addr, params, do_load);
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}
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}
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}
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@ -700,11 +705,14 @@ private:
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* @param params The parameters on the new surface.
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* @param gpu_addr The starting address of the new surface.
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* @param cpu_addr The starting address of the new surface on physical memory.
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* @param preserve_contents Indicates that the new surface should be loaded from memory or
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* left blank.
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*/
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std::optional<std::pair<TSurface, TView>> Manage3DSurfaces(std::vector<TSurface>& overlaps,
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const SurfaceParams& params,
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const GPUVAddr gpu_addr,
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const VAddr cpu_addr) {
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const VAddr cpu_addr,
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bool preserve_contents) {
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if (params.target == SurfaceTarget::Texture3D) {
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bool failed = false;
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if (params.num_levels > 1) {
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@ -754,7 +762,7 @@ private:
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return std::nullopt;
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}
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Unregister(surface);
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return InitializeSurface(gpu_addr, params);
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return InitializeSurface(gpu_addr, params, preserve_contents);
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}
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return std::nullopt;
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}
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@ -765,7 +773,7 @@ private:
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return {{surface, surface->GetMainView()}};
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}
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}
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return InitializeSurface(gpu_addr, params);
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return InitializeSurface(gpu_addr, params, preserve_contents);
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}
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}
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@ -788,10 +796,13 @@ private:
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*
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* @param gpu_addr The starting address of the candidate surface.
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* @param params The parameters on the candidate surface.
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* @param preserve_contents Indicates that the new surface should be loaded from memory or
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* left blank.
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* @param is_render Whether or not the surface is a render target.
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**/
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std::pair<TSurface, TView> GetSurface(const GPUVAddr gpu_addr, const VAddr cpu_addr,
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const SurfaceParams& params, bool is_render) {
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const SurfaceParams& params, bool preserve_contents,
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bool is_render) {
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// Step 1
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// Check Level 1 Cache for a fast structural match. If candidate surface
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// matches at certain level we are pretty much done.
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@ -800,7 +811,8 @@ private:
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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, topological_result);
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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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const auto struct_result = current_surface->MatchesStructure(params);
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@ -825,7 +837,7 @@ private:
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// If none are found, we are done. we just load the surface and create it.
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if (overlaps.empty()) {
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return InitializeSurface(gpu_addr, params);
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return InitializeSurface(gpu_addr, params, preserve_contents);
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}
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// Step 3
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@ -835,13 +847,15 @@ private:
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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, topological_result);
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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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}
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// Check if it's a 3D texture
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if (params.block_depth > 0) {
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auto surface = Manage3DSurfaces(overlaps, params, gpu_addr, cpu_addr);
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auto surface =
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Manage3DSurfaces(overlaps, params, gpu_addr, cpu_addr, preserve_contents);
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if (surface) {
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return *surface;
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}
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@ -861,7 +875,8 @@ private:
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return *view;
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}
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}
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return RecycleSurface(overlaps, params, gpu_addr, MatchTopologyResult::FullMatch);
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return RecycleSurface(overlaps, params, gpu_addr, preserve_contents,
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MatchTopologyResult::FullMatch);
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}
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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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@ -885,7 +900,7 @@ private:
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pair.first->EmplaceView(params, gpu_addr, candidate_size);
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if (mirage_view)
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return {pair.first, *mirage_view};
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return RecycleSurface(overlaps, params, gpu_addr,
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return RecycleSurface(overlaps, params, gpu_addr, preserve_contents,
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MatchTopologyResult::FullMatch);
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}
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return {current_surface, *view};
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@ -901,7 +916,8 @@ private:
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}
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}
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// We failed all the tests, recycle the overlaps into a new texture.
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return RecycleSurface(overlaps, params, gpu_addr, MatchTopologyResult::FullMatch);
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return RecycleSurface(overlaps, params, gpu_addr, preserve_contents,
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MatchTopologyResult::FullMatch);
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}
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/**
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@ -1059,10 +1075,10 @@ private:
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}
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std::pair<TSurface, TView> InitializeSurface(GPUVAddr gpu_addr, const SurfaceParams& params,
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bool do_load = true) {
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bool preserve_contents) {
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auto new_surface{GetUncachedSurface(gpu_addr, params)};
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Register(new_surface);
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if (do_load) {
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if (preserve_contents) {
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LoadSurface(new_surface);
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}
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return {new_surface, new_surface->GetMainView()};
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