一、基本思路
1、先看最终的效果图:
![](https://img.laitimes.com/img/9ZDMuAjOiMmIsIjOiQnIsISM9AnYldnJwAzN9c3PnBnauQ0MlM2RjFXN55keZR0TzEEVNVTVU1EdZRkTwEFVNBTQE9EenRVTyEEVPhXQq1EdRR1T5VFROJDOp50drRVT3lkeMBzaq1UMRpmT2NmMiNnSywEd5ITW110MaZHetlVdO1GT0UERNl3YXJGc5kHT20ESjBjUIF2Lc12bj5SYphXa5VWen5WY35iclN3Ztl2Lc9CX6MHc0RHaiojIsJye.jpg)
2、实现原理:通过position:absolute(绝对定位)来定位每一个元素的位置,并且将当前列的高度记录下来方便下一个dom位置的计算
二、代码实现
1、版本一:根据思路实现基础版
<!DOCTYPE html>
<html>
<head>
<meta charset="UTF-8">
<title>css布局-瀑布流的实现</title>
<style type="text/css">
.box {
position: relative;
width: 500px;
min-height: 100px;
margin: 100px auto;
background: #eeeeee;
}
.item {
position: absolute;
width: 120px;
left: 0;
top: 0;
}
</style>
</head>
<body>
<div class="box">
<div class="item" style="height: 40px;background: red;"></div>
<div class="item" style="height: 50px;background: blue;"></div>
<div class="item" style="height: 100px;background: green;"></div>
<div class="item" style="height: 60px;background: gray;"></div>
<div class="item" style="height: 50px;background: orange;"></div>
<div class="item" style="height: 20px;background: yellow;"></div>
<div class="item" style="height: 40px;background: red;"></div>
<div class="item" style="height: 50px;background: blue;"></div>
<div class="item" style="height: 100px;background: green;"></div>
<div class="item" style="height: 120px;background: gray;"></div>
<div class="item" style="height: 58px;background: orange;"></div>
<div class="item" style="height: 36px;background: yellow;"></div>
</div>
<script type="text/javascript">
const BOX_WIDTH = document.querySelector('.box').offsetWidth //瀑布流外层盒子的宽度
const ITEM_WIDTH = document.querySelector('.item').offsetWidth //瀑布流内层盒子的宽度
const COLUMN = Math.floor(BOX_WIDTH/ITEM_WIDTH) //根据宽度计算可渲染的列数
const MARGIN = (BOX_WIDTH - ITEM_WIDTH*COLUMN)/(COLUMN-1) // 根据宽度计算每一列的间距
const MARGINTOP = 10 //固定设置每一个小盒子上下间距是10
let height_arr = new Array(COLUMN).fill(0) //定义一个长度等同与列数的数组用来存储每一列的高度,初始值均为0
let item = document.querySelectorAll('.item')
//遍历每一个小盒子,确定小盒子的位置
for(let i = 0; i < item.length; i++) {
let index = height_arr.indexOf(Math.min.apply(null, height_arr))
item[i].style.left = (ITEM_WIDTH + MARGIN) * index + 'px'
item[i].style.top = height_arr[index] + MARGINTOP + 'px'
height_arr[index] += item[i].offsetHeight + MARGINTOP
}
//将数组中最大的值,即最高的那一列的高度赋给外层盒子
document.querySelector('.box').style.height = Math.max.apply(null, height_arr) + 'px'
</script>
</body>
</html>
2、版本二:对版本一进行封装,方便重复使用
<!DOCTYPE html>
<html>
<head>
<meta charset="UTF-8">
<title>css布局-瀑布流的实现</title>
<style type="text/css">
.box {
position: relative;
width: 500px;
min-height: 100px;
margin: 100px auto;
background: #eeeeee;
}
.item {
position: absolute;
width: 120px;
left: 0;
top: 0;
}
</style>
</head>
<body>
<div class="box" style="">
<div class="item" style="height: 40px;background: red;"></div>
<div class="item" style="height: 50px;background: blue;"></div>
<div class="item" style="height: 100px;background: green;"></div>
<div class="item" style="height: 60px;background: gray;"></div>
<div class="item" style="height: 50px;background: orange;"></div>
<div class="item" style="height: 20px;background: yellow;"></div>
<div class="item" style="height: 40px;background: red;"></div>
<div class="item" style="height: 50px;background: blue;"></div>
<div class="item" style="height: 100px;background: green;"></div>
<div class="item" style="height: 120px;background: gray;"></div>
<div class="item" style="height: 58px;background: orange;"></div>
<div class="item" style="height: 36px;background: yellow;"></div>
</div>
<script type="text/javascript">
function WaterFall(params) {
this.box = (params && params.parent) || '.box'
this.item = (params && params.child) || '.item'
this.column = (params && params.column) || 0
this.row_margin = (params && params.row_margin) || 0
this.column_margin = (params && params.column_margin) || 10
this.height_arr = []
this._box_width = 0
this._item_width = 0
this._computed = function() {
this._box_width = document.querySelector(this.box).offsetWidth
this._item_width = document.querySelector(this.item).offsetWidth
this.column = Math.floor((this._box_width - this.row_margin)/this._item_width) //列数
this.row_margin = !this.row_margin ? (this._box_width - this._item_width * this.column)/(this.column-1) : this.row_margin
}
this.init = function() {
this._computed()
let item = document.querySelectorAll(this.item)
this.height_arr = new Array(this.column).fill(0)
for(let i = 0; i < item.length; i++) {
let index = this.height_arr.indexOf(Math.min.apply(null, this.height_arr))
item[i].style.left = (this._item_width + this.row_margin) * index + 'px'
item[i].style.top = this.height_arr[index] + this.column_margin + 'px'
this.height_arr[index] += item[i].offsetHeight + this.column_margin
}
document.querySelector('.box').style.height = Math.max.apply(null, this.height_arr) + 'px'
}
}
var test = new WaterFall()
test.init()
</script>
</body>
</html>
三、总结:瀑布流的实现并不复杂,只要清楚了原理剩下的就是耐心的计算间距以及小盒子的位置啦~
posted on 2019-06-18 18:31 天株 阅读(...) 评论(...) 编辑 收藏