我在morningstar的第一项工作,就是构建一个带分栏表头的grid表格。上面的表格中,第一行是父栏,第二行是子栏,第三行开始才是数据。而在table中还要实现这样的表头,还是有点麻烦的。
为了构建这种有父子栏的表头,我想到把表格头部的数据转化为按照table tr td的排列顺序,利用td的colspan, rowspan来进行分割的原理,构建一个按行分开的数据结果,利用这个数据结果按照table的加载顺序,一个一个td进行渲染。
而我们拿到的原始数据往往是像下面这样的:
[ {"id":"a2","pid":"","name":"Name",type:"tree",align:"left","dataType":"VARCHAR"}, {"id":"a3","pid":"","name":"Ticker",type:"ro",align:"left","dataType":"VARCHAR"}, {"id":"a4","pid":"","name":"Inception Date",type:"ro",align:"left","dataType":"VARCHAR"}, {"id":"a5","pid":"","name":"Expense Ratios"}, {"id":"b1","pid":"a5","name":"Gross expense ratio",type:"ro",align:"left","dataType":"VARCHAR"}, {"id":"b2","pid":"a5","name":"Net expense ratio",type:"ro",align:"left","dataType":"VARCHAR"}, {"id":"b3","pid":"a5","name":"Contractual waiver through",type:"ro",align:"left","dataType":"VARCHAR"}, {"id":"a6","pid":"","name":"Average annual return [%]"}, {"id":"c1","pid":"a6","name":"Lastest week as of 02/11/2011"}, {"id":"d1","pid":"c1","name":"YTD",type:"ro",align:"left","dataType":"INT"}, {"id":"d2","pid":"c1","name":"1-Year",type:"ro",align:"left","dataType":"INT"}, {"id":"d3","pid":"c1","name":"3-Year",type:"ro",align:"left","dataType":"INT"}, {"id":"d4","pid":"c1","name":"5-Year",type:"ro",align:"left","dataType":"INT"}, {"id":"d5","pid":"c1","name":"10-Year",type:"ro",align:"left","dataType":"INT"}, {"id":"d6","pid":"c1","name":"Since Inception",type:"ro",align:"left","dataType":"INT"}, {"id":"c2","pid":"a6","name":"Lastest quarter as of 12/31/2010 [unadjusted]"}, {"id":"e1","pid":"c2","name":"YTD",type:"ro",align:"left","dataType":"INT"}, {"id":"e2","pid":"c2","name":"1-Year",type:"ro",align:"left","dataType":"INT"}, {"id":"e3","pid":"c2","name":"3-Year",type:"ro",align:"left","dataType":"INT"}, {"id":"e4","pid":"c2","name":"5-Year",type:"ro",align:"left","dataType":"INT"}, {"id":"e5","pid":"c2","name":"10-Year",type:"ro",align:"left","dataType":"INT"}, {"id":"e6","pid":"c2","name":"Since Inception",type:"ro",align:"left","dataType":"INT"}, {"id":"c3","pid":"a6","name":"Lastest week as of 02/11/2011 [adjusted]"}, {"id":"f1","pid":"c3","name":"YTD",type:"ro",align:"left","dataType":"INT"}, {"id":"f2","pid":"c3","name":"1-Year",type:"ro",align:"left","dataType":"INT"}, {"id":"f3","pid":"c3","name":"3-Year",type:"ro",align:"left","dataType":"INT"}, {"id":"f4","pid":"c3","name":"5-Year",type:"ro",align:"left","dataType":"INT"}, {"id":"f5","pid":"c3","name":"10-Year",type:"ro",align:"left","dataType":"INT"}, {"id":"f6","pid":"c3","name":"Since Inception",type:"ro",align:"left","dataType":"INT"}, {"id":"a7","pid":"","name":"Last return [%]",type:"ro",align:"left","dataType":"VARCHAR"} ]
我这里为了让每条数据之间的父子关系清晰一点,把子栏目的数据都堆到了父栏目下面。但是实际上,我们拿到的数据也应该按照这个顺序进行排列,否则你怎么确定父栏目与父栏目之间的顺序,子栏目与子栏目之间的顺序。当然,如果更加理想化,我们可以增加一个order/sort字段,用来保存排列顺序,并可以通过这个字段进行数组元素的排序计算,这样就不怕给的原始数据是随机排序的了。但是,我们本文仍然把这种情况排除,我们假设data api返回的数据就是上面这样的,已经确定好顺序了。
下面就是我进行处理的javascript代码,需要在node下运算,或者改写成可以在浏览器下运行的函数。
'use strtic'; require('jquery'); module.exports = function (origin) { // deep copy origin data, and origin data will not be change var data = $.extend([],origin); var origin = {}; for(var i = 0,len = data.length;i < len;i ++) { var item = data[i]; item.children = []; item.level = 1; origin[item.id] = item;// change data to key=>value } /* * build table tr * find item children * find item level */ var _nodes_ = []; // add child to parent's children for(var i = 0,len = data.length;i < len;i ++) { var item = data[i]; if(item.pid != "") { origin[item.pid].children.push(item.id); } } function pushEndNodeToAncestors(item) { var id = item.id; var pid = item.pid; if(pid == "" && item.children.length == 0) { // only one level (top) item return; } while(pid != "") { if(!_nodes_[pid]) _nodes_[pid] = []; if(_nodes_[pid].indexOf(id) < 0) _nodes_[pid].push(id); item = origin[pid]; pid = item.pid; } } function pushLevelOfAncestors(item) { var level = 1; while(true) { if(level > item.level) { // if this item is the same parent of different children item.level = level; } if(level > headerRowsTotalCount) { headerRowsTotalCount = level; } if(item.pid == "") { break; } item = origin[item.pid]; level ++; } } var headerRowsTotalCount = 1; for(var i = 0,len = data.length,index = 0;i < len;i ++) { var item = data[i]; if(item.children.length == 0) { // end nodes item.index = index; index ++; pushEndNodeToAncestors(item); pushLevelOfAncestors(item); // get headerRowsTotalCount at the same time } } var headerRows = new Array(headerRowsTotalCount); for(var i = 0,len = data.length;i < len;i ++) { var item = data[i]; var nodes = _nodes_[item.id]; // kids item.kids = item.children ? item.children.join(',') : ""; // (end)nodes item.nodes = nodes ? nodes.join(',') : ""; // colspan var colspan = 1; if(nodes) { colspan = nodes.length; } item.colspan = colspan; // rowspan var rowspan = 1; if(item.pid == "") { rowspan = 1 + (headerRowsTotalCount - item.level); // roots rowspan } else { rowspan = origin[item.pid].level - item.level; } item.rowspan = rowspan; // push item into table tr row var row = headerRowsTotalCount - (item.level + item.rowspan - 1); if(!headerRows[row]) headerRows[row] = []; headerRows[row].push(item); } return headerRows; }
完成上面的运算之后,实际上,我们得到的是一个3xn的数组,数组整体上有三个元素,每个元素都是一个数组,而这个数组中存放的,就是每一行tr内应该显示的td相关信息。接下来,我们把这个数据结果赋值给data,并在页面内进行table的构建:
var td = '<td colspan="{%s}" rowspan="{%s}" align="{%s}" data-id="{%s}" data-pid="{%s}" data-kids="{%s}" data-nodes="{%s}" data-index="{%s}" title="{%s}" class="header-cell"><div class="header-name">{%s}</div></td>'; var table = ''; for(var i = 0,len = data.length;i < len;i ++) { var rowItems = data[i]; table += '<tr>'; for(var c = 0,leng = rowItems.length;c < leng;c ++) { var item = rowItems[c]; table += sprintf(td,item.colspan,item.rowspan,item.align,item.id,item.pid,item.kids,item.nodes,item.index,item.name,item.name); } table += '</tr>'; }
sprintf是我自己写的一个函数,用来实现和c语言中sprintf一样的功能(只能替换{%s}),你也可以自己写过。这样,就可以在页面内构建能够分栏的tr行了,把它们插入到你需要显示的地方即可。
2016-07-26 2735