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一、pyecharts简介

pyecharts基于Echart图表一个类库,而Echart百度开源一个可视化JavaScript

pyecharts主要基于web浏览器进行显示绘制图形比较多,包括折线图柱状图、饼图、漏斗图、地图、极坐标图等,代码量很少,而且很灵活,绘制出来的图形很美观

使用pyecharts时,需要安装相应的库,安装命令为:      pip install pyecharts

图形绘制过程基本上所有的图表类型都是这样绘制

chart_name = Type()     初始化具体类型图表

chart_name .add()        添加数据配置

chart_name .render() 生成本地文件

html/svg/jpeg/png/pdf/gif) chart_name .render_notebook  在jupyter notebook显示

二、pyechart常用图表 

1 柱状

利用Bar方法可以绘制柱状图。方法说明见表8-1。

表8-1 Bar对象的主要方法及其说明

from pyecharts.charts import Bar
from pyecharts import options as opts
%matplotlib inline
# V1 版本开始支持链式调用
bar = ( Bar()
       .add_xaxis(["衬衫", "毛衣", "领带", "裤子", "风衣", "高跟鞋", "袜子"])
       .add_yaxis("商家A", [114, 55, 27, 101, 125, 27, 105])
       .set_global_opts(title_opts = opts.TitleOpts(title = "某商场销售情况")) )
bar.render_notebook()
#bar.render() 生成html

 V1版本开始支持链式调用,如果不习惯链式调用开发者依旧可以单独调用方法

使用多个add_yaxis可以绘制并列柱状

from pyecharts.charts import Bar
from pyecharts import options as opts
%matplotlib inline
bar = Bar()
bar.add_xaxis(["衬衫", "毛衣", "领带", "裤子", "风衣", "高跟鞋", "袜子"])
bar.add_yaxis("商家A", [114, 55, 27, 101, 125, 27, 105])
bar.add_yaxis("商家B", [57, 134, 137, 129, 145, 60, 49])
bar.set_global_opts(title_opts = opts.TitleOpts(title = "货品销售情况",subtitle  =  "A和B公司"))
bar.render_notebook()

 利用bar.reversal_axis()可以绘制水平的直方图

%matplotlib inline
bar = Bar()
bar.add_xaxis(["衬衫", "毛衣", "领带", "裤子", "风衣", "高跟鞋", "袜子"])
bar.add_yaxis("商家A", [114, 55, 27, 101, 125, 27, 105])
bar.add_yaxis("商家B", [57, 134, 137, 129, 145, 60, 49])
bar.set_global_opts(title_opts=opts.TitleOpts(title="货品销售情况",subtitle = "A和B公司"),toolbox_opts = opts.ToolboxOpts(is_show = True))
bar.set_series_opts(label_opts=opts.LabelOpts(position = "right"))
bar.reversal_axis()
bar.render_notebook()

 2 饼图

饼图常用于表现不同类别的占比情况。利用Pie方法可以绘制饼图

from pyecharts import options as opts    
from pyecharts.charts import Page, Pie
L1=['教授','副教授','讲师','助教','其他']
num  = [20,30,10,12,8]
c = Pie()
c.add("", [list(z) for z in zip(L1,num)])
c.set_global_opts(title_opts=opts.TitleOpts(title="Pie-职称类别比例"))
c.set_series_opts(label_opts=opts.LabelOpts(formatter="{b}: {c}"))
c.render_notebook()

 通过参数圆形饼图radius可以绘制圆形饼图

from pyecharts import options as opts
from pyecharts.charts import Page, Pie
wd = ['教授','副教授','讲师','助教','其他']
num = [20,30,10,12,8]
c = Pie()
c.add("",[list(z) for z in zip(wd, num)],radius = ["40%", "75%"])   
# 圆环粗细大小
c.set_global_opts( title_opts=opts.TitleOpts(title="Pie-Radius"),legend_opts=opts.LegendOpts( orient="vertical", pos_top="5%", pos_left="2%" ))
c .set_series_opts(label_opts=opts.LabelOpts(formatter="{b}: {c}"))
c.render_notebook()

 可以通过rich参数设置更多属性

c = Pie()
c.add("",[list(z) for z in zip(wd, num)],radius=["40%", "55%"],
       label_opts=opts.LabelOpts(position="outside",
       formatter="{a|{a}}{abg|}n{hr|}n{b|{b}:}{c}  {per|{d}%} ",
       background_color="#eee",border_color="#aaa",
       border_width=1,border_radius=4,
       rich={"a": {"color": "#999", "lineHeight": 22, "align": "center"},"abg": {"backgroundColor": "#e3e3e3","width": "100%", "align": "right", "height": 22,"borderRadius": [4, 4, 0, 0],}, "hr": {"borderColor": "#aaa", "width": "100%","borderWidth": 0.5, "height": 0,}, "b": {"fontSize": 16, "lineHeight": 33},"per": {"color": "#eee","backgroundColor": "#334455",                        "padding": [2, 4],"borderRadius": 2,} } ))
c.set_global_opts(title_opts=opts.TitleOpts(title="Pie-富文本示例"))
c.render_notebook()

 玫瑰图绘制

from pyecharts import options as opts
from pyecharts.charts import Page, Pie
data = [45,86,39,52,68]
labels = ['电脑','手机','彩电','冰箱','洗衣机']
c = Pie()
c.add("",[list(z) for z in zip(labels, data)],radius=["40%", "55%"],center=[240,220],rosetype='radius')
c.add("",[list(z) for z in zip(wd, num)],radius=["40%", "55%"],center=[620,220],rosetype='area')
c.set_global_opts(title_opts=opts.TitleOpts(title="玫瑰图"))
c.render_notebook()

 3 漏斗图

pyecharts通过Funnel绘制漏斗图

from pyecharts.charts import Funnel
from pyecharts import options as opts
%matplotlib inline
data = [45,86,39,52,68]
labels = ['电脑','手机','彩电','冰箱','洗衣机']
wf = Funnel()
wf.add('电器销量图',[list(z) for z in zip(labels, data)], is_selected= True)
wf.render_notebook()

 4 散点图

pyecharts利用Scatter绘制散点图

from pyecharts import options as opts
from pyecharts.charts import Scatter
week = ["周一", "周二", "周三", "周四", "周五", "周六", "周日"]
c = Scatter()
c.add_xaxis(week)
c.add_yaxis("商家A", [81,65,48,32,68,92,87])
c.set_global_opts(title_opts=opts.TitleOpts(title="Scatter-一周的销售额(万元)"))
c.render_notebook()

 5 K线图

pyecharts利用Kline绘制K线图

from pyecharts import options as opts
from pyecharts.charts import Kline
data = [[2320.26, 2320.26, 2287.3, 2362.94],[2300, 2291.3, 2288.26, 2308.38],[2295.35, 2346.5, 2295.35, 2345.92],--------]
c = Kline()
c.add_xaxis(["2019/7/{}".format(i + 1) for i in range(31)])
c.add_yaxis("2019年7月份K线图", data)
c.set_global_opts(yaxis_opts=opts.AxisOpts(is_scale=True),
            xaxis_opts=opts.AxisOpts(is_scale=True),
            title_opts=opts.TitleOpts(title="Kline-基本示例"),)
c.render_notebook()

 6 仪表盘

pyecharts利用Gauge绘制仪表盘

from pyecharts import options as opts
from pyecharts.charts import Gauge, Page
c = Gauge()
c.add("业务指标",[("完成率", 55.5)],axisline_opts=opts.AxisLineOpts(
linestyle_opts=opts.LineStyleOpts(color=[(0.3, "#67e0e3"),
 (0.7, "#37a2da"), (1, "#fd666d")], width=30)))
c.set_global_opts(title_opts=opts.TitleOpts(title="Gauge-不同颜色"),
 legend_opts=opts.LegendOpts(is_show=False)) 
c.render_notebook()

 7 词云

Pyecharts利用WordCloud绘制词云

 

from pyecharts import options as opts
from pyecharts.charts import Page, WordCloud
from pyecharts.globals import SymbolType
words = [
    ("牛肉面", 7800),("黄河", 6181),
    ("《读者》杂志", 4386), ("甜胚子", 3055),
       ---------,
      ("五泉山", 2550)]
c = WordCloud()
c.add("", words, word_size_range=[20, 80])
c.set_global_opts(title_opts=opts.TitleOpts(title="WordCloud-基本示例"))
c.render_notebook()

8 组合图表

组合图表上下布局

from pyecharts import options as opts
from pyecharts.charts import Bar, Grid, Line,Scatter
A = ["小米", "三星", "华为", "苹果", "魅族", "VIVO", "OPPO"]
CA = [100,125,87,90,78,98,118]
B = ["草莓", "芒果", "葡萄", "雪梨", "西瓜", "柠檬", "车厘子"]
CB = [78,95,120,102,88,108,98]
bar = Bar()
bar.add_xaxis(A)
bar.add_yaxis("商家A",CA)
bar.add_yaxis("商家B", CB)
bar.set_global_opts(title_opts=opts.TitleOpts(title="Grid-Bar"))
bar.render_notebook()
line=Line()
line.add_xaxis(B)
line.add_yaxis("商家A", CA)
line.add_yaxis("商家B", CB)
line.set_global_opts(title_opts=opts.TitleOpts(title="Grid-Line", pos_top="48%"),
legend_opts=opts.LegendOpts(pos_top="48%"))
line.render_notebook()
grid = Grid()
grid.add(bar, grid_opts=opts.GridOpts(pos_bottom="60%"))
grid.add(line, grid_opts=opts.GridOpts(pos_top="60%"))
grid.render_notebook()

 9 桑基图

桑基图(Sankey diagram)即桑基能量分流图,也叫桑基能量平衡图。它是一种特定类型流程图,图中延伸的分支宽度对应数据流量的大小,通常应用于能源、材料成分金融数据的可视化分析。Pyecharts中利用Sankey绘制桑基图

下面对熬夜原因进行桑基图可视化

10 平行坐标图 

平行坐标图(Parallel Coordinates Plot)是对于具有多个属性问题的一种可视化方法。在平行坐标图中,数据集的一行数据在平行坐标图中用一条折线表示,纵向是属性值,横向是属性类别(用索引表示)

 图是一种抽象数据结构,可以描述最广泛的数据之间的关系,例如交通网络微信中的朋友关系网,在图中,最基本的单元顶点顶点之间的关联关系称为边,pyecharts可以利用Graph方法绘制图

11 地图

自从 0.3.2 开始,为了缩减项目本身的体积以及维持 pyecharts 项目的轻量化运行,pyecharts 将不再自带地图 js 文件。如用户需要用到地图图表(Geo、Map),可自行安装对应地图文件包。 Windows通过以下的pip命令进行安装: #安装全球国家地图,包括世界地图和 213 个国家 pip install echarts-countries-pypkg #安装中国省级地图,包括23 个省,5 个自治区 pip install echarts-chinaprovinces-pypkg  #中国市级地图,包括370 个中国城市 pip install echarts-chinacities-pypkg

下面在指定地图上的城市标识某天最高温度 效果如下 点击对应城市即可显示温度

 

 

from pyecharts import options as opts
from pyecharts.charts import Map
temperature=[30,31,27,29,18]
loc = ['兰州市','天水市','白银市','武威市','甘南藏族自治州']
c =  Map()
c.add("甘肃省", [list(z) for z in zip(loc, temperature)], "甘肃",is_roam=True) 
# is_roam是否开启鼠标缩放和平移漫游
c .set_global_opts(title_opts=opts.TitleOpts(title="甘肃省部分城市最高气温"))
c.render("APP类型.html")
c.render_notebook()

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原文地址:https://blog.csdn.net/jiebaoshayebuhui/article/details/128692367

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