238 lines
8.6 KiB
Python
238 lines
8.6 KiB
Python
#!/usr/bin/python
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# vim: set fileencoding=utf-8 :
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import numpy as np
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import matplotlib.pyplot as plt
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import pandas as pd
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import datetime
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import re
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import requests as req
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import locale
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import os.path
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import shutil
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locale.setlocale(locale.LC_ALL, 'de_DE.UTF-8')
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site_folder = 'site/'
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data_folder = 'data/'
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einwohner_deutschland = 83190556
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herd_immunity = 0.7
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today = datetime.date.today()
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print_today = today.isoformat()
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filename_now = datetime.datetime.now().strftime("%Y%m%d%H%M%S")
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# DIN A4 Plots
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plt.rcParams["figure.figsize"] = [11.69, 8.27]
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# Download
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data_filename = '{}/{}_Impfquotenmonitoring.xlsx'.format(data_folder, filename_now)
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r = req.get('https://www.rki.de/DE/Content/InfAZ/N/Neuartiges_Coronavirus/Daten/Impfquotenmonitoring.xlsx?__blob=publicationFile')
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with open(data_filename, 'wb') as outfile:
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outfile.write(r.content)
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rki_file = pd.read_excel(data_filename, sheet_name=None, engine='openpyxl')
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raw_data = rki_file['Impfungen_proTag']
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impfungen = raw_data[:-1].dropna()
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dates = impfungen['Datum']
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daily = impfungen['Gesamtzahl Impfungen']
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cumulative = np.cumsum(impfungen['Gesamtzahl Impfungen'])
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total_vaccinations = int(np.sum(daily))
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total_vaccinations_percentage = float(total_vaccinations) / einwohner_deutschland
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mean_vaccinations_daily = np.mean(daily)
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mean_vaccinations_daily_int = int(np.round(mean_vaccinations_daily))
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to_be_vaccinated = einwohner_deutschland - total_vaccinations
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days_extrapolated = int(np.ceil(to_be_vaccinated / mean_vaccinations_daily))
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extrapolated_dates = np.array([dates[0] + datetime.timedelta(days=i) for i in range(days_extrapolated)])
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mean_vaccinations_daily_done = extrapolated_dates[-1]
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mean_vaccinations_daily_herd_immunity = extrapolated_dates[int(np.ceil(days_extrapolated * herd_immunity))]
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days_extrapolated_with_todays_rate = int(np.ceil(to_be_vaccinated / daily.iloc[-1]))
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last_date = dates.iloc[-1]
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last_date_day_rate = daily.iloc[-1]
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last_date_day_rate_done = dates[0] + datetime.timedelta(days=days_extrapolated_with_todays_rate)
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last_date_day_rate_herd_immunity = dates[0] + datetime.timedelta(days=int(np.ceil(days_extrapolated_with_todays_rate * herd_immunity)))
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extrapolated_vaccinations = mean_vaccinations_daily * range(1, days_extrapolated + 1)
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days_since_start = (dates.iloc[-1].date() - dates[0].date()).days
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print(days_since_start)
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mean_vaccinations_last_seven_days = np.mean(daily[-7:])
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mean_vaccinations_last_seven_days_int = int(np.round(mean_vaccinations_last_seven_days))
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days_extrapolated_last_seven_days = int(np.ceil(to_be_vaccinated / mean_vaccinations_last_seven_days))
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extrapolated_vaccinations_last_seven_days = total_vaccinations + mean_vaccinations_last_seven_days * range(-days_since_start, days_extrapolated - days_since_start)
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mean_vaccinations_last_seven_days_done = dates.iloc[-1] + datetime.timedelta(days=days_extrapolated_last_seven_days)
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mean_vaccinations_last_seven_days_herd_immunity = dates.iloc[-1] + datetime.timedelta(days=int(np.ceil(days_extrapolated_last_seven_days * herd_immunity)))
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mean_vaccinations_daily_up_to_date = np.round(cumulative / range(1, len(cumulative) + 1))
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print(extrapolated_vaccinations[:20])
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print(extrapolated_vaccinations_last_seven_days[:20])
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print(cumulative)
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# Stand aus Daten auslesen
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#stand = dates.iloc[-1]
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#print_stand = stand.isoformat()
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# Stand aus offiziellen Angaben auslesen
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stand = rki_file['Erläuterung'].iloc[1][0]
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stand_regex = re.compile('^Datenstand: (\d\d.\d\d.\d\d\d\d, \d\d:\d\d) Uhr$')
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m = stand_regex.match(stand)
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stand_date = datetime.datetime.strptime(m.groups()[0], '%d.%m.%Y, %H:%M')
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print_stand = stand_date.isoformat()
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filename_stand = stand_date.strftime("%Y%m%d%H%M%S")
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archive_folder = site_folder + 'archive/' + filename_stand
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if os.path.isdir(archive_folder):
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print('Archive folder {} already exists'.format(archive_folder))
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else:
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os.mkdir(archive_folder)
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def plot_extrapolation_portion(percentage):
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print_percentage = int(percentage * 100)
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archive_plot_filename = '{}/extrapolated_to_{}_percent'.format(archive_folder, print_percentage)
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latest_plot_filename = '{}/extrapolated_to_{}_percent'.format(site_folder, print_percentage)
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if os.path.isfile(archive_plot_filename + '.pdf'):
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print('Plot {} already exists'.format(archive_plot_filename))
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return
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fig, ax = plt.subplots(1)
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plt.title(
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'Tägliche Impfquote, kumulierte Impfungen und lineare Extrapolation bis {:n} % der Bevölkerung Deutschlands\n'
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'Erstellung: {}, Datenquelle: RKI, Stand: {}\n'
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'Impfungen gesamt: {:n} ({:n} %), Durchschnittliche Impfrate: {:n} Impfungen/Tag'.format(
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print_percentage,
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print_today, print_stand,
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total_vaccinations, np.round(total_vaccinations_percentage * 100, 2), mean_vaccinations_daily_int
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)
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)
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ax2 = ax.twinx()
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ax.bar(dates, daily, label='Tägliche Impfungen', color='blue')
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ax.plot(dates, mean_vaccinations_daily_up_to_date, color='violet', label='Durchschnittliche Impfquote\nbis zu diesem Tag (inkl.)')
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ax2.set_ylim([0, einwohner_deutschland * percentage])
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ax2.set_xlim(xmax=dates[0] + datetime.timedelta(days=percentage * days_extrapolated))
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ax2.grid(True)
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ax2.plot(dates, cumulative, color='red', label='Kumulierte Impfungen')
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ax2.plot(extrapolated_dates, extrapolated_vaccinations, color='orange', label='Extrap. kumulierte Impfungen (Ø gesamt)\n{:n} Impfungen/Tag'.format(mean_vaccinations_daily_int))
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ax2.plot(extrapolated_dates, extrapolated_vaccinations_last_seven_days, color='goldenrod', label='Extrap. kumulierte Impfungen (Ø 7 Tage)\n{:n} Impfungen/Tag'.format(mean_vaccinations_last_seven_days_int))
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#ax2.plot()
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ax.legend(loc='upper left')
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ax.get_yaxis().get_major_formatter().set_scientific(False)
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ax.set_xlabel('Datum')
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ax.set_ylabel('Tägliche Impfungen')
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ax2.legend(loc='center right')
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ax2.get_yaxis().get_major_formatter().set_scientific(False)
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# Estimated percentage for herd immunity
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#ax2.axline((0, einwohner_deutschland * 0.7), slope=0, color='green')
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ax2.set_ylabel('Kumulierte Impfungen')
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plt.savefig(archive_plot_filename + '.pdf')
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plt.savefig(archive_plot_filename + '.png')
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plt.savefig(latest_plot_filename + '.pdf')
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plt.savefig(latest_plot_filename + '.png')
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plt.close()
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print('Created plot {} as pdf and png'.format(archive_plot_filename))
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plot_extrapolation_portion(0.1)
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plot_extrapolation_portion(0.7)
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plot_extrapolation_portion(1.0)
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def render_dashboard():
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dashboard_filename = 'site/index.xhtml'
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dashboard_archive_filename = 'site/archive/{}/index.xhtml'.format(filename_stand)
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stylesheet_filename = 'site/rki-dashboard.css'
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stylesheet_archive_filename = 'site/archive/{}/rki-dashboard.css'.format(filename_stand)
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if os.path.isfile(dashboard_archive_filename):
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print('Dashboard {} already exists'.format(dashboard_archive_filename))
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return
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from jinja2 import Template, Environment, FileSystemLoader, select_autoescape
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env = Environment(
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loader=FileSystemLoader('./'),
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autoescape=select_autoescape(['html', 'xml', 'xhtml'])
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)
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german_text_date_format = '%d. %B %Y'
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df = german_text_date_format
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german_text_datetime_format = '%d. %B %Y, %H:%M:%S Uhr'
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dtf = german_text_datetime_format
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latest_dashboard_filename = site_folder + 'index.xhtml'
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archive_dashboard_filename = archive_folder
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template = env.get_template('dashboard_template.xhtml')
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template.stream(
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stand = stand_date.strftime(dtf),
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filename_stand = filename_stand,
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einwohner_deutschland = '{:n}'.format(einwohner_deutschland).replace('.', ' '),
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herd_immunity = '{:n}'.format(int(herd_immunity * 100)),
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total_vaccinations = '{:n}'.format(total_vaccinations).replace('.', ' '),
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total_vaccinations_percentage = '{:.3n}'.format(total_vaccinations_percentage * 100),
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days_since_start = days_since_start,
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last_date = last_date.strftime(df),
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last_date_day_rate = '{:n}'.format(last_date_day_rate).replace('.', ' '),
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mean_vaccinations_daily = '{:n}'.format(mean_vaccinations_daily_int).replace('.', ' '),
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mean_vaccinations_daily_herd_immunity = mean_vaccinations_daily_herd_immunity.strftime(df),
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mean_vaccinations_daily_done = mean_vaccinations_daily_done.strftime(df),
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last_date_day_rate_herd_immunity = last_date_day_rate_herd_immunity.strftime(df),
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last_date_day_rate_done = last_date_day_rate_done.strftime(df),
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mean_vaccinations_last_seven_days = '{:n}'.format(mean_vaccinations_last_seven_days_int).replace('.', ' '),
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mean_vaccinations_last_seven_days_herd_immunity = mean_vaccinations_last_seven_days_herd_immunity.strftime(df),
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mean_vaccinations_last_seven_days_done = mean_vaccinations_last_seven_days_done.strftime(df)
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).dump('site/index.xhtml')
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shutil.copyfile(dashboard_filename, dashboard_archive_filename)
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shutil.copyfile(stylesheet_filename, stylesheet_archive_filename)
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print('Created dashboard')
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render_dashboard()
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