for ireg in range(0, nregs): iregstr = "%04d" % (ireg + 1) cpf.set_default() #Restore defaults cpf.figconf[ 'figpath'] = plotbasedir + '/time_independent_plots/' cpf.figconf[ 'figname'] = 'Figure_kldgr_reg_' + iregstr + '_var_' + var cpf.figconf['figsize'] = (12, 10) cpf.figconf[ 'title'] = 'Mean KLD G.R. for var ' + var + ' for region ' + reg_name[ ireg] cpf.figconf['titlefontsize'] = 20 cpf.figconf['labelfontsize'] = 20 cpf.figconf['axessize'] = [0.1, 0.1, 0.8, 0.8] cpf.figconf['gridline'] = True cpf.figconf['linestyle'] = ['-'] cpf.figconf['linemarker'] = ['o'] cpf.figconf['linecolor'] = ['b'] cpf.figconf['ylabel'] = ['Growing Rate'] cpf.figconf['xlabel'] = ['Time (seconds)'] #cpf.figconf['show']=True time = np.arange( 0, np.shape( kldgr_regional_mean[var])[0]) * delta.total_seconds() cpf.plot_lines(time, kldgr_regional_mean[var][:, ireg])
for ireg in range(0, nregs): iregstr = "%04d" % (ireg + 1) cpf.set_default() #Restore defaults cpf.figconf[ 'figpath'] = plotbasedir + '/time_independent_plots/' cpf.figconf[ 'figname'] = 'Figure_bimodality_reg_' + iregstr + '_var_' + var cpf.figconf['figsize'] = (12, 10) cpf.figconf[ 'title'] = 'Mean BIMODALITY for var ' + var + ' for region ' + reg_name[ ireg] cpf.figconf['titlefontsize'] = 20 cpf.figconf['labelfontsize'] = 20 cpf.figconf['axessize'] = [0.1, 0.1, 0.8, 0.8] cpf.figconf['gridline'] = True cpf.figconf['linestyle'] = ['-'] cpf.figconf['linemarker'] = ['o'] cpf.figconf['linecolor'] = ['b'] cpf.figconf['ylabel'] = ['Kld'] cpf.figconf['xlabel'] = ['Time (seconds)'] #cpf.figconf['show']=True time = np.arange(0, np.shape(bimodality_regional_mean[var]) [0]) * delta.total_seconds() cpf.plot_lines(time, bimodality_regional_mean[var][:, ireg])
for ireg in range(0, nregs): iregstr = "%04d" % (ireg + 1) cpf.set_default() #Restore defaults cpf.figconf[ 'figpath'] = plotbasedir + '/time_independent_plots/' cpf.figconf[ 'figname'] = 'Figure_grf_reg_' + iregstr + '_var_' + var cpf.figconf['figsize'] = (12, 10) cpf.figconf[ 'title'] = 'Mean G.R. for var ' + var + ' for region ' + reg_name[ ireg] cpf.figconf['titlefontsize'] = 20 cpf.figconf['labelfontsize'] = 20 cpf.figconf['axessize'] = [0.1, 0.1, 0.8, 0.8] cpf.figconf['gridline'] = True cpf.figconf['linestyle'] = ['-'] cpf.figconf['linemarker'] = ['o'] cpf.figconf['linecolor'] = ['b'] cpf.figconf['ylabel'] = ['Growing Rate'] cpf.figconf['xlabel'] = ['Time (seconds)'] #cpf.figconf['show']=True time = np.arange( 0, np.shape( grf_regional_mean[var])[0]) * delta.total_seconds() cpf.plot_lines(time, grf_regional_mean[var][:, ireg])