ScopeRecorder::ScopeRecorder(GraphicsContext& context, const DisplayItemClientWrapper& object) : m_displayItemList(context.displayItemList()) , m_object(object) { if (!RuntimeEnabledFeatures::slimmingPaintEnabled()) return; ASSERT(m_displayItemList); m_displayItemList->beginScope(object.displayItemClient()); }
bool DrawingRecorder::useCachedDrawingIfPossible(GraphicsContext& context, const DisplayItemClientWrapper& client, DisplayItem::Type type) { ASSERT(DisplayItem::isDrawingType(type)); if (!context.paintController().clientCacheIsValid(client.displayItemClient())) return false; context.paintController().createAndAppend<CachedDisplayItem>(client, DisplayItem::drawingTypeToCachedDrawingType(type)); #if ENABLE(ASSERT) // When under-invalidation checking is enabled, we output CachedDrawing display item // followed by the display item containing forced painting. if (RuntimeEnabledFeatures::slimmingPaintUnderInvalidationCheckingEnabled()) return false; #endif return true; }
DrawingRecorder::DrawingRecorder(GraphicsContext& context, const DisplayItemClientWrapper& displayItemClient, DisplayItem::Type displayItemType, const FloatRect& cullRect) : m_context(context) , m_displayItemClient(displayItemClient) , m_displayItemType(displayItemType) #if ENABLE(ASSERT) , m_displayItemPosition(m_context.displayItemList()->newDisplayItems().size()) , m_underInvalidationCheckingMode(DrawingDisplayItem::CheckPicture) #endif { ASSERT(context.displayItemList()); if (context.displayItemList()->displayItemConstructionIsDisabled()) return; // Must check DrawingRecorder::useCachedDrawingIfPossible before creating the DrawingRecorder. ASSERT((RuntimeEnabledFeatures::slimmingPaintOffsetCachingEnabled() && context.displayItemList()->paintOffsetWasInvalidated(displayItemClient.displayItemClient())) || RuntimeEnabledFeatures::slimmingPaintUnderInvalidationCheckingEnabled() || !useCachedDrawingIfPossible(m_context, m_displayItemClient, m_displayItemType)); ASSERT(DisplayItem::isDrawingType(displayItemType)); #if ENABLE(ASSERT) context.setInDrawingRecorder(true); #endif context.beginRecording(cullRect); #if ENABLE(ASSERT) if (RuntimeEnabledFeatures::slimmingPaintStrictCullRectClippingEnabled()) { // Skia depends on the cull rect containing all of the display item commands. When strict // cull rect clipping is enabled, make this explicit. This allows us to identify potential // incorrect cull rects that might otherwise be masked due to Skia internal optimizations. context.save(); IntRect verificationClip = enclosingIntRect(cullRect); // Expand the verification clip by one pixel to account for Skia's SkCanvas::getClipBounds() // expansion, used in testing cull rects. // TODO(schenney) This is not the best place to do this. Ideally, we would expand by one pixel // in device (pixel) space, but to do that we would need to add the verification mode to Skia. verificationClip.inflate(1); context.clipRect(verificationClip, NotAntiAliased, SkRegion::kIntersect_Op); } #endif }