site/node_modules/mathjax-full/ts/core/MathDocument.ts

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/*************************************************************
*
* Copyright (c) 2017-2022 The MathJax Consortium
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* @fileoverview Implements the interface and abstract class for MathDocument objects
*
* @author dpvc@mathjax.org (Davide Cervone)
*/
import {userOptions, defaultOptions, OptionList, expandable} from '../util/Options.js';
import {InputJax, AbstractInputJax} from './InputJax.js';
import {OutputJax, AbstractOutputJax} from './OutputJax.js';
import {MathList, AbstractMathList} from './MathList.js';
import {MathItem, AbstractMathItem, STATE} from './MathItem.js';
import {MmlNode, TextNode} from './MmlTree/MmlNode.js';
import {MmlFactory} from '../core/MmlTree/MmlFactory.js';
import {DOMAdaptor} from '../core/DOMAdaptor.js';
import {BitField, BitFieldClass} from '../util/BitField.js';
import {PrioritizedList} from '../util/PrioritizedList.js';
/*****************************************************************/
/**
* A function to call while rendering a document (usually calls a MathDocument method)
*
* @template N The HTMLElement node class
* @template T The Text node class
* @template D The Document class
*/
export type RenderDoc<N, T, D> = (document: MathDocument<N, T, D>) => boolean;
/**
* A function to call while rendering a MathItem (usually calls one of its methods)
*
* @template N The HTMLElement node class
* @template T The Text node class
* @template D The Document class
*/
export type RenderMath<N, T, D> = (math: MathItem<N, T, D>, document: MathDocument<N, T, D>) => boolean;
/**
* The data for an action to perform during rendering or conversion
*
* @template N The HTMLElement node class
* @template T The Text node class
* @template D The Document class
*/
export type RenderData<N, T, D> = {
id: string, // The name for the action
renderDoc: RenderDoc<N, T, D>, // The action to take during a render() call
renderMath: RenderMath<N, T, D>, // The action to take during a rerender() or convert() call
convert: boolean // Whether the action is to be used during convert()
};
/**
* The data used to define a render action in configurations and options objects
* (the key is used as the id, the number in the data below is the priority, and
* the remainind data is as described below; if no boolean is given, convert = true
* by default)
*
* @template N The HTMLElement node class
* @template T The Text node class
* @template D The Document class
*/
export type RenderAction<N, T, D> =
[number] | // id (i.e., key) is method name to use
[number, string] | // string is method to call
[number, string, string] | // the strings are methods names for doc and math
[number, RenderDoc<N, T, D>, RenderMath<N, T, D>] | // explicit functions for doc and math
[number, boolean] | // same as first above, with boolean for convert
[number, string, boolean] | // same as second above, with boolean for convert
[number, string, string, boolean] | // same as third above, with boolean for convert
[number, RenderDoc<N, T, D>, RenderMath<N, T, D>, boolean]; // same as forth above, with boolean for convert
/**
* An object representing a collection of rendering actions (id's tied to priority-and-method data)
*
* @template N The HTMLElement node class
* @template T The Text node class
* @template D The Document class
*/
export type RenderActions<N, T, D> = {[id: string]: RenderAction<N, T, D>};
/**
* Implements a prioritized list of render actions. Extensions can add actions to the list
* to make it easy to extend the normal typesetting and conversion operations.
*
* @template N The HTMLElement node class
* @template T The Text node class
* @template D The Document class
*/
export class RenderList<N, T, D> extends PrioritizedList<RenderData<N, T, D>> {
/**
* Creates a new RenderList from an initial list of rendering actions
*
* @param {RenderActions} actions The list of actions to take during render(), rerender(), and convert() calls
* @returns {RenderList} The newly created prioritied list
*/
public static create<N, T, D>(actions: RenderActions<N, T, D>): RenderList<N, T, D> {
const list = new this<N, T, D>();
for (const id of Object.keys(actions)) {
const [action, priority] = this.action<N, T, D>(id, actions[id]);
if (priority) {
list.add(action, priority);
}
}
return list;
}
/**
* Parses a RenderAction to produce the correspinding RenderData item
* (e.g., turn method names into actual functions that call the method)
*
* @param {string} id The id of the action
* @param {RenderAction} action The RenderAction defining the action
* @returns {[RenderData,number]} The corresponding RenderData definition for the action and its priority
*/
public static action<N, T, D>(id: string, action: RenderAction<N, T, D>): [RenderData<N, T, D>, number] {
let renderDoc, renderMath;
let convert = true;
let priority = action[0];
if (action.length === 1 || typeof action[1] === 'boolean') {
action.length === 2 && (convert = action[1] as boolean);
[renderDoc, renderMath] = this.methodActions(id);
} else if (typeof action[1] === 'string') {
if (typeof action[2] === 'string') {
action.length === 4 && (convert = action[3] as boolean);
const [method1, method2] = action.slice(1) as [string, string];
[renderDoc, renderMath] = this.methodActions(method1, method2);
} else {
action.length === 3 && (convert = action[2] as boolean);
[renderDoc, renderMath] = this.methodActions(action[1] as string);
}
} else {
action.length === 4 && (convert = action[3] as boolean);
[renderDoc, renderMath] = action.slice(1) as [RenderDoc<N, T, D>, RenderMath<N, T, D>];
}
return [{id, renderDoc, renderMath, convert} as RenderData<N, T, D>, priority];
}
/**
* Produces the doc and math actions for the given method name(s)
* (a blank name is a no-op)
*
* @param {string} method1 The method to use for the render() call
* @param {string} method1 The method to use for the rerender() and convert() calls
*/
protected static methodActions(method1: string, method2: string = method1) {
return [
(document: any) => {method1 && document[method1](); return false; },
(math: any, document: any) => {method2 && math[method2](document); return false; }
];
}
/**
* Perform the document-level rendering functions
*
* @param {MathDocument} document The MathDocument whose methods are to be called
* @param {number=} start The state at which to start rendering (default is UNPROCESSED)
*/
public renderDoc(document: MathDocument<N, T, D>, start: number = STATE.UNPROCESSED) {
for (const item of this.items) {
if (item.priority >= start) {
if (item.item.renderDoc(document)) return;
}
}
}
/**
* Perform the MathItem-level rendering functions
*
* @param {MathItem} math The MathItem whose methods are to be called
* @param {MathDocument} document The MathDocument to pass to the MathItem methods
* @param {number=} start The state at which to start rendering (default is UNPROCESSED)
*/
public renderMath(math: MathItem<N, T, D>, document: MathDocument<N, T, D>, start: number = STATE.UNPROCESSED) {
for (const item of this.items) {
if (item.priority >= start) {
if (item.item.renderMath(math, document)) return;
}
}
}
/**
* Perform the MathItem-level conversion functions
*
* @param {MathItem} math The MathItem whose methods are to be called
* @param {MathDocument} document The MathDocument to pass to the MathItem methods
* @param {number=} end The state at which to end rendering (default is LAST)
*/
public renderConvert(math: MathItem<N, T, D>, document: MathDocument<N, T, D>, end: number = STATE.LAST) {
for (const item of this.items) {
if (item.priority > end) return;
if (item.item.convert) {
if (item.item.renderMath(math, document)) return;
}
}
}
/**
* Find an entry in the list with a given ID
*
* @param {string} id The id to search for
* @returns {RenderData|null} The data for the given id, if found, or null
*/
public findID(id: string): RenderData<N, T, D> | null {
for (const item of this.items) {
if (item.item.id === id) {
return item.item;
}
}
return null;
}
}
/*****************************************************************/
/**
* The ways of specifying a container (a selector string, an actual node,
* or an array of those (e.g., the result of document.getElementsByTagName())
*
* @template N The HTMLElement node class
*/
export type ContainerList<N> = string | N | (string | N | N[])[];
/**
* The options allowed for the reset() method
*/
export type ResetList = {
all?: boolean,
processed?: boolean,
inputJax?: any[],
outputJax?: any[]
};
/**
* The default option list for the reset() method
*/
export const resetOptions: ResetList = {
all: false,
processed: false,
inputJax: null,
outputJax: null
};
/**
* The option list for when all options are to be reset
*/
export const resetAllOptions: ResetList = {
all: true,
processed: true,
inputJax: [],
outputJax: []
};
/*****************************************************************/
/**
* The MathDocument interface
*
* The MathDocument is created by MathJax.Document() and holds the
* document, the math found in it, and so on. The methods of the
* MathDocument all return the MathDocument itself, so you can
* chain the method calls. E.g.,
*
* const html = MathJax.Document('<html>...</html>');
* html.findMath()
* .compile()
* .getMetrics()
* .typeset()
* .updateDocument();
*
* The MathDocument is the main interface for page authors to
* interact with MathJax.
*
* @template N The HTMLElement node class
* @template T The Text node class
* @template D The Document class
*/
export interface MathDocument<N, T, D> {
/**
* The document being processed (e.g., DOM document, or Markdown string)
*/
document: D;
/**
* The kind of MathDocument (e.g., "HTML")
*/
kind: string;
/**
* The options for the document
*/
options: OptionList;
/**
* The list of MathItems found in this page
*/
math: MathList<N, T, D>;
/**
* The list of actions to take during a render() or convert() call
*/
renderActions: RenderList<N, T, D>;
/**
* This object tracks what operations have been performed, so that (when
* asynchronous operations are used), the ones that have already been
* completed won't be performed again.
*/
processed: BitField;
/**
* An array of input jax to run on the document
*/
inputJax: InputJax<N, T, D>[];
/**
* The output jax to use for the document
*/
outputJax: OutputJax<N, T, D>;
/**
* The DOM adaptor to use for input and output
*/
adaptor: DOMAdaptor<N, T, D>;
/**
* The MmlFactory to be used for input jax and error processing
*/
mmlFactory: MmlFactory;
/**
* @param {string} id The id of the action to add
* @param {any[]} action The RenderAction to take
*/
addRenderAction(id: string, ...action: any[]): void;
/**
* @param {string} id The id of the action to remove
*/
removeRenderAction(id: string): void;
/**
* Perform the renderActions on the document
*/
render(): MathDocument<N, T, D>;
/**
* Rerender the MathItems on the page
*
* @param {number=} start The state to start rerendering at
* @return {MathDocument} The math document instance
*/
rerender(start?: number): MathDocument<N, T, D>;
/**
* Convert a math string to the document's output format
*
* @param {string} math The math string to convert
* @params {OptionList} options The options for the conversion (e.g., format, ex, em, etc.)
* @return {MmlNode|N} The MmlNode or N node for the converted content
*/
convert(math: string, options?: OptionList): MmlNode | N;
/**
* Locates the math in the document and constructs the MathList
* for the document.
*
* @param {OptionList} options The options for locating the math
* @return {MathDocument} The math document instance
*/
findMath(options?: OptionList): MathDocument<N, T, D>;
/**
* Calls the input jax to process the MathItems in the MathList
*
* @return {MathDocument} The math document instance
*/
compile(): MathDocument<N, T, D>;
/**
* Gets the metric information for the MathItems
*
* @return {MathDocument} The math document instance
*/
getMetrics(): MathDocument<N, T, D>;
/**
* Calls the output jax to process the compiled math in the MathList
*
* @return {MathDocument} The math document instance
*/
typeset(): MathDocument<N, T, D>;
/**
* Updates the document to include the typeset math
*
* @return {MathDocument} The math document instance
*/
updateDocument(): MathDocument<N, T, D>;
/**
* Removes the typeset math from the document
*
* @param {boolean} restore True if the original math should be put
* back into the document as well
* @return {MathDocument} The math document instance
*/
removeFromDocument(restore?: boolean): MathDocument<N, T, D>;
/**
* Set the state of the document (allowing you to roll back
* the state to a previous one, if needed).
*
* @param {number} state The new state of the document
* @param {boolean} restore True if the original math should be put
* back into the document during the rollback
* @return {MathDocument} The math document instance
*/
state(state: number, restore?: boolean): MathDocument<N, T, D>;
/**
* Clear the processed values so that the document can be reprocessed
*
* @param {ResetList} options The things to be reset
* @return {MathDocument} The math document instance
*/
reset(options?: ResetList): MathDocument<N, T, D>;
/**
* Reset the processed values and clear the MathList (so that new math
* can be processed in the document).
*
* @return {MathDocument} The math document instance
*/
clear(): MathDocument<N, T, D>;
/**
* Merges a MathList into the list for this document.
*
* @param {MathList} list The MathList to be merged into this document's list
* @return {MathDocument} The math document instance
*/
concat(list: MathList<N, T, D>): MathDocument<N, T, D>;
/**
* Clear the typeset MathItems that are within the given container
* from the document's MathList. (E.g., when the content of the
* container has been updated and you want to remove the
* associated MathItems)
*
* @param {ContainerList<N>} elements The container DOM elements whose math items are to be removed
* @return {MathItem<N,T,D>[]} The removed MathItems
*/
clearMathItemsWithin(containers: ContainerList<N>): MathItem<N, T, D>[];
/**
* Get the typeset MathItems that are within a given container.
*
* @param {ContainerList<N>} elements The container DOM elements whose math items are to be found
* @return {MathItem<N,T,D>[]} The list of MathItems within that container
*/
getMathItemsWithin(elements: ContainerList<N>): MathItem<N, T, D>[];
}
/*****************************************************************/
/**
* Defaults used when input jax isn't specified
*
* @template N The HTMLElement node class
* @template T The Text node class
* @template D The Document class
*/
class DefaultInputJax<N, T, D> extends AbstractInputJax<N, T, D> {
/**
* @override
*/
public compile(_math: MathItem<N, T, D>) {
return null as MmlNode;
}
}
/**
* Defaults used when ouput jax isn't specified
*
* @template N The HTMLElement node class
* @template T The Text node class
* @template D The Document class
*/
class DefaultOutputJax<N, T, D> extends AbstractOutputJax<N, T, D> {
/**
* @override
*/
public typeset(_math: MathItem<N, T, D>, _document: MathDocument<N, T, D> = null) {
return null as N;
}
/**
* @override
*/
public escaped(_math: MathItem<N, T, D>, _document?: MathDocument<N, T, D>) {
return null as N;
}
}
/**
* Default for the MathList when one isn't specified
*
* @template N The HTMLElement node class
* @template T The Text node class
* @template D The Document class
*/
class DefaultMathList<N, T, D> extends AbstractMathList<N, T, D> {}
/**
* Default for the Mathitem when one isn't specified
*
* @template N The HTMLElement node class
* @template T The Text node class
* @template D The Document class
*/
class DefaultMathItem<N, T, D> extends AbstractMathItem<N, T, D> {}
/*****************************************************************/
/**
* Implements the abstract MathDocument class
*
* @template N The HTMLElement node class
* @template T The Text node class
* @template D The Document class
*/
export abstract class AbstractMathDocument<N, T, D> implements MathDocument<N, T, D> {
/**
* The type of MathDocument
*/
public static KIND: string = 'MathDocument';
/**
* The default options for the document
*/
public static OPTIONS: OptionList = {
OutputJax: null, // instance of an OutputJax for the document
InputJax: null, // instance of an InputJax or an array of them
MmlFactory: null, // instance of a MmlFactory for this document
MathList: DefaultMathList, // constructor for a MathList to use for the document
MathItem: DefaultMathItem, // constructor for a MathItem to use for the MathList
compileError: (doc: AbstractMathDocument<any, any, any>, math: MathItem<any, any, any>, err: Error) => {
doc.compileError(math, err);
},
typesetError: (doc: AbstractMathDocument<any, any, any>, math: MathItem<any, any, any>, err: Error) => {
doc.typesetError(math, err);
},
renderActions: expandable({
find: [STATE.FINDMATH, 'findMath', '', false],
compile: [STATE.COMPILED],
metrics: [STATE.METRICS, 'getMetrics', '', false],
typeset: [STATE.TYPESET],
update: [STATE.INSERTED, 'updateDocument', false]
}) as RenderActions<any, any, any>
};
/**
* A bit-field for the actions that have been processed
*/
public static ProcessBits = BitFieldClass('findMath', 'compile', 'getMetrics', 'typeset', 'updateDocument');
/**
* The document managed by this MathDocument
*/
public document: D;
/**
* The actual options for this document (with user-supplied ones merged in)
*/
public options: OptionList;
/**
* The list of MathItems for this document
*/
public math: MathList<N, T, D>;
/**
* The list of render actions
*/
public renderActions: RenderList<N, T, D>;
/**
* The bit-field used to tell what steps have been taken on the document (for retries)
*/
public processed: BitField;
/**
* The list of input jax for the document
*/
public inputJax: InputJax<N, T, D>[];
/**
* The output jax for the document
*/
public outputJax: OutputJax<N, T, D>;
/**
* The DOM adaptor for the document
*/
public adaptor: DOMAdaptor<N, T, D>;
/**
* The MathML node factory for the internal MathML representation
*/
public mmlFactory: MmlFactory;
/**
* @param {any} document The document (HTML string, parsed DOM, etc.) to be processed
* @param {DOMAdaptor} adaptor The DOM adaptor for this document
* @param {OptionList} options The options for this document
* @constructor
*/
constructor (document: D, adaptor: DOMAdaptor<N, T, D>, options: OptionList) {
let CLASS = this.constructor as typeof AbstractMathDocument;
this.document = document;
this.options = userOptions(defaultOptions({}, CLASS.OPTIONS), options);
this.math = new (this.options['MathList'] || DefaultMathList)();
this.renderActions = RenderList.create<N, T, D>(this.options['renderActions']);
this.processed = new AbstractMathDocument.ProcessBits();
this.outputJax = this.options['OutputJax'] || new DefaultOutputJax<N, T, D>();
let inputJax = this.options['InputJax'] || [new DefaultInputJax<N, T, D>()];
if (!Array.isArray(inputJax)) {
inputJax = [inputJax];
}
this.inputJax = inputJax;
//
// Pass the DOM adaptor to the jax
//
this.adaptor = adaptor;
this.outputJax.setAdaptor(adaptor);
this.inputJax.map(jax => jax.setAdaptor(adaptor));
//
// Pass the MmlFactory to the jax
//
this.mmlFactory = this.options['MmlFactory'] || new MmlFactory();
this.inputJax.map(jax => jax.setMmlFactory(this.mmlFactory));
//
// Do any initialization that requires adaptors or factories
//
this.outputJax.initialize();
this.inputJax.map(jax => jax.initialize());
}
/**
* @return {string} The kind of document
*/
public get kind(): string {
return (this.constructor as typeof AbstractMathDocument).KIND;
}
/**
* @override
*/
public addRenderAction(id: string, ...action: any[]) {
const [fn, p] = RenderList.action<N, T, D>(id, action as RenderAction<N, T, D>);
this.renderActions.add(fn, p);
}
/**
* @override
*/
public removeRenderAction(id: string) {
const action = this.renderActions.findID(id);
if (action) {
this.renderActions.remove(action);
}
}
/**
* @override
*/
public render() {
this.renderActions.renderDoc(this);
return this;
}
/**
* @override
*/
public rerender(start: number = STATE.RERENDER) {
this.state(start - 1);
this.render();
return this;
}
/**
* @override
*/
public convert(math: string, options: OptionList = {}) {
let {format, display, end, ex, em, containerWidth, lineWidth, scale, family} = userOptions({
format: this.inputJax[0].name, display: true, end: STATE.LAST,
em: 16, ex: 8, containerWidth: null, lineWidth: 1000000, scale: 1, family: ''
}, options);
if (containerWidth === null) {
containerWidth = 80 * ex;
}
const jax = this.inputJax.reduce((jax, ijax) => (ijax.name === format ? ijax : jax), null);
const mitem = new this.options.MathItem(math, jax, display);
mitem.start.node = this.adaptor.body(this.document);
mitem.setMetrics(em, ex, containerWidth, lineWidth, scale);
if (this.outputJax.options.mtextInheritFont) {
mitem.outputData.mtextFamily = family;
}
if (this.outputJax.options.merrorInheritFont) {
mitem.outputData.merrorFamily = family;
}
mitem.convert(this, end);
return (mitem.typesetRoot || mitem.root);
}
/**
* @override
*/
public findMath(_options: OptionList = null) {
this.processed.set('findMath');
return this;
}
/**
* @override
*/
public compile() {
if (!this.processed.isSet('compile')) {
//
// Compile all the math in the list
//
const recompile = [];
for (const math of this.math) {
this.compileMath(math);
if (math.inputData.recompile !== undefined) {
recompile.push(math);
}
}
//
// If any were added to the recompile list,
// compile them again
//
for (const math of recompile) {
const data = math.inputData.recompile;
math.state(data.state);
math.inputData.recompile = data;
this.compileMath(math);
}
this.processed.set('compile');
}
return this;
}
/**
* @param {MathItem} math The item to compile
*/
protected compileMath(math: MathItem<N, T, D>) {
try {
math.compile(this);
} catch (err) {
if (err.retry || err.restart) {
throw err;
}
this.options['compileError'](this, math, err);
math.inputData['error'] = err;
}
}
/**
* Produce an error using MmlNodes
*
* @param {MathItem} math The MathItem producing the error
* @param {Error} err The Error object for the error
*/
public compileError(math: MathItem<N, T, D>, err: Error) {
math.root = this.mmlFactory.create('math', null, [
this.mmlFactory.create('merror', {'data-mjx-error': err.message, title: err.message}, [
this.mmlFactory.create('mtext', null, [
(this.mmlFactory.create('text') as TextNode).setText('Math input error')
])
])
]);
if (math.display) {
math.root.attributes.set('display', 'block');
}
math.inputData.error = err.message;
}
/**
* @override
*/
public typeset() {
if (!this.processed.isSet('typeset')) {
for (const math of this.math) {
try {
math.typeset(this);
} catch (err) {
if (err.retry || err.restart) {
throw err;
}
this.options['typesetError'](this, math, err);
math.outputData['error'] = err;
}
}
this.processed.set('typeset');
}
return this;
}
/**
* Produce an error using HTML
*
* @param {MathItem} math The MathItem producing the error
* @param {Error} err The Error object for the error
*/
public typesetError(math: MathItem<N, T, D>, err: Error) {
math.typesetRoot = this.adaptor.node('mjx-container', {
class: 'MathJax mjx-output-error',
jax: this.outputJax.name,
}, [
this.adaptor.node('span', {
'data-mjx-error': err.message,
title: err.message,
style: {
color: 'red',
'background-color': 'yellow',
'line-height': 'normal'
}
}, [
this.adaptor.text('Math output error')
])
]);
if (math.display) {
this.adaptor.setAttributes(math.typesetRoot, {
style: {
display: 'block',
margin: '1em 0',
'text-align': 'center'
}
});
}
math.outputData.error = err.message;
}
/**
* @override
*/
public getMetrics() {
if (!this.processed.isSet('getMetrics')) {
this.outputJax.getMetrics(this);
this.processed.set('getMetrics');
}
return this;
}
/**
* @override
*/
public updateDocument() {
if (!this.processed.isSet('updateDocument')) {
for (const math of this.math.reversed()) {
math.updateDocument(this);
}
this.processed.set('updateDocument');
}
return this;
}
/**
* @override
*/
public removeFromDocument(_restore: boolean = false) {
return this;
}
/**
* @override
*/
public state(state: number, restore: boolean = false) {
for (const math of this.math) {
math.state(state, restore);
}
if (state < STATE.INSERTED) {
this.processed.clear('updateDocument');
}
if (state < STATE.TYPESET) {
this.processed.clear('typeset');
this.processed.clear('getMetrics');
}
if (state < STATE.COMPILED) {
this.processed.clear('compile');
}
return this;
}
/**
* @override
*/
public reset(options: ResetList = {processed: true}) {
options = userOptions(Object.assign({}, resetOptions), options);
options.all && Object.assign(options, resetAllOptions);
options.processed && this.processed.reset();
options.inputJax && this.inputJax.forEach(jax => jax.reset(...options.inputJax));
options.outputJax && this.outputJax.reset(...options.outputJax);
return this;
}
/**
* @override
*/
public clear() {
this.reset();
this.math.clear();
return this;
}
/**
* @override
*/
public concat(list: MathList<N, T, D>) {
this.math.merge(list);
return this;
}
/**
* @override
*/
public clearMathItemsWithin(containers: ContainerList<N>) {
const items = this.getMathItemsWithin(containers);
this.math.remove(...items);
return items;
}
/**
* @override
*/
public getMathItemsWithin(elements: ContainerList<N>) {
if (!Array.isArray(elements)) {
elements = [elements];
}
const adaptor = this.adaptor;
const items = [] as MathItem<N, T, D>[];
const containers = adaptor.getElements(elements, this.document);
ITEMS:
for (const item of this.math) {
for (const container of containers) {
if (item.start.node && adaptor.contains(container, item.start.node)) {
items.push(item);
continue ITEMS;
}
}
}
return items;
}
}
/**
* The constructor type for a MathDocument
*
* @template D The MathDocument type this constructor is for
*/
export interface MathDocumentConstructor<D extends MathDocument<any, any, any>> {
KIND: string;
OPTIONS: OptionList;
ProcessBits: typeof BitField;
new (...args: any[]): D;
}