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@ckeditor/ckeditor5-list

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Ordered and unordered lists feature to CKEditor 5.

ckeditor.com/ckeditor-5

ckeditor/ckeditor5

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JavaScript

/** * @license Copyright (c) 2003-2024, CKSource Holding sp. z o.o. All rights reserved. * For licensing, see LICENSE.md or https://ckeditor.com/legal/ckeditor-oss-license */ /** * @module list/legacylist/legacyconverters */ import { TreeWalker } from 'ckeditor5/src/engine.js'; import { generateLiInUl, injectViewList, mergeViewLists, getSiblingListItem, positionAfterUiElements } from './legacyutils.js'; /** * A model-to-view converter for the `listItem` model element insertion. * * It creates a `<ul><li></li><ul>` (or `<ol>`) view structure out of a `listItem` model element, inserts it at the correct * position, and merges the list with surrounding lists (if available). * * @see module:engine/conversion/downcastdispatcher~DowncastDispatcher#event:insert * @param model Model instance. */ export function modelViewInsertion(model) { return (evt, data, conversionApi) => { const consumable = conversionApi.consumable; if (!consumable.test(data.item, 'insert') || !consumable.test(data.item, 'attribute:listType') || !consumable.test(data.item, 'attribute:listIndent')) { return; } consumable.consume(data.item, 'insert'); consumable.consume(data.item, 'attribute:listType'); consumable.consume(data.item, 'attribute:listIndent'); const modelItem = data.item; const viewItem = generateLiInUl(modelItem, conversionApi); injectViewList(modelItem, viewItem, conversionApi, model); }; } /** * A model-to-view converter for the `listItem` model element removal. * * @see module:engine/conversion/downcastdispatcher~DowncastDispatcher#event:remove * @param model Model instance. * @returns Returns a conversion callback. */ export function modelViewRemove(model) { return (evt, data, conversionApi) => { const viewPosition = conversionApi.mapper.toViewPosition(data.position); const viewStart = viewPosition.getLastMatchingPosition(value => !value.item.is('element', 'li')); const viewItem = viewStart.nodeAfter; const viewWriter = conversionApi.writer; // 1. Break the container after and before the list item. // This will create a view list with one view list item - the one to remove. viewWriter.breakContainer(viewWriter.createPositionBefore(viewItem)); viewWriter.breakContainer(viewWriter.createPositionAfter(viewItem)); // 2. Remove the list with the item to remove. const viewList = viewItem.parent; const viewListPrev = viewList.previousSibling; const removeRange = viewWriter.createRangeOn(viewList); const removed = viewWriter.remove(removeRange); // 3. Merge the whole created by breaking and removing the list. if (viewListPrev && viewListPrev.nextSibling) { mergeViewLists(viewWriter, viewListPrev, viewListPrev.nextSibling); } // 4. Bring back nested list that was in the removed <li>. const modelItem = conversionApi.mapper.toModelElement(viewItem); hoistNestedLists(modelItem.getAttribute('listIndent') + 1, data.position, removeRange.start, viewItem, conversionApi, model); // 5. Unbind removed view item and all children. for (const child of viewWriter.createRangeIn(removed).getItems()) { conversionApi.mapper.unbindViewElement(child); } evt.stop(); }; } /** * A model-to-view converter for the `type` attribute change on the `listItem` model element. * * This change means that the `<li>` element parent changes from `<ul>` to `<ol>` (or vice versa). This is accomplished * by breaking view elements and changing their name. The next {@link module:list/legacylist/legacyconverters~modelViewMergeAfterChangeType} * converter will attempt to merge split nodes. * * Splitting this conversion into 2 steps makes it possible to add an additional conversion in the middle. * Check {@link module:list/legacytodolist/legacytodolistconverters~modelViewChangeType} to see an example of it. * * @see module:engine/conversion/downcastdispatcher~DowncastDispatcher#event:attribute */ export const modelViewChangeType = (evt, data, conversionApi) => { if (!conversionApi.consumable.test(data.item, evt.name)) { return; } const viewItem = conversionApi.mapper.toViewElement(data.item); const viewWriter = conversionApi.writer; // Break the container after and before the list item. // This will create a view list with one view list item -- the one that changed type. viewWriter.breakContainer(viewWriter.createPositionBefore(viewItem)); viewWriter.breakContainer(viewWriter.createPositionAfter(viewItem)); // Change name of the view list that holds the changed view item. // We cannot just change name property, because that would not render properly. const viewList = viewItem.parent; const listName = data.attributeNewValue == 'numbered' ? 'ol' : 'ul'; viewWriter.rename(listName, viewList); }; /** * A model-to-view converter that attempts to merge nodes split by {@link module:list/legacylist/legacyconverters~modelViewChangeType}. * * @see module:engine/conversion/downcastdispatcher~DowncastDispatcher#event:attribute */ export const modelViewMergeAfterChangeType = (evt, data, conversionApi) => { conversionApi.consumable.consume(data.item, evt.name); const viewItem = conversionApi.mapper.toViewElement(data.item); const viewList = viewItem.parent; const viewWriter = conversionApi.writer; // Merge the changed view list with other lists, if possible. mergeViewLists(viewWriter, viewList, viewList.nextSibling); mergeViewLists(viewWriter, viewList.previousSibling, viewList); }; /** * A model-to-view converter for the `listIndent` attribute change on the `listItem` model element. * * @see module:engine/conversion/downcastdispatcher~DowncastDispatcher#event:attribute * @param model Model instance. * @returns Returns a conversion callback. */ export function modelViewChangeIndent(model) { return (evt, data, conversionApi) => { if (!conversionApi.consumable.consume(data.item, 'attribute:listIndent')) { return; } const viewItem = conversionApi.mapper.toViewElement(data.item); const viewWriter = conversionApi.writer; // 1. Break the container after and before the list item. // This will create a view list with one view list item -- the one that changed type. viewWriter.breakContainer(viewWriter.createPositionBefore(viewItem)); viewWriter.breakContainer(viewWriter.createPositionAfter(viewItem)); // 2. Extract view list with changed view list item and merge "hole" possibly created by breaking and removing elements. const viewList = viewItem.parent; const viewListPrev = viewList.previousSibling; const removeRange = viewWriter.createRangeOn(viewList); viewWriter.remove(removeRange); if (viewListPrev && viewListPrev.nextSibling) { mergeViewLists(viewWriter, viewListPrev, viewListPrev.nextSibling); } // 3. Bring back nested list that was in the removed <li>. hoistNestedLists(data.attributeOldValue + 1, data.range.start, removeRange.start, viewItem, conversionApi, model); // 4. Inject view list like it is newly inserted. injectViewList(data.item, viewItem, conversionApi, model); // 5. Consume insertion of children inside the item. They are already handled by re-building the item in view. for (const child of data.item.getChildren()) { conversionApi.consumable.consume(child, 'insert'); } }; } /** * A special model-to-view converter introduced by the {@link module:list/legacylist~LegacyList list feature}. This converter is fired for * insert change of every model item, and should be fired before the actual converter. The converter checks whether the inserted * model item is a non-`listItem` element. If it is, and it is inserted inside a view list, the converter breaks the * list so the model element is inserted to the view parent element corresponding to its model parent element. * * The converter prevents such situations: * * ```xml * // Model: // View: * <listItem>foo</listItem> <ul> * <listItem>bar</listItem> <li>foo</li> * <li>bar</li> * </ul> * * // After change: // Correct view guaranteed by this converter: * <listItem>foo</listItem> <ul><li>foo</li></ul><p>xxx</p><ul><li>bar</li></ul> * <paragraph>xxx</paragraph> // Instead of this wrong view state: * <listItem>bar</listItem> <ul><li>foo</li><p>xxx</p><li>bar</li></ul> * ``` * * @see module:engine/conversion/downcastdispatcher~DowncastDispatcher#event:insert */ export const modelViewSplitOnInsert = (evt, data, conversionApi) => { if (!conversionApi.consumable.test(data.item, evt.name)) { return; } if (data.item.name != 'listItem') { let viewPosition = conversionApi.mapper.toViewPosition(data.range.start); const viewWriter = conversionApi.writer; const lists = []; // Break multiple ULs/OLs if there are. // // Imagine following list: // // 1 -------- // 1.1 -------- // 1.1.1 -------- // 1.1.2 -------- // 1.1.3 -------- // 1.1.3.1 -------- // 1.2 -------- // 1.2.1 -------- // 2 -------- // // Insert paragraph after item 1.1.1: // // 1 -------- // 1.1 -------- // 1.1.1 -------- // // Lorem ipsum. // // 1.1.2 -------- // 1.1.3 -------- // 1.1.3.1 -------- // 1.2 -------- // 1.2.1 -------- // 2 -------- // // In this case 1.1.2 has to become beginning of a new list. // We need to break list before 1.1.2 (obvious), then we need to break list also before 1.2. // Then we need to move those broken pieces one after another and merge: // // 1 -------- // 1.1 -------- // 1.1.1 -------- // // Lorem ipsum. // // 1.1.2 -------- // 1.1.3 -------- // 1.1.3.1 -------- // 1.2 -------- // 1.2.1 -------- // 2 -------- // while (viewPosition.parent.name == 'ul' || viewPosition.parent.name == 'ol') { viewPosition = viewWriter.breakContainer(viewPosition); if (viewPosition.parent.name != 'li') { break; } // Remove lists that are after inserted element. // They will be brought back later, below the inserted element. const removeStart = viewPosition; const removeEnd = viewWriter.createPositionAt(viewPosition.parent, 'end'); // Don't remove if there is nothing to remove. if (!removeStart.isEqual(removeEnd)) { const removed = viewWriter.remove(viewWriter.createRange(removeStart, removeEnd)); lists.push(removed); } viewPosition = viewWriter.createPositionAfter(viewPosition.parent); } // Bring back removed lists. if (lists.length > 0) { for (let i = 0; i < lists.length; i++) { const previousList = viewPosition.nodeBefore; const insertedRange = viewWriter.insert(viewPosition, lists[i]); viewPosition = insertedRange.end; // Don't merge first list! We want a split in that place (this is why this converter is introduced). if (i > 0) { const mergePos = mergeViewLists(viewWriter, previousList, previousList.nextSibling); // If `mergePos` is in `previousList` it means that the lists got merged. // In this case, we need to fix insert position. if (mergePos && mergePos.parent == previousList) { viewPosition.offset--; } } } // Merge last inserted list with element after it. mergeViewLists(viewWriter, viewPosition.nodeBefore, viewPosition.nodeAfter); } } }; /** * A special model-to-view converter introduced by the {@link module:list/legacylist~LegacyList list feature}. This converter takes care of * merging view lists after something is removed or moved from near them. * * Example: * * ```xml * // Model: // View: * <listItem>foo</listItem> <ul><li>foo</li></ul> * <paragraph>xxx</paragraph> <p>xxx</p> * <listItem>bar</listItem> <ul><li>bar</li></ul> * * // After change: // Correct view guaranteed by this converter: * <listItem>foo</listItem> <ul> * <listItem>bar</listItem> <li>foo</li> * <li>bar</li> * </ul> * ``` * * @see module:engine/conversion/downcastdispatcher~DowncastDispatcher#event:remove */ export const modelViewMergeAfter = (evt, data, conversionApi) => { const viewPosition = conversionApi.mapper.toViewPosition(data.position); const viewItemPrev = viewPosition.nodeBefore; const viewItemNext = viewPosition.nodeAfter; // Merge lists if something (remove, move) was done from inside of list. // Merging will be done only if both items are view lists of the same type. // The check is done inside the helper function. mergeViewLists(conversionApi.writer, viewItemPrev, viewItemNext); }; /** * A view-to-model converter that converts the `<li>` view elements into the `listItem` model elements. * * To set correct values of the `listType` and `listIndent` attributes the converter: * * checks `<li>`'s parent, * * stores and increases the `conversionApi.store.indent` value when `<li>`'s sub-items are converted. * * @see module:engine/conversion/upcastdispatcher~UpcastDispatcher#event:element */ export const viewModelConverter = (evt, data, conversionApi) => { if (conversionApi.consumable.consume(data.viewItem, { name: true })) { const writer = conversionApi.writer; // 1. Create `listItem` model element. const listItem = writer.createElement('listItem'); // 2. Handle `listItem` model element attributes. const indent = getIndent(data.viewItem); writer.setAttribute('listIndent', indent, listItem); // Set 'bulleted' as default. If this item is pasted into a context, const type = data.viewItem.parent && data.viewItem.parent.name == 'ol' ? 'numbered' : 'bulleted'; writer.setAttribute('listType', type, listItem); if (!conversionApi.safeInsert(listItem, data.modelCursor)) { return; } const nextPosition = viewToModelListItemChildrenConverter(listItem, data.viewItem.getChildren(), conversionApi); // Result range starts before the first item and ends after the last. data.modelRange = writer.createRange(data.modelCursor, nextPosition); conversionApi.updateConversionResult(listItem, data); } }; /** * A view-to-model converter for the `<ul>` and `<ol>` view elements that cleans the input view of garbage. * This is mostly to clean whitespaces from between the `<li>` view elements inside the view list element, however, also * incorrect data can be cleared if the view was incorrect. * * @see module:engine/conversion/upcastdispatcher~UpcastDispatcher#event:element */ export const cleanList = (evt, data, conversionApi) => { if (conversionApi.consumable.test(data.viewItem, { name: true })) { // Caching children because when we start removing them iterating fails. const children = Array.from(data.viewItem.getChildren()); for (const child of children) { const isWrongElement = !(child.is('element', 'li') || isList(child)); if (isWrongElement) { child._remove(); } } } }; /** * A view-to-model converter for the `<li>` elements that cleans whitespace formatting from the input view. * * @see module:engine/conversion/upcastdispatcher~UpcastDispatcher#event:element */ export const cleanListItem = (evt, data, conversionApi) => { if (conversionApi.consumable.test(data.viewItem, { name: true })) { if (data.viewItem.childCount === 0) { return; } const children = [...data.viewItem.getChildren()]; let foundList = false; for (const child of children) { if (foundList && !isList(child)) { child._remove(); } if (isList(child)) { // If this is a <ul> or <ol>, do not process it, just mark that we already visited list element. foundList = true; } } } }; /** * Returns a callback for model position to view position mapping for {@link module:engine/conversion/mapper~Mapper}. The callback fixes * positions between the `listItem` elements that would be incorrectly mapped because of how list items are represented in the model * and in the view. */ export function modelToViewPosition(view) { return (evt, data) => { if (data.isPhantom) { return; } const modelItem = data.modelPosition.nodeBefore; if (modelItem && modelItem.is('element', 'listItem')) { const viewItem = data.mapper.toViewElement(modelItem); const topmostViewList = viewItem.getAncestors().find(isList); const walker = view.createPositionAt(viewItem, 0).getWalker(); for (const value of walker) { if (value.type == 'elementStart' && value.item.is('element', 'li')) { data.viewPosition = value.previousPosition; break; } else if (value.type == 'elementEnd' && value.item == topmostViewList) { data.viewPosition = value.nextPosition; break; } } } }; } /** * The callback for view position to model position mapping for {@link module:engine/conversion/mapper~Mapper}. The callback fixes * positions between the `<li>` elements that would be incorrectly mapped because of how list items are represented in the model * and in the view. * * @see module:engine/conversion/mapper~Mapper#event:viewToModelPosition * @param model Model instance. * @returns Returns a conversion callback. */ export function viewToModelPosition(model) { return (evt, data) => { const viewPos = data.viewPosition; const viewParent = viewPos.parent; const mapper = data.mapper; if (viewParent.name == 'ul' || viewParent.name == 'ol') { // Position is directly in <ul> or <ol>. if (!viewPos.isAtEnd) { // If position is not at the end, it must be before <li>. // Get that <li>, map it to `listItem` and set model position before that `listItem`. const modelNode = mapper.toModelElement(viewPos.nodeAfter); data.modelPosition = model.createPositionBefore(modelNode); } else { // Position is at the end of <ul> or <ol>, so there is no <li> after it to be mapped. // There is <li> before the position, but we cannot just map it to `listItem` and set model position after it, // because that <li> may contain nested items. // We will check "model length" of that <li>, in other words - how many `listItem`s are in that <li>. const modelNode = mapper.toModelElement(viewPos.nodeBefore); const modelLength = mapper.getModelLength(viewPos.nodeBefore); // Then we get model position before mapped `listItem` and shift it accordingly. data.modelPosition = model.createPositionBefore(modelNode).getShiftedBy(modelLength); } evt.stop(); } else if (viewParent.name == 'li' && viewPos.nodeBefore && (viewPos.nodeBefore.name == 'ul' || viewPos.nodeBefore.name == 'ol')) { // In most cases when view position is in <li> it is in text and this is a correct position. // However, if position is after <ul> or <ol> we have to fix it -- because in model <ul>/<ol> are not in the `listItem`. const modelNode = mapper.toModelElement(viewParent); // Check all <ul>s and <ol>s that are in the <li> but before mapped position. // Get model length of those elements and then add it to the offset of `listItem` mapped to the original <li>. let modelLength = 1; // Starts from 1 because the original <li> has to be counted in too. let viewList = viewPos.nodeBefore; while (viewList && isList(viewList)) { modelLength += mapper.getModelLength(viewList); viewList = viewList.previousSibling; } data.modelPosition = model.createPositionBefore(modelNode).getShiftedBy(modelLength); evt.stop(); } }; } /** * Post-fixer that reacts to changes on document and fixes incorrect model states. * * In the example below, there is a correct list structure. * Then the middle element is removed so the list structure will become incorrect: * * ```xml * <listItem listType="bulleted" listIndent=0>Item 1</listItem> * <listItem listType="bulleted" listIndent=1>Item 2</listItem> <--- this is removed. * <listItem listType="bulleted" listIndent=2>Item 3</listItem> * ``` * * The list structure after the middle element is removed: * * ```xml * <listItem listType="bulleted" listIndent=0>Item 1</listItem> * <listItem listType="bulleted" listIndent=2>Item 3</listItem> * ``` * * Should become: * * ```xml * <listItem listType="bulleted" listIndent=0>Item 1</listItem> * <listItem listType="bulleted" listIndent=1>Item 3</listItem> <--- note that indent got post-fixed. * ``` * * @param model The data model. * @param writer The writer to do changes with. * @returns `true` if any change has been applied, `false` otherwise. */ export function modelChangePostFixer(model, writer) { const changes = model.document.differ.getChanges(); const itemToListHead = new Map(); let applied = false; for (const entry of changes) { if (entry.type == 'insert' && entry.name == 'listItem') { _addListToFix(entry.position); } else if (entry.type == 'insert' && entry.name != 'listItem') { if (entry.name != '$text') { // In case of renamed element. const item = entry.position.nodeAfter; if (item.hasAttribute('listIndent')) { writer.removeAttribute('listIndent', item); applied = true; } if (item.hasAttribute('listType')) { writer.removeAttribute('listType', item); applied = true; } if (item.hasAttribute('listStyle')) { writer.removeAttribute('listStyle', item); applied = true; } if (item.hasAttribute('listReversed')) { writer.removeAttribute('listReversed', item); applied = true; } if (item.hasAttribute('listStart')) { writer.removeAttribute('listStart', item); applied = true; } for (const innerItem of Array.from(model.createRangeIn(item)).filter(e => e.item.is('element', 'listItem'))) { _addListToFix(innerItem.previousPosition); } } const posAfter = entry.position.getShiftedBy(entry.length); _addListToFix(posAfter); } else if (entry.type == 'remove' && entry.name == 'listItem') { _addListToFix(entry.position); } else if (entry.type == 'attribute' && entry.attributeKey == 'listIndent') { _addListToFix(entry.range.start); } else if (entry.type == 'attribute' && entry.attributeKey == 'listType') { _addListToFix(entry.range.start); } } for (const listHead of itemToListHead.values()) { _fixListIndents(listHead); _fixListTypes(listHead); } return applied; function _addListToFix(position) { const previousNode = position.nodeBefore; if (!previousNode || !previousNode.is('element', 'listItem')) { const item = position.nodeAfter; if (item && item.is('element', 'listItem')) { itemToListHead.set(item, item); } } else { let listHead = previousNode; if (itemToListHead.has(listHead)) { return; } for ( // Cache previousSibling and reuse for performance reasons. See #6581. let previousSibling = listHead.previousSibling; previousSibling && previousSibling.is('element', 'listItem'); previousSibling = listHead.previousSibling) { listHead = previousSibling; if (itemToListHead.has(listHead)) { return; } } itemToListHead.set(previousNode, listHead); } } function _fixListIndents(item) { let maxIndent = 0; let fixBy = null; while (item && item.is('element', 'listItem')) { const itemIndent = item.getAttribute('listIndent'); if (itemIndent > maxIndent) { let newIndent; if (fixBy === null) { fixBy = itemIndent - maxIndent; newIndent = maxIndent; } else { if (fixBy > itemIndent) { fixBy = itemIndent; } newIndent = itemIndent - fixBy; } writer.setAttribute('listIndent', newIndent, item); applied = true; } else { fixBy = null; maxIndent = item.getAttribute('listIndent') + 1; } item = item.nextSibling; } } function _fixListTypes(item) { let typesStack = []; let prev = null; while (item && item.is('element', 'listItem')) { const itemIndent = item.getAttribute('listIndent'); if (prev && prev.getAttribute('listIndent') > itemIndent) { typesStack = typesStack.slice(0, itemIndent + 1); } if (itemIndent != 0) { if (typesStack[itemIndent]) { const type = typesStack[itemIndent]; if (item.getAttribute('listType') != type) { writer.setAttribute('listType', type, item); applied = true; } } else { typesStack[itemIndent] = item.getAttribute('listType'); } } prev = item; item = item.nextSibling; } } } /** * A fixer for pasted content that includes list items. * * It fixes indentation of pasted list items so the pasted items match correctly to the context they are pasted into. * * Example: * * ```xml * <listItem listType="bulleted" listIndent=0>A</listItem> * <listItem listType="bulleted" listIndent=1>B^</listItem> * // At ^ paste: <listItem listType="bulleted" listIndent=4>X</listItem> * // <listItem listType="bulleted" listIndent=5>Y</listItem> * <listItem listType="bulleted" listIndent=2>C</listItem> * ``` * * Should become: * * ```xml * <listItem listType="bulleted" listIndent=0>A</listItem> * <listItem listType="bulleted" listIndent=1>BX</listItem> * <listItem listType="bulleted" listIndent=2>Y/listItem> * <listItem listType="bulleted" listIndent=2>C</listItem> * ``` */ export const modelIndentPasteFixer = function (evt, [content, selectable]) { const model = this; // Check whether inserted content starts from a `listItem`. If it does not, it means that there are some other // elements before it and there is no need to fix indents, because even if we insert that content into a list, // that list will be broken. // Note: we also need to handle singular elements because inserting item with indent 0 into 0,1,[],2 // would create incorrect model. let item = content.is('documentFragment') ? content.getChild(0) : content; let selection; if (!selectable) { selection = model.document.selection; } else { selection = model.createSelection(selectable); } if (item && item.is('element', 'listItem')) { // Get a reference list item. Inserted list items will be fixed according to that item. const pos = selection.getFirstPosition(); let refItem = null; if (pos.parent.is('element', 'listItem')) { refItem = pos.parent; } else if (pos.nodeBefore && pos.nodeBefore.is('element', 'listItem')) { refItem = pos.nodeBefore; } // If there is `refItem` it means that we do insert list items into an existing list. if (refItem) { // First list item in `data` has indent equal to 0 (it is a first list item). It should have indent equal // to the indent of reference item. We have to fix the first item and all of it's children and following siblings. // Indent of all those items has to be adjusted to reference item. const indentChange = refItem.getAttribute('listIndent'); // Fix only if there is anything to fix. if (indentChange > 0) { // Adjust indent of all "first" list items in inserted data. while (item && item.is('element', 'listItem')) { item._setAttribute('listIndent', item.getAttribute('listIndent') + indentChange); item = item.nextSibling; } } } } }; /** * Helper function that converts children of a given `<li>` view element into corresponding model elements. * The function maintains proper order of elements if model `listItem` is split during the conversion * due to block children conversion. * * @param listItemModel List item model element to which converted children will be inserted. * @param viewChildren View elements which will be converted. * @param conversionApi Conversion interface to be used by the callback. * @returns Position on which next elements should be inserted after children conversion. */ function viewToModelListItemChildrenConverter(listItemModel, viewChildren, conversionApi) { const { writer, schema } = conversionApi; // A position after the last inserted `listItem`. let nextPosition = writer.createPositionAfter(listItemModel); // Check all children of the converted `<li>`. At this point we assume there are no "whitespace" view text nodes // in view list, between view list items. This should be handled by `<ul>` and `<ol>` converters. for (const child of viewChildren) { if (child.name == 'ul' || child.name == 'ol') { // If the children is a list, we will insert its conversion result after currently handled `listItem`. // Then, next insertion position will be set after all the new list items (and maybe other elements if // something split list item). // // If this is a list, we expect that some `listItem`s and possibly other blocks will be inserted, however `.modelCursor` // should be set after last `listItem` (or block). This is why it feels safe to use it as `nextPosition` nextPosition = conversionApi.convertItem(child, nextPosition).modelCursor; } else { // If this is not a list, try inserting content at the end of the currently handled `listItem`. const result = conversionApi.convertItem(child, writer.createPositionAt(listItemModel, 'end')); // It may end up that the current `listItem` becomes split (if that content cannot be inside `listItem`). For example: // // <li><p>Foo</p></li> // // will be converted to: // // <listItem></listItem><paragraph>Foo</paragraph><listItem></listItem> // const convertedChild = result.modelRange.start.nodeAfter; const wasSplit = convertedChild && convertedChild.is('element') && !schema.checkChild(listItemModel, convertedChild.name); if (wasSplit) { // As `lastListItem` got split, we need to update it to the second part of the split `listItem` element. // // `modelCursor` should be set to a position where the conversion should continue. There are multiple possible scenarios // that may happen. Usually, `modelCursor` (marked as `#` below) would point to the second list item after conversion: // // `<li><p>Foo</p></li>` -> `<listItem></listItem><paragraph>Foo</paragraph><listItem>#</listItem>` // // However, in some cases, like auto-paragraphing, the position is placed at the end of the block element: // // `<li><div>Foo</div></li>` -> `<listItem></listItem><paragraph>Foo#</paragraph><listItem></listItem>` // // or after an element if another element broken auto-paragraphed element: // // `<li><div><h2>Foo</h2></div></li>` -> `<listItem></listItem><heading1>Foo</heading1>#<listItem></listItem>` // // We need to check for such cases and use proper list item and position based on it. // if (result.modelCursor.parent.is('element', 'listItem')) { // (1). listItemModel = result.modelCursor.parent; } else { // (2), (3). listItemModel = findNextListItem(result.modelCursor); } nextPosition = writer.createPositionAfter(listItemModel); } } } return nextPosition; } /** * Helper function that seeks for a next list item starting from given `startPosition`. */ function findNextListItem(startPosition) { const treeWalker = new TreeWalker({ startPosition }); let value; do { value = treeWalker.next(); } while (!value.value.item.is('element', 'listItem')); return value.value.item; } /** * Helper function that takes all children of given `viewRemovedItem` and moves them in a correct place, according * to other given parameters. */ function hoistNestedLists(nextIndent, modelRemoveStartPosition, viewRemoveStartPosition, viewRemovedItem, conversionApi, model) { // Find correct previous model list item element. // The element has to have either same or smaller indent than given reference indent. // This will be the model element which will get nested items (if it has smaller indent) or sibling items (if it has same indent). // Keep in mind that such element might not be found, if removed item was the first item. const prevModelItem = getSiblingListItem(modelRemoveStartPosition.nodeBefore, { sameIndent: true, smallerIndent: true, listIndent: nextIndent }); const mapper = conversionApi.mapper; const viewWriter = conversionApi.writer; // Indent of found element or `null` if the element has not been found. const prevIndent = prevModelItem ? prevModelItem.getAttribute('listIndent') : null; let insertPosition; if (!prevModelItem) { // If element has not been found, simply insert lists at the position where the removed item was: // // Lorem ipsum. // 1 -------- <--- this is removed, no previous list item, put nested items in place of removed item. // 1.1 -------- <--- this is reference indent. // 1.1.1 -------- // 1.1.2 -------- // 1.2 -------- // // Becomes: // // Lorem ipsum. // 1.1 -------- // 1.1.1 -------- // 1.1.2 -------- // 1.2 -------- insertPosition = viewRemoveStartPosition; } else if (prevIndent == nextIndent) { // If element has been found and has same indent as reference indent it means that nested items should // become siblings of found element: // // 1 -------- // 1.1 -------- // 1.2 -------- <--- this is `prevModelItem`. // 2 -------- <--- this is removed, previous list item has indent same as reference indent. // 2.1 -------- <--- this is reference indent, this and 2.2 should become siblings of 1.2. // 2.2 -------- // // Becomes: // // 1 -------- // 1.1 -------- // 1.2 -------- // 2.1 -------- // 2.2 -------- const prevViewList = mapper.toViewElement(prevModelItem).parent; insertPosition = viewWriter.createPositionAfter(prevViewList); } else { // If element has been found and has smaller indent as reference indent it means that nested items // should become nested items of found item: // // 1 -------- <--- this is `prevModelItem`. // 1.1 -------- <--- this is removed, previous list item has indent smaller than reference indent. // 1.1.1 -------- <--- this is reference indent, this and 1.1.1 should become nested items of 1. // 1.1.2 -------- // 1.2 -------- // // Becomes: // // 1 -------- // 1.1.1 -------- // 1.1.2 -------- // 1.2 -------- // // Note: in this case 1.1.1 have indent 2 while 1 have indent 0. In model that should not be possible, // because following item may have indent bigger only by one. But this is fixed by postfixer. const modelPosition = model.createPositionAt(prevModelItem, 'end'); insertPosition = mapper.toViewPosition(modelPosition); } insertPosition = positionAfterUiElements(insertPosition); // Handle multiple lists. This happens if list item has nested numbered and bulleted lists. Following lists // are inserted after the first list (no need to recalculate insertion position for them). for (const child of [...viewRemovedItem.getChildren()]) { if (isList(child)) { insertPosition = viewWriter.move(viewWriter.createRangeOn(child), insertPosition).end; mergeViewLists(viewWriter, child, child.nextSibling); mergeViewLists(viewWriter, child.previousSibling, child); } } } /** * Checks if view element is a list type (ul or ol). */ function isList(viewElement) { return viewElement.is('element', 'ol') || viewElement.is('element', 'ul'); } /** * Calculates the indent value for a list item. Handles HTML compliant and non-compliant lists. * * Also, fixes non HTML compliant lists indents: * * ``` * before: fixed list: * OL OL * |-> LI (parent LIs: 0) |-> LI (indent: 0) * |-> OL |-> OL * |-> OL | * | |-> OL | * | |-> OL | * | |-> LI (parent LIs: 1) |-> LI (indent: 1) * |-> LI (parent LIs: 1) |-> LI (indent: 1) * * before: fixed list: * OL OL * |-> OL | * |-> OL | * |-> OL | * |-> LI (parent LIs: 0) |-> LI (indent: 0) * * before: fixed list: * OL OL * |-> LI (parent LIs: 0) |-> LI (indent: 0) * |-> OL |-> OL * |-> LI (parent LIs: 0) |-> LI (indent: 1) * ``` */ function getIndent(listItem) { let indent = 0; let parent = listItem.parent; while (parent) { // Each LI in the tree will result in an increased indent for HTML compliant lists. if (parent.is('element', 'li')) { indent++; } else { // If however the list is nested in other list we should check previous sibling of any of the list elements... const previousSibling = parent.previousSibling; // ...because the we might need increase its indent: // before: fixed list: // OL OL // |-> LI (parent LIs: 0) |-> LI (indent: 0) // |-> OL |-> OL // |-> LI (parent LIs: 0) |-> LI (indent: 1) if (previousSibling && previousSibling.is('element', 'li')) { indent++; } } parent = parent.parent; } return indent; }