import OrderedMap from 'orderedmap'; /** A mark is a piece of information that can be attached to a node, such as it being emphasized, in code font, or a link. It has a type and optionally a set of attributes that provide further information (such as the target of the link). Marks are created through a `Schema`, which controls which types exist and which attributes they have. */ declare class Mark { /** The type of this mark. */ readonly type: MarkType; /** The attributes associated with this mark. */ readonly attrs: Attrs; /** Given a set of marks, create a new set which contains this one as well, in the right position. If this mark is already in the set, the set itself is returned. If any marks that are set to be [exclusive](https://prosemirror.net/docs/ref/#model.MarkSpec.excludes) with this mark are present, those are replaced by this one. */ addToSet(set: readonly Mark[]): readonly Mark[]; /** Remove this mark from the given set, returning a new set. If this mark is not in the set, the set itself is returned. */ removeFromSet(set: readonly Mark[]): readonly Mark[]; /** Test whether this mark is in the given set of marks. */ isInSet(set: readonly Mark[]): boolean; /** Test whether this mark has the same type and attributes as another mark. */ eq(other: Mark): boolean; /** Convert this mark to a JSON-serializeable representation. */ toJSON(): any; /** Deserialize a mark from JSON. */ static fromJSON(schema: Schema, json: any): Mark; /** Test whether two sets of marks are identical. */ static sameSet(a: readonly Mark[], b: readonly Mark[]): boolean; /** Create a properly sorted mark set from null, a single mark, or an unsorted array of marks. */ static setFrom(marks?: Mark | readonly Mark[] | null): readonly Mark[]; /** The empty set of marks. */ static none: readonly Mark[]; } declare type DOMNode = InstanceType; /** A description of a DOM structure. Can be either a string, which is interpreted as a text node, a DOM node, which is interpreted as itself, a `{dom, contentDOM}` object, or an array. An array describes a DOM element. The first value in the array should be a string—the name of the DOM element, optionally prefixed by a namespace URL and a space. If the second element is plain object, it is interpreted as a set of attributes for the element. Any elements after that (including the 2nd if it's not an attribute object) are interpreted as children of the DOM elements, and must either be valid `DOMOutputSpec` values, or the number zero. The number zero (pronounced “hole”) is used to indicate the place where a node's child nodes should be inserted. If it occurs in an output spec, it should be the only child element in its parent node. */ declare type DOMOutputSpec = string | DOMNode | { dom: DOMNode; contentDOM?: HTMLElement; } | readonly [string, ...any[]]; /** A DOM serializer knows how to convert ProseMirror nodes and marks of various types to DOM nodes. */ declare class DOMSerializer { /** The node serialization functions. */ readonly nodes: { [node: string]: (node: Node) => DOMOutputSpec; }; /** The mark serialization functions. */ readonly marks: { [mark: string]: (mark: Mark, inline: boolean) => DOMOutputSpec; }; /** Create a serializer. `nodes` should map node names to functions that take a node and return a description of the corresponding DOM. `marks` does the same for mark names, but also gets an argument that tells it whether the mark's content is block or inline content (for typical use, it'll always be inline). A mark serializer may be `null` to indicate that marks of that type should not be serialized. */ constructor( /** The node serialization functions. */ nodes: { [node: string]: (node: Node) => DOMOutputSpec; }, /** The mark serialization functions. */ marks: { [mark: string]: (mark: Mark, inline: boolean) => DOMOutputSpec; }); /** Serialize the content of this fragment to a DOM fragment. When not in the browser, the `document` option, containing a DOM document, should be passed so that the serializer can create nodes. */ serializeFragment(fragment: Fragment, options?: { document?: Document; }, target?: HTMLElement | DocumentFragment): HTMLElement | DocumentFragment; /** Serialize this node to a DOM node. This can be useful when you need to serialize a part of a document, as opposed to the whole document. To serialize a whole document, use [`serializeFragment`](https://prosemirror.net/docs/ref/#model.DOMSerializer.serializeFragment) on its [content](https://prosemirror.net/docs/ref/#model.Node.content). */ serializeNode(node: Node, options?: { document?: Document; }): globalThis.Node; /** Render an [output spec](https://prosemirror.net/docs/ref/#model.DOMOutputSpec) to a DOM node. If the spec has a hole (zero) in it, `contentDOM` will point at the node with the hole. */ static renderSpec(doc: Document, structure: DOMOutputSpec, xmlNS?: string | null): { dom: DOMNode; contentDOM?: HTMLElement; }; /** Build a serializer using the [`toDOM`](https://prosemirror.net/docs/ref/#model.NodeSpec.toDOM) properties in a schema's node and mark specs. */ static fromSchema(schema: Schema): DOMSerializer; /** Gather the serializers in a schema's node specs into an object. This can be useful as a base to build a custom serializer from. */ static nodesFromSchema(schema: Schema): { [node: string]: (node: Node) => DOMOutputSpec; }; /** Gather the serializers in a schema's mark specs into an object. */ static marksFromSchema(schema: Schema): { [mark: string]: (mark: Mark, inline: boolean) => DOMOutputSpec; }; } /** You can [_resolve_](https://prosemirror.net/docs/ref/#model.Node.resolve) a position to get more information about it. Objects of this class represent such a resolved position, providing various pieces of context information, and some helper methods. Throughout this interface, methods that take an optional `depth` parameter will interpret undefined as `this.depth` and negative numbers as `this.depth + value`. */ declare class ResolvedPos { /** The position that was resolved. */ readonly pos: number; /** The offset this position has into its parent node. */ readonly parentOffset: number; /** The number of levels the parent node is from the root. If this position points directly into the root node, it is 0. If it points into a top-level paragraph, 1, and so on. */ depth: number; /** The parent node that the position points into. Note that even if a position points into a text node, that node is not considered the parent—text nodes are ‘flat’ in this model, and have no content. */ get parent(): Node; /** The root node in which the position was resolved. */ get doc(): Node; /** The ancestor node at the given level. `p.node(p.depth)` is the same as `p.parent`. */ node(depth?: number | null): Node; /** The index into the ancestor at the given level. If this points at the 3rd node in the 2nd paragraph on the top level, for example, `p.index(0)` is 1 and `p.index(1)` is 2. */ index(depth?: number | null): number; /** The index pointing after this position into the ancestor at the given level. */ indexAfter(depth?: number | null): number; /** The (absolute) position at the start of the node at the given level. */ start(depth?: number | null): number; /** The (absolute) position at the end of the node at the given level. */ end(depth?: number | null): number; /** The (absolute) position directly before the wrapping node at the given level, or, when `depth` is `this.depth + 1`, the original position. */ before(depth?: number | null): number; /** The (absolute) position directly after the wrapping node at the given level, or the original position when `depth` is `this.depth + 1`. */ after(depth?: number | null): number; /** When this position points into a text node, this returns the distance between the position and the start of the text node. Will be zero for positions that point between nodes. */ get textOffset(): number; /** Get the node directly after the position, if any. If the position points into a text node, only the part of that node after the position is returned. */ get nodeAfter(): Node | null; /** Get the node directly before the position, if any. If the position points into a text node, only the part of that node before the position is returned. */ get nodeBefore(): Node | null; /** Get the position at the given index in the parent node at the given depth (which defaults to `this.depth`). */ posAtIndex(index: number, depth?: number | null): number; /** Get the marks at this position, factoring in the surrounding marks' [`inclusive`](https://prosemirror.net/docs/ref/#model.MarkSpec.inclusive) property. If the position is at the start of a non-empty node, the marks of the node after it (if any) are returned. */ marks(): readonly Mark[]; /** Get the marks after the current position, if any, except those that are non-inclusive and not present at position `$end`. This is mostly useful for getting the set of marks to preserve after a deletion. Will return `null` if this position is at the end of its parent node or its parent node isn't a textblock (in which case no marks should be preserved). */ marksAcross($end: ResolvedPos): readonly Mark[] | null; /** The depth up to which this position and the given (non-resolved) position share the same parent nodes. */ sharedDepth(pos: number): number; /** Returns a range based on the place where this position and the given position diverge around block content. If both point into the same textblock, for example, a range around that textblock will be returned. If they point into different blocks, the range around those blocks in their shared ancestor is returned. You can pass in an optional predicate that will be called with a parent node to see if a range into that parent is acceptable. */ blockRange(other?: ResolvedPos, pred?: (node: Node) => boolean): NodeRange | null; /** Query whether the given position shares the same parent node. */ sameParent(other: ResolvedPos): boolean; /** Return the greater of this and the given position. */ max(other: ResolvedPos): ResolvedPos; /** Return the smaller of this and the given position. */ min(other: ResolvedPos): ResolvedPos; } /** Represents a flat range of content, i.e. one that starts and ends in the same node. */ declare class NodeRange { /** A resolved position along the start of the content. May have a `depth` greater than this object's `depth` property, since these are the positions that were used to compute the range, not re-resolved positions directly at its boundaries. */ readonly $from: ResolvedPos; /** A position along the end of the content. See caveat for [`$from`](https://prosemirror.net/docs/ref/#model.NodeRange.$from). */ readonly $to: ResolvedPos; /** The depth of the node that this range points into. */ readonly depth: number; /** Construct a node range. `$from` and `$to` should point into the same node until at least the given `depth`, since a node range denotes an adjacent set of nodes in a single parent node. */ constructor( /** A resolved position along the start of the content. May have a `depth` greater than this object's `depth` property, since these are the positions that were used to compute the range, not re-resolved positions directly at its boundaries. */ $from: ResolvedPos, /** A position along the end of the content. See caveat for [`$from`](https://prosemirror.net/docs/ref/#model.NodeRange.$from). */ $to: ResolvedPos, /** The depth of the node that this range points into. */ depth: number); /** The position at the start of the range. */ get start(): number; /** The position at the end of the range. */ get end(): number; /** The parent node that the range points into. */ get parent(): Node; /** The start index of the range in the parent node. */ get startIndex(): number; /** The end index of the range in the parent node. */ get endIndex(): number; } /** Error type raised by [`Node.replace`](https://prosemirror.net/docs/ref/#model.Node.replace) when given an invalid replacement. */ declare class ReplaceError extends Error { } /** A slice represents a piece cut out of a larger document. It stores not only a fragment, but also the depth up to which nodes on both side are ‘open’ (cut through). */ declare class Slice { /** The slice's content. */ readonly content: Fragment; /** The open depth at the start of the fragment. */ readonly openStart: number; /** The open depth at the end. */ readonly openEnd: number; /** Create a slice. When specifying a non-zero open depth, you must make sure that there are nodes of at least that depth at the appropriate side of the fragment—i.e. if the fragment is an empty paragraph node, `openStart` and `openEnd` can't be greater than 1. It is not necessary for the content of open nodes to conform to the schema's content constraints, though it should be a valid start/end/middle for such a node, depending on which sides are open. */ constructor( /** The slice's content. */ content: Fragment, /** The open depth at the start of the fragment. */ openStart: number, /** The open depth at the end. */ openEnd: number); /** The size this slice would add when inserted into a document. */ get size(): number; /** Tests whether this slice is equal to another slice. */ eq(other: Slice): boolean; /** Convert a slice to a JSON-serializable representation. */ toJSON(): any; /** Deserialize a slice from its JSON representation. */ static fromJSON(schema: Schema, json: any): Slice; /** Create a slice from a fragment by taking the maximum possible open value on both side of the fragment. */ static maxOpen(fragment: Fragment, openIsolating?: boolean): Slice; /** The empty slice. */ static empty: Slice; } /** These are the options recognized by the [`parse`](https://prosemirror.net/docs/ref/#model.DOMParser.parse) and [`parseSlice`](https://prosemirror.net/docs/ref/#model.DOMParser.parseSlice) methods. */ interface ParseOptions { /** By default, whitespace is collapsed as per HTML's rules. Pass `true` to preserve whitespace, but normalize newlines to spaces, and `"full"` to preserve whitespace entirely. */ preserveWhitespace?: boolean | "full"; /** When given, the parser will, beside parsing the content, record the document positions of the given DOM positions. It will do so by writing to the objects, adding a `pos` property that holds the document position. DOM positions that are not in the parsed content will not be written to. */ findPositions?: { node: DOMNode; offset: number; pos?: number; }[]; /** The child node index to start parsing from. */ from?: number; /** The child node index to stop parsing at. */ to?: number; /** By default, the content is parsed into the schema's default [top node type](https://prosemirror.net/docs/ref/#model.Schema.topNodeType). You can pass this option to use the type and attributes from a different node as the top container. */ topNode?: Node; /** Provide the starting content match that content parsed into the top node is matched against. */ topMatch?: ContentMatch; /** A set of additional nodes to count as [context](https://prosemirror.net/docs/ref/#model.ParseRule.context) when parsing, above the given [top node](https://prosemirror.net/docs/ref/#model.ParseOptions.topNode). */ context?: ResolvedPos; } /** A value that describes how to parse a given DOM node or inline style as a ProseMirror node or mark. */ interface ParseRule { /** A CSS selector describing the kind of DOM elements to match. A single rule should have _either_ a `tag` or a `style` property. */ tag?: string; /** The namespace to match. This should be used with `tag`. Nodes are only matched when the namespace matches or this property is null. */ namespace?: string; /** A CSS property name to match. When given, this rule matches inline styles that list that property. May also have the form `"property=value"`, in which case the rule only matches if the property's value exactly matches the given value. (For more complicated filters, use [`getAttrs`](https://prosemirror.net/docs/ref/#model.ParseRule.getAttrs) and return false to indicate that the match failed.) Rules matching styles may only produce [marks](https://prosemirror.net/docs/ref/#model.ParseRule.mark), not nodes. */ style?: string; /** Can be used to change the order in which the parse rules in a schema are tried. Those with higher priority come first. Rules without a priority are counted as having priority 50. This property is only meaningful in a schema—when directly constructing a parser, the order of the rule array is used. */ priority?: number; /** By default, when a rule matches an element or style, no further rules get a chance to match it. By setting this to `false`, you indicate that even when this rule matches, other rules that come after it should also run. */ consuming?: boolean; /** When given, restricts this rule to only match when the current context—the parent nodes into which the content is being parsed—matches this expression. Should contain one or more node names or node group names followed by single or double slashes. For example `"paragraph/"` means the rule only matches when the parent node is a paragraph, `"blockquote/paragraph/"` restricts it to be in a paragraph that is inside a blockquote, and `"section//"` matches any position inside a section—a double slash matches any sequence of ancestor nodes. To allow multiple different contexts, they can be separated by a pipe (`|`) character, as in `"blockquote/|list_item/"`. */ context?: string; /** The name of the node type to create when this rule matches. Only valid for rules with a `tag` property, not for style rules. Each rule should have one of a `node`, `mark`, `clearMark`, or `ignore` property (except when it appears in a [node](https://prosemirror.net/docs/ref/#model.NodeSpec.parseDOM) or [mark spec](https://prosemirror.net/docs/ref/#model.MarkSpec.parseDOM), in which case the `node` or `mark` property will be derived from its position). */ node?: string; /** The name of the mark type to wrap the matched content in. */ mark?: string; /** [Style](https://prosemirror.net/docs/ref/#model.ParseRule.style) rules can remove marks from the set of active marks. */ clearMark?: (mark: Mark) => boolean; /** When true, ignore content that matches this rule. */ ignore?: boolean; /** When true, finding an element that matches this rule will close the current node. */ closeParent?: boolean; /** When true, ignore the node that matches this rule, but do parse its content. */ skip?: boolean; /** Attributes for the node or mark created by this rule. When `getAttrs` is provided, it takes precedence. */ attrs?: Attrs; /** A function used to compute the attributes for the node or mark created by this rule. Can also be used to describe further conditions the DOM element or style must match. When it returns `false`, the rule won't match. When it returns null or undefined, that is interpreted as an empty/default set of attributes. Called with a DOM Element for `tag` rules, and with a string (the style's value) for `style` rules. */ getAttrs?: (node: HTMLElement | string) => Attrs | false | null; /** For `tag` rules that produce non-leaf nodes or marks, by default the content of the DOM element is parsed as content of the mark or node. If the child nodes are in a descendent node, this may be a CSS selector string that the parser must use to find the actual content element, or a function that returns the actual content element to the parser. */ contentElement?: string | HTMLElement | ((node: DOMNode) => HTMLElement); /** Can be used to override the content of a matched node. When present, instead of parsing the node's child nodes, the result of this function is used. */ getContent?: (node: DOMNode, schema: Schema) => Fragment; /** Controls whether whitespace should be preserved when parsing the content inside the matched element. `false` means whitespace may be collapsed, `true` means that whitespace should be preserved but newlines normalized to spaces, and `"full"` means that newlines should also be preserved. */ preserveWhitespace?: boolean | "full"; } /** A DOM parser represents a strategy for parsing DOM content into a ProseMirror document conforming to a given schema. Its behavior is defined by an array of [rules](https://prosemirror.net/docs/ref/#model.ParseRule). */ declare class DOMParser { /** The schema into which the parser parses. */ readonly schema: Schema; /** The set of [parse rules](https://prosemirror.net/docs/ref/#model.ParseRule) that the parser uses, in order of precedence. */ readonly rules: readonly ParseRule[]; /** Create a parser that targets the given schema, using the given parsing rules. */ constructor( /** The schema into which the parser parses. */ schema: Schema, /** The set of [parse rules](https://prosemirror.net/docs/ref/#model.ParseRule) that the parser uses, in order of precedence. */ rules: readonly ParseRule[]); /** Parse a document from the content of a DOM node. */ parse(dom: DOMNode, options?: ParseOptions): Node; /** Parses the content of the given DOM node, like [`parse`](https://prosemirror.net/docs/ref/#model.DOMParser.parse), and takes the same set of options. But unlike that method, which produces a whole node, this one returns a slice that is open at the sides, meaning that the schema constraints aren't applied to the start of nodes to the left of the input and the end of nodes at the end. */ parseSlice(dom: DOMNode, options?: ParseOptions): Slice; /** Construct a DOM parser using the parsing rules listed in a schema's [node specs](https://prosemirror.net/docs/ref/#model.NodeSpec.parseDOM), reordered by [priority](https://prosemirror.net/docs/ref/#model.ParseRule.priority). */ static fromSchema(schema: Schema): DOMParser; } /** An object holding the attributes of a node. */ declare type Attrs = { readonly [attr: string]: any; }; /** Node types are objects allocated once per `Schema` and used to [tag](https://prosemirror.net/docs/ref/#model.Node.type) `Node` instances. They contain information about the node type, such as its name and what kind of node it represents. */ declare class NodeType { /** The name the node type has in this schema. */ readonly name: string; /** A link back to the `Schema` the node type belongs to. */ readonly schema: Schema; /** The spec that this type is based on */ readonly spec: NodeSpec; /** True if this node type has inline content. */ inlineContent: boolean; /** True if this is a block type */ isBlock: boolean; /** True if this is the text node type. */ isText: boolean; /** True if this is an inline type. */ get isInline(): boolean; /** True if this is a textblock type, a block that contains inline content. */ get isTextblock(): boolean; /** True for node types that allow no content. */ get isLeaf(): boolean; /** True when this node is an atom, i.e. when it does not have directly editable content. */ get isAtom(): boolean; /** The starting match of the node type's content expression. */ contentMatch: ContentMatch; /** The set of marks allowed in this node. `null` means all marks are allowed. */ markSet: readonly MarkType[] | null; /** The node type's [whitespace](https://prosemirror.net/docs/ref/#model.NodeSpec.whitespace) option. */ get whitespace(): "pre" | "normal"; /** Tells you whether this node type has any required attributes. */ hasRequiredAttrs(): boolean; /** Indicates whether this node allows some of the same content as the given node type. */ compatibleContent(other: NodeType): boolean; /** Create a `Node` of this type. The given attributes are checked and defaulted (you can pass `null` to use the type's defaults entirely, if no required attributes exist). `content` may be a `Fragment`, a node, an array of nodes, or `null`. Similarly `marks` may be `null` to default to the empty set of marks. */ create(attrs?: Attrs | null, content?: Fragment | Node | readonly Node[] | null, marks?: readonly Mark[]): Node; /** Like [`create`](https://prosemirror.net/docs/ref/#model.NodeType.create), but check the given content against the node type's content restrictions, and throw an error if it doesn't match. */ createChecked(attrs?: Attrs | null, content?: Fragment | Node | readonly Node[] | null, marks?: readonly Mark[]): Node; /** Like [`create`](https://prosemirror.net/docs/ref/#model.NodeType.create), but see if it is necessary to add nodes to the start or end of the given fragment to make it fit the node. If no fitting wrapping can be found, return null. Note that, due to the fact that required nodes can always be created, this will always succeed if you pass null or `Fragment.empty` as content. */ createAndFill(attrs?: Attrs | null, content?: Fragment | Node | readonly Node[] | null, marks?: readonly Mark[]): Node | null; /** Returns true if the given fragment is valid content for this node type with the given attributes. */ validContent(content: Fragment): boolean; /** Check whether the given mark type is allowed in this node. */ allowsMarkType(markType: MarkType): boolean; /** Test whether the given set of marks are allowed in this node. */ allowsMarks(marks: readonly Mark[]): boolean; /** Removes the marks that are not allowed in this node from the given set. */ allowedMarks(marks: readonly Mark[]): readonly Mark[]; } /** Like nodes, marks (which are associated with nodes to signify things like emphasis or being part of a link) are [tagged](https://prosemirror.net/docs/ref/#model.Mark.type) with type objects, which are instantiated once per `Schema`. */ declare class MarkType { /** The name of the mark type. */ readonly name: string; /** The schema that this mark type instance is part of. */ readonly schema: Schema; /** The spec on which the type is based. */ readonly spec: MarkSpec; /** Create a mark of this type. `attrs` may be `null` or an object containing only some of the mark's attributes. The others, if they have defaults, will be added. */ create(attrs?: Attrs | null): Mark; /** When there is a mark of this type in the given set, a new set without it is returned. Otherwise, the input set is returned. */ removeFromSet(set: readonly Mark[]): readonly Mark[]; /** Tests whether there is a mark of this type in the given set. */ isInSet(set: readonly Mark[]): Mark | undefined; /** Queries whether a given mark type is [excluded](https://prosemirror.net/docs/ref/#model.MarkSpec.excludes) by this one. */ excludes(other: MarkType): boolean; } /** An object describing a schema, as passed to the [`Schema`](https://prosemirror.net/docs/ref/#model.Schema) constructor. */ interface SchemaSpec { /** The node types in this schema. Maps names to [`NodeSpec`](https://prosemirror.net/docs/ref/#model.NodeSpec) objects that describe the node type associated with that name. Their order is significant—it determines which [parse rules](https://prosemirror.net/docs/ref/#model.NodeSpec.parseDOM) take precedence by default, and which nodes come first in a given [group](https://prosemirror.net/docs/ref/#model.NodeSpec.group). */ nodes: { [name in Nodes]: NodeSpec; } | OrderedMap; /** The mark types that exist in this schema. The order in which they are provided determines the order in which [mark sets](https://prosemirror.net/docs/ref/#model.Mark.addToSet) are sorted and in which [parse rules](https://prosemirror.net/docs/ref/#model.MarkSpec.parseDOM) are tried. */ marks?: { [name in Marks]: MarkSpec; } | OrderedMap; /** The name of the default top-level node for the schema. Defaults to `"doc"`. */ topNode?: string; } /** A description of a node type, used when defining a schema. */ interface NodeSpec { /** The content expression for this node, as described in the [schema guide](/docs/guide/#schema.content_expressions). When not given, the node does not allow any content. */ content?: string; /** The marks that are allowed inside of this node. May be a space-separated string referring to mark names or groups, `"_"` to explicitly allow all marks, or `""` to disallow marks. When not given, nodes with inline content default to allowing all marks, other nodes default to not allowing marks. */ marks?: string; /** The group or space-separated groups to which this node belongs, which can be referred to in the content expressions for the schema. */ group?: string; /** Should be set to true for inline nodes. (Implied for text nodes.) */ inline?: boolean; /** Can be set to true to indicate that, though this isn't a [leaf node](https://prosemirror.net/docs/ref/#model.NodeType.isLeaf), it doesn't have directly editable content and should be treated as a single unit in the view. */ atom?: boolean; /** The attributes that nodes of this type get. */ attrs?: { [name: string]: AttributeSpec; }; /** Controls whether nodes of this type can be selected as a [node selection](https://prosemirror.net/docs/ref/#state.NodeSelection). Defaults to true for non-text nodes. */ selectable?: boolean; /** Determines whether nodes of this type can be dragged without being selected. Defaults to false. */ draggable?: boolean; /** Can be used to indicate that this node contains code, which causes some commands to behave differently. */ code?: boolean; /** Controls way whitespace in this a node is parsed. The default is `"normal"`, which causes the [DOM parser](https://prosemirror.net/docs/ref/#model.DOMParser) to collapse whitespace in normal mode, and normalize it (replacing newlines and such with spaces) otherwise. `"pre"` causes the parser to preserve spaces inside the node. When this option isn't given, but [`code`](https://prosemirror.net/docs/ref/#model.NodeSpec.code) is true, `whitespace` will default to `"pre"`. Note that this option doesn't influence the way the node is rendered—that should be handled by `toDOM` and/or styling. */ whitespace?: "pre" | "normal"; /** Determines whether this node is considered an important parent node during replace operations (such as paste). Non-defining (the default) nodes get dropped when their entire content is replaced, whereas defining nodes persist and wrap the inserted content. */ definingAsContext?: boolean; /** In inserted content the defining parents of the content are preserved when possible. Typically, non-default-paragraph textblock types, and possibly list items, are marked as defining. */ definingForContent?: boolean; /** When enabled, enables both [`definingAsContext`](https://prosemirror.net/docs/ref/#model.NodeSpec.definingAsContext) and [`definingForContent`](https://prosemirror.net/docs/ref/#model.NodeSpec.definingForContent). */ defining?: boolean; /** When enabled (default is false), the sides of nodes of this type count as boundaries that regular editing operations, like backspacing or lifting, won't cross. An example of a node that should probably have this enabled is a table cell. */ isolating?: boolean; /** Defines the default way a node of this type should be serialized to DOM/HTML (as used by [`DOMSerializer.fromSchema`](https://prosemirror.net/docs/ref/#model.DOMSerializer^fromSchema)). Should return a DOM node or an [array structure](https://prosemirror.net/docs/ref/#model.DOMOutputSpec) that describes one, with an optional number zero (“hole”) in it to indicate where the node's content should be inserted. For text nodes, the default is to create a text DOM node. Though it is possible to create a serializer where text is rendered differently, this is not supported inside the editor, so you shouldn't override that in your text node spec. */ toDOM?: (node: Node) => DOMOutputSpec; /** Associates DOM parser information with this node, which can be used by [`DOMParser.fromSchema`](https://prosemirror.net/docs/ref/#model.DOMParser^fromSchema) to automatically derive a parser. The `node` field in the rules is implied (the name of this node will be filled in automatically). If you supply your own parser, you do not need to also specify parsing rules in your schema. */ parseDOM?: readonly ParseRule[]; /** Defines the default way a node of this type should be serialized to a string representation for debugging (e.g. in error messages). */ toDebugString?: (node: Node) => string; /** Defines the default way a [leaf node](https://prosemirror.net/docs/ref/#model.NodeType.isLeaf) of this type should be serialized to a string (as used by [`Node.textBetween`](https://prosemirror.net/docs/ref/#model.Node^textBetween) and [`Node.textContent`](https://prosemirror.net/docs/ref/#model.Node^textContent)). */ leafText?: (node: Node) => string; /** Node specs may include arbitrary properties that can be read by other code via [`NodeType.spec`](https://prosemirror.net/docs/ref/#model.NodeType.spec). */ [key: string]: any; } /** Used to define marks when creating a schema. */ interface MarkSpec { /** The attributes that marks of this type get. */ attrs?: { [name: string]: AttributeSpec; }; /** Whether this mark should be active when the cursor is positioned at its end (or at its start when that is also the start of the parent node). Defaults to true. */ inclusive?: boolean; /** Determines which other marks this mark can coexist with. Should be a space-separated strings naming other marks or groups of marks. When a mark is [added](https://prosemirror.net/docs/ref/#model.Mark.addToSet) to a set, all marks that it excludes are removed in the process. If the set contains any mark that excludes the new mark but is not, itself, excluded by the new mark, the mark can not be added an the set. You can use the value `"_"` to indicate that the mark excludes all marks in the schema. Defaults to only being exclusive with marks of the same type. You can set it to an empty string (or any string not containing the mark's own name) to allow multiple marks of a given type to coexist (as long as they have different attributes). */ excludes?: string; /** The group or space-separated groups to which this mark belongs. */ group?: string; /** Determines whether marks of this type can span multiple adjacent nodes when serialized to DOM/HTML. Defaults to true. */ spanning?: boolean; /** Defines the default way marks of this type should be serialized to DOM/HTML. When the resulting spec contains a hole, that is where the marked content is placed. Otherwise, it is appended to the top node. */ toDOM?: (mark: Mark, inline: boolean) => DOMOutputSpec; /** Associates DOM parser information with this mark (see the corresponding [node spec field](https://prosemirror.net/docs/ref/#model.NodeSpec.parseDOM)). The `mark` field in the rules is implied. */ parseDOM?: readonly ParseRule[]; /** Mark specs can include additional properties that can be inspected through [`MarkType.spec`](https://prosemirror.net/docs/ref/#model.MarkType.spec) when working with the mark. */ [key: string]: any; } /** Used to [define](https://prosemirror.net/docs/ref/#model.NodeSpec.attrs) attributes on nodes or marks. */ interface AttributeSpec { /** The default value for this attribute, to use when no explicit value is provided. Attributes that have no default must be provided whenever a node or mark of a type that has them is created. */ default?: any; } /** A document schema. Holds [node](https://prosemirror.net/docs/ref/#model.NodeType) and [mark type](https://prosemirror.net/docs/ref/#model.MarkType) objects for the nodes and marks that may occur in conforming documents, and provides functionality for creating and deserializing such documents. When given, the type parameters provide the names of the nodes and marks in this schema. */ declare class Schema { /** The [spec](https://prosemirror.net/docs/ref/#model.SchemaSpec) on which the schema is based, with the added guarantee that its `nodes` and `marks` properties are [`OrderedMap`](https://github.com/marijnh/orderedmap) instances (not raw objects). */ spec: { nodes: OrderedMap; marks: OrderedMap; topNode?: string; }; /** An object mapping the schema's node names to node type objects. */ nodes: { readonly [name in Nodes]: NodeType; } & { readonly [key: string]: NodeType; }; /** A map from mark names to mark type objects. */ marks: { readonly [name in Marks]: MarkType; } & { readonly [key: string]: MarkType; }; /** Construct a schema from a schema [specification](https://prosemirror.net/docs/ref/#model.SchemaSpec). */ constructor(spec: SchemaSpec); /** The type of the [default top node](https://prosemirror.net/docs/ref/#model.SchemaSpec.topNode) for this schema. */ topNodeType: NodeType; /** An object for storing whatever values modules may want to compute and cache per schema. (If you want to store something in it, try to use property names unlikely to clash.) */ cached: { [key: string]: any; }; /** Create a node in this schema. The `type` may be a string or a `NodeType` instance. Attributes will be extended with defaults, `content` may be a `Fragment`, `null`, a `Node`, or an array of nodes. */ node(type: string | NodeType, attrs?: Attrs | null, content?: Fragment | Node | readonly Node[], marks?: readonly Mark[]): Node; /** Create a text node in the schema. Empty text nodes are not allowed. */ text(text: string, marks?: readonly Mark[] | null): Node; /** Create a mark with the given type and attributes. */ mark(type: string | MarkType, attrs?: Attrs | null): Mark; /** Deserialize a node from its JSON representation. This method is bound. */ nodeFromJSON(json: any): Node; /** Deserialize a mark from its JSON representation. This method is bound. */ markFromJSON(json: any): Mark; } /** A fragment represents a node's collection of child nodes. Like nodes, fragments are persistent data structures, and you should not mutate them or their content. Rather, you create new instances whenever needed. The API tries to make this easy. */ declare class Fragment { /** The size of the fragment, which is the total of the size of its content nodes. */ readonly size: number; /** Invoke a callback for all descendant nodes between the given two positions (relative to start of this fragment). Doesn't descend into a node when the callback returns `false`. */ nodesBetween(from: number, to: number, f: (node: Node, start: number, parent: Node | null, index: number) => boolean | void, nodeStart?: number, parent?: Node): void; /** Call the given callback for every descendant node. `pos` will be relative to the start of the fragment. The callback may return `false` to prevent traversal of a given node's children. */ descendants(f: (node: Node, pos: number, parent: Node | null, index: number) => boolean | void): void; /** Extract the text between `from` and `to`. See the same method on [`Node`](https://prosemirror.net/docs/ref/#model.Node.textBetween). */ textBetween(from: number, to: number, blockSeparator?: string | null, leafText?: string | null | ((leafNode: Node) => string)): string; /** Create a new fragment containing the combined content of this fragment and the other. */ append(other: Fragment): Fragment; /** Cut out the sub-fragment between the two given positions. */ cut(from: number, to?: number): Fragment; /** Create a new fragment in which the node at the given index is replaced by the given node. */ replaceChild(index: number, node: Node): Fragment; /** Create a new fragment by prepending the given node to this fragment. */ addToStart(node: Node): Fragment; /** Create a new fragment by appending the given node to this fragment. */ addToEnd(node: Node): Fragment; /** Compare this fragment to another one. */ eq(other: Fragment): boolean; /** The first child of the fragment, or `null` if it is empty. */ get firstChild(): Node | null; /** The last child of the fragment, or `null` if it is empty. */ get lastChild(): Node | null; /** The number of child nodes in this fragment. */ get childCount(): number; /** Get the child node at the given index. Raise an error when the index is out of range. */ child(index: number): Node; /** Get the child node at the given index, if it exists. */ maybeChild(index: number): Node | null; /** Call `f` for every child node, passing the node, its offset into this parent node, and its index. */ forEach(f: (node: Node, offset: number, index: number) => void): void; /** Find the first position at which this fragment and another fragment differ, or `null` if they are the same. */ findDiffStart(other: Fragment, pos?: number): number | null; /** Find the first position, searching from the end, at which this fragment and the given fragment differ, or `null` if they are the same. Since this position will not be the same in both nodes, an object with two separate positions is returned. */ findDiffEnd(other: Fragment, pos?: number, otherPos?: number): { a: number; b: number; } | null; /** Find the index and inner offset corresponding to a given relative position in this fragment. The result object will be reused (overwritten) the next time the function is called. (Not public.) */ findIndex(pos: number, round?: number): { index: number; offset: number; }; /** Return a debugging string that describes this fragment. */ toString(): string; /** Create a JSON-serializeable representation of this fragment. */ toJSON(): any; /** Deserialize a fragment from its JSON representation. */ static fromJSON(schema: Schema, value: any): Fragment; /** Build a fragment from an array of nodes. Ensures that adjacent text nodes with the same marks are joined together. */ static fromArray(array: readonly Node[]): Fragment; /** Create a fragment from something that can be interpreted as a set of nodes. For `null`, it returns the empty fragment. For a fragment, the fragment itself. For a node or array of nodes, a fragment containing those nodes. */ static from(nodes?: Fragment | Node | readonly Node[] | null): Fragment; /** An empty fragment. Intended to be reused whenever a node doesn't contain anything (rather than allocating a new empty fragment for each leaf node). */ static empty: Fragment; } declare type MatchEdge = { type: NodeType; next: ContentMatch; }; /** Instances of this class represent a match state of a node type's [content expression](https://prosemirror.net/docs/ref/#model.NodeSpec.content), and can be used to find out whether further content matches here, and whether a given position is a valid end of the node. */ declare class ContentMatch { /** True when this match state represents a valid end of the node. */ readonly validEnd: boolean; /** Match a node type, returning a match after that node if successful. */ matchType(type: NodeType): ContentMatch | null; /** Try to match a fragment. Returns the resulting match when successful. */ matchFragment(frag: Fragment, start?: number, end?: number): ContentMatch | null; /** Get the first matching node type at this match position that can be generated. */ get defaultType(): NodeType | null; /** Try to match the given fragment, and if that fails, see if it can be made to match by inserting nodes in front of it. When successful, return a fragment of inserted nodes (which may be empty if nothing had to be inserted). When `toEnd` is true, only return a fragment if the resulting match goes to the end of the content expression. */ fillBefore(after: Fragment, toEnd?: boolean, startIndex?: number): Fragment | null; /** Find a set of wrapping node types that would allow a node of the given type to appear at this position. The result may be empty (when it fits directly) and will be null when no such wrapping exists. */ findWrapping(target: NodeType): readonly NodeType[] | null; /** The number of outgoing edges this node has in the finite automaton that describes the content expression. */ get edgeCount(): number; /** Get the _n_​th outgoing edge from this node in the finite automaton that describes the content expression. */ edge(n: number): MatchEdge; } /** This class represents a node in the tree that makes up a ProseMirror document. So a document is an instance of `Node`, with children that are also instances of `Node`. Nodes are persistent data structures. Instead of changing them, you create new ones with the content you want. Old ones keep pointing at the old document shape. This is made cheaper by sharing structure between the old and new data as much as possible, which a tree shape like this (without back pointers) makes easy. **Do not** directly mutate the properties of a `Node` object. See [the guide](/docs/guide/#doc) for more information. */ declare class Node { /** The type of node that this is. */ readonly type: NodeType; /** An object mapping attribute names to values. The kind of attributes allowed and required are [determined](https://prosemirror.net/docs/ref/#model.NodeSpec.attrs) by the node type. */ readonly attrs: Attrs; /** The marks (things like whether it is emphasized or part of a link) applied to this node. */ readonly marks: readonly Mark[]; /** A container holding the node's children. */ readonly content: Fragment; /** For text nodes, this contains the node's text content. */ readonly text: string | undefined; /** The size of this node, as defined by the integer-based [indexing scheme](/docs/guide/#doc.indexing). For text nodes, this is the amount of characters. For other leaf nodes, it is one. For non-leaf nodes, it is the size of the content plus two (the start and end token). */ get nodeSize(): number; /** The number of children that the node has. */ get childCount(): number; /** Get the child node at the given index. Raises an error when the index is out of range. */ child(index: number): Node; /** Get the child node at the given index, if it exists. */ maybeChild(index: number): Node | null; /** Call `f` for every child node, passing the node, its offset into this parent node, and its index. */ forEach(f: (node: Node, offset: number, index: number) => void): void; /** Invoke a callback for all descendant nodes recursively between the given two positions that are relative to start of this node's content. The callback is invoked with the node, its position relative to the original node (method receiver), its parent node, and its child index. When the callback returns false for a given node, that node's children will not be recursed over. The last parameter can be used to specify a starting position to count from. */ nodesBetween(from: number, to: number, f: (node: Node, pos: number, parent: Node | null, index: number) => void | boolean, startPos?: number): void; /** Call the given callback for every descendant node. Doesn't descend into a node when the callback returns `false`. */ descendants(f: (node: Node, pos: number, parent: Node | null, index: number) => void | boolean): void; /** Concatenates all the text nodes found in this fragment and its children. */ get textContent(): string; /** Get all text between positions `from` and `to`. When `blockSeparator` is given, it will be inserted to separate text from different block nodes. If `leafText` is given, it'll be inserted for every non-text leaf node encountered, otherwise [`leafText`](https://prosemirror.net/docs/ref/#model.NodeSpec^leafText) will be used. */ textBetween(from: number, to: number, blockSeparator?: string | null, leafText?: null | string | ((leafNode: Node) => string)): string; /** Returns this node's first child, or `null` if there are no children. */ get firstChild(): Node | null; /** Returns this node's last child, or `null` if there are no children. */ get lastChild(): Node | null; /** Test whether two nodes represent the same piece of document. */ eq(other: Node): boolean; /** Compare the markup (type, attributes, and marks) of this node to those of another. Returns `true` if both have the same markup. */ sameMarkup(other: Node): boolean; /** Check whether this node's markup correspond to the given type, attributes, and marks. */ hasMarkup(type: NodeType, attrs?: Attrs | null, marks?: readonly Mark[]): boolean; /** Create a new node with the same markup as this node, containing the given content (or empty, if no content is given). */ copy(content?: Fragment | null): Node; /** Create a copy of this node, with the given set of marks instead of the node's own marks. */ mark(marks: readonly Mark[]): Node; /** Create a copy of this node with only the content between the given positions. If `to` is not given, it defaults to the end of the node. */ cut(from: number, to?: number): Node; /** Cut out the part of the document between the given positions, and return it as a `Slice` object. */ slice(from: number, to?: number, includeParents?: boolean): Slice; /** Replace the part of the document between the given positions with the given slice. The slice must 'fit', meaning its open sides must be able to connect to the surrounding content, and its content nodes must be valid children for the node they are placed into. If any of this is violated, an error of type [`ReplaceError`](https://prosemirror.net/docs/ref/#model.ReplaceError) is thrown. */ replace(from: number, to: number, slice: Slice): Node; /** Find the node directly after the given position. */ nodeAt(pos: number): Node | null; /** Find the (direct) child node after the given offset, if any, and return it along with its index and offset relative to this node. */ childAfter(pos: number): { node: Node | null; index: number; offset: number; }; /** Find the (direct) child node before the given offset, if any, and return it along with its index and offset relative to this node. */ childBefore(pos: number): { node: Node | null; index: number; offset: number; }; /** Resolve the given position in the document, returning an [object](https://prosemirror.net/docs/ref/#model.ResolvedPos) with information about its context. */ resolve(pos: number): ResolvedPos; /** Test whether a given mark or mark type occurs in this document between the two given positions. */ rangeHasMark(from: number, to: number, type: Mark | MarkType): boolean; /** True when this is a block (non-inline node) */ get isBlock(): boolean; /** True when this is a textblock node, a block node with inline content. */ get isTextblock(): boolean; /** True when this node allows inline content. */ get inlineContent(): boolean; /** True when this is an inline node (a text node or a node that can appear among text). */ get isInline(): boolean; /** True when this is a text node. */ get isText(): boolean; /** True when this is a leaf node. */ get isLeaf(): boolean; /** True when this is an atom, i.e. when it does not have directly editable content. This is usually the same as `isLeaf`, but can be configured with the [`atom` property](https://prosemirror.net/docs/ref/#model.NodeSpec.atom) on a node's spec (typically used when the node is displayed as an uneditable [node view](https://prosemirror.net/docs/ref/#view.NodeView)). */ get isAtom(): boolean; /** Return a string representation of this node for debugging purposes. */ toString(): string; /** Get the content match in this node at the given index. */ contentMatchAt(index: number): ContentMatch; /** Test whether replacing the range between `from` and `to` (by child index) with the given replacement fragment (which defaults to the empty fragment) would leave the node's content valid. You can optionally pass `start` and `end` indices into the replacement fragment. */ canReplace(from: number, to: number, replacement?: Fragment, start?: number, end?: number): boolean; /** Test whether replacing the range `from` to `to` (by index) with a node of the given type would leave the node's content valid. */ canReplaceWith(from: number, to: number, type: NodeType, marks?: readonly Mark[]): boolean; /** Test whether the given node's content could be appended to this node. If that node is empty, this will only return true if there is at least one node type that can appear in both nodes (to avoid merging completely incompatible nodes). */ canAppend(other: Node): boolean; /** Check whether this node and its descendants conform to the schema, and raise error when they do not. */ check(): void; /** Return a JSON-serializeable representation of this node. */ toJSON(): any; /** Deserialize a node from its JSON representation. */ static fromJSON(schema: Schema, json: any): Node; } export { AttributeSpec, Attrs, ContentMatch, DOMOutputSpec, DOMParser, DOMSerializer, Fragment, Mark, MarkSpec, MarkType, Node, NodeRange, NodeSpec, NodeType, ParseOptions, ParseRule, ReplaceError, ResolvedPos, Schema, SchemaSpec, Slice };