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{{EditContext}} is an API that allows authors to more directly participate in the text input process.

Introduction

Background and Motivation

Modern operating systems provide mechanisms to produce text in a variety of ways: speech-to-text, virtual keyboards, handwriting recognition and many more. When an app wants to consume text input from these various sources, it must first provide a view of its currently editable text to the operating system. The view of editable text provides a common language that apps (having a variety of different document models) and sources of text (having a variety of different input methods) can both understand. Both the apps and input sources communicate with one another by expressing their desired changes to the state of the common view as an event that the other can handle to facilitate the text input process.

For the purposes of this document, a producer of text is known as a Text Input Method. The view provided by an app which wants to consume text is called a Text Edit Context. The service provided by the OS to facilitate the editing of text in the [=Text Edit Context=] by the [=Text Input Methods=] is called a Text Input Service.

carview.php?tsp= — Many [=Text Input Methods=] using a [=Text Input Service=] to communicate with many apps through their [=Text Edit Contexts=].

Here’s a typical flow for the text input process in more detail:

A user places focus into an editable region of the app.
The app produces a [=Text Edit Context=] describing its editable region according to the standards set forth by the [=Text Input Service=] and provides that [=Text Edit Context=] to the [=Text Input Service=].
The [=Text Input Service=] triggers a [=Text Input Method=] to provide some user interface for capturing text input from the user and provides the [=Text Input Method=] the app generated [=Text Edit Context=].
The [=Text Input Method=] reads the location of selection and nearby text from the [=Text Edit Context=] to help tailor its user experience.
The [=Text Input Method=] may also read screen coordinates for where the selection and editable region are located so that it can properly position its user interface next to the text being edited.
The user interacts with the [=Text Input Method=] user interface to input text in some [=Text Input Method=]-specific way.
The [=Text Input Method=] describes its desired modifications to the text and selection in the [=Text Edit Context=] in response to the user’s input.
The app handles an event describing the desired modifications to its [=Text Edit Context=] and renders the result to the user.

Existing user agents handle the details of this text input process so that the author’s responsibility ends at declaring what elements of the document represent an editable region. Authors express which regions are editable using input elements, textarea elements, contenteditable elements, or by setting the {{Document/designMode}} attribute to "on" to mark an entire document as editable.

As an editable region of the document is focused, the user agent automatically produces the [=Text Edit Context=] from the contents of the editable region and the position of the selection within it. When a [=Text Input Method=] produces text, the user agent translates the events against its [=Text Edit Context=] into a set of DOM and style modifications – only some of which are described using existing events that an author can handle.

Authors that want to produce sophisticated editing experiences may be challenged by the current approach. If, for example, the text and selection are rendered to a canvas, user agents are unable to produce a [=Text Edit Context=] to drive the text input process. Authors compensate by resorting to offscreen editable elements, but this approach comes with negative implications for accessibility, it deteriorates the input experience, and requires complex code to synchronize the position of the text in the offscreen editable element with the corresponding text in the canvas.

With the introduction of this EditContext API, authors can more directly participate in the protocol for text input and avoid the pitfalls described above.

The EditContext Model

The [=Text Input Service=] and [=Text Edit Context=] are abstractions representing the common aspects of text input across many operating systems. An {{EditContext}} is a JavaScript reflection of the [=Text Edit Context=]. When changes are made to the [=Text Edit Context=] by the [=Text Input Service=], those changes are reflected to the author asynchronously in the form of events which are dispatched against the [=active EditContext=]. When the author makes changes to the [=active EditContext=], those changes will be reflected in the [=Text Edit Context=] during the next lifecycle update.

EditContext state

Both the [=Text Edit Context=] and {{EditContext}} have a [=text state=] which holds the information exchanged in the aforementioned updates. The text state consists of:

text which is a {{DOMString}} representing editable content. The initial value is the empty string.
selection start which refers to the offset in [=text=] where the selection starts. The initial value is 0.
selection end which refers to the offset in [=text=] where the selection ends. The initial value is 0. [=selection end=] may be less than [=selection start=] in the case of a "backwards" selection (in reverse of document order).
is composing which indicates if there is an active composition. The initial value is false.
composition start which refers to the offset in [=text=] representing the start position of the text being actively composed. The initial value is 0.
composition end which refers to the offset in [=text=] representing the end position of the text being actively composed. The initial value is 0. [=composition end=] must always be greater than or equal to [=composition start=].
text formats which is an array of [=text format=]. The array is initially empty.
control bounds is a {{DOMRect}} describing the area of the viewport in which [=text=] is displayed. It is in the [=client coordinate system=] and the initial x, y, width, and height are all 0.
selection bounds is a {{DOMRect}} describing the position of selection. It is in the [=client coordinate system=] and the initial x, y, width, and height are all 0.
codepoint rects start index which is an offset into [=text=] that respresents the position before the first codepoint whose location is reported by the first member of [=codepoint rects=] array.
codepoint rects is an array of {{DOMRect}} defining the bounding box of each codepoint. The array is initially empty.

text format is a struct that indicates decorative properties that should be applied to the ranges of [=text=]. The struct contains:

range start which is an offset into [=text=] that respresents the position before the first codepoint that should be decorated.
range end which is an offset into [=text=] that respresents the position after the last codepoint that should be decorated.
underline style, a {{UnderlineStyle}} which is the preferred underline style of the decorated [=text=] range.
underline thickness, a {{UnderlineThickness}} which is the preferred underline thickness of the decorated [=text=] range.

[=Codepoint rects=] provides the means for the user agent to query a range of [=text=] for positioning information. The [=Text Input Service=] will use this information, in tandem with the [=control bounds=] and [=selection bounds=], to support the Text Input Method in properly displaying its user interface. For example, the info can be used to position an IME window adjacent to text being composed. Different platforms may require different positions to be cached to fulfill queries from the [=Text Input Service=]. The user agent will indicate which positions are required by firing {{CharacterBoundsUpdateEvent}}.

[=Control bounds=], [=selection bounds=], and [=codepoint rects=] are given in the client coordinate system, which is defined as a two-dimensional Cartesian coordinate system (x, y) where the origin is the top-left corner of the layout viewport, the x-axis points towards the top-right of the layout viewport, and the y-axis points towards the bottom-left of the layout viewport. The units of the client coordinate system are CSS pixels.

Since EditContext bounds are defined in client coordinates, the coordinates indicating a given piece of content on a page will change as the user scrolls the document even if the content itself does not change position in the document. A scenario where authors may want to take this into account is the case where the user scrolls the page where the user has an active composition. If the author does not update the EditContext's bounds information (e.g. during a scroll event listener), the IME window may no longer line up with the text being composed for the duration of the composition.

However, some platforms do not adjust IME windows during an active composition, so updating bounds information mid-composition does not guarantee that the IME window will be repositioned until it's closed and reopened.

Association and activation

An {{EditContext}} has an associated element, an {{HTMLElement}}. An element becomes an {{EditContext}}'s associated element by assigning the {{EditContext}} to the element's {{HTMLElement/editContext}} property. An {{HTMLElement}} can be associated with at most one {{EditContext}}.

An {{EditContext}} keeps its [=associated element=] alive, so developers should be aware that assigning an {{EditContext}} to an element's {{HTMLElement/editContext}} property will prevent the element from being garbage collected until the property is cleared or the {{EditContext}} is garbage collected.

If an {{EditContext}}'s associated element's parent is not editable and is not a [=Document=] whose {{Document/designMode}} attribute is "on", then the associated element becomes an EditContext editing host. An EditContext editing host is a type of [=editing host=] whose behaviors are described in [[[#edit-context-differences]]].

There are a couple implications of this. Firstly, if an element that is already an [=editing host=] due to [^html-global/contenteditable^] becomes an {{EditContext}}'s associated element, then that element becomes an EditContext editing host. In other words, if both {{EditContext}} and [^html-global/contenteditable^] are set on an element, the EditContext behavior "wins".

Secondly, if an element is editable but not an [=editing host=] (i.e. it is a child in the subtree of an [=editing host=]), then becoming an {{EditContext}}'s associated element has no effect on that element. This is analogous to the behavior of [^html-global/contenteditable^], where setting [^html-global/contenteditable^] to "true" on an editable element that is not an [=editing host=] has no effect. Taken together, these rules imply that an editable tree of nodes will follow either the {{EditContext}} behavior or non-{{EditContext}} behavior, but the behaviors cannot be mixed.

A {{Document}} has an active EditContext, which may be null.

The following paragraph can be removed once the behavior change lands in [[input-events]].

When an [=EditContext editing host=] receives text input from the [=Text Input Service=], as the default action for the beforeinput event fired as a result of that input the user agent must run [=Handle Input for EditContext=] given the [=EditContext editing host=] .

Differences for an EditContext editing host

In many ways, an EditContext editing host behaves in the same way as other types of [=editing host=], e.g. for a [^html-global/contenteditable^] element. Notable similarities include:

Each child node of the EditContext editing host becomes editable, unless that node has a [^html-global/contenteditable^] attribute set to "false".
The user agent handles focus and caret navigation for any editable element in the EditContext editing host (except when the [=associated element=] is a [=canvas=]; see below in this section).
The EditContext editing host receives key events and the beforeinput event as specified in [[uievents]].

There are also some ways that an EditContext editing host differs from other types of [=editing hosts=]:

When the {{Document}} being edited has an [=active EditContext=], the user agent must not update the DOM as a direct result of a user action in the EditContext editing host (e.g., keyboard input in an editable region, deleting or formatting text, ...).
When the {{Document}} being edited has an [=active EditContext=], the user agent must not fire the input event against the EditContext editing host as a direct result of user action event as specified in [[uievents]].
When the {{Document}} being edited has an [=active EditContext=], the user agent must not fire composition events against the EditContext editing host as a direct result of user action. Instead they will be fired against the {{EditContext}} as part of [=update the EditContext|updating the EditContext=] or [=deactivate an EditContext|deactivating the EditContext=].
When the [=active EditContext=]'s [=associated element=] is a [=canvas=], there are further differences:
- The user agent is unable to handle caret navigation and selection since it doesn't have information about how text is laid out in the [=canvas=], so the author has to implement caret navigation and selection.
- The user agent is unable to present inline spelling and grammar suggestions since it doesn't have information about how the text is laid out in the [=canvas=], so if the author wants to support spelling and grammar suggestions, they have to implement that themselves.

EditContext events

The user agent fires several types of events against the {{EditContext}} in order to inform the author when they must update the state of the DOM in response to changes from the [=Text Input Service=], or respond to a query from the [=Text Input Service=]. Since the timings of [=Text Input Service=]s are platform-specific, authors should avoid taking dependencies on the timing of these events.

The user agent must fire {{TextUpdateEvent}} when the [=Text Input Service=] indicates that the user has made changes to the text, the selection, or the composition range properties of the EditContext. When the author receives this event, they must render the changes back to the page's view so the user can see what they are typing.
The user agent must fire {{TextFormatUpdateEvent}} when the [=Text Input Service=] indicates that certain formats should be applied to the text being composed. When the author receives this event, they must render the formatting change back to the page's view to aid the user with their IME composition.

User agents can adjust the {{UnderlineStyle}} or {{UnderlineThickness}} before dispatching the {{TextFormatUpdateEvent}} to mitigate fingerprinting risks. This may be especially relevant when input methods with distinctive styling characteristics are used.
The user agent must fire {{CharacterBoundsUpdateEvent}} when the [=Text Input Service=] indicates that it requires character bounds information to support the [=Text Input Method=] in properly displaying its user interface. After receiving {{CharacterBoundsUpdateEvent}}, the author must compute the requested character bounds and call {{EditContext/updateCharacterBounds}} to update the character bounds in the EditContext's [=text state=]. The author should perform the {{EditContext/updateCharacterBounds}} call synchronously within the {{CharacterBoundsUpdateEvent}} event handler if possible; if not, it is permissible to call it asynchronously. Upon receiving {{EditContext/updateCharacterBounds}}, the user agent must pass the character bounds information on to the [=Text Input Service=].

The longer the author delays the {{EditContext/updateCharacterBounds}} call, the higher the likelihood that the user will observe a visual stutter as the IME window repositions itself in the middle of a composition.

Event loop changes

A new step will be introduced as a substep within the [=Update the rendering=] step in the HTML Event Loops Processing Model, immediately following step 15 (which runs the focusing steps for {{Document}}s whose focused areas become non-focusable). The step is: For each fully active {{Document}} |doc|, [=queue a global task=] on the [=DOM manipulation task source=] given |doc|'s [=relevant global object=] to run the [=Update the Text Edit Context=] steps given |doc|.

Examples

Using an {{EditContext}}, an author can mark a region of the document editable by associating an {{EditContext}} object with an element as shown in the example below:

<script type="module">
    let canvas = document.querySelector("canvas")
    canvas.editContext = new EditContext()
    // When the associated element is focused, the EditContext is automatically activated.
    canvas.focus();
</script>
<canvas></canvas>

In the example below, the author is using a canvas to draw an editable region that allows the user to input a single line of text rendered with a monospace font. The text for the editable region is maintained by the author as a String. The text offsets for the selection in the editable region are maintained by the author as a pair of Numbers: selectionStart and selectionEnd. The Numbers refer to the count of the number of UTF-16 codepoints to the left of the start and end of the selection respectively. For the sake of communicating the bounding boxes for the current selection and the editable region of the document to Text Input Services, the author also computes the bounding rectangle in CSS pixels for the selection and the editable region of the document. The offset of the rectangle is expressed relative to the origin of the canvas element since that is the element to which the author has associated an EditContext. Since the model for the author’s representation of text and selection location matches the form expected by the EditContext API, the author can simply assign those properties to the EditContext associated with the canvas whenever those values change.

<script type="module">
    // This example is built on top of example 1.
    // Only the added logic is shown here for brevity.
    class EditingModel {
        constructor(text, selectionStart, selectionEnd) {
            this.text = text  
            this.selectionStart = selectionStart
            this.selectionEnd = selectionEnd
        }  
    }  
    class EditingView {  
        constructor(canvas, model) {  
            this.canvas = canvas 
            this.model = model 
        } 
        render() {
            // render the text
            let canvasContext2D = this.canvas.getContext("2d");
            canvasContext2D.strokeText(this.model.text);
            // render the selection (implementation omitted for brevity)
        } 
        computeSelectionBound() { 
            // implementation omitted for brevity 
        } 
        computeControlBound() { 
            // implementation omitted for brevity 
        } 
    }
    class EditingController {
        constructor(model, view, editContext) {  
            this.view = view
            this.model = model
            this.editContext = editContext
        }
        render() {
            view.render()
            // keep EditContext in sync, which essentially means
            // rendering the plain text view of the model.
            let editContext = this.canvas.editContext  
            this.editContext.updateText(0, this.model.text.length, this.model.text)
            this.editContext.updateSelection(this.model.selectionStart, this.model.selectionEnd)
            let selectionBounds = view.computeSelectionBound()  
            let controlBounds = view.computeControlBound()  
            // These bounds have x, y, width and height members  
            // so they can be assigned directly to EditContext.
            editContext.updateSelectionBounds(selectionBounds)
            editContext.updateControlBounds(controlBounds)
        }
    }
    let canvas = document.querySelector("canvas")
    canvas.editContext = new EditContext()
    let editingModel = new EditingModel("carview.php?tsp=", 0, 0, 0, 0)
    let editingView = new EditingView(canvas, editingModel)
    let editingController = new EditingController(editingModel,
        editingView, canvas.editContext);
    editingController.render() 
</script>
<canvas></canvas>

Building on the previous example, in response to user input, authors should handle the events of both the editable element (in this case a canvas) and the EditContext.

Input events against the DOM continue to describe the user’s intent

The below example shows how to handle {{TextUpdateEvent}}, {{TextFormatUpdateEvent}}, and {{CharacterBoundsUpdateEvent}} to update the model and render the result to the canvas.

<script>
    // This example is built on top of example 1 and example 2.
    // Only the added logic is shown here for brevity.
    class EditingModel {
        updateText(updateRangeStart, updateRangeEnd, updateText) {
            this.text = this.text.substring(0, updateRangeStart) + updateText
                        + this.text.substring(updateRangeEnd)
        }
        updateSelection(selectionStart, selectionEnd) {
            this.selectionStart = selectionStart
            this.selectionEnd = selectionEnd
        }
        updateTextFormats(textFormats) {
            this.textFormats = textFormats
        }
    }
    class EditingView {
        render() {
            // render the text (implementation omitted for brevity)
            // render the selection (implementation omitted for brevity)
            // render the IME decoration
            this.model.textFormats.forEach( textFormat => {
                // For brevity, these variables' initialization are omitted:
                // anchorX: the x coordinate of the beginning of the string
                // lineY: the y coordinate of the underline
                // charWidth: the width of the character (here we are using a mono-spaced font)
                // thickWidth/thinWidth: pre-defined width for thick/thin lines.
                let lineStartX = anchorX + textFormat.rangeStart * charWidth;
                let lineEndX = anchorX + textFormat.rangeEnd * charWidth;
                
                canvasContext2D.lineWidth = (textFormat.underlineThickness == 'Thick')?
                                            thickWidth : thinWidth;
                canvasContext2D.beginPath();
                canvasContext2D.moveTo(lineStartX, lineY);
                canvasContext2D.lineTo(lineEndX, lineY);
                canvasContext2D.stroke();
            })
        }
        computeCharacterBounds(rangeStart, rangeEnd) {
            // implementation omitted for brevity
        }
    }
    class EditingController {
        handleTextUpdate(updateRangeStart, updateRangeEnd, text, 
                         selectionStart, selectionEnd) {
            this.model.updateText(updateRangeStart, updateRangeEnd, text)
            this.model.updateSelection(selectionStart, selectionEnd)
        }
        handleTextFormatUpdate(textFormats) {
            this.model.updateTextFormats(textFormats);
        }
        handleCharacterBoundsUpdate(rangeStart, rangeEnd) {
            characterBounds = this.view.computeCharacterBounds(rangeStart, rangeEnd);
            this.editContext.updateCharacterBounds(rangeStart, characterBounds);
        }
    }
    // When the user is typing, EditContext will receive textupdate events,
    // which can be used to update the editor's model.
    editContext.addEventListener("textupdate", e => {
        editingController.handleTextUpdate(e.updateRangeStart, e.updateRangeEnd, e.text,
                                        e.selectionStart, e.selectionEnd)
    });
    // EditContext will also receive textformatupdate event for IME decoration.
    // Ex. thin/thick underline for the "phrase mode" in Japanese IME.
    editContext.addEventListener("textformatupdate", e => {
        editingcontroller.handleTextFormatUpdate(e.getTextFormats());
    });
    // When receiving CharacterBoundsUpdate event, the author is responsible to compute
    // the bounds of characters from rangeStart to rangeEnd, and call
    // EditContext.updateCharacterBounds to update the character bounds in EditContext.
    editContext.addEventListener("characterboundsupdate", e => {
        editingcontroller.handleCharacterBoundsUpdate(e.rangeStart, e.rangeEnd);
    });
</script>

Interactions with Other Editing Primitives

An author doesn’t have to use a canvas element with an EditContext. In the example below the author uses a div to establish an editable region of the document and renders the contents into that editable region using various other styled elements, images and text. This allows the author to leverage other built-in editing primitives from the user agent such as selection and spellcheck.

<div></div>
<script>
    // This example reuses EditModel and EditController in Example 2 and 3.
    let div = document.querySelector("div") 
    div.editContext = new EditContext() 
    div.focus();
    class EditingView {  
        constructor(div, model) {  
            this.div = div 
            this.model = model 
        } 
        render() {
            // render the text
            this.div.innerText = this.model.text
            // render the selection (implementation omitted for brevity)
        }
        computeSelectionBound() { 
            // implementation omitted for brevity 
        } 
        computeControlBound() { 
            // implementation omitted for brevity 
        } 
        computeCharacterBounds(rangeStart, rangeEnd) {
            // implementation omitted for brevity
        }
    }
    class EditingController {
        handleSelectionChange() {
            // Authors are responsible to map the selection from the DOM space to the
            // plain text space. One approach is to use range.toString() to get the plain text
            // before the selection start/end, and use the text length as the selection index.
            let s = document.getSelection()
            let range = new Range()
            range.setEnd(s.anchorNode, s.anchorOffset)
            range.setStartBefore(parentContainer)
            let selectionStart = range.toString().length
            range.setEnd(s.focusNode, s.focusOffset)
            range.setStartBefore(parentContainer)
            let selectionEnd = range.toString().length
            // Update model
            this.model.updateSelection(selectionStart, selectionEnd)
            this.render()
        }
    }
    document.addEventListener("selectionchange", e => {
        editingController.handleSelectionChange()
    });
</script>

<script>
    // This example is built on top of example 4.
    // Only the added logic is shown here for brevity.
    class EditingController {
        handleSpellCheck(newText, range) {
            let updateRangeStart = range.startOffset
            let updateRangeEnd = range.endOffset
            // Update model
            this.model.updateText(updateRangeStart, updateRangeEnd, newText)
            let newCaretPosition = updateRangeStart + newText.length
            this.model.updateSelection(newCaretPosition, newCaretPosition)
            this.render()
        }
    }
    div.spellcheck = true;
    div.addEventListener("beforeinput", e => {
        if (e.inputType === "insertReplacementText") { // for spellcheck
            let newText = e.dataTransfer.getData("text");
            let range = e.getTargetRanges()[0];
            editingController.handleSpellCheck(newText, range)
        }
    })
</script>

<script>
    // This example is built on top of example 4.
    // Only the added logic is shown here for brevity.
    class EditingController {
        handleDeleteByDrag() {
            // Update model
            this.model.updateText(this.model.selectionStart, this.model.selectionEnd, "carview.php?tsp=")
            this.render()
        }
        handleInsertFromDrop(newText, caretPosition) {
            // Update model
            editingModel.updateText(caretPosition, caretPosition, newText)
            editingModel.updateSelection(caretPosition, caretPosition + newText.length)
            this.render()
        }
    }
    div.addEventListener("beforeinput", e => {
        if (e.inputType === "deleteByDrag") {
            editingController.handleDeleteByDrag()
        } 
        
        if (e.inputType === "insertFromDrop") {
            newText = e.dataTransfer.getData('text/plain');
            let selection = document.getSelection();
            let caretPosition = selection.anchorOffset;
            editingController.handleInsertFromDrop(newText, caretPosition)
        }
    })
</script>

This specification defines conformance criteria that apply to a single product: the user agent that implements the interfaces that it contains.

Conformance requirements phrased as algorithms or specific steps may be implemented in any manner, so long as the end result is equivalent. (In particular, the algorithms defined in this specification are intended to be easy to follow, and not intended to be performant.)

EditContext API

Extensions to the HTMLElement interface

               partial interface HTMLElement {
                    attribute EditContext? editContext;
               };

An {{HTMLElement}} has an internal slot [[\EditContext]], which is a reference to an {{EditContext}} and is intially null.

editContext

The {{HTMLElement/editContext}} getter steps are to return the value of [=this=]'s internal [[\EditContext]] slot.

The {{HTMLElement/editContext}} setter must follow these steps:

Input: |editContext|
Output: None

If [=this=]'s [=Element/local name=] is neither a [=valid shadow host name=] nor "canvas", then [=exception/throw=] a {{"NotSupportedError"}} {{DOMException}}.
If |editContext| is not null, then:
1. If |editContext|'s associated element is equal to [=this=], then terminate these steps.
2. If |editContext|'s associated element is not null, then [=exception/throw=] a {{"NotSupportedError"}} {{DOMException}}.
Let |oldEditContext| be the value of [=this=]'s internal [[\EditContext]] slot.
If |oldEditContext| is not null and |oldEditContext| is [=this=]'s node document's [=active EditContext=], then:
1. Run the steps to [=deactivate an EditContext=] with |oldEditContext|.
2. If |oldEditContext|'s associated element is not equal to [=this=], then terminate these steps.
3. If |editContext| is not null, |editContext|'s associated element is not null and |editContext|'s associated element is not equal to [=this=], then [=exception/throw=] a {{"NotSupportedError"}} {{DOMException}}.
If |oldEditContext| is not null, set |oldEditContext|'s associated element to null.
If |editContext| is not null, then set |editContext|'s associated element to [=this=].
Set [=this=]'s internal [[\EditContext]] slot to be |editContext|.

Handle input for EditContext

Input: |element|, the {{HTMLElement}} receiving the input
Output: None

Let |editContext| be |element|'s node document's [=active EditContext=]
If |editContext| is null, return.
Run the steps to [=Update the EditContext=] given |editContext| and the [=Text Edit Context=]'s [=text state=]'s [=text=], [=text formats=], [=selection start=], [=selection end=], [=is composing=], [=composition start=], and [=composition end=].

Since [=Text Edit Context=] is an abstraction over the common aspects of text input across different operating systems, the determination of the values in the [=Text Edit Context=] is explicitly not given in this specification. They will vary across different operating systems and input devices.

EditContext-handled inputType

An inputType is an [=EditContext-handled inputType=] if it is one of the following:

insertText
insertTranspose
deleteWordBackward
deleteWordForward
deleteContent
deleteContentBackward
deleteContentForward

The inputTypes handled by {{EditContext}} are those which operate only on raw text. Other inputTypes that depend on formats, clipboard/dragdrop, undo, or browser UI like spellcheck cannot be handled by {{EditContext}} since {{EditContext}}'s state does not include these concepts. If an author wants their application to handle those inputTypes, they need to process them manually in a beforeinput event handler.

Update the EditContext

Input: |editContext|, an {{EditContext}}; |text|, a string; |textFormats|, an array of [=text format=]s from the [=Text Input Service=]; |selectionStart|, the new position for the start of the selection; |selectionEnd|, the new position for the end of the selection; |isComposing|, a boolean indicating whether composition should be active at the end of the update; |replacementRangeStart|, the start position of the current composition (0 if there is no composition); |replacementRangeEnd|, the end position of the current composition (0 if there is no composition)
Output: None

If |isComposing| is true, |text| is not empty, and |editContext|'s [=is composing=] is false.
1. [=Fire an event=] named compositionstart at |editContext| using {{CompositionEvent}}.
2. set |editContext|'s [=is composing=] to true.
If |text| is empty:
1. If |editContext|'s [=is composing=] is false, return.
2. If |editContext|'s [=is composing=] is true and |isComposing| is false, then:
  1. Set |editContext|'s [=is composing=] to false.
  2. [=Fire an event=] named compositionend at |editContext| using {{CompositionEvent}}.
  3. Return.
If |editContext|'s [=is composing=] is true, then:
1. Let |insertionStart| be |replacementRangeStart|.
2. Let |insertionEnd| be |replacementRangeEnd|.
Otherwise:
1. Let |insertionStart| be |selectionStart|.
2. Let |insertionEnd| be |selectionEnd|.
Replace the substring of |editContext|'s [=text=] in the range of |insertionStart| and |insertionEnd| with |text|
Set |editContext|'s [=selection start=] to |selectionStart|.
Set |editContext|'s [=selection end=] to |selectionEnd|.
Set |editContext|'s [=composition start=] to |insertionStart|.
Set |editContext|'s [=composition end=] to |editContext|'s [=composition start=] plus the length of |text|.
[=Dispatch text update event=] given |editContext| and |text|.
If |editContext|'s [=is composing=] is true, then:
1. [=Dispatch text format update event=] given |editContext| and |textFormats|.
2. [=Dispatch character bounds update event=] given |editContext|.
3. If |isComposing| is false, then:
  1. Set |editContext|'s [=is composing=] to false.
  2. [=Fire an event=] named compositionend at |editContext| using {{CompositionEvent}}.

Update the Text Edit Context

Input: |document|, a {{Document}}
Output: None

Let |oldActiveEditContext| be |document|'s [=active EditContext=].
Let |newActiveEditContext| be the result of running the steps to [=determine the active EditContext=] given |document|.
If |oldActiveEditContext| is not null, then run the steps to [=deactivate an EditContext=] given |oldActiveEditContext|.
If |newActiveEditContext| is not null, then:
1. Update the [=Text Edit Context=]'s [=text state=] to match the values in |editContext|'s [=text state=].
Set the |document|'s [=active EditContext=] to |newActiveEditContext|.

Note that the steps to update the [=Text Edit Context=]'s [=text state=] are dependent on the nature of the abstraction created over a platform-specific [=Text Input Service=]. Those details are not part of this specification.

Dispatch text update event

Input: |editContext|, an {{EditContext}}; |text|, a string
Output: None

[=Fire an event=] named "textupdate" at |editContext| using {{TextUpdateEvent}}, with {{TextUpdateEvent/text}} initialized to |text|, {{TextUpdateEvent/selectionStart}} initialized to ||editContext|'s [=selection start=], and {{TextUpdateEvent/selectionEnd}} initialized to |editContext|'s [=selection end=].

Dispatch text format update event

Input: |editContext|, an {{EditContext}}; |textFormats|, an array of [=text format=]s from the [=Text Input Service=]
Output: None

Let |formats| be an array of {{TextFormat}}, initially empty.
For each [=text format=] |format| in |textFormats|,
1. Let |textFormat| be a new {{TextFormat}}. with |rangeStart|, |rangeEnd|, |underlineStyle|, |underlineThickness|.
2. Set |textFormat|'s {{TextFormat/rangeStart}} to |format|'s [=range start=].
3. Set |textFormat|'s {{TextFormat/rangeEnd}} to |format|'s [=range end=].
4. Set |textFormat|'s {{TextFormat/underlineStyle}} to |format|'s [=underline style=].
5. Set |textFormat|'s {{TextFormat/underlineThickness}} to |format|'s [=underline thickness=].
6. Append |textFormat| to |formats|
[=Fire an event=] named "textformatupdate" at |editContext| using {{TextFormatUpdateEvent}} with the {{TextFormatUpdateEvent}}'s [=text format list=] initialized to |formats|.

Dispatch character bounds update event

Input: |editContext|, an {{EditContext}}
Output: None

[=Fire an event=] named "characterboundsupdate" at |editContext| using {{CharacterBoundsUpdateEvent}} with {{CharacterBoundsUpdateEvent/rangeStart}} initialized to |editContext|'s [=composition start=] and {{CharacterBoundsUpdateEvent/rangeEnd}} initialized to |editContext|'s [=composition end=].

Deactivate an EditContext

Input: |editContext|, an {{EditContext}}
Output: None

Set |editContext|'s [=is composing=] to false.
[=Fire an event=] named compositionend at |editContext| using {{CompositionEvent}}.

Determine the active EditContext

Input: |document|, a {{Document}}
Output: An {{EditContext}}, or null.

Let |traversable| be |document|'s [=node navigable=]'s [=top-level traversable=].
If |traversable| is null, return null.
Let |focused| be the DOM anchor of the currently focused area of a top-level traversable given |traversable|.
If |focused| is null or if the [=shadow-including root=] of |focused| is not |document|, return null.

The purpose of getting |focusable| through the [=top-level traversable=] is that we want there to be only one [=active EditContext=] at a time per [=top-level traversable=]. So if system focus is in some other document, this document can't have an [=active EditContext=].
Let |editContext| be null.
While |focused| is not null and |focused| is editable:
1. Set |editContext| to the value of |focused|'s internal [[\EditContext]] slot.
2. Let |parent| be |focused|'s parent.
3. If |parent| is null and |focused|'s root is a [=shadow root=], let |parent| be |focused|'s root's host.
4. Set |focused| to |parent|.
Return |editContext|.

If an {{EditContext}}'s [=associated element=]'s parent is editable, that {{EditContext}} can't become the [=active EditContext=]. This is the case regardless of whether that parent is editable due to another {{EditContext}} or due to [^html-global/contenteditable^].

EditContext Interface

dictionary EditContextInit {
    DOMString text;
    unsigned long selectionStart;
    unsigned long selectionEnd;
};
[Exposed=Window]
interface EditContext : EventTarget {
    constructor(optional EditContextInit options = {});
    undefined updateText(unsigned long rangeStart, unsigned long rangeEnd,
        DOMString text);
    undefined updateSelection(unsigned long start, unsigned long end);
    undefined updateControlBounds(DOMRect controlBounds);
    undefined updateSelectionBounds(DOMRect selectionBounds);
    undefined updateCharacterBounds(unsigned long rangeStart, sequence<DOMRect> characterBounds);
    sequence<HTMLElement> attachedElements();
    readonly attribute DOMString text;
    readonly attribute unsigned long selectionStart;
    readonly attribute unsigned long selectionEnd;
    readonly attribute unsigned long characterBoundsRangeStart;
    sequence<DOMRect> characterBounds();
    attribute EventHandler ontextupdate;
    attribute EventHandler ontextformatupdate;
    attribute EventHandler oncharacterboundsupdate;
    attribute EventHandler oncompositionstart;
    attribute EventHandler oncompositionend;
};

text

The {{EditContext/text}} getter steps are to return [=this=]'s [=text=].

selectionStart

The {{EditContext/selectionStart}} getter steps are to return [=this=]'s [=selection start=].

selectionEnd

The {{EditContext/selectionEnd}} getter steps are to return [=this=]'s [=selection end=].

characterBounds

The {{EditContext/characterBounds}} getter steps are to return [=this=]'s [=codepoint rects=].

characterBoundsRangeStart

The {{EditContext/characterBoundsRangeStart}} getter steps are to return [=this=]'s [=codepoint rects start index=].

updateText() method