plot.xticks() plot.yticks() plot.text(FIX + 50, 0.05, r'ongoing stimulus', ha='left', va='center', fontsize=6.5, color='k') plot.arrow(780, 0.05, 210, 0, width=0.003, head_width=0.07, head_length=25, length_includes_head=True, fc='k', ec='k') #----------------------------------------------------------------------------------------- # Psychometric curves #----------------------------------------------------------------------------------------- # Variable stimulus plot = plots['C'] rdm.psychometric_function(varstim_trialsfile, plot, ms=5) # Reaction time plot = plots['D'] rdm.psychometric_function(rt_trialsfile, plot, threshold=True, ms=5) #----------------------------------------------------------------------------------------- # Proportion correct as a function of stimulus duration #----------------------------------------------------------------------------------------- plot = plots['E'] rdm.plot_stimulus_duration(varstim_trialsfile, plot, ms=4.5) #----------------------------------------------------------------------------------------- # Reaction time #-----------------------------------------------------------------------------------------
plot.ylabel(r'Percent choice 1', labelpad=4) plot.text_upper_center('No Dale\'s principle', **textprop) plot = plots['Bpsy'] plot.text_upper_center('Dale, dense initial connectivity', **textprop) plot = plots['Cpsy'] plot.text_upper_center('Dale, constrained connectivity', **textprop) #========================================================================================= # Psychometric curves #========================================================================================= # No Dale plot = plots['Apsy'] rdm.psychometric_function(nodale_trialsfile, plot, ms=5) # Dale, dense plot = plots['Bpsy'] rdm.psychometric_function(dense_trialsfile, plot, ms=5) # Dale, fixed plot = plots['Cpsy'] rdm.psychometric_function(fixed_trialsfile, plot, ms=5) #========================================================================================= # Connection matrices #========================================================================================= for rnn, sortbyfile, s, dprimefile in zip([rnn_nodale, rnn_dense, rnn_fixed], [sortby_nodale, sortby_dense, sortby_fixed],
plot.ylabel(r'Percent choice 1', labelpad=4) plot.text_upper_center('No Dale\'s principle', **textprop) plot = plots['Bpsy'] plot.text_upper_center('Dale, dense initial connectivity', **textprop) plot = plots['Cpsy'] plot.text_upper_center('Dale, constrained connectivity', **textprop) #========================================================================================= # Psychometric curves #========================================================================================= # No Dale plot = plots['Apsy'] rdm.psychometric_function(nodale_trialsfile, plot, ms=5) # Dale, dense plot = plots['Bpsy'] rdm.psychometric_function(dense_trialsfile, plot, ms=5) # Dale, fixed plot = plots['Cpsy'] rdm.psychometric_function(fixed_trialsfile, plot, ms=5) #========================================================================================= # Connection matrices #========================================================================================= for rnn, sortbyfile, s, dprimefile in zip( [rnn_nodale, rnn_dense, rnn_fixed],
210, 0, width=0.003, head_width=0.07, head_length=25, length_includes_head=True, fc='k', ec='k') #----------------------------------------------------------------------------------------- # Psychometric curves #----------------------------------------------------------------------------------------- # Variable stimulus plot = plots['C'] rdm.psychometric_function(varstim_trialsfile, plot, ms=5) # Reaction time plot = plots['D'] rdm.psychometric_function(rt_trialsfile, plot, threshold=True, ms=5) #----------------------------------------------------------------------------------------- # Proportion correct as a function of stimulus duration #----------------------------------------------------------------------------------------- plot = plots['E'] rdm.plot_stimulus_duration(varstim_trialsfile, plot, ms=4.5) #----------------------------------------------------------------------------------------- # Reaction time #-----------------------------------------------------------------------------------------