With the release of Firefox 72 on January 7, 2020, CSS Motion Path is now in Firefox, new Edge (slated for a January 15, 2020 stable release), Chrome, and Opera (and other Blink-based browsers). That means each of these browsers supports a common baseline of
Firefox also released stable support for
offset-anchor (currently behind the “Experimental Web Platform Features” flag in Blink-based browsers). To celebrate, let’s review the basics of what is supported, explain some of the specifics when a path is applied, and also highlight the possibilities of
Defining a path
There technically is no motion involved when using any of the properties defined in the CSS Motion Path specification. The
offset-path property allows you to set up an invisible path that an element can follow.
If you are familiar with SVG paths, or have explored other places to use the
path() function like newer
clip-path options, this might seem familiar. This collection of letters, numbers, and commas is a way to specify vectorized lines, curves, and more. This previous example makes a U-shaped curve starting at
0px,0px and ending 100px to the right at
100px,0px. To learn more about this syntax, check out Joni Trythall’s SVG Pocket Guide or the Illustrated SVG
path Syntax Guide on CSS-Tricks.
Some quick basics:
M 0,0means move to the
x, ycoordinates of
0, 0without drawing anything
L 10,10means draw a line from the previous point to
- Bezier Curves are handled with
Cand three sets of coordinates.
There are many other ways in the CSS Motion Path specification to set an offset path, such as using other CSS Shape functions like
circle(), the element’s box, or the new
ray() function that introduces polar coordinates to CSS. However, at this time, only
path() is supported in all the browsers already mentioned. There is significant progress made with
ray() behind flags, so it is likely to be the next to be released.
Defining a distance
The offset distance will be any length value, though I would wager that percentages are the most valuable as
100% always represents the end of the path. So going halfway along the path is as straightforward as saying
Animating along the path
As stated earlier, the CSS Motion Path spec actually does not provide motion out of the box. We take our path definition and then use the existing tried and true animation methods to animate the value of
offset-distance. So to animate an element along its entire path from
0% (the default value of
100% we can set up a CSS animation (or use the Web Animations API,
requestAnimationFrame, etc.) to modify these values.
Animating the path itself
We can also change the path itself, and if it has the same number of data points the brower can interpolate the values and smoothly transition the path. If we start with a simple straigh path defined as
path('M0,0 L100,100') (which defines a line segment from
100px,100px) we are able to animate it to a new line segment as long as it also has only two points, such as
path('M100,0 L0,100'). If you try to go to
path('M100,0 L0,100 L100,100') the browser will not be able to determine the in-between values since the paths have a different number of points, so the path will simply toggle between the two definitions instead of smoothly transitioning.
Defining where the element faces
By default, the element will “face” the direction of the path, with its right side staying perpendicular to the path at all times. This is thanks to the
auto value of the third offset property
offset-rotate. If we would rather the element face away from the direction of the path we can use the value
offset-rotate property also takes angle values if you want to have the element stay in a fixed direction at a certain angle and not follow the path. With
0deg, the element will stay in its original, non-pathed orientation where the right side always continues to face the right regardless the direction of the path.
The last option is to combine the keywords
reverse with a second option of an angle. By setting, for example,
offset-rotate: auto 90deg the element will rotate to account for the direction of the path, but it will have an added offset of 90 degrees. So by rotating the element a quarter turn, it is now the top side that faces the direction of the path and remains perpendicular to it.
offset-distance are animatable, when using angles (even in combination with
offset-rotate property can be animated.
Defining the anchor point on the path
Elements will be centered on the path, but we can change this by setting the
offset-anchor property. The types of values are similar to what you see in
background-position or a two-dimensional
transform-origin where you set the horizontal (x-axis) position and the vertical (y-axis) position. So the default value is
offset-anchor: 50% 50% which can also be specified as
center center. We can do the
top left corner (same as
0% 0%) or any other length/percentage value to change the point on the element that anchors to the path. It is even possible to use values outside the bounds of the element with negative numbers or percentages beyond 100%, for example.
When the values are lengths or percentages, the anchor property can be animated. Therefore, each of the four
offset properties can be animated even though the only one that moves along the path in the traditional sense is
Why does my element shift when I only apply a path?
You might suspect that nothing really happens when you specify a path alone, as it is the distance, rotation, and anchor that affect how an element appears along the path.
The path itself has its
0,0 coordinates placed at the element’s original placement in the document flow. When specifying only an
offset-path, our element is placed at the start of our (invisible) path (
offset-distance: 0%). It is very likely the element will visually look different, though, as it is the element’s center point that is placed at the start of the path (
offset-anchor: 50% 50%), and its original right side will face the direction of the path (
If the start of the path is at the top left corner then at a minimum the element will be shifted up and to the left such that the anchor point (at
center center by default) is at the top left corner of the element’s original position. If you would rather have the element stay in its initial position at the start, you likely will need to rework the path definition to start at your initial anchor point or work some magic with
position or the independent transform properties.
Those are some key basics, but there are certainly many possibilities to explore. Motion paths are often associated with continuous curves, but there is nothing that says you cannot use straight lines or disconnected paths. Motion paths are typically associated with, well, motion, but
offset can provide a unique way to simply position elements statically. The time to explore their possibilities is now.