schlechtenburg/packages/rich-text/lib/to-dom.ts

import { toTree } from './to-tree';
import { FormatTypeStore } from './use-format-types';
import { createElement } from './create-element';
import { isRangeEqual } from './is-range-equal';
import { RichTextValue } from './types';

/**
 * Creates a path as an array of indices from the given root node to the given
 * node.
 */
function createPathToNode( node: Node, rootNode: HTMLElement, path: number[] ) {
  let workingNode: Node|null = node;
	const parentNode = node.parentNode!;
	let i = 0;

	while ( ( workingNode = workingNode.previousSibling ) ) {
		i++;
	}

	path = [ i, ...path ];

	if ( parentNode !== rootNode ) {
		path = createPathToNode( parentNode, rootNode, path );
	}

	return path;
}

/**
 * Gets a node given a path (array of indices) from the given node.
 */
function getNodeByPath( node: HTMLElement, path: number[] ) {
  let workingNode: Node = node;
	path = [ ...path ];

	while ( workingNode && path.length > 1 ) {
		workingNode = workingNode.childNodes[ (path.shift() || 0) ];
	}

	return {
		node,
		offset: path[ 0 ],
	};
}

function append( element: HTMLElement, child) {
	if ( child.html !== undefined ) {
		return ( element.innerHTML += child.html );
	}

	if ( typeof child === 'string' ) {
		child = element.ownerDocument.createTextNode( child );
	}

	const { type, attributes } = child;

	if ( type ) {
		child = element.ownerDocument.createElement( type );

		for ( const key in attributes ) {
			child.setAttribute( key, attributes[ key ] );
		}
	}

	return element.appendChild( child );
}

function appendText( node, text ) {
	node.appendData( text );
}

function getLastChild( { lastChild } ) {
	return lastChild;
}

function getParent( { parentNode } ) {
	return parentNode;
}

function isText( node ) {
	return node.nodeType === node.TEXT_NODE;
}

function getText( { nodeValue } ) {
	return nodeValue;
}

function remove( node ) {
	return node.parentNode.removeChild( node );
}

export function toDom(
  {
    value,
    prepareEditableTree,
    isEditableTree = true,
    placeholder,
    doc = document,
  }: {
    value: RichTextValue,
    prepareEditableTree: Function,
    isEditableTree?: boolean,
    placeholder?: string,
    doc?: Document,
  },
  store: FormatTypeStore,
) {
	let startPath: number[] = [];
	let endPath: number[] = [];

	if ( prepareEditableTree ) {
		value = {
			...value,
			formats: prepareEditableTree( value ),
		};
	}

	/**
	 * Returns a new instance of a DOM tree upon which RichText operations can be
	 * applied.
	 *
	 * Note: The current implementation will return a shared reference, reset on
	 * each call to `createEmpty`. Therefore, you should not hold a reference to
	 * the value to operate upon asynchronously, as it may have unexpected results.
	 */
	const createEmpty = () => createElement( doc, '' );

	const tree = toTree( {
		value,
		createEmpty,
		append,
		getLastChild,
		getParent,
		isText,
		getText,
		remove,
		appendText,
		onStartIndex( body, pointer ) {
			startPath = createPathToNode( pointer, body, [
				pointer.nodeValue.length,
			] );
		},
		onEndIndex( body, pointer ) {
			endPath = createPathToNode( pointer, body, [
				pointer.nodeValue.length,
			] );
		},
		isEditableTree,
		placeholder,
	},
  store );

	return {
		body: tree,
		selection: { startPath, endPath },
	};
}

/**
 * Create an `Element` tree from a Rich Text value and applies the difference to
 * the `Element` tree contained by `current`.
 */
export function apply(
  {
    value,
    current,
    prepareEditableTree,
    placeholder,
  }: {
    value: RichTextValue,
    current: HTMLElement,
    prepareEditableTree: Function,
    placeholder: string,
  },
  store: FormatTypeStore,
) {
	// Construct a new element tree in memory.
	const { body, selection } = toDom({
		value,
		prepareEditableTree,
		placeholder,
		doc: current.ownerDocument,
	}, store );

	applyValue( body, current );

	if ( value.start !== undefined) {
		applySelection( selection, current );
	}
}

export function applyValue( future: HTMLElement, current: HTMLElement ) {
	let i = 0;
	let futureChild: HTMLElement|null = null;

	while ( ( futureChild = future.firstChild as HTMLElement ) ) {
		const currentChild = current.childNodes[ i ] as HTMLElement;

		if ( ! currentChild ) {
			current.appendChild( futureChild );
		} else if ( ! currentChild.isEqualNode( futureChild ) ) {
			if (
				currentChild.nodeName !== futureChild.nodeName ||
				( currentChild.nodeType === currentChild.TEXT_NODE &&
					currentChild.data !== futureChild.data )
			) {
				current.replaceChild( futureChild, currentChild );
			} else {
				const currentAttributes = currentChild.attributes;
				const futureAttributes = futureChild.attributes;

				if ( currentAttributes ) {
					let ii = currentAttributes.length;

					// Reverse loop because `removeAttribute` on `currentChild`
					// changes `currentAttributes`.
					while ( ii-- ) {
						const { name } = currentAttributes[ ii ];

						if ( ! futureChild.getAttribute( name ) ) {
							currentChild.removeAttribute( name );
						}
					}
				}

				if ( futureAttributes ) {
					for ( let ii = 0; ii < futureAttributes.length; ii++ ) {
						const { name, value } = futureAttributes[ ii ];

						if ( currentChild.getAttribute( name ) !== value ) {
							currentChild.setAttribute( name, value );
						}
					}
				}

				applyValue( futureChild, currentChild );
				future.removeChild( futureChild );
			}
		} else {
			future.removeChild( futureChild );
		}

		i++;
	}

	while ( current.childNodes[ i ] ) {
		current.removeChild( current.childNodes[ i ] );
	}
}

export function applySelection( { startPath, endPath }: { startPath: number[], endPath: number[] }, current: HTMLElement ) {
	const { node: startContainer, offset: startOffset } = getNodeByPath(
		current,
		startPath
	);
	const { node: endContainer, offset: endOffset } = getNodeByPath(
		current,
		endPath
	);
	const { ownerDocument } = current;
	const { defaultView } = ownerDocument;
	const selection = (defaultView as Window).getSelection() as Selection;
	const range = ownerDocument.createRange();

	range.setStart( startContainer, startOffset );
	range.setEnd( endContainer, endOffset );

	const { activeElement } = ownerDocument;

	if ( selection.rangeCount > 0 ) {
		// If the to be added range and the live range are the same, there's no
		// need to remove the live range and add the equivalent range.
		if ( isRangeEqual( range, selection.getRangeAt( 0 ) ) ) {
			return;
		}

		selection.removeAllRanges();
	}

	selection.addRange( range );

	// This function is not intended to cause a shift in focus. Since the above
	// selection manipulations may shift focus, ensure that focus is restored to
	// its previous state.
	if ( activeElement !== ownerDocument.activeElement ) {
		// The `instanceof` checks protect against edge cases where the focused
		// element is not of the interface HTMLElement (does not have a `focus`
		// or `blur` property).
		//
		// See: https://github.com/Microsoft/TypeScript/issues/5901#issuecomment-431649653
		if ( activeElement instanceof HTMLElement ) {
			activeElement.focus();
		}
	}
}
rich-text: init 2024-10-08 07:15:26 +00:00			`import { toTree } from './to-tree';`
test: fix tests 2024-10-09 14:47:31 +00:00			`import { FormatTypeStore } from './use-format-types';`
rich-text: init 2024-10-08 07:15:26 +00:00			`import { createElement } from './create-element';`
			`import { isRangeEqual } from './is-range-equal';`
			`import { RichTextValue } from './types';`

			`/**`
			`* Creates a path as an array of indices from the given root node to the given`
			`* node.`
			`*/`
			`function createPathToNode( node: Node, rootNode: HTMLElement, path: number[] ) {`
			`let workingNode: Node\|null = node;`
			`const parentNode = node.parentNode!;`
			`let i = 0;`

			`while ( ( workingNode = workingNode.previousSibling ) ) {`
			`i++;`
			`}`

			`path = [ i, ...path ];`

			`if ( parentNode !== rootNode ) {`
			`path = createPathToNode( parentNode, rootNode, path );`
			`}`

			`return path;`
			`}`

			`/**`
			`* Gets a node given a path (array of indices) from the given node.`
			`*/`
			`function getNodeByPath( node: HTMLElement, path: number[] ) {`
			`let workingNode: Node = node;`
			`path = [ ...path ];`

			`while ( workingNode && path.length > 1 ) {`
			`workingNode = workingNode.childNodes[ (path.shift() \|\| 0) ];`
			`}`

			`return {`
			`node,`
			`offset: path[ 0 ],`
			`};`
			`}`

			`function append( element: HTMLElement, child) {`
			`if ( child.html !== undefined ) {`
			`return ( element.innerHTML += child.html );`
			`}`

			`if ( typeof child === 'string' ) {`
			`child = element.ownerDocument.createTextNode( child );`
			`}`

			`const { type, attributes } = child;`

			`if ( type ) {`
			`child = element.ownerDocument.createElement( type );`

			`for ( const key in attributes ) {`
			`child.setAttribute( key, attributes[ key ] );`
			`}`
			`}`

			`return element.appendChild( child );`
			`}`

			`function appendText( node, text ) {`
			`node.appendData( text );`
			`}`

			`function getLastChild( { lastChild } ) {`
			`return lastChild;`
			`}`

			`function getParent( { parentNode } ) {`
			`return parentNode;`
			`}`

			`function isText( node ) {`
			`return node.nodeType === node.TEXT_NODE;`
			`}`

			`function getText( { nodeValue } ) {`
			`return nodeValue;`
			`}`

			`function remove( node ) {`
			`return node.parentNode.removeChild( node );`
			`}`

test: fix tests 2024-10-09 14:47:31 +00:00			`export function toDom(`
			`{`
			`value,`
			`prepareEditableTree,`
			`isEditableTree = true,`
			`placeholder,`
			`doc = document,`
			`}: {`
			`value: RichTextValue,`
			`prepareEditableTree: Function,`
			`isEditableTree?: boolean,`
			`placeholder?: string,`
			`doc?: Document,`
			`},`
			`store: FormatTypeStore,`
			`) {`
rich-text: init 2024-10-08 07:15:26 +00:00			`let startPath: number[] = [];`
			`let endPath: number[] = [];`

			`if ( prepareEditableTree ) {`
			`value = {`
			`...value,`
			`formats: prepareEditableTree( value ),`
			`};`
			`}`

			`/**`
			`* Returns a new instance of a DOM tree upon which RichText operations can be`
			`* applied.`
			`*`
			`* Note: The current implementation will return a shared reference, reset on`
			* each call to `createEmpty`. Therefore, you should not hold a reference to
			`* the value to operate upon asynchronously, as it may have unexpected results.`
			`*/`
			`const createEmpty = () => createElement( doc, '' );`

			`const tree = toTree( {`
			`value,`
			`createEmpty,`
			`append,`
			`getLastChild,`
			`getParent,`
			`isText,`
			`getText,`
			`remove,`
			`appendText,`
			`onStartIndex( body, pointer ) {`
			`startPath = createPathToNode( pointer, body, [`
			`pointer.nodeValue.length,`
			`] );`
			`},`
			`onEndIndex( body, pointer ) {`
			`endPath = createPathToNode( pointer, body, [`
			`pointer.nodeValue.length,`
			`] );`
			`},`
			`isEditableTree,`
			`placeholder,`
test: fix tests 2024-10-09 14:47:31 +00:00			`},`
			`store );`
rich-text: init 2024-10-08 07:15:26 +00:00
			`return {`
			`body: tree,`
			`selection: { startPath, endPath },`
			`};`
			`}`

			`/**`
			* Create an `Element` tree from a Rich Text value and applies the difference to
			* the `Element` tree contained by `current`.
			`*/`
test: fix tests 2024-10-09 14:47:31 +00:00			`export function apply(`
			`{`
			`value,`
			`current,`
			`prepareEditableTree,`
			`placeholder,`
			`}: {`
			`value: RichTextValue,`
			`current: HTMLElement,`
			`prepareEditableTree: Function,`
			`placeholder: string,`
			`},`
			`store: FormatTypeStore,`
			`) {`
rich-text: init 2024-10-08 07:15:26 +00:00			`// Construct a new element tree in memory.`
test: fix tests 2024-10-09 14:47:31 +00:00			`const { body, selection } = toDom({`
rich-text: init 2024-10-08 07:15:26 +00:00			`value,`
			`prepareEditableTree,`
			`placeholder,`
			`doc: current.ownerDocument,`
test: fix tests 2024-10-09 14:47:31 +00:00			`}, store );`
rich-text: init 2024-10-08 07:15:26 +00:00
			`applyValue( body, current );`

			`if ( value.start !== undefined) {`
			`applySelection( selection, current );`
			`}`
			`}`

			`export function applyValue( future: HTMLElement, current: HTMLElement ) {`
			`let i = 0;`
			`let futureChild: HTMLElement\|null = null;`

			`while ( ( futureChild = future.firstChild as HTMLElement ) ) {`
			`const currentChild = current.childNodes[ i ] as HTMLElement;`

			`if ( ! currentChild ) {`
			`current.appendChild( futureChild );`
			`} else if ( ! currentChild.isEqualNode( futureChild ) ) {`
			`if (`
			`currentChild.nodeName !== futureChild.nodeName \|\|`
			`( currentChild.nodeType === currentChild.TEXT_NODE &&`
			`currentChild.data !== futureChild.data )`
			`) {`
			`current.replaceChild( futureChild, currentChild );`
			`} else {`
			`const currentAttributes = currentChild.attributes;`
			`const futureAttributes = futureChild.attributes;`

			`if ( currentAttributes ) {`
			`let ii = currentAttributes.length;`

			// Reverse loop because `removeAttribute` on `currentChild`
			// changes `currentAttributes`.
			`while ( ii-- ) {`
			`const { name } = currentAttributes[ ii ];`

			`if ( ! futureChild.getAttribute( name ) ) {`
			`currentChild.removeAttribute( name );`
			`}`
			`}`
			`}`

			`if ( futureAttributes ) {`
			`for ( let ii = 0; ii < futureAttributes.length; ii++ ) {`
			`const { name, value } = futureAttributes[ ii ];`

			`if ( currentChild.getAttribute( name ) !== value ) {`
			`currentChild.setAttribute( name, value );`
			`}`
			`}`
			`}`

			`applyValue( futureChild, currentChild );`
			`future.removeChild( futureChild );`
			`}`
			`} else {`
			`future.removeChild( futureChild );`
			`}`

			`i++;`
			`}`

			`while ( current.childNodes[ i ] ) {`
			`current.removeChild( current.childNodes[ i ] );`
			`}`
			`}`

			`export function applySelection( { startPath, endPath }: { startPath: number[], endPath: number[] }, current: HTMLElement ) {`
			`const { node: startContainer, offset: startOffset } = getNodeByPath(`
			`current,`
			`startPath`
			`);`
			`const { node: endContainer, offset: endOffset } = getNodeByPath(`
			`current,`
			`endPath`
			`);`
			`const { ownerDocument } = current;`
			`const { defaultView } = ownerDocument;`
			`const selection = (defaultView as Window).getSelection() as Selection;`
			`const range = ownerDocument.createRange();`

			`range.setStart( startContainer, startOffset );`
			`range.setEnd( endContainer, endOffset );`

			`const { activeElement } = ownerDocument;`

			`if ( selection.rangeCount > 0 ) {`
			`// If the to be added range and the live range are the same, there's no`
			`// need to remove the live range and add the equivalent range.`
			`if ( isRangeEqual( range, selection.getRangeAt( 0 ) ) ) {`
			`return;`
			`}`

			`selection.removeAllRanges();`
			`}`

			`selection.addRange( range );`

			`// This function is not intended to cause a shift in focus. Since the above`
			`// selection manipulations may shift focus, ensure that focus is restored to`
			`// its previous state.`
			`if ( activeElement !== ownerDocument.activeElement ) {`
			// The `instanceof` checks protect against edge cases where the focused
			// element is not of the interface HTMLElement (does not have a `focus`
			// or `blur` property).
			`//`
			`// See: https://github.com/Microsoft/TypeScript/issues/5901#issuecomment-431649653`
			`if ( activeElement instanceof HTMLElement ) {`
			`activeElement.focus();`
			`}`
			`}`
			`}`