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-rw-r--r--gfx/wr/webrender/src/frame_builder.rs968
1 files changed, 968 insertions, 0 deletions
diff --git a/gfx/wr/webrender/src/frame_builder.rs b/gfx/wr/webrender/src/frame_builder.rs
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+++ b/gfx/wr/webrender/src/frame_builder.rs
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+/* This Source Code Form is subject to the terms of the Mozilla Public
+ * License, v. 2.0. If a copy of the MPL was not distributed with this
+ * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
+
+use api::{ColorF, DebugFlags, FontRenderMode, PremultipliedColorF};
+use api::units::*;
+use plane_split::BspSplitter;
+use crate::batch::{BatchBuilder, AlphaBatchBuilder, AlphaBatchContainer};
+use crate::clip::{ClipStore, ClipTree};
+use crate::command_buffer::CommandBufferList;
+use crate::spatial_tree::{SpatialTree, SpatialNodeIndex};
+use crate::composite::{CompositorKind, CompositeState, CompositeStatePreallocator};
+use crate::debug_item::DebugItem;
+use crate::gpu_cache::{GpuCache, GpuCacheHandle};
+use crate::gpu_types::{PrimitiveHeaders, TransformPalette, ZBufferIdGenerator};
+use crate::gpu_types::TransformData;
+use crate::internal_types::{FastHashMap, PlaneSplitter, FrameId, FrameStamp};
+use crate::picture::{DirtyRegion, SliceId, TileCacheInstance};
+use crate::picture::{SurfaceInfo, SurfaceIndex};
+use crate::picture::{SubpixelMode, RasterConfig, PictureCompositeMode};
+use crate::prepare::prepare_primitives;
+use crate::prim_store::{PictureIndex};
+use crate::prim_store::{DeferredResolve, PrimitiveInstance};
+use crate::profiler::{self, TransactionProfile};
+use crate::render_backend::{DataStores, ScratchBuffer};
+use crate::renderer::{GpuBuffer, GpuBufferBuilder};
+use crate::render_target::{RenderTarget, PictureCacheTarget, TextureCacheRenderTarget, PictureCacheTargetKind};
+use crate::render_target::{RenderTargetContext, RenderTargetKind, AlphaRenderTarget, ColorRenderTarget};
+use crate::render_task_graph::{RenderTaskGraph, Pass, SubPassSurface};
+use crate::render_task_graph::{RenderPass, RenderTaskGraphBuilder};
+use crate::render_task::{RenderTaskKind, StaticRenderTaskSurface};
+use crate::resource_cache::{ResourceCache};
+use crate::scene::{BuiltScene, SceneProperties};
+use crate::space::SpaceMapper;
+use crate::segment::SegmentBuilder;
+use crate::surface::SurfaceBuilder;
+use std::{f32, mem};
+use crate::util::{VecHelper, Preallocator};
+use crate::visibility::{update_prim_visibility, FrameVisibilityState, FrameVisibilityContext};
+
+#[derive(Clone, Copy, Debug)]
+#[cfg_attr(feature = "capture", derive(Serialize))]
+#[cfg_attr(feature = "replay", derive(Deserialize))]
+pub struct FrameBuilderConfig {
+ pub default_font_render_mode: FontRenderMode,
+ pub dual_source_blending_is_supported: bool,
+ /// True if we're running tests (i.e. via wrench).
+ pub testing: bool,
+ pub gpu_supports_fast_clears: bool,
+ pub gpu_supports_advanced_blend: bool,
+ pub advanced_blend_is_coherent: bool,
+ pub gpu_supports_render_target_partial_update: bool,
+ /// Whether ImageBufferKind::TextureExternal images must first be copied
+ /// to a regular texture before rendering.
+ pub external_images_require_copy: bool,
+ pub batch_lookback_count: usize,
+ pub background_color: Option<ColorF>,
+ pub compositor_kind: CompositorKind,
+ pub tile_size_override: Option<DeviceIntSize>,
+ pub max_surface_override: Option<usize>,
+ pub max_depth_ids: i32,
+ pub max_target_size: i32,
+ pub force_invalidation: bool,
+ pub is_software: bool,
+ pub low_quality_pinch_zoom: bool,
+}
+
+/// A set of common / global resources that are retained between
+/// new display lists, such that any GPU cache handles can be
+/// persisted even when a new display list arrives.
+#[cfg_attr(feature = "capture", derive(Serialize))]
+pub struct FrameGlobalResources {
+ /// The image shader block for the most common / default
+ /// set of image parameters (color white, stretch == rect.size).
+ pub default_image_handle: GpuCacheHandle,
+
+ /// A GPU cache config for drawing transparent rectangle primitives.
+ /// This is used to 'cut out' overlay tiles where a compositor
+ /// surface exists.
+ pub default_transparent_rect_handle: GpuCacheHandle,
+}
+
+impl FrameGlobalResources {
+ pub fn empty() -> Self {
+ FrameGlobalResources {
+ default_image_handle: GpuCacheHandle::new(),
+ default_transparent_rect_handle: GpuCacheHandle::new(),
+ }
+ }
+
+ pub fn update(
+ &mut self,
+ gpu_cache: &mut GpuCache,
+ ) {
+ if let Some(mut request) = gpu_cache.request(&mut self.default_image_handle) {
+ request.push(PremultipliedColorF::WHITE);
+ request.push(PremultipliedColorF::WHITE);
+ request.push([
+ -1.0, // -ve means use prim rect for stretch size
+ 0.0,
+ 0.0,
+ 0.0,
+ ]);
+ }
+
+ if let Some(mut request) = gpu_cache.request(&mut self.default_transparent_rect_handle) {
+ request.push(PremultipliedColorF::TRANSPARENT);
+ }
+ }
+}
+
+pub struct FrameScratchBuffer {
+ dirty_region_stack: Vec<DirtyRegion>,
+ surface_stack: Vec<(PictureIndex, SurfaceIndex)>,
+}
+
+impl Default for FrameScratchBuffer {
+ fn default() -> Self {
+ FrameScratchBuffer {
+ dirty_region_stack: Vec::new(),
+ surface_stack: Vec::new(),
+ }
+ }
+}
+
+impl FrameScratchBuffer {
+ pub fn begin_frame(&mut self) {
+ self.dirty_region_stack.clear();
+ self.surface_stack.clear();
+ }
+}
+
+/// Produces the frames that are sent to the renderer.
+#[cfg_attr(feature = "capture", derive(Serialize))]
+pub struct FrameBuilder {
+ pub globals: FrameGlobalResources,
+ #[cfg_attr(feature = "capture", serde(skip))]
+ prim_headers_prealloc: Preallocator,
+ #[cfg_attr(feature = "capture", serde(skip))]
+ composite_state_prealloc: CompositeStatePreallocator,
+ #[cfg_attr(feature = "capture", serde(skip))]
+ plane_splitters: Vec<PlaneSplitter>,
+}
+
+pub struct FrameBuildingContext<'a> {
+ pub global_device_pixel_scale: DevicePixelScale,
+ pub scene_properties: &'a SceneProperties,
+ pub global_screen_world_rect: WorldRect,
+ pub spatial_tree: &'a SpatialTree,
+ pub max_local_clip: LayoutRect,
+ pub debug_flags: DebugFlags,
+ pub fb_config: &'a FrameBuilderConfig,
+ pub root_spatial_node_index: SpatialNodeIndex,
+}
+
+pub struct FrameBuildingState<'a> {
+ pub rg_builder: &'a mut RenderTaskGraphBuilder,
+ pub clip_store: &'a mut ClipStore,
+ pub resource_cache: &'a mut ResourceCache,
+ pub gpu_cache: &'a mut GpuCache,
+ pub transforms: &'a mut TransformPalette,
+ pub segment_builder: SegmentBuilder,
+ pub surfaces: &'a mut Vec<SurfaceInfo>,
+ pub dirty_region_stack: Vec<DirtyRegion>,
+ pub composite_state: &'a mut CompositeState,
+ pub num_visible_primitives: u32,
+ pub plane_splitters: &'a mut [PlaneSplitter],
+ pub surface_builder: SurfaceBuilder,
+ pub cmd_buffers: &'a mut CommandBufferList,
+ pub clip_tree: &'a ClipTree,
+ pub frame_gpu_data: &'a mut GpuBufferBuilder,
+}
+
+impl<'a> FrameBuildingState<'a> {
+ /// Retrieve the current dirty region during primitive traversal.
+ pub fn current_dirty_region(&self) -> &DirtyRegion {
+ self.dirty_region_stack.last().unwrap()
+ }
+
+ /// Push a new dirty region for child primitives to cull / clip against.
+ pub fn push_dirty_region(&mut self, region: DirtyRegion) {
+ self.dirty_region_stack.push(region);
+ }
+
+ /// Pop the top dirty region from the stack.
+ pub fn pop_dirty_region(&mut self) {
+ self.dirty_region_stack.pop().unwrap();
+ }
+}
+
+/// Immutable context of a picture when processing children.
+#[derive(Debug)]
+pub struct PictureContext {
+ pub pic_index: PictureIndex,
+ pub surface_spatial_node_index: SpatialNodeIndex,
+ pub raster_spatial_node_index: SpatialNodeIndex,
+ /// The surface that this picture will render on.
+ pub surface_index: SurfaceIndex,
+ pub dirty_region_count: usize,
+ pub subpixel_mode: SubpixelMode,
+}
+
+/// Mutable state of a picture that gets modified when
+/// the children are processed.
+pub struct PictureState {
+ pub map_local_to_pic: SpaceMapper<LayoutPixel, PicturePixel>,
+ pub map_pic_to_world: SpaceMapper<PicturePixel, WorldPixel>,
+}
+
+impl FrameBuilder {
+ pub fn new() -> Self {
+ FrameBuilder {
+ globals: FrameGlobalResources::empty(),
+ prim_headers_prealloc: Preallocator::new(0),
+ composite_state_prealloc: CompositeStatePreallocator::default(),
+ plane_splitters: Vec::new(),
+ }
+ }
+
+ /// Compute the contribution (bounding rectangles, and resources) of layers and their
+ /// primitives in screen space.
+ fn build_layer_screen_rects_and_cull_layers(
+ &mut self,
+ scene: &mut BuiltScene,
+ global_screen_world_rect: WorldRect,
+ resource_cache: &mut ResourceCache,
+ gpu_cache: &mut GpuCache,
+ rg_builder: &mut RenderTaskGraphBuilder,
+ global_device_pixel_scale: DevicePixelScale,
+ scene_properties: &SceneProperties,
+ transform_palette: &mut TransformPalette,
+ data_stores: &mut DataStores,
+ scratch: &mut ScratchBuffer,
+ debug_flags: DebugFlags,
+ composite_state: &mut CompositeState,
+ tile_caches: &mut FastHashMap<SliceId, Box<TileCacheInstance>>,
+ spatial_tree: &SpatialTree,
+ cmd_buffers: &mut CommandBufferList,
+ frame_gpu_data: &mut GpuBufferBuilder,
+ profile: &mut TransactionProfile,
+ ) {
+ profile_scope!("build_layer_screen_rects_and_cull_layers");
+
+ let root_spatial_node_index = spatial_tree.root_reference_frame_index();
+
+ const MAX_CLIP_COORD: f32 = 1.0e9;
+
+ // Reset all plane splitters. These are retained from frame to frame to reduce
+ // per-frame allocations
+ self.plane_splitters.resize_with(scene.num_plane_splitters, BspSplitter::new);
+ for splitter in &mut self.plane_splitters {
+ splitter.reset();
+ }
+
+ let frame_context = FrameBuildingContext {
+ global_device_pixel_scale,
+ scene_properties,
+ global_screen_world_rect,
+ spatial_tree,
+ max_local_clip: LayoutRect {
+ min: LayoutPoint::new(-MAX_CLIP_COORD, -MAX_CLIP_COORD),
+ max: LayoutPoint::new(MAX_CLIP_COORD, MAX_CLIP_COORD),
+ },
+ debug_flags,
+ fb_config: &scene.config,
+ root_spatial_node_index,
+ };
+
+ scene.picture_graph.build_update_passes(
+ &mut scene.prim_store.pictures,
+ &frame_context,
+ );
+
+ scene.picture_graph.assign_surfaces(
+ &mut scene.prim_store.pictures,
+ &mut scene.surfaces,
+ tile_caches,
+ &frame_context,
+ );
+
+ scene.picture_graph.propagate_bounding_rects(
+ &mut scene.prim_store.pictures,
+ &mut scene.surfaces,
+ &frame_context,
+ );
+
+ {
+ profile_scope!("UpdateVisibility");
+ profile_marker!("UpdateVisibility");
+ profile.start_time(profiler::FRAME_VISIBILITY_TIME);
+
+ let visibility_context = FrameVisibilityContext {
+ global_device_pixel_scale,
+ spatial_tree,
+ global_screen_world_rect,
+ debug_flags,
+ scene_properties,
+ config: scene.config,
+ root_spatial_node_index,
+ };
+
+ for pic_index in scene.tile_cache_pictures.iter().rev() {
+ let pic = &mut scene.prim_store.pictures[pic_index.0];
+
+ match pic.raster_config {
+ Some(RasterConfig { surface_index, composite_mode: PictureCompositeMode::TileCache { slice_id }, .. }) => {
+ let tile_cache = tile_caches
+ .get_mut(&slice_id)
+ .expect("bug: non-existent tile cache");
+
+ let mut visibility_state = FrameVisibilityState {
+ surface_stack: scratch.frame.surface_stack.take(),
+ resource_cache,
+ gpu_cache,
+ clip_store: &mut scene.clip_store,
+ scratch,
+ data_stores,
+ composite_state,
+ clip_tree: &mut scene.clip_tree,
+ };
+
+ // If we have a tile cache for this picture, see if any of the
+ // relative transforms have changed, which means we need to
+ // re-map the dependencies of any child primitives.
+ let surface = &scene.surfaces[surface_index.0];
+ let world_culling_rect = tile_cache.pre_update(
+ surface.unclipped_local_rect,
+ surface_index,
+ &visibility_context,
+ &mut visibility_state,
+ );
+
+ // Push a new surface, supplying the list of clips that should be
+ // ignored, since they are handled by clipping when drawing this surface.
+ visibility_state.push_surface(
+ *pic_index,
+ surface_index,
+ );
+ visibility_state.clip_tree.push_clip_root_node(tile_cache.shared_clip_node_id);
+
+ update_prim_visibility(
+ *pic_index,
+ None,
+ &world_culling_rect,
+ &mut scene.prim_store,
+ &mut scene.prim_instances,
+ &mut scene.surfaces,
+ true,
+ &visibility_context,
+ &mut visibility_state,
+ tile_cache,
+ );
+
+ // Build the dirty region(s) for this tile cache.
+ tile_cache.post_update(
+ &visibility_context,
+ &mut visibility_state,
+ );
+
+ visibility_state.clip_tree.pop_clip_root();
+ visibility_state.pop_surface();
+ visibility_state.scratch.frame.surface_stack = visibility_state.surface_stack.take();
+ }
+ _ => {
+ panic!("bug: not a tile cache");
+ }
+ }
+ }
+
+ profile.end_time(profiler::FRAME_VISIBILITY_TIME);
+ }
+
+ profile.start_time(profiler::FRAME_PREPARE_TIME);
+
+ let mut frame_state = FrameBuildingState {
+ rg_builder,
+ clip_store: &mut scene.clip_store,
+ resource_cache,
+ gpu_cache,
+ transforms: transform_palette,
+ segment_builder: SegmentBuilder::new(),
+ surfaces: &mut scene.surfaces,
+ dirty_region_stack: scratch.frame.dirty_region_stack.take(),
+ composite_state,
+ num_visible_primitives: 0,
+ plane_splitters: &mut self.plane_splitters,
+ surface_builder: SurfaceBuilder::new(),
+ cmd_buffers,
+ clip_tree: &mut scene.clip_tree,
+ frame_gpu_data,
+ };
+
+ // Push a default dirty region which culls primitives
+ // against the screen world rect, in absence of any
+ // other dirty regions.
+ let mut default_dirty_region = DirtyRegion::new(
+ root_spatial_node_index,
+ );
+ default_dirty_region.add_dirty_region(
+ frame_context.global_screen_world_rect.cast_unit(),
+ frame_context.spatial_tree,
+ );
+ frame_state.push_dirty_region(default_dirty_region);
+
+ for pic_index in &scene.tile_cache_pictures {
+ if let Some((pic_context, mut pic_state, mut prim_list)) = scene
+ .prim_store
+ .pictures[pic_index.0]
+ .take_context(
+ *pic_index,
+ None,
+ SubpixelMode::Allow,
+ &mut frame_state,
+ &frame_context,
+ &mut scratch.primitive,
+ tile_caches,
+ )
+ {
+ profile_marker!("PreparePrims");
+
+ prepare_primitives(
+ &mut scene.prim_store,
+ &mut prim_list,
+ &pic_context,
+ &mut pic_state,
+ &frame_context,
+ &mut frame_state,
+ data_stores,
+ &mut scratch.primitive,
+ tile_caches,
+ &mut scene.prim_instances,
+ );
+
+ let pic = &mut scene.prim_store.pictures[pic_index.0];
+ pic.restore_context(
+ *pic_index,
+ prim_list,
+ pic_context,
+ &scene.prim_instances,
+ &frame_context,
+ &mut frame_state,
+ );
+ }
+ }
+
+ frame_state.pop_dirty_region();
+ frame_state.surface_builder.finalize();
+ profile.end_time(profiler::FRAME_PREPARE_TIME);
+ profile.set(profiler::VISIBLE_PRIMITIVES, frame_state.num_visible_primitives);
+
+ scratch.frame.dirty_region_stack = frame_state.dirty_region_stack.take();
+
+ {
+ profile_marker!("BlockOnResources");
+
+ resource_cache.block_until_all_resources_added(
+ gpu_cache,
+ profile,
+ );
+ }
+ }
+
+ pub fn build(
+ &mut self,
+ scene: &mut BuiltScene,
+ resource_cache: &mut ResourceCache,
+ gpu_cache: &mut GpuCache,
+ rg_builder: &mut RenderTaskGraphBuilder,
+ stamp: FrameStamp,
+ device_origin: DeviceIntPoint,
+ scene_properties: &SceneProperties,
+ data_stores: &mut DataStores,
+ scratch: &mut ScratchBuffer,
+ debug_flags: DebugFlags,
+ tile_caches: &mut FastHashMap<SliceId, Box<TileCacheInstance>>,
+ spatial_tree: &mut SpatialTree,
+ dirty_rects_are_valid: bool,
+ profile: &mut TransactionProfile,
+ ) -> Frame {
+ profile_scope!("build");
+ profile_marker!("BuildFrame");
+
+ profile.set(profiler::PRIMITIVES, scene.prim_instances.len());
+ profile.set(profiler::PICTURE_CACHE_SLICES, scene.tile_cache_config.picture_cache_slice_count);
+ scratch.begin_frame();
+ gpu_cache.begin_frame(stamp);
+ resource_cache.begin_frame(stamp, gpu_cache, profile);
+
+ // TODO(gw): Follow up patches won't clear this, as they'll be assigned
+ // statically during scene building.
+ scene.surfaces.clear();
+
+ self.globals.update(gpu_cache);
+
+ spatial_tree.update_tree(scene_properties);
+ let mut transform_palette = spatial_tree.build_transform_palette();
+ scene.clip_store.begin_frame(&mut scratch.clip_store);
+
+ rg_builder.begin_frame(stamp.frame_id());
+
+ // TODO(dp): Remove me completely!!
+ let global_device_pixel_scale = DevicePixelScale::new(1.0);
+
+ let output_size = scene.output_rect.size();
+ let screen_world_rect = (scene.output_rect.to_f32() / global_device_pixel_scale).round_out();
+
+ let mut composite_state = CompositeState::new(
+ scene.config.compositor_kind,
+ scene.config.max_depth_ids,
+ dirty_rects_are_valid,
+ scene.config.low_quality_pinch_zoom,
+ );
+
+ self.composite_state_prealloc.preallocate(&mut composite_state);
+
+ let mut cmd_buffers = CommandBufferList::new();
+
+ // TODO(gw): Recycle backing vec buffers for gpu buffer builder between frames
+ let mut gpu_buffer_builder = GpuBufferBuilder::new();
+
+ self.build_layer_screen_rects_and_cull_layers(
+ scene,
+ screen_world_rect,
+ resource_cache,
+ gpu_cache,
+ rg_builder,
+ global_device_pixel_scale,
+ scene_properties,
+ &mut transform_palette,
+ data_stores,
+ scratch,
+ debug_flags,
+ &mut composite_state,
+ tile_caches,
+ spatial_tree,
+ &mut cmd_buffers,
+ &mut gpu_buffer_builder,
+ profile,
+ );
+
+ profile.start_time(profiler::FRAME_BATCHING_TIME);
+
+ let mut deferred_resolves = vec![];
+
+ // Finish creating the frame graph and build it.
+ let render_tasks = rg_builder.end_frame(
+ resource_cache,
+ gpu_cache,
+ &mut deferred_resolves,
+ );
+
+ let mut passes = Vec::new();
+ let mut has_texture_cache_tasks = false;
+ let mut prim_headers = PrimitiveHeaders::new();
+ self.prim_headers_prealloc.preallocate_vec(&mut prim_headers.headers_int);
+ self.prim_headers_prealloc.preallocate_vec(&mut prim_headers.headers_float);
+
+ {
+ profile_marker!("Batching");
+
+ // Used to generated a unique z-buffer value per primitive.
+ let mut z_generator = ZBufferIdGenerator::new(scene.config.max_depth_ids);
+ let use_dual_source_blending = scene.config.dual_source_blending_is_supported;
+
+ for pass in render_tasks.passes.iter().rev() {
+ let mut ctx = RenderTargetContext {
+ global_device_pixel_scale,
+ prim_store: &scene.prim_store,
+ resource_cache,
+ use_dual_source_blending,
+ use_advanced_blending: scene.config.gpu_supports_advanced_blend,
+ break_advanced_blend_batches: !scene.config.advanced_blend_is_coherent,
+ batch_lookback_count: scene.config.batch_lookback_count,
+ spatial_tree,
+ data_stores,
+ surfaces: &scene.surfaces,
+ scratch: &mut scratch.primitive,
+ screen_world_rect,
+ globals: &self.globals,
+ tile_caches,
+ root_spatial_node_index: spatial_tree.root_reference_frame_index(),
+ };
+
+ let pass = build_render_pass(
+ pass,
+ output_size,
+ &mut ctx,
+ gpu_cache,
+ &render_tasks,
+ &scene.clip_store,
+ &mut transform_palette,
+ &mut prim_headers,
+ &mut z_generator,
+ scene.config.gpu_supports_fast_clears,
+ &scene.prim_instances,
+ &cmd_buffers,
+ );
+
+ has_texture_cache_tasks |= !pass.texture_cache.is_empty();
+ has_texture_cache_tasks |= !pass.picture_cache.is_empty();
+
+ passes.push(pass);
+ }
+
+ let mut ctx = RenderTargetContext {
+ global_device_pixel_scale,
+ prim_store: &scene.prim_store,
+ resource_cache,
+ use_dual_source_blending,
+ use_advanced_blending: scene.config.gpu_supports_advanced_blend,
+ break_advanced_blend_batches: !scene.config.advanced_blend_is_coherent,
+ batch_lookback_count: scene.config.batch_lookback_count,
+ spatial_tree,
+ data_stores,
+ surfaces: &scene.surfaces,
+ scratch: &mut scratch.primitive,
+ screen_world_rect,
+ globals: &self.globals,
+ tile_caches,
+ root_spatial_node_index: spatial_tree.root_reference_frame_index(),
+ };
+
+ self.build_composite_pass(
+ scene,
+ &mut ctx,
+ gpu_cache,
+ &mut deferred_resolves,
+ &mut composite_state,
+ );
+ }
+
+ profile.end_time(profiler::FRAME_BATCHING_TIME);
+
+ let gpu_cache_frame_id = gpu_cache.end_frame(profile).frame_id();
+
+ resource_cache.end_frame(profile);
+
+ self.prim_headers_prealloc.record_vec(&mut prim_headers.headers_int);
+ self.composite_state_prealloc.record(&composite_state);
+
+ composite_state.end_frame();
+ scene.clip_store.end_frame(&mut scratch.clip_store);
+ scratch.end_frame();
+
+ let gpu_buffer = gpu_buffer_builder.finalize(&render_tasks);
+
+ Frame {
+ device_rect: DeviceIntRect::from_origin_and_size(
+ device_origin,
+ scene.output_rect.size(),
+ ),
+ passes,
+ transform_palette: transform_palette.finish(),
+ render_tasks,
+ deferred_resolves,
+ gpu_cache_frame_id,
+ has_been_rendered: false,
+ has_texture_cache_tasks,
+ prim_headers,
+ debug_items: mem::replace(&mut scratch.primitive.debug_items, Vec::new()),
+ composite_state,
+ gpu_buffer,
+ }
+ }
+
+ fn build_composite_pass(
+ &self,
+ scene: &BuiltScene,
+ ctx: &RenderTargetContext,
+ gpu_cache: &mut GpuCache,
+ deferred_resolves: &mut Vec<DeferredResolve>,
+ composite_state: &mut CompositeState,
+ ) {
+ for pic_index in &scene.tile_cache_pictures {
+ let pic = &ctx.prim_store.pictures[pic_index.0];
+
+ match pic.raster_config {
+ Some(RasterConfig { composite_mode: PictureCompositeMode::TileCache { slice_id }, .. }) => {
+ // Tile cache instances are added to the composite config, rather than
+ // directly added to batches. This allows them to be drawn with various
+ // present modes during render, such as partial present etc.
+ let tile_cache = &ctx.tile_caches[&slice_id];
+ let map_local_to_world = SpaceMapper::new_with_target(
+ ctx.root_spatial_node_index,
+ tile_cache.spatial_node_index,
+ ctx.screen_world_rect,
+ ctx.spatial_tree,
+ );
+ let world_clip_rect = map_local_to_world
+ .map(&tile_cache.local_clip_rect)
+ .expect("bug: unable to map clip rect");
+ let device_clip_rect = (world_clip_rect * ctx.global_device_pixel_scale).round();
+
+ composite_state.push_surface(
+ tile_cache,
+ device_clip_rect,
+ ctx.resource_cache,
+ gpu_cache,
+ deferred_resolves,
+ );
+ }
+ _ => {
+ panic!("bug: found a top-level prim that isn't a tile cache");
+ }
+ }
+ }
+ }
+}
+
+/// Processes this pass to prepare it for rendering.
+///
+/// Among other things, this allocates output regions for each of our tasks
+/// (added via `add_render_task`) in a RenderTarget and assigns it into that
+/// target.
+pub fn build_render_pass(
+ src_pass: &Pass,
+ screen_size: DeviceIntSize,
+ ctx: &mut RenderTargetContext,
+ gpu_cache: &mut GpuCache,
+ render_tasks: &RenderTaskGraph,
+ clip_store: &ClipStore,
+ transforms: &mut TransformPalette,
+ prim_headers: &mut PrimitiveHeaders,
+ z_generator: &mut ZBufferIdGenerator,
+ gpu_supports_fast_clears: bool,
+ prim_instances: &[PrimitiveInstance],
+ cmd_buffers: &CommandBufferList,
+) -> RenderPass {
+ profile_scope!("build_render_pass");
+
+ // TODO(gw): In this initial frame graph work, we try to maintain the existing
+ // build_render_pass code as closely as possible, to make the review
+ // simpler and reduce chance of regressions. However, future work should
+ // include refactoring this to more closely match the built frame graph.
+ let mut pass = RenderPass::new(src_pass);
+
+ for sub_pass in &src_pass.sub_passes {
+ match sub_pass.surface {
+ SubPassSurface::Dynamic { target_kind, texture_id, used_rect } => {
+ match target_kind {
+ RenderTargetKind::Color => {
+ let mut target = ColorRenderTarget::new(
+ texture_id,
+ screen_size,
+ gpu_supports_fast_clears,
+ used_rect,
+ );
+
+ for task_id in &sub_pass.task_ids {
+ target.add_task(
+ *task_id,
+ ctx,
+ gpu_cache,
+ render_tasks,
+ clip_store,
+ transforms,
+ );
+ }
+
+ pass.color.targets.push(target);
+ }
+ RenderTargetKind::Alpha => {
+ let mut target = AlphaRenderTarget::new(
+ texture_id,
+ screen_size,
+ gpu_supports_fast_clears,
+ used_rect,
+ );
+
+ for task_id in &sub_pass.task_ids {
+ target.add_task(
+ *task_id,
+ ctx,
+ gpu_cache,
+ render_tasks,
+ clip_store,
+ transforms,
+ );
+ }
+
+ pass.alpha.targets.push(target);
+ }
+ }
+ }
+ SubPassSurface::Persistent { surface: StaticRenderTaskSurface::PictureCache { ref surface, .. }, .. } => {
+ assert_eq!(sub_pass.task_ids.len(), 1);
+ let task_id = sub_pass.task_ids[0];
+ let task = &render_tasks[task_id];
+ let target_rect = task.get_target_rect();
+ let mut gpu_buffer_builder = GpuBufferBuilder::new();
+
+ match task.kind {
+ RenderTaskKind::Picture(ref pic_task) => {
+ let cmd_buffer = cmd_buffers.get(pic_task.cmd_buffer_index);
+ let scissor_rect = pic_task.scissor_rect.expect("bug: must be set for cache tasks");
+ let valid_rect = pic_task.valid_rect.expect("bug: must be set for cache tasks");
+
+ let batcher = AlphaBatchBuilder::new(
+ screen_size,
+ ctx.break_advanced_blend_batches,
+ ctx.batch_lookback_count,
+ task_id,
+ task_id.into(),
+ );
+
+ let mut batch_builder = BatchBuilder::new(batcher);
+
+ cmd_buffer.iter_prims(&mut |cmd, spatial_node_index| {
+ batch_builder.add_prim_to_batch(
+ cmd,
+ spatial_node_index,
+ ctx,
+ gpu_cache,
+ render_tasks,
+ prim_headers,
+ transforms,
+ pic_task.raster_spatial_node_index,
+ pic_task.surface_spatial_node_index,
+ z_generator,
+ prim_instances,
+ &mut gpu_buffer_builder,
+ );
+ });
+
+ let batcher = batch_builder.finalize();
+
+ let mut batch_containers = Vec::new();
+ let mut alpha_batch_container = AlphaBatchContainer::new(Some(scissor_rect));
+
+ batcher.build(
+ &mut batch_containers,
+ &mut alpha_batch_container,
+ target_rect,
+ None,
+ );
+ debug_assert!(batch_containers.is_empty());
+
+ let target = PictureCacheTarget {
+ surface: surface.clone(),
+ clear_color: pic_task.clear_color,
+ kind: PictureCacheTargetKind::Draw {
+ alpha_batch_container,
+ },
+ dirty_rect: scissor_rect,
+ valid_rect,
+ };
+
+ pass.picture_cache.push(target);
+ }
+ RenderTaskKind::TileComposite(ref tile_task) => {
+ let target = PictureCacheTarget {
+ surface: surface.clone(),
+ clear_color: Some(tile_task.clear_color),
+ kind: PictureCacheTargetKind::Blit {
+ task_id: tile_task.task_id.expect("bug: no source task_id set"),
+ sub_rect_offset: tile_task.sub_rect_offset,
+ },
+ dirty_rect: tile_task.scissor_rect,
+ valid_rect: tile_task.valid_rect,
+ };
+
+ pass.picture_cache.push(target);
+ }
+ _ => {
+ unreachable!();
+ }
+ };
+ }
+ SubPassSurface::Persistent { surface: StaticRenderTaskSurface::TextureCache { target_kind, texture, .. } } => {
+ let texture = pass.texture_cache
+ .entry(texture)
+ .or_insert_with(||
+ TextureCacheRenderTarget::new(target_kind)
+ );
+ for task_id in &sub_pass.task_ids {
+ texture.add_task(*task_id, render_tasks);
+ }
+ }
+ SubPassSurface::Persistent { surface: StaticRenderTaskSurface::ReadOnly { .. } } => {
+ panic!("Should not create a render pass for read-only task locations.");
+ }
+ }
+ }
+
+ pass.color.build(
+ ctx,
+ gpu_cache,
+ render_tasks,
+ prim_headers,
+ transforms,
+ z_generator,
+ prim_instances,
+ cmd_buffers,
+ );
+ pass.alpha.build(
+ ctx,
+ gpu_cache,
+ render_tasks,
+ prim_headers,
+ transforms,
+ z_generator,
+ prim_instances,
+ cmd_buffers,
+ );
+
+ pass
+}
+
+/// A rendering-oriented representation of the frame built by the render backend
+/// and presented to the renderer.
+#[cfg_attr(feature = "capture", derive(Serialize))]
+#[cfg_attr(feature = "replay", derive(Deserialize))]
+pub struct Frame {
+ /// The rectangle to show the frame in, on screen.
+ pub device_rect: DeviceIntRect,
+ pub passes: Vec<RenderPass>,
+
+ pub transform_palette: Vec<TransformData>,
+ pub render_tasks: RenderTaskGraph,
+ pub prim_headers: PrimitiveHeaders,
+
+ /// The GPU cache frame that the contents of Self depend on
+ pub gpu_cache_frame_id: FrameId,
+
+ /// List of textures that we don't know about yet
+ /// from the backend thread. The render thread
+ /// will use a callback to resolve these and
+ /// patch the data structures.
+ pub deferred_resolves: Vec<DeferredResolve>,
+
+ /// True if this frame contains any render tasks
+ /// that write to the texture cache.
+ pub has_texture_cache_tasks: bool,
+
+ /// True if this frame has been drawn by the
+ /// renderer.
+ pub has_been_rendered: bool,
+
+ /// Debugging information to overlay for this frame.
+ pub debug_items: Vec<DebugItem>,
+
+ /// Contains picture cache tiles, and associated information.
+ /// Used by the renderer to composite tiles into the framebuffer,
+ /// or hand them off to an OS compositor.
+ pub composite_state: CompositeState,
+
+ /// Main GPU data buffer constructed (primarily) during the prepare
+ /// pass for primitives that were visible and dirty.
+ pub gpu_buffer: GpuBuffer,
+}
+
+impl Frame {
+ // This frame must be flushed if it writes to the
+ // texture cache, and hasn't been drawn yet.
+ pub fn must_be_drawn(&self) -> bool {
+ self.has_texture_cache_tasks && !self.has_been_rendered
+ }
+
+ // Returns true if this frame doesn't alter what is on screen currently.
+ pub fn is_nop(&self) -> bool {
+ // If there are no off-screen passes, that implies that there are no
+ // picture cache tiles, and no texture cache tasks being updates. If this
+ // is the case, we can consider the frame a nop (higher level checks
+ // test if a composite is needed due to picture cache surfaces moving
+ // or external surfaces being updated).
+ self.passes.is_empty()
+ }
+}