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try-except around all_country-plotting

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fordprefect
2020-10-21 14:05:19 +02:00
parent 0276a9c6c4
commit 45cb014a5c
2 changed files with 87 additions and 84 deletions
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169
all_countries.py
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@@ -23,91 +23,94 @@ def plot(data, countries, pop):
figsize = (10,5)
for loc in data:
if loc == "International":
continue
name = basename+loc
time, new_cases, new_deaths, total_cases, total_deaths = data[loc]
fig, ax1 = pp.subplots(num=name, figsize=figsize)
ax2 = ax1.twinx()
ax2.plot(time, np.array(total_deaths)*10, label="Total deaths (x10)", marker="", linestyle="--", color="green")
ax2.plot(time, total_cases, label=f"Total cases", marker="", linestyle="-", color="blue")
ax1.plot(time, np.array(new_deaths)*10, label="raw new deaths (x10)", color="grey", linestyle=":")
ax1.plot(time[3:-3], np.convolve(new_deaths, np.ones((7,))/7, mode="valid")*10, label="new deaths 7day mean (x10)", color="black", linestyle="--", linewidth=2)
ax1.plot(time, new_cases, label="raw new cases", color="grey", linestyle="-")
ax1.plot(time[3:-3], np.convolve(new_cases, np.ones((7,))/7, mode="valid"), label="new cases 7day mean", color="orange", linestyle="-", linewidth=2)
# fix lower bound of plot
for ax in (ax1, ax2):
axis = ax.axis()
if ax is ax1: # adjust left (new cases) axes upper boundary for given countries
if loc in corr:
axis = [axis[0], axis[1], axis[2], corr[loc]]
ax.axis([axis[0], axis[1], -1, axis[3]])
# if we know population: plot 500 new cases / 1million inhabitants as a rough measure for comparison
# also set color for infection level indicator
infection_level_indicator = "grey"
try:
#if False:
warn_thresh = 500e-6 * pop[loc]['pop']/7
info_thresh = 50e-6 * pop[loc]['pop']/7
low_thresh = 5e-6 * pop[loc]['pop']/7
actual_level = np.mean(new_cases[-7:])
infection_level_indicator = "green"
if actual_level > low_thresh:
infection_level_indicator = "gold"
if actual_level > info_thresh:
infection_level_indicator = "peru"
if actual_level > warn_thresh:
infection_level_indicator = "r"
bounds = ax1.axis()
# for small population numbers, give floats instead of ints
if pop[loc]['pop'] < 5e6:
ax1.plot([bounds[0], bounds[1]], [warn_thresh]*2, color="red", linestyle=":", label=f"500 new cases / week / 1M inh.: {warn_thresh:1.2f}".replace(",", "."))
ax1.plot([bounds[0], bounds[1]], [info_thresh]*2, color="peru", linestyle=":", label=f"50 new cases / week / 1M inh.: {info_thresh:1.2f}".replace(",", "."))
ax1.plot([bounds[0], bounds[1]], [low_thresh]*2, color="gold", linestyle=":", label=f"5 new cases / week / 1M inh.: {low_thresh:1.2f}".replace(",", "."))
else: # but not for big populations
ax1.plot([bounds[0], bounds[1]], [warn_thresh]*2, color="red", linestyle=":", label=f"500 new cases / week / 1M inh.: {int(warn_thresh):,}".replace(",", "."))
ax1.plot([bounds[0], bounds[1]], [info_thresh]*2, color="peru", linestyle=":", label=f"50 new cases / week / 1M inh.: {int(info_thresh):,}".replace(",", "."))
ax1.plot([bounds[0], bounds[1]], [low_thresh]*2, color="gold", linestyle=":", label=f"5 new cases / week / 1M inh.: {int(low_thresh):,}".replace(",", "."))
ax1.axis(bounds)
except:
print(f"=====> population unknown for {loc}, skipping plot enhancements")
if loc == "International":
continue
name = basename+loc
time, new_cases, new_deaths, total_cases, total_deaths = data[loc]
fig, ax1 = pp.subplots(num=name, figsize=figsize)
# disabled for now: put second total-cases-per-million-inhabitants axis besides total-cases-axis
if loc in pop and False:
# according to https://matplotlib.org/3.2.2/gallery/axisartist/demo_parasite_axes.html
host1 = HostAxes(ax1, [0.15, 0.1, 0.65, 0.8])
par1 = ParasiteAxes(host1, sharex=host1)
host1.append(par1)
host2 = HostAxes(ax2, [0.15, 0.1, 0.65, 0.8])
par2 = ParasiteAxes(host2, sharex=host1)
host2.append(par2)
ax3 = ax1.twinx()
ax3.plot(time, total_cases*1e6/pop[loc]['pop'], linestyle="", marker="")
ax3.set_ylabel("total cases per 1M inhabitants")
ax2 = ax1.twinx()
ax2.plot(time, np.array(total_deaths)*10, label="Total deaths (x10)", marker="", linestyle="--", color="green")
ax2.plot(time, total_cases, label=f"Total cases", marker="", linestyle="-", color="blue")
# plot infection level indicator
ax1.annotate('Infection status:', xy=(0.85, 1.02), xycoords="axes fraction")
ax1.annotate('', xy=(0.99, 1.02), xycoords="axes fraction", color=infection_level_indicator, fontsize="x-large")
#ax1.xticks(rotation=45)
#ax1.set_xlabel("date")
ax1.set_ylabel("new cases")
ax2.set_ylabel("total cases")
fig.legend(frameon=False, loc="upper left", bbox_to_anchor=(0,1), bbox_transform=ax1.transAxes)
title = loc
if loc in pop:
#pp.title(f"{loc}", population = "+f"{pop[loc]['pop']:,}".replace(",","."))
title += ", population = "+f"{pop[loc]['pop']:,}".replace(",",".")
ax1.set_title(title)
fig.tight_layout()
pp.text(0.002,0.005, f"plot generated {time_module.strftime('%Y-%m-%d %H:%M')}, CC-by-sa-nc, origin: dukun.de/corona, datasource: ourworldindata.org/coronavirus-source-data", color="dimgrey", fontsize=8, transform=fig.transFigure)
ax1.plot(time, np.array(new_deaths)*10, label="raw new deaths (x10)", color="grey", linestyle=":")
ax1.plot(time[3:-3], np.convolve(new_deaths, np.ones((7,))/7, mode="valid")*10, label="new deaths 7day mean (x10)", color="black", linestyle="--", linewidth=2)
pp.savefig("ac_"+name+".png")
pp.close(fig)
ax1.plot(time, new_cases, label="raw new cases", color="grey", linestyle="-")
ax1.plot(time[3:-3], np.convolve(new_cases, np.ones((7,))/7, mode="valid"), label="new cases 7day mean", color="orange", linestyle="-", linewidth=2)
# fix lower bound of plot
for ax in (ax1, ax2):
axis = ax.axis()
if ax is ax1: # adjust left (new cases) axes upper boundary for given countries
if loc in corr:
axis = [axis[0], axis[1], axis[2], corr[loc]]
ax.axis([axis[0], axis[1], -1, axis[3]])
# if we know population: plot 500 new cases / 1million inhabitants as a rough measure for comparison
# also set color for infection level indicator
infection_level_indicator = "grey"
try:
#if False:
warn_thresh = 500e-6 * pop[loc]['pop']/7
info_thresh = 50e-6 * pop[loc]['pop']/7
low_thresh = 5e-6 * pop[loc]['pop']/7
actual_level = np.mean(new_cases[-7:])
infection_level_indicator = "green"
if actual_level > low_thresh:
infection_level_indicator = "gold"
if actual_level > info_thresh:
infection_level_indicator = "peru"
if actual_level > warn_thresh:
infection_level_indicator = "r"
bounds = ax1.axis()
# for small population numbers, give floats instead of ints
if pop[loc]['pop'] < 5e6:
ax1.plot([bounds[0], bounds[1]], [warn_thresh]*2, color="red", linestyle=":", label=f"500 new cases / week / 1M inh.: {warn_thresh:1.2f}".replace(",", "."))
ax1.plot([bounds[0], bounds[1]], [info_thresh]*2, color="peru", linestyle=":", label=f"50 new cases / week / 1M inh.: {info_thresh:1.2f}".replace(",", "."))
ax1.plot([bounds[0], bounds[1]], [low_thresh]*2, color="gold", linestyle=":", label=f"5 new cases / week / 1M inh.: {low_thresh:1.2f}".replace(",", "."))
else: # but not for big populations
ax1.plot([bounds[0], bounds[1]], [warn_thresh]*2, color="red", linestyle=":", label=f"500 new cases / week / 1M inh.: {int(warn_thresh):,}".replace(",", "."))
ax1.plot([bounds[0], bounds[1]], [info_thresh]*2, color="peru", linestyle=":", label=f"50 new cases / week / 1M inh.: {int(info_thresh):,}".replace(",", "."))
ax1.plot([bounds[0], bounds[1]], [low_thresh]*2, color="gold", linestyle=":", label=f"5 new cases / week / 1M inh.: {int(low_thresh):,}".replace(",", "."))
ax1.axis(bounds)
except:
print(f"=====> population unknown for {loc}, skipping plot enhancements")
# disabled for now: put second total-cases-per-million-inhabitants axis besides total-cases-axis
if loc in pop and False:
# according to https://matplotlib.org/3.2.2/gallery/axisartist/demo_parasite_axes.html
host1 = HostAxes(ax1, [0.15, 0.1, 0.65, 0.8])
par1 = ParasiteAxes(host1, sharex=host1)
host1.append(par1)
host2 = HostAxes(ax2, [0.15, 0.1, 0.65, 0.8])
par2 = ParasiteAxes(host2, sharex=host1)
host2.append(par2)
ax3 = ax1.twinx()
ax3.plot(time, total_cases*1e6/pop[loc]['pop'], linestyle="", marker="")
ax3.set_ylabel("total cases per 1M inhabitants")
# plot infection level indicator
ax1.annotate('Infection status:', xy=(0.85, 1.02), xycoords="axes fraction")
ax1.annotate('', xy=(0.99, 1.02), xycoords="axes fraction", color=infection_level_indicator, fontsize="x-large")
#ax1.xticks(rotation=45)
#ax1.set_xlabel("date")
ax1.set_ylabel("new cases")
ax2.set_ylabel("total cases")
fig.legend(frameon=False, loc="upper left", bbox_to_anchor=(0,1), bbox_transform=ax1.transAxes)
title = loc
if loc in pop:
#pp.title(f"{loc}", population = "+f"{pop[loc]['pop']:,}".replace(",","."))
title += ", population = "+f"{pop[loc]['pop']:,}".replace(",",".")
ax1.set_title(title)
fig.tight_layout()
pp.text(0.002,0.005, f"plot generated {time_module.strftime('%Y-%m-%d %H:%M')}, CC-by-sa-nc, origin: dukun.de/corona, datasource: ourworldindata.org/coronavirus-source-data", color="dimgrey", fontsize=8, transform=fig.transFigure)
pp.savefig("ac_"+name+".png")
pp.close(fig)
except Exception as e:
print(f"=====> plotting failed for {loc}, skipping plot. Error: {e}")

2
index.html
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@@ -12,7 +12,7 @@
<h4>Idee</h4>
Automatisierte Übersichtsplots für die ganze Welt, analog zu <a href=https://covh.github.io/cov19de/>dieser Seite</a>.
Automatisierte Übersichtsplots für die ganze Welt, analog zu <a href=https://covh.github.io/cov19de/pages/Deutschland.html>dieser Seite</a>.
<br><br>
Achtung: Die hier dargestellten Daten sind zwischen den Ländern kaum vergleichbar, da überall unterschiedliche Kriterien für Testung, Zählung und Meldung von Daten existieren.
Ohne genaue Kenntnis der Situationen in den einzelnen Ländern ist ein aussagekräftiger Vergleich <b>nicht möglich</b>!