// Copyright 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef COMPONENTS_VIZ_SERVICE_DISPLAY_DIRECT_RENDERER_H_ #define COMPONENTS_VIZ_SERVICE_DISPLAY_DIRECT_RENDERER_H_ #include #include #include "base/callback.h" #include "base/containers/circular_deque.h" #include "base/containers/flat_map.h" #include "base/macros.h" #include "components/viz/common/quads/tile_draw_quad.h" #include "components/viz/service/display/ca_layer_overlay.h" #include "components/viz/service/display/dc_layer_overlay.h" #include "components/viz/service/display/display_resource_provider.h" #include "components/viz/service/display/overlay_processor.h" #include "components/viz/service/viz_service_export.h" #include "gpu/command_buffer/common/texture_in_use_response.h" #include "ui/gfx/geometry/quad_f.h" #include "ui/gfx/geometry/rect.h" #include "ui/latency/latency_info.h" namespace cc { class FilterOperations; } // namespace cc namespace gfx { class ColorSpace; } namespace viz { class BspWalkActionDrawPolygon; class DrawPolygon; class OutputSurface; class RendererSettings; class RenderPass; // This is the base class for code shared between the GL and software // renderer implementations. "Direct" refers to the fact that it does not // delegate rendering to another compositor (see historical DelegatingRenderer // for reference). class VIZ_SERVICE_EXPORT DirectRenderer { public: DirectRenderer(const RendererSettings* settings, OutputSurface* output_surface, DisplayResourceProvider* resource_provider); virtual ~DirectRenderer(); void Initialize(); bool use_partial_swap() const { return use_partial_swap_; } void SetVisible(bool visible); void DecideRenderPassAllocationsForFrame( const RenderPassList& render_passes_in_draw_order); void DrawFrame(RenderPassList* render_passes_in_draw_order, float device_scale_factor, const gfx::Size& device_viewport_size); // Public interface implemented by subclasses. virtual void SwapBuffers(std::vector latency_info, bool need_presentation_feedback) = 0; virtual void SwapBuffersComplete() {} virtual void DidReceiveTextureInUseResponses( const gpu::TextureInUseResponses& responses) {} // Public for tests that poke at internals. struct VIZ_SERVICE_EXPORT DrawingFrame { DrawingFrame(); ~DrawingFrame(); const RenderPassList* render_passes_in_draw_order = nullptr; const RenderPass* root_render_pass = nullptr; const RenderPass* current_render_pass = nullptr; gfx::Rect root_damage_rect; std::vector root_content_bounds; gfx::Size device_viewport_size; gfx::Transform projection_matrix; gfx::Transform window_matrix; OverlayCandidateList overlay_list; CALayerOverlayList ca_layer_overlay_list; DCLayerOverlayList dc_layer_overlay_list; }; void SetCurrentFrameForTesting(const DrawingFrame& frame); bool HasAllocatedResourcesForTesting( const RenderPassId& render_pass_id) const; // Allow tests to enlarge the texture size of non-root render passes to // verify cases where the texture doesn't match the render pass size. void SetEnlargePassTextureAmountForTesting(const gfx::Size& amount) { enlarge_pass_texture_amount_ = amount; } protected: friend class BspWalkActionDrawPolygon; enum SurfaceInitializationMode { SURFACE_INITIALIZATION_MODE_PRESERVE, SURFACE_INITIALIZATION_MODE_SCISSORED_CLEAR, SURFACE_INITIALIZATION_MODE_FULL_SURFACE_CLEAR, }; struct RenderPassRequirements { gfx::Size size; bool mipmap = false; }; static gfx::RectF QuadVertexRect(); static void QuadRectTransform(gfx::Transform* quad_rect_transform, const gfx::Transform& quad_transform, const gfx::RectF& quad_rect); // This function takes DrawingFrame as an argument because RenderPass drawing // code uses its computations for buffer sizing. void InitializeViewport(DrawingFrame* frame, const gfx::Rect& draw_rect, const gfx::Rect& viewport_rect, const gfx::Size& surface_size); gfx::Rect MoveFromDrawToWindowSpace(const gfx::Rect& draw_rect) const; gfx::Rect DeviceViewportRectInDrawSpace() const; gfx::Rect OutputSurfaceRectInDrawSpace() const; void SetScissorStateForQuad(const DrawQuad& quad, const gfx::Rect& render_pass_scissor, bool use_render_pass_scissor); bool ShouldSkipQuad(const DrawQuad& quad, const gfx::Rect& render_pass_scissor); void SetScissorTestRectInDrawSpace(const gfx::Rect& draw_space_rect); gfx::Size CalculateTextureSizeForRenderPass(const RenderPass* render_pass); void FlushPolygons( base::circular_deque>* poly_list, const gfx::Rect& render_pass_scissor, bool use_render_pass_scissor); void DrawRenderPassAndExecuteCopyRequests(RenderPass* render_pass); void DrawRenderPass(const RenderPass* render_pass); // Returns true if it detects that we do not need to draw the render pass. // This may be because the RenderPass is already cached, or because it is // entirely clipped out, for instance. bool CanSkipRenderPass(const RenderPass* render_pass) const; void UseRenderPass(const RenderPass* render_pass); gfx::Rect ComputeScissorRectForRenderPass( const RenderPass* render_pass) const; void DoDrawPolygon(const DrawPolygon& poly, const gfx::Rect& render_pass_scissor, bool use_render_pass_scissor); const cc::FilterOperations* FiltersForPass(RenderPassId render_pass_id) const; const cc::FilterOperations* BackgroundFiltersForPass( RenderPassId render_pass_id) const; // Private interface implemented by subclasses for use by DirectRenderer. virtual bool CanPartialSwap() = 0; virtual void UpdateRenderPassTextures( const RenderPassList& render_passes_in_draw_order, const base::flat_map& render_passes_in_frame) = 0; virtual void AllocateRenderPassResourceIfNeeded( const RenderPassId& render_pass_id, const RenderPassRequirements& requirements) = 0; virtual bool IsRenderPassResourceAllocated( const RenderPassId& render_pass_id) const = 0; virtual gfx::Size GetRenderPassBackingPixelSize( const RenderPassId& render_pass_id) = 0; virtual void BindFramebufferToOutputSurface() = 0; virtual void BindFramebufferToTexture(const RenderPassId render_pass_id) = 0; virtual void SetScissorTestRect(const gfx::Rect& scissor_rect) = 0; virtual void PrepareSurfaceForPass( SurfaceInitializationMode initialization_mode, const gfx::Rect& render_pass_scissor) = 0; // |clip_region| is a (possibly null) pointer to a quad in the same // space as the quad. When non-null only the area of the quad that overlaps // with clip_region will be drawn. virtual void DoDrawQuad(const DrawQuad* quad, const gfx::QuadF* clip_region) = 0; virtual void BeginDrawingFrame() = 0; virtual void FinishDrawingFrame() = 0; // If a pass contains a single tile draw quad and can be drawn without // a render pass (e.g. applying a filter directly to the tile quad) // return that quad, otherwise return null. virtual const TileDrawQuad* CanPassBeDrawnDirectly(const RenderPass* pass); virtual void FinishDrawingQuadList() {} virtual bool FlippedFramebuffer() const = 0; virtual void EnsureScissorTestEnabled() = 0; virtual void EnsureScissorTestDisabled() = 0; virtual void DidChangeVisibility() = 0; virtual void CopyDrawnRenderPass( std::unique_ptr request) = 0; virtual void SetEnableDCLayers(bool enable) = 0; virtual void GenerateMipmap() = 0; gfx::Size surface_size_for_swap_buffers() const { return reshape_surface_size_; } const RendererSettings* const settings_; OutputSurface* const output_surface_; DisplayResourceProvider* const resource_provider_; // This can be replaced by test implementations. std::unique_ptr overlay_processor_; // Whether it's valid to SwapBuffers with an empty rect. Trivially true when // using partial swap. bool allow_empty_swap_ = false; // Whether partial swap can be used. bool use_partial_swap_ = false; // Whether overdraw feedback is enabled and can be used. bool overdraw_feedback_ = false; // Whether the SetDrawRectangle and EnableDCLayers commands are in // use. bool supports_dc_layers_ = false; // Whether the output surface is actually using DirectComposition. bool using_dc_layers_ = false; // This counts the number of draws since the last time // DirectComposition layers needed to be used. int frames_since_using_dc_layers_ = 0; // A map from RenderPass id to the single quad present in and replacing the // RenderPass. base::flat_map render_pass_bypass_quads_; // A map from RenderPass id to the filters used when drawing the RenderPass. base::flat_map render_pass_filters_; base::flat_map render_pass_background_filters_; bool visible_ = false; bool disable_color_checks_for_testing_ = false; // For use in coordinate conversion, this stores the output rect, viewport // rect (= unflipped version of glViewport rect), the size of target // framebuffer, and the current window space viewport. During a draw, this // stores the values for the current render pass; in between draws, they // retain the values for the root render pass of the last draw. gfx::Rect current_draw_rect_; gfx::Rect current_viewport_rect_; gfx::Size current_surface_size_; gfx::Rect current_window_space_viewport_; DrawingFrame* current_frame() { DCHECK(current_frame_valid_); return ¤t_frame_; } const DrawingFrame* current_frame() const { DCHECK(current_frame_valid_); return ¤t_frame_; } private: bool initialized_ = false; #if DCHECK_IS_ON() bool overdraw_feedback_support_missing_logged_once_ = false; #endif gfx::Size enlarge_pass_texture_amount_; // The current drawing frame is valid only during the duration of the // DrawFrame function. Use the accessor current_frame() to ensure that use // is valid; DrawingFrame current_frame_; bool current_frame_valid_ = false; // Cached values given to Reshape(). gfx::Size reshape_surface_size_; float reshape_device_scale_factor_ = 0.f; gfx::ColorSpace reshape_device_color_space_; bool reshape_has_alpha_ = false; bool reshape_use_stencil_ = false; DISALLOW_COPY_AND_ASSIGN(DirectRenderer); }; } // namespace viz #endif // COMPONENTS_VIZ_SERVICE_DISPLAY_DIRECT_RENDERER_H_