bee-table7/build/lib/bigData.js

666 lines
26 KiB
JavaScript
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
var _extends = Object.assign || function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; };
exports["default"] = bigData;
var _react = require("react");
var _react2 = _interopRequireDefault(_react);
var _propTypes = require("prop-types");
var _propTypes2 = _interopRequireDefault(_propTypes);
var _utils = require("./utils");
function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { "default": obj }; }
function _defaults(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults); for (var i = 0; i < keys.length; i++) { var key = keys[i]; var value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } } return obj; }
function _objectWithoutProperties(obj, keys) { var target = {}; for (var i in obj) { if (keys.indexOf(i) >= 0) continue; if (!Object.prototype.hasOwnProperty.call(obj, i)) continue; target[i] = obj[i]; } return target; }
function _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } }
function _possibleConstructorReturn(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); } return call && (typeof call === "object" || typeof call === "function") ? call : self; }
function _inherits(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); } subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } }); if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : _defaults(subClass, superClass); }
var defaultHeight = 30;
var rowDiff = 2; //行差值
var treeTypeIndex = 0;
function bigData(Table) {
var _class, _temp, _initialiseProps;
return _temp = _class = function (_Component) {
_inherits(BigData, _Component);
function BigData(props) {
_classCallCheck(this, BigData);
var _this2 = _possibleConstructorReturn(this, _Component.call(this, props));
_initialiseProps.call(_this2);
_this2.state = {
scrollLeft: 0,
scrollTop: 0
};
var rowHeight = _this2.props.height ? _this2.props.height : defaultHeight;
//默认显示25条rowsInView根据定高算的。在非固定高下这个只是一个大概的值。
var scrollY = _this2.props.scroll.y ? parseInt(_this2.props.scroll.y) : 0;
_this2.rowsInView = scrollY ? Math.floor(scrollY / rowHeight) : 20;
_this2.currentIndex = 0;
_this2.loadCount = props.loadBuffer ? _this2.rowsInView + props.loadBuffer * 2 : 26; //一次加载多少数据
_this2.cachedRowHeight = []; //缓存每行的高度
_this2.cachedRowParentIndex = [];
_this2.expandChildRowKeys = [];
_this2.firstLevelKey = [];
_this2.keys = [];
_this2.lastScrollTop = 0;
_this2.currentScrollTop = 0;
_this2.startIndex = _this2.currentIndex; //数据开始位置
_this2.endIndex = _this2.currentIndex + _this2.loadCount; //数据结束位置
_this2.setRowHeight = _this2.setRowHeight.bind(_this2);
_this2.setRowParentIndex = _this2.setRowParentIndex.bind(_this2);
_this2.expandedRowKeys = props.expandedRowKeys || [];
_this2.flatTreeKeysMap = {}; //树表,扁平结构数据的 Map 映射,方便获取各节点信息
_this2.flatTreeData = []; //深度遍历处理后的data数组
_this2.treeData = []; //树表的data数据
return _this2;
}
BigData.prototype.componentWillReceiveProps = function componentWillReceiveProps(nextProps) {
var props = this.props;
var currentIndex = nextProps.currentIndex,
newData = nextProps.data,
newExpandedKeys = nextProps.expandedRowKeys;
var _this = this,
dataLen = newData.length;
if (nextProps.scroll.y !== props.scroll.y) {
var rowHeight = nextProps.height ? nextProps.height : defaultHeight;
var scrollY = nextProps.scroll.y ? parseInt(nextProps.scroll.y) : 0;
_this.rowsInView = scrollY ? Math.floor(scrollY / rowHeight) : 20;
_this.loadCount = props.loadBuffer ? _this.rowsInView + props.loadBuffer * 2 : 26; //一次加载多少数据
_this.currentIndex = 0;
_this.startIndex = _this.currentIndex; //数据开始位置
_this.endIndex = _this.currentIndex + _this.loadCount; //数据结束位置
}
if ('data' in nextProps) {
var isTreeType = nextProps.isTree ? true : _this.checkIsTreeType(newData);
_this.treeType = isTreeType;
//fix: 滚动加载场景中,数据动态改变下占位计算错误的问题(26 Jun)
if (newData.toString() !== props.data.toString()) {
_this.cachedRowHeight = []; //缓存每行的高度
_this.cachedRowParentIndex = [];
_this.computeCachedRowParentIndex(newData);
// fix切换数据源startIndex、endIndex错误
if (_this.scrollTop <= 0) {
// 增加scrollTop 判断ncc场景下滚动条不在最上层 会出现空白因为重置了currentIndex没有重置滚动条
_this.currentIndex = 0;
_this.startIndex = _this.currentIndex; //数据开始位置
_this.endIndex = _this.currentIndex + _this.loadCount;
}
}
_this.treeData = [];
_this.flatTreeData = [];
if (newData.length > 0) {
_this.endIndex = _this.currentIndex - nextProps.loadBuffer + _this.loadCount; //数据结束位置
}
if (isTreeType) {
_this.getTreeData(newExpandedKeys, newData);
}
}
//如果传currentIndex会判断该条数据是否在可视区域如果没有的话则重新计算startIndex和endIndex
if (currentIndex != -1 && currentIndex !== this.currentIndex) {
_this.setStartAndEndIndex(currentIndex, dataLen);
}
};
BigData.prototype.componentWillMount = function componentWillMount() {
var _props = this.props,
data = _props.data,
isTree = _props.isTree;
var isTreeType = isTree ? true : this.checkIsTreeType();
//设置data中每个元素的parentIndex
this.computeCachedRowParentIndex(data);
//如果是树表递归data
if (isTreeType) {
this.treeType = isTreeType;
this.getTreeData();
}
};
/**
* 如果是树形表,需要对传入的 data 进行处理
* @param expandedKeys: nextProps 中传入的新 expandedRowKeys 属性值
* @param newData: nextProps 中传入的新 data 属性值
*/
/**
* 深度遍历树形 data把数据拍平变为一维数组
* @param {*} data
* @param {*} parentKey 标识父节点
*/
/**
* 将截取后的 List 数组转换为 Tree 结构,并更新 state
*/
/**
*设置data中每个元素的parentIndex
*
*/
BigData.prototype.setStartAndEndIndex = function setStartAndEndIndex(currentIndex, dataLen) {
var _this = this;
if (currentIndex > _this.currentIndex + _this.rowsInView) {
_this.currentIndex = currentIndex;
_this.endIndex = _this.currentIndex; //数据开始位置
_this.startIndex = _this.currentIndex - _this.loadCount; //数据结束位置
if (_this.endIndex > dataLen) {
_this.endIndex = dataLen;
}
if (_this.startIndex < 0) {
_this.startIndex = 0;
}
//重新设定scrollTop值
_this.scrollTop = _this.getSumHeight(0, _this.endIndex - _this.rowsInView + 2);
} else if (currentIndex < _this.currentIndex) {
_this.currentIndex = currentIndex;
_this.startIndex = currentIndex;
_this.endIndex = currentIndex + _this.loadCount;
if (_this.endIndex > dataLen) {
_this.endIndex = dataLen;
}
if (_this.startIndex < 0) {
_this.startIndex = 0;
}
//重新设定scrollTop值
_this.scrollTop = _this.getSumHeight(0, _this.startIndex);
}
};
BigData.prototype.getRowKey = function getRowKey(record, index) {
var rowKey = this.props.rowKey;
var key = typeof rowKey === "function" ? rowKey(record, index) : record[rowKey];
return key;
};
/**
*判断是否是树形结构
*
*/
BigData.prototype.checkIsTreeType = function checkIsTreeType(newData) {
var data = newData ? newData : this.props.data;
var rs = false;
var len = data.length > 30 ? 30 : data.length;
//取前三十个看看是否有children属性有则为树形结构
for (var i = 0; i < len; i++) {
if (data[i].children) {
rs = true;
break;
}
}
return rs;
};
BigData.prototype.getData = function getData(data, parentIndex) {
var _this3 = this;
data.forEach(function (subItem, subIndex) {
_this3.cachedRowParentIndex[treeTypeIndex] = parentIndex;
_this3.keys[treeTypeIndex] = _this3.getRowKey(subItem, subIndex);
treeTypeIndex++;
if (subItem.children) {
_this3.getData(subItem.children, parentIndex);
}
});
};
BigData.prototype.componentWillUnmount = function componentWillUnmount() {
this.cachedRowHeight = [];
this.cachedRowParentIndex = [];
};
/**
*获取数据区高度
*
*
**/
BigData.prototype.getContentHeight = function getContentHeight() {
if (!this.props.data) return 0;
return this.getSumHeight(0, this.props.data.length);
};
BigData.prototype.getSumHeight = function getSumHeight(start, end) {
var height = this.props.height;
var rowHeight = height ? height : defaultHeight;
var sumHeight = 0,
currentKey = void 0,
currentRowHeight = rowHeight;
for (var i = start; i < end; i++) {
if (this.cachedRowHeight[i] == undefined) {
if (this.treeType) {
// currentKey = this.keys[i];
currentKey = this.flatTreeData[i] && this.flatTreeData[i].key;
currentRowHeight = 0;
if (this.flatTreeKeysMap.hasOwnProperty(currentKey)) {
currentRowHeight = rowHeight;
}
}
sumHeight += currentRowHeight;
} else {
sumHeight += this.cachedRowHeight[i];
}
}
return sumHeight;
};
/**
*@description 根据返回的scrollTop计算当前的索引。此处做了两次缓存一个是根据上一次的currentIndex计算当前currentIndex。另一个是根据当前内容区的数据是否在缓存中如果在则不重新render页面
*@param 最新一次滚动的scrollTop
*@param treeType是否是树状表
*@param callback表体滚动过程中触发的回调
*/
BigData.prototype.setRowHeight = function setRowHeight(height, index) {
this.cachedRowHeight[index] = height;
};
BigData.prototype.setRowParentIndex = function setRowParentIndex(parentIndex, index) {}
// this.cachedRowParentIndex[index] = parentIndex;
/**
*
*根据当前行号获取该行的父节点行号
* @param {*} currentIndex 当前行号
*/
;
BigData.prototype.getParentIndex = function getParentIndex(targetIndex) {
var data = this.props.data;
var parentIndex = -1;
parentIndex = this.getIndex(data, -1, targetIndex);
if (parentIndex < 0) {
//小于0说明没有展开的子节点
parentIndex = targetIndex;
}
return parentIndex;
};
BigData.prototype.getIndex = function getIndex(data, index, targetIndex) {
var parentIndex = index;
for (var i = 0; i < data.length; i++) {
index++;
if (targetIndex <= index) {
break;
}
if (data[i].children) {
this.getIndex(data[i].children, index, targetIndex);
}
}
return parentIndex;
};
BigData.prototype.render = function render() {
var data = this.props.data;
var scrollTop = this.scrollTop;
var endIndex = this.endIndex,
startIndex = this.startIndex,
treeData = this.treeData,
treeType = this.treeType,
flatTreeData = this.flatTreeData;
var expandedRowKeys = this.props.expandedRowKeys ? this.props.expandedRowKeys : this.expandedRowKeys;
if (startIndex < 0) {
startIndex = 0;
}
if (endIndex < 0) {
endIndex = 0;
}
if (treeType && endIndex > flatTreeData.length || !treeType && endIndex > data.length) {
endIndex = treeType ? flatTreeData.length : data.length;
}
var lazyLoad = {
startIndex: startIndex,
endIndex: endIndex,
startParentIndex: startIndex //为树状节点做准备
};
if (treeType) {
lazyLoad.preHeight = this.getSumHeight(0, startIndex);
lazyLoad.sufHeight = this.getSumHeight(endIndex, flatTreeData.length);
} else {
lazyLoad.preHeight = this.getSumHeight(0, startIndex);
lazyLoad.sufHeight = this.getSumHeight(endIndex, data.length);
}
// console.log('*******expandedRowKeys*****'+expandedRowKeys);
var dataSource = treeType && Array.isArray(treeData) && treeData.length > 0 ? treeData : data.slice(startIndex, endIndex);
return _react2["default"].createElement(Table, _extends({}, this.props, {
data: dataSource,
lazyLoad: lazyLoad,
handleScrollY: this.handleScrollY,
scrollTop: scrollTop,
setRowHeight: this.setRowHeight,
setRowParentIndex: this.setRowParentIndex,
onExpand: this.onExpand,
onExpandedRowsChange: this.props.onExpandedRowsChange,
expandedRowKeys: expandedRowKeys
// className={'lazy-table'}
}));
};
return BigData;
}(_react.Component), _class.defaultProps = {
data: [],
loadBuffer: 5,
rowKey: "key",
onExpand: function onExpand() {},
scroll: {},
currentIndex: -1,
isTree: false
}, _class.propTypes = {
loadBuffer: _propTypes2["default"].number
}, _initialiseProps = function _initialiseProps() {
var _this4 = this;
this.getTreeData = function (expandedKeys, newData) {
var startIndex = _this4.startIndex,
endIndex = _this4.endIndex;
var data = newData ? newData : _this4.props.data;
_this4.cacheExpandedKeys = expandedKeys && new Set(expandedKeys);
// 深递归 data截取可视区 data 数组,再将扁平结构转换成嵌套结构
var sliceTreeList = [];
var flatTreeData = _this4.deepTraversal(data);
_this4.flatTreeData = flatTreeData;
sliceTreeList = flatTreeData.slice(startIndex, endIndex);
_this4.handleTreeListChange(sliceTreeList);
_this4.cacheExpandedKeys = expandedKeys && null;
};
this.deepTraversal = function (treeData) {
var parentKey = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : null;
var _this = _this4;
var cacheExpandedKeys = _this.cacheExpandedKeys,
_this$expandedRowKeys = _this.expandedRowKeys,
expandedRowKeys = _this$expandedRowKeys === undefined ? [] : _this$expandedRowKeys,
flatTreeKeysMap = _this.flatTreeKeysMap,
expandedKeysSet = cacheExpandedKeys ? cacheExpandedKeys : new Set(expandedRowKeys),
flatTreeData = [],
dataCopy = treeData;
if (Array.isArray(dataCopy)) {
for (var i = 0, l = dataCopy.length; i < l; i++) {
var _dataCopy$i = dataCopy[i],
children = _dataCopy$i.children,
props = _objectWithoutProperties(_dataCopy$i, ["children"]),
key = _this4.getRowKey(dataCopy[i], i),
dataCopyI = new Object(),
_isLeaf = children && children.length > 0 ? false : true,
isExpanded = parentKey === null || expandedKeysSet.has(parentKey) ? expandedKeysSet.has(key) : false;
dataCopyI = _extends(dataCopyI, {
key: key,
isExpanded: isExpanded,
parentKey: parentKey,
_isLeaf: _isLeaf,
index: flatTreeData.length
}, _extends({}, props));
flatTreeData.push(dataCopyI); // 取每项数据放入一个新数组
flatTreeKeysMap[key] = dataCopyI;
// 优化递归逻辑,如果当前节点是收起状态,则不遍历其子节点
if (Array.isArray(children) && children.length > 0 && isExpanded) {
flatTreeData = flatTreeData.concat(_this4.deepTraversal(children, key));
}
}
}
return flatTreeData;
};
this.handleTreeListChange = function (treeList, startIndex, endIndex) {
// 属性配置设置
var attr = {
id: 'key',
parendId: 'parentKey',
rootId: null,
_isLeaf: '_isLeaf'
};
var treeData = (0, _utils.convertListToTree)(treeList, attr, _this4.flatTreeKeysMap);
_this4.startIndex = typeof startIndex !== "undefined" ? startIndex : _this4.startIndex;
_this4.endIndex = typeof endIndex !== "undefined" ? endIndex : _this4.endIndex;
_this4.treeData = treeData;
};
this.computeCachedRowParentIndex = function (data) {
var isTree = _this4.props.isTree;
var isTreeType = isTree ? true : _this4.checkIsTreeType();
treeTypeIndex = 0;
if (isTreeType) {
data.forEach(function (item, index) {
_this4.firstLevelKey[index] = _this4.getRowKey(item, index);
_this4.cachedRowParentIndex[treeTypeIndex] = index;
//保存所有的keys跟小标对应起来
_this4.keys[treeTypeIndex] = _this4.getRowKey(item, index);
treeTypeIndex++;
if (item.children) {
_this4.getData(item.children, index);
}
});
}
};
this.handleScrollY = function (nextScrollTop, treeType, callback) {
//树表逻辑
// 关键点是动态的获取startIndex和endIndex
// 法子一子节点也看成普通tr最开始需要设置一共有多少行哪行显示哪行不显示如何确定
// 动态取start = current+buffer对应的父节点、end = start+loadCount+row的height为0的行数 展开节点的下一个节点作为end值
var _this = _this4;
var _this$props = _this.props,
data = _this$props.data,
height = _this$props.height,
_this$props$scroll = _this$props.scroll,
scroll = _this$props$scroll === undefined ? {} : _this$props$scroll,
loadBuffer = _this$props.loadBuffer;
var rowHeight = height ? height : defaultHeight;
var _this$currentIndex = _this.currentIndex,
currentIndex = _this$currentIndex === undefined ? 0 : _this$currentIndex,
loadCount = _this.loadCount,
scrollTop = _this.scrollTop,
currentScrollTop = _this.currentScrollTop,
flatTreeData = _this.flatTreeData;
var endIndex = _this.endIndex,
startIndex = _this.startIndex;
var needRender = _this.state.needRender;
_this.scrollTop = nextScrollTop;
var viewHeight = parseInt(scroll.y);
_this.treeType = treeType;
var index = 0;
var temp = nextScrollTop;
var currentKey = void 0;
while (temp > 0) {
var currentRowHeight = _this4.cachedRowHeight[index];
if (currentRowHeight === undefined) {
if (_this4.treeType) {
// currentKey = this.keys[index];
currentKey = _this4.flatTreeData[index].key;
currentRowHeight = 0;
if (_this4.flatTreeKeysMap.hasOwnProperty(currentKey)) {
currentRowHeight = rowHeight;
}
} else {
currentRowHeight = rowHeight;
}
}
temp -= currentRowHeight;
if (temp > 0) {
index += 1;
}
}
// console.log('currentIndex****',index);
var isOrder = index - currentIndex > 0 ? true : false;
if (index < 0) index = 0;
//如果之前的索引和下一次的不一样则重置索引和滚动的位置
if (currentIndex !== index) {
_this.currentIndex = index;
var rowsInView = 0; //可视区域显示多少行
var rowsHeight = 0; //可视区域内容高度
var tempIndex = index;
//如果可视区域中需要展示的数据已经在缓存中则不重现render。
if (viewHeight) {
//有时滚动过快时this.cachedRowHeight[rowsInView + index]为undifined
while (rowsHeight < viewHeight && tempIndex < _this4.cachedRowHeight.length) {
if (_this4.cachedRowHeight[tempIndex]) {
rowsHeight += _this4.cachedRowHeight[tempIndex];
// if (
// (treeType &&
// _this.cachedRowParentIndex[tempIndex] !== tempIndex) ||
// !treeType
// ) {
rowsInView++;
// }
}
tempIndex++;
}
// if (treeType) {
// const treeIndex = index;
// index = _this.cachedRowParentIndex[treeIndex];
// if (index === undefined) {
// // console.log('index is undefined********'+treeIndex);
// index = this.getParentIndex(treeIndex);
// // console.log("getParentIndex****"+index);
// }
// }
// console.log('parentIndex*********',index);
// 如果rowsInView 小于 缓存的数据则重新render
// 向下滚动 下临界值超出缓存的endIndex则重新渲染
if (rowsInView + index > endIndex - rowDiff && isOrder) {
startIndex = index - loadBuffer > 0 ? index - loadBuffer : 0;
// endIndex = startIndex + rowsInView + loadBuffer*2;
endIndex = startIndex + loadCount;
if (treeType && endIndex > flatTreeData.length || !treeType && endIndex > data.length) {
endIndex = treeType ? flatTreeData.length : data.length;
}
if (endIndex > _this4.endIndex) {
_this4.startIndex = startIndex;
_this4.endIndex = endIndex;
if (treeType) {
_this4.handleTreeListChange(flatTreeData.slice(startIndex, endIndex), startIndex, endIndex);
}
_this4.setState({ needRender: !needRender });
callback(parseInt(currentIndex + rowsInView));
}
}
// 向上滚动当前的index是否已经加载currentIndex若干上临界值小于startIndex则重新渲染
if (!isOrder && index < startIndex + rowDiff) {
startIndex = index - loadBuffer;
if (startIndex < 0) {
startIndex = 0;
}
if (startIndex < _this4.startIndex) {
_this4.startIndex = startIndex;
_this4.endIndex = _this4.startIndex + loadCount;
if (treeType) {
_this4.handleTreeListChange(flatTreeData.slice(startIndex, _this4.endIndex), startIndex, _this4.endIndex);
}
_this4.setState({ needRender: !needRender });
callback(parseInt(currentIndex + rowsInView));
}
// console.log(
// "**index**" + index,
// "**startIndex**" + this.startIndex,
// "**endIndex**" + this.endIndex
// );
}
}
}
};
this.onExpand = function (expandState, record, index) {
var _this = _this4;
var _this$expandedRowKeys2 = _this.expandedRowKeys,
expandedRowKeys = _this$expandedRowKeys2 === undefined ? [] : _this$expandedRowKeys2;
var needRender = _this.state.needRender;
var data = _this.props.data;
var rowKey = _this.getRowKey(record, index);
// 记录展开子表行的key
// 展开
if (record.children) {
if (expandState) {
record.children.forEach(function (item, index) {
_this.expandChildRowKeys.push(rowKey);
});
} else {
// 收起
record.children.forEach(function (item, index) {
_this.expandChildRowKeys.splice(_this.expandChildRowKeys.findIndex(function (fitem) {
return fitem.key === item.key;
}), 1);
});
}
}
//滚动加载expandedRowKeys自己维护否则有展开不全的问题
if (!_this.props.expandedRowKeys) {
if (expandState) {
expandedRowKeys.push(rowKey);
_this4.setState({ needRender: !needRender });
} else {
var _index = -1;
expandedRowKeys.forEach(function (r, i) {
if (r === rowKey) {
_index = i;
}
});
if (_index !== -1) {
expandedRowKeys.splice(_index, 1);
_this4.setState({ needRender: !needRender });
}
}
}
// expandState为true时记录下
_this.props.onExpand(expandState, record);
if (_this4.treeType) {
//收起和展开时,缓存 expandedKeys
_this.cacheExpandedKeys = new Set(expandedRowKeys);
//重新递归数据
var flatTreeData = _this.deepTraversal(data);
var sliceTreeList = flatTreeData.slice(_this.startIndex, _this.endIndex);
_this.flatTreeData = flatTreeData;
_this.handleTreeListChange(sliceTreeList);
_this.cacheExpandedKeys = null;
}
};
}, _temp;
}
module.exports = exports["default"];