# In[85]: pz = Sp.plt_zenrad(meas,good_only=True) # In[86]: pn = Sp.plt_norm_zenrad(meas,good_only=True) # In[87]: pc = Sp.curtain_zenrad(meas) # In[90]: pcn = Sp.curtain_zenrad(meas,utc=False) # In[89]: pnc = Sp.plt_curtain_norm_zenrad(meas) # In[91]:
# In[ ]:
if not noplot:
print('Making plots...')
fig1 = Sp.plt_zenrad(meas)
fig1.savefig(fp_zencld_plot+'{datestr}_zenrad.png'.format(datestr=datestr),
dpi=600,transparent=True)
print('zenrad...'),
fig1n = Sp.plt_norm_zenrad(meas)
fig1n.savefig(fp_zencld_plot+'{datestr}_norm_zenrad.png'.format(datestr=datestr),
dpi=600,transparent=True)
print('norm zenrad...'),
fig2 = Sp.curtain_zenrad(meas,utc=True)
fig2.savefig(fp_zencld_plot+'{datestr}_curtain_utc_zenrad.png'.format(datestr=datestr),
dpi=600,transparent=True)
print('utc curtain zenrad...'),
fig2n = Sp.curtain_norm_zenrad(meas,utc=True)
fig2n.savefig(fp_zencld_plot+'{datestr}_curtain_utc_norm_zenrad.png'.format(datestr=datestr),
dpi=600,transparent=True)
print('utc curtain norm zenrad...'),
fig3 = Sp.curtain_zenrad(meas,utc=False)
fig3.savefig(fp_zencld_plot+'{datestr}_curtain_zenrad.png'.format(datestr=datestr),
dpi=600,transparent=True)
print('curtain zenrad...'),
fig3n = Sp.curtain_norm_zenrad(meas,utc=False)