def geo_line() -> Bar:
db = getattr(g, "_db", None)
col = db.trafficmodels
users = col.distinct("user")
list_place = []
for user in users:
place = col.find_one({"user": user}, {"place": 1})["place"]
places = get_all_IP(user)
for p in places:
list_place.append([place, p])
c = (Geo().add_schema(maptype="world").add_coordinate_json(
json_file="world_country.json").add(
"交互图",
list_place,
type_=ChartType.LINES,
effect_opts=opts.EffectOpts(symbol=SymbolType.DIAMOND,
symbol_size=6,
color="blue"),
linestyle_opts=opts.LineStyleOpts(
curve=0.2,
opacity=0.2,
)).set_series_opts(label_opts=opts.LabelOpts(
is_show=False)).set_global_opts(
title_opts=opts.TitleOpts(title="总交互图"),
tooltip_opts=opts.TooltipOpts(is_show=True)))
return c
def geo_charts(content):
"""绘制世界地图"""
zip_data = content[0]
start_city = content[1]
geo = (Geo().add_schema(
maptype="china",
itemstyle_opts=opts.ItemStyleOpts(color="#323c48",
border_color="#00000"),
).add(
"",
data_pair=zip_data,
type_=ChartType.EFFECT_SCATTER,
color="white",
).add(
"geo",
data_pair=start_city,
type_=GeoType.LINES,
effect_opts=opts.EffectOpts(symbol=SymbolType.RECT,
symbol_size=6,
color="yellow",
is_show=True),
linestyle_opts=opts.LineStyleOpts(curve=0.2),
).set_series_opts(label_opts=opts.LabelOpts(
is_show=False)).set_global_opts(title_opts=opts.TitleOpts(
title="Python开发工程师可视化界面")))
return geo
def geo_lines() -> Geo:
c = (
Geo(
init_opts=opts.InitOpts(width="1000px",height="700px",theme=ThemeType.PURPLE_PASSION)
)
.add_schema(maptype="china")
.add(
"航班数量",
df2,
type_=ChartType.EFFECT_SCATTER,
#color="#ffa022"
)
.add(
"航线",
df1,
type_=ChartType.LINES,
effect_opts=opts.EffectOpts(
symbol=symbol_list[0], symbol_size=15, period=6, trail_length=0, is_show=True
),
linestyle_opts=opts.LineStyleOpts(curve=0.2, width=1, opacity=0.5),
)
.set_series_opts(label_opts=opts.LabelOpts(is_show=False))
.set_global_opts(title_opts=opts.TitleOpts(title="国内航线", #pos_left="center",
title_textstyle_opts=opts.TextStyleOpts(font_size=30, font_weight="bold"),
#subtitle_textstyle_opts=opts.TextStyleOpts(color='black',font_size=15)
))
)
def geoLineCity(self, data) -> Geo:
# 指定城市航班连接城市图
count = len(data[0])
city_Geoline = (
Geo(init_opts=opts.InitOpts(
width='1000px', height='500px')).add_schema(
maptype="china", zoom=1.1).add_coordinate_json(
self.geo_file).add("",
data[1],
symbol_size=6,
color='#725e82') # 标记点大小与颜色
.add(
"",
data[0],
type_=ChartType.LINES,
linestyle_opts=opts.LineStyleOpts(curve=0.1,
width=1,
color='#1685a9'), # 连线的宽度与颜色
effect_opts=opts.EffectOpts(is_show=False)) # 关闭涟漪效果
.set_series_opts(label_opts=opts.LabelOpts(
is_show=False)).set_global_opts(title_opts=opts.TitleOpts(
title="{}民航班机航线图".format(data[0][0][0]),
subtitle='{},{}共有直飞全国{}个城市的航班'.format(
self.today_ymd, data[0][0][0], count))))
return city_Geoline
def geo_lines() -> Geo:
c = (
Geo()
.add_schema(maptype="china")
.add(
"",
[("北京", 1), ("重庆", 2), ("长沙", 3), ("长春", 4), ("成都", 5), ("大连", 6), ("广州", 7), ("贵阳", 8),
("合肥", 9), ("杭州", 10), ("哈尔滨", 11), ("海口", 12), ("济南", 13), ("昆明", 14), ("柳州", 15), ("绵阳", 16),
("潞西市", 17), ("南宁", 18), ("南京", 19), ("沈阳", 20), ("三亚", 21), ("上海", 22), ("天津", 23), ("徐州", 24),
("义乌", 25), ("郑州", 26), ("张家界", 27)],
type_=ChartType.EFFECT_SCATTER,
color="#ffa022"
)
.add(
"",
[("揭阳", "北京"), ("揭阳", "重庆"), ("揭阳", "长沙"), ("揭阳", "长春"), ("揭阳", "成都"),
("揭阳", "大连"), ("揭阳", "广州"), ("揭阳", "贵阳"), ("揭阳", "合肥"), ("揭阳", "杭州"),
("揭阳", "哈尔滨"), ("揭阳", "海口"), ("揭阳", "济南"), ("揭阳", "昆明"), ("揭阳", "柳州"),
("揭阳", "绵阳"), ("揭阳", "潞西市"), ("揭阳", "南宁"), ("揭阳", "南京"), ("揭阳", "沈阳"),("揭阳", "三亚"),
("揭阳", "上海"), ("揭阳", "天津"), ("揭阳", "徐州"),("揭阳", "义乌"),("揭阳", "郑州"), ("揭阳", "张家界")],
type_=ChartType.LINES,
effect_opts=opts.EffectOpts(
symbol=symbol_list[0], symbol_size=15, color='#a6c84c', period=6, trail_length=0, is_show=True
# 特效图形的标记。有 RECT', 'DIAMOND', 'ARROW' 可选
),
linestyle_opts=opts.LineStyleOpts(curve=0.2, color='#46bee9', width=1, opacity=0.5),
)
.set_series_opts(label_opts=opts.LabelOpts(is_show=False))
.set_global_opts(title_opts=opts.TitleOpts(title="揭阳出发国内航线", subtitle="数能工作室制作", pos_left="center",
title_textstyle_opts=opts.TextStyleOpts(color='black',font_size=20, font_weight="bold"),
subtitle_textstyle_opts=opts.TextStyleOpts(color='black',font_size=15),item_gap=15))
)
return c
def get_eventbmap(pos) -> BMap:
#[(lo,la),(lo,la)]这种格式即可
BAIDU_AK = "HOTBRAfU1jGcQKHBX15ucKsfZO722eyN"
center = (117.20, 39.12)
c = BMap()
c.add_schema(
baidu_ak=BAIDU_AK,
center=[117.20, 39.12],
zoom=10,
is_roam=False,
)
sequence = []
for i in range(len(pos)):
c.add_coordinate(str(i), pos[i][0], pos[i][1]) #[(posindex,lo,la)]
sequence.append((str(i), 0.1)) #这里名字和pos要对应
c.add(
"投诉坐标", #系列名称
sequence,
type_="scatter", #"heatmap" 可以切换显示的类型热力图或散点图
label_opts=opts.LabelOpts(formatter="{b}"),
symbol_size=5)
c.set_series_opts(effect_opts=opts.EffectOpts(is_show=True),
label_opts=opts.LabelOpts(is_show=False))
c.add_control_panel(
scale_control_opts=opts.BMapScaleControlOpts(),
navigation_control_opts=opts.BMapNavigationControlOpts(),
maptype_control_opts=opts.BMapTypeControlOpts())
#c.set_global_opts(visualmap_opts=opts.VisualMapOpts())
return c
def generate_drug_map(date, type='疫苗'):
data = fetch_drug_date(date, type)
points = []
for country, num in data:
poins.append('1', random.sample(random_points[country], num))
count = [1] * len(data)
addresses = []
json_data = {}
for address in test_data:
json_data[address[0]] = [address[1], address[2]]
addresses.append(address[0])
json_str = json.dumps(json_data, ensure_ascii=False, indent=4)
with open('test_data.json', 'w', encoding='utf-8') as json_file:
json_file.write(json_str)
geo = Geo()
geo.add_schema(maptype='world')
geo.add_coordinate_json(json_file='test_data.json')
geo.add('研发中的{}类药物'.format(type), [list(z) for z in zip(addresses, data)], type_=ChartType.EFFECT_SCATTER, color='#1e90ff',
symbol_size=10, symbol='diamond')
geo.set_series_opts(label_opts=opts.LabelOpts(is_show=False), effect_opts=opts.EffectOpts(scale=5))
geo.set_global_opts(title_opts=opts.TitleOpts(title="Geo-EffectScatter"),
tooltip_opts=opts.TooltipOpts(is_show=False))
geo.render(path='3.html')
def pyechart_Geo_plot(self):
from pyecharts.charts import Geo
file_name = '地理图.html'
path_plotly = self.path_dir_plotly_html + os.sep + file_name # 文件路径,前面是文件夹后面是文件名
#costumeTheme = self.themedict[para['theme']]
#df= pd.read_excel(filedata, sheet_name='Sheet1')
c = (Geo().add_schema(
maptype="china",
itemstyle_opts=opts.ItemStyleOpts(color="#323c48",
border_color="#111"),
).add(
"",
[("广州", 55), ("北京", 66), ("杭州", 77), ("重庆", 88)],
type_=ChartType.EFFECT_SCATTER,
color="white",
).add(
"geo",
[("广州", "上海"), ("广州", "北京"), ("广州", "杭州"), ("广州", "重庆")],
type_=ChartType.LINES,
effect_opts=opts.EffectOpts(symbol=SymbolType.ARROW,
symbol_size=6,
color="blue"),
linestyle_opts=opts.LineStyleOpts(curve=0.2),
))
return path_plotly # 返回该HTML文件路径
def geo_lines_background() -> Geo:
c = (
Geo()
.add_schema(
maptype="china",
itemstyle_opts=opts.ItemStyleOpts(color="#323c48", border_color="#111"),
)
.add(
"",
[("广州", 55), ("北京", 66), ("杭州", 77), ("重庆", 88)],
type_=ChartType.EFFECT_SCATTER,
color="white",
)
.add(
"geo",
[("广州", "上海"), ("广州", "北京"), ("广州", "杭州"), ("广州", "重庆")],
type_=ChartType.LINES,
effect_opts=opts.EffectOpts(
symbol=SymbolType.ARROW, symbol_size=6, color="blue"
),
linestyle_opts=opts.LineStyleOpts(curve=0.2),
)
.set_series_opts(label_opts=opts.LabelOpts(is_show=False))
.set_global_opts(title_opts=opts.TitleOpts(title="Geo-Lines-background"))
)
return c
def polar_effectscatter() -> Polar:
data = [(i, random.randint(1, 100)) for i in range(10)]
c = (Polar().add(
"",
data,
type_="effectScatter",
effect_opts=opts.EffectOpts(scale=10, period=5),
label_opts=opts.LabelOpts(is_show=False),
).set_global_opts(title_opts=opts.TitleOpts(title="Polar-EffectScatter")))
return c
def geo_map() -> Geo:
output = (
Geo(init_opts=options.InitOpts(
width="700px",
height="500px",
bg_color="#FFFFFF",
page_title="全国疫情实时数据")).add_schema(
maptype="china",
itemstyle_opts=options.ItemStyleOpts(
color="RGB(204,204,204)",
border_color="rgb(204,51,51)"),
is_roam="false").add("geo",
data_pair=pc_list,
type_=GeoType.EFFECT_SCATTER).
set_series_opts(
label_opts=options.LabelOpts(is_show=False),
effect_opts=options.EffectOpts(scale=6)).set_global_opts(
visualmap_opts=options.VisualMapOpts(
is_piecewise=True,
pieces=[{
"min": 1,
"max": 9,
"label": '1到9人'
}, {
"min": 10,
"max": 99,
"label": '10到99人'
}, {
"min": 100,
"max": 499,
"label": '100到499人'
}, {
"min": 500,
"max": 999,
"label": '500到999人'
}, {
"min": 1000,
"max": 9999,
"label": '1000到9999人'
}, {
"min": 10000,
"label": '10000人以上'
}]),
title_opts=options.TitleOpts(
title="全国疫情热点地图",
subtitle=title_ncp_summary,
pos_left="center",
pos_top="10px",
title_textstyle_opts=options.TextStyleOpts(
color="#080808"),
subtitle_textstyle_opts=options.TextStyleOpts(
color="#080808")),
legend_opts=options.LegendOpts(is_show=False)) # 不显示图例
)
return output
def out_data(date_number):
city_list = ('南宁市', '柳州市', '桂林市', '梧州市', '北海市', '防城港市', '钦州市', '贵港市',
'玉林市', '百色市', '贺州市', '河池市', '来宾市', '崇左市')
city_od_list_pro = []
city_od_values_pro = []
for i in city_list:
city = i
workbook = xlrd.open_workbook(f'.\\{path}\\{city}-迁入来源地规模指数.xlsx')
sheet = workbook.sheet_by_index(0)
city_od_list = []
city_od_values = []
a = 0
cols = sheet.col_values(1)[1:]
cols_date = sheet.col_values(date_number + 1)[1:]
for j in cols:
city_od = (city, j)
city_od_v = (j, cols_date[a])
city_od_list.append(city_od)
city_od_values.append(city_od_v)
a += 1
city_od_list_pro.append(city_od_list)
city_od_values_pro.append(city_od_values)
od_list = []
os_values = []
for i in range(14):
for j in range(14):
od_list.append(city_od_list_pro[i][j])
os_values.append(city_od_values_pro[i][j])
# print(od_list)
# print(os_values)
geo = Geo()
# 地图类型,世界地图可换为world
geo.add_schema(maptype="广西")
# 添加数据点
geo.add("%", os_values, type_=ChartType.EFFECT_SCATTER)
# 添加流向,type_设置为LINES,涟漪配置为箭头,提供的标记类型包括 'circle', 'rect', 'roundRect', 'triangle',
# 'diamond', 'pin', 'arrow', 'none'
geo.add("迁出城市",
od_list,
type_=ChartType.LINES,
effect_opts=opts.EffectOpts(symbol=SymbolType.ARROW,
symbol_size=5,
color="yellow"),
linestyle_opts=opts.LineStyleOpts(curve=0.2),
is_large=True)
# 不显示标签
geo.set_series_opts(label_opts=opts.LabelOpts(is_show=False))
# 设置图标标题,visualmap_opts=opts.VisualMapOpts()为左下角的视觉映射配置项
geo.set_global_opts(visualmap_opts=opts.VisualMapOpts(),
title_opts=opts.TitleOpts(title="广西地市迁徙数据"))
# 直接在notebook里显示图表
geo.render_notebook()
# 生成html文件,可传入位置参数
geo.render(f".\\out_od\\广西-2020.10.{date_number}迁出OD图.html")
def plot():
# 初始化图表信息
geo = Geo(init_opts=opts.InitOpts(width="96vw",
height="96vh",
page_title="教育网拓扑图",
animation_opts=opts.AnimationOpts(
animation=False)))
# 添加地图
geo.add_schema(maptype="china")
# 添加所有点的地理信息
geo.add_coordinate_json("./data/data.json")
# 画中间节点
geo.add("Route", [(i, "Route") for i in Nodes_Route],
color="Red",
point_size=4,
symbol_size=4,
effect_opts=opts.EffectOpts(is_show=False))
# 画目的节点
geo.add("Dst", [(i, "Dst") for i in Nodes_Dst],
color="SeaGreen",
point_size=4,
symbol_size=4,
effect_opts=opts.EffectOpts(is_show=False))
# 画线 展示拓扑信息
geo.add("",
list(Trace),
type_=ChartType.LINES,
effect_opts=opts.EffectOpts(is_show=False, symbol_size=2),
linestyle_opts=opts.LineStyleOpts(curve=0.1))
geo.set_series_opts(label_opts=opts.LabelOpts(is_show=False))
geo.set_global_opts(title_opts=opts.TitleOpts(title="教育网拓扑图"))
# 生成图表到指定文件
geo.render("./dist/render.html")
def geo_lines(new_location_line, location_info) -> Geo:
c = (Geo().add_schema(maptype="china").add_coordinate_json(
json_file='location.json').add(
"仓库",
location_info,
type_=ChartType.EFFECT_SCATTER,
color="#ADD8E6",
).add(
"线路",
new_location_line,
type_=ChartType.LINES,
effect_opts=opts.EffectOpts(symbol=SymbolType.ARROW,
symbol_size=3,
color="purple",
is_show=True),
linestyle_opts=opts.LineStyleOpts(curve=0.2),
).set_series_opts(label_opts=opts.LabelOpts(
is_show=True, position="middle", formatter="{b}")).set_global_opts(
title_opts=opts.TitleOpts(title="网络")))
# c = (
# Geo()
# .add_schema(maptype="china")
# .add_coordinate_json(json_file=new_location_records)
# .add(
# "",
# [("广州", 55), ("北京", 66), ("杭州", 77), ("重庆", 88)],
# type_=ChartType.EFFECT_SCATTER,
# color="white",
# )
# .add(
# "geo",
# [("广州", "上海"), ("广州", "北京"), ("广州", "杭州"), ("广州", "重庆"), ("重庆", "北京")],
# type_=ChartType.LINES,
# effect_opts=opts.EffectOpts(
# symbol=SymbolType.ARROW, symbol_size=6, color="purple"
# ),
# linestyle_opts=opts.LineStyleOpts(curve=0.2),
# )
# .set_series_opts(label_opts=opts.LabelOpts(is_show=False))
# .set_global_opts(title_opts=opts.TitleOpts(title="Geo-Map-Lines"))
# )
# 返回 html
# return c.render_embed()
# 返回 json
# return c.dump_options()
# 但是无法加载
# c.render('geo_view.html')
return c.dump_options_with_quotes()
def test_bmap_effect_trail_length(fake_writer):
bmap = (BMap().add_schema(
baidu_ak=FAKE_API_KEY,
center=[-0.118092,
51.509865]).add_coordinate("London", -0.118092, 51.509865).add(
"bmap",
[list(z) for z in zip(TEST_LOCATION, TEST_VALUE)],
type_=ChartType.LINES,
effect_opts=opts.EffectOpts(trail_length=0.5),
label_opts=opts.LabelOpts(formatter="{b}"),
))
bmap.render("render.html")
content = fake_writer.call_args[0][1]
assert_in('"trailLength": 0.5', content, "trainLength parameter is error")
def geo_effectscatter(data, width, height) -> Geo:
data = [list(z) for z in zip(data.index, data.values)]
c = (
Geo(init_opts=opts.InitOpts(width="{}px".format(width), height="{}px".format(height)))
.add_schema(maptype="china", is_roam=False,
itemstyle_opts=opts.ItemStyleOpts(color='#0f1c2f', border_color="#ace3f0", border_color0='red'))
.add("各省通过率",
data,
type_=ChartType.EFFECT_SCATTER,
effect_opts=opts.EffectOpts(scale=1000), color="#d0f551")
.set_series_opts(label_opts=opts.LabelOpts(is_show=False))
.set_global_opts(legend_opts=opts.LegendOpts(is_show=False), toolbox_opts=opts.ToolboxOpts(pos_left='70%'))
)
return c
def net_work_map(self, source_list, cost, destination_list, demand, source,
destination) -> Geo:
"""
output the network map based on the source and destination pair.
:param source_list: the unique source list
:param cost: the cost of source list
:param destination_list: the unique destination list
:param demand: the demand of destination
:param source: the all source point
:param destination: the all destination point
:return:
"""
c = (
Geo().add_schema(maptype="china").add(
"", [z for z in zip(source_list, cost)],
type_=ChartType.SCATTER,
color='green',
symbol_size=5,
symbol="image://..\\icon\\warehouse_1.png").add(
"",
[z for z in zip(destination_list, demand)],
type_=ChartType.SCATTER,
color='black',
symbol_size=5,
# symbol="image://..\\icon\\customer.png"
).add(
"Network",
[list(z) for z in zip(source, destination)],
type_=ChartType.LINES,
symbol=[None, 'arrow'],
symbol_size=3,
effect_opts=opts.EffectOpts(
period=20,
scale=1,
symbol="image://..\\icon\\car.png",
symbol_size=15,
color="blue",
trail_length=0),
linestyle_opts=opts.LineStyleOpts(curve=0.1, opacity=0.3),
).set_series_opts(label_opts=opts.LabelOpts(
is_show=False)).set_global_opts(
title_opts=opts.TitleOpts(title="Allocation Network"),
visualmap_opts=opts.VisualMapOpts(is_piecewise=False,
max_=max(demand),
type_='size',
range_size=[10,
20])))
return c
def bmap_linemap() -> BMap:
c = (
BMap(init_opts=opts.InitOpts(
theme="white", width="1000px", height="600px")).add_schema(
baidu_ak=Baidu_AK,
center=[110.3131940000, 20.0274250000],
zoom=13) #缩放比例12-14之间可行
.set_global_opts(
title_opts=opts.TitleOpts(
title="10/01 国庆节 机场出发"), # 更改title====================
visualmap_opts=opts.VisualMapOpts(),
))
# 增加坐标点
for key, value in index_lngLat.items():
c.add_coordinate(key, value[0], value[1])
# 增加坐标点的值
c.add(
"",
index_value,
type_=ChartType.EFFECT_SCATTER,
symbol_size=4,
label_opts=opts.LabelOpts(is_show=False),
color="white",
)
# 增加连线图
c.add(
"行程起始-终止位置",
route_pair,
type_=ChartType.LINES,
is_large=True,
large_threshold=100,
effect_opts=opts.EffectOpts(symbol=SymbolType.ARROW,
symbol_size=5,
color="blue"),
linestyle_opts=opts.LineStyleOpts(curve=0.1, opacity=0.7),
)
# c.set_series_opts(label_opts=opts.LabelOpts(is_show=False))
c.add_control_panel(
navigation_control_opts=opts.BMapNavigationControlOpts(
offset_height=30),
scale_control_opts=opts.BMapScaleControlOpts(),
)
return c
def get_baidu_map_line(new_location_line) -> BMap:
baidu_map_key = config.get('baidu_ak')
c = (
BMap().add_schema(baidu_ak=baidu_map_key,
center=[120.13066322374, 30.240018034923]).
add(
"bmap",
new_location_line,
# [list(z) for z in zip(Faker.provinces, Faker.values())],
# label_opts=opts.LabelOpts(formatter="{b}"),
type_=GeoType.LINES,
effect_opts=opts.EffectOpts(symbol=SymbolType.ARROW,
symbol_size=6,
color="purple"),
linestyle_opts=opts.LineStyleOpts(curve=0.2),
).set_global_opts(title_opts=opts.TitleOpts(title="BMap-网络")))
# return c.render_embed()
return c.dump_options_with_quotes()
def set_goc(data,china_total):
num = len(data)
geo = (
Geo(init_opts=opts.InitOpts(width="1200px", height="600px", bg_color="#404a59", page_title="全国疫情实时报告",
renderer=RenderType.SVG, theme="white")) # 设置绘图尺寸,背景色,页面标题,绘制类型
.add_schema(maptype="china", itemstyle_opts=opts.ItemStyleOpts(color="rgb(49,60,72)",
border_color="rgb(0,0,0)")) # 中国地图,地图区域颜色,区域边界颜色
.add(series_name="geo", data_pair=data, type_=GeoType.EFFECT_SCATTER) # 设置地图数据,动画方式为涟漪特效effect scatter
.set_series_opts( # 设置系列配置
label_opts=opts.LabelOpts(is_show=False), # 不显示Label
effect_opts=opts.EffectOpts(scale=6)) # 设置涟漪特效缩放比例
.set_global_opts( # 设置全局系列配置
# visualmap_opts=opts.VisualMapOpts(min_=0, max_=sum / len(data)), # 设置视觉映像配置,最大值为平均值
visualmap_opts=opts.VisualMapOpts(min_=0, max_=num), # 设置视觉映像配置,最大值为平均值
title_opts=opts.TitleOpts(title="全国疫情地图", subtitle=china_total, pos_left="center", pos_top="10px",
title_textstyle_opts=opts.TextStyleOpts(color="#fff")), # 设置标题,副标题,标题位置,文字颜色
legend_opts=opts.LegendOpts(is_show=False), # 不显示图例
)
)
geo.render(path="./render.html")
def makeMap(self, data, lines) -> Geo:
count = len(lines)
c = (
Geo(init_opts=opts.InitOpts(
width='1000px', height='500px')).add_schema(
maptype="china",
zoom=1.1).add_coordinate_json('positions.json').add(
"", data, symbol_size=6, color='#725e82') # 标记点大小与颜色
.add(
"",
lines,
type_=ChartType.LINES,
linestyle_opts=opts.LineStyleOpts(curve=0.1,
width=1,
color='#1685a9'), # 连线的宽度与颜色
effect_opts=opts.EffectOpts(is_show=False)) # 关闭涟漪效果
.set_series_opts(label_opts=opts.LabelOpts(
is_show=False)).set_global_opts(title_opts=opts.TitleOpts(
title="【%s】民航班机航线图" % self.name,
subtitle='{}共有直飞全国{}个城市的航班'.format(self.name, count))))
return c
def get_gridbmap(message) -> BMap:
BAIDU_AK = "HOTBRAfU1jGcQKHBX15ucKsfZO722eyN"
pos = (117.20, 39.12)
#jscode = "console.log('hi hi');"#可嵌入jscode
#jscode = "functions(param){bmap.addEventListener('click', function(e){alert(e.point.lng + ','+ e.point.lat);});}"
#每两个点画一条线
j = [[{
"coord": [117.20, 39.12]
}, {
"coord": [118.21, 41.12]
}], [{
"coord": [119.21, 41.12]
}, {
"coord": [115.21, 41.12]
}]]
c = (
BMap().add_schema(
baidu_ak=BAIDU_AK, center=[117.20, 39.12], zoom=12).add(
"",
type_="lines",
data_pair=j,
is_polyline=True,
is_large=False,
linestyle_opts=opts.LineStyleOpts(color="purple",
opacity=0.6,
width=1),
).set_series_opts(effect_opts=opts.EffectOpts(is_show=False),
label_opts=opts.LabelOpts(is_show=False)).
add_control_panel(
scale_control_opts=opts.BMapScaleControlOpts(),
navigation_control_opts=opts.BMapNavigationControlOpts(),
maptype_control_opts=opts.BMapTypeControlOpts(),
#copyright_control_opts=opts.BMapCopyrightTypeOpts(copyright_="我的")
#geo_location_control_opts=opts.BMapGeoLocationControlOpts()
#overview_map_opts=opts.BMapOverviewMapControlOpts(is_open=True),
)
#.add_js_funcs(jscode)
#.set_global_opts(title_opts=opts.TitleOpts(title="BMap-基本示例"))
)
return c
def geo_ip() -> Bar:
# 连接数据库
print("geo_ip")
db = getattr(g, "_db", None)
col = db.trafficmodels
# 获取前端的传参user
user = request.args.get("user")
begintime = request.args.get("beginTime")
successtime = request.args.get("successtime")
# 如果没有指定用户,那么就返回第一个用户
if (user is None) | (user == "-1"):
user = col.find_one()["user"]
if begintime is None:
begintime = ""
if successtime is None:
successtime = ""
# 在这里进行判断,应该用什么样的查询语句
# 1. 用户名不为空,开始时间为空 ,上报时间为空
place = col.find_one({"user": user}, {"place": 1})["place"]
places = get_all_IP(user, begintime, successtime)
print("geo_ip")
list_place = []
for p in places:
list_place.append([place, p])
c = (Geo().add_schema(maptype="world").add_coordinate_json(
json_file="world_country.json").add(
"目的IP位置",
list_place,
type_=ChartType.LINES,
effect_opts=opts.EffectOpts(symbol=SymbolType.DIAMOND,
symbol_size=6,
color="blue"),
linestyle_opts=opts.LineStyleOpts(
curve=0.2,
opacity=0.2,
)).set_series_opts(label_opts=opts.LabelOpts(
is_show=False)).set_global_opts(
title_opts=opts.TitleOpts(title="目的IP交互图"),
tooltip_opts=opts.TooltipOpts(is_show=True)))
return c
def get_bmap(pos) -> BMap:
BAIDU_AK = "HOTBRAfU1jGcQKHBX15ucKsfZO722eyN"
#center = (117.20, 39.12)
c = BMap()
c.add_schema(baidu_ak=BAIDU_AK,
center=[117.20, 39.12],
zoom=10,
is_roam=False)
sequence = []
for i in range(len(pos)):
#print(pos[i])
c.add_coordinate(pos[i][0], pos[i][2], pos[i][1])
sequence.append((str(i), 5))
c.add(
"投诉坐标", #系列名称
sequence,
type_="scatter", #"heatmap" 可以切换显示的类型热力图或散点图
label_opts=opts.LabelOpts(formatter="{b}"),
symbol_size=4 #scatter大小
)
#.add("bmap",
#[{"coord":[117.21, 39.13],"sim":10},{"coord":[117.20, 39.13],"sim":20},{"coord":[117.21, 39.12],"sim":5}],
#[list(z) for z in zip(Faker.provinces, Faker.values())],#zip将迭代对像打包成元组最后的结果是[['浙江',v1],['广东',v2]]
#[[117.21, 39.13],[117.20, 39.12],[117.22, 39.10],[117.25, 39.11],[117.19, 39.02],[117.20, 39.12]],
#type_="heatmap",
#label_opts=opts.LabelOpts(formatter="{b}"))
c.set_series_opts(
effect_opts=opts.EffectOpts(is_show=True),
label_opts=opts.LabelOpts(is_show=False),
)
c.add_control_panel(
scale_control_opts=opts.BMapScaleControlOpts(),
navigation_control_opts=opts.BMapNavigationControlOpts(),
maptype_control_opts=opts.BMapTypeControlOpts())
#copyright_control_opts=opts.BMapCopyrightTypeOpts(copyright_="我的")
#geo_location_control_opts=opts.BMapGeoLocationControlOpts()
#overview_map_opts=opts.BMapOverviewMapControlOpts(is_open=True),
#c.set_global_opts(visualmap_opts=opts.VisualMapOpts(pos_left="right"))
return c
def get_geo(self):
china_total = "确诊:"+ str(self.all_data['chinaTotal']['confirm']) + \
" 疑似:" +str( self.all_data['chinaTotal']['suspect']) + \
" 死亡:" + str( self.all_data['chinaTotal']['dead']) + \
" 治愈:" + str(self.all_data['chinaTotal']['heal']) + \
" 更新日期:" + str(self.all_data['lastUpdateTime'])
geo = (
Geo(init_opts=opts.InitOpts(width="1200px",
height="600px",
bg_color="#404a59",
page_title="全国疫情实时报告",
renderer=RenderType.SVG,
theme="white")) #设置绘图尺寸,背景色,页面标题,绘制类型
.add_schema(maptype="china",
itemstyle_opts=opts.ItemStyleOpts(
color="rgb(49,60,72)",
border_color="rgb(0,0,0)")) #中国地图,地图区域颜色,区域边界颜色
.add(series_name="geo",
data_pair=self.data_pair,
type_=GeoType.EFFECT_SCATTER) #设置地图数据,动画方式为涟漪特效effect scatter
.set_series_opts( #设置系列配置
label_opts=opts.LabelOpts(is_show=False), #不显示Label
effect_opts=opts.EffectOpts(scale=6)) #设置涟漪特效缩放比例
.set_global_opts( #设置全局系列配置
visualmap_opts=opts.VisualMapOpts(min_=0,
max_=100), #设置视觉映像配置,最大值为平均值
title_opts=opts.TitleOpts(
title="全国疫情地图",
subtitle=china_total,
pos_left="center",
pos_top="10px",
title_textstyle_opts=opts.TextStyleOpts(
color="#fff")), #设置标题,副标题,标题位置,文字颜色
legend_opts=opts.LegendOpts(is_show=False), #不显示图例
))
return geo
def in_data(city, date_number):
workbook = xlrd.open_workbook(f'.\\{path}\\{city}-迁入来源地规模指数.xlsx')
sheet = workbook.sheet_by_index(0)
city_od_list = []
city_od_values = []
a = 0
cols = sheet.col_values(1)[1:]
cols_date = sheet.col_values(date_number + 1)[1:]
for j in cols:
city_od = (j, city)
city_od_v = (j, cols_date[a])
city_od_list.append(city_od)
city_od_values.append(city_od_v)
a += 1
geo = Geo()
# 地图类型,世界地图可换为world
geo.add_schema(maptype="广西")
# 添加数据点
geo.add("%", city_od_values, type_=ChartType.EFFECT_SCATTER)
# 添加流向,type_设置为LINES,涟漪配置为箭头,提供的标记类型包括 'circle', 'rect', 'roundRect', 'triangle',
# 'diamond', 'pin', 'arrow', 'none'
geo.add("迁入城市",
city_od_list,
type_=ChartType.LINES,
effect_opts=opts.EffectOpts(symbol=SymbolType.ARROW,
symbol_size=5,
color="yellow"),
linestyle_opts=opts.LineStyleOpts(curve=0.2),
is_large=True)
# 不显示标签
geo.set_series_opts(label_opts=opts.LabelOpts(is_show=False))
# 设置图标标题,visualmap_opts=opts.VisualMapOpts()为左下角的视觉映射配置项
geo.set_global_opts(visualmap_opts=opts.VisualMapOpts(),
title_opts=opts.TitleOpts(title=f"{city}迁入数据"))
# 直接在notebook里显示图表
geo.render_notebook()
# 生成html文件,可传入位置参数
geo.render(f".\\in_od\\{city}-2020.10.{date_number}迁入OD图.html")
def map_line_test(self, num_city_list, city_list):
c = (
Geo(init_opts=opts.InitOpts(theme=ThemeType.DARK, width="800px"))
.add_schema(maptype="china")
.add(
"",
num_city_list,
type_=ChartType.EFFECT_SCATTER,
color="blue",
)
.add(
"2019下半年出差路线图",
city_list,
type_=ChartType.LINES,
effect_opts=opts.EffectOpts(
symbol=SymbolType.TRIANGLE, symbol_size=6, color="Lime"
),
linestyle_opts=opts.LineStyleOpts(curve=0.3, color="green"),
)
.set_series_opts(label_opts=opts.LabelOpts(is_show=False))
.set_global_opts(title_opts=opts.TitleOpts(title="出差路线图"))
)
return c
def geo_getmap() -> Geo:
c = (Geo().add_schema(
maptype="china",
itemstyle_opts=opts.ItemStyleOpts(color="#323c48",
border_color="#111"),
).add(
"",
allcases,
type_=ChartType.EFFECT_SCATTER,
color="white",
).add(
"",
traces,
type_=ChartType.LINES,
effect_opts=opts.EffectOpts(symbol=SymbolType.ARROW,
symbol_size=6,
color="red"),
linestyle_opts=opts.LineStyleOpts(curve=0.2),
).set_series_opts(label_opts=opts.LabelOpts(
is_show=False)).set_global_opts(title_opts=opts.TitleOpts(
title="2019-nCoV Trace Map(China)")))
make_snapshot(snapshot, c.render(), "tracemap.png")
def get_mymap(message) -> Geo:
pos = (117.20, 39.12)
tianjing_map = (
Geo().add_schema(maptype="北京", is_roam=False)
# 加入自定义的点,格式为
#.add_coordinate("测试点", pos[0],pos[1])
#.add(
# "测试点",[("测试点", 51)],type_="effectScatter",
# label_opts=opts.LabelOpts(formatter="{b}"),
#)
#.add_coordinate_json("./demo/coord.json")
# 为自定义的点添加属性
#.add("测试点",[("测试点", 51)],type_="effectScatter")
.add("bmap", [list(z) for z in zip(Faker.provinces, Faker.values())],
type_="heatmap",
label_opts=opts.LabelOpts(formatter="{b}"))
#.set_series_opts()
.set_series_opts(
label_opts=opts.LabelOpts(is_show=False),
effect_opts=opts.EffectOpts(is_show=True)).set_global_opts(
title_opts=opts.TitleOpts(title=message,
pos_right="center"), ))
return tianjing_map
title_opts=opts.TitleOpts(title="Geo-流向图"))
#添加主题,中国地图,填充及边界颜色设置
geo.add_schema(
maptype="china",
itemstyle_opts=opts.ItemStyleOpts( border_color="#111", color="#454545"),
)
#添加系列
geo.add(
"",
[("成都",10),("合肥",20),("宁波",30),("武汉",40),("西安",50),("郑州",60),("大连",70),("济南",80)],
type_=ChartType.EFFECT_SCATTER, #散点图的一种形式
label_opts=opts.LabelOpts(is_show = True), #不显示数值则设置为False
# color="red"
)
geo.add(
"",
[("北京", 100), ("上海", 100)],
type_=ChartType.HEATMAP, #散点的另一种形式
label_opts=opts.LabelOpts(is_show=False)
)
#设置流向
geo.add(
"流向图",
[("上海","成都"),("上海","合肥"),("上海","宁波"),("上海","武汉"),("上海","西安"),("北京","郑州"),("北京","大连"),("北京","济南")],
type_=ChartType.LINES,
linestyle_opts=opts.LineStyleOpts(curve=0.3,color="#63B8FF"), #基本线条的弯曲程度及颜色,英文及RGB都行
effect_opts=opts.EffectOpts(symbol=SymbolType.ARROW, symbol_size=6, color="#FF7F00") # 流向线条的形式、颜色
)
#生成图片
geo.render('geo1.html')
