Exemple #1
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def drawBar(title, data, series_name, x_label, y_label, savedir='results'):
    checkDir(savedir)
    chart = Bar(title)
    chart.set_options(labels=list(data.keys()),
                      x_label=x_label,
                      y_label=y_label)
    chart.add_series(series_name, list(data.values()))
    chart.render(os.path.join(savedir, title + '.html'))
Exemple #2
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 def bar_base():
     chart = Bar("Bar-基本示例", width="100%")
     chart.set_options(labels=["可乐", "雪碧", "橙汁", "绿茶", "奶茶", "百威", "青岛"],
                       x_label="I'm xlabel",
                       y_label="I'm ylabel")
     chart.add_series("series-A", [127, 33, 110, 29, 146, 121, 36])
     return put_html(chart.render_notebook())
Exemple #3
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def gen_bar_base() -> Bar:
    c = Bar("Bar")
    c.set_options(labels=["A", "B"],
                  x_label="I'm xlabel",
                  y_label="I'm ylabel")
    c.add_series("series-A", ["1", "2"])
    return c
Exemple #4
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def create_chart_extension_dict(extension_dict):
    extension_dict = dict(
        sorted(extension_dict.items(), key=lambda item: item[1]))
    labels = list(extension_dict.keys())
    values = list(extension_dict.values())
    chart = Bar("The chart for the number of file extensions")
    chart.set_options(labels=labels,
                      x_label="Extensions",
                      y_label="Number of extensions",
                      colors=['#E09DE1' for _ in range(len(labels))])
    chart.add_series("The number of extensions", values)
    return chart
Exemple #5
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def create_chart_file_size_dict(file_size_dict):
    file_size_dict = dict(
        sorted(file_size_dict.items(), key=lambda item: item[1]))
    labels = list(file_size_dict.keys())
    values = list(file_size_dict.values())
    chart = Bar(
        "The chart for the distribution of file sizes of each extension")
    chart.set_options(labels=labels,
                      x_label="Extensions",
                      y_label="Sum of file sizes",
                      colors=['#1EAFAE' for _ in range(len(labels))])
    chart.add_series("The Sum of sizes", values)
    return chart
Exemple #6
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def create_chart(labels: list, values: list):
    chart = Bar("Food comparison")
    chart.set_options(labels=labels, x_label="Food", y_label="Delicious level")
    chart.add_series("Delicious level", values)
    return chart
Exemple #7
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def bar_base() -> Bar:
    chart = Bar("Bar-基本示例")
    chart.set_options(labels=Faker.choose(), x_label="I'm xlabel", y_label="I'm ylabel")
    chart.add_series("series-A", Faker.values())
    return chart
Exemple #8
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def bar_tickcount_colors():
    chart = Bar("Bar-调整颜色")
    chart.set_options(labels=Faker.choose(), y_tick_count=10, colors=Faker.colors)
    chart.add_series("series-A", Faker.values())
    return chart
Exemple #9
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def pyecharts():
    from pyecharts.charts import Bar
    from pyecharts.faker import Faker
    from pyecharts import options as opts
    from pyecharts.charts import Polar
    from pyecharts.charts import HeatMap
    from pyecharts.charts import Tree

    r1 = ['草莓', '芒果', '葡萄', '雪梨', '西瓜', '柠檬', '车厘子']
    r2 = [127, 33, 110, 29, 146, 121, 36]
    r3 = [25, 87, 114, 131, 130, 94, 146]
    c1 = (Bar({
        "width": "100%"
    }).add_xaxis(r1).add_yaxis("商家A", r2).add_yaxis("商家B", r3).set_global_opts(
        title_opts=opts.TitleOpts(title="Bar-基本示例", subtitle="我是副标题")))

    c2 = (Polar({
        "width": "100%"
    }).add_schema(
        radiusaxis_opts=opts.RadiusAxisOpts(data=Faker.week, type_="category"),
        angleaxis_opts=opts.AngleAxisOpts(is_clockwise=True, max_=10),
    ).add("A", [1, 2, 3, 4, 3, 5, 1], type_="bar").set_global_opts(
        title_opts=opts.TitleOpts(title="Polar-RadiusAxis")).set_series_opts(
            label_opts=opts.LabelOpts(is_show=True)))

    data = [{
        "children": [
            {
                "name": "B"
            },
            {
                "children": [{
                    "children": [{
                        "name": "I"
                    }],
                    "name": "E"
                }, {
                    "name": "F"
                }],
                "name":
                "C",
            },
            {
                "children": [
                    {
                        "children": [{
                            "name": "J"
                        }, {
                            "name": "K"
                        }],
                        "name": "G"
                    },
                    {
                        "name": "H"
                    },
                ],
                "name":
                "D",
            },
        ],
        "name":
        "A",
    }]

    c3 = (Tree({
        "width": "100%"
    }).add("",
           data).set_global_opts(title_opts=opts.TitleOpts(title="Tree-基本示例")))

    value = [[i, j, int(i * j * 3.14 * 314 % 50)] for i in range(24)
             for j in range(7)]
    c4 = (HeatMap({
        "width": "100%"
    }).add_xaxis(Faker.clock).add_yaxis(
        "series0",
        Faker.week,
        value,
        label_opts=opts.LabelOpts(is_show=True, position="inside"),
    ).set_global_opts(
        title_opts=opts.TitleOpts(title="HeatMap-Label 显示"),
        visualmap_opts=opts.VisualMapOpts(),
    ))

    put_grid([[put_html(c1.render_notebook()),
               put_html(c2.render_notebook())],
              [put_html(c3.render_notebook()),
               put_html(c4.render_notebook())]],
             cell_width='1fr',
             cell_height='1fr')