import type { NodeMouseEventHandler, NodeDragEventHandler } from './contextTypes'; import { TreeContext } from './contextTypes'; import { getDataAndAria, getDragChildrenKeys, parseCheckedKeys, conductExpandParent, calcSelectedKeys, calcDropPosition, arrAdd, arrDel, posToArr, } from './util'; import type { Key, FlattenNode, EventDataNode, ScrollTo, DragNodeEvent } from './interface'; import { flattenTreeData, convertTreeToData, convertDataToEntities, convertNodePropsToEventData, getTreeNodeProps, fillFieldNames, } from './utils/treeUtil'; import NodeList, { MOTION_KEY, MotionEntity } from './NodeList'; import { conductCheck } from './utils/conductUtil'; import DropIndicator from './DropIndicator'; import { computed, defineComponent, onMounted, onUnmounted, reactive, ref, watchEffect } from 'vue'; import initDefaultProps from '../_util/props-util/initDefaultProps'; import type { CheckInfo } from './props'; import { treeProps } from './props'; import { warning } from '../vc-util/warning'; import KeyCode from '../_util/KeyCode'; import classNames from '../_util/classNames'; export default defineComponent({ name: 'Tree', inheritAttrs: false, slots: ['checkable', 'title', 'icon'], props: initDefaultProps(treeProps(), { prefixCls: 'vc-tree', showLine: false, showIcon: true, selectable: true, multiple: false, checkable: false, disabled: false, checkStrictly: false, draggable: false, defaultExpandParent: true, autoExpandParent: false, defaultExpandAll: false, defaultExpandedKeys: [], defaultCheckedKeys: [], defaultSelectedKeys: [], dropIndicatorRender: DropIndicator, allowDrop: () => true, }), setup(props, { attrs, slots, expose }) { const destroyed = ref(false); let delayedDragEnterLogic: Record = {}; const indent = ref(); const selectedKeys = ref([]); const checkedKeys = ref([]); const halfCheckedKeys = ref([]); const loadedKeys = ref([]); const loadingKeys = ref([]); const expandedKeys = ref([]); const dragState = reactive({ dragging: false, dragChildrenKeys: [], // dropTargetKey is the key of abstract-drop-node // the abstract-drop-node is the real drop node when drag and drop // not the DOM drag over node dropTargetKey: null, dropPosition: null, // the drop position of abstract-drop-node, inside 0, top -1, bottom 1 dropContainerKey: null, // the container key of abstract-drop-node if dropPosition is -1 or 1 dropLevelOffset: null, // the drop level offset of abstract-drag-over-node dropTargetPos: null, // the pos of abstract-drop-node dropAllowed: true, // if drop to abstract-drop-node is allowed // the abstract-drag-over-node // if mouse is on the bottom of top dom node or no the top of the bottom dom node // abstract-drag-over-node is the top node dragOverNodeKey: null, }); warning( !(props.treeData === undefined && props.children), '`children` of Tree is deprecated. Please use `treeData` instead.', ); const treeData = computed(() => { return props.treeData !== undefined ? props.treeData : convertTreeToData(props.children); }); const keyEntities = ref({}); const focused = ref(false); const activeKey = ref(null); const listChanging = ref(false); const fieldNames = computed(() => fillFieldNames(props.fieldNames)); const listRef = ref(); let dragStartMousePosition = null; let dragNode: DragNodeEvent = null; const treeNodeRequiredProps = computed(() => { return { expandedKeys: expandedKeys.value || [], selectedKeys: selectedKeys.value || [], loadedKeys: loadedKeys.value || [], loadingKeys: loadingKeys.value || [], checkedKeys: checkedKeys.value || [], halfCheckedKeys: halfCheckedKeys.value || [], dragOverNodeKey: dragState.dragOverNodeKey, dropPosition: dragState.dropPosition, keyEntities: keyEntities.value, }; }); watchEffect(() => { if (treeData.value) { const entitiesMap = convertDataToEntities(treeData.value, { fieldNames: fieldNames.value }); keyEntities.value = { [MOTION_KEY]: MotionEntity, ...entitiesMap.keyEntities, }; } }); let init = false; // 处理 defaultXxxx api, 仅仅首次有效 onMounted(() => { init = true; }); // ================ expandedKeys ================= watchEffect(() => { let keys = expandedKeys.value; // ================ expandedKeys ================= if (props.expandedKeys !== undefined || (init && props.autoExpandParent)) { keys = props.autoExpandParent || (!init && props.defaultExpandParent) ? conductExpandParent(props.expandedKeys, keyEntities.value) : props.expandedKeys; } else if (!init && props.defaultExpandAll) { const cloneKeyEntities = { ...keyEntities.value }; delete cloneKeyEntities[MOTION_KEY]; keys = Object.keys(cloneKeyEntities).map(key => cloneKeyEntities[key].key); } else if (!init && props.defaultExpandedKeys) { keys = props.autoExpandParent || props.defaultExpandParent ? conductExpandParent(props.defaultExpandedKeys, keyEntities.value) : props.defaultExpandedKeys; } if (keys) { expandedKeys.value = keys; } }); // ================ flattenNodes ================= const flattenNodes = computed(() => { return flattenTreeData(treeData.value, expandedKeys.value, fieldNames.value); }); // ================ selectedKeys ================= watchEffect(() => { if (props.selectable) { if (props.selectedKeys !== undefined) { selectedKeys.value = calcSelectedKeys(props.selectedKeys, props); } else if (!init && props.defaultSelectedKeys) { selectedKeys.value = calcSelectedKeys(props.defaultSelectedKeys, props); } } }); // ================= checkedKeys ================= watchEffect(() => { if (props.checkable) { let checkedKeyEntity; if (props.checkedKeys !== undefined) { checkedKeyEntity = parseCheckedKeys(props.checkedKeys) || {}; } else if (!init && props.defaultCheckedKeys) { checkedKeyEntity = parseCheckedKeys(props.defaultCheckedKeys) || {}; } else if (treeData.value) { // If `treeData` changed, we also need check it checkedKeyEntity = parseCheckedKeys(props.checkedKeys) || { checkedKeys: checkedKeys.value, halfCheckedKeys: halfCheckedKeys.value, }; } if (checkedKeyEntity) { let { checkedKeys: newCheckedKeys = [], halfCheckedKeys: newHalfCheckedKeys = [] } = checkedKeyEntity; if (!props.checkStrictly) { const conductKeys = conductCheck(newCheckedKeys, true, keyEntities.value); ({ checkedKeys: newCheckedKeys, halfCheckedKeys: newHalfCheckedKeys } = conductKeys); } checkedKeys.value = newCheckedKeys; halfCheckedKeys.value = newHalfCheckedKeys; } } }); // ================= loadedKeys ================== watchEffect(() => { if (props.loadedKeys) { loadedKeys.value = props.loadedKeys; } }); const scrollTo: ScrollTo = scroll => { listRef.value.scrollTo(scroll); }; // =========================== Expanded =========================== /** Set uncontrolled `expandedKeys`. This will also auto update `flattenNodes`. */ const setExpandedKeys = (keys: Key[]) => { if (props.expandedKeys === undefined) { expandedKeys.value = keys; } }; const cleanDragState = () => { if (dragState.dragging) { Object.assign(dragState, { dragging: false, dropPosition: null, dropContainerKey: null, dropTargetKey: null, dropLevelOffset: null, dropAllowed: true, dragOverNodeKey: null, }); } dragStartMousePosition = null; }; // if onNodeDragEnd is called, onWindowDragEnd won't be called since stopPropagation() is called const onNodeDragEnd: NodeDragEventHandler = (event, node, outsideTree = false) => { const { onDragend } = props; dragState.dragOverNodeKey = null; cleanDragState(); if (onDragend && !outsideTree) { onDragend({ event, node: node.eventData.value }); } dragNode = null; }; // since stopPropagation() is called in treeNode // if onWindowDrag is called, whice means state is keeped, drag state should be cleared const onWindowDragEnd = event => { onNodeDragEnd(event, null, true); window.removeEventListener('dragend', onWindowDragEnd); }; const onNodeDragStart: NodeDragEventHandler = (event, node) => { const { onDragstart } = props; const { eventKey, eventData } = node; dragNode = node; dragStartMousePosition = { x: event.clientX, y: event.clientY, }; const newExpandedKeys = arrDel(expandedKeys.value, eventKey.value); dragState.dragging = true; dragState.dragChildrenKeys = getDragChildrenKeys(eventKey.value, keyEntities.value); indent.value = listRef.value.getIndentWidth(); setExpandedKeys(newExpandedKeys); window.addEventListener('dragend', onWindowDragEnd); if (onDragstart) { onDragstart({ event, node: eventData.value }); } }; /** * [Legacy] Select handler is smaller than node, * so that this will trigger when drag enter node or select handler. * This is a little tricky if customize css without padding. * Better for use mouse move event to refresh drag state. * But let's just keep it to avoid event trigger logic change. */ const onNodeDragEnter = (event: MouseEvent, node: DragNodeEvent) => { const { onDragenter, onExpand, allowDrop, direction } = props; const { dropPosition, dropLevelOffset, dropTargetKey, dropContainerKey, dropTargetPos, dropAllowed, dragOverNodeKey, } = calcDropPosition( event, dragNode, node, indent.value, dragStartMousePosition, allowDrop, flattenNodes.value, keyEntities.value, expandedKeys.value, direction, ); if ( !dragNode || // don't allow drop inside its children dragState.dragChildrenKeys.indexOf(dropTargetKey) !== -1 || // don't allow drop when drop is not allowed caculated by calcDropPosition !dropAllowed ) { Object.assign(dragState, { dragOverNodeKey: null, dropPosition: null, dropLevelOffset: null, dropTargetKey: null, dropContainerKey: null, dropTargetPos: null, dropAllowed: false, }); return; } // Side effect for delay drag if (!delayedDragEnterLogic) { delayedDragEnterLogic = {}; } Object.keys(delayedDragEnterLogic).forEach(key => { clearTimeout(delayedDragEnterLogic[key]); }); if (dragNode.eventKey.value !== node.eventKey.value) { // hoist expand logic here // since if logic is on the bottom // it will be blocked by abstract dragover node check // => if you dragenter from top, you mouse will still be consider as in the top node delayedDragEnterLogic[node.pos.value] = window.setTimeout(() => { if (!dragState.dragging) return; let newExpandedKeys = [...expandedKeys.value]; const entity = keyEntities.value[node.eventKey.value]; if (entity && (entity.children || []).length) { newExpandedKeys = arrAdd(expandedKeys.value, node.eventKey.value); } setExpandedKeys(newExpandedKeys); if (onExpand) { onExpand(newExpandedKeys, { node: node.eventData.value, expanded: true, nativeEvent: event, }); } }, 800); } // Skip if drag node is self if (dragNode.eventKey.value === dropTargetKey && dropLevelOffset === 0) { Object.assign(dragState, { dragOverNodeKey: null, dropPosition: null, dropLevelOffset: null, dropTargetKey: null, dropContainerKey: null, dropTargetPos: null, dropAllowed: false, }); return; } // Update drag over node and drag state Object.assign(dragState, { dragOverNodeKey, dropPosition, dropLevelOffset, dropTargetKey, dropContainerKey, dropTargetPos, dropAllowed, }); if (onDragenter) { onDragenter({ event, node: node.eventData.value, expandedKeys: expandedKeys.value, }); } }; const onNodeDragOver = (event: MouseEvent, node: DragNodeEvent) => { const { onDragover, allowDrop, direction } = props; const { dropPosition, dropLevelOffset, dropTargetKey, dropContainerKey, dropAllowed, dropTargetPos, dragOverNodeKey, } = calcDropPosition( event, dragNode, node, indent.value, dragStartMousePosition, allowDrop, flattenNodes.value, keyEntities.value, expandedKeys.value, direction, ); if (!dragNode || dragState.dragChildrenKeys.indexOf(dropTargetKey) !== -1 || !dropAllowed) { // don't allow drop inside its children // don't allow drop when drop is not allowed caculated by calcDropPosition return; } // Update drag position if (dragNode.eventKey.value === dropTargetKey && dropLevelOffset === 0) { if ( !( dragState.dropPosition === null && dragState.dropLevelOffset === null && dragState.dropTargetKey === null && dragState.dropContainerKey === null && dragState.dropTargetPos === null && dragState.dropAllowed === false && dragState.dragOverNodeKey === null ) ) { Object.assign(dragState, { dropPosition: null, dropLevelOffset: null, dropTargetKey: null, dropContainerKey: null, dropTargetPos: null, dropAllowed: false, dragOverNodeKey: null, }); } } else if ( !( dropPosition === dragState.dropPosition && dropLevelOffset === dragState.dropLevelOffset && dropTargetKey === dragState.dropTargetKey && dropContainerKey === dragState.dropContainerKey && dropTargetPos === dragState.dropTargetPos && dropAllowed === dragState.dropAllowed && dragOverNodeKey === dragState.dragOverNodeKey ) ) { Object.assign(dragState, { dropPosition, dropLevelOffset, dropTargetKey, dropContainerKey, dropTargetPos, dropAllowed, dragOverNodeKey, }); } if (onDragover) { onDragover({ event, node: node.eventData.value }); } }; const onNodeDragLeave: NodeDragEventHandler = (event, node) => { const { onDragleave } = props; if (onDragleave) { onDragleave({ event, node: node.eventData.value }); } }; const onNodeDrop = (event: MouseEvent, _node, outsideTree = false) => { const { dragChildrenKeys, dropPosition, dropTargetKey, dropTargetPos, dropAllowed } = dragState; if (!dropAllowed) return; const { onDrop } = props; dragState.dragOverNodeKey = null; cleanDragState(); if (dropTargetKey === null) return; const abstractDropNodeProps = { ...getTreeNodeProps(dropTargetKey, treeNodeRequiredProps.value), active: activeItem.value?.data.key === dropTargetKey, data: keyEntities.value[dropTargetKey].node, }; const dropToChild = dragChildrenKeys.indexOf(dropTargetKey) !== -1; warning( !dropToChild, "Can not drop to dragNode's children node. Maybe this is a bug of ant-design-vue. Please report an issue.", ); const posArr = posToArr(dropTargetPos); const dropResult = { event, node: convertNodePropsToEventData(abstractDropNodeProps), dragNode: dragNode ? dragNode.eventData.value : null, dragNodesKeys: [dragNode.eventKey.value].concat(dragChildrenKeys), dropToGap: dropPosition !== 0, dropPosition: dropPosition + Number(posArr[posArr.length - 1]), }; if (onDrop && !outsideTree) { onDrop(dropResult); } dragNode = null; }; const onNodeClick: NodeMouseEventHandler = (e, treeNode) => { const { onClick } = props; if (onClick) { onClick(e, treeNode); } }; const onNodeDoubleClick: NodeMouseEventHandler = (e, treeNode) => { const { onDblclick } = props; if (onDblclick) { onDblclick(e, treeNode); } }; const onNodeSelect: NodeMouseEventHandler = (e, treeNode) => { let newSelectedKeys = selectedKeys.value; const { onSelect, multiple } = props; const { selected } = treeNode; const key = treeNode[fieldNames.value.key]; const targetSelected = !selected; // Update selected keys if (!targetSelected) { newSelectedKeys = arrDel(newSelectedKeys, key); } else if (!multiple) { newSelectedKeys = [key]; } else { newSelectedKeys = arrAdd(newSelectedKeys, key); } // [Legacy] Not found related usage in doc or upper libs const selectedNodes = newSelectedKeys .map(selectedKey => { const entity = keyEntities.value[selectedKey]; if (!entity) return null; return entity.node; }) .filter(node => node); if (props.selectedKeys === undefined) { selectedKeys.value = newSelectedKeys; } if (onSelect) { onSelect(newSelectedKeys, { event: 'select', selected: targetSelected, node: treeNode, selectedNodes, nativeEvent: e, }); } }; const onNodeCheck = (e: MouseEvent, treeNode: EventDataNode, checked: boolean) => { const { checkStrictly, onCheck } = props; const { key } = treeNode; // Prepare trigger arguments let checkedObj; const eventObj: Partial = { event: 'check', node: treeNode, checked, nativeEvent: e, }; if (checkStrictly) { const newCheckedKeys = checked ? arrAdd(checkedKeys.value, key) : arrDel(checkedKeys.value, key); const newHalfCheckedKeys = arrDel(halfCheckedKeys.value, key); checkedObj = { checked: newCheckedKeys, halfChecked: newHalfCheckedKeys }; eventObj.checkedNodes = newCheckedKeys .map(checkedKey => keyEntities.value[checkedKey]) .filter(entity => entity) .map(entity => entity.node); if (props.checkedKeys === undefined) { checkedKeys.value = newCheckedKeys; } } else { // Always fill first let { checkedKeys: newCheckedKeys, halfCheckedKeys: newHalfCheckedKeys } = conductCheck( [...checkedKeys.value, key], true, keyEntities.value, ); // If remove, we do it again to correction if (!checked) { const keySet = new Set(newCheckedKeys); keySet.delete(key); ({ checkedKeys: newCheckedKeys, halfCheckedKeys: newHalfCheckedKeys } = conductCheck( Array.from(keySet), { checked: false, halfCheckedKeys: newHalfCheckedKeys }, keyEntities.value, )); } checkedObj = newCheckedKeys; // [Legacy] This is used for `rc-tree-select` eventObj.checkedNodes = []; eventObj.checkedNodesPositions = []; eventObj.halfCheckedKeys = newHalfCheckedKeys; console.log(eventObj); newCheckedKeys.forEach(checkedKey => { const entity = keyEntities.value[checkedKey]; if (!entity) return; const { node, pos } = entity; eventObj.checkedNodes.push(node); eventObj.checkedNodesPositions.push({ node, pos }); }); if (props.checkedKeys === undefined) { checkedKeys.value = newCheckedKeys; halfCheckedKeys.value = newHalfCheckedKeys; } } if (onCheck) { onCheck(checkedObj, eventObj as CheckInfo); } }; const onNodeLoad = (treeNode: EventDataNode) => new Promise((resolve, reject) => { // We need to get the latest state of loading/loaded keys const { loadData, onLoad } = props; const { key } = treeNode; if ( !loadData || loadedKeys.value.indexOf(key) !== -1 || loadingKeys.value.indexOf(key) !== -1 ) { return null; } // Process load data const promise = loadData(treeNode); promise .then(() => { const newLoadedKeys = arrAdd(loadedKeys.value, key); const newLoadingKeys = arrDel(loadingKeys.value, key); // onLoad should trigger before internal setState to avoid `loadData` trigger twice. // https://github.com/ant-design/ant-design/issues/12464 if (onLoad) { onLoad(newLoadedKeys, { event: 'load', node: treeNode, }); } if (props.loadedKeys === undefined) { loadedKeys.value = newLoadedKeys; } loadingKeys.value = newLoadingKeys; resolve(); }) .catch(e => { const newLoadingKeys = arrDel(loadingKeys.value, key); loadingKeys.value = newLoadingKeys; reject(e); }); loadingKeys.value = arrAdd(loadingKeys.value, key); }); const onNodeMouseEnter: NodeMouseEventHandler = (event, node) => { const { onMouseenter } = props; if (onMouseenter) { onMouseenter({ event, node }); } }; const onNodeMouseLeave: NodeMouseEventHandler = (event, node) => { const { onMouseleave } = props; if (onMouseleave) { onMouseleave({ event, node }); } }; const onNodeContextMenu: NodeMouseEventHandler = (event, node) => { const { onRightClick } = props; if (onRightClick) { event.preventDefault(); onRightClick({ event, node }); } }; const onFocus = (e: FocusEvent) => { const { onFocus } = props; focused.value = true; if (onFocus) { onFocus(e); } }; const onBlur = (e: FocusEvent) => { const { onBlur } = props; focused.value = false; onActiveChange(null); if (onBlur) { onBlur(e); } }; const onNodeExpand = (e: MouseEvent, treeNode: EventDataNode) => { let newExpandedKeys = expandedKeys.value; const { onExpand, loadData } = props; const { expanded } = treeNode; const key = treeNode[fieldNames.value.key]; // Do nothing when motion is in progress if (listChanging.value) { return; } // Update selected keys const index = newExpandedKeys.indexOf(key); const targetExpanded = !expanded; warning( (expanded && index !== -1) || (!expanded && index === -1), 'Expand state not sync with index check', ); if (targetExpanded) { newExpandedKeys = arrAdd(newExpandedKeys, key); } else { newExpandedKeys = arrDel(newExpandedKeys, key); } setExpandedKeys(newExpandedKeys); if (onExpand) { onExpand(newExpandedKeys, { node: treeNode, expanded: targetExpanded, nativeEvent: e, }); } // Async Load data if (targetExpanded && loadData) { const loadPromise = onNodeLoad(treeNode); if (loadPromise) { loadPromise .then(() => { // [Legacy] Refresh logic // const newFlattenTreeData = flattenTreeData( // treeData.value, // newExpandedKeys, // fieldNames.value, // ); // flattenNodes.value = newFlattenTreeData; }) .catch(e => { const expandedKeysToRestore = arrDel(expandedKeys.value, key); setExpandedKeys(expandedKeysToRestore); Promise.reject(e); }); } } }; const onListChangeStart = () => { listChanging.value = true; }; const onListChangeEnd = () => { setTimeout(() => { listChanging.value = false; }); }; // =========================== Keyboard =========================== const onActiveChange = (newActiveKey: Key) => { const { onActiveChange } = props; if (activeKey.value === newActiveKey) { return; } activeKey.value = newActiveKey; if (newActiveKey !== null) { scrollTo({ key: newActiveKey }); } if (onActiveChange) { onActiveChange(newActiveKey); } }; // const getActiveItem = () => { // if (activeKey.value === null) { // return null; // } // return flattenNodes.value.find(({ data: { key } }) => key === activeKey.value) || null; // }; const activeItem = computed(() => { if (activeKey.value === null) { return null; } return flattenNodes.value.find(({ data: { key } }) => key === activeKey.value) || null; }); const offsetActiveKey = (offset: number) => { let index = flattenNodes.value.findIndex(({ data: { key } }) => key === activeKey.value); // Align with index if (index === -1 && offset < 0) { index = flattenNodes.value.length; } index = (index + offset + flattenNodes.value.length) % flattenNodes.value.length; const item = flattenNodes.value[index]; if (item) { const { key } = item.data; onActiveChange(key); } else { onActiveChange(null); } }; const activeItemEventNode = computed(() => { return convertNodePropsToEventData({ ...getTreeNodeProps(activeKey.value, treeNodeRequiredProps.value), data: activeItem.value.data, active: true, }); }); const onKeyDown = event => { const { onKeyDown, checkable, selectable } = props; // >>>>>>>>>> Direction switch (event.which) { case KeyCode.UP: { offsetActiveKey(-1); event.preventDefault(); break; } case KeyCode.DOWN: { offsetActiveKey(1); event.preventDefault(); break; } } // >>>>>>>>>> Expand & Selection const item = activeItem.value; if (item && item.data) { const expandable = item.data.isLeaf === false || !!(item.data.children || []).length; const eventNode = activeItemEventNode.value; switch (event.which) { // >>> Expand case KeyCode.LEFT: { // Collapse if possible if (expandable && expandedKeys.value.includes(activeKey.value)) { onNodeExpand({} as MouseEvent, eventNode); } else if (item.parent) { onActiveChange(item.parent.data.key); } event.preventDefault(); break; } case KeyCode.RIGHT: { // Expand if possible if (expandable && !expandedKeys.value.includes(activeKey.value)) { onNodeExpand({} as MouseEvent, eventNode); } else if (item.children && item.children.length) { onActiveChange(item.children[0].data.key); } event.preventDefault(); break; } // Selection case KeyCode.ENTER: case KeyCode.SPACE: { if ( checkable && !eventNode.disabled && eventNode.checkable !== false && !eventNode.disableCheckbox ) { onNodeCheck( {} as MouseEvent, eventNode, !checkedKeys.value.includes(activeKey.value), ); } else if ( !checkable && selectable && !eventNode.disabled && eventNode.selectable !== false ) { onNodeSelect({} as MouseEvent, eventNode); } break; } } } if (onKeyDown) { onKeyDown(event); } }; expose({ onNodeExpand, }); onUnmounted(() => { window.removeEventListener('dragend', onWindowDragEnd); destroyed.value = true; }); return () => { const { // focused, // flattenNodes, // keyEntities, dragging, // activeKey, dropLevelOffset, dropContainerKey, dropTargetKey, dropPosition, dragOverNodeKey, // indent, } = dragState; const { prefixCls, showLine, focusable, tabindex = 0, selectable, showIcon, icon = slots.icon, switcherIcon, draggable, checkable, checkStrictly, disabled, openAnimation, loadData, filterTreeNode, height, itemHeight, virtual, dropIndicatorRender, onContextmenu, onScroll, direction, } = props; const { class: className, style } = attrs; const domProps = getDataAndAria({ ...props, ...attrs }); return (
); }; }, });