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Surface NMR processing and inversion GUI
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Akvo/akvo/terminal/plotKernel.py

plotKernel.py 2.3KB
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  1. import matplotlib.pyplot as plt

  2. import sys,os

  3. from pylab import meshgrid

  4. from matplotlib.colors import LightSource

  5. from matplotlib.ticker import ScalarFormatter

  6. from matplotlib.ticker import MaxNLocator

  7. from matplotlib.ticker import AutoMinorLocator

  8. from matplotlib.ticker import LogLocator

  9. from matplotlib.ticker import FormatStrFormatter

  10. import numpy as np

  11. import yaml

  12. from  akvo.tressel.lemma_yaml import *

  13. from akvo.tressel.SlidesPlot import *

  14. import cmocean 

  15. 

  16. def catLayers(K0):

  17.     K = np.zeros( (len(K0.keys()), len(K0["layer-0"].data)) , dtype=complex )

  18.     for lay in range(len(K0.keys())):

  19.         #print(K0["layer-"+str(lay)].data) #    print (lay)

  20.         K[lay] = K0["layer-"+str(lay)].data #    print (lay)

  21.     return K

  22. 

  23. if __name__ == "__main__":

  24. 

  25.     with open(sys.argv[1]) as f:

  26.         # use safe_load instead load

  27.         K0 = yaml.load(f, Loader=yaml.Loader)

  28. 

  29.     K = 1e9*catLayers(K0.K0)

  30.     q = np.array(K0.PulseI.data)* (float)(K0.Taup)

  31. 

  32.     centres = (np.array(K0.Interfaces.data[0:-1]) + np.array(K0.Interfaces.data[1::])) / 2

  33. 

  34.     fig = plt.figure( figsize=(pc2in(20),pc2in(20)) )

  35.     fig.add_axes((.2,.2,.65,.7))

  36.     #plt.pcolor(K0.Interfaces.data, K0.PulseI.data, np.abs(K))

  37.     #plt.pcolor(q, K0.Interfaces.data, np.abs(K), cmap=cmocean.cm.gray_r)

  38.     #plt.contourf(q, K0.Interfaces.data[0:-1], np.abs(K), cmap=cmocean.cm.tempo)

  39.     #plt.pcolormesh(q, K0.Interfaces.data, np.abs(K), cmap=cmocean.cm.tempo, shading='nearest')

  40.     plt.pcolormesh(q, centres, np.abs(K), cmap=cmocean.cm.tempo, shading='nearest')

  41.     plt.colorbar(label=r"$\left| \overline{\mathcal{V}_N}(0) \right|$ (nV)")

  42. 

  43.     ax1 = plt.gca()

  44.     ax1.set_ylim( ax1.get_ylim()[1], ax1.get_ylim()[0]  )

  45.     #ax1.set_xscale('log')

  46.     #ax1.set_yscale('log')

  47.     #ax1.xaxis.set_major_formatter(ScalarFormatter())

  48.     ax1.set_xticks([ax1.get_xlim()[0], 1, ax1.get_xlim()[1],])

  49.     ax1.xaxis.set_major_formatter(FormatStrFormatter('%.1f'))

  50.     #print(yaml.dump(K0.K0))

  51.     #print( K0.K0["layer-0"].data )

  52.     #print( type(  np.array(K0.K0["layer-0"].data) ) )

  53.     #plt.plot( np.real( K0.K0["layer-0"].data ) )

  54.     #plt.plot( K0.K0["layer-0"].data )

  55.     plt.gca().set_xlabel("q (A $\cdot$ s)")

  56.     plt.gca().set_ylabel("depth (m)")

  57.     plt.savefig("kernel.pdf")

  58. 

  59.     #sound = np.sum(K, axis=0)

  60.     #plt.figure()

  61.     #plt.plot(q, np.abs(sound))

  62.     #plt.savefig("sound.pdf")

  63. 

  64.     plt.show()

  65.     #print(yaml.dump(K0))