我要评论1.3d柱状图
原理:
立体图形从一个方向只能看到三个面,于是我们通过echarts图表实现 顶部,明面,和暗面。
效果图如下:
需要四份数据,两个柱子的数据+x轴数据+颜色数据,
通过setdata和setcolor生成需要的数据,横向柱状图同理,参照代码中注释。
以下是完整案例代码:
<!doctype html>
<html>
<head>
<meta charset="utf8"></meta>
<script src="https://cdnjs.cloudflare.com/ajax/libs/echarts/5.4.2/echarts.min.js"></script>
</head>
<style>
* {
margin: 0;
padding: 0;
box-sizing: border-box;
}
.border {
border: 1px solid #000;
}
.left {
width: 25%;
height: 100%;
margin: 0 auto;
}
</style>
<body>
<div class="left border">
<div id="litibar1" style="width:100%;height:400px;background-color: #000;"></div>
</div>
</body>
<script type="text/javascript">
//组织数据
let setdata = function(data, constdata, showdata) {
data.filter(function(item) {
if (item) {
constdata.push(1);
showdata.push(item);
} else {
constdata.push(0);
showdata.push({
value: 1,
itemstyle: {
normal: {
bordercolor: "rgba(0,0,0,0)",
borderwidth: 2,
color: "rgba(0,0,0,0)",
},
},
});
}
});
}
//组织颜色
let setcolor = function(colorarr) {
let color = {
type: "linear",
x: 0,
x2: 1,
y: 0,
y2: 0,
/* 此处决定阴暗面 若为横向柱状图则x,y轴调换
x: 0,
x2: 0,
y: 0,
y2: 1, */
colorstops: [{
offset: 0,
color: colorarr[0],
},
{
offset: 0.5,
color: colorarr[0],
},
{
offset: 0.5,
color: colorarr[1],
},
{
offset: 1,
color: colorarr[1],
},
],
};
return color
}
var vehicle = [45, 25, 48, 62, 35]
var controlball = [23, 12, 52, 14, 9]
var barwidth = 30;
var constdata1 = [];
var showdata1 = [];
var constdata2 = [];
var showdata2 = [];
setdata(vehicle, constdata1, showdata1)
setdata(controlball, constdata2, showdata2)
var colorarr1 = ["#345a8b", "#387abd", "#51c0db"];
var colorarr2 = ["#51c0db", "#42d9d6", "#45f5f1"];
var color1 = setcolor(colorarr1)
var color2 = setcolor(colorarr2)
var option = {
tooltip: {
trigger: 'axis',
axispointer: {
type: 'shadow'
}
},
legend: {
show: false
},
grid: {
top: '15%',
bottom: '15%'
},
xaxis: {
type: 'category',
axislabel: {
color: '#ffffff'
},
axisline: {
show: true,
linestyle: {
color: '#1b3f66'
}
},
axistick: {
show: false
},
data: ['合肥', '安庆', '芜湖', '南京', '杭州']
},
yaxis: {
type: 'value',
axislabel: {
color: '#ffffff'
},
axisline: {
show: true,
linestyle: {
color: '#1b3f66'
}
},
splitline: {
linestyle: {
color: '#1b3f66'
}
}
},
series: [{
z: 1,
type: 'bar',
name: '柱子1',
bargap: "15%", //相邻柱子间距
itemstyle: {
borderradius: [0, 0, 0, 0],//柱子四周圆角
color: color1//柱子左右颜色(深,浅)
},
data: vehicle //y轴上的高度
},
// ---------------------------------------------
{
z: 2,
name: '柱子1',
type: "pictorialbar",
data: constdata1,//此数据对应底部组件
symbol: "diamond",//底部组件形状,不写默认为椭圆
symboloffset: ["-58%", "50%"],//与柱子的偏移角度
symbolsize: [25, 10],//底面[宽,高]
itemstyle: {
normal: {
color: color1//底面左右颜色(深,浅)
},
},
tooltip: {
show: false,
},
},
{
z: 3,
name: '柱子1',
type: "pictorialbar",
symbolposition: "end",
data: showdata1,//此数据对应顶部组件
symbol: "diamond",
symboloffset: ["-55%", "-50%"],
symbolsize: [barwidth - 4, (10 * (barwidth - 4)) / barwidth],
itemstyle: {
normal: {
/* bordercolor: colorarr1[2],
borderwidth: 2, */ //加上棱角分明
color: colorarr1[2]
},
},
tooltip: {
show: false,
},
}, {
z: 1,
type: 'bar',
name: '柱子2',
itemstyle: {
borderradius: [0, 0, 0, 0],
color: color2
},
data: controlball
},
{
z: 2,
name: '柱子2',
type: "pictorialbar",
data: constdata2,
symbol: "diamond",
symboloffset: ["58%", "50%"],
symbolsize: [25, 10], //=========================
itemstyle: {
normal: {
color: color2
},
},
tooltip: {
show: false,
},
},
{
z: 3,
name: '柱子2',
type: "pictorialbar",
symbolposition: "end",
data: showdata2,
symbol: "diamond",
symboloffset: ["58%", "-50%"],
symbolsize: [barwidth - 4, (10 * (barwidth - 4)) / barwidth],
itemstyle: {
normal: {
/* bordercolor: colorarr2[2],
borderwidth: 2, */
color: colorarr2[2]
},
},
tooltip: {
show: false,
},
}
]
}
let chart1 = echarts.init(document.queryselector("#litibar1"))
chart1.setoption(option)
</script>
</html>
2.3d饼图
3d饼图没有标签,实现方式是将2d饼图,旋转一定角度覆盖于3d表面,如果有好的方法,欢迎评论区留下链接
注意:需要引入与echarts版本对应的echarts-gl
效果图如下:
完整代码实例:(根据需要自行调整)
<!doctype html>
<html lang="en">
<head>
<meta charset="utf-8">
<meta http-equiv="x-ua-compatible" content="ie=edge">
<meta name="viewport" content="width=device-width, initial-scale=1.0">
<title>ehcarts demo</title>
<script src="https://cdn.staticfile.org/echarts/4.3.0/echarts.min.js"></script>
<script src="https://echarts.baidu.com/resource/echarts-gl-latest/dist/echarts-gl.min.js"></script>
</head>
<body>
<div class="container">
<div id="chartscontent" style="width:560px;height:150px;"></div>
</div>
<script>
var mychart = echarts.init(document.getelementbyid('chartscontent'));
// 生成扇形的曲面参数方程,用于 series-surface.parametricequation
function getparametricequation(startratio, endratio, isselected, ishovered) {
// 计算
let midratio = (startratio + endratio) / 2;
let startradian = startratio * math.pi * 2;
let endradian = endratio * math.pi * 2;
let midradian = midratio * math.pi * 2;
// 如果只有一个扇形,则不实现选中效果。
if (startratio === 0 && endratio === 1) {
isselected = false;
}
// 计算选中效果分别在 x 轴、y 轴方向上的位移(位移均为 0)
let offsetx = 0;
let offsety = 0;
// 计算选中效果在 z 轴方向上的位移(未选中,位移均为 0)
let offsetz = isselected ? 0.25 : 0;
// 计算高亮效果的放大比例(未高亮,则比例为 1)
let hoverrate = ishovered ? 1.05 : 1;
let tmp = 0;
// 返回曲面参数方程
return {
u: {
min: 0,
max: math.pi * 2,
step: math.pi / 100,
},
v: {
min: 0,
max: math.pi,
step: math.pi / 50,
},
x: function (u, v) {
if (midratio - 0.5 < 0) {
if (u < startradian || u > midradian + math.pi) {
tmp =
u - math.pi - midradian < 0
? u + math.pi - midradian
: u - math.pi - midradian;
return (
offsetx +
((math.sin(startradian) * tmp) /
(math.pi - midradian + startradian)) *
hoverrate
);
}
if (u > endradian && u < midradian + math.pi) {
tmp = midradian + math.pi - u;
return (
offsetx +
((math.sin(endradian) * tmp) /
(math.pi - midradian + startradian)) *
hoverrate
);
}
} else {
if (u < startradian && u > midradian - math.pi) {
tmp = u + math.pi - midradian;
return (
offsetx +
((math.sin(startradian) * tmp) /
(math.pi - midradian + startradian)) *
hoverrate
);
}
if (u > endradian || u < midradian - math.pi) {
tmp =
midradian - math.pi - u < 0
? midradian + math.pi - u
: midradian - math.pi - u;
return (
offsetx +
((math.sin(endradian) * tmp) /
(math.pi - midradian + startradian)) *
hoverrate
);
}
}
return offsetx + math.sin(v) * math.sin(u) * hoverrate;
},
y: function (u, v) {
if (midratio - 0.5 < 0) {
if (u < startradian || u > midradian + math.pi) {
tmp =
u - math.pi - midradian < 0
? u + math.pi - midradian
: u - math.pi - midradian;
return (
offsety +
((math.cos(startradian) * tmp) /
(math.pi - midradian + startradian)) *
hoverrate
);
}
if (u > endradian && u < midradian + math.pi) {
tmp = midradian + math.pi - u;
return (
offsety +
((math.cos(endradian) * tmp) /
(math.pi - midradian + startradian)) *
hoverrate
);
}
} else {
if (u < startradian && u > midradian - math.pi) {
tmp = u + math.pi - midradian;
return (
offsety +
((math.cos(startradian) * tmp) /
(math.pi - midradian + startradian)) *
hoverrate
);
}
if (u > endradian || u < midradian - math.pi) {
tmp =
midradian - math.pi - u < 0
? midradian + math.pi - u
: midradian - math.pi - u;
return (
offsety +
((math.cos(endradian) * tmp) /
(math.pi - midradian + startradian)) *
hoverrate
);
}
}
return offsety + math.sin(v) * math.cos(u) * hoverrate;
},
z: function (u, v) {
return offsetz + (math.cos(v) > 0 ? 0.1 : -0.1);
},
};
}
// 生成模拟 3d 饼图的配置项
function getpie3d(piedata) {
let series = [];
let sumvalue = 0;
let startvalue = 0;
let endvalue = 0;
let legenddata = [];
// 为每一个饼图数据,生成一个 series-surface 配置
for (let i = 0; i < piedata.length; i++) {
sumvalue += piedata[i].value;
let seriesitem = {
name:
typeof piedata[i].name === "undefined"
? `series${i}`
: piedata[i].name,
type: "surface",
parametric: true,
wireframe: {
show: false,
},
piedata: piedata[i],
piestatus: {
selected: false,
hovered: false,
},
};
if (typeof piedata[i].itemstyle != "undefined") {
let itemstyle = {};
if (typeof piedata[i].itemstyle.color != "undefined") {
itemstyle.color = piedata[i].itemstyle.color;
}
if (typeof piedata[i].itemstyle.opacity != "undefined") {
itemstyle.opacity = piedata[i].itemstyle.opacity;
}
seriesitem.itemstyle = itemstyle;
}
series.push(seriesitem);
}
// 使用上一次遍历时,计算出的数据和 sumvalue,调用 getparametricequation 函数,
// 向每个 series-surface 传入不同的参数方程 series-surface.parametricequation,也就是实现每一个扇形。
for (let i = 0; i < series.length; i++) {
endvalue = startvalue + series[i].piedata.value;
series[i].piedata.startratio = startvalue / sumvalue;
series[i].piedata.endratio = endvalue / sumvalue;
series[i].parametricequation = getparametricequation(
series[i].piedata.startratio,
series[i].piedata.endratio,
false,
false
);
startvalue = endvalue;
legenddata.push(series[i].name);
}
// 补充一个透明的圆环,用于支撑高亮功能的近似实现。
series.push({
name: "mouseoutseries",
type: "surface",
parametric: true,
wireframe: {
show: false,
},
itemstyle: {
opacity: 0,
},
parametricequation: {
u: {
min: 0,
max: math.pi * 2,
step: math.pi / 20,
},
v: {
min: 0,
max: math.pi,
step: math.pi / 20,
},
x: function (u, v) {
return math.sin(v) * math.sin(u) + math.sin(u);
},
y: function (u, v) {
return math.sin(v) * math.cos(u) + math.cos(u);
},
z: function (u, v) {
return math.cos(v) > 0 ? 0.1 : -0.1;
},
},
});
// 准备待返回的配置项,把准备好的 legenddata、series 传入。
let option = {
legend: {
show: false,
data: legenddata,
},
xaxis3d: {
min: -1,
max: 1,
},
yaxis3d: {
min: -1,
max: 1,
},
zaxis3d: {
min: -1,
max: 1,
},
grid3d: {
show: false,
boxheight: 200, // 厚度
top: 4,
left: 0,
boxwidth: 244,
viewcontrol: {
//3d效果可以放大、旋转等,请自己去查看官方配置
alpha: 45, // 角度
beta: 0, // 饼块开始位置角度
rotatesensitivity: 0,
zoomsensitivity: 0,
pansensitivity: 0,
autorotate: false,
},
light: {
main: {
color: "rgb(85, 84, 84)", // 主光源的颜色。
shadow: true, // 主光源是否投射阴影
alpha: 80, // 主光源绕 x 轴,即上下旋转的角度
},
},
},
series: series,
};
return option;
}
// 监听鼠标事件,实现饼图选中效果(单选),近似实现高亮(放大)效果。
let selectedindex = '';
let hoveredindex = '';
// 监听点击事件,实现选中效果(单选)
mychart.on('click', function (params) {
// 从 option.series 中读取重新渲染扇形所需的参数,将是否选中取反。
let isselected = !option.series[params.seriesindex].piestatus.selected;
let ishovered = option.series[params.seriesindex].piestatus.hovered;
let startratio = option.series[params.seriesindex].piedata.startratio;
let endratio = option.series[params.seriesindex].piedata.endratio;
// 如果之前选中过其他扇形,将其取消选中(对 option 更新)
if (selectedindex !== '' && selectedindex !== params.seriesindex) {
option.series[selectedindex].parametricequation = getparametricequation(option.series[selectedindex].piedata.startratio, option.series[selectedindex].piedata.endratio, false, false);
option.series[selectedindex].piestatus.selected = false;
}
// 对当前点击的扇形,执行选中/取消选中操作(对 option 更新)
option.series[params.seriesindex].parametricequation = getparametricequation(startratio, endratio, isselected, ishovered);
option.series[params.seriesindex].piestatus.selected = isselected;
// 如果本次是选中操作,记录上次选中的扇形对应的系列号 seriesindex
isselected ? selectedindex = params.seriesindex : null;
console.log('option-click: ', option)
// 使用更新后的 option,渲染图表
mychart.setoption(option);
});
// 监听 mouseover,近似实现高亮(放大)效果
mychart.on('mouseover', function (params) {
// 准备重新渲染扇形所需的参数
let isselected;
let ishovered;
let startratio;
let endratio;
// 如果触发 mouseover 的扇形当前已高亮,则不做操作
if (hoveredindex === params.seriesindex) {
return;
// 否则进行高亮及必要的取消高亮操作
} else {
// 如果当前有高亮的扇形,取消其高亮状态(对 option 更新)
if (hoveredindex !== '') {
// 从 option.series 中读取重新渲染扇形所需的参数,将是否高亮设置为 false。
isselected = option.series[hoveredindex].piestatus.selected;
ishovered = false;
startratio = option.series[hoveredindex].piedata.startratio;
endratio = option.series[hoveredindex].piedata.endratio;
// 对当前点击的扇形,执行取消高亮操作(对 option 更新)
option.series[hoveredindex].parametricequation = getparametricequation(startratio, endratio, isselected, ishovered);
option.series[hoveredindex].piestatus.hovered = ishovered;
// 将此前记录的上次选中的扇形对应的系列号 seriesindex 清空
hoveredindex = '';
}
// 如果触发 mouseover 的扇形不是透明圆环,将其高亮(对 option 更新)
if (params.seriesname !== 'mouseoutseries') {
// 从 option.series 中读取重新渲染扇形所需的参数,将是否高亮设置为 true。
isselected = option.series[params.seriesindex].piestatus.selected;
ishovered = true;
startratio = option.series[params.seriesindex].piedata.startratio;
endratio = option.series[params.seriesindex].piedata.endratio;
// 对当前点击的扇形,执行高亮操作(对 option 更新)
option.series[params.seriesindex].parametricequation = getparametricequation(startratio, endratio, isselected, ishovered);
option.series[params.seriesindex].piestatus.hovered = ishovered;
// 记录上次高亮的扇形对应的系列号 seriesindex
hoveredindex = params.seriesindex;
}
// 使用更新后的 option,渲染图表
mychart.setoption(option);
}
});
// 修正取消高亮失败的 bug
mychart.on('globalout', function () {
if (hoveredindex !== '') {
// 从 option.series 中读取重新渲染扇形所需的参数,将是否高亮设置为 true。
isselected = option.series[hoveredindex].piestatus.selected;
ishovered = false;
startratio = option.series[hoveredindex].piedata.startratio;
endratio = option.series[hoveredindex].piedata.endratio;
// 对当前点击的扇形,执行取消高亮操作(对 option 更新)
option.series[hoveredindex].parametricequation = getparametricequation(startratio, endratio, isselected, ishovered);
option.series[hoveredindex].piestatus.hovered = ishovered;
// 将此前记录的上次选中的扇形对应的系列号 seriesindex 清空
hoveredindex = '';
}
// 使用更新后的 option,渲染图表
mychart.setoption(option);
});
const colorlist = ['#d98053', '#e2b062', '#5a9cf1', '#6ed3d3']
const datasource = [{
name: "啤酒",
value: 25,
},
{
name: "高粱酒",
value: 25,
},
{
name: "桃花酿",
value: 30,
},
{
name: "白酒",
value: 20,
}]
const paramslist = datasource.map((item, index) => {
return {
...item,
shading: 'realistic',
itemstyle: {
color: colorlist[index]
},
}
})
// 传入数据生成 option
let option = getpie3d(paramslist);
// 是否需要label指引线,如果要就添加一个透明的2d饼状图并调整角度使得labelline和3d的饼状图对齐,并再次setoption
option.series.push({
name: '酒水销售占比', //自己根据场景修改
type: 'pie',
hoveranimation: false,// 悬停不放大
label: {
// position: "bottom",
formatter: function (params) {
return `{percentsty|${params.percent}%}\n{namesty|${params.name}}`;
},
rich: {
namesty: {
fontsize: 16,
lineheight: 22,
fontfamily: "pingfangsc-regular",
fintweight: 400,
},
percentsty: {
fontsize: 14,
lineheight: 20,
fontfamily: "pingfangsc-regular",
fintweight: 400,
color: '#ffffff',
},
countsty: {
fontsize: 14,
lineheight: 20,
fontfamily: "pingfangsc-regular",
fintweight: 400,
color: '#b9d3ed',
padding: [0, 8, 0, 8],
backgroundcolor: 'rgb(90,156,241,0.3)',
borderradius: 2,
},
},
},
labelline: {
showabove: false,
length: 20, // 视觉引导线第一段的长度
length2: 40, // 视觉引导项第二段的长度
linestyle: {
color: "#686868", // 改变标示线的颜色
width: 1,
type: 'solid', // 线的类型
},
},
startangle: 60, // 起始角度,支持范围[0, 360]。
clockwise: true, // 饼图的扇区是否是顺时针排布。上述这两项配置主要是为了对齐3d的样式
/* radius: ['40%', '52%'],
center: ['50%', '53%'], */
data: paramslist,
itemstyle: {
opacity: 0 //这里必须是0,不然2d的图会覆盖在表面
}
})
console.log('demo配置参数',option);
mychart.setoption(option)
</script>
<style>
.container {
width: 560px;
height: 164px;
background-color: #000000;
position: relative;
}
.imgcontent {
width: 164px;
height: 86px;
position: absolute;
left: 50%;
top: 50%;
transform: translate(-50%, -50%);
z-index: 5;
}
</style>
</body>
</html>
更多参数配置,前往echarts官网查询,传送门
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