data = funnel = Funnel() funnem.add('',data) funne.render() #============================================================================== # 仪表盘 from pyecharts.charts import Gauge gauge = Gauge() gauge.add('',[('完成率',60)], # 不同颜色 axisline_opts=opts.AxisLineOpts( linestyle_opts=opts.LineStyleOpts( color=[(0.6, "#67e0e3"), (1, "#37a2da")], width=30 ))) gauge.render(r'D:\PythonSpyder\数据可视化\My PyEcharts\仪表盘(不同颜色).html') #============================================================================== # 水球图 from pyecharts.charts import Liquid liquid = Liquid() liquid.add('',[0.6]) liquid.render(r'D:\PythonSpyder\数据可视化\My PyEcharts\水球图.html')
def test_liquid_base(fake_writer): c = Liquid().add("lq", [0.6, 0.7]) c.render() _, content = fake_writer.call_args[0] eq_(c.theme, "white") eq_(c.renderer, "canvas")
# 地理图 geo = Geo() geo.add_schema(maptype='china') data = [list(z) for z in zip(Faker.provinces, Faker.values())] geo.add('geo', data, type_='heatmap') geo.set_series_opts(label_opts=opts.LabelOpts(is_show=False)) geo.set_global_opts(title_opts=opts.TitleOpts(title='Geo Sample'), visualmap_opts=opts.VisualMapOpts()) geo.render('pyecharts-geo.html') # 水球图 liquid = Liquid() shape = 'path://M512 1024c-209.066667 0-384-170.666667-384-379.733333V640c145.066667 0 277.333333 81.066667 341.333333 204.8v-115.2c-51.2-12.8-89.6-51.2-106.666666-102.4-12.8 4.266667-21.333333 4.266667-34.133334 4.266667-55.466667 0-106.666667-29.866667-136.533333-76.8-34.133333-59.733333-25.6-136.533333 21.333333-183.466667-46.933333-51.2-55.466667-128-21.333333-187.733333 29.866667-46.933333 81.066667-76.8 136.533333-76.8 12.8 0 21.333333 0 34.133334 4.266666C384 42.666667 443.733333 0 512 0s128 42.666667 149.333333 110.933333c12.8-4.266667 21.333333-4.266667 34.133334-4.266666 55.466667 0 106.666667 29.866667 136.533333 76.8 34.133333 59.733333 25.6 136.533333-21.333333 183.466666 46.933333 51.2 55.466667 123.733333 21.333333 183.466667-29.866667 46.933333-81.066667 76.8-136.533333 76.8-12.8 0-21.333333 0-34.133334-4.266667-17.066667 51.2-55.466667 89.6-106.666666 102.4v115.2c64-128 196.266667-209.066667 341.333333-204.8 0 217.6-170.666667 388.266667-384 388.266667zM362.666667 362.666667c0 81.066667 68.266667 149.333333 149.333333 149.333333s149.333333-68.266667 149.333333-149.333333S593.066667 213.333333 512 213.333333 362.666667 281.6 362.666667 362.666667z' liquid.add('Liquid', [0.7, 0.6, 0.5], is_outline_show=False, shape=shape) liquid.set_global_opts(title_opts=opts.TitleOpts(title='Liquid Sample')) liquid.render('pyecharts-liquid.html') # 雷达图 v1 = [[4300, 10000, 28000, 35000, 50000, 19000], [3300, 13000, 25000, 30000, 48000, 24000]] v2 = [[5000, 14000, 28000, 31000, 42000, 21000]] radar = Radar() radar.add_schema(schema=[ opts.RadarIndicatorItem(name='销售', max_=6500), opts.RadarIndicatorItem(name='管理', max_=16000), opts.RadarIndicatorItem(name='信息技术', max_=30000), opts.RadarIndicatorItem(name='客服', max_=38000), opts.RadarIndicatorItem(name='研发', max_=52000), opts.RadarIndicatorItem(name='市场', max_=25000), ]) radar.add('预算分配', v1)
pie.add("", attr, v1, radius=[45, 65], center=[65, 50], legend_pos="80%", legend_orient="vertical") grid = Grid() grid.add(line, grid_right="55%") grid.add(pie, grid_left="60%") grid.render(r".\my_first_Zuhetu.html") """水球图""" liquid = Liquid("水球图示例") liquid.add("Liquid", [0.8]) liquid.show_config() liquid.render(r".\my_first_Shuiqiu1.html") liquid = Liquid("水球图示例") liquid.add("Liquid", [0.6, 0.5, 0.4, 0.3], is_liquid_animation=False, shape='diamond') liquid.show_config() liquid.render(r".\my_first_Shuiqiu2.html") """地图""" value = [155, 10, 66, 78, 33, 80, 190, 53, 49.6] attr = ["福建", "山东", "北京", "上海", "甘肃", "新疆", "河南", "广西", "西藏"] map = Map("Map 结合 VisualMap 示例", width=1200, height=600) map.add("", attr, value, maptype='china',
def test_liquid_base(): c = Liquid().add("lq", [0.6, 0.7]) eq_(c.theme, "white") eq_(c.renderer, "canvas") c.render()
from pyecharts.charts import Liquid from pyecharts.faker import Faker #虚构的数据 from pyecharts import options as opts #配置 from pyecharts.charts import Bar #导入bar图 from pyecharts.globals import ThemeType import random liquid=Liquid() liquid.add("Liquid",[0.7,0.6,0.5]) liquid.set_global_opts( title_opts=opts.TitleOpts(title="Geo-基本示例"), ) liquid.render()
map.set_global_opts( visualmap_opts=opts.VisualMapOpts(max_=20), title_opts=opts.TitleOpts(title="高质量高校分布热力图"), ) map.render_notebook() map.render('高质量高校分布热力图map.html') data_985_211[ 'rate'] = data_985_211['counts'].values / data_985_211['counts'].sum() print(data_985_211) # 北京高质量高校占比 liquid = Liquid() liquid.add('', [data_985_211['rate'].values[0]]) liquid.set_global_opts(title_opts=opts.TitleOpts(title="北京高质量高校占比")) liquid.render_notebook() liquid.render('北京高质量高校占比.html') # 北京上海江苏高质量高校占比 liquid = Liquid() liquid.add('', [sum(data_985_211['rate'].values[:3])]) liquid.set_global_opts(title_opts=opts.TitleOpts(title="北京上海江苏高质量高校占比")) liquid.render_notebook() liquid.render('北京上海江苏高质量高校占比.html') # 占比前十城市高质量高校占比 liquid = Liquid() liquid.add('', [sum(data_985_211['rate'].values[:11])]) liquid.set_global_opts(title_opts=opts.TitleOpts(title="占比前十城市高质量高校占比")) liquid.render_notebook() liquid.render('占比前十城市高质量高校占比.html')
def test_liquid_base(): c = Liquid().add("lq", [0.6, 0.7]) assert c.theme == "white" assert c.renderer == "canvas" c.render("render.html")
def DrawLiquid(city_name): data = int(qr.get_data(city_name)['SD'].strip('%')) / 100 liquid = Liquid('%s城市湿度' % city_name) liquid.add('湿度', [data]) liquid.render('weatherLiquid.html')