Understanding Success Criterion 2.5.1: Pointer Gestures

Success Criterion 2.5.1 Pointer Gestures (Level A): All functionality that uses multipoint or path-based gestures for operation can be operated with a single pointer without a path-based gesture, unless a multipoint or path-based gesture is essential.

This requirement applies to web content that interprets pointer actions (i.e. this does not apply to actions that are required to operate the user agent or assistive technology).


The intent of this Success Criterion is to ensure that content can be controlled with a range of pointing devices, abilities, and assistive technologies. Some people cannot perform gestures in a precise manner, or they may use a specialized or adapted input device such as a head pointer, eye-gaze system, or speech-controlled mouse emulator. Some pointing methods lack the capability or accuracy to perform multipoint or path-based gestures.

A path-based gesture involves an interaction where not just the endpoints matter. If going through an intermediate point (usually near the start of the gesture) also affects its meaning then it is a path-based gesture. The user engages a pointer (starting point), carries out a movement that goes through at least one intermediate-point before disengaging the pointer (end point). The intermediate point defines the gesture as requiring a specific path, even if the complete path is not defined.

Hand showing a starting touch, 1. Moving through a second point, 2. Going to one of several points,3.
Figure 1 A path-based gesture involves starting a pointer movement that goes through at least one intermediate point before the end-point. The end-point may be a continuation, or allow for various movements.

Examples of path-based gestures include swiping, sliders and carousels dependent on the direction of interaction, and other gestures which trace a prescribed path such as drawing a specific shape. Such paths may be drawn with a finger or stylus on a touchscreen, graphics tablet, or trackpad, or with a mouse, joystick, or similar pointer device.

Dragging is a movement where the user picks up an object with a pointer (such as mouse cursor or a finger) and moves it to some other position. This movement from start point to end point does not require the user to follow any particular path or direction. Dragging is therefore not path-based. In contrast, a path-based pointer gesture requires the traversal of an intermediate point, which is a technical way of expressing that the directionality and possibly speed of the gesture communicates a particular command to the system. Dragging motions are covered in Success Criterion 2.5.7: Dragging.

Hand showing a starting touch, 1. Going to a second point, 2. It follows a very random path.
Figure 2 A free-form gesture does not require any particular path before the end-point, only the start and (optionally) the end point matter.

Any movement of a pointer could be difficult or impossible to use for someone who cannot perform precise movements, therefore alternative forms of interaction are always recommended. This success criterion is scoped to path-based gestures as it may be difficult or impossible to provide an alternative for free-form paths.

Examples of multipoint gestures include a two-finger pinch zoom, a split tap where one finger rests on the screen and a second finger taps, or a two- or three-finger tap or swipe. Users may find it difficult or impossible to accomplish these if they type and point with a single finger or stick.

Authors must ensure that their content can be operated without multipoint or path-based gestures. Multipoint or path-based gestures can be used so long as the functionality can also be operated by another method, such as a tap, click, double tap, double click, long press, or click & hold.

This Success Criterion applies to gestures in the author-provided content, not gestures defined by the operating system, user agent, or assistive technology. Examples of operating system gestures would be swiping down to see system notifications and gestures for built-in assistive technologies (AT). Examples of user agent-implemented gestures would be horizontal swiping implemented by browsers for navigating within the page history, or vertical swiping to scroll page content.

There are times when a component requires a path-based gesture for touch screen devices but not with a mouse. Taking an example of a generic slider:

As touch screen devices can apply default gestures it is important to test with them if you are unsure whether a particular component does require a path-based gesture.

Browsers on a touch screen device generally provide some default gestures that impact whether a path-based gesture is needed. For example, a web browser on a touch-screen devices might detect a vertical gesture and scroll the page. If a user places their finger on a slider thumb and moves up (to scroll down) that might not activate the slider (depending on implementation). If the user moves horizontally first then the slider could capture that gesture and ignore vertical movement, resulting in a path-based gesture. If you include touch-screen devices as accessibility supported then these types of interaction need testing with a touch screen as using a mouse in a similar way would not trigger the same browser behavior.

This Success Criterion does not require all functionality to be available through pointing devices, but if it is available to pointer devices then it should not require path-based gestures. While content authors generally need to provide keyboard commands or other non-pointer mechanisms that perform actions equivalent to complex gestures (see Success Criterion 2.1.1 Keyboard), this is not sufficient to conform to this Success Criterion. That is because some users rely entirely on pointing devices, or find simple pointer inputs much easier to perform and understand than alternatives. For example, a user relying on a head-pointer would find clicking a control to be much more convenient than activating an on-screen keyboard to emulate a keyboard shortcut, and a person who has difficulty memorizing a series of keys (or gestures) may find it much easier to simply click on a labeled control. Therefore, if one or more pointer-based mechanisms are supported, then their benefits should be afforded to users through simple, single-point actions alone.

Single pointer operations include taps and clicks, double-taps and double-clicks, long presses, swiping, dragging, and path-based gestures. Gestures such as "pinch to zoom" or two-finger swipes are multipoint gestures, as they require two or more pointer inputs - in this case, two fingers on a touchscreen.

An exception is made for functionality that is inherently and necessarily based on complex paths or multipoint gestures. For example, entering your signature may be inherently path-based (although acknowledging something or confirming your identity need not be).

Gestures that involve dragging in any direction are not in scope for this SC because only the start and end points matter in a dragging operation. However, such gestures do require fine motor control. Authors are encouraged to provide non-dragging methods, for instance, a drag and drop operation could also be achieved by selecting an item (with a tap or keyboard interaction) and then selecting its destination as a second step.




Each numbered item in this section represents a technique or combination of techniques that the WCAG Working Group deems sufficient for meeting this Success Criterion. However, it is not necessary to use these particular techniques. For information on using other techniques, see Understanding Techniques for WCAG Success Criteria, particularly the "Other Techniques" section.

Sufficient Techniques


The following are common mistakes that are considered failures of this Success Criterion by the WCAG Working Group.

Key Terms


if removed, would fundamentally change the information or functionality of the content, and information and functionality cannot be achieved in another way that would conform


processes and outcomes achievable through user action


series of user actions where each action is required in order to complete an activity

Successful use of a series of Web pages on a shopping site requires users to view alternative products, prices and offers, select products, submit an order, provide shipping information and provide payment information.

An account registration page requires successful completion of a Turing test before the registration form can be accessed.

single pointer

pointer input that operates with one point of contact with the screen, including single taps and clicks, double-taps and clicks, long presses, and path-based gestures