Editor’s Draft, 15 May 2026
More details about this documentCopyright © 2026 World Wide Web Consortium. W3C® liability, trademark and permissive document license rules apply.
The APIs introduced by this specification provide authors with a way to inspect and manipulate the visual view of a document. This includes getting the position of element layout boxes, obtaining the width of the viewport through script, and also scrolling an element.
CSS is a language for describing the rendering of structured documents (such as HTML and XML) on screen, on paper, etc.This is a public copy of the editors’ draft. It is provided for discussion only and may change at any moment. Its publication here does not imply endorsement of its contents by W3C. Don’t cite this document other than as work in progress.
Please send feedback by filing issues in GitHub (preferred), including the spec code “cssom-view” in the title, like this: “[cssom-view] …summary of comment…”. All issues and comments are archived. Alternately, feedback can be sent to the (archived) public mailing list www-style@w3.org.
This document is governed by the 18 August 2025 W3C Process Document.
Many of the features defined in this specification have been supported by browsers for a long period of time. The goal of this specification is to define these features in such a way that they can be implemented by all browsers in an interoperable manner. The specification also defines a some new features which allow for scroll customization.
TestsBasic IDL tests
Terminology used in this specification is from DOM, CSSOM and HTML. [DOM] [CSSOM] [HTML]
An element body (which will be the body element) is potentially scrollable if all of the following conditions are true:
body has an associated box.
body’s parent element’s computed value of the overflow-x or overflow-y properties is neither visible nor clip.
body’s computed value of the overflow-x or overflow-y properties is neither visible nor clip.
Note: A body element that is potentially scrollable might not have a scrolling box. For instance, it could have a used value of overflow being auto but not have its content overflowing its content area.
A scrolling box of a viewport or element has two overflow directions, which are the block-end and inline-end directions for that viewport or element. Note that the initial scroll position might not be aligned with the scrolling area origin depending on the content-distribution properties, see CSS Box Alignment 3 § 5.3 Alignment Overflow and Scroll Containers.
The term scrolling area refers to a box of a viewport or an element that has the following edges, depending on the viewport’s or element’s scrolling box’s overflow directions.
| rightward and downward | top edge The top edge of the initial containing block. right edge The right-most edge of the right edge of the initial containing block and the right margin edge of all of the viewport’s descendants' boxes. bottom edge The bottom-most edge of the bottom edge of the initial containing block and the bottom margin edge of all of the viewport’s descendants' boxes. left edge The left edge of the initial containing block. | top edge The element’s top padding edge. right edge The right-most edge of the element’s right padding edge and the right margin edge of all of the element’s descendants' boxes, excluding boxes that have an ancestor of the element as their containing block. bottom edge The bottom-most edge of the element’s bottom padding edge and the bottom margin edge of all of the element’s descendants' boxes, excluding boxes that have an ancestor of the element as their containing block. left edge The element’s left padding edge. |
| leftward and downward | top edge The top edge of the initial containing block. right edge The right edge of the initial containing block. bottom edge The bottom-most edge of the bottom edge of the initial containing block and the bottom margin edge of all of the viewport’s descendants' boxes. left edge The left-most edge of the left edge of the initial containing block and the left margin edge of all of the viewport’s descendants' boxes. | top edge The element’s top padding edge. right edge The element’s right padding edge. bottom edge The bottom-most edge of the element’s bottom padding edge and the bottom margin edge of all of the element’s descendants' boxes, excluding boxes that have an ancestor of the element as their containing block. left edge The left-most edge of the element’s left padding edge and the left margin edge of all of the element’s descendants' boxes, excluding boxes that have an ancestor of the element as their containing block. |
| leftward and upward | top edge The top-most edge of the top edge of the initial containing block and the top margin edge of all of the viewport’s descendants' boxes. right edge The right edge of the initial containing block. bottom edge The bottom edge of the initial containing block. left edge The left-most edge of the left edge of the initial containing block and the left margin edge of all of the viewport’s descendants' boxes. | top edge The top-most edge of the element’s top padding edge and the top margin edge of all of the element’s descendants' boxes, excluding boxes that have an ancestor of the element as their containing block. right edge The element’s right padding edge. bottom edge The element’s bottom padding edge. left edge The left-most edge of the element’s left padding edge and the left margin edge of all of the element’s descendants' boxes, excluding boxes that have an ancestor of the element as their containing block. |
| rightward and upward | top edge The top-most edge of the top edge of the initial containing block and the top margin edge of all of the viewport’s descendants' boxes. right edge The right-most edge of the right edge of the initial containing block and the right margin edge of all of the viewport’s descendants' boxes. bottom edge The bottom edge of the initial containing block. left edge The left edge of the initial containing block. | top edge The top-most edge of the element’s top padding edge and the top margin edge of all of the element’s descendants' boxes, excluding boxes that have an ancestor of the element as their containing block. right edge The right-most edge of the element’s right padding edge and the right margin edge of all of the element’s descendants' boxes, excluding boxes that have an ancestor of the element as their containing block. bottom edge The element’s bottom padding edge. left edge The element’s left padding edge. |
The origin of a scrolling area is the origin of the initial containing block if the scrolling area is a viewport, and otherwise the top left padding edge of the element when the element has its default scroll position. The x-coordinate increases rightwards, and the y-coordinate increases downwards.
The beginning edges of a particular set of edges of a box or element are the following edges:
If the overflow directions are rightward and downward The top and left edges. If the overflow directions are leftward and downward The top and right edges. If the overflow directions are leftward and upward The bottom and right edges. If the overflow directions are rightward and upward The bottom and left edges.The ending edges of a particular set of edges of a box or element are the following edges:
If the overflow directions are rightward and downward The bottom and right edges. If the overflow directions are leftward and downward The bottom and left edges. If the overflow directions are leftward and upward The top and left edges. If the overflow directions are rightward and upward The top and right edges.The visual viewport is a kind of viewport whose scrolling area is another viewport, called the layout viewport.
In addition to scrolling, the visual viewport may also apply a scale transform to its layout viewport. This transform is applied to the canvas of the layout viewport and does not affect its internal coordinate space.
Note: The scale transform of the visual viewport is often referred to as "pinch-zoom". Conceptually, this transform changes the size of the CSS reference pixel but changes the size of the layout viewport proportionally so that it does not cause reflow of the page’s contents.
The magnitude of the scale transform is known as the visual viewport’s scale factor.
This animation shows an example of a zoomed in visual viewport being "panned" around (for example, by a user performing a touch drag). The page is scaled so that the layout viewport is larger than the visual viewport.
A scroll delta is applied to the visual viewport first. When the visual viewport is at its extent, scroll delta will be applied to the layout viewport. This behavior is implemented by the perform a scroll steps.
Document Layout Viewport Visual ViewportThe VisualViewport object has an associated document, which is a Document object. It is the associated document of the owner Window of VisualViewport. The layout viewport is the owner Window’s viewport.
For the purpose of the requirements in this specification, elements that have a computed value of the display property that is table-column or table-column-group must be considered to have an associated box (the column or column group, respectively).
The term SVG layout box refers to a box generated by an SVG element which does not correspond to a CSS-defined display type. (Such as the box generated by a rect element.)
The term transforms refers to SVG transforms and CSS transforms. [SVG11] [CSS-TRANSFORMS-1]
When a method or an attribute is said to call another method or attribute, the user agent must invoke its internal API for that attribute or method so that e.g. the author can’t change the behavior by overriding attributes or methods with custom properties or functions in ECMAScript.
Unless otherwise stated, all string comparisons use is.
All coordinates and dimensions for the APIs defined in this specification are in CSS pixels, unless otherwise specified. [CSS-VALUES]
Note: This does not apply to e.g. matchMedia() as the units are explicitly given there.
There are two kinds of zoom, page zoom which affects the size of the initial viewport, and the visual viewport scale factor which acts like a magnifying glass and does not affect the initial viewport or actual viewport. [CSS-DEVICE-ADAPT]
Note: The "scale factor" is often referred to as "pinch-zoom"; however, it can be affected through means other than pinch-zooming. e.g. The user agent may zooms in on a focused input element to make it legible.
User agents may choose to hide information about the screen of the output device, in order to protect the user’s privacy. In order to do so in a consistent manner across APIs, this specification defines the following terms, each having a width and a height, the origin being the top left corner, and the x- and y-coordinates increase rightwards and downwards, respectively.
The Web-exposed screen area must return the result of the following algorithm:
Let target be this’s relevant global object’s browsing context.
Let emulated screen area be the WebDriver BiDi emulated total screen area of target.
If emulated screen area is not null, return emulated screen area.
Otherwise, return one of the following:
The area of the output device, in CSS pixels.
The area of the viewport, in CSS pixels.
The Web-exposed available screen area must return the result of the following algorithm:
Let target be this’s relevant global object’s browsing context.
Let emulated screen area be the WebDriver BiDi emulated available screen area for target.
If emulated screen area is not null, return emulated screen area.
Otherwise, return one of the following:
The available area of the rendering surface of the output device, in CSS pixels.
The area of the output device, in CSS pixels.
The area of the viewport, in CSS pixels.
This specification depends on the WHATWG Infra standard. [INFRA]
When a user agent is to perform a scroll of a scrolling box box, to a given position position, an associated element or pseudo-element element and optionally a scroll behavior behavior (which is "auto" if omitted), the following steps must be run:
Abort any ongoing smooth scroll for box.
Resolve all pending scroll Promises whose scroll container is box.
Let scrollPromise be a new Promise.
Return scrollPromise, and run the remaining steps in parallel.
If the user agent honors the scroll-behavior property and one of the following is true:
Wait until either the position has finished updating, or scrollPromise has been resolved.
If scrollPromise is still in the pending state:
If the scroll position changed as a result of this call, emit the scrollend event.
Resolve scrollPromise.
Note: behavior: "instant" always performs an instant scroll by this algorithm.
Note: If the scroll position did not change as a result of the user interaction or programmatic invocation, where no translations were applied as a result, then no scrollend event fires because no scrolling occurred.
When a user agent is to perform a scroll of a viewport to a given position position and optionally a scroll behavior behavior (which is "auto" if omitted) it must perform a coordinated viewport scroll by following these steps:
Let doc be the viewport’s associated Document.
Let vv be the VisualViewport whose associated document is doc.
Let maxX be the difference between viewport’s scrolling box’s width and the value of vv’s width attribute.
Let maxY be the difference between viewport’s scrolling box’s height and the value of vv’s height attribute.
Let dx be the horizontal component of position - the value vv’s pageLeft attribute
Let dy be the vertical component of position - the value of vv’s pageTop attribute
Let visual x be the value of vv’s offsetLeft attribute.
Let visual y be the value of vv’s offsetTop attribute.
Let visual dx be min(maxX, max(0, visual x + dx)) - visual x.
Let visual dy be min(maxY, max(0, visual y + dy)) - visual y.
Let layout dx be dx - visual dx
Let layout dy be dy - visual dy
Let element be doc’s root element if there is one, null otherwise.
Perform a scroll of the viewport’s scrolling box to its current scroll position + (layout dx, layout dy) with element as the associated element, and behavior as the scroll behavior. Let scrollPromise1 be the Promise returned from this step.
Perform a scroll of vv’s scrolling box to its current scroll position + (visual dx, visual dy) with element as the associated element, and behavior as the scroll behavior. Let scrollPromise2 be the Promise returned from this step.
Let scrollPromise be a new Promise.
Return scrollPromise, and run the remaining steps in parallel.
Resolve scrollPromise when both scrollPromise1 and scrollPromise2 have settled.
Note: Conceptually, the visual viewport is scrolled until it "bumps up" against the layout viewport edge and then "pushes" the layout viewport by applying the scroll delta to the layout viewport. However, the scrolls in the steps above are computed ahead of time and applied in the opposite order so that the layout viewport is scrolled before the visual viewport. This is done for historical reasons to ensure consistent scroll event ordering. See the example above for a visual depiction.
Scroll is completed when the scroll position has no more pending updates or translations and the user has completed their gesture. Scroll position updates include smooth or instant mouse wheel scrolling, keyboard scrolling, scroll-snap events, or other APIs and gestures which cause the scroll position to update and possibly interpolate. User gestures like touch panning or trackpad scrolling aren’t complete until pointers or keys have released.
When a user agent is to perform a smooth scroll of a scrolling box box to position, it must update the scroll position of box in a user-agent-defined fashion over a user-agent-defined amount of time. When the scroll is completed, the scroll position of box must be position. The scroll can also be aborted, either by an algorithm or by the user.
When a user agent is to perform an instant scroll of a scrolling box box to position, it must update the scroll position of box to position.
To scroll to the beginning of the document for a document document, follow these steps:
Note: This algorithm is used when navigating to the #top fragment identifier, as defined in HTML. [HTML]
TestsWhen asked to normalize non-finite values for a value x, if x is one of the three special floating point literal values (Infinity, -Infinity or NaN), then x must be changed to the value 0. [WEBIDL]
Should the scroll methods above return a result object and if so what information should they provide? #12495
When the matchMedia(query) method is invoked these steps must be run:
The screen attribute must return the Screen object associated with the Window object.
Note: Accessing screen through a WindowProxy object might yield different results when the Document is navigated.
If the associated document is fully active, the visualViewport attribute must return the VisualViewport object associated with the Window object’s associated document. Otherwise, it must return null.
Note: the VisualViewport object is only returned and useful for a window whose Document is currently being presented. If a reference is retained to a VisualViewport whose associated Document is not being currently presented, the values in that VisualViewport must not reveal any information about the browsing context.
TestsThe moveTo(x, y) method must follow these steps:
Optionally, return.
Let target be this’s relevant global object’s browsing context.
If target is not an auxiliary browsing context that was created by a script (as opposed to by an action of the user), then return.
If target’s top-level traversable’s Is Document Picture-in-Picture boolean is true, then return.
Optionally, clamp x and y in a user-agent-defined manner so that the window does not move outside the available space.
Move target’s window such that the window’s top left corner is at coordinates (x, y) relative to the top left corner of the output device, measured in CSS pixels of target. The positive axes are rightward and downward.
The moveBy(x, y) method must follow these steps:
Optionally, return.
Let target be this’s relevant global object’s browsing context.
If target is not an auxiliary browsing context that was created by a script (as opposed to by an action of the user), then return.
If target’s top-level traversable’s Is Document Picture-in-Picture boolean is true, then return.
Optionally, clamp x and y in a user-agent-defined manner so that the window does not move outside the available space.
Move target’s window x CSS pixels of target rightward and y CSS pixels of target downward.
The resizeTo(width, height) method must follow these steps:
Optionally, return.
Let target be this’s relevant global object’s browsing context.
If target is not an auxiliary browsing context that was created by a script (as opposed to by an action of the user), then return.
If target’s top-level traversable’s Is Document Picture-in-Picture boolean is true, then:
If this’s relevant global object does not have transient activation, throw a "NotAllowedError" DOMException.
Consume user activation given this’s relevant global object.
Optionally, clamp width and height in a user-agent-defined manner so that the window does not get too small or bigger than the available space.
Resize target’s window by moving its right and bottom edges such that the distance between the left and right edges of the viewport are width CSS pixels of target and the distance between the top and bottom edges of the viewport are height CSS pixels of target.
Optionally, move target’s window in a user-agent-defined manner so that it does not grow outside the available space.
The resizeBy(x, y) method must follow these steps:
Optionally, return.
Let target be this’s relevant global object’s browsing context.
If target is not an auxiliary browsing context that was created by a script (as opposed to by an action of the user), then return.
If target’s top-level traversable’s Is Document Picture-in-Picture boolean is true, then:
If this’s relevant global object does not have transient activation, throw a "NotAllowedError" DOMException.
Consume user activation given this’s relevant global object.
Optionally, clamp x and y in a user-agent-defined manner so that the window does not get too small or bigger than the available space.
Resize target’s window by moving its right edge x CSS pixels of target rightward and its bottom edge y CSS pixels of target downward.
Optionally, move target’s window in a user-agent-defined manner so that it does not grow outside the available space.
The innerWidth attribute must return the viewport width including the size of a rendered scroll bar (if any), or zero if there is no viewport.
The innerHeight attribute must return the viewport height including the size of a rendered scroll bar (if any), or zero if there is no viewport.
The scrollX attribute must return the x-coordinate, relative to the initial containing block origin, of the left of the viewport, or zero if there is no viewport.
The pageXOffset attribute must return the value returned by the scrollX attribute.
The scrollY attribute must return the y-coordinate, relative to the initial containing block origin, of the top of the viewport, or zero if there is no viewport.
The pageYOffset attribute must return the value returned by the scrollY attribute.
When the scroll() method is invoked these steps must be run:
If invoked with one argument, follow these substeps:
Let options be the argument.
Let x be the value of the left dictionary member of options, if present, or the viewport’s current scroll position on the x axis otherwise.
Let y be the value of the top dictionary member of options, if present, or the viewport’s current scroll position on the y axis otherwise.
If invoked with two arguments, follow these substeps:
Let options be null converted to a ScrollToOptions dictionary. [WEBIDL]
Let x and y be the arguments, respectively.
Normalize non-finite values for x and y.
If there is no viewport, return a resolved Promise and abort the remaining steps.
Let viewport width be the width of the viewport excluding the width of the scroll bar, if any.
Let viewport height be the height of the viewport excluding the height of the scroll bar, if any.
Let position be the scroll position the viewport would have by aligning the x-coordinate x of the viewport scrolling area with the left of the viewport and aligning the y-coordinate y of the viewport scrolling area with the top of the viewport.
If position is the same as the viewport’s current scroll position, and the viewport does not have an ongoing smooth scroll, return a resolved Promise and abort the remaining steps.
Let document be the viewport’s associated Document.
Perform a scroll of the viewport to position, document’s root element as the associated element, if there is one, or null otherwise, and the scroll behavior being the value of the behavior dictionary member of options. Let scrollPromise be the Promise returned from this step.
Return scrollPromise.
User agents do not agree whether this uses the (coordinated) viewport perform a scroll or the scrolling box perform a scroll on the layout viewport’s scrolling box.
When the scrollTo() method is invoked, the user agent must act as if the scroll() method was invoked with the same arguments.
TestsWhen the scrollBy() method is invoked, the user agent must run these steps:
If invoked with two arguments, follow these substeps:
Let options be null converted to a ScrollToOptions dictionary. [WEBIDL]
Let x and y be the arguments, respectively.
Let the left dictionary member of options have the value x.
Let the top dictionary member of options have the value y.
Normalize non-finite values for the left and top dictionary members of options.
Return the Promise returned from scroll() after the method is invoked with options as the only argument.
The screenX and screenLeft attributes must return the x-coordinate, relative to the origin of the Web-exposed screen area, of the left of the client window as number of CSS pixels, or zero if there is no such thing.
TestsThe screenY and screenTop attributes must return the y-coordinate, relative to the origin of the screen of the Web-exposed screen area, of the top of the client window as number of CSS pixels, or zero if there is no such thing.
The outerWidth attribute must return the width of the client window. If there is no client window this attribute must return zero.
The outerHeight attribute must return the height of the client window. If there is no client window this attribute must return zero.
The devicePixelRatio attribute must return the result of the following determine the device pixel ratio algorithm:
If there is no output device, return 1 and abort these steps.
Let CSS pixel size be the size of a CSS pixel at the current page zoom and using a scale factor of 1.0.
Let device pixel size be the vertical size of a device pixel of the output device.
Return the result of dividing CSS pixel size by device pixel size.
HTML defines the open() method. This section defines behavior for position and size given in the features argument. [HTML]
To set up browsing context features for a browsing context target given a map tokenizedFeatures:
Let x be null.
Let y be null.
Let width be null.
Let height be null.
If tokenizedFeatures["left"] exists:
Set x to the result of invoking the rules for parsing integers on tokenizedFeatures["left"].
If x is an error, set x to 0.
Optionally, clamp x in a user-agent-defined manner so that the window does not move outside the Web-exposed available screen area.
Optionally, move target’s window such that the window’s left edge is at the horizontal coordinate x relative to the left edge of the Web-exposed screen area, measured in CSS pixels of target. The positive axis is rightward.
If tokenizedFeatures["top"] exists:
Set y to the result of invoking the rules for parsing integers on tokenizedFeatures["top"].
If y is an error, set y to 0.
Optionally, clamp y in a user-agent-defined manner so that the window does not move outside the Web-exposed available screen area.
Optionally, move target’s window such that the window’s top edge is at the vertical coordinate y relative to the top edge of the Web-exposed screen area, measured in CSS pixels of target. The positive axis is downward.
If tokenizedFeatures["width"] exists:
Set width to the result of invoking the rules for parsing integers on tokenizedFeatures["width"].
If width is an error, set width to 0.
If width is not 0:
Optionally, clamp width in a user-agent-defined manner so that the window does not get too small or bigger than the Web-exposed available screen area.
Optionally, size target’s window by moving its right edge such that the distance between the left and right edges of the viewport are width CSS pixels of target.
Optionally, move target’s window in a user-agent-defined manner so that it does not grow outside the Web-exposed available screen area.
If tokenizedFeatures["height"] exists:
Set height to the result of invoking the rules for parsing integers on tokenizedFeatures["height"].
If height is an error, set height to 0.
If height is not 0:
Optionally, clamp height in a user-agent-defined manner so that the window does not get too small or bigger than the Web-exposed available screen area.
Optionally, size target’s window by moving its bottom edge such that the distance between the top and bottom edges of the viewport are height CSS pixels of target.
Optionally, move target’s window in a user-agent-defined manner so that it does not grow outside the Web-exposed available screen area.
A supported open() feature name is one of the following:
width The width of the viewport. height The height of the viewport. left The left position of the window. top The top position of the window.This section integrates with the event loop defined in HTML. [HTML]
A MediaQueryList object has an associated media query list and an associated document set on creation.
A MediaQueryList object has an associated media which is the serialized form of the associated media query list.
A MediaQueryList object has an associated matches state which is true if the associated media query list matches the state of the document, and false otherwise.
When asked to evaluate media queries and report changes for a Document doc, run these steps:
For each MediaQueryList object target that has doc as its document, in the order they were created, oldest first, run these substeps:
The media attribute must return the associated media.
The matches attribute must return the associated matches state.
The addListener(callback) method, when invoked, must run these steps:
Add an event listener with this and an event listener whose type is change, and callback is callback.
The removeListener(callback) method, when invoked, must run these steps:
If this’s event listener list contains an event listener whose type is change, callback is callback, and capture is false, then remove an event listener with this and that event listener.
Note: This specification initially had a custom callback mechanism with addListener() and removeListener(), and the callback was invoked with the associated media query list as argument. Now the normal event mechanism is used instead. For backwards compatibility, the addListener() and removeListener() methods are basically aliases for addEventListener() and removeEventListener(), respectively, and the change event masquerades as a MediaQueryList.
The following are the event handlers (and their corresponding event handler event types) that must be supported, as event handler IDL attributes, by all objects implementing the MediaQueryList interface:
| onchange | change |
The media attribute must return the value it was initialized to.
The matches attribute must return the value it was initialized to.
This section is non-normative.
| change | MediaQueryListEvent | MediaQueryList | Fired at the MediaQueryList when the matches state changes. |
As its name suggests, the Screen interface represents information about the screen of the output device.
[Exposed=Window] interface Screen { readonly attribute long availWidth; readonly attribute long availHeight; readonly attribute long width; readonly attribute long height; readonly attribute unsigned long colorDepth; readonly attribute unsigned long pixelDepth; };The availWidth attribute must return the width of the Web-exposed available screen area.
The availHeight attribute must return the height of the Web-exposed available screen area.
The width attribute must return the width of the Web-exposed screen area.
The height attribute must return the height of the Web-exposed screen area.
The colorDepth and pixelDepth attributes should return the number of bits allocated to colors for a pixel in the output device, excluding the alpha channel. If the user agent is not able to return the number of bits used by the output device, it should return the closest estimation such as, for example, the number of bits used by the frame buffer sent to the display or any internal representation that would be the closest to the value the output device would use. The user agent must return a value for these attributes at least equal to the value of the color media feature multiplied by three. If the different color components are not represented with the same number of bits, the returned value may be greater than three times the value of the color media feature. If the user agent does not know the color depth or does not want to return it for privacy considerations, it should return 24.
Note: The colorDepth and pixelDepth attributes return the same value for compatibility reasons.
Note: Some non-conforming implementations are known to return 32 instead of 24.
TestsThe elementFromPoint(x, y) method must follow these steps:
If either argument is negative, x is greater than the viewport width excluding the size of a rendered scroll bar (if any), or y is greater than the viewport height excluding the size of a rendered scroll bar (if any), or there is no viewport associated with the document, return null and terminate these steps.
If there is a box in the viewport that would be a target for hit testing at coordinates x,y, when applying the transforms that apply to the descendants of the viewport, return the associated element and terminate these steps.
If the document has a root element, return the root element and terminate these steps.
Return null.
Note: The elementFromPoint() method does not necessarily return the top-most painted element. For instance, an element can be excluded from being a target for hit testing by using the pointer-events CSS property.
TestsThe elementsFromPoint(x, y) method must follow these steps:
Let sequence be a new empty sequence.
If either argument is negative, x is greater than the viewport width excluding the size of a rendered scroll bar (if any), or y is greater than the viewport height excluding the size of a rendered scroll bar (if any), or there is no viewport associated with the document, return sequence and terminate these steps.
For each box in the viewport, in paint order, starting with the topmost box, that would be a target for hit testing at coordinates x,y even if nothing would be overlapping it, when applying the transforms that apply to the descendants of the viewport, append the associated element to sequence.
If the document has a root element, and the last item in sequence is not the root element, append the root element to sequence.
Return sequence.
The caretPositionFromPoint(x, y, options) method must return the result of running these steps:
If there is no viewport associated with the document, return null.
If either argument is negative, x is greater than the viewport width excluding the size of a rendered scroll bar (if any), y is greater than the viewport height excluding the size of a rendered scroll bar (if any) return null.
If at the coordinates x,y in the viewport no text insertion point indicator would have been inserted when applying the transforms that apply to the descendants of the viewport, return null.
If at the coordinates x,y in the viewport a text insertion point indicator would have been inserted in a text entry widget which is also a replaced element, when applying the transforms that apply to the descendants of the viewport, return a caret position with its properties set as follows:
caret node The node corresponding to the text entry widget. caret offset The amount of 16-bit units to the left of where the text insertion point indicator would have inserted.Otherwise:
Let caretPosition be a tuple consisting of a caretPositionNode (a node) and a caretPositionOffset (a non-negative integer) for the position where the text insertion point indicator would have been inserted when applying the transforms that apply to the descendants of the viewport.
Let startNode be the caretPositionNode of the caretPosition, and let startOffset be the caretPositionOffset of the caretPosition.
While startNode is a node, startNode’s root is a shadow root, and startNode’s root is not a shadow-including inclusive ancestor of any of options["shadowRoots"], repeat these steps:
Return a caret position with its properties set as follows:
caret node is set to startNode.
caret offset is set to startOffset.
Note: This caret position is not live.
Note: The specifics of hit testing are out of scope of this specification and therefore the exact details of elementFromPoint() and caretPositionFromPoint() are therefore too. Hit testing will hopefully be defined in a future revision of CSS or HTML.
The scrollingElement attribute, on getting, must run these steps:
If the Document is in quirks mode, follow these substeps:
If the body element exists, and it is not potentially scrollable, return the body element and abort these steps.
For this purpose, a value of overflow:clip on the the body element’s parent element must be treated as overflow:hidden.
Return null and abort these steps.
If there is a root element, return the root element and abort these steps.
Return null.
Note: For non-conforming user agents that always use the quirks mode behavior for scrollTop and scrollLeft, the scrollingElement attribute is expected to also always return the body element (or null if it does not exist). This API exists so that Web developers can use it to get the right element to use for scrolling APIs, without making assumptions about a particular user agent’s behavior or having to invoke a scroll to see which element scrolls the viewport.
Note: the body element is different from HTML’s document.body in that the latter can return a frameset element.
TestsA caret position gives the position of a text insertion point indicator. It always has an associated caret node and caret offset. It is represented by a CaretPosition object.
[Exposed=Window] interface CaretPosition { readonly attribute Node offsetNode; readonly attribute unsigned long offset; [NewObject] DOMRect? getClientRect(); };The offsetNode attribute must return the caret node.
The offset attribute must return the caret offset.
The getClientRect() method must follow these steps, aborting on the first step that returns a value:
If caret node is a text entry widget that is a replaced element, and that is in the document, return a scaled DOMRect object for the caret in the widget as represented by the caret offset value. The transforms that apply to the element and its ancestors are applied.
Otherwise:
Let caretRange be a collapsed Range object whose start node and end node are set to caret node, and whose start offset and end offset are set to caret offset.
Return the DOMRect object which is the result of invoking the getBoundingClientRect() method on caretRange.
Note: This DOMRect object is not live.
TestsShould the scroll methods above return a result object and if so what information should they provide? #12495
Note: The checkOpacity and checkVisibilityCSS properties are historical names. These properties have aliases that match the new naming scheme, namely opacityProperty and visibilityProperty.
The getClientRects() method, when invoked, must return the result of the following algorithm:
If the element on which it was invoked does not have an associated box return an empty DOMRectList object and stop this algorithm.
If the element has an associated SVG layout box return a scaled DOMRectList object containing a single DOMRect object that describes the bounding box of the element as defined by the SVG specification, applying the transforms that apply to the element and its ancestors.
Return a DOMRectList object containing DOMRect objects in content order, one for each box fragment, describing its border area (including those with a height or width of zero) with the following constraints:
Apply the transforms that apply to the element and its ancestors.
If the element on which the method was invoked has a computed value for the display property of table or inline-table include both the table box and the caption box, if any, but not the anonymous container box.
Replace each anonymous block box with its child box(es) and repeat this until no anonymous block boxes are left in the final list.
Note: The DOMRect objects returned by getClientRects() are not live.
TestsThe getBoundingClientRect() method, when invoked on an element element, must return the result of getting the bounding box for element.
Let list be the result of invoking getClientRects() on element.
If the list is empty return a DOMRect object whose x, y, width and height members are zero.
If all rectangles in list have zero width or height, return the first rectangle in list.
Otherwise, return a DOMRect object describing the smallest rectangle that includes all of the rectangles in list of which the height or width is not zero.
Note: The DOMRect object returned by getBoundingClientRect() is not live.
The checkVisibility(options) method must run these steps, when called on an element this:
If this does not have an associated box, return false.
If an ancestor of this in the flat tree has content-visibility: hidden, return false.
If either the opacityProperty or the checkOpacity dictionary members of options are true, and this, or an ancestor of this in the flat tree, has a computed opacity value of 0, return false.
If either the visibilityProperty or the checkVisibilityCSS dictionary members of options are true, and this is invisible, return false.
If the contentVisibilityAuto dictionary member of options is true and an ancestor of this in the flat tree skips its contents due to content-visibility: auto, return false.
Return true.
The scrollIntoView(arg) method must run these steps:
Let behavior be "auto".
Let block be "start".
Let inline be "nearest".
Let container be null.
If arg is a ScrollIntoViewOptions dictionary, then:
Otherwise, if arg is false, then set block to "end".
If the element does not have any associated box, or is not available to user-agent features, then return a resolved Promise and abort the remaining steps.
Scroll the element into view with behavior, block, inline, and container. Let scrollPromise be the Promise returned from this step
Optionally perform some other action that brings the element to the user’s attention.
Return scrollPromise.
The scroll() method must run these steps:
If invoked with one argument, follow these substeps:
Let options be the argument.
Normalize non-finite values for left and top dictionary members of options, if present.
Let x be the value of the left dictionary member of options, if present, or the element’s current scroll position on the x axis otherwise.
Let y be the value of the top dictionary member of options, if present, or the element’s current scroll position on the y axis otherwise.
If invoked with two arguments, follow these substeps:
Let options be null converted to a ScrollToOptions dictionary. [WEBIDL]
Let x and y be the arguments, respectively.
Normalize non-finite values for x and y.
Let the left dictionary member of options have the value x.
Let the top dictionary member of options have the value y.
Let document be the element’s node document.
If document is not the active document, return a resolved Promise and abort the remaining steps.
Let window be the value of document’s defaultView attribute.
If window is null, return a resolved Promise and abort the remaining steps.
If the element is the root element and document is in quirks mode, return a resolved Promise and abort the remaining steps.
If the element is the root element, return the Promise returned by scroll() on window after the method is invoked with scrollX on window as first argument and y as second argument, and abort the remaining steps.
If the element is the body element, document is in quirks mode, and the element is not potentially scrollable, return the Promise returned by scroll() on window after the method is invoked with options as the only argument, and abort the remaining steps.
If the element does not have any associated box, the element has no associated scrolling box, or the element has no overflow, return a resolved Promise and abort the remaining steps.
Scroll the element to x,y, with the scroll behavior being the value of the behavior dictionary member of options. Let scrollPromise be the Promise returned from this step.
Return scrollPromise.
When the scrollTo() method is invoked, the user agent must act as if the scroll() method was invoked with the same arguments.
When the scrollBy() method is invoked, the user agent must run these steps:
If invoked with one argument, follow these substeps:
Let options be the argument.
Normalize non-finite values for left and top dictionary members of options, if present.
If invoked with two arguments, follow these substeps:
Let options be null converted to a ScrollToOptions dictionary. [WEBIDL]
Let x and y be the arguments, respectively.
Normalize non-finite values for x and y.
Let the left dictionary member of options have the value x.
Let the top dictionary member of options have the value y.
Add the value of scrollLeft to the left dictionary member.
Return the Promise returned by scroll() after the method is invoked with options as the only argument.
The scrollTop attribute, on getting, must return the result of running these steps:
Let document be the element’s node document.
If document is not the active document, return zero and terminate these steps.
Let window be the value of document’s defaultView attribute.
If window is null, return zero and terminate these steps.
If the element is the root element and document is in quirks mode, return zero and terminate these steps.
If the element is the root element return the value of scrollY on window.
If the element is the body element, document is in quirks mode, and the element is not potentially scrollable, return the value of scrollY on window.
If the element does not have any associated box, return zero and terminate these steps.
Return the y-coordinate of the scrolling area at the alignment point with the top of the padding edge of the element.
When setting the scrollTop attribute these steps must be run:
Let y be the given value.
Normalize non-finite values for y.
Let document be the element’s node document.
If document is not the active document, terminate these steps.
Let window be the value of document’s defaultView attribute.
If window is null, terminate these steps.
If the element is the root element and document is in quirks mode, terminate these steps.
If the element is the root element invoke scroll() on window with scrollX on window as first argument and y as second argument, and terminate these steps.
If the element is the body element, document is in quirks mode, and the element is not potentially scrollable, invoke scroll() on window with scrollX as first argument and y as second argument, and terminate these steps.
If the element does not have any associated box, the element has no associated scrolling box, or the element has no overflow, terminate these steps.
Scroll the element to scrollLeft,y, with the scroll behavior being "auto".
The scrollLeft attribute, on getting, must return the result of running these steps:
Let document be the element’s node document.
If document is not the active document, return zero and terminate these steps.
Let window be the value of document’s defaultView attribute.
If window is null, return zero and terminate these steps.
If the element is the root element and document is in quirks mode, return zero and terminate these steps.
If the element is the root element return the value of scrollX on window.
If the element is the body element, document is in quirks mode, and the element is not potentially scrollable, return the value of scrollX on window.
If the element does not have any associated box, return zero and terminate these steps.
Return the x-coordinate of the scrolling area at the alignment point with the left of the padding edge of the element.
When setting the scrollLeft attribute these steps must be run:
Let x be the given value.
Normalize non-finite values for x.
Let document be the element’s node document.
If document is not the active document, terminate these steps.
Let window be the value of document’s defaultView attribute.
If window is null, terminate these steps.
If the element is the root element and document is in quirks mode, terminate these steps.
If the element is the root element invoke scroll() on window with x as first argument and scrollY on window as second argument, and terminate these steps.
If the element is the body element, document is in quirks mode, and the element is not potentially scrollable, invoke scroll() on window with x as first argument and scrollY on window as second argument, and terminate these steps.
If the element does not have any associated box, the element has no associated scrolling box, or the element has no overflow, terminate these steps.
Scroll the element to x,scrollTop, with the scroll behavior being "auto".
The scrollWidth attribute must return the result of running these steps:
Let document be the element’s node document.
If document is not the active document, return zero and terminate these steps.
Let viewport width be the width of the viewport excluding the width of the scroll bar, if any, or zero if there is no viewport.
If the element is the root element and document is not in quirks mode return max(viewport scrolling area width, viewport width).
If the element is the body element, document is in quirks mode and the element is not potentially scrollable, return max(viewport scrolling area width, viewport width).
If the element does not have any associated box return zero and terminate these steps.
Return the width of the element’s scrolling area.
The scrollHeight attribute must return the result of running these steps:
Let document be the element’s node document.
If document is not the active document, return zero and terminate these steps.
Let viewport height be the height of the viewport excluding the height of the scroll bar, if any, or zero if there is no viewport.
If the element is the root element and document is not in quirks mode return max(viewport scrolling area height, viewport height).
If the element is the body element, document is in quirks mode and the element is not potentially scrollable, return max(viewport scrolling area height, viewport height).
If the element does not have any associated box return zero and terminate these steps.
Return the height of the element’s scrolling area.
The clientTop attribute must run these steps:
If the element has no associated box or if the box is inline, return zero.
Return the unscaled computed value of the border-top-width property plus the height of any scrollbar rendered between the top padding edge and the top border edge, ignoring any transforms that apply to the element and its ancestors.
The clientLeft attribute must run these steps:
If the element has no associated box or if the box is inline, return zero.
Return the unscaled computed value of the border-left-width property plus the width of any scrollbar rendered between the left padding edge and the left border edge, ignoring any transforms that apply to the element and its ancestors.
The clientWidth attribute must run these steps:
If the element has no associated box or if the box is inline, return zero.
If the element is the root element and the element’s node document is not in quirks mode, or if the element is the body element and the element’s node document is in quirks mode, return the viewport width excluding the size of a rendered scroll bar (if any).
Return the unscaled width of the padding edge excluding the width of any rendered scrollbar between the padding edge and the border edge, ignoring any transforms or that apply to the element and its ancestors.
The clientHeight attribute must run these steps:
If the element has no associated box or if the box is inline, return zero.
If the element is the root element and the element’s node document is not in quirks mode, or if the element is the body element and the element’s node document is in quirks mode, return the viewport height excluding the size of a rendered scroll bar (if any).
Return the unscaled height of the padding edge excluding the height of any rendered scrollbar between the padding edge and the border edge, ignoring any transforms that apply to the element and its ancestors.
The currentCSSZoom attribute must return the effective zoom of the element, or 1.0 if the element isn’t being rendered.
TestsTo determine the scroll-into-view position of a target, which is an Element, pseudo-element, or Range, with a scroll behavior behavior, a block flow direction position block, an inline base direction position inline, and a scrolling box scrolling box, run the following steps:
Let target bounding border box be the box represented by the return value of invoking Element’s getBoundingClientRect(), if target is an Element, or Range’s getBoundingClientRect(), if target is a Range.
Let scrolling box edge A be the beginning edge in the block flow direction of scrolling box, and let element edge A be target bounding border box’s edge on the same physical side as that of scrolling box edge A.
Let scrolling box edge B be the ending edge in the block flow direction of scrolling box, and let element edge B be target bounding border box’s edge on the same physical side as that of scrolling box edge B.
Let scrolling box edge C be the beginning edge in the inline base direction of scrolling box, and let element edge C be target bounding border box’s edge on the same physical side as that of scrolling box edge C.
Let scrolling box edge D be the ending edge in the inline base direction of scrolling box, and let element edge D be target bounding border box’s edge on the same physical side as that of scrolling box edge D.
Let element height be the distance between element edge A and element edge B.
Let scrolling box height be the distance between scrolling box edge A and scrolling box edge B.
Let element width be the distance between element edge C and element edge D.
Let scrolling box width be the distance between scrolling box edge C and scrolling box edge D.
Let position be the scroll position scrolling box would have by following these steps:
If block is "start", then align element edge A with scrolling box edge A.
Otherwise, if block is "end", then align element edge B with scrolling box edge B.
Otherwise, if block is "center", then align the center of target bounding border box with the center of scrolling box in scrolling box’s block flow direction.
Otherwise, block is "nearest":
If element edge A and element edge B are both outside scrolling box edge A and scrolling box edge B Do nothing. If element edge A is outside scrolling box edge A and element height is less than scrolling box height If element edge B is outside scrolling box edge B and element height is greater than scrolling box height Align element edge A with scrolling box edge A. If element edge A is outside scrolling box edge A and element height is greater than scrolling box height If element edge B is outside scrolling box edge B and element height is less than scrolling box height Align element edge B with scrolling box edge B.If inline is "start", then align element edge C with scrolling box edge C.
Otherwise, if inline is "end", then align element edge D with scrolling box edge D.
Otherwise, if inline is "center", then align the center of target bounding border box with the center of scrolling box in scrolling box’s inline base direction.
Otherwise, inline is "nearest":
If element edge C and element edge D are both outside scrolling box edge C and scrolling box edge D Do nothing. If element edge C is outside scrolling box edge C and element width is less than scrolling box width If element edge D is outside scrolling box edge D and element width is greater than scrolling box width Align element edge C with scrolling box edge C. If element edge C is outside scrolling box edge C and element width is greater than scrolling box width If element edge D is outside scrolling box edge D and element width is less than scrolling box width Align element edge D with scrolling box edge D.If target is an Element, and the target element defines some scroll snap positions, then the user agent must scroll snap the resulting position to one of that element’s scroll snap positions if its nearest scroll container is a scroll snap container. The user agent may also do this even when the scroll container has scroll-snap-type: none.
Return position.
Let ancestorPromises be an empty set of Promises.
For each ancestor element or viewport that establishes a scrolling box scrolling box, in order of innermost to outermost scrolling box, run these substeps:
If the Document associated with target is not same origin with the Document associated with the element or viewport associated with scrolling box, abort any remaining iteration of this loop.
Let position be the scroll position resulting from running the steps to determine the scroll-into-view position of target with behavior as the scroll behavior, block as the block flow position, inline as the inline base direction position and scrolling box as the scrolling box.
If position is not the same as scrolling box’s current scroll position, or scrolling box has an ongoing smooth scroll,
Let document be the viewport’s associated Document.
Let root element be document’s root element, if there is one, or null otherwise.
Perform a scroll of the viewport to position, with root element as the associated element and behavior as the scroll behavior. Add the Promise retured from this step in the set ancestorPromises.
If container is not null and either scrolling box is a shadow-including inclusive ancestor of container or is a viewport whose document is a shadow-including inclusive ancestor of container, abort any remaining iteration of this loop.
Let scrollPromise be a new Promise.
Return scrollPromise, and run the remaining steps in parallel.
Resolve scrollPromise when all Promises in ancestorPromises have settled.
To scroll an element (or pseudo-element) element to x,y optionally with a scroll behavior behavior (which is "auto" if omitted) means to:
Let box be element’s associated scrolling box.
Let position be the scroll position box would have by aligning scrolling area x-coordinate x with the left of box and aligning scrolling area y-coordinate y with the top of box.
If position is the same as box’s current scroll position, and box does not have an ongoing smooth scroll, return a resolved Promise and abort the remaining steps.
Perform a scroll of box to position, element as the associated element and behavior as the scroll behavior. Let scrollPromise be the Promise returned from this step.
Return scrollPromise.
The scrollParent attribute must return the result of running these steps:
If any of the following holds true, return null and terminate this algorithm:
The element does not have an associated box.
The element is the root element.
The element is the body element.
The element’s computed value of the position property is fixed and no ancestor establishes a fixed position containing block.
Let ancestor be the containing block of the element in the flat tree and repeat these substeps:
If ancestor is the initial containing block, return the scrollingElement for the element’s document if it is not from the element, otherwise return null.
If ancestor is not from the element, and is a scroll container, terminate this algorithm and return ancestor.
If the computed value of the position property of ancestor is fixed, and no ancestor establishes a fixed position containing block, terminate this algorithm and return null.
Let ancestor be the containing block of ancestor in the flat tree.
The offsetParent attribute must return the result of running these steps:
If any of the following holds true return null and terminate this algorithm:
The element does not have an associated box.
The element is the root element.
The element is the body element.
The element’s computed value of the position property is fixed and no ancestor establishes a fixed position containing block.
Let ancestor be the parent of the element in the flat tree and repeat these substeps:
If ancestor is from the element, its computed value of the position property is fixed, and no ancestor establishes a fixed position containing block, terminate this algorithm and return null.
If ancestor is not from the element and satisfies at least one of the following, terminate this algorithm and return ancestor.
The element is in a fixed position containing block, and ancestor is a containing block for fixed-positioned descendants.
The element is not in a fixed position containing block, and:
ancestor is a containing block of absolutely-positioned descendants (regardless of whether there are any absolutely-positioned descendants).
It is the body element.
The computed value of the position property of the element is static and the ancestor is one of the following HTML elements: td, th, or table.
The element has a different effective zoom than ancestor.
If there is no more parent of ancestor in the flat tree, terminate this algorithm and return null.
Let ancestor be the parent of ancestor in the flat tree.
The offsetTop attribute must return the result of running these steps:
If the element is the body element or does not have any associated box return zero and terminate this algorithm.
If the offsetParent of the element is null return the unscaled y-coordinate of the top border edge of the first box associated with the element, relative to the initial containing block origin, ignoring any transformsthat apply to the element and its ancestors and terminate this algorithm.
Return the unscaled result of subtracting the y-coordinate of the top padding edge of the first box associated with the offsetParent of the element from the y-coordinate of the top border edge of the first box associated with the element, relative to the initial containing block origin, ignoring any transforms that apply to the element and its ancestors.
Note: An inline element that consists of multiple line boxes will only have its first box considered.
The offsetLeft attribute must return the result of running these steps:
If the element is the body element or does not have any associated box return zero and terminate this algorithm.
If the offsetParent of the element is null return the unscaled x-coordinate of the left border edge of the first box associated with the element, relative to the initial containing block origin, ignoring any transforms that apply to the element and its ancestors, and terminate this algorithm.
Return the unscaled result of subtracting the x-coordinate of the left padding edge of the first box associated with the offsetParent of the element from the x-coordinate of the left border edge of the first box associated with the element, relative to the initial containing block origin, ignoring any transforms that apply to the element and its ancestors.
The offsetWidth attribute must return the result of running these steps:
If the element does not have any associated box return zero and terminate this algorithm.
Return the unscaled width of the axis-aligned bounding box of the border boxes of all fragments generated by the element’s principal box, ignoring any transforms that apply to the element and its ancestors.
If the element’s principal box is an inline-level box which was "split" by a block-level descendant, also include fragments generated by the block-level descendants, unless they are zero width or height.
The offsetHeight attribute must return the result of running these steps:
If the element does not have any associated box return zero and terminate this algorithm.
Return the unscaled height of the axis-aligned bounding box of the border boxes of all fragments generated by the element’s principal box, ignoring any transforms that apply to the element and its ancestors.
If the element’s principal box is an inline-level box which was "split" by a block-level descendant, also include fragments generated by the block-level descendants, unless they are zero width or height.
The x attribute, on getting, must return the scaled x-coordinate of the left border edge of the first box associated with the element, relative to the initial containing block origin, ignoring any transforms that apply to the element and its ancestors, or zero if there is no box.
The y attribute, on getting, must return the scaled y-coordinate of the top border edge of the first box associated with the element, relative to the initial containing block origin, ignoring any transforms that apply to the element and its ancestors, or zero if there is no box.
TestsThe getClientRects() method, when invoked, must return an empty DOMRectList object if the range is not in the document and otherwise a DOMRectList object containing a list of DOMRect objects in content order that matches the following constraints:
For each element selected by the range, whose parent is not selected by the range, include the border areas returned by invoking getClientRects() on the element.
For each Text node selected or partially selected by the range (including when the boundary-points are identical), include scaled DOMRect object (for the part that is selected, not the whole line box). The bounds of these DOMRect objects are computed using font metrics; thus, for horizontal writing, the vertical dimension of each box is determined by the font ascent and descent, and the horizontal dimension by the text advance width. If the range covers a partial typographic character unit (e.g. half a surrogate pair or part of a grapheme cluster), the full typographic character unit must be included for the purpose of computing the bounds of the relevant DOMRect. [CSS-TEXT-3] The transforms that apply to the ancestors are applied.
Note: The DOMRect objects returned by getClientRects() are not live.
TestsThe getBoundingClientRect() method, when invoked, must return the result of the following algorithm:
Let list be the result of invoking getClientRects() on the same range this method was invoked on.
If list is empty return a DOMRect object whose x, y, width and height members are zero.
If all rectangles in list have zero width or height, return the first rectangle in list.
Otherwise, return a DOMRect object describing the smallest rectangle that includes all of the rectangles in list of which the height or width is not zero.
Note: The DOMRect object returned by getBoundingClientRect() is not live.
TestsThe object IDL fragment redefines some members. Can we resolve this somehow?
partial interface MouseEvent { readonly attribute double screenX; readonly attribute double screenY; readonly attribute double pageX; readonly attribute double pageY; readonly attribute double clientX; readonly attribute double clientY; readonly attribute double x; readonly attribute double y; readonly attribute double offsetX; readonly attribute double offsetY; }; partial dictionary MouseEventInit { double screenX = 0.0; double screenY = 0.0; double clientX = 0.0; double clientY = 0.0; }; TestsThe screenX attribute must return the x-coordinate of the position where the event occurred relative to the origin of the Web-exposed screen area.
The screenY attribute must return the y-coordinate of the position where the event occurred relative to the origin of the Web-exposed screen area.
The pageX attribute must follow these steps:
If the event’s dispatch flag is set, return the horizontal coordinate of the position where the event occurred relative to the origin of the initial containing block and terminate these steps.
Let offset be the value of the scrollX attribute of the event’s associated Window object, if there is one, or zero otherwise.
Return the sum of offset and the value of the event’s clientX attribute.
The pageY attribute must follow these steps:
If the event’s dispatch flag is set, return the vertical coordinate of the position where the event occurred relative to the origin of the initial containing block and terminate these steps.
Let offset be the value of the scrollY attribute of the event’s associated Window object, if there is one, or zero otherwise.
Return the sum of offset and the value of the event’s clientY attribute.
The clientX attribute must return the x-coordinate of the position where the event occurred relative to the origin of the viewport.
The clientY attribute must return the y-coordinate of the position where the event occurred relative to the origin of the viewport.
The x attribute must return the value of clientX.
The y attribute must return the value of clientY.
The offsetX attribute must follow these steps:
If the event’s dispatch flag is set, return the x-coordinate of the position where the event occurred relative to the origin of the padding edge of the target node, ignoring the transforms that apply to the element and its ancestors, and terminate these steps.
Return the value of the event’s pageX attribute.
The offsetY attribute must follow these steps:
If the event’s dispatch flag is set, return the y-coordinate of the position where the event occurred relative to the origin of the padding edge of the target node, ignoring the transforms that apply to the element and its ancestors, and terminate these steps.
Return the value of the event’s pageY attribute.
The getBoxQuads(options) method must run the following steps:
p1 = top left even in RTL
scale to 0 means divide by zero, return 0x0
cross-frames not allowed, throw WrongDocumentError?
points are flattened (3d transform), z=0. like getClientRect
test block in inline
pseudo-elements before/after are children of the element
viewport boxes are all the same
The convertQuadFromNode(quad, from, options) method must run the following steps:
The convertRectFromNode(rect, from, options) method must run the following steps:
The convertPointFromNode(point, from, options) method must run the following steps:
The offsetLeft attribute must run these steps:
If the visual viewport’s associated document is not fully active, return 0.
Otherwise, return the offset of the left edge of the visual viewport from the left edge of the layout viewport.
The offsetTop attribute must run these steps:
If the visual viewport’s associated document is not fully active, return 0.
Otherwise, return the offset of the top edge of the visual viewport from the top edge of the layout viewport.
The pageLeft attribute must run these steps:
If the visual viewport’s associated document is not fully active, return 0.
Otherwise, return the offset of the left edge of the visual viewport from the left edge of the initial containing block of the layout viewport’s document.
The pageTop attribute must run these steps:
If the visual viewport’s associated document is not fully active, return 0.
Otherwise, return the offset of the top edge of the visual viewport from the top edge of the initial containing block of the layout viewport’s document.
The width attribute must run these steps:
If the visual viewport’s associated document is not fully active, return 0.
Otherwise, return the width of the visual viewport excluding the width of any rendered vertical classic scrollbar that is fixed to the visual viewport.
Note: Since this value is returned in CSS pixels, the value will decrease in magnitude if either page zoom or the scale factor is increased.
Note: A scrollbar that is fixed to the visual viewport is one that does not change size or location as the visual viewport is zoomed and panned. Because this value is in CSS pixels, when excluding the scrollbar width the UA must account for how large the scrollbar is as measured in CSS pixels. That is, the amount excluded decreases when zooming in and increases when zooming out.
The height attribute must run these steps:
If the visual viewport’s associated document is not fully active, return 0.
Otherwise, return the height of the visual viewport excluding the height of any rendered horizontal classic scrollbar that is fixed to the visual viewport.
The scale attribute must run these steps:
If the visual viewport’s associated document is not fully active, return 0 and abort these steps.
If there is no output device, return 1 and abort these steps.
Otherwise, return the visual viewport’s scale factor.
onresize is the event handler IDL attribute for the resize event.
onscroll is the event handler IDL attribute for the scroll event.
onscrollend is the event handler IDL attribute for the scrollend event.
This section integrates with the event loop defined in HTML. [HTML]
When asked to run the resize steps for a Document doc, run these steps:
If doc’s viewport has had its width or height changed (e.g. as a result of the user resizing the browser window, or changing page zoom, or an iframe element’s dimensions are changed) since the last time these steps were run, fire an event named resize at the Window object associated with doc.
If the VisualViewport associated with doc has had its scale, width, or height properties changed since the last time these steps were run, fire an event named resize at the VisualViewport.
This section integrates with the event loop defined in HTML. [HTML]
Each Document has an associated list of pending scroll events, which stores pairs of (EventTarget, DOMString), initially empty.
Whenever a viewport gets scrolled (whether in response to user interaction or by an API), the user agent must run these steps:
Let doc be the viewport’s associated Document.
If doc is a snap container, run the steps to update scrollsnapchanging targets for doc with doc’s eventual snap target in the block axis as newBlockTarget and doc’s eventual snap target in the inline axis as newInlineTarget.
If (doc, "scroll") is already in doc’s pending scroll events, abort these steps.
Append (doc, "scroll") to doc’s pending scroll events.
Whenever an element gets scrolled (whether in response to user interaction or by an API), the user agent must run these steps:
Let doc be the element’s node document.
If the element is a snap container, run the steps to update scrollsnapchanging targets for the element with the element’s eventual snap target in the block axis as newBlockTarget and the element’s eventual snap target in the inline axis as newInlineTarget.
If (element, "scroll") is already in doc’s pending scroll events, abort these steps.
Append (element, "scroll") to doc’s pending scroll events.
Whenever a visual viewport gets scrolled (whether in response to user interaction or by an API), the user agent must run these steps:
Let vv be the VisualViewport object that was scrolled.
Let doc be vv’s associated document.
If (vv, "scroll") is already in doc’s pending scroll events, abort these steps.
Append (vv, "scroll") to doc’s pending scroll events.
When asked to run the scroll steps for a Document doc, run these steps:
In what order are scrollend events dispatched? Ordered based on scroll start or scroll completion?
For each scrolling box box that was scrolled:
If box belongs to a viewport, let doc be the viewport’s associated Document and target be the viewport. If box belongs to a VisualViewport, let doc be the VisualViewport’s associated document and target be the VisualViewport. Otherwise, box belongs to an element and let doc be the element’s node document and target be the element.
If box belongs to a snap container, snapcontainer, run the update scrollsnapchange targets steps for snapcontainer.
If (target, "scrollend") is already in doc’s pending scroll events, abort these steps.
Append (target, "scrollend") to doc’s pending scroll events.
For each item (target, type) in doc’s pending scroll events, in the order they were added to the list, run these substeps:
If target is a Document, and type is "scroll" or "scrollend", fire an event named type that bubbles at target.
Otherwise, if type is "scrollsnapchange", then:
Let blockTarget and inlineTarget be null initially.
If the scrollsnapchangeTargetBlock associated with target is a pseudo-element, set blockTarget to the owning element of that scrollsnapchangeTargetBlock.
Otherwise, set blockTarget to that scrollsnapchangeTargetBlock.
If the scrollsnapchangeTargetInline associated with target is a pseudo-element, set inlineTarget to the owning element of that scrollsnapchangeTargetInline.
Otherwise, Set inlineTarget to that scrollsnapchangeTargetInline.
Fire a SnapEvent, snapevent, named scrollsnapchange at target and let snapevent’s snapTargetBlock and snapTargetInline attributes be blockTarget and inlineTarget respectively.
Otherwise, if type is "scrollsnapchanging", then:
Let blockTarget and inlineTarget be null initially.
If the scrollsnapchanging block-axis target associated with target is a pseudo-element, set blockTarget to the owning element of that scrollsnapchanging block-axis target.
Otherwise, set blockTarget to that scrollsnapchanging block-axis target.
If the scrollsnapchanging inline-axis target associated with target is a pseudo-element, set inlineTarget to the owning element of that scrollsnapchanging inline-axis target.
Otherwise, set inlineTarget to that scrollsnapchanging inline-axis target.
Fire a SnapEvent, snapevent, named scrollsnapchanging at target and let snapevent’s snapTargetBlock and snapTargetInline attributes be blockTarget and inlineTarget, respectively.
Otherwise, fire an event named type at target.
Empty doc’s pending scroll events.
Whenever scrolling is completed, the user agent must run these steps:
This section is non-normative.
| resize | Event | Window, VisualViewport | Fired at the Window when the viewport is resized. Fired at VisualViewport when the visual viewport is resized or the layout viewport is scaled. |
| scroll | Event | VisualViewport, Document, elements | Fired at the VisualViewport, Document or element when the VisualViewport, viewport, or element is scrolled, respectively. |
| scrollend | Event | Document, elements, VisualViewport | Fired at the VisualViewport, Document, or element when a scroll is completed: the VisualViewport, viewport, or element has been scrolled, the scroll sequence has ended and any scroll offset changes have been applied. |
Some CSS features use post-layout state, like scroll position, as input to the next style and layout update.
When asked to run snapshot post-layout state steps for a Document doc, run these steps:
For each CSS feature that needs to snapshot post-layout state, take a snapshot of the relevant state in doc.
The state that is snapshot is defined in other specifications. These steps must not invalidate doc or any other Documents in such a way that other post-layout snapshotting steps can observe that such snapshotting happened. It follows that the order of which such snapshotting takes place must not matter.
The Screen interface exposes information about the user’s display configuration, which maybe be used as input to fingerprinting algorithms. User agents may choose to hide or quantize information about the screen size or configuration, in order to protect the user’s privacy.
MouseEvent contains information about the screen-relative coordinates of the event. User agents may set these properties to values that obscure the actual screen-relative location of the event, in order to protect the user’s privacy.
No new security considerations have been reported on this specification.
This section documents some of the changes between publications of this specification. This section is not exhaustive. Bug fixes and editorial changes are generally not listed.
Added Simon Fraser and Emilio Cobos Álvarez as current editors and moved Simon Pieters to former editors.
Clarified how getClientRects() handles typographic character units.
Changed how getBoundingClientRect() of Element and getBoundingClientRect() of Range handle empty rectangles.
Changed definition of offsetParent for Shadow DOM.
Allowed UAs to lie about Screen properties for privacy reasons.
Changed colorDepth and pixelDepth to return real values.
Changed 'CSS pixels' to refer to [CSS-VALUES].
Changed default values for ScrollIntoViewOptions to start and nearest and slightly changed behavior of scrollIntoView()
Added screenLeft and screenTop as aliases for screenX and screenY.
Defined overflow directions in terms of block-end and inline-end.
Renamed the arguments to resizeTo() to be width and height
Added script-triggered scroll-snap to list of scrolls affected by scroll-behavior.
Fixed a logical error in the Terminology section.
Added the "Security Considerations" and "Privacy Considerations" sections
Moved the scroll-behavior property to [CSS-OVERFLOW-3]
Adjusted the algorithm for offsetWidth and offsetHeight.
Added checkVisibility() method to Element.
Moved the scrollend event from WICG overscroll-scrollend-events to [CSSOM-VIEW-1] and added details for handling them.
Added a "get the bounding box" algorithm to getBoundingClientRect().
Introduced the VisualViewport API and related concepts.
Extended scroll into view algorithm to also work on Ranges.
Clarified whether scaled or unscaled dimensions are returned by various APIs in relation to the zoom property.
Took scroll snapping and scroll target into account for various scrolling APIs.
Added currentCSSZoom attribute to Element.
Added options parameter to caretPositionFromPoint() method.
Removed caret range concept from CaretPosition interface.
Defined post-layout snapshotting.
Made the various scrolling algorithms accept a pseudo-element.
Added container option to ScrollIntoViewOptions.
Added the scrollParent attribute.
Pinch zoom got renamed to scale factor.
The scrollIntoView() method on Element was changed and extended.
The scrollTop and scrollLeft IDL attributes on Element changed to no longer take an object; the scroll(), scrollTo() and scrollBy() methods were added instead.
The scrollWidth, scrollHeight, clientTop, clientLeft, clientWidth and clientHeight IDL attributes on Element were changed back to return integers.
The DOMRectList interface was removed.
The scrollingElement IDL attribute on Document was added.
Some readonly attributes on Window were annotated with [Replaceable] IDL extended attribute.
MediaQueryList, scroll event and resize event are integrated with the event loop in HTML so they are synchronized with animation frames.
The instant value of scroll-behavior was renamed to auto.
The origin of scrollLeft on Element was changed (for RTL).
The scrollIntoView() method on Element and scroll(), scrollTo() and scrollBy() methods on Window take the relevant dictionary as the first argument.
The MediaQueryList interface was changed to use regular event API and define addListener() in terms of that.
Added "Change History" section.
Moved Glenn Adams to former editors.
Added Simon Pieters and Glenn Adams as editors and moved Anne van Kesteren to former editors.
Introduced scroll-behavior CSS property.
Added Block flow direction and inline base direction from [CSS-WRITING-MODES-3] to terminology.
Added section about zooming.
Added moveTo(), moveBy(), resizeTo(), and resizeBy() methods to Window.
Added devicePixelRatio attribute to Window.
Introduced ScrollOptions dictionary and added an options parameter to scrolling methods.
Added devicePixelRatio attribute to Window.
Added features parameter to open() method.
Added elementsFromPoint() method to Document.
Added getClientRect() method to CaretPosition.
Introduced initial draft of GeometryUtils interface.
Changed innerWidth, innerHeight, etc. to use double.
CSS transforms are now acknowledged.
Replaced ClientRect by DOMRect.
Changed colorDepth and pixelDepth to always return 24.
Removed redundant definition of terminology of other specifications, explicitly defining units (e.g. CSS pixels) and content/document content distinction.
Introduced MediaQueryList interface.
Moved the matchMedium() method of the Media to the Window interface, renamed it to matchMedia(), and changed its return type to MediaQueryList.
Removed the AbstractView and Media interfaces.
Removed the DocumentView interface and moved methods elementFromPoint() and caretRangeFromPoint() to the Document interface.
Renamed the caretRangeFromPoint() method to caretPositionFromPoint().
Introduced CaretPosition interface and changed the return type of caretPositionFromPoint() to CaretPosition.
Added the scrollIntoView() method to the Element interface.
Removed the WindowView interface and moved its attributes and methods to an AbstractView and inheriting ScreenView interface.
Added the document IDL attribute to AbstractView.
Added the scroll(), scrollTo(), and scrollBy() methods to the ScreenView interface.
Removed the ElementView interface and moved its attributes and methods to the Element and HTMLElement interfaces.
Added the defaultView IDL attribute and caretRangeFromPoint() method to the DocumentView interface.
Removed RangeView interface and instead directly extended the Range interface.
Removed the MouseEventView interface and instead directly extended the MouseEvent interface.
Renamed the TextRectangleList interface to ClientRectList and turned the item() method into an indexed getter.
Renamed the TextRectangle interface to ClientRect and added the width and height attributes.
The editors would like to thank Alan Stearns, Alexey Feldgendler, Antonio Gomes, Björn Höhrmann, Boris Zbarsky, Chris Rebert, Corey Farwell, Dan Bates, David Vest, Elliott Sprehn, Garrett Smith, Henrik Andersson, Hallvord R. M. Steen, Kang-Hao Lu, Koji Ishii, Leif Arne Storset, Luiz Agostini, Maciej Stachowiak, Michael Dyck, Mike Wilson, Morten Stenshorne, Olli Pettay, Pavel Curtis, Peter-Paul Koch, Rachel Kmetz, Rick Byers, Robert O’Callahan, Sam Weinig, Scott Johnson, Sebastian Zartner, Stewart Brodie, Sylvain Galineau, Tab Atkins, Tarquin Wilton-Jones, Thomas Moore, Thomas Shinnick, and Xiaomei Ji for their contributions to this document.
Special thanks to the Microsoft employees who first implemented many of the features specified in this draft, which were first widely deployed by the Windows Internet Explorer browser.
Conformance requirements are expressed with a combination of descriptive assertions and RFC 2119 terminology. The key words “MUST”, “MUST NOT”, “REQUIRED”, “SHALL”, “SHALL NOT”, “SHOULD”, “SHOULD NOT”, “RECOMMENDED”, “MAY”, and “OPTIONAL” in the normative parts of this document are to be interpreted as described in RFC 2119. However, for readability, these words do not appear in all uppercase letters in this specification.
All of the text of this specification is normative except sections explicitly marked as non-normative, examples, and notes. [RFC2119]
Examples in this specification are introduced with the words “for example” or are set apart from the normative text with class="example", like this:
Informative notes begin with the word “Note” and are set apart from the normative text with class="note", like this:
Note, this is an informative note.
Advisements are normative sections styled to evoke special attention and are set apart from other normative text with <strong class="advisement">, like this: UAs MUST provide an accessible alternative.
TestsTests relating to the content of this specification may be documented in “Tests” blocks like this one. Any such block is non-normative.
Conformance to this specification is defined for three conformance classes:
style sheet A CSS style sheet. renderer A UA that interprets the semantics of a style sheet and renders documents that use them. authoring tool A UA that writes a style sheet.A style sheet is conformant to this specification if all of its statements that use syntax defined in this module are valid according to the generic CSS grammar and the individual grammars of each feature defined in this module.
A renderer is conformant to this specification if, in addition to interpreting the style sheet as defined by the appropriate specifications, it supports all the features defined by this specification by parsing them correctly and rendering the document accordingly. However, the inability of a UA to correctly render a document due to limitations of the device does not make the UA non-conformant. (For example, a UA is not required to render color on a monochrome monitor.)
An authoring tool is conformant to this specification if it writes style sheets that are syntactically correct according to the generic CSS grammar and the individual grammars of each feature in this module, and meet all other conformance requirements of style sheets as described in this module.
So that authors can exploit the forward-compatible parsing rules to assign fallback values, CSS renderers must treat as invalid (and ignore as appropriate) any at-rules, properties, property values, keywords, and other syntactic constructs for which they have no usable level of support. In particular, user agents must not selectively ignore unsupported component values and honor supported values in a single multi-value property declaration: if any value is considered invalid (as unsupported values must be), CSS requires that the entire declaration be ignored.
To avoid clashes with future stable CSS features, the CSSWG recommends following best practices for the implementation of unstable features and proprietary extensions to CSS.
Once a specification reaches the Candidate Recommendation stage, non-experimental implementations are possible, and implementors should release an unprefixed implementation of any CR-level feature they can demonstrate to be correctly implemented according to spec.
To establish and maintain the interoperability of CSS across implementations, the CSS Working Group requests that non-experimental CSS renderers submit an implementation report (and, if necessary, the testcases used for that implementation report) to the W3C before releasing an unprefixed implementation of any CSS features. Testcases submitted to W3C are subject to review and correction by the CSS Working Group.
Further information on submitting testcases and implementation reports can be found from on the CSS Working Group’s website at http://www.w3.org/Style/CSS/Test/. Questions should be directed to the public-css-testsuite@w3.org mailing list.
p1 = top left even in RTL
scale to 0 means divide by zero, return 0x0
cross-frames not allowed, throw WrongDocumentError?
points are flattened (3d transform), z=0. like getClientRect
test block in inline
pseudo-elements before/after are children of the element
viewport boxes are all the same
↵In only one current engine.
Document/caretPositionFromPoint
In only one current engine.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
MediaQueryListEvent/MediaQueryListEvent
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
In all current engines.
Support:Android Browser3+Baidu Browser13.52+Blackberry Browser10+Chrome9+Chrome for Android148+Edge12+Firefox6+Firefox for Android150+IE10+IE Mobile10+KaiOS Browser2.5+Opera12.1+Opera MiniAllOpera Mobile12.1+QQ Browser14.9+Safari5.1+Safari on iOS5.0+Samsung Internet4+UC Browser for Android15.5+
Source: caniuse.com as of 2026-05-17
CanIUseSupport:Android Browser2.1+Baidu Browser13.52+Blackberry Browser7+Chrome4+Chrome for Android148+Edge12+Firefox18+Firefox for Android150+IE11+IE Mobile11+KaiOS Browser2.5+Opera11.6+Opera MiniAllOpera Mobile12+QQ Browser14.9+Safari (limited)3.1+Safari on iOS (limited)3.2+Samsung Internet4+UC Browser for Android15.5+
Source: caniuse.com as of 2026-05-17
CanIUseSupport:Android Browser2.3+Baidu Browser13.52+Blackberry Browser7+Chrome15+Chrome for Android148+Edge12+Firefox3+Firefox for Android150+IE6+IE Mobile10+KaiOS Browser2.5+Opera11+Opera MiniAllOpera Mobile12+QQ Browser14.9+Safari5+Safari on iOS4.0+Samsung Internet4+UC Browser for Android15.5+
Source: caniuse.com as of 2026-05-17
CanIUseSupport:Android Browser148+Baidu Browser13.52+Blackberry BrowserNoneChrome44+Chrome for Android148+Edge14+Firefox48+Firefox for Android150+IENoneIE MobileNoneKaiOS Browser2.5+Opera31+Opera MiniNoneOpera Mobile80+QQ Browser14.9+Safari9+Safari on iOS9.0+Samsung Internet4+UC Browser for Android15.5+
Source: caniuse.com as of 2026-05-17
CanIUseSupport:Android Browser148+Baidu Browser13.52+Blackberry BrowserNoneChrome61+Chrome for Android148+Edge79+Firefox36+Firefox for Android150+IENoneIE MobileNoneKaiOS Browser2.5+Opera48+Opera MiniNoneOpera Mobile80+QQ Browser14.9+Safari14+Safari on iOS14.5+Samsung Internet8.2+UC Browser for Android15.5+
Source: caniuse.com as of 2026-05-17
CanIUseSupport:Android Browser2.3+Baidu Browser13.52+Blackberry Browser7+Chrome4+Chrome for Android148+Edge12+Firefox12+Firefox for Android150+IE9+IE Mobile10+KaiOS Browser2.5+Opera10.6+Opera MiniAllOpera Mobile11+QQ Browser14.9+Safari4+Safari on iOS4.0+Samsung Internet4+UC Browser for Android15.5+
Source: caniuse.com as of 2026-05-17
CanIUseSupport:Android Browser148+Baidu Browser13.52+Blackberry Browser (limited)7+Chrome61+Chrome for Android148+Edge79+Firefox36+Firefox for Android150+IE (limited)8+IE Mobile (limited)10+KaiOS Browser2.5+Opera48+Opera MiniNoneOpera Mobile80+QQ Browser14.9+Safari16.0+Safari on iOS16.0+Samsung Internet8.2+UC Browser for Android15.5+
Source: caniuse.com as of 2026-05-17