import type { DataNode, FlattenNode, NodeElement, DataEntity, Key, EventDataNode, GetKey, FieldNames, } from '../interface'; import { getPosition, isTreeNode } from '../util'; import { warning } from '../../vc-util/warning'; import { camelize } from 'vue'; import type { TreeNodeProps } from '../props'; import { filterEmpty } from '../../_util/props-util'; import omit from '../../_util/omit'; import type { VueNode } from '../../_util/type'; export function getKey(key: Key, pos: string) { if (key !== null && key !== undefined) { return key; } return pos; } export function fillFieldNames(fieldNames?: FieldNames) { const { title, key, children } = fieldNames || {}; return { title: title || 'title', key: key || 'key', children: children || 'children', }; } /** * Warning if TreeNode do not provides key */ export function warningWithoutKey(treeData: DataNode[], fieldNames: FieldNames) { const keys: Map = new Map(); function dig(list: DataNode[], path = '') { (list || []).forEach(treeNode => { const key = treeNode[fieldNames.key]; const children = treeNode[fieldNames.children]; warning( key !== null && key !== undefined, `Tree node must have a certain key: [${path}${key}]`, ); const recordKey = String(key); warning( !keys.has(recordKey) || key === null || key === undefined, `Same 'key' exist in the Tree: ${recordKey}`, ); keys.set(recordKey, true); dig(children, `${path}${recordKey} > `); }); } dig(treeData); } /** * Convert `children` of Tree into `treeData` structure. */ export function convertTreeToData(rootNodes: VueNode): DataNode[] { function dig(node: VueNode = []): DataNode[] { const treeNodes = filterEmpty(node as NodeElement[]); return treeNodes.map(treeNode => { // Filter invalidate node if (!isTreeNode(treeNode)) { warning(!treeNode, 'Tree/TreeNode can only accept TreeNode as children.'); return null; } const slots = (treeNode.children as any) || {}; const key = treeNode.key as string | number; const props: any = {}; for (const [k, v] of Object.entries(treeNode.props)) { props[camelize(k)] = v; } const { isLeaf, checkable, selectable, disabled, disableCheckbox } = props; // 默认值为 undefined const newProps = { isLeaf: isLeaf || isLeaf === '' || undefined, checkable: checkable || checkable === '' || undefined, selectable: selectable || selectable === '' || undefined, disabled: disabled || disabled === '' || undefined, disableCheckbox: disableCheckbox || disableCheckbox === '' || undefined, }; const slotsProps = { ...props, ...newProps }; const { title = slots.title?.(slotsProps), icon = slots.icon?.(slotsProps), switcherIcon = slots.switcherIcon?.(slotsProps), ...rest } = props; const children = slots.default?.(); const dataNode: DataNode = { ...rest, title, icon, switcherIcon, key, isLeaf, ...newProps, }; const parsedChildren = dig(children); if (parsedChildren.length) { dataNode.children = parsedChildren; } return dataNode; }); } return dig(rootNodes); } /** * Flat nest tree data into flatten list. This is used for virtual list render. * @param treeNodeList Origin data node list * @param expandedKeys * need expanded keys, provides `true` means all expanded (used in `rc-tree-select`). */ export function flattenTreeData( treeNodeList: DataNode[], expandedKeys: Key[] | true, fieldNames: FieldNames, ): FlattenNode[] { const { title: fieldTitle, key: fieldKey, children: fieldChildren } = fillFieldNames(fieldNames); const expandedKeySet = new Set(expandedKeys === true ? [] : expandedKeys); const flattenList: FlattenNode[] = []; function dig(list: DataNode[], parent: FlattenNode = null): FlattenNode[] { return list.map((treeNode, index) => { const pos: string = getPosition(parent ? parent.pos : '0', index); const mergedKey = getKey(treeNode[fieldKey], pos); // Add FlattenDataNode into list const flattenNode: FlattenNode = { ...omit(treeNode, [fieldTitle, fieldKey, fieldChildren] as any), title: treeNode[fieldTitle], key: mergedKey, parent, pos, children: null, data: treeNode, isStart: [...(parent ? parent.isStart : []), index === 0], isEnd: [...(parent ? parent.isEnd : []), index === list.length - 1], }; flattenList.push(flattenNode); // Loop treeNode children if (expandedKeys === true || expandedKeySet.has(mergedKey)) { flattenNode.children = dig(treeNode[fieldChildren] || [], flattenNode); } else { flattenNode.children = []; } return flattenNode; }); } dig(treeNodeList); return flattenList; } type ExternalGetKey = GetKey | string; interface TraverseDataNodesConfig { childrenPropName?: string; externalGetKey?: ExternalGetKey; fieldNames?: FieldNames; } /** * Traverse all the data by `treeData`. * Please not use it out of the `rc-tree` since we may refactor this code. */ export function traverseDataNodes( dataNodes: DataNode[], callback: (data: { node: DataNode; index: number; pos: string; key: Key; parentPos: string | number; level: number; }) => void, // To avoid too many params, let use config instead of origin param config?: TraverseDataNodesConfig | string, ) { let mergedConfig: TraverseDataNodesConfig = {}; if (typeof config === 'object') { mergedConfig = config; } else { mergedConfig = { externalGetKey: config }; } mergedConfig = mergedConfig || {}; // Init config const { childrenPropName, externalGetKey, fieldNames } = mergedConfig; const { key: fieldKey, children: fieldChildren } = fillFieldNames(fieldNames); const mergeChildrenPropName = childrenPropName || fieldChildren; // Get keys let syntheticGetKey: (node: DataNode, pos?: string) => Key; if (externalGetKey) { if (typeof externalGetKey === 'string') { syntheticGetKey = (node: DataNode) => (node as any)[externalGetKey as string]; } else if (typeof externalGetKey === 'function') { syntheticGetKey = (node: DataNode) => (externalGetKey as GetKey)(node); } } else { syntheticGetKey = (node, pos) => getKey(node[fieldKey], pos); } // Process function processNode( node: DataNode, index?: number, parent?: { node: DataNode; pos: string; level: number }, ) { const children = node ? node[mergeChildrenPropName] : dataNodes; const pos = node ? getPosition(parent.pos, index) : '0'; // Process node if is not root if (node) { const key: Key = syntheticGetKey(node, pos); const data = { node, index, pos, key, parentPos: parent.node ? parent.pos : null, level: parent.level + 1, }; callback(data); } // Process children node if (children) { children.forEach((subNode, subIndex) => { processNode(subNode, subIndex, { node, pos, level: parent ? parent.level + 1 : -1, }); }); } } processNode(null); } interface Wrapper { posEntities: Record; keyEntities: Record; } /** * Convert `treeData` into entity records. */ export function convertDataToEntities( dataNodes: DataNode[], { initWrapper, processEntity, onProcessFinished, externalGetKey, childrenPropName, fieldNames, }: { initWrapper?: (wrapper: Wrapper) => Wrapper; processEntity?: (entity: DataEntity, wrapper: Wrapper) => void; onProcessFinished?: (wrapper: Wrapper) => void; externalGetKey?: ExternalGetKey; childrenPropName?: string; fieldNames?: FieldNames; } = {}, /** @deprecated Use `config.externalGetKey` instead */ legacyExternalGetKey?: ExternalGetKey, ) { // Init config const mergedExternalGetKey = externalGetKey || legacyExternalGetKey; const posEntities = {}; const keyEntities = {}; let wrapper = { posEntities, keyEntities, }; if (initWrapper) { wrapper = initWrapper(wrapper) || wrapper; } traverseDataNodes( dataNodes, item => { const { node, index, pos, key, parentPos, level } = item; const entity: DataEntity = { node, index, key, pos, level }; const mergedKey = getKey(key, pos); posEntities[pos] = entity; keyEntities[mergedKey] = entity; // Fill children entity.parent = posEntities[parentPos]; if (entity.parent) { entity.parent.children = entity.parent.children || []; entity.parent.children.push(entity); } if (processEntity) { processEntity(entity, wrapper); } }, { externalGetKey: mergedExternalGetKey, childrenPropName, fieldNames }, ); if (onProcessFinished) { onProcessFinished(wrapper); } return wrapper; } export interface TreeNodeRequiredProps { expandedKeys: Key[]; selectedKeys: Key[]; loadedKeys: Key[]; loadingKeys: Key[]; checkedKeys: Key[]; halfCheckedKeys: Key[]; dragOverNodeKey: Key; dropPosition: number; keyEntities: Record; } /** * Get TreeNode props with Tree props. */ export function getTreeNodeProps( key: Key, { expandedKeys, selectedKeys, loadedKeys, loadingKeys, checkedKeys, halfCheckedKeys, dragOverNodeKey, dropPosition, keyEntities, }: TreeNodeRequiredProps, ) { const entity = keyEntities[key]; const treeNodeProps = { eventKey: key, expanded: expandedKeys.indexOf(key) !== -1, selected: selectedKeys.indexOf(key) !== -1, loaded: loadedKeys.indexOf(key) !== -1, loading: loadingKeys.indexOf(key) !== -1, checked: checkedKeys.indexOf(key) !== -1, halfChecked: halfCheckedKeys.indexOf(key) !== -1, pos: String(entity ? entity.pos : ''), parent: entity.parent, // [Legacy] Drag props // Since the interaction of drag is changed, the semantic of the props are // not accuracy, I think it should be finally removed dragOver: dragOverNodeKey === key && dropPosition === 0, dragOverGapTop: dragOverNodeKey === key && dropPosition === -1, dragOverGapBottom: dragOverNodeKey === key && dropPosition === 1, }; return treeNodeProps; } export function convertNodePropsToEventData(props: TreeNodeProps): EventDataNode { const { data, expanded, selected, checked, loaded, loading, halfChecked, dragOver, dragOverGapTop, dragOverGapBottom, pos, active, eventKey, } = props; const eventData = { dataRef: data, ...data, expanded, selected, checked, loaded, loading, halfChecked, dragOver, dragOverGapTop, dragOverGapBottom, pos, active, eventKey, }; if (!('props' in eventData)) { Object.defineProperty(eventData, 'props', { get() { warning( false, 'Second param return from event is node data instead of TreeNode instance. Please read value directly instead of reading from `props`.', ); return props; }, }); } return eventData; }