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javascript - How can I avoid animation artifacts on my touch-draggable border-radius element on iPad?

I’ve written a little example page with elements that are draggable on touch devices (based on code by Peter-Paul Koch).

I have two draggable <div> elements: a green block, and a red ball (made ball-shaped with border-radius). The dragging is implemented with ontouchstart, ontouchmove and ontouchend, and the "animation" is done by changing the top and left CSS properties of these elements.

When I drag the green one, all is roses and ponycorns.

But when I drag the red one in Safari on an iPad 1 (running iOS 5.1.1) or an iPad 3 (6.0.1), I get little light red trails where the rear edges of the circle were (see screenshot below).

I don’t, however, see these trails on my iPhone 5 (6.1.4).

Artifacts on my element that uses border-radius

Is there a way to get rid of these trails?

(Bonus question: is there a term for this effect? “Ghosting”? “Artifacts”?)

See Question&Answers more detail:os

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The fix

Add this rule to your #bawl { … } ruleset:

-webkit-transform: translateZ(0);

(If you need to avoid hardware acceleration, you can use outline: 1px solid transparent—for more details, see my answer to a similar question.)

This removes the trailing artefacts, but why? It's a combination of Quartz (the drawing engine in iOS) not clipping anti-aliased lines to the edges of a shape and how WebKit repaints a web page after part of it changes.

Drawing a webpage

First, a quick and (over)simplified run down of how WebKit gets from a tree of DOM nodes to a bitmap image representing the rendered webpage.

You already know that a webpage gets parsed into a tree of elements, called the DOM. Each node in the DOM is presented in a certain way depending on the styles applied to it. It is possible for nodes to overlap, or be overlapped by, other nodes depending on things like z-order, transparency, overflow, positioning etc.

This is broadly similar to how things work under the hood. WebKit maps each DOM node to a corresponding RenderObject, which has all the information it needs to paint an individual DOM node. Each RenderObject is mapped to either its own or an ancestor's RenderLayer, which is a conceptual way of dealing with how nodes are "layered"—i.e. painted over or under other nodes.

To render a webpage, each RenderLayer is painted from back-to-front by z-order. Children behind that layer painted are first, followed by the layer itself, followed by children in front of it. To paint itself, the RenderLayer calls the paint method on its corresponding RenderObjects.

WebKit has two code paths for rendering a given RenderLayer: the software path and the hardware accelerated path. The software path paints each RenderObject directly to the image of the rendered webpage that you see in your browser, whereas the hardware path allows certain RenderLayers to be designated as compositing layers, which means that it and its children are drawn separately and finally composited into a single image by the GPU. The hardware path is used whenever one or more of the RenderLayers on a page require hardware acceleration, or when it is explicitly required by a flag in the browser (e.g. Chrome).

Updating part of a webpage

When an animation or some other event changes how part of a page looks, you don't want to redraw the entire webpage. Instead, WebKit draws a box around the changed area—the damage rect—and only redraws bits of each RenderLayer that overlap with that box. A RenderLayer that doesn't overlap the damage rect is skipped entirely.

If you're rendering via the software path, WebKit directly recomposes the damage rect onto the bitmap image of the full rendered page, leaving the rest of the image unchanged. The hardware path, however, repaints each compositing layer separately and recomposites them into a new image.

What is going wrong

The translateZ fix applies a 3D transform to the element. This forces the RenderLayer that paints the ball to require hardware acceleration, meaning that WebKit will use the hardware path instead of the software path. This implies that the problem is related to using the software path.

When the ball is painted, the border radius means that the edges are anti-aliased. Because of a known issue related to Quartz, the edges of the shape are anti-aliased such that some pixels fall outside of the damage rect calculated when you change the ball's position on the page. Using the software path, the browser redraws only the changed region of the rendered page image, leaving the rest of the image untouched. The semi-transparent pixels that fall outside of this area won't be updated, which accounts for the artefacts left behind when you move the ball.

By contrast, the hardware path redraws that layer (and its child layers) separately then recomposites the page. No "ghost pixels" are left over from the last time that layer was rendered.

TL;DR

When WebKit uses the software rendering path, changes to part of a page are made directly to the image representing the whole page. For performance reasons, WebKit only redraws those parts of an image that have changed. However, when Quartz draws a rounded rectangle, it anti-aliases the edges such that some pixels fall outside the region that WebKit knows to redraw. The fix is to force that layer to require hardware acceleration by applying a 3D transform, meaning that element is drawn separately from the rest of the page and recomposed after.


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