2022-10-16 17:16:25 +08:00
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import numpy as np
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from matplotlib import pyplot as plt
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from mpl_toolkits.basemap import Basemap
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def read_block(data):
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row_header = int(data[0].split(',')[1].strip())
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row_variable = int(data[0].split(',')[5].strip())
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row_column = int(data[0].split(',')[6].strip())
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row_data = int(data[0].split(',')[7].strip())
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var = data[row_header - row_variable:row_header]
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data = [tuple(s.replace('\n', '').strip() for s in row.split(',')) for row in data[row_header:-1]]
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dtype = []
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for row in var:
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row = [s.replace("'", '').strip() for s in row.split(',')]
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num = int(row[2])
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type_s = 'float' if num > 0 else 'string'
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for k in range(num):
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name_s = row[0] + ('_{:d}'.format(k + 1) if num > 1 else '')
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dtype.append((name_s, type_s))
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assert len(dtype) == row_column
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assert len(data) == row_data or row_data == -1
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data = np.array(data, dtype=dtype)
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return dtype, data
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def data_read(file):
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with open(file, 'r') as f:
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data = f.readlines()
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res = []
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idx_a, idx_b = 0, 0
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while idx_b < len(data):
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if data[idx_b].replace('\n', '') == "'End of Block'":
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res.append(read_block(data[idx_a:idx_b + 1]))
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idx_a = idx_b + 1
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idx_b += 1
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res.append(read_block(data[idx_a:]))
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return res
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def orbit():
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_, data = data_read('assets/orbit.csv')[0]
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lat, lon = data['Latitude'], data['Longitude'] - 180
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m = Basemap()
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m.drawcoastlines()
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m.fillcontinents(color='white', lake_color='lightskyblue')
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m.drawmapboundary(fill_color='skyblue')
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m.scatter(lon, lat, s=1)
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plt.savefig('docs/orbit.png', bbox_inches='tight')
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def GCR():
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_, data = data_read('assets/CREME86-M3.csv')[0]
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E = data['Energy']
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proton_i, proton_d = data['IFlux_1'], data['DFlux_1']
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alpha_i, alpha_d = data['IFlux_2'], data['DFlux_2']
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_, ax1 = plt.subplots(1, 1)
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ax1.plot(E, proton_i, linestyle=':', label=r'$p$')
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ax1.plot(E, alpha_i, linestyle=':', label=r'$\alpha$')
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ax1.set_ylim([1, 5 * 1e2])
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ax1.set_yscale('log')
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ax1.set_ylabel(r'$Integrated\ Flux\ (\mathrm{m^{-2}sr^{-1}s^{-1}})$')
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ax1.legend(loc="upper left")
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ax2 = ax1.twinx()
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ax2.plot(E, proton_d, label=r'$p$')
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ax2.plot(E, alpha_d, label=r'$\alpha$')
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ax2.set_ylim([1e-5, 5 * 1e-2])
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ax2.set_yscale('log')
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ax2.set_ylabel(r'$Differential\ Flux\ (\mathrm{m^{-2}sr^{-1}s^{-1}MeV^{-1}})$')
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ax2.legend(loc="upper right")
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ax1.set_xlabel(r'$Energy\ (\mathrm{MeV})$')
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ax1.set_xlim(1, 1e5)
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plt.title('Average spectra - M = 3')
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plt.xscale('log')
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plt.savefig('docs/spectra-M3.png', bbox_inches='tight')
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def sun():
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_, data = data_read('assets/sun.csv')[1]
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E = data['Energy']
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proton_i, proton_d = data['IFlux_1'], data['DFlux_1']
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alpha_i, alpha_d = data['IFlux_2'], data['DFlux_2']
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_, ax1 = plt.subplots(1, 1, dpi=150)
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ax1.plot(E, proton_i, linestyle=':', label=r'$p$')
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ax1.plot(E, alpha_i, linestyle=':', label=r'$\alpha$')
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ax1.set_ylim([1e-2, 5 * 1e3])
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ax1.set_yscale('log')
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ax1.set_ylabel(r'$Integrated\ Flux\ (\mathrm{cm^{-2}})$')
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ax1.legend(loc="upper left")
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ax2 = ax1.twinx()
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ax2.plot(E, proton_d, label=r'$p$')
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ax2.plot(E, alpha_d, label=r'$\alpha$')
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ax2.set_ylim([1e-5, 5 * 1e0])
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ax2.set_yscale('log')
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ax2.set_ylabel(r'$Differential\ Flux\ (\mathrm{cm^{-2}MeV^{-1}})$')
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ax2.legend(loc="upper right")
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ax1.set_xlabel(r'$Energy\ (\mathrm{MeV})$')
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ax1.set_xlim(1e-1, 1e3)
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plt.title('Average spectra - Sun')
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plt.xscale('log')
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plt.savefig('docs/spectra-sun', bbox_inches='tight')
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def trapped():
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data = data_read('assets/trapped.csv')
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E_proton = [0.1, 0.15, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 1, 1.5, 2, 3, 4, 5, 6, 7, 10, 15, 20, 30, 40, 50, 60, 70, 100, 150, 200, 300, 400]
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E_electron = [0.04, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 1, 1.25, 1.5, 1.75, 2, 2.25, 2.5, 2.75, 3, 3.25, 3.5, 3.75, 4, 4.25, 4.5, 4.75, 5, 5.5, 6, 6.5, 7]
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proton_i, proton_d = data[0][1]['IFlux'], data[0][1]['DFlux']
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electron_i, electron_d = data[1][1]['IFlux'], data[1][1]['DFlux']
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_, ax = plt.subplots(1, 2, dpi=150, figsize=(16, 6))
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ax1, ax2 = ax[0], ax[0].twinx()
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ax1.plot(E_proton, proton_i, linestyle=':')
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ax1.set_ylim([1e-3, 5 * 1e2])
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ax1.set_yscale('log')
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ax1.set_ylabel(r'$Integrated\ Flux\ (\mathrm{cm^{-2}s^{-1}})$')
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ax2.plot(E_proton, proton_d)
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ax2.set_ylim([1e-3, 5 * 1e2])
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ax2.set_yscale('log')
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ax2.set_ylabel(r'$Differential\ Flux\ (\mathrm{cm^{-2}s^{-1}MeV^{-1}})$')
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ax1.set_title('Average spectra - Proton')
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ax1.set_xlabel(r'$Energy\ (\mathrm{MeV})$')
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ax1.set_xlim(1e-1, 400)
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ax1.set_xscale('log')
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ax1, ax2 = ax[1], ax[1].twinx()
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ax1.plot(E_electron, electron_i, linestyle=':')
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ax1.set_ylim([1e-3, 1e6])
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ax1.set_yscale('log')
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ax1.set_ylabel(r'$Integrated\ Flux\ (\mathrm{cm^{-2}s^{-1}})$')
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ax2.plot(E_electron, electron_d)
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ax2.set_ylim([1e-3, 1e6])
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ax2.set_yscale('log')
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ax2.set_ylabel(r'$Differential\ Flux\ (\mathrm{cm^{-2}s^{-1}MeV^{-1}})$')
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ax1.set_title('Average spectra - Electron')
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ax1.set_xlabel(r'$Energy\ (\mathrm{MeV})$')
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ax1.set_xlim(0.04, 7)
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ax1.set_xscale('log')
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plt.tight_layout()
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plt.savefig('docs/spectra-ep')
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orbit()
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GCR()
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sun()
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trapped()
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