Class

RawElement (engine/view)

@ckeditor/ckeditor5-engine/src/view/rawelement

class

The raw element class.

The raw elements work as data containers ("wrappers", "sandboxes") but their children are not managed or even recognized by the editor. This encapsulation allows integrations to maintain custom DOM structures in the editor content without, for instance, worrying about compatibility with other editor features. Raw elements are a perfect tool for integration with external frameworks and data sources.

Unlike UI elements, raw elements act like real editor content (similar to ContainerElement or EmptyElement), they are considered by the editor selection and they can work as widgets.

To create a new raw element, use the downcastWriter#createRawElement() method.

Filtering

Properties

  • readonly inherited

    childCount : number

    Number of element's children.

  • readonly inherited

    document : Document

    The document instance to which this node belongs.

  • readonly inherited

    index : null | number

    Index of the node in the parent element or null if the node has no parent.

    Accessing this property throws an error if this node's parent element does not contain it. This means that view tree got broken.

  • readonly inherited

    isEmpty : boolean

    Is true if there are no nodes inside this element, false otherwise.

  • readonly inherited

    name : string

    Name of the element.

  • readonly inherited

    nextSibling : null | Node

    Node's next sibling, or null if it is the last child.

  • readonly inherited

    parent : null | Element | DocumentFragment

    Parent element. Null by default. Set by _insertChild.

  • readonly inherited

    previousSibling : null | Node

    Node's previous sibling, or null if it is the first child.

  • readonly inherited

    root : Element | DocumentFragment

    Top-most ancestor of the node. If the node has no parent it is the root itself.

  • internal readonly inherited

    _unsafeAttributesToRender : Array<string>

    A list of attribute names that should be rendered in the editing pipeline even though filtering mechanisms implemented in the DomConverter (for instance, shouldRenderAttribute) would filter them out.

    These attributes can be specified as an option when the element is created by the DowncastWriter. To check whether an unsafe an attribute should be permitted, use the shouldRenderUnsafeAttribute method.

Methods

  • internal

    constructor( document, name, [ attrs ], [ children ] )

    Creates a new instance of a raw element.

    Throws the view-rawelement-cannot-add CKEditorError when the children parameter is passed to inform that the usage of RawElement is incorrect (adding child nodes to RawElement is forbidden).

    Parameters

    document : Document

    The document instance to which this element belongs.

    name : string

    Node name.

    [ attrs ] : ElementAttributes

    Collection of attributes.

    [ children ] : Node | Iterable<Node>

    A list of nodes to be inserted into created element.

    Related:

  • inherited

    delegate( events ) → EmitterMixinDelegateChain

    Delegates selected events to another Emitter. For instance:

    emitterA.delegate( 'eventX' ).to( emitterB );
    emitterA.delegate( 'eventX', 'eventY' ).to( emitterC );
    

    then eventX is delegated (fired by) emitterB and emitterC along with data:

    emitterA.fire( 'eventX', data );
    

    and eventY is delegated (fired by) emitterC along with data:

    emitterA.fire( 'eventY', data );
    

    Parameters

    events : Array<string>

    Event names that will be delegated to another emitter.

    Returns

    EmitterMixinDelegateChain
  • inherited

    findAncestor( patterns ) → null | Element

    Returns ancestor element that match specified pattern. Provided patterns should be compatible with Matcher as it is used internally.

    Parameters

    patterns : Array<MatcherPattern | ( Element ) => boolean>

    Patterns used to match correct ancestor. See Matcher.

    Returns

    null | Element

    Found element or null if no matching ancestor was found.

    Related:

  • inherited

    fire( eventOrInfo, args ) → GetEventInfo<TEvent>[ 'return' ]

    Fires an event, executing all callbacks registered for it.

    The first parameter passed to callbacks is an EventInfo object, followed by the optional args provided in the fire() method call.

    Type parameters

    TEvent : extends BaseEvent

    The type describing the event. See BaseEvent.

    Parameters

    eventOrInfo : GetNameOrEventInfo<TEvent>

    The name of the event or EventInfo object if event is delegated.

    args : TEvent[ 'args' ]

    Additional arguments to be passed to the callbacks.

    Returns

    GetEventInfo<TEvent>[ 'return' ]

    By default the method returns undefined. However, the return value can be changed by listeners through modification of the evt.return's property (the event info is the first param of every callback).

  • inherited

    getAncestors( options = { [options.includeSelf], [options.parentFirst] } ) → Array<Node | DocumentFragment>

    Returns ancestors array of this node.

    Parameters

    options : object

    Options object.

    Properties
    [ options.includeSelf ] : boolean

    When set to true this node will be also included in parent's array.

    [ options.parentFirst ] : boolean

    When set to true, array will be sorted from node's parent to root element, otherwise root element will be the first item in the array.

    Defaults to {}

    Returns

    Array<Node | DocumentFragment>

    Array with ancestors.

  • inherited

    getAttribute( key ) → undefined | string

    Gets attribute by key. If attribute is not present - returns undefined.

    Parameters

    key : string

    Attribute key.

    Returns

    undefined | string

    Attribute value.

  • inherited

    getAttributeKeys() → IterableIterator<string>

    Returns an iterator that contains the keys for attributes. Order of inserting attributes is not preserved.

    Returns

    IterableIterator<string>

    Keys for attributes.

  • inherited

    getAttributes() → IterableIterator<tuple>

    Returns iterator that iterates over this element's attributes.

    Attributes are returned as arrays containing two items. First one is attribute key and second is attribute value. This format is accepted by native Map object and also can be passed in Node constructor.

    Returns

    IterableIterator<tuple>
  • inherited

    getChild( index ) → undefined | Node

    Gets child at the given index.

    Parameters

    index : number

    Index of child.

    Returns

    undefined | Node

    Child node.

  • inherited

    getChildIndex( node ) → number

    Gets index of the given child node. Returns -1 if child node is not found.

    Parameters

    node : Node

    Child node.

    Returns

    number

    Index of the child node.

  • inherited

    getChildren() → IterableIterator<Node>

    Gets child nodes iterator.

    Returns

    IterableIterator<Node>

    Child nodes iterator.

  • inherited

    getClassNames() → Iterable<string>

    Returns iterator that contains all class names.

    Returns

    Iterable<string>
  • inherited

    getCommonAncestor( node, options = { [options.includeSelf] } ) → null | Element | DocumentFragment

    Returns a Element or DocumentFragment which is a common ancestor of both nodes.

    Parameters

    node : Node

    The second node.

    options : object

    Options object.

    Properties
    [ options.includeSelf ] : boolean

    When set to true both nodes will be considered "ancestors" too. Which means that if e.g. node A is inside B, then their common ancestor will be B.

    Defaults to {}

    Returns

    null | Element | DocumentFragment
  • inherited

    getCustomProperties() → IterableIterator<tuple>

    Returns an iterator which iterates over this element's custom properties. Iterator provides [ key, value ] pairs for each stored property.

    Returns

    IterableIterator<tuple>
  • inherited

    getCustomProperty( key ) → unknown

    Returns the custom property value for the given key.

    Parameters

    key : string | symbol

    Returns

    unknown
  • inherited

    getFillerOffset() → null | number

    Returns block filler offset or null if block filler is not needed.

    Returns

    null | number
  • inherited

    getIdentity() → string

    Returns identity string based on element's name, styles, classes and other attributes. Two elements that are similar will have same identity string. It has the following format:

    'name class="class1,class2" style="style1:value1;style2:value2" attr1="val1" attr2="val2"'
    

    For example:

    const element = writer.createContainerElement( 'foo', {
    	banana: '10',
    	apple: '20',
    	style: 'color: red; border-color: white;',
    	class: 'baz'
    } );
    
    // returns 'foo class="baz" style="border-color:white;color:red" apple="20" banana="10"'
    element.getIdentity();
    

    Note: Classes, styles and other attributes are sorted alphabetically.

    Returns

    string
  • inherited

    getNormalizedStyle( property ) → StyleValue

    Returns a normalized style object or single style value.

    For an element with style set to: margin:1px 2px 3em;

    element.getNormalizedStyle( 'margin' ) );
    

    will return:

    {
    	top: '1px',
    	right: '2px',
    	bottom: '3em',
    	left: '2px'    // a normalized value from margin shorthand
    }
    

    and reading for single style value:

    styles.getNormalizedStyle( 'margin-left' );
    

    Will return a 2px string.

    Note: This method will return normalized values only if a particular style processor rule is enabled. See StylesMap#getNormalized() for details.

    Parameters

    property : string

    Name of CSS property

    Returns

    StyleValue
  • inherited

    getPath() → Array<number>

    Gets a path to the node. The path is an array containing indices of consecutive ancestors of this node, beginning from root, down to this node's index.

    const abc = downcastWriter.createText( 'abc' );
    const foo = downcastWriter.createText( 'foo' );
    const h1 = downcastWriter.createElement( 'h1', null, downcastWriter.createText( 'header' ) );
    const p = downcastWriter.createElement( 'p', null, [ abc, foo ] );
    const div = downcastWriter.createElement( 'div', null, [ h1, p ] );
    foo.getPath(); // Returns [ 1, 3 ]. `foo` is in `p` which is in `div`. `p` starts at offset 1, while `foo` at 3.
    h1.getPath(); // Returns [ 0 ].
    div.getPath(); // Returns [].
    

    Returns

    Array<number>

    The path.

  • inherited

    getStyle( property ) → undefined | string

    Returns style value for the given property mae. If the style does not exist undefined is returned.

    Note: This method can work with normalized style names if a particular style processor rule is enabled. See StylesMap#getAsString() for details.

    For an element with style set to 'margin:1px':

    // Enable 'margin' shorthand processing:
    editor.data.addStyleProcessorRules( addMarginRules );
    
    const element = view.change( writer => {
    	const element = writer.createElement();
    	writer.setStyle( 'margin', '1px' );
    	writer.setStyle( 'margin-bottom', '3em' );
    
    	return element;
    } );
    
    element.getStyle( 'margin' ); // -> 'margin: 1px 1px 3em;'
    

    Parameters

    property : string

    Returns

    undefined | string
  • inherited

    getStyleNames( [ expand ] ) → Iterable<string>

    Returns iterator that contains all style names.

    Parameters

    [ expand ] : boolean

    Expand shorthand style properties and return all equivalent style representations.

    Returns

    Iterable<string>
  • inherited

    hasAttribute( key ) → boolean

    Returns a boolean indicating whether an attribute with the specified key exists in the element.

    Parameters

    key : string

    Attribute key.

    Returns

    boolean

    true if attribute with the specified key exists in the element, false otherwise.

  • inherited

    hasClass( className ) → boolean

    Returns true if class is present. If more then one class is provided - returns true only when all classes are present.

    element.hasClass( 'foo' ); // Returns true if 'foo' class is present.
    element.hasClass( 'foo', 'bar' ); // Returns true if 'foo' and 'bar' classes are both present.
    

    Parameters

    className : Array<string>

    Returns

    boolean
  • inherited

    hasStyle( property ) → boolean

    Returns true if style keys are present. If more then one style property is provided - returns true only when all properties are present.

    element.hasStyle( 'color' ); // Returns true if 'border-top' style is present.
    element.hasStyle( 'color', 'border-top' ); // Returns true if 'color' and 'border-top' styles are both present.
    

    Parameters

    property : Array<string>

    Returns

    boolean
  • inherited

    is( type ) → this is Element | AttributeElement | ContainerElement | EditableElement | EmptyElement | RawElement | RootEditableElement | UIElement

    Checks whether this object is of type Element or its subclass.

    element.is( 'element' ); // -> true
    element.is( 'node' ); // -> true
    element.is( 'view:element' ); // -> true
    element.is( 'view:node' ); // -> true
    
    element.is( 'model:element' ); // -> false
    element.is( 'documentSelection' ); // -> false
    

    Assuming that the object being checked is an element, you can also check its name:

    element.is( 'element', 'img' ); // -> true if this is an <img> element
    text.is( 'element', 'img' ); -> false
    

    Parameters

    type : 'element' | 'view:element'

    Returns

    this is Element | AttributeElement | ContainerElement | EditableElement | EmptyElement | RawElement | RootEditableElement | UIElement
  • inherited

    is( type ) → this is AttributeElement

    Checks whether this object is of type AttributeElement.

    attributeElement.is( 'attributeElement' ); // -> true
    attributeElement.is( 'element' ); // -> true
    attributeElement.is( 'node' ); // -> true
    attributeElement.is( 'view:attributeElement' ); // -> true
    attributeElement.is( 'view:element' ); // -> true
    attributeElement.is( 'view:node' ); // -> true
    
    attributeElement.is( 'model:element' ); // -> false
    attributeElement.is( 'documentFragment' ); // -> false
    

    Assuming that the object being checked is an attribute element, you can also check its name:

    attributeElement.is( 'element', 'b' ); // -> true if this is a bold element
    attributeElement.is( 'attributeElement', 'b' ); // -> same as above
    text.is( 'element', 'b' ); -> false
    

    Parameters

    type : 'attributeElement' | 'view:attributeElement'

    Returns

    this is AttributeElement
  • inherited

    is( type ) → this is EmptyElement

    Checks whether this object is of type EmptyElement.

    emptyElement.is( 'emptyElement' ); // -> true
    emptyElement.is( 'element' ); // -> true
    emptyElement.is( 'node' ); // -> true
    emptyElement.is( 'view:emptyElement' ); // -> true
    emptyElement.is( 'view:element' ); // -> true
    emptyElement.is( 'view:node' ); // -> true
    
    emptyElement.is( 'model:element' ); // -> false
    emptyElement.is( 'documentFragment' ); // -> false
    

    Assuming that the object being checked is an empty element, you can also check its name:

    emptyElement.is( 'element', 'img' ); // -> true if this is a img element
    emptyElement.is( 'emptyElement', 'img' ); // -> same as above
    text.is( 'element', 'img' ); -> false
    

    Parameters

    type : 'emptyElement' | 'view:emptyElement'

    Returns

    this is EmptyElement
  • inherited

    is( type ) → this is EditableElement | RootEditableElement

    Checks whether this object is of type EditableElement or its subclass.

    editableElement.is( 'editableElement' ); // -> true
    editableElement.is( 'element' ); // -> true
    editableElement.is( 'node' ); // -> true
    editableElement.is( 'view:editableElement' ); // -> true
    editableElement.is( 'view:element' ); // -> true
    editableElement.is( 'view:node' ); // -> true
    
    editableElement.is( 'model:element' ); // -> false
    editableElement.is( 'documentFragment' ); // -> false
    

    Assuming that the object being checked is an editbale element, you can also check its name:

    editableElement.is( 'element', 'div' ); // -> true if this is a div element
    editableElement.is( 'editableElement', 'div' ); // -> same as above
    text.is( 'element', 'div' ); -> false
    

    Parameters

    type : 'editableElement' | 'view:editableElement'

    Returns

    this is EditableElement | RootEditableElement
  • inherited

    is( type ) → this is ContainerElement | EditableElement | RootEditableElement

    Checks whether this object is of type ContainerElement or its subclass.

    containerElement.is( 'containerElement' ); // -> true
    containerElement.is( 'element' ); // -> true
    containerElement.is( 'node' ); // -> true
    containerElement.is( 'view:containerElement' ); // -> true
    containerElement.is( 'view:element' ); // -> true
    containerElement.is( 'view:node' ); // -> true
    
    containerElement.is( 'model:element' ); // -> false
    containerElement.is( 'documentFragment' ); // -> false
    

    Assuming that the object being checked is a container element, you can also check its name:

    containerElement.is( 'element', 'div' ); // -> true if this is a div container element
    containerElement.is( 'contaienrElement', 'div' ); // -> same as above
    text.is( 'element', 'div' ); -> false
    

    Parameters

    type : 'containerElement' | 'view:containerElement'

    Returns

    this is ContainerElement | EditableElement | RootEditableElement
  • inherited

    is( type ) → this is Text

    Checks whether this object is of type Text.

    text.is( '$text' ); // -> true
    text.is( 'node' ); // -> true
    text.is( 'view:$text' ); // -> true
    text.is( 'view:node' ); // -> true
    
    text.is( 'model:$text' ); // -> false
    text.is( 'element' ); // -> false
    text.is( 'range' ); // -> false
    

    Parameters

    type : '$text' | 'view:$text'

    Returns

    this is Text
  • inherited

    is( type ) → this is Position

    Checks whether this object is of type Position.

    position.is( 'position' ); // -> true
    position.is( 'view:position' ); // -> true
    
    position.is( 'model:position' ); // -> false
    position.is( 'element' ); // -> false
    position.is( 'range' ); // -> false
    

    Parameters

    type : 'position' | 'view:position'

    Returns

    this is Position
  • inherited

    is( type ) → this is TextProxy

    Checks whether this object is of type TextProxy.

    textProxy.is( '$textProxy' ); // -> true
    textProxy.is( 'view:$textProxy' ); // -> true
    
    textProxy.is( 'model:$textProxy' ); // -> false
    textProxy.is( 'element' ); // -> false
    textProxy.is( 'range' ); // -> false
    

    Note: Until version 20.0.0 this method wasn't accepting '$textProxy' type. The legacy 'textProxy' type is still accepted for backward compatibility.

    Parameters

    type : '$textProxy' | 'view:$textProxy'

    Returns

    this is TextProxy
  • inherited

    is( type ) → this is DocumentFragment

    hecks whether this object is of type DocumentFragment.

    docFrag.is( 'documentFragment' ); // -> true
    docFrag.is( 'view:documentFragment' ); // -> true
    
    docFrag.is( 'model:documentFragment' ); // -> false
    docFrag.is( 'element' ); // -> false
    docFrag.is( 'node' ); // -> false
    

    Parameters

    type : 'documentFragment' | 'view:documentFragment'

    Returns

    this is DocumentFragment
  • inherited

    is( type ) → this is UIElement

    Checks whether this object is of type UIElement.

    uiElement.is( 'uiElement' ); // -> true
    uiElement.is( 'element' ); // -> true
    uiElement.is( 'node' ); // -> true
    uiElement.is( 'view:uiElement' ); // -> true
    uiElement.is( 'view:element' ); // -> true
    uiElement.is( 'view:node' ); // -> true
    
    uiElement.is( 'model:element' ); // -> false
    uiElement.is( 'documentFragment' ); // -> false
    

    Assuming that the object being checked is an ui element, you can also check its name:

    uiElement.is( 'element', 'span' ); // -> true if this is a span ui element
    uiElement.is( 'uiElement', 'span' ); // -> same as above
    text.is( 'element', 'span' ); -> false
    

    Parameters

    type : 'uiElement' | 'view:uiElement'

    Returns

    this is UIElement
  • inherited

    is( type ) → this is RootEditableElement

    Checks whether this object is of type RootEditableElement.

    rootEditableElement.is( 'rootElement' ); // -> true
    rootEditableElement.is( 'editableElement' ); // -> true
    rootEditableElement.is( 'element' ); // -> true
    rootEditableElement.is( 'node' ); // -> true
    rootEditableElement.is( 'view:editableElement' ); // -> true
    rootEditableElement.is( 'view:element' ); // -> true
    rootEditableElement.is( 'view:node' ); // -> true
    
    rootEditableElement.is( 'model:element' ); // -> false
    rootEditableElement.is( 'documentFragment' ); // -> false
    

    Assuming that the object being checked is a root editable element, you can also check its name:

    rootEditableElement.is( 'element', 'div' ); // -> true if this is a div root editable element
    rootEditableElement.is( 'rootElement', 'div' ); // -> same as above
    text.is( 'element', 'div' ); -> false
    

    Parameters

    type : 'rootElement' | 'view:rootElement'

    Returns

    this is RootEditableElement
  • inherited

    is( type ) → this is RawElement

    Checks whether this object is of type RawElement.

    rawElement.is( 'rawElement' ); // -> true
    rawElement.is( 'element' ); // -> true
    rawElement.is( 'node' ); // -> true
    rawElement.is( 'view:rawElement' ); // -> true
    rawElement.is( 'view:element' ); // -> true
    rawElement.is( 'view:node' ); // -> true
    
    rawElement.is( 'model:element' ); // -> false
    rawElement.is( 'documentFragment' ); // -> false
    

    Assuming that the object being checked is a raw element, you can also check its name:

    rawElement.is( 'img' ); // -> true if this is an img element
    rawElement.is( 'rawElement', 'img' ); // -> same as above
    text.is( 'img' ); -> false
    

    Parameters

    type : 'rawElement' | 'view:rawElement'

    Returns

    this is RawElement
  • inherited

    is( type ) → this is Range

    Checks whether this object is of type Range.

    range.is( 'range' ); // -> true
    range.is( 'view:range' ); // -> true
    
    range.is( 'model:range' ); // -> false
    range.is( 'element' ); // -> false
    range.is( 'selection' ); // -> false
    

    Parameters

    type : 'range' | 'view:range'

    Returns

    this is Range
  • inherited

    is( type, name ) → boolean

    Checks whether the object is of type AttributeElement and has the specified name.

    Type parameters

    N : extends string

    Parameters

    type : 'attributeElement' | 'view:attributeElement'
    name : N

    Returns

    boolean
  • inherited

    is( type, name ) → boolean

    Checks whether the object is of type RawElement and has the specified name.

    Type parameters

    N : extends string

    Parameters

    type : 'rawElement' | 'view:rawElement'
    name : N

    Returns

    boolean
  • inherited

    is( type, name ) → boolean

    Checks whether the object is of type UIElement and has the specified name.

    Type parameters

    N : extends string

    Parameters

    type : 'uiElement' | 'view:uiElement'
    name : N

    Returns

    boolean
  • inherited

    is( type, name ) → boolean

    Checks whether the object is of type RootEditableElement and has the specified name.

    Type parameters

    N : extends string

    Parameters

    type : 'rootElement' | 'view:rootElement'
    name : N

    Returns

    boolean
  • inherited

    is( type, name ) → boolean

    Checks whether the object is of type EmptyElement has the specified name.

    Type parameters

    N : extends string

    Parameters

    type : 'emptyElement' | 'view:emptyElement'
    name : N

    Returns

    boolean
  • inherited

    is( type, name ) → boolean

    Checks whether the object is of type EditableElement or its subclass and has the specified name.

    Type parameters

    N : extends string

    Parameters

    type : 'editableElement' | 'view:editableElement'
    name : N

    Returns

    boolean
  • inherited

    is( type, name ) → boolean

    Checks whether the object is of type ContainerElement or its subclass and has the specified name.

    Type parameters

    N : extends string

    Parameters

    type : 'containerElement' | 'view:containerElement'
    name : N

    Returns

    boolean
  • inherited

    is( type, name ) → boolean

    Checks whether the object is of type Element or its subclass and has the specified name.

    Type parameters

    N : extends string

    Parameters

    type : 'element' | 'view:element'
    name : N

    Returns

    boolean
  • inherited

    is( type ) → this is DocumentSelection

    Checks whether this object is of type DocumentSelection.

    `docSelection.is( 'selection' ); // -> true
    docSelection.is( 'documentSelection' ); // -> true
    docSelection.is( 'view:selection' ); // -> true
    docSelection.is( 'view:documentSelection' ); // -> true
    
    docSelection.is( 'model:documentSelection' ); // -> false
    docSelection.is( 'element' ); // -> false
    docSelection.is( 'node' ); // -> false
    

    Parameters

    type : 'documentSelection' | 'view:documentSelection'

    Returns

    this is DocumentSelection
  • inherited

    is( type ) → this is Selection | DocumentSelection

    Checks whether this object is of type Selection or DocumentSelection.

    selection.is( 'selection' ); // -> true
    selection.is( 'view:selection' ); // -> true
    
    selection.is( 'model:selection' ); // -> false
    selection.is( 'element' ); // -> false
    selection.is( 'range' ); // -> false
    

    Parameters

    type : 'selection' | 'view:selection'

    Returns

    this is Selection | DocumentSelection
  • inherited

    is( type ) → this is Text | Node | Element | AttributeElement | ContainerElement | EditableElement | EmptyElement | RawElement | RootEditableElement | UIElement

    Checks whether this object is of type Node or its subclass.

    This method is useful when processing view objects that are of unknown type. For example, a function may return a DocumentFragment or a Node that can be either a text node or an element. This method can be used to check what kind of object is returned.

    someObject.is( 'element' ); // -> true if this is an element
    someObject.is( 'node' ); // -> true if this is a node (a text node or an element)
    someObject.is( 'documentFragment' ); // -> true if this is a document fragment
    

    Since this method is also available on a range of model objects, you can prefix the type of the object with model: or view: to check, for example, if this is the model's or view's element:

    viewElement.is( 'view:element' ); // -> true
    viewElement.is( 'model:element' ); // -> false
    

    By using this method it is also possible to check a name of an element:

    imgElement.is( 'element', 'img' ); // -> true
    imgElement.is( 'view:element', 'img' ); // -> same as above, but more precise
    

    Parameters

    type : 'node' | 'view:node'

    Returns

    this is Text | Node | Element | AttributeElement | ContainerElement | EditableElement | EmptyElement | RawElement | RootEditableElement | UIElement
  • inherited

    isAfter( node ) → boolean

    Returns whether this node is after given node. false is returned if nodes are in different trees (for example, in different DocumentFragments).

    Parameters

    node : Node

    Node to compare with.

    Returns

    boolean
  • inherited

    isAttached() → boolean

    Returns true if the node is in a tree rooted in the document (is a descendant of one of its roots).

    Returns

    boolean
  • inherited

    isBefore( node ) → boolean

    Returns whether this node is before given node. false is returned if nodes are in different trees (for example, in different DocumentFragments).

    Parameters

    node : Node

    Node to compare with.

    Returns

    boolean
  • inherited

    isSimilar( otherElement ) → boolean

    Checks if this element is similar to other element. Both elements should have the same name and attributes to be considered as similar. Two similar elements can contain different set of children nodes.

    Parameters

    otherElement : Item

    Returns

    boolean
  • inherited

    listenTo( emitter, event, callback, [ options ] ) → void

    Registers a callback function to be executed when an event is fired in a specific (emitter) object.

    Events can be grouped in namespaces using :. When namespaced event is fired, it additionally fires all callbacks for that namespace.

    // myEmitter.on( ... ) is a shorthand for myEmitter.listenTo( myEmitter, ... ).
    myEmitter.on( 'myGroup', genericCallback );
    myEmitter.on( 'myGroup:myEvent', specificCallback );
    
    // genericCallback is fired.
    myEmitter.fire( 'myGroup' );
    // both genericCallback and specificCallback are fired.
    myEmitter.fire( 'myGroup:myEvent' );
    // genericCallback is fired even though there are no callbacks for "foo".
    myEmitter.fire( 'myGroup:foo' );
    

    An event callback can stop the event and set the return value of the fire method.

    Type parameters

    TEvent : extends BaseEvent

    The type describing the event. See BaseEvent.

    Parameters

    emitter : Emitter

    The object that fires the event.

    event : TEvent[ 'name' ]

    The name of the event.

    callback : GetCallback<TEvent>

    The function to be called on event.

    [ options ] : GetCallbackOptions<TEvent>

    Additional options.

    Returns

    void
  • inherited

    off( event, callback ) → void

    Stops executing the callback on the given event. Shorthand for this.stopListening( this, event, callback ).

    Parameters

    event : string

    The name of the event.

    callback : Function

    The function to stop being called.

    Returns

    void
  • inherited

    on( event, callback, [ options ] ) → void

    Registers a callback function to be executed when an event is fired.

    Shorthand for this.listenTo( this, event, callback, options ) (it makes the emitter listen on itself).

    Type parameters

    TEvent : extends BaseEvent

    The type descibing the event. See BaseEvent.

    Parameters

    event : TEvent[ 'name' ]

    The name of the event.

    callback : GetCallback<TEvent>

    The function to be called on event.

    [ options ] : GetCallbackOptions<TEvent>

    Additional options.

    Returns

    void
  • inherited

    once( event, callback, [ options ] ) → void

    Registers a callback function to be executed on the next time the event is fired only. This is similar to calling on followed by off in the callback.

    Type parameters

    TEvent : extends BaseEvent

    The type descibing the event. See BaseEvent.

    Parameters

    event : TEvent[ 'name' ]

    The name of the event.

    callback : GetCallback<TEvent>

    The function to be called on event.

    [ options ] : GetCallbackOptions<TEvent>

    Additional options.

    Returns

    void
  • render( domElement, domConverter ) → void

    This allows rendering the children of a RawElement on the DOM level. This method is called by the DomConverter with the raw DOM element passed as an argument, leaving the number and shape of the children up to the integrator.

    This method must be defined for the raw element to work:

    const myRawElement = downcastWriter.createRawElement( 'div' );
    
    myRawElement.render = function( domElement, domConverter ) {
    	domConverter.setContentOf( domElement, '<b>This is the raw content of myRawElement.</b>' );
    };
    

    Parameters

    domElement : HTMLElement

    The native DOM element representing the raw view element.

    domConverter : DomConverter

    Instance of the DomConverter used to optimize the output.

    Returns

    void
  • inherited

    shouldRenderUnsafeAttribute( attributeName ) → boolean

    Decides whether an unsafe attribute is whitelisted and should be rendered in the editing pipeline even though filtering mechanisms like shouldRenderAttribute say it should not.

    Unsafe attribute names can be specified when creating an element via DowncastWriter.

    Parameters

    attributeName : string

    The name of the attribute to be checked.

    Returns

    boolean
  • inherited

    stopDelegating( [ event ], [ emitter ] ) → void

    Stops delegating events. It can be used at different levels:

    • To stop delegating all events.
    • To stop delegating a specific event to all emitters.
    • To stop delegating a specific event to a specific emitter.

    Parameters

    [ event ] : string

    The name of the event to stop delegating. If omitted, stops it all delegations.

    [ emitter ] : Emitter

    (requires event) The object to stop delegating a particular event to. If omitted, stops delegation of event to all emitters.

    Returns

    void
  • inherited

    stopListening( [ emitter ], [ event ], [ callback ] ) → void

    Stops listening for events. It can be used at different levels:

    • To stop listening to a specific callback.
    • To stop listening to a specific event.
    • To stop listening to all events fired by a specific object.
    • To stop listening to all events fired by all objects.

    Parameters

    [ emitter ] : Emitter

    The object to stop listening to. If omitted, stops it for all objects.

    [ event ] : string

    (Requires the emitter) The name of the event to stop listening to. If omitted, stops it for all events from emitter.

    [ callback ] : Function

    (Requires the event) The function to be removed from the call list for the given event.

    Returns

    void
  • inherited

    toJSON() → unknown

    Custom toJSON method to solve child-parent circular dependencies.

    Returns

    unknown

    Clone of this object with the parent property removed.

  • internal inherited

    _addClass( className ) → void

    Adds specified class.

    element._addClass( 'foo' ); // Adds 'foo' class.
    element._addClass( [ 'foo', 'bar' ] ); // Adds 'foo' and 'bar' classes.
    

    Parameters

    className : ArrayOrItem<string>

    Returns

    void

    Fires

    Related:

  • internal inherited

    _appendChild( items ) → number

    Insert a child node or a list of child nodes at the end of this node and sets the parent of these nodes to this element.

    Parameters

    items : string | Item | Iterable<string | Item>

    Items to be inserted.

    Returns

    number

    Number of appended nodes.

    Fires

    Related:

  • internal inherited

    _clone( deep ) → RawElement

    Clones provided element.

    Parameters

    deep : boolean

    If set to true clones element and all its children recursively. When set to false, element will be cloned without any children.

    Defaults to false

    Returns

    RawElement

    Clone of this element.

  • internal inherited

    _fireChange( type, node ) → void

    Parameters

    type : ChangeType

    Type of the change.

    node : Node

    Changed node.

    Returns

    void

    Fires

  • internal

    _insertChild( index, items ) → number

    Overrides the _insertChild method. Throws the view-rawelement-cannot-add CKEditorError to prevent adding any child nodes to a raw element.

    Parameters

    index : number
    items : Item | Iterable<Item>

    Returns

    number
  • internal inherited

    _remove() → void

    Removes node from parent.

    Returns

    void
  • internal inherited

    _removeAttribute( key ) → boolean

    Removes attribute from the element.

    Parameters

    key : string

    Attribute key.

    Returns

    boolean

    Returns true if an attribute existed and has been removed.

    Fires

    Related:

  • internal inherited

    _removeChildren( index, howMany ) → Array<Node>

    Removes number of child nodes starting at the given index and set the parent of these nodes to null.

    Parameters

    index : number

    Number of the first node to remove.

    howMany : number

    Number of nodes to remove.

    Defaults to 1

    Returns

    Array<Node>

    The array of removed nodes.

    Fires

    Related:

  • internal inherited

    _removeClass( className ) → void

    Removes specified class.

    element._removeClass( 'foo' );  // Removes 'foo' class.
    element._removeClass( [ 'foo', 'bar' ] ); // Removes both 'foo' and 'bar' classes.
    

    Parameters

    className : ArrayOrItem<string>

    Returns

    void

    Fires

    Related:

  • internal inherited

    _removeCustomProperty( key ) → boolean

    Removes the custom property stored under the given key.

    Parameters

    key : string | symbol

    Returns

    boolean

    Returns true if property was removed.

    Related:

  • internal inherited

    _removeStyle( property ) → void

    Removes specified style.

    element._removeStyle( 'color' );  // Removes 'color' style.
    element._removeStyle( [ 'color', 'border-top' ] ); // Removes both 'color' and 'border-top' styles.
    

    Note: This method can work with normalized style names if a particular style processor rule is enabled. See StylesMap#remove() for details.

    Parameters

    property : ArrayOrItem<string>

    Returns

    void

    Fires

    Related:

  • internal inherited

    _setAttribute( key, value ) → void

    Adds or overwrite attribute with a specified key and value.

    Parameters

    key : string

    Attribute key.

    value : unknown

    Attribute value.

    Returns

    void

    Fires

    Related:

  • internal inherited

    _setCustomProperty( key, value ) → void

    Sets a custom property. Unlike attributes, custom properties are not rendered to the DOM, so they can be used to add special data to elements.

    Parameters

    key : string | symbol
    value : unknown

    Returns

    void

    Related:

  • internal inherited

    _setStyle( properties ) → void

    Adds style to the element.

    element._setStyle( {
    	color: 'red',
    	position: 'fixed'
    } );
    

    Note: This method can work with normalized style names if a particular style processor rule is enabled. See StylesMap#set() for details.

    Parameters

    properties : Record<string, string>

    Object with key - value pairs.

    Returns

    void

    Fires

    Related:

  • internal inherited

    _setStyle( property, value ) → void

    Adds style to the element.

    element._setStyle( 'color', 'red' );
    

    Note: This method can work with normalized style names if a particular style processor rule is enabled. See StylesMap#set() for details.

    Parameters

    property : string

    Property name.

    value : string

    Value to set.

    Returns

    void

    Fires

    Related:

Events

  • inherited

    change( eventInfo, changedNode )

    Fired when list of elements children, attributes or data changes.

    Change event is bubbled – it is fired on all ancestors.

    Parameters

    eventInfo : EventInfo

    An object containing information about the fired event.

    changedNode : Node
  • inherited

    change:attributes( eventInfo, changedNode )

    Fired when list of elements children, attributes or data changes.

    Change event is bubbled – it is fired on all ancestors.

    Parameters

    eventInfo : EventInfo

    An object containing information about the fired event.

    changedNode : Node
  • inherited

    change:children( eventInfo, changedNode )

    Fired when list of elements children, attributes or data changes.

    Change event is bubbled – it is fired on all ancestors.

    Parameters

    eventInfo : EventInfo

    An object containing information about the fired event.

    changedNode : Node
  • inherited

    change:text( eventInfo, changedNode )

    Fired when list of elements children, attributes or data changes.

    Change event is bubbled – it is fired on all ancestors.

    Parameters

    eventInfo : EventInfo

    An object containing information about the fired event.

    changedNode : Node