import { EditorState, Transaction, Selection, Plugin } from 'prosemirror-state'; import { Mark, Node, ParseRule, Slice, ResolvedPos, DOMParser, DOMSerializer } from 'prosemirror-model'; import { Mapping } from 'prosemirror-transform'; declare type DOMNode = InstanceType; declare type WidgetConstructor = ((view: EditorView, getPos: () => number | undefined) => DOMNode) | DOMNode; /** Decoration objects can be provided to the view through the [`decorations` prop](https://prosemirror.net/docs/ref/#view.EditorProps.decorations). They come in several variants—see the static members of this class for details. */ declare class Decoration { /** The start position of the decoration. */ readonly from: number; /** The end position. Will be the same as `from` for [widget decorations](https://prosemirror.net/docs/ref/#view.Decoration^widget). */ readonly to: number; /** Creates a widget decoration, which is a DOM node that's shown in the document at the given position. It is recommended that you delay rendering the widget by passing a function that will be called when the widget is actually drawn in a view, but you can also directly pass a DOM node. `getPos` can be used to find the widget's current document position. */ static widget(pos: number, toDOM: WidgetConstructor, spec?: { /** Controls which side of the document position this widget is associated with. When negative, it is drawn before a cursor at its position, and content inserted at that position ends up after the widget. When zero (the default) or positive, the widget is drawn after the cursor and content inserted there ends up before the widget. When there are multiple widgets at a given position, their `side` values determine the order in which they appear. Those with lower values appear first. The ordering of widgets with the same `side` value is unspecified. When `marks` is null, `side` also determines the marks that the widget is wrapped in—those of the node before when negative, those of the node after when positive. */ side?: number; /** The precise set of marks to draw around the widget. */ marks?: readonly Mark[]; /** Can be used to control which DOM events, when they bubble out of this widget, the editor view should ignore. */ stopEvent?: (event: Event) => boolean; /** When set (defaults to false), selection changes inside the widget are ignored, and don't cause ProseMirror to try and re-sync the selection with its selection state. */ ignoreSelection?: boolean; /** When comparing decorations of this type (in order to decide whether it needs to be redrawn), ProseMirror will by default compare the widget DOM node by identity. If you pass a key, that key will be compared instead, which can be useful when you generate decorations on the fly and don't want to store and reuse DOM nodes. Make sure that any widgets with the same key are interchangeable—if widgets differ in, for example, the behavior of some event handler, they should get different keys. */ key?: string; /** Called when the widget decoration is removed as a result of mapping */ destroy?: (node: DOMNode) => void; /** Specs allow arbitrary additional properties. */ [key: string]: any; }): Decoration; /** Creates an inline decoration, which adds the given attributes to each inline node between `from` and `to`. */ static inline(from: number, to: number, attrs: DecorationAttrs, spec?: { /** Determines how the left side of the decoration is [mapped](https://prosemirror.net/docs/ref/#transform.Position_Mapping) when content is inserted directly at that position. By default, the decoration won't include the new content, but you can set this to `true` to make it inclusive. */ inclusiveStart?: boolean; /** Determines how the right side of the decoration is mapped. See [`inclusiveStart`](https://prosemirror.net/docs/ref/#view.Decoration^inline^spec.inclusiveStart). */ inclusiveEnd?: boolean; /** Specs may have arbitrary additional properties. */ [key: string]: any; }): Decoration; /** Creates a node decoration. `from` and `to` should point precisely before and after a node in the document. That node, and only that node, will receive the given attributes. */ static node(from: number, to: number, attrs: DecorationAttrs, spec?: any): Decoration; /** The spec provided when creating this decoration. Can be useful if you've stored extra information in that object. */ get spec(): any; } /** A set of attributes to add to a decorated node. Most properties simply directly correspond to DOM attributes of the same name, which will be set to the property's value. These are exceptions: */ declare type DecorationAttrs = { /** When non-null, the target node is wrapped in a DOM element of this type (and the other attributes are applied to this element). */ nodeName?: string; /** A CSS class name or a space-separated set of class names to be _added_ to the classes that the node already had. */ class?: string; /** A string of CSS to be _added_ to the node's existing `style` property. */ style?: string; /** Any other properties are treated as regular DOM attributes. */ [attribute: string]: string | undefined; }; /** An object that can [provide](https://prosemirror.net/docs/ref/#view.EditorProps.decorations) decorations. Implemented by [`DecorationSet`](https://prosemirror.net/docs/ref/#view.DecorationSet), and passed to [node views](https://prosemirror.net/docs/ref/#view.EditorProps.nodeViews). */ interface DecorationSource { /** Map the set of decorations in response to a change in the document. */ map: (mapping: Mapping, node: Node) => DecorationSource; } /** A collection of [decorations](https://prosemirror.net/docs/ref/#view.Decoration), organized in such a way that the drawing algorithm can efficiently use and compare them. This is a persistent data structure—it is not modified, updates create a new value. */ declare class DecorationSet implements DecorationSource { /** Create a set of decorations, using the structure of the given document. */ static create(doc: Node, decorations: Decoration[]): DecorationSet; /** Find all decorations in this set which touch the given range (including decorations that start or end directly at the boundaries) and match the given predicate on their spec. When `start` and `end` are omitted, all decorations in the set are considered. When `predicate` isn't given, all decorations are assumed to match. */ find(start?: number, end?: number, predicate?: (spec: any) => boolean): Decoration[]; private findInner; /** Map the set of decorations in response to a change in the document. */ map(mapping: Mapping, doc: Node, options?: { /** When given, this function will be called for each decoration that gets dropped as a result of the mapping, passing the spec of that decoration. */ onRemove?: (decorationSpec: any) => void; }): DecorationSet; /** Add the given array of decorations to the ones in the set, producing a new set. Needs access to the current document to create the appropriate tree structure. */ add(doc: Node, decorations: Decoration[]): DecorationSet; private addInner; /** Create a new set that contains the decorations in this set, minus the ones in the given array. */ remove(decorations: Decoration[]): DecorationSet; private removeInner; /** The empty set of decorations. */ static empty: DecorationSet; } declare global { interface Node { pmViewDesc?: ViewDesc; } } /** By default, document nodes are rendered using the result of the [`toDOM`](https://prosemirror.net/docs/ref/#model.NodeSpec.toDOM) method of their spec, and managed entirely by the editor. For some use cases, such as embedded node-specific editing interfaces, you want more control over the behavior of a node's in-editor representation, and need to [define](https://prosemirror.net/docs/ref/#view.EditorProps.nodeViews) a custom node view. Mark views only support `dom` and `contentDOM`, and don't support any of the node view methods. Objects returned as node views must conform to this interface. */ interface NodeView { /** The outer DOM node that represents the document node. */ dom: DOMNode; /** The DOM node that should hold the node's content. Only meaningful if the node view also defines a `dom` property and if its node type is not a leaf node type. When this is present, ProseMirror will take care of rendering the node's children into it. When it is not present, the node view itself is responsible for rendering (or deciding not to render) its child nodes. */ contentDOM?: HTMLElement | null; /** When given, this will be called when the view is updating itself. It will be given a node (possibly of a different type), an array of active decorations around the node (which are automatically drawn, and the node view may ignore if it isn't interested in them), and a [decoration source](https://prosemirror.net/docs/ref/#view.DecorationSource) that represents any decorations that apply to the content of the node (which again may be ignored). It should return true if it was able to update to that node, and false otherwise. If the node view has a `contentDOM` property (or no `dom` property), updating its child nodes will be handled by ProseMirror. */ update?: (node: Node, decorations: readonly Decoration[], innerDecorations: DecorationSource) => boolean; /** Can be used to override the way the node's selected status (as a node selection) is displayed. */ selectNode?: () => void; /** When defining a `selectNode` method, you should also provide a `deselectNode` method to remove the effect again. */ deselectNode?: () => void; /** This will be called to handle setting the selection inside the node. The `anchor` and `head` positions are relative to the start of the node. By default, a DOM selection will be created between the DOM positions corresponding to those positions, but if you override it you can do something else. */ setSelection?: (anchor: number, head: number, root: Document | ShadowRoot) => void; /** Can be used to prevent the editor view from trying to handle some or all DOM events that bubble up from the node view. Events for which this returns true are not handled by the editor. */ stopEvent?: (event: Event) => boolean; /** Called when a DOM [mutation](https://developer.mozilla.org/en-US/docs/Web/API/MutationObserver) or a selection change happens within the view. When the change is a selection change, the record will have a `type` property of `"selection"` (which doesn't occur for native mutation records). Return false if the editor should re-read the selection or re-parse the range around the mutation, true if it can safely be ignored. */ ignoreMutation?: (mutation: MutationRecord) => boolean; /** Called when the node view is removed from the editor or the whole editor is destroyed. (Not available for marks.) */ destroy?: () => void; } declare class ViewDesc { parent: ViewDesc | undefined; children: ViewDesc[]; dom: DOMNode; contentDOM: HTMLElement | null; dirty: number; node: Node | null; constructor(parent: ViewDesc | undefined, children: ViewDesc[], dom: DOMNode, contentDOM: HTMLElement | null); matchesWidget(widget: Decoration): boolean; matchesMark(mark: Mark): boolean; matchesNode(node: Node, outerDeco: readonly Decoration[], innerDeco: DecorationSource): boolean; matchesHack(nodeName: string): boolean; parseRule(): ParseRule | null; stopEvent(event: Event): boolean; get size(): number; get border(): number; destroy(): void; posBeforeChild(child: ViewDesc): number; get posBefore(): number; get posAtStart(): number; get posAfter(): number; get posAtEnd(): number; localPosFromDOM(dom: DOMNode, offset: number, bias: number): number; nearestDesc(dom: DOMNode): ViewDesc | undefined; nearestDesc(dom: DOMNode, onlyNodes: true): NodeViewDesc | undefined; getDesc(dom: DOMNode): ViewDesc | undefined; posFromDOM(dom: DOMNode, offset: number, bias: number): number; descAt(pos: number): ViewDesc | undefined; domFromPos(pos: number, side: number): { node: DOMNode; offset: number; atom?: number; }; parseRange(from: number, to: number, base?: number): { node: DOMNode; from: number; to: number; fromOffset: number; toOffset: number; }; emptyChildAt(side: number): boolean; domAfterPos(pos: number): DOMNode; setSelection(anchor: number, head: number, root: Document | ShadowRoot, force?: boolean): void; ignoreMutation(mutation: MutationRecord): boolean; get contentLost(): boolean | null; markDirty(from: number, to: number): void; markParentsDirty(): void; get domAtom(): boolean; get ignoreForCoords(): boolean; } declare class NodeViewDesc extends ViewDesc { node: Node; outerDeco: readonly Decoration[]; innerDeco: DecorationSource; readonly nodeDOM: DOMNode; constructor(parent: ViewDesc | undefined, node: Node, outerDeco: readonly Decoration[], innerDeco: DecorationSource, dom: DOMNode, contentDOM: HTMLElement | null, nodeDOM: DOMNode, view: EditorView, pos: number); static create(parent: ViewDesc | undefined, node: Node, outerDeco: readonly Decoration[], innerDeco: DecorationSource, view: EditorView, pos: number): NodeViewDesc | TextViewDesc; parseRule(): ParseRule | null; matchesNode(node: Node, outerDeco: readonly Decoration[], innerDeco: DecorationSource): boolean; get size(): number; get border(): 1 | 0; updateChildren(view: EditorView, pos: number): void; localCompositionInfo(view: EditorView, pos: number): { node: Text; pos: number; text: string; } | null; protectLocalComposition(view: EditorView, { node, pos, text }: { node: Text; pos: number; text: string; }): void; update(node: Node, outerDeco: readonly Decoration[], innerDeco: DecorationSource, view: EditorView): boolean; updateInner(node: Node, outerDeco: readonly Decoration[], innerDeco: DecorationSource, view: EditorView): void; updateOuterDeco(outerDeco: readonly Decoration[]): void; selectNode(): void; deselectNode(): void; get domAtom(): boolean; } declare class TextViewDesc extends NodeViewDesc { constructor(parent: ViewDesc | undefined, node: Node, outerDeco: readonly Decoration[], innerDeco: DecorationSource, dom: DOMNode, nodeDOM: DOMNode, view: EditorView); parseRule(): ParseRule; update(node: Node, outerDeco: readonly Decoration[], innerDeco: DecorationSource, view: EditorView): boolean; inParent(): boolean; domFromPos(pos: number): { node: globalThis.Node; offset: number; }; localPosFromDOM(dom: DOMNode, offset: number, bias: number): number; ignoreMutation(mutation: MutationRecord): boolean; slice(from: number, to: number, view: EditorView): TextViewDesc; markDirty(from: number, to: number): void; get domAtom(): boolean; } /** An editor view manages the DOM structure that represents an editable document. Its state and behavior are determined by its [props](https://prosemirror.net/docs/ref/#view.DirectEditorProps). */ declare class EditorView { private _props; private directPlugins; private _root; private mounted; private prevDirectPlugins; private pluginViews; /** The view's current [state](https://prosemirror.net/docs/ref/#state.EditorState). */ state: EditorState; /** Create a view. `place` may be a DOM node that the editor should be appended to, a function that will place it into the document, or an object whose `mount` property holds the node to use as the document container. If it is `null`, the editor will not be added to the document. */ constructor(place: null | DOMNode | ((editor: HTMLElement) => void) | { mount: HTMLElement; }, props: DirectEditorProps); /** An editable DOM node containing the document. (You probably should not directly interfere with its content.) */ readonly dom: HTMLElement; /** Indicates whether the editor is currently [editable](https://prosemirror.net/docs/ref/#view.EditorProps.editable). */ editable: boolean; /** When editor content is being dragged, this object contains information about the dragged slice and whether it is being copied or moved. At any other time, it is null. */ dragging: null | { slice: Slice; move: boolean; }; /** Holds `true` when a [composition](https://w3c.github.io/uievents/#events-compositionevents) is active. */ get composing(): boolean; /** The view's current [props](https://prosemirror.net/docs/ref/#view.EditorProps). */ get props(): DirectEditorProps; /** Update the view's props. Will immediately cause an update to the DOM. */ update(props: DirectEditorProps): void; /** Update the view by updating existing props object with the object given as argument. Equivalent to `view.update(Object.assign({}, view.props, props))`. */ setProps(props: Partial): void; /** Update the editor's `state` prop, without touching any of the other props. */ updateState(state: EditorState): void; private updateStateInner; private destroyPluginViews; private updatePluginViews; /** Goes over the values of a prop, first those provided directly, then those from plugins given to the view, then from plugins in the state (in order), and calls `f` every time a non-undefined value is found. When `f` returns a truthy value, that is immediately returned. When `f` isn't provided, it is treated as the identity function (the prop value is returned directly). */ someProp(propName: PropName, f: (value: NonNullable) => Result): Result | undefined; someProp(propName: PropName): NonNullable | undefined; /** Query whether the view has focus. */ hasFocus(): boolean; /** Focus the editor. */ focus(): void; /** Get the document root in which the editor exists. This will usually be the top-level `document`, but might be a [shadow DOM](https://developer.mozilla.org/en-US/docs/Web/Web_Components/Shadow_DOM) root if the editor is inside one. */ get root(): Document | ShadowRoot; /** Given a pair of viewport coordinates, return the document position that corresponds to them. May return null if the given coordinates aren't inside of the editor. When an object is returned, its `pos` property is the position nearest to the coordinates, and its `inside` property holds the position of the inner node that the position falls inside of, or -1 if it is at the top level, not in any node. */ posAtCoords(coords: { left: number; top: number; }): { pos: number; inside: number; } | null; /** Returns the viewport rectangle at a given document position. `left` and `right` will be the same number, as this returns a flat cursor-ish rectangle. If the position is between two things that aren't directly adjacent, `side` determines which element is used. When < 0, the element before the position is used, otherwise the element after. */ coordsAtPos(pos: number, side?: number): { left: number; right: number; top: number; bottom: number; }; /** Find the DOM position that corresponds to the given document position. When `side` is negative, find the position as close as possible to the content before the position. When positive, prefer positions close to the content after the position. When zero, prefer as shallow a position as possible. Note that you should **not** mutate the editor's internal DOM, only inspect it (and even that is usually not necessary). */ domAtPos(pos: number, side?: number): { node: DOMNode; offset: number; }; /** Find the DOM node that represents the document node after the given position. May return `null` when the position doesn't point in front of a node or if the node is inside an opaque node view. This is intended to be able to call things like `getBoundingClientRect` on that DOM node. Do **not** mutate the editor DOM directly, or add styling this way, since that will be immediately overriden by the editor as it redraws the node. */ nodeDOM(pos: number): DOMNode | null; /** Find the document position that corresponds to a given DOM position. (Whenever possible, it is preferable to inspect the document structure directly, rather than poking around in the DOM, but sometimes—for example when interpreting an event target—you don't have a choice.) The `bias` parameter can be used to influence which side of a DOM node to use when the position is inside a leaf node. */ posAtDOM(node: DOMNode, offset: number, bias?: number): number; /** Find out whether the selection is at the end of a textblock when moving in a given direction. When, for example, given `"left"`, it will return true if moving left from the current cursor position would leave that position's parent textblock. Will apply to the view's current state by default, but it is possible to pass a different state. */ endOfTextblock(dir: "up" | "down" | "left" | "right" | "forward" | "backward", state?: EditorState): boolean; /** Run the editor's paste logic with the given HTML string. The `event`, if given, will be passed to the [`handlePaste`](https://prosemirror.net/docs/ref/#view.EditorProps.handlePaste) hook. */ pasteHTML(html: string, event?: ClipboardEvent): boolean; /** Run the editor's paste logic with the given plain-text input. */ pasteText(text: string, event?: ClipboardEvent): boolean; /** Removes the editor from the DOM and destroys all [node views](https://prosemirror.net/docs/ref/#view.NodeView). */ destroy(): void; /** This is true when the view has been [destroyed](https://prosemirror.net/docs/ref/#view.EditorView.destroy) (and thus should not be used anymore). */ get isDestroyed(): boolean; /** Used for testing. */ dispatchEvent(event: Event): void; /** Dispatch a transaction. Will call [`dispatchTransaction`](https://prosemirror.net/docs/ref/#view.DirectEditorProps.dispatchTransaction) when given, and otherwise defaults to applying the transaction to the current state and calling [`updateState`](https://prosemirror.net/docs/ref/#view.EditorView.updateState) with the result. This method is bound to the view instance, so that it can be easily passed around. */ dispatch(tr: Transaction): void; } /** The type of function [provided](https://prosemirror.net/docs/ref/#view.EditorProps.nodeViews) to create [node views](https://prosemirror.net/docs/ref/#view.NodeView). */ declare type NodeViewConstructor = (node: Node, view: EditorView, getPos: () => number | undefined, decorations: readonly Decoration[], innerDecorations: DecorationSource) => NodeView; /** The function types [used](https://prosemirror.net/docs/ref/#view.EditorProps.markViews) to create mark views. */ declare type MarkViewConstructor = (mark: Mark, view: EditorView, inline: boolean) => { dom: HTMLElement; contentDOM?: HTMLElement; }; /** Helper type that maps event names to event object types, but includes events that TypeScript's HTMLElementEventMap doesn't know about. */ interface DOMEventMap extends HTMLElementEventMap { [event: string]: any; } /** Props are configuration values that can be passed to an editor view or included in a plugin. This interface lists the supported props. The various event-handling functions may all return `true` to indicate that they handled the given event. The view will then take care to call `preventDefault` on the event, except with `handleDOMEvents`, where the handler itself is responsible for that. How a prop is resolved depends on the prop. Handler functions are called one at a time, starting with the base props and then searching through the plugins (in order of appearance) until one of them returns true. For some props, the first plugin that yields a value gets precedence. The optional type parameter refers to the type of `this` in prop functions, and is used to pass in the plugin type when defining a [plugin](https://prosemirror.net/docs/ref/#state.Plugin). */ interface EditorProps

{ /** Can be an object mapping DOM event type names to functions that handle them. Such functions will be called before any handling ProseMirror does of events fired on the editable DOM element. Contrary to the other event handling props, when returning true from such a function, you are responsible for calling `preventDefault` yourself (or not, if you want to allow the default behavior). */ handleDOMEvents?: { [event in keyof DOMEventMap]?: (this: P, view: EditorView, event: DOMEventMap[event]) => boolean | void; }; /** Called when the editor receives a `keydown` event. */ handleKeyDown?: (this: P, view: EditorView, event: KeyboardEvent) => boolean | void; /** Handler for `keypress` events. */ handleKeyPress?: (this: P, view: EditorView, event: KeyboardEvent) => boolean | void; /** Whenever the user directly input text, this handler is called before the input is applied. If it returns `true`, the default behavior of actually inserting the text is suppressed. */ handleTextInput?: (this: P, view: EditorView, from: number, to: number, text: string) => boolean | void; /** Called for each node around a click, from the inside out. The `direct` flag will be true for the inner node. */ handleClickOn?: (this: P, view: EditorView, pos: number, node: Node, nodePos: number, event: MouseEvent, direct: boolean) => boolean | void; /** Called when the editor is clicked, after `handleClickOn` handlers have been called. */ handleClick?: (this: P, view: EditorView, pos: number, event: MouseEvent) => boolean | void; /** Called for each node around a double click. */ handleDoubleClickOn?: (this: P, view: EditorView, pos: number, node: Node, nodePos: number, event: MouseEvent, direct: boolean) => boolean | void; /** Called when the editor is double-clicked, after `handleDoubleClickOn`. */ handleDoubleClick?: (this: P, view: EditorView, pos: number, event: MouseEvent) => boolean | void; /** Called for each node around a triple click. */ handleTripleClickOn?: (this: P, view: EditorView, pos: number, node: Node, nodePos: number, event: MouseEvent, direct: boolean) => boolean | void; /** Called when the editor is triple-clicked, after `handleTripleClickOn`. */ handleTripleClick?: (this: P, view: EditorView, pos: number, event: MouseEvent) => boolean | void; /** Can be used to override the behavior of pasting. `slice` is the pasted content parsed by the editor, but you can directly access the event to get at the raw content. */ handlePaste?: (this: P, view: EditorView, event: ClipboardEvent, slice: Slice) => boolean | void; /** Called when something is dropped on the editor. `moved` will be true if this drop moves from the current selection (which should thus be deleted). */ handleDrop?: (this: P, view: EditorView, event: DragEvent, slice: Slice, moved: boolean) => boolean | void; /** Called when the view, after updating its state, tries to scroll the selection into view. A handler function may return false to indicate that it did not handle the scrolling and further handlers or the default behavior should be tried. */ handleScrollToSelection?: (this: P, view: EditorView) => boolean; /** Can be used to override the way a selection is created when reading a DOM selection between the given anchor and head. */ createSelectionBetween?: (this: P, view: EditorView, anchor: ResolvedPos, head: ResolvedPos) => Selection | null; /** The [parser](https://prosemirror.net/docs/ref/#model.DOMParser) to use when reading editor changes from the DOM. Defaults to calling [`DOMParser.fromSchema`](https://prosemirror.net/docs/ref/#model.DOMParser^fromSchema) on the editor's schema. */ domParser?: DOMParser; /** Can be used to transform pasted HTML text, _before_ it is parsed, for example to clean it up. */ transformPastedHTML?: (this: P, html: string, view: EditorView) => string; /** The [parser](https://prosemirror.net/docs/ref/#model.DOMParser) to use when reading content from the clipboard. When not given, the value of the [`domParser`](https://prosemirror.net/docs/ref/#view.EditorProps.domParser) prop is used. */ clipboardParser?: DOMParser; /** Transform pasted plain text. The `plain` flag will be true when the text is pasted as plain text. */ transformPastedText?: (this: P, text: string, plain: boolean, view: EditorView) => string; /** A function to parse text from the clipboard into a document slice. Called after [`transformPastedText`](https://prosemirror.net/docs/ref/#view.EditorProps.transformPastedText). The default behavior is to split the text into lines, wrap them in `

` tags, and call [`clipboardParser`](https://prosemirror.net/docs/ref/#view.EditorProps.clipboardParser) on it. The `plain` flag will be true when the text is pasted as plain text. */ clipboardTextParser?: (this: P, text: string, $context: ResolvedPos, plain: boolean, view: EditorView) => Slice; /** Can be used to transform pasted or dragged-and-dropped content before it is applied to the document. */ transformPasted?: (this: P, slice: Slice, view: EditorView) => Slice; /** Can be used to transform copied or cut content before it is serialized to the clipboard. */ transformCopied?: (this: P, slice: Slice, view: EditorView) => Slice; /** Allows you to pass custom rendering and behavior logic for nodes. Should map node names to constructor functions that produce a [`NodeView`](https://prosemirror.net/docs/ref/#view.NodeView) object implementing the node's display behavior. The third argument `getPos` is a function that can be called to get the node's current position, which can be useful when creating transactions to update it. Note that if the node is not in the document, the position returned by this function will be `undefined`. `decorations` is an array of node or inline decorations that are active around the node. They are automatically drawn in the normal way, and you will usually just want to ignore this, but they can also be used as a way to provide context information to the node view without adding it to the document itself. `innerDecorations` holds the decorations for the node's content. You can safely ignore this if your view has no content or a `contentDOM` property, since the editor will draw the decorations on the content. But if you, for example, want to create a nested editor with the content, it may make sense to provide it with the inner decorations. (For backwards compatibility reasons, [mark views](https://prosemirror.net/docs/ref/#view.EditorProps.markViews) can also be included in this object.) */ nodeViews?: { [node: string]: NodeViewConstructor; }; /** Pass custom mark rendering functions. Note that these cannot provide the kind of dynamic behavior that [node views](https://prosemirror.net/docs/ref/#view.NodeView) can—they just provide custom rendering logic. The third argument indicates whether the mark's content is inline. */ markViews?: { [mark: string]: MarkViewConstructor; }; /** The DOM serializer to use when putting content onto the clipboard. If not given, the result of [`DOMSerializer.fromSchema`](https://prosemirror.net/docs/ref/#model.DOMSerializer^fromSchema) will be used. This object will only have its [`serializeFragment`](https://prosemirror.net/docs/ref/#model.DOMSerializer.serializeFragment) method called, and you may provide an alternative object type implementing a compatible method. */ clipboardSerializer?: DOMSerializer; /** A function that will be called to get the text for the current selection when copying text to the clipboard. By default, the editor will use [`textBetween`](https://prosemirror.net/docs/ref/#model.Node.textBetween) on the selected range. */ clipboardTextSerializer?: (this: P, content: Slice, view: EditorView) => string; /** A set of [document decorations](https://prosemirror.net/docs/ref/#view.Decoration) to show in the view. */ decorations?: (this: P, state: EditorState) => DecorationSource | null | undefined; /** When this returns false, the content of the view is not directly editable. */ editable?: (this: P, state: EditorState) => boolean; /** Control the DOM attributes of the editable element. May be either an object or a function going from an editor state to an object. By default, the element will get a class `"ProseMirror"`, and will have its `contentEditable` attribute determined by the [`editable` prop](https://prosemirror.net/docs/ref/#view.EditorProps.editable). Additional classes provided here will be added to the class. For other attributes, the value provided first (as in [`someProp`](https://prosemirror.net/docs/ref/#view.EditorView.someProp)) will be used. */ attributes?: { [name: string]: string; } | ((state: EditorState) => { [name: string]: string; }); /** Determines the distance (in pixels) between the cursor and the end of the visible viewport at which point, when scrolling the cursor into view, scrolling takes place. Defaults to 0. */ scrollThreshold?: number | { top: number; right: number; bottom: number; left: number; }; /** Determines the extra space (in pixels) that is left above or below the cursor when it is scrolled into view. Defaults to 5. */ scrollMargin?: number | { top: number; right: number; bottom: number; left: number; }; } /** The props object given directly to the editor view supports some fields that can't be used in plugins: */ interface DirectEditorProps extends EditorProps { /** The current state of the editor. */ state: EditorState; /** A set of plugins to use in the view, applying their [plugin view](https://prosemirror.net/docs/ref/#state.PluginSpec.view) and [props](https://prosemirror.net/docs/ref/#state.PluginSpec.props). Passing plugins with a state component (a [state field](https://prosemirror.net/docs/ref/#state.PluginSpec.state) field or a [transaction](https://prosemirror.net/docs/ref/#state.PluginSpec.filterTransaction) filter or appender) will result in an error, since such plugins must be present in the state to work. */ plugins?: readonly Plugin[]; /** The callback over which to send transactions (state updates) produced by the view. If you specify this, you probably want to make sure this ends up calling the view's [`updateState`](https://prosemirror.net/docs/ref/#view.EditorView.updateState) method with a new state that has the transaction [applied](https://prosemirror.net/docs/ref/#state.EditorState.apply). The callback will be bound to have the view instance as its `this` binding. */ dispatchTransaction?: (tr: Transaction) => void; } export { DOMEventMap, Decoration, DecorationAttrs, DecorationSet, DecorationSource, DirectEditorProps, EditorProps, EditorView, MarkViewConstructor, NodeView, NodeViewConstructor };