Blink Compositor Promotion of CSS Animations
Blink2866 Marras 2025

Blink Compositor Promotion of CSS Animations

The technical sources provide an extensive analysis of how the Blink rendering engine (used in Chromium/Chrome) determines whether a CSS animation can be executed on the compositor thread instead of the main thread to improve performance and achieve smooth frame rates. This process involves a complex pipeline, beginning with style calculation and proceeding through layout and layer assignment, where an element must be assigned a composited layer and corresponding property tree nodes to be eligible for acceleration. The critical decision is made by the function CheckCanStartAnimationOnCompositor(), which only permits animations on a limited set of properties—primarily transform, opacity, filter, and backdrop-filter—while rejecting anything affecting layout or requiring frame-by-frame repainting. If accelerated, the animation’s keyframes are converted into CompositorAnimation objects and run by the GPU-assisted compositor, allowing the main thread to remain free for other tasks.

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Blink Sticky Positioning: Constraint Updates and Paint Invalidation

Blink Sticky Positioning: Constraint Updates and Paint Invalidation

The provided documentation details how the Blink rendering engine manages sticky positioning through specific methods within the PaintLayerScrollableArea class. It explains that the system first calcu...

30 Joulu 202530min

Blink’s Scrolling Engine: The PaintLayerScrollableArea Deep Dive

Blink’s Scrolling Engine: The PaintLayerScrollableArea Deep Dive

The provided text explains the PaintLayerScrollableArea, a central component within the Blink rendering engine that manages scrolling for web elements and viewports. It describes how this object bridg...

30 Joulu 202531min

Understanding PropagatedData in Blink’s LayoutNG Fragment Tree

Understanding PropagatedData in Blink’s LayoutNG Fragment Tree

In Blink’s LayoutNG engine, PropagatedData serves as a specialized, light-weight container used to carry critical layout information upward through the fragment tree. This garbage-collected object is ...

30 Joulu 202530min

Self-Painting Layers in Blink: Architecture and Implementation Decisions

Self-Painting Layers in Blink: Architecture and Implementation Decisions

In the Blink rendering engine, PaintLayers form a specialized hierarchy used to manage the visual assembly of a webpage, separate from the standard layout tree. These layers are created for elements r...

30 Joulu 202539min

[EXTENDED] PaintLayer Parent Hierarchies in the Blink Rendering Engine

[EXTENDED] PaintLayer Parent Hierarchies in the Blink Rendering Engine

In the Blink rendering engine, the PaintLayer system utilizes multiple hierarchical relationships to manage how web content is displayed and organized. While the structural parent defines the primary ...

30 Joulu 202536min

PaintLayer Parent Hierarchies in the Blink Rendering Engine

PaintLayer Parent Hierarchies in the Blink Rendering Engine

The provided text details the Blink rendering engine’s PaintLayer system, specifically focusing on the complex "parent" hierarchies used to manage web page display. It explains that while the structur...

29 Joulu 202532min

Blink PrePaint: Fragment Traversal and Paint Property Tree Construction

Blink PrePaint: Fragment Traversal and Paint Property Tree Construction

The provided text explains the PrePaint phase within Blink’s rendering engine, a critical stage where the system prepares for visual output by invalidating old paint and building property trees. Durin...

29 Joulu 202559min

Blink Core Paint Rendering Architecture

Blink Core Paint Rendering Architecture

This documentation details the Blink rendering engine's process for converting a LayoutObject tree into a format the compositor can process. The operation is split into two primary phases: PrePaint, w...

29 Joulu 202541min