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wwwz/data14_analysis.py

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# data14_analysis.py
import matplotlib.pyplot as plt
import numpy as np
import pandas as pd
import math
def tem_curve(data):
"""温度曲线绘制"""
date = list(data['日期'])
tem_low = list(data['最低气温'])
tem_high = list(data['最高气温'])
for i in range(0, 14):
if math.isnan(tem_low[i]) == True:
tem_low[i] = tem_low[i - 1]
if math.isnan(tem_high[i]) == True:
tem_high[i] = tem_high[i - 1]
tem_high_ave = sum(tem_high) / 14 # 求平均高温
tem_low_ave = sum(tem_low) / 14 # 求平均低温
tem_max = max(tem_high)
tem_max_date = tem_high.index(tem_max) # 求最高温度
tem_min = min(tem_low)
tem_min_date = tem_low.index(tem_min) # 求最低温度
x = range(1, 15)
plt.figure(1)
plt.plot(x, tem_high, color='red', label='高温') # 画出高温度曲线
plt.scatter(x, tem_high, color='red') # 点出每个时刻的温度点
plt.plot(x, tem_low, color='blue', label='低温') # 画出低温度曲线
plt.scatter(x, tem_low, color='blue') # 点出每个时刻的温度点
plt.plot([1, 15], [tem_high_ave, tem_high_ave], c='black', linestyle='--') # 画出平均温度虚线
plt.plot([1, 15], [tem_low_ave, tem_low_ave], c='black', linestyle='--') # 画出平均温度虚线
plt.legend()
plt.text(tem_max_date + 0.15, tem_max + 0.15, str(tem_max), ha='center', va='bottom', fontsize=10.5) # 标出最高温度
plt.text(tem_min_date + 0.15, tem_min + 0.15, str(tem_min), ha='center', va='bottom', fontsize=10.5) # 标出最低温度
plt.xticks(x)
plt.title('未来14天高温低温变化曲线图')
plt.xlabel('未来天数/天')
plt.ylabel('摄氏度/℃')
plt.show()
def change_wind(wind):
"""改变风向"""
for i in range(0, 14):
if wind[i] == "北风":
wind[i] = 90
elif wind[i] == "南风":
wind[i] = 270
elif wind[i] == "西风":
wind[i] = 180
elif wind[i] == "东风":
wind[i] = 360
elif wind[i] == "东北风":
wind[i] = 45
elif wind[i] == "西北风":
wind[i] = 135
elif wind[i] == "西南风":
wind[i] = 225
elif wind[i] == "东南风":
wind[i] = 315
return wind
def wind_radar(data):
"""风向雷达图"""
wind1 = list(data['风向1'])
wind2 = list(data['风向2'])
wind_speed = list(data['风级'])
wind1 = change_wind(wind1)
wind2 = change_wind(wind2)
degs = np.arange(45, 361, 45)
temp = []
for deg in degs:
speed = []
# 获取 wind_deg 在指定范围的风速平均值数据
for i in range(0, 14):
if wind1[i] == deg:
speed.append(wind_speed[i])
if wind2[i] == deg:
speed.append(wind_speed[i])
if len(speed) == 0:
temp.append(0)
else:
temp.append(sum(speed) / len(speed))
print(temp)
N = 8
theta = np.arange(0. + np.pi / 8, 2 * np.pi + np.pi / 8, 2 * np.pi / 8)
# 数据极径
radii = np.array(temp)
# 绘制极区图坐标系
plt.axes(polar=True)
# 定义每个扇区的RGB值R,G,Bx越大对应的颜色越接近蓝色
colors = [(1 - x / max(temp), 1 - x / max(temp), 0.6) for x in radii]
plt.bar(theta, radii, width=(2 * np.pi / N), bottom=0.0, color=colors)
plt.title('未来14天风级图', x=0.2, fontsize=20)
plt.show()
def weather_pie(data):
"""绘制天气饼图"""
weather = list(data['天气'])
dic_wea = {}
for i in range(0, 14):
if weather[i] in dic_wea.keys():
dic_wea[weather[i]] += 1
else:
dic_wea[weather[i]] = 1
print(dic_wea)
explode = [0.01] * len(dic_wea.keys())
color = ['lightskyblue', 'silver', 'yellow', 'salmon', 'grey', 'lime', 'gold', 'red', 'green', 'pink']
plt.pie(dic_wea.values(), explode=explode, labels=dic_wea.keys(), autopct='%1.1f%%', colors=color)
plt.title('未来14天气候分布饼图')
plt.show()
def main():
plt.rcParams['font.sans-serif'] = ['SimHei'] # 解决中文显示问题
plt.rcParams['axes.unicode_minus'] = False # 解决负号显示问题
data14 = pd.read_csv('C:\\Users\\杨官瑜\\PycharmProjects\\pythonProject5\\weather14.csv', encoding='gb2312')
print(data14)
tem_curve(data14)
wind_radar(data14)
weather_pie(data14)
if __name__ == '__main__':
main()