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@ -5,7 +5,7 @@ import numpy as np |
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import datetime |
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import math |
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from scipy import interpolate |
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plt.rcParams['font.sans-serif'] = ['SimHei'] |
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plt.rcParams['axes.unicode_minus'] = False |
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#打开数据文件 |
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@ -20,10 +20,11 @@ dataset = dataset.fillna(0) |
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dataset['Date'] = pd.to_datetime(dataset['Date']) |
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#对China数据进行可视化操作 |
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China = dataset[dataset['Country/Region'] == 'China'].reset_index(drop=True) |
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#对China\US数据进行可视化操作 |
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China = dataset[dataset['Country/Region'] == 'China'].reset_index(drop=True) |
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US = dataset[dataset['Country/Region'] == 'US'].reset_index(drop=True) |
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#计算每日治愈率/确诊人数/治愈人数(分月份显示) |
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#计算中\美每日治愈率/确诊人数/治愈人数(分月份显示) |
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dfChinaJan = China[China['Date'].dt.month == 1] |
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dfChinaFeb = China[China['Date'].dt.month == 2] |
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dfChinaMar = China[China['Date'].dt.month == 3] |
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@ -37,21 +38,68 @@ dfChinaOct = China[China['Date'].dt.month == 10] |
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dfChinaNov = China[China['Date'].dt.month == 11] |
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dfChinaDec = China[China['Date'].dt.month == 12] |
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confirmed = [dfChinaJan['Confirmed'].sum(),dfChinaFeb['Confirmed'].sum(),dfChinaMar['Confirmed'].sum(),dfChinaApr['Confirmed'].sum(), |
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dfUSJan = US[US['Date'].dt.month == 1] |
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dfUSFeb = US[US['Date'].dt.month == 2] |
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dfUSMar = US[US['Date'].dt.month == 3] |
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dfUSApr = US[US['Date'].dt.month == 4] |
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dfUSMay = US[US['Date'].dt.month == 5] |
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dfUSJun = US[US['Date'].dt.month == 6] |
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dfUSJul = US[US['Date'].dt.month == 7] |
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dfUSAug = US[US['Date'].dt.month == 8] |
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dfUSSept = US[US['Date'].dt.month == 9] |
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dfUSOct = US[US['Date'].dt.month == 10] |
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dfUSNov = US[US['Date'].dt.month == 11] |
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dfUSDec = US[US['Date'].dt.month == 12] |
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confirmedChina = [dfChinaJan['Confirmed'].sum(),dfChinaFeb['Confirmed'].sum(),dfChinaMar['Confirmed'].sum(),dfChinaApr['Confirmed'].sum(), |
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dfChinaMay['Confirmed'].sum(),dfChinaJun['Confirmed'].sum(),dfChinaJul['Confirmed'].sum(),dfChinaAug['Confirmed'].sum(), |
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dfChinaSept['Confirmed'].sum(),dfChinaOct['Confirmed'].sum(),dfChinaNov['Confirmed'].sum(),dfChinaDec['Confirmed'].sum()] |
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recovered = [dfChinaJan['Recovered'].sum(),dfChinaFeb['Recovered'].sum(),dfChinaMar['Recovered'].sum(),dfChinaApr['Recovered'].sum(), |
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recoveredChina = [dfChinaJan['Recovered'].sum(),dfChinaFeb['Recovered'].sum(),dfChinaMar['Recovered'].sum(),dfChinaApr['Recovered'].sum(), |
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dfChinaMay['Recovered'].sum(),dfChinaJun['Recovered'].sum(),dfChinaJul['Recovered'].sum(),dfChinaAug['Recovered'].sum(), |
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dfChinaSept['Recovered'].sum(),dfChinaOct['Recovered'].sum(),dfChinaNov['Recovered'].sum(),dfChinaDec['Recovered'].sum()] |
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recoverPoss = [] |
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for i in range(len(confirmed)): |
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recoverPoss.append(recovered[i] / confirmed[i]) |
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date = pd.date_range(start='2020-01', periods=12, freq="m").strftime('%Y-%m') |
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recoverPossChina = [] |
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confirmedUS = [dfUSJan['Confirmed'].sum(),dfUSFeb['Confirmed'].sum(),dfUSMar['Confirmed'].sum(),dfUSApr['Confirmed'].sum(), |
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dfUSMay['Confirmed'].sum(),dfUSJun['Confirmed'].sum(),dfUSJul['Confirmed'].sum(),dfUSAug['Confirmed'].sum(), |
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dfUSSept['Confirmed'].sum(),dfUSOct['Confirmed'].sum(),dfUSNov['Confirmed'].sum(),dfUSDec['Confirmed'].sum()] |
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recoveredUS = [dfUSJan['Recovered'].sum(),dfUSFeb['Recovered'].sum(),dfUSMar['Recovered'].sum(),dfUSApr['Recovered'].sum(), |
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dfUSMay['Recovered'].sum(),dfUSJun['Recovered'].sum(),dfUSJul['Recovered'].sum(),dfUSAug['Recovered'].sum(), |
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dfUSSept['Recovered'].sum(),dfUSOct['Recovered'].sum(),dfUSNov['Recovered'].sum(),dfUSDec['Recovered'].sum()] |
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recoverPossUS = [] |
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for i in range(len(confirmedChina)): |
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recoverPossChina.append(recoveredChina[i] / confirmedChina[i]) |
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recoverPossUS.append(recoveredUS[i] / confirmedUS[i]) |
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#x轴为日期(月份) |
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date = pd.date_range(start='2020-01', periods=12, freq="m").strftime('%m') |
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fig = plt.figure() |
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ax1 = fig.add_subplot(111) |
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ax1.plot(date,confirmed,recovered) |
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#中国 |
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ax1 = fig.add_subplot(221) |
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ax1.set_title("Recovered/Confirmed/Recovery Possibility(month) of China",verticalalignment="bottom",fontsize="13") |
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data1 = ax1.plot(date,confirmedChina,color="red",linewidth="1.7",label="confirmed") |
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data2 = ax1.plot(date,recoveredChina,color="lime",linewidth="1.7",label="recovered") |
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ax1.set_ylabel('recovered/confirmed') |
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ax2 = ax1.twinx() |
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ax2.plot(date,recoverPoss) |
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ax2.set_ylabel('recovery possibility') |
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data3 = ax2.plot(date,recoverPossChina,color="blue",linestyle="--",linewidth="1.0",label="recovery possibility") |
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datasChina = data1 + data2 + data3 |
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labsChina = [d.get_label() for d in datasChina] |
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ax1.legend(datasChina, labsChina, loc="lower right") |
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#美国 |
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ax3 = fig.add_subplot(223) |
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ax3.set_title("Recovered/Confirmed/Recovery Possibility(month) of US",verticalalignment="bottom",fontsize="13") |
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data3 = ax3.plot(date,confirmedUS,color="red",linewidth="1.7",label="confirmed") |
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data4 = ax3.plot(date,recoveredUS,color="lime",linewidth="1.7",label="recovered") |
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ax3.set_ylabel('recovered/confirmed') |
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ax4 = ax3.twinx() |
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ax4.set_ylabel('recovery possibility') |
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data5 = ax4.plot(date,recoverPossUS,color="blue",linestyle="--",linewidth="1.0",label="recovery possibility") |
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datasUS = data3 + data4 + data5 |
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labsUS = [d.get_label() for d in datasUS] |
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ax3.legend(datasUS, labsUS, loc="upper left") |
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plt.show() |
