interface TreeHelperConfig { id: string children: string pid: string } const DEFAULT_CONFIG: TreeHelperConfig = { id: 'id', children: 'children', pid: 'pid' } export const defaultProps = { children: 'children', label: 'name', value: 'id', isLeaf: 'leaf', emitPath: false // 用于 cascader 组件:在选中节点改变时,是否返回由该节点所在的各级菜单的值所组成的数组,若设置 false,则只返回该节点的值 } const getConfig = (config: Partial) => Object.assign({}, DEFAULT_CONFIG, config) // tree from list export const listToTree = (list: any[], config: Partial = {}): T[] => { const conf = getConfig(config) as TreeHelperConfig const nodeMap = new Map() const result: T[] = [] const { id, children, pid } = conf for (const node of list) { node[children] = node[children] || [] nodeMap.set(node[id], node) } for (const node of list) { const parent = nodeMap.get(node[pid]) ;(parent ? parent.children : result).push(node) } return result } export const treeToList = (tree: any, config: Partial = {}): T => { config = getConfig(config) const { children } = config const result: any = [...tree] for (let i = 0; i < result.length; i++) { if (!result[i][children!]) continue result.splice(i + 1, 0, ...result[i][children!]) } return result } export const findNode = ( tree: any, func: Fn, config: Partial = {} ): T | null => { config = getConfig(config) const { children } = config const list = [...tree] for (const node of list) { if (func(node)) return node node[children!] && list.push(...node[children!]) } return null } export const findNodeAll = ( tree: any, func: Fn, config: Partial = {} ): T[] => { config = getConfig(config) const { children } = config const list = [...tree] const result: T[] = [] for (const node of list) { func(node) && result.push(node) node[children!] && list.push(...node[children!]) } return result } export const findPath = ( tree: any, func: Fn, config: Partial = {} ): T | T[] | null => { config = getConfig(config) const path: T[] = [] const list = [...tree] const visitedSet = new Set() const { children } = config while (list.length) { const node = list[0] if (visitedSet.has(node)) { path.pop() list.shift() } else { visitedSet.add(node) node[children!] && list.unshift(...node[children!]) path.push(node) if (func(node)) { return path } } } return null } export const findPathAll = (tree: any, func: Fn, config: Partial = {}) => { config = getConfig(config) const path: any[] = [] const list = [...tree] const result: any[] = [] const visitedSet = new Set(), { children } = config while (list.length) { const node = list[0] if (visitedSet.has(node)) { path.pop() list.shift() } else { visitedSet.add(node) node[children!] && list.unshift(...node[children!]) path.push(node) func(node) && result.push([...path]) } } return result } export const filter = ( tree: T[], func: (n: T) => boolean, config: Partial = {} ): T[] => { config = getConfig(config) const children = config.children as string function listFilter(list: T[]) { return list .map((node: any) => ({ ...node })) .filter((node) => { node[children] = node[children] && listFilter(node[children]) return func(node) || (node[children] && node[children].length) }) } return listFilter(tree) } export const forEach = ( tree: T[], func: (n: T) => any, config: Partial = {} ): void => { config = getConfig(config) const list: any[] = [...tree] const { children } = config for (let i = 0; i < list.length; i++) { // func 返回true就终止遍历,避免大量节点场景下无意义循环,引起浏览器卡顿 if (func(list[i])) { return } children && list[i][children] && list.splice(i + 1, 0, ...list[i][children]) } } /** * @description: Extract tree specified structure */ export const treeMap = ( treeData: T[], opt: { children?: string; conversion: Fn } ): T[] => { return treeData.map((item) => treeMapEach(item, opt)) } /** * @description: Extract tree specified structure */ export const treeMapEach = ( data: any, { children = 'children', conversion }: { children?: string; conversion: Fn } ) => { const haveChildren = Array.isArray(data[children]) && data[children].length > 0 const conversionData = conversion(data) || {} if (haveChildren) { return { ...conversionData, [children]: data[children].map((i: number) => treeMapEach(i, { children, conversion }) ) } } else { return { ...conversionData } } } /** * 递归遍历树结构 * @param treeDatas 树 * @param callBack 回调 * @param parentNode 父节点 */ export const eachTree = (treeDatas: any[], callBack: Fn, parentNode = {}) => { treeDatas.forEach((element) => { const newNode = callBack(element, parentNode) || element if (element.children) { eachTree(element.children, callBack, newNode) } }) } /** * 构造树型结构数据 * @param {*} data 数据源 * @param {*} id id字段 默认 'id' * @param {*} parentId 父节点字段 默认 'parentId' * @param {*} children 孩子节点字段 默认 'children' */ export const handleTree = (data: any[], id?: string, parentId?: string, children?: string) => { if (!Array.isArray(data)) { console.warn('data must be an array') return [] } const config = { id: id || 'id', parentId: parentId || 'parentId', childrenList: children || 'children' } const childrenListMap = {} const nodeIds = {} const tree: any[] = [] for (const d of data) { const parentId = d[config.parentId] if (childrenListMap[parentId] == null) { childrenListMap[parentId] = [] } nodeIds[d[config.id]] = d childrenListMap[parentId].push(d) } for (const d of data) { const parentId = d[config.parentId] if (nodeIds[parentId] == null) { tree.push(d) } } for (const t of tree) { adaptToChildrenList(t) } function adaptToChildrenList(o) { if (childrenListMap[o[config.id]] !== null) { o[config.childrenList] = childrenListMap[o[config.id]] } if (o[config.childrenList]) { for (const c of o[config.childrenList]) { adaptToChildrenList(c) } } } return tree } /** * 构造树型结构数据 * @param {*} data 数据源 * @param {*} id id字段 默认 'id' * @param {*} parentId 父节点字段 默认 'parentId' * @param {*} children 孩子节点字段 默认 'children' * @param {*} rootId 根Id 默认 0 */ export const handleTree2 = (data, id, parentId, children, rootId) => { id = id || 'id' parentId = parentId || 'parentId' // children = children || 'children' rootId = rootId || Math.min( ...data.map((item) => { return item[parentId] }) ) || 0 // 对源数据深度克隆 const cloneData = JSON.parse(JSON.stringify(data)) // 循环所有项 const treeData = cloneData.filter((father) => { const branchArr = cloneData.filter((child) => { // 返回每一项的子级数组 return father[id] === child[parentId] }) branchArr.length > 0 ? (father.children = branchArr) : '' // 返回第一层 return father[parentId] === rootId }) return treeData !== '' ? treeData : data } /** * 校验选中的节点,是否为指定 level * * @param tree 要操作的树结构数据 * @param nodeId 需要判断在什么层级的数据 * @param level 检查的级别, 默认检查到二级 * @return true 是;false 否 */ export const checkSelectedNode = (tree: any[], nodeId: any, level = 2): boolean => { if (typeof tree === 'undefined' || !Array.isArray(tree) || tree.length === 0) { console.warn('tree must be an array') return false } // 校验是否是一级节点 if (tree.some((item) => item.id === nodeId)) { return false } // 递归计数 let count = 1 // 深层次校验 function performAThoroughValidation(arr: any[]): boolean { count += 1 for (const item of arr) { if (item.id === nodeId) { return true } else if (typeof item.children !== 'undefined' && item.children.length !== 0) { if (performAThoroughValidation(item.children)) { return true } } } return false } for (const item of tree) { count = 1 if (performAThoroughValidation(item.children)) { // 找到后对比是否是期望的层级 if (count >= level) { return true } } } return false } /** * 获取节点的完整结构 * @param tree 树数据 * @param nodeId 节点 id */ export const treeToString = (tree: any[], nodeId) => { if (typeof tree === 'undefined' || !Array.isArray(tree) || tree.length === 0) { console.warn('tree must be an array') return '' } // 校验是否是一级节点 const node = tree.find((item) => item.id === nodeId) if (typeof node !== 'undefined') { return node.name } let str = '' function performAThoroughValidation(arr) { for (const item of arr) { if (item.id === nodeId) { str += ` / ${item.name}` return true } else if (typeof item.children !== 'undefined' && item.children.length !== 0) { str += ` / ${item.name}` if (performAThoroughValidation(item.children)) { return true } } } return false } for (const item of tree) { str = `${item.name}` if (performAThoroughValidation(item.children)) { break } } return str }