/* eslint-disable no-lonely-if */ /** * Legacy code. Should avoid to use if you are new to import these code. */ import TreeNode from './TreeNode'; import type { NodeElement, Key, DataNode, DataEntity, FlattenNode, Direction, DragNodeEvent, BasicDataNode, } from './interface'; import { warning } from '../vc-util/warning'; import type { AllowDrop, TreeNodeProps, TreeProps } from './props'; export function arrDel(list: Key[], value: Key) { if (!list) return []; const clone = list.slice(); const index = clone.indexOf(value); if (index >= 0) { clone.splice(index, 1); } return clone; } export function arrAdd(list: Key[], value: Key) { const clone = (list || []).slice(); if (clone.indexOf(value) === -1) { clone.push(value); } return clone; } export function posToArr(pos: string) { return pos.split('-'); } export function getPosition(level: string | number, index: number) { return `${level}-${index}`; } export function isTreeNode(node: NodeElement) { return node && node.type && (node.type as any).isTreeNode; } export function getDragChildrenKeys( dragNodeKey: Key, keyEntities: Record>, ): Key[] { // not contains self // self for left or right drag const dragChildrenKeys = []; const entity = keyEntities[dragNodeKey]; function dig(list: DataEntity[] = []) { list.forEach(({ key, children }) => { dragChildrenKeys.push(key); dig(children); }); } dig(entity.children); return dragChildrenKeys; } export function isLastChild( treeNodeEntity: DataEntity, ) { if (treeNodeEntity.parent) { const posArr = posToArr(treeNodeEntity.pos); return Number(posArr[posArr.length - 1]) === treeNodeEntity.parent.children.length - 1; } return false; } export function isFirstChild( treeNodeEntity: DataEntity, ) { const posArr = posToArr(treeNodeEntity.pos); return Number(posArr[posArr.length - 1]) === 0; } // Only used when drag, not affect SSR. export function calcDropPosition( event: MouseEvent, dragNode: DragNodeEvent, targetNode: DragNodeEvent, indent: number, startMousePosition: { x: number; y: number; }, allowDrop: AllowDrop, flattenedNodes: FlattenNode[], keyEntities: Record>, expandKeysSet: Set, direction: Direction, ): { dropPosition: -1 | 0 | 1; dropLevelOffset: number; dropTargetKey: Key; dropTargetPos: string; dropContainerKey: Key; dragOverNodeKey: Key; dropAllowed: boolean; } { const { clientX, clientY } = event; const { top, height } = (event.target as HTMLElement).getBoundingClientRect(); // optional chain for testing const horizontalMouseOffset = (direction === 'rtl' ? -1 : 1) * ((startMousePosition?.x || 0) - clientX); const rawDropLevelOffset = (horizontalMouseOffset - 12) / indent; // find abstract drop node by horizontal offset let abstractDropNodeEntity: DataEntity = keyEntities[targetNode.eventKey]; if (clientY < top + height / 2) { // first half, set abstract drop node to previous node const nodeIndex = flattenedNodes.findIndex( flattenedNode => flattenedNode.key === abstractDropNodeEntity.key, ); const prevNodeIndex = nodeIndex <= 0 ? 0 : nodeIndex - 1; const prevNodeKey = flattenedNodes[prevNodeIndex].key; abstractDropNodeEntity = keyEntities[prevNodeKey]; } const initialAbstractDropNodeKey = abstractDropNodeEntity.key; const abstractDragOverEntity = abstractDropNodeEntity; const dragOverNodeKey = abstractDropNodeEntity.key; let dropPosition: -1 | 0 | 1 = 0; let dropLevelOffset = 0; // Only allow cross level drop when dragging on a non-expanded node if (!expandKeysSet.has(initialAbstractDropNodeKey)) { for (let i = 0; i < rawDropLevelOffset; i += 1) { if (isLastChild(abstractDropNodeEntity)) { abstractDropNodeEntity = abstractDropNodeEntity.parent; dropLevelOffset += 1; } else { break; } } } const abstractDragDataNode = dragNode.eventData; const abstractDropDataNode = abstractDropNodeEntity.node; let dropAllowed = true; if ( isFirstChild(abstractDropNodeEntity) && abstractDropNodeEntity.level === 0 && clientY < top + height / 2 && allowDrop({ dragNode: abstractDragDataNode, dropNode: abstractDropDataNode, dropPosition: -1, }) && abstractDropNodeEntity.key === targetNode.eventKey ) { // first half of first node in first level dropPosition = -1; } else if ((abstractDragOverEntity.children || []).length && expandKeysSet.has(dragOverNodeKey)) { // drop on expanded node // only allow drop inside if ( allowDrop({ dragNode: abstractDragDataNode, dropNode: abstractDropDataNode, dropPosition: 0, }) ) { dropPosition = 0; } else { dropAllowed = false; } } else if (dropLevelOffset === 0) { if (rawDropLevelOffset > -1.5) { // | Node | <- abstractDropNode // | -^-===== | <- mousePosition // 1. try drop after // 2. do not allow drop if ( allowDrop({ dragNode: abstractDragDataNode, dropNode: abstractDropDataNode, dropPosition: 1, }) ) { dropPosition = 1; } else { dropAllowed = false; } } else { // | Node | <- abstractDropNode // | ---==^== | <- mousePosition // whether it has children or doesn't has children // always // 1. try drop inside // 2. try drop after // 3. do not allow drop if ( allowDrop({ dragNode: abstractDragDataNode, dropNode: abstractDropDataNode, dropPosition: 0, }) ) { dropPosition = 0; } else if ( allowDrop({ dragNode: abstractDragDataNode, dropNode: abstractDropDataNode, dropPosition: 1, }) ) { dropPosition = 1; } else { dropAllowed = false; } } } else { // | Node1 | <- abstractDropNode // | Node2 | // --^--|----=====| <- mousePosition // 1. try insert after Node1 // 2. do not allow drop if ( allowDrop({ dragNode: abstractDragDataNode, dropNode: abstractDropDataNode, dropPosition: 1, }) ) { dropPosition = 1; } else { dropAllowed = false; } } return { dropPosition, dropLevelOffset, dropTargetKey: abstractDropNodeEntity.key, dropTargetPos: abstractDropNodeEntity.pos, dragOverNodeKey, dropContainerKey: dropPosition === 0 ? null : abstractDropNodeEntity.parent?.key || null, dropAllowed, }; } /** * Return selectedKeys according with multiple prop * @param selectedKeys * @param props * @returns [string] */ export function calcSelectedKeys(selectedKeys: Key[], props: TreeProps) { if (!selectedKeys) return undefined; const { multiple } = props; if (multiple) { return selectedKeys.slice(); } if (selectedKeys.length) { return [selectedKeys[0]]; } return selectedKeys; } const internalProcessProps = (props: DataNode): Partial => props; export function convertDataToTree( treeData: DataNode[], processor?: { processProps: (prop: DataNode) => any }, ): NodeElement[] { if (!treeData) return []; const { processProps = internalProcessProps } = processor || {}; const list = Array.isArray(treeData) ? treeData : [treeData]; return list.map(({ children, ...props }): NodeElement => { const childrenNodes = convertDataToTree(children, processor); return ( {childrenNodes} ); }); } /** * Parse `checkedKeys` to { checkedKeys, halfCheckedKeys } style */ export function parseCheckedKeys(keys: Key[] | { checked: Key[]; halfChecked: Key[] }) { if (!keys) { return null; } // Convert keys to object format let keyProps; if (Array.isArray(keys)) { // [Legacy] Follow the api doc keyProps = { checkedKeys: keys, halfCheckedKeys: undefined, }; } else if (typeof keys === 'object') { keyProps = { checkedKeys: keys.checked || undefined, halfCheckedKeys: keys.halfChecked || undefined, }; } else { warning(false, '`checkedKeys` is not an array or an object'); return null; } return keyProps; } /** * If user use `autoExpandParent` we should get the list of parent node * @param keyList * @param keyEntities */ export function conductExpandParent(keyList: Key[], keyEntities: Record): Key[] { const expandedKeys = new Set(); function conductUp(key: Key) { if (expandedKeys.has(key)) return; const entity = keyEntities[key]; if (!entity) return; expandedKeys.add(key); const { parent, node } = entity; if (node.disabled) return; if (parent) { conductUp(parent.key); } } (keyList || []).forEach(key => { conductUp(key); }); return [...expandedKeys]; }