import matplotlib.pyplot as plt
import pandas as pd
from pylab import mpl

mpl.rcParams["font.sans-serif"] = ["SimHei"]

data = {'频率比例w/wr': [1.036, 1.030, 1.025, 1.020, 1.012, 1.007, 1.002,0.997,0.993,0.990,0.986,0.977,0.969],
        '振幅测量值θ（度）': [51, 60, 68, 81, 107, 122, 132, 135, 127,115,103,76,61]}
df = pd.DataFrame(data)
df.set_index('频率比例w/wr', inplace=True)

df.plot(kind='line', y='振幅测量值θ（度）', marker='o')

plt.title('幅频特性曲线')
plt.xlabel('频率比例w/wr')
plt.ylabel('振幅测量值θ（度）')

df_reset = df.reset_index()

for i, txt in enumerate(df_reset['振幅测量值θ（度）']):
    plt.annotate(f'({df_reset["振幅测量值θ（度）"][i]}, {df_reset["频率比例w/wr"][i]:.3f})', (df_reset['频率比例w/wr'][i], df_reset['振幅测量值θ（度）'][i]), ha='center',
                 va='bottom', textcoords='offset points', xytext=(0, 5))

plt.show()

import matplotlib.pyplot as plt
import pandas as pd
from pylab import mpl

mpl.rcParams["font.sans-serif"] = ["Microsoft YaHei"]

data = {'频率比例w/wr': [1.036, 1.030, 1.025, 1.020, 1.012, 1.007, 1.002,0.997,0.993,0.990,0.986,0.977,0.969],
        '相位差测量值£（度）': [-161, -155,-150,-144,-135,-123,-103,-85,-70,-60,-50,-40,-30]}
df = pd.DataFrame(data)
df.set_index('频率比例w/wr', inplace=True)

df.plot(kind='line', y='相位差测量值£（度）', marker='o')

plt.title('相频特性曲线')
plt.xlabel('频率比例w/wr')
plt.ylabel('相位差测量值£（度）')

df_reset = df.reset_index()

for i, txt in enumerate(df_reset['相位差测量值£（度）']):
    plt.annotate(f'({df_reset["相位差测量值£（度）"][i]}, {df_reset["频率比例w/wr"][i]:.3f})', (df_reset['频率比例w/wr'][i], df_reset['相位差测量值£（度）'][i]), ha='center',
                 va='bottom', textcoords='offset points', xytext=(0, 5))

plt.show()