def main(): expts = lab.ExperimentSet( os.path.join(df.metadata_path, 'expt_metadata.xml'), behaviorDataPath=os.path.join(df.data_path, 'behavior'), dataPath=os.path.join(df.data_path, 'imaging')) sal_grp = lab.classes.HiddenRewardExperimentGroup.from_json( sal_json, expts, label='saline to muscimol') mus_grp = lab.classes.HiddenRewardExperimentGroup.from_json( mus_json, expts, label='muscimol to saline') fig = plt.figure(figsize=(8.5, 11)) gs = plt.GridSpec(1, 1, top=0.9, bottom=0.7, left=0.1, right=0.4) ax = fig.add_subplot(gs[0, 0]) for expt in mus_grp: if 'saline' in expt.get('drug'): expt.attrib['drug_condition'] = 'reversal' elif 'muscimol' in expt.get('drug'): expt.attrib['drug_condition'] = 'learning' for expt in sal_grp: if 'saline' in expt.get('drug'): expt.attrib['drug_condition'] = 'learning' elif 'muscimol' in expt.get('drug'): expt.attrib['drug_condition'] = 'reversal' plotting.plot_metric( ax, [sal_grp, mus_grp], metric_fn=ra.fraction_licks_in_reward_zone, label_groupby=False, plotby=['X_drug_condition'], plot_method='swarm', rotate_labels=False, activity_label='Fraction of licks in reward zone', colors=sns.color_palette('deep'), plot_bar=True) ax.set_yticks([0, 0.1, 0.2, 0.3, 0.4]) ax.set_ylim(top=0.4) ax.set_xticklabels(['Days 1-3', 'Day 4']) sns.despine(fig) ax.set_title('') ax.set_xlabel('') misc.save_figure( fig, filename, save_dir=save_dir) plt.close('all')
def main(): all_grps = df.loadExptGrps('GOL') WT_expt_grp = all_grps['WT_place_set'] Df_expt_grp = all_grps['Df_place_set'] expt_grps = [WT_expt_grp, Df_expt_grp] if MALES_ONLY: for expt_grp in expt_grps: expt_grp.filter(lambda expt: expt.parent.get('sex') == 'M') WT_label = WT_expt_grp.label() Df_label = Df_expt_grp.label() fig = plt.figure(figsize=(8.5, 11)) gs1 = plt.GridSpec(2, 5, left=0.1, right=0.3, top=0.90, bottom=0.67, hspace=0.2) gs1_2 = plt.GridSpec(2, 5, left=0.3, right=0.5, top=0.90, bottom=0.67, hspace=0.2) WT_1_heatmap_ax = fig.add_subplot(gs1[0, :-1]) WT_3_heatmap_ax = fig.add_subplot(gs1_2[0, :-1]) Df_1_heatmap_ax = fig.add_subplot(gs1[1, :-1]) Df_3_heatmap_ax = fig.add_subplot(gs1_2[1, :-1]) gs_cbar = plt.GridSpec(2, 10, left=0.3, right=0.5, top=0.90, bottom=0.67, hspace=0.2) WT_colorbar_ax = fig.add_subplot(gs_cbar[0, -1]) Df_colorbar_ax = fig.add_subplot(gs_cbar[1, -1]) gs2 = plt.GridSpec(1, 10, left=0.1, right=0.5, top=0.6, bottom=0.45) pf_close_fraction_ax = fig.add_subplot(gs2[0, :4]) pf_close_behav_corr_ax = fig.add_subplot(gs2[0, 5:]) frac_near_range_2 = (-0.051, 0.551) behav_range_2 = (-0.051, 0.551) # # Heatmaps # WT_cmap = sns.light_palette(WT_color, as_cmap=True) WT_dataframe = lab.ExperimentGroup.dataframe( WT_expt_grp, include_columns=['X_condition', 'X_day', 'X_session']) WT_1_expt_grp = WT_expt_grp.subGroup( list(WT_dataframe[(WT_dataframe['X_condition'] == 'C') & (WT_dataframe['X_day'] == '0') & (WT_dataframe['X_session'] == '0')]['expt'])) place.plotPositionHeatmap(WT_1_expt_grp, roi_filter=WT_filter, ax=WT_1_heatmap_ax, norm='individual', cbar_visible=False, cmap=WT_cmap, plotting_order='place_cells_only', show_belt=False, reward_in_middle=True) fix_heatmap_ax(WT_1_heatmap_ax, WT_1_expt_grp) WT_1_heatmap_ax.set_title(r'Condition $\mathrm{III}$: Day 1') WT_1_heatmap_ax.set_ylabel(WT_label) WT_1_heatmap_ax.set_xlabel('') WT_3_expt_grp = WT_expt_grp.subGroup( list(WT_dataframe[(WT_dataframe['X_condition'] == 'C') & (WT_dataframe['X_day'] == '2') & (WT_dataframe['X_session'] == '0')]['expt'])) place.plotPositionHeatmap(WT_3_expt_grp, roi_filter=WT_filter, ax=WT_3_heatmap_ax, norm='individual', cbar_visible=True, cax=WT_colorbar_ax, cmap=WT_cmap, plotting_order='place_cells_only', show_belt=False, reward_in_middle=True) fix_heatmap_ax(WT_3_heatmap_ax, WT_3_expt_grp) WT_3_heatmap_ax.set_title(r'Condition $\mathrm{III}$: Day 3') WT_3_heatmap_ax.set_ylabel('') WT_3_heatmap_ax.set_xlabel('') WT_colorbar_ax.set_yticklabels(['Min', 'Max']) Df_cmap = sns.light_palette(Df_color, as_cmap=True) Df_dataframe = lab.ExperimentGroup.dataframe( Df_expt_grp, include_columns=['X_condition', 'X_day', 'X_session']) Df_1_expt_grp = Df_expt_grp.subGroup( list(Df_dataframe[(Df_dataframe['X_condition'] == 'C') & (Df_dataframe['X_day'] == '0') & (Df_dataframe['X_session'] == '2')]['expt'])) place.plotPositionHeatmap(Df_1_expt_grp, roi_filter=Df_filter, ax=Df_1_heatmap_ax, norm='individual', cbar_visible=False, cmap=Df_cmap, plotting_order='place_cells_only', show_belt=False, reward_in_middle=True) fix_heatmap_ax(Df_1_heatmap_ax, Df_1_expt_grp) Df_1_heatmap_ax.set_ylabel(Df_label) Df_3_expt_grp = Df_expt_grp.subGroup( list(Df_dataframe[(Df_dataframe['X_condition'] == 'C') & (Df_dataframe['X_day'] == '2') & (Df_dataframe['X_session'] == '0')]['expt'])) place.plotPositionHeatmap(Df_3_expt_grp, roi_filter=Df_filter, ax=Df_3_heatmap_ax, norm='individual', cbar_visible=True, cax=Df_colorbar_ax, cmap=Df_cmap, plotting_order='place_cells_only', show_belt=False, reward_in_middle=True) fix_heatmap_ax(Df_3_heatmap_ax, Df_3_expt_grp) Df_3_heatmap_ax.set_ylabel('') Df_colorbar_ax.set_yticklabels(['Min', 'Max']) # # Fraction of PCs near reward # activity_metric = place.centroid_to_position_threshold activity_kwargs = { 'method': 'resultant_vector', 'positions': 'reward', 'pcs_only': True, 'threshold': np.pi / 8 } behavior_fn = ra.fraction_licks_in_reward_zone behavior_kwargs = {} behavior_label = 'Fraction of licks in reward zone' plotting.plot_metric(pf_close_fraction_ax, expt_grps, metric_fn=activity_metric, roi_filters=roi_filters, groupby=[['expt', 'X_condition', 'X_day']], plotby=['X_condition', 'X_day'], plot_abs=False, plot_method='line', activity_kwargs=activity_kwargs, rotate_labels=False, activity_label='Fraction of place cells near reward', label_every_n=1, colors=colors, markers=markers, markersize=5, return_full_dataframes=False, linestyles=linestyles) pf_close_fraction_ax.axhline(1 / 8., linestyle='--', color='k') pf_close_fraction_ax.set_title('') sns.despine(ax=pf_close_fraction_ax) pf_close_fraction_ax.set_xlabel('Day in Condition') day_number_only_label(pf_close_fraction_ax) label_conditions(pf_close_fraction_ax) pf_close_fraction_ax.legend(loc='upper left', fontsize=6) pf_close_fraction_ax.set_ylim(0, 0.40) pf_close_fraction_ax.set_yticks([0, 0.1, 0.2, 0.3, 0.4]) scatter_kws = {'s': 5} colorby_list = [(expt_grp.label(), 'C') for expt_grp in expt_grps] pf_close_behav_corr_ax.set_xlim(frac_near_range_2) pf_close_behav_corr_ax.set_ylim(behav_range_2) plotting.plot_paired_metrics( expt_grps, first_metric_fn=place.centroid_to_position_threshold, second_metric_fn=behavior_fn, roi_filters=roi_filters, groupby=(('expt', ), ), colorby=('expt_grp', 'X_condition'), filter_fn=lambda df: df['X_condition'] == 'C', filter_columns=['X_condition'], first_metric_kwargs=activity_kwargs, second_metric_kwargs=behavior_kwargs, first_metric_label='Fraction of place cells near reward', second_metric_label=behavior_label, shuffle_colors=False, fit_reg=True, plot_method='regplot', colorby_list=colorby_list, colors=colors, markers=markers, ax=pf_close_behav_corr_ax, scatter_kws=scatter_kws, truncate=False, linestyles=linestyles) pf_close_behav_corr_ax.set_xlim(frac_near_range_2) pf_close_behav_corr_ax.set_ylim(behav_range_2) pf_close_behav_corr_ax.tick_params(direction='in') pf_close_behav_corr_ax.get_legend().set_visible(False) pf_close_behav_corr_ax.legend(loc='upper left', fontsize=6) misc.save_figure(fig, filename, save_dir=save_dir) plt.close('all')
def main(): all_grps = df.loadExptGrps('GOL') WT_expt_grp = all_grps['WT_hidden_behavior_set'] Df_expt_grp = all_grps['Df_hidden_behavior_set'] behavior_fn = ra.fraction_licks_in_reward_zone behavior_kwargs = {} activity_label = 'Fraction of licks in reward zone' WT_colors = sns.light_palette(WT_color, 8)[::-1] Df_colors = sns.light_palette(Df_color, 7)[::-1] markers = ('o', 'v', '^', 'D', '*', 's') fig, axs = plt.subplots(4, 2, figsize=(8.5, 11)) sns.despine(fig) wt_ax = axs[0, 0] df_ax = axs[0, 1] for ax in list(axs.flat)[2:]: ax.set_visible(False) wt_expt_grps = [ WT_expt_grp.subGroup(list(expts['expt']), label=mouse) for mouse, expts in WT_expt_grp.dataframe( WT_expt_grp, include_columns=['mouseID']).groupby('mouseID') ] df_expt_grps = [ Df_expt_grp.subGroup(list(expts['expt']), label=mouse) for mouse, expts in Df_expt_grp.dataframe( Df_expt_grp, include_columns=['mouseID']).groupby('mouseID') ] plotting.plot_metric(wt_ax, wt_expt_grps, metric_fn=behavior_fn, activity_kwargs=behavior_kwargs, groupby=[['expt'], ['condition_day']], plotby=['condition_day'], plot_method='line', ms=5, activity_label=activity_label, colors=WT_colors, markers=markers, label_every_n=1, label_groupby=False, rotate_labels=False) wt_ax.set_xlabel('Day in Condition') wt_ax.set_title(WT_expt_grp.label()) wt_ax.set_yticks([0, 0.1, 0.2, 0.3, 0.4, 0.5]) wt_ax.set_xticklabels(['1', '2', '3', '1', '2', '3', '1', '2', '3']) label_conditions(wt_ax) wt_ax.get_legend().set_visible(False) wt_ax.tick_params(length=3, pad=2) plotting.plot_metric(df_ax, df_expt_grps, metric_fn=behavior_fn, activity_kwargs=behavior_kwargs, groupby=[['expt'], ['condition_day']], plotby=['condition_day'], plot_method='line', ms=5, activity_label=activity_label, colors=Df_colors, markers=markers, label_every_n=1, label_groupby=False, rotate_labels=False) df_ax.set_xlabel('Day in Condition') df_ax.set_title(Df_expt_grp.label()) df_ax.set_yticks([0, 0.1, 0.2, 0.3, 0.4, 0.5]) df_ax.set_xticklabels(['1', '2', '3', '1', '2', '3', '1', '2', '3']) label_conditions(df_ax) df_ax.get_legend().set_visible(False) df_ax.tick_params(length=3, pad=2) misc.save_figure(fig, filename, save_dir=save_dir)
def main(): all_grps = df.loadExptGrps('GOL') WT_expt_grp = all_grps['WT_place_set'] Df_expt_grp = all_grps['Df_place_set'] expt_grps = [WT_expt_grp, Df_expt_grp] if MALES_ONLY: for expt_grp in expt_grps: expt_grp.filter(lambda expt: expt.parent.get('sex') == 'M') fig = plt.figure(figsize=(8.5, 11)) recur_cdf_ax = fig.add_axes([0.1, 0.70, 0.22, 0.20]) recur_inset_ax = fig.add_axes([0.26, 0.72, 0.05, 0.08]) recur_day_sess_comp_ax = fig.add_axes([0.41, 0.70, 0.15, 0.20]) recur_behav_corr_ax = fig.add_axes([0.65, 0.70, 0.27, 0.20]) stability_over_time_ax = fig.add_axes([0.1, 0.40, 0.22, 0.20]) stability_inset_ax = fig.add_axes([0.26, 0.42, 0.05, 0.08]) stab_day_sess_comp_ax = fig.add_axes([0.41, 0.40, 0.15, 0.20]) stability_behav_corr_ax = fig.add_axes([0.65, 0.40, 0.27, 0.20]) params = {} params['recur_range'] = (-0.05, 0.85) params['recur_xticks'] = [0.0, 0.2, 0.4, 0.6, 0.8] fraction_in_params = {} fraction_in_params['behavior_fn'] = ra.fraction_licks_in_reward_zone fraction_in_params['behavior_kwargs'] = {} fraction_in_params['behavior_label'] = 'Fraction of licks in reward zone' fraction_in_params['behav_range'] = (-0.05, 0.65) anticipatory_licking_params = {} anticipatory_licking_params['behavior_fn'] = ra.fraction_licks_near_rewards anticipatory_licking_params['behavior_kwargs'] = { 'pre_window_cm': 5, 'exclude_reward': True } anticipatory_licking_params['behavior_label'] = \ 'Anticipatory licking fraction' anticipatory_licking_params['behav_range'] = (-0.05, 0.95) activity_centroid_params = {} activity_centroid_params['stability_fn'] = place.activity_centroid_shift activity_centroid_params['stability_kwargs'] = { 'activity_filter': 'active_both', 'circ_var_pcs': circ_var_pcs, 'units': 'rad' } activity_centroid_params['stability_label'] = \ 'Centroid shift (fraction of belt)' activity_centroid_params['stab_range'] = (0.90, 2) act_cent_norm_params = {} act_cent_norm_params['stability_kwargs'] = { 'activity_filter': 'active_both', 'circ_var_pcs': circ_var_pcs, 'units': 'norm' } act_cent_norm_params['stab_range'] = (0.15, 0.31) act_cent_norm_params['stab_xticks'] = (0.15, 0.20, 0.25, 0.30) act_cent_norm_params['stab_day_ses_ylim'] = (0.10, 0.3) act_cent_norm_params['stab_day_ses_yticks'] = (0.1, 0.15, 0.20, 0.25, 0.30) act_cent_norm_params['stab_inset_ylim'] = (0.15, 0.3) act_cent_norm_params['stab_inset_yticks'] = (0.15, 0.3) act_cent_pc_parms = {} act_cent_pc_parms['stability_kwargs'] = { 'activity_filter': 'pc_both', 'circ_var_pcs': circ_var_pcs, 'units': 'rad' } act_cent_cm_params = {} act_cent_cm_params['stability_kwargs'] = { 'activity_filter': 'active_both', 'circ_var_pcs': circ_var_pcs, 'units': 'cm' } act_cent_cm_params['stability_label'] = 'Centroid shift (cm)' act_cent_cm_params['stab_range'] = (25, 65) act_cent_cm_params['stab_inset_ylim'] = (0, 50) act_cent_cm_params['stab_inset_yticks'] = (0, 50) act_cent_cm_params['stab_day_ses_ylim'] = (30, 50) pf_corr_params = {} pf_corr_params['stability_fn'] = place.place_field_correlation pf_corr_params['stability_kwargs'] = {'activity_filter': 'pc_either'} pf_corr_params['stability_label'] = 'Place field correlation' pf_corr_params['stab_range'] = (-0.1, 0.5) pf_corr_params['stab_xticks'] = (-0.1, 0, 0.1, 0.2, 0.3, 0.4, 0.5) pf_corr_params['stab_inset_ylim'] = (0, 0.30) pf_corr_params['stab_inset_yticks'] = (0, 0.30) pf_corr_params['stab_day_ses_ylim'] = (0, 0.7) pf_corr_params['stab_day_ses_yticks'] = (0, 0.2, 0.4, 0.6) pop_vec_corr_params = {} pop_vec_corr_params['stability_fn'] = place.population_vector_correlation pop_vec_corr_params['stability_kwargs'] = { 'method': 'corr', 'activity_filter': 'pc_both', 'min_pf_density': 0.05 } pop_vec_corr_params['stability_label'] = 'Population vector correlation' # # Select parameters # params.update(fraction_in_params) params.update(activity_centroid_params) params.update(act_cent_norm_params) # params.update(pf_corr_params) # For Supplemental Figure 5 # # Recurrence # day_paired_grps = [ grp.pair('same group', groupby=['X_session']).pair('consecutive groups', groupby=['X_condition', 'X_day']) for grp in expt_grps ] session_paired_grps = [ grp.pair('consecutive groups', groupby=['X_condition', 'X_day', 'X_session']) for grp in expt_grps ] plotting.plot_metric(recur_cdf_ax, day_paired_grps, metric_fn=place.recurrence_probability, groupby=(('second_expt', ), ), plot_method='cdf', roi_filters=roi_filters, activity_kwargs={'circ_var_pcs': circ_var_pcs}, plot_shuffle=True, shuffle_plotby=False, pool_shuffle=True, activity_label='Recurrence probability', colors=colors, rotate_labels=False, return_full_dataframes=False) recur_cdf_ax.legend(loc='upper left', fontsize=6) recur_cdf_ax.set_title('') recur_cdf_ax.set_xlim(params['recur_range']) recur_cdf_ax.set_xticks(params['recur_xticks']) plotting.plot_metric(recur_inset_ax, day_paired_grps, metric_fn=place.recurrence_probability, groupby=(('second_expt', 'second_mouseID'), ('second_mouseID', )), plot_method='swarm', roi_filters=roi_filters, activity_kwargs={'circ_var_pcs': circ_var_pcs}, plot_shuffle=True, shuffle_plotby=False, pool_shuffle=True, activity_label='Recurrence probability', colors=colors, rotate_labels=False, plot_shuffle_as_hline=True, linewidth=0.2, edgecolor='gray') recur_inset_ax.get_legend().set_visible(False) sns.despine(ax=recur_inset_ax) recur_inset_ax.set_title('') recur_inset_ax.set_ylabel('') recur_inset_ax.set_xlabel('') recur_inset_ax.tick_params(bottom=False, labelbottom=False) recur_inset_ax.set_ylim(0, 1.) recur_inset_ax.set_yticks([0, 1.]) # # Recurrence - behavior correlation # scatter_kws = {'s': 5} colorby_list = [(expt_grp.label(), ) for expt_grp in expt_grps] recur_behav_corr_ax.set_xlim(params['recur_range']) recur_behav_corr_ax.set_ylim(params['behav_range']) plotting.plot_paired_metrics( day_paired_grps, first_metric_fn=place.recurrence_probability, second_metric_fn=params['behavior_fn'], roi_filters=roi_filters, groupby=(('second_expt', ), ), colorby=['expt_grp'], filter_fn=None, filter_columns=None, first_metric_kwargs=None, second_metric_kwargs=params['behavior_kwargs'], first_metric_label='Recurrence probability', second_metric_label=params['behavior_label'], shuffle_colors=False, fit_reg=True, plot_method='regplot', colorby_list=colorby_list, colors=colors, markers=markers, ax=recur_behav_corr_ax, scatter_kws=scatter_kws, truncate=False, linestyles=linestyles) recur_behav_corr_ax.set_xlim(params['recur_range']) recur_behav_corr_ax.set_ylim(params['behav_range']) recur_behav_corr_ax.tick_params(direction='in') recur_behav_corr_ax.legend(loc='upper left', fontsize=6) # # Stability # filter_fn = None filter_columns = None plotting.plot_metric(stability_over_time_ax, day_paired_grps, metric_fn=params['stability_fn'], groupby=(('second_expt', ), ), plotby=None, plot_method='cdf', roi_filters=roi_filters, activity_kwargs=params['stability_kwargs'], plot_shuffle=True, shuffle_plotby=False, pool_shuffle=True, activity_label=params['stability_label'], colors=colors, rotate_labels=False, filter_fn=filter_fn, filter_columns=filter_columns, return_full_dataframes=False) stability_over_time_ax.legend(loc='upper left', fontsize=6) stability_over_time_ax.set_title('') stability_over_time_ax.set_xlabel(params['stability_label']) stability_over_time_ax.set_xlim(params['stab_range']) stability_over_time_ax.set_xticks(params['stab_xticks']) plotting.plot_metric(stability_inset_ax, day_paired_grps, metric_fn=params['stability_fn'], groupby=( ('second_expt', 'second_mouseID'), ('second_mouseID', ), ), plotby=None, plot_method='swarm', roi_filters=roi_filters, activity_kwargs=params['stability_kwargs'], plot_shuffle=True, shuffle_plotby=False, pool_shuffle=True, activity_label=params['stability_label'], colors=colors, rotate_labels=False, filter_fn=filter_fn, filter_columns=filter_columns, plot_shuffle_as_hline=True, linewidth=0.2, edgecolor='gray') stability_inset_ax.get_legend().set_visible(False) sns.despine(ax=stability_inset_ax) stability_inset_ax.set_title('') stability_inset_ax.set_ylabel('') stability_inset_ax.set_xlabel('') stability_inset_ax.tick_params(bottom=False, labelbottom=False) stability_inset_ax.set_ylim(params['stab_inset_ylim']) stability_inset_ax.set_yticks(params['stab_inset_yticks']) # # Stability - behavior correlation # scatter_kws = {'s': 5} colorby_list = [(expt_grp.label(), ) for expt_grp in expt_grps] stability_behav_corr_ax.set_xlim(params['stab_range']) stability_behav_corr_ax.set_ylim(params['behav_range']) plotting.plot_paired_metrics( day_paired_grps, first_metric_fn=params['stability_fn'], second_metric_fn=params['behavior_fn'], roi_filters=roi_filters, groupby=(('second_expt', ), ), colorby=['expt_grp'], filter_fn=filter_fn, filter_columns=filter_columns, first_metric_kwargs=params['stability_kwargs'], second_metric_kwargs=params['behavior_kwargs'], first_metric_label=params['stability_label'], second_metric_label=params['behavior_label'], shuffle_colors=False, fit_reg=True, plot_method='regplot', colorby_list=colorby_list, colors=colors, markers=markers, ax=stability_behav_corr_ax, scatter_kws=scatter_kws, truncate=False, linestyles=linestyles) stability_behav_corr_ax.tick_params(direction='in') stability_behav_corr_ax.set_xlim(params['stab_range']) stability_behav_corr_ax.set_ylim(params['behav_range']) stability_behav_corr_ax.set_xticks(params['stab_xticks']) stability_behav_corr_ax.set_xlabel(params['stability_label']) stability_behav_corr_ax.legend(loc='upper right', fontsize=6) # # Day vs. session elapsed comparison # filter_fn = None filter_columns = None line_kwargs = {'markersize': 4} plotting.plot_metric(recur_day_sess_comp_ax, session_paired_grps, metric_fn=place.recurrence_probability, groupby=(('elapsed_days_int', 'second_expt', 'second_mouseID'), ), plotby=('elapsed_days_int', ), plot_method='box_and_line', roi_filters=roi_filters, markers=markers, activity_kwargs={'circ_var_pcs': circ_var_pcs}, plot_shuffle=True, shuffle_plotby=False, pool_shuffle=True, activity_label='Recurrence probability', colors=colors, rotate_labels=False, plot_shuffle_as_hline=True, flierprops={ 'markersize': 2, 'marker': 'o' }, box_width=0.4, box_spacing=0.2, return_full_dataframes=False, whis='range', linestyles=linestyles, notch=False, line_kwargs=line_kwargs) sns.despine(ax=recur_day_sess_comp_ax) recur_day_sess_comp_ax.legend(loc='upper right', fontsize=6) recur_day_sess_comp_ax.set_title('') recur_day_sess_comp_ax.set_xlabel('') recur_day_sess_comp_ax.set_xticklabels(['S-S', 'D-D']) recur_day_sess_comp_ax.set_ylim(0.0, 1.0) recur_day_sess_comp_ax.set_yticks([0.00, 0.25, 0.50, 0.75, 1.]) plotting.plot_metric(stab_day_sess_comp_ax, session_paired_grps, metric_fn=params['stability_fn'], groupby=(('elapsed_days_int', 'second_expt', 'second_mouseID'), ), plotby=('elapsed_days_int', ), plot_method='box_and_line', roi_filters=roi_filters, activity_kwargs=params['stability_kwargs'], plot_shuffle=True, shuffle_plotby=False, pool_shuffle=True, activity_label=params['stability_label'], colors=colors, rotate_labels=False, filter_fn=filter_fn, markers=markers, filter_columns=filter_columns, plot_shuffle_as_hline=True, flierprops={ 'markersize': 2, 'marker': 'o' }, box_width=0.4, box_spacing=0.2, return_full_dataframes=False, whis='range', linestyles=linestyles, notch=False, line_kwargs=line_kwargs) sns.despine(ax=stab_day_sess_comp_ax) stab_day_sess_comp_ax.legend(loc='upper right', fontsize=6) stab_day_sess_comp_ax.set_title('') stab_day_sess_comp_ax.set_xlabel('') stab_day_sess_comp_ax.set_ylabel(params['stability_label']) stab_day_sess_comp_ax.set_xticklabels(['S-S', 'D-D']) stab_day_sess_comp_ax.set_ylim(params['stab_day_ses_ylim']) stab_day_sess_comp_ax.set_yticks(params['stab_day_ses_yticks']) misc.save_figure(fig, filename, save_dir=save_dir) plt.close('all')
def main(): hidden_grps = df.loadExptGrps('GOL') WT_expt_grp_hidden = hidden_grps['WT_place_set'] Df_expt_grp_hidden = hidden_grps['Df_place_set'] expt_grps_hidden = [WT_expt_grp_hidden, Df_expt_grp_hidden] acute_grps = df.loadExptGrps('RF') WT_expt_grp_acute = acute_grps['WT_place_set'].unpair() Df_expt_grp_acute = acute_grps['Df_place_set'].unpair() expt_grps_acute = [WT_expt_grp_acute, Df_expt_grp_acute] WT_label = WT_expt_grp_hidden.label() Df_label = Df_expt_grp_hidden.label() labels = [WT_label, Df_label] fig = plt.figure(figsize=(8.5, 11)) gs1 = plt.GridSpec(1, 1, top=0.9, bottom=0.7, left=0.1, right=0.20) across_ctx_ax = fig.add_subplot(gs1[0, 0]) gs2 = plt.GridSpec(3, 1, top=0.9, bottom=0.7, left=0.25, right=0.35) wt_pie_ax = fig.add_subplot(gs2[0, 0]) df_pie_ax = fig.add_subplot(gs2[1, 0]) shuffle_pie_ax = fig.add_subplot(gs2[2, 0]) pie_axs = (wt_pie_ax, df_pie_ax, shuffle_pie_ax) gs3 = plt.GridSpec(1, 1, top=0.9, bottom=0.7, left=0.4, right=0.5) cue_cell_bar_ax = fig.add_subplot(gs3[0, 0]) gs5 = plt.GridSpec(1, 1, top=0.5, bottom=0.3, left=0.1, right=0.3) acute_stability_ax = fig.add_subplot(gs5[0, 0]) acute_stability_inset_ax = fig.add_axes([0.23, 0.32, 0.05, 0.08]) gs6 = plt.GridSpec(1, 1, top=0.5, bottom=0.3, left=0.4, right=0.5) task_compare_ax = fig.add_subplot(gs6[0, 0]) # # RF Compare # params = {} params['filename'] = filename params_cent_shift_pc = {} params_cent_shift_pc['stability_fn'] = place.activity_centroid_shift params_cent_shift_pc['stability_kwargs'] = { 'activity_filter': 'pc_both', 'circ_var_pcs': False, 'units': 'norm', 'shuffle': True } params_cent_shift_pc['stability_label'] = \ 'Centroid shift (fraction of belt)' params_cent_shift_all = {} params_cent_shift_all['stability_fn'] = place.activity_centroid_shift params_cent_shift_all['stability_kwargs'] = { 'activity_filter': 'active_both', 'circ_var_pcs': False, 'units': 'norm', 'shuffle': True } params_cent_shift_all['stability_label'] = \ 'Centroid shift (fraction of belt)' params_cent_shift_all['stability_inset_ylim'] = (0.15, 0.30) params_cent_shift_all['stability_cdf_range'] = (0.15, 0.35) params_cent_shift_all['stability_cdf_ticks'] = \ (0.15, 0.20, 0.25, 0.30, 0.35) params_cent_shift_all['stability_compare_ylim'] = (0.15, 0.27) params_cent_shift_all['stability_compare_yticks'] = (0.15, 0.20, 0.25) params_cent_shift_all['ctx_compare_ylim'] = (0.10, 0.30) params_cent_shift_all['ctx_compare_yticks'] = \ (0.10, 0.15, 0.20, 0.25, 0.30) params_cent_shift_cm = {} params_cent_shift_cm['stability_fn'] = place.activity_centroid_shift params_cent_shift_cm['stability_kwargs'] = { 'activity_filter': 'active_both', 'circ_var_pcs': False, 'units': 'cm', 'shuffle': True } params_cent_shift_cm['stability_label'] = 'Centroid shift (cm)' params_pop_vect_corr = {} params_pop_vect_corr['stability_fn'] = place.population_vector_correlation params_pop_vect_corr['stability_kwargs'] = { 'method': 'corr', 'activity_filter': 'pc_both', 'min_pf_density': 0.05, 'circ_var_pcs': False } params_pop_vect_corr['stability_label'] = 'Population vector correlation' params_pf_corr = {} params_pf_corr['stability_fn'] = place.place_field_correlation params_pf_corr['stability_kwargs'] = {'activity_filter': 'pc_either'} params_pf_corr['stability_label'] = 'Place field correlation' params_pf_corr['stability_inset_ylim'] = (0, 0.50) params_pf_corr['stability_cdf_range'] = (0.15, 0.55) params_pf_corr['stability_cdf_ticks'] = (0.15, 0.25, 0.35, 0.45, 0.55) params_pf_corr['stability_compare_ylim'] = (0.22, 0.40) params_pf_corr['stability_compare_yticks'] = (0.25, 0.30, 0.35, 0.40) params_pf_corr['hidden_ctx_compare_ylim'] = (0.22, 0.40) params_pf_corr['hidden_ctx_compare_yticks'] = (0.25, 0.30, 0.35, 0.40) params_pf_corr['ctx_compare_ylim'] = (0.22, 0.40) params_pf_corr['ctx_compare_yticks'] = (0.25, 0.30, 0.35, 0.40) params.update(params_cent_shift_all) day_paired_grps_acute = [ grp.pair('consecutive groups', groupby=['day_in_df']) for grp in expt_grps_acute ] paired_grps_acute = day_paired_grps_acute paired_grps_hidden = [ grp.pair('consecutive groups', groupby=['X_condition', 'X_day']) for grp in expt_grps_hidden ] filter_fn = lambda df: (df['expt_pair_label'] == 'SameAll') filter_columns = ['expt_pair_label'] acute_stability = plotting.plot_metric( acute_stability_ax, paired_grps_acute, metric_fn=params['stability_fn'], groupby=[['expt_pair_label', 'second_expt']], plotby=None, plot_method='cdf', plot_abs=True, roi_filters=roi_filters, activity_kwargs=params['stability_kwargs'], plot_shuffle=True, shuffle_plotby=False, pool_shuffle=True, activity_label=params['stability_label'], colors=colors, rotate_labels=False, filter_fn=filter_fn, filter_columns=filter_columns, return_full_dataframes=False, linestyles=linestyles) acute_stability_ax.set_xlabel(params['stability_label']) acute_stability_ax.set_title('') sns.despine(ax=acute_stability_ax) acute_stability_ax.set_xlim(params['stability_cdf_range']) acute_stability_ax.set_xticks(params['stability_cdf_ticks']) acute_stability_ax.legend(loc='upper left', fontsize=6) plotting.plot_metric(acute_stability_inset_ax, paired_grps_acute, metric_fn=params['stability_fn'], groupby=[['second_expt'], ['second_mouseID']], plotby=None, plot_method='swarm', plot_abs=True, roi_filters=roi_filters, activity_kwargs=params['stability_kwargs'], plot_shuffle=True, shuffle_plotby=False, pool_shuffle=True, activity_label=params['stability_label'], colors=colors, rotate_labels=False, filter_fn=filter_fn, filter_columns=filter_columns, linewidth=0.2, edgecolor='gray', plot_shuffle_as_hline=True) acute_stability_inset_ax.get_legend().set_visible(False) sns.despine(ax=acute_stability_inset_ax) acute_stability_inset_ax.set_title('') acute_stability_inset_ax.set_ylabel('') acute_stability_inset_ax.set_xlabel('') acute_stability_inset_ax.tick_params(bottom=False, labelbottom=False) acute_stability_inset_ax.set_ylim(params['stability_inset_ylim']) acute_stability_inset_ax.set_yticks(params['stability_inset_ylim']) tmp_fig = plt.figure() tmp_ax = tmp_fig.add_subplot(111) hidden_stability = plotting.plot_metric( tmp_ax, paired_grps_hidden, metric_fn=params['stability_fn'], groupby=[['expt_pair_label', 'second_expt']], plotby=('expt_pair_label', ), plot_method='line', plot_abs=True, roi_filters=roi_filters, activity_kwargs=params['stability_kwargs'], plot_shuffle=True, shuffle_plotby=False, pool_shuffle=True, activity_label=params['stability_label'], colors=colors, rotate_labels=False, filter_fn=filter_fn, filter_columns=filter_columns, return_full_dataframes=False) plt.close(tmp_fig) wt_acute = acute_stability[WT_label]['dataframe'] wt_acute_shuffle = acute_stability[WT_label]['shuffle'] df_acute = acute_stability[Df_label]['dataframe'] df_acute_shuffle = acute_stability[Df_label]['shuffle'] wt_hidden = hidden_stability[WT_label]['dataframe'] wt_hidden_shuffle = hidden_stability[WT_label]['shuffle'] df_hidden = hidden_stability[Df_label]['dataframe'] df_hidden_shuffle = hidden_stability[Df_label]['shuffle'] for dataframe in (wt_acute, wt_acute_shuffle, df_acute, df_acute_shuffle): dataframe['task'] = 'RF' for dataframe in (wt_hidden, wt_hidden_shuffle, df_hidden, df_hidden_shuffle): dataframe['task'] = 'GOL' WT_data = wt_acute.append(wt_hidden, ignore_index=True) Df_data = df_acute.append(df_hidden, ignore_index=True) WT_shuffle = wt_acute_shuffle.append(wt_hidden_shuffle, ignore_index=True) Df_shuffle = df_acute_shuffle.append(df_hidden_shuffle, ignore_index=True) filter_columns = ('expt_pair_label', ) filter_fn = lambda df: (df['expt_pair_label'] == 'SameAll') order_dict = {'RF': 0, 'GOL': 1} WT_data['order'] = WT_data['task'].map(order_dict) Df_data['order'] = Df_data['task'].map(order_dict) line_kwargs = {'markersize': 4} plotting.plot_dataframe(task_compare_ax, [WT_data, Df_data], [WT_shuffle, Df_shuffle], labels=labels, activity_label='', groupby=[['task', 'second_mouseID']], plotby=('task', ), plot_method='box_and_line', colors=colors, filter_fn=filter_fn, filter_columns=filter_columns, plot_shuffle=True, shuffle_plotby=False, pool_shuffle=True, orderby='order', notch=False, plot_shuffle_as_hline=True, markers=markers, linestyles=linestyles, line_kwargs=line_kwargs, flierprops={ 'markersize': 3, 'marker': 'o' }, whis='range') task_compare_ax.set_title('') sns.despine(ax=task_compare_ax) task_compare_ax.set_ylim(params['stability_compare_ylim']) task_compare_ax.set_yticks(params['stability_compare_yticks']) task_compare_ax.set_xlabel('') task_compare_ax.set_ylabel(params['stability_label']) task_compare_ax.legend(loc='upper right', fontsize=6) # # Stability across transition # groupby = [['second_expt'], ['second_mouse']] filter_fn = lambda df: (df['X_first_condition'] == 'A') \ & (df['X_second_condition'] == 'B') filter_columns = ('X_first_condition', 'X_second_condition') plotting.plot_metric(across_ctx_ax, paired_grps_hidden, metric_fn=params['stability_fn'], groupby=groupby, plotby=None, plot_method='swarm', activity_kwargs=params['stability_kwargs'], plot_shuffle=True, shuffle_plotby=False, pool_shuffle=True, colors=colors, activity_label=params['stability_label'], rotate_labels=False, filter_fn=filter_fn, filter_columns=filter_columns, plot_shuffle_as_hline=True, return_full_dataframes=False, plot_bar=True, roi_filters=roi_filters) sns.despine(ax=across_ctx_ax) across_ctx_ax.set_ylim(0.0, 0.3) across_ctx_ax.set_yticks([0.0, 0.1, 0.2, 0.3]) across_ctx_ax.set_xticklabels([]) across_ctx_ax.set_xlabel('') across_ctx_ax.set_title('') across_ctx_ax.get_legend().set_visible(False) plotting.stackedText(across_ctx_ax, labels, colors=colors, loc=2, size=10) # # Cue remapping # THRESHOLD = 0.05 * 2 * np.pi CUENESS_THRESHOLD = 0.33 def first_cue_position(row): expt = row['first_expt'] cue = row['cue'] cues = expt.belt().cues(normalized=True) first_cue = cues.ix[cues['cue'] == cue] pos = (first_cue['start'] + first_cue['stop']) / 2 angle = pos * 2 * np.pi return np.complex(np.cos(angle), np.sin(angle)) def dotproduct(v1, v2): return sum((a * b) for a, b in zip(v1, v2)) def length(v): return math.sqrt(dotproduct(v, v)) def angle(v1, v2): return math.acos( np.round(dotproduct(v1, v2) / (length(v1) * length(v2)), 3)) def distance_to_first_cue(row): centroid = row['second_centroid'] pos = row['first_cue_position'] return angle((pos.real, pos.imag), (centroid.real, centroid.imag)) WT_copy = copy(WT_expt_grp_hidden) WT_copy.filterby(lambda df: ~df['X_condition'].str.contains('C'), ['X_condition']) WT_paired = WT_copy.pair('consecutive groups', groupby=['X_condition', 'X_day']).pair('consecutive groups', groupby=['X_condition']) Df_copy = copy(Df_expt_grp_hidden) Df_copy.filterby(lambda df: ~df['X_condition'].str.contains('C'), ['X_condition']) Df_paired = Df_copy.pair('consecutive groups', groupby=['X_condition', 'X_day']).pair('consecutive groups', groupby=['X_condition']) WT_df, WT_shuffle_df = place.cue_cell_remapping( WT_paired, roi_filter=WT_filter, near_threshold=THRESHOLD, activity_filter='active_both', circ_var_pcs=False, shuffle=True) Df_df, Df_shuffle_df = place.cue_cell_remapping( Df_paired, roi_filter=Df_filter, near_threshold=THRESHOLD, activity_filter='active_both', circ_var_pcs=False, shuffle=True) shuffle_df = pd.concat([WT_shuffle_df, Df_shuffle_df], ignore_index=True) cueness, cueness_fraction = [], [] cue_n, place_n, neither_n = [], [], [] for grp_df in (WT_df, Df_df, shuffle_df): grp_df['first_cue_position'] = grp_df.apply(first_cue_position, axis=1) grp_df['second_distance_to_first_cue_position'] = grp_df.apply( distance_to_first_cue, axis=1) grp_df['cueness'] = grp_df['second_distance_to_first_cue_position'] / \ (grp_df['value'] + grp_df['second_distance_to_first_cue_position']) plotting.prepare_dataframe(grp_df, ['first_mouse']) cueness_fraction.append([[]]) cue_n.append([]) place_n.append([]) neither_n.append([]) for mouse, mouse_df in grp_df.groupby('first_mouse'): cue_n[-1].append((mouse_df['cueness'] > (1 - CUENESS_THRESHOLD)).sum()) place_n[-1].append((mouse_df['cueness'] < CUENESS_THRESHOLD).sum()) neither_n[-1].append(mouse_df.shape[0] - cue_n[-1][-1] - place_n[-1][-1]) cueness_fraction[-1][0].append(cue_n[-1][-1] / float(place_n[-1][-1])) cueness.append([grp_df['cueness']]) cue_labels = labels + ['shuffle'] plotting.swarm_plot(cue_cell_bar_ax, cueness_fraction[:2], condition_labels=labels, colors=colors, plot_bar=True) cue_cell_bar_ax.axhline(np.mean(cueness_fraction[-1][0]), ls='--', color='k') sns.despine(ax=cue_cell_bar_ax) cue_cell_bar_ax.set_ylim(0, 1.5) cue_cell_bar_ax.set_yticks([0, 0.5, 1.0, 1.5]) cue_cell_bar_ax.set_xticklabels([]) cue_cell_bar_ax.set_xlabel('') cue_cell_bar_ax.set_ylabel('Cue-to-position ratio') cue_cell_bar_ax.get_legend().set_visible(False) plotting.stackedText(cue_cell_bar_ax, labels, colors=colors, loc=2, size=10) WT_colors = sns.light_palette(WT_color, 7)[:-6:-2] Df_colors = sns.light_palette(Df_color, 7)[:-6:-2] shuffle_colors = sns.light_palette('k', 7)[:-6:-2] pie_colors = (WT_colors, Df_colors, shuffle_colors) pie_labels = ['cue', 'position', 'neither'] orig_size = mpl.rcParams.get('xtick.labelsize') mpl.rcParams['xtick.labelsize'] = 5 for grp_ax, grp_label, grp_cue_n, grp_place_n, grp_neither_n, p_cs in zip( pie_axs, cue_labels, cue_n, place_n, neither_n, pie_colors): grp_ax.pie([sum(grp_cue_n), sum(grp_place_n), sum(grp_neither_n)], autopct='%1.0f%%', shadow=False, frame=False, labels=pie_labels, colors=p_cs, textprops={'fontsize': 5}) grp_ax.set_title(grp_label) plotting.square_axis(grp_ax) mpl.rcParams['xtick.labelsize'] = orig_size misc.save_figure(fig, params['filename'], save_dir=save_dir) plt.close('all')
def main(): all_grps = df.loadExptGrps('GOL') WT_expt_grp = all_grps['WT_place_set'] Df_expt_grp = all_grps['Df_place_set'] expt_grps = [WT_expt_grp, Df_expt_grp] fig, axs = plt.subplots(4, 3, figsize=(8.5, 11), gridspec_kw={ 'wspace': 0.4, 'hspace': 0.3 }) # # Velocity # plotting.plot_metric(axs[0, 0], expt_grps, metric_fn=lab.ExperimentGroup.velocity_dataframe, groupby=[['expt'], ['mouseID']], plotby=None, plot_method='swarm', activity_kwargs=None, filter_fn=lambda df: df['condition'] == 'A', filter_columns=['condition'], activity_label='Velocity (cm/s)', colors=colors, plot_bar=True, edgecolor='k', linewidth=0.5, return_full_dataframes=False) plotting.plot_metric(axs[0, 1], expt_grps, metric_fn=lab.ExperimentGroup.velocity_dataframe, groupby=[['expt'], ['session_in_day', 'mouseID']], plotby=['session_in_day'], plot_method='swarm', activity_kwargs=None, rotate_labels=False, filter_fn=lambda df: df['condition'] == 'A', filter_columns=['condition'], activity_label='Velocity (cm/s)', colors=colors, plot_bar=True, edgecolor='k', linewidth=0.5) # # Lap Rate # plotting.plot_metric(axs[1, 0], expt_grps, metric_fn=lab.ExperimentGroup.number_of_laps, groupby=[['expt'], ['mouseID']], plotby=None, plot_method='swarm', activity_kwargs={'rate': True}, filter_fn=lambda df: df['condition'] == 'A', filter_columns=['condition'], activity_label='Lap rate (1/min)', colors=colors, agg_fn=[np.sum, np.mean], plot_bar=True, edgecolor='k', linewidth=0.5, return_full_dataframes=False) plotting.plot_metric(axs[1, 1], expt_grps, metric_fn=lab.ExperimentGroup.number_of_laps, groupby=[['expt'], ['session_in_day', 'mouseID']], plotby=['session_in_day'], plot_method='swarm', activity_kwargs={'rate': True}, rotate_labels=False, filter_fn=lambda df: df['condition'] == 'A', filter_columns=['condition'], activity_label='Lap rate (1/min)', colors=colors, agg_fn=[np.sum, np.mean], plot_bar=True, edgecolor='k', linewidth=0.5) # # Lick Rate # plotting.plot_metric(axs[2, 0], expt_grps, metric_fn=lab.ExperimentGroup.behavior_dataframe, groupby=[['trial'], ['mouseID']], plotby=None, plot_method='swarm', activity_kwargs={ 'key': 'licking', 'rate': True }, filter_fn=lambda df: df['condition'] == 'A', filter_columns=['condition'], activity_label='Lick rate (Hz)', colors=colors, agg_fn=[np.sum, np.mean], plot_bar=True, edgecolor='k', linewidth=0.5, return_full_dataframes=False) plotting.plot_metric(axs[2, 1], expt_grps, metric_fn=lab.ExperimentGroup.behavior_dataframe, groupby=[['trial'], ['session_in_day', 'mouseID']], plotby=['session_in_day'], plot_method='swarm', roi_filters=None, activity_kwargs={ 'key': 'licking', 'rate': True }, filter_fn=lambda df: df['condition'] == 'A', filter_columns=['condition'], activity_label='Lick rate (Hz)', colors=colors, agg_fn=[np.sum, np.mean], rotate_labels=False, plot_bar=True, edgecolor='k', linewidth=0.5) for ax in axs[3, :]: ax.set_visible(False) for ax in axs[:, 2]: ax.set_visible(False) sns.despine(fig=fig) for ax in axs.flat: ax.set_title('') for ax in axs[:, 0]: ax.set_xlabel('') ax.tick_params(bottom=False, labelbottom=False, length=3, pad=2) for ax in axs[:, 1]: ax.set_xlabel('') ax.set_ylabel('') ax.set_xticklabels(['1', '2', '3']) ax.tick_params(length=3, pad=2) for ax in axs[:3, :2].flat: ax.get_legend().set_visible(False) plotting.stackedText(axs[0, 0], [WT_label, Df_label], colors=colors, loc=2, size=10) axs[2, 1].set_xlabel('Session in day') for ax in axs[0, :]: ax.set_ylim(0, 13) for ax in axs[1, :]: ax.set_ylim(0, 2.0) ax.set_yticks([0, 0.5, 1.0, 1.5, 2.0]) for ax in axs[2, :]: ax.set_ylim(0, 3) misc.save_figure(fig, filename, save_dir=save_dir) plt.close('all')
def main(): all_grps = df.loadExptGrps('GOL') expts = lab.ExperimentSet(os.path.join(df.metadata_path, 'expt_metadata.xml'), behaviorDataPath=os.path.join( df.data_path, 'behavior'), dataPath=os.path.join(df.data_path, 'imaging')) WT_expt_grp = all_grps['WT_place_set'] Df_expt_grp = all_grps['Df_place_set'] expt_grps = [WT_expt_grp, Df_expt_grp] WT_label = WT_expt_grp.label() Df_label = Df_expt_grp.label() fig = plt.figure(figsize=(8.5, 11)) gs2 = plt.GridSpec(48, 1, right=.6) wt_trace_ax = fig.add_subplot(gs2[12:16, 0]) wt_position_ax = fig.add_subplot(gs2[16:18, 0]) df_trace_ax = fig.add_subplot(gs2[18:22, 0]) df_position_ax = fig.add_subplot(gs2[22:24, 0]) gs3 = plt.GridSpec(2, 2, hspace=0.3, left=.62, bottom=0.5, top=0.7) wt_transients_ax = fig.add_subplot(gs3[0, 0], polar=True) df_transients_ax = fig.add_subplot(gs3[1, 0], polar=True) wt_vector_ax = fig.add_subplot(gs3[0, 1], polar=True) df_vector_ax = fig.add_subplot(gs3[1, 1], polar=True) gs4 = plt.GridSpec(1, 4, top=0.48, bottom=0.35, wspace=0.3) pf_fraction_ax = fig.add_subplot(gs4[0, 0]) pf_per_cell_ax = fig.add_subplot(gs4[0, 1]) pf_width_ax = fig.add_subplot(gs4[0, 2]) circ_var_ax = fig.add_subplot(gs4[0, 3]) pf_fraction_inset_ax = fig.add_axes([0.22, 0.36, 0.04, 0.06]) pf_width_inset_ax = fig.add_axes([0.63, 0.41, 0.04, 0.06]) circ_var_inset_ax = fig.add_axes([0.84, 0.36, 0.04, 0.06]) # # PC Examples # wt_expt = expts.grabExpt('jz121', '2015-02-21-16h06m30s') df_expt = expts.grabExpt('jz098', '2014-11-08-16h14m02s') pc_expt_grp = place.pcExperimentGroup([wt_expt, df_expt], imaging_label='soma') wt_id = '0422-0349' df_id = '0074-0339' wt_idx = wt_expt.roi_ids().index(wt_id) df_idx = df_expt.roi_ids().index(df_id) wt_imaging_data = wt_expt.imagingData(channel='Ch2', label='soma', dFOverF='from_file') df_imaging_data = df_expt.imagingData(channel='Ch2', label='soma', dFOverF='from_file') wt_transients = wt_expt.transientsData(threshold=95, channel='Ch2', label='soma') df_transients = df_expt.transientsData(threshold=95, channel='Ch2', label='soma') place.plotImagingData(roi_tSeries=wt_imaging_data[wt_idx, :, 0], ax=wt_trace_ax, roi_transients=wt_transients[wt_idx][0], position=None, imaging_interval=wt_expt.frame_period(), placeField=None, xlabel_visible=False, ylabel_visible=True, right_label=True, placeFieldColor=None, title='', rasterized=False, color='.4', transients_color=WT_color) sns.despine(ax=wt_trace_ax, top=True, left=False, bottom=True, right=True) wt_trace_ax.set_ylabel(WT_label, rotation='horizontal', ha='right') wt_trace_ax.tick_params(bottom=False, labelbottom=False) wt_trace_ax.tick_params(axis='y', direction='in', length=3, pad=3) wt_trace_ax.spines['left'].set_linewidth(1) wt_trace_ax.spines['left'].set_position(('outward', 5)) place.plotImagingData(roi_tSeries=df_imaging_data[df_idx, :, 0], ax=df_trace_ax, roi_transients=df_transients[df_idx][0], position=None, imaging_interval=df_expt.frame_period(), placeField=None, xlabel_visible=False, ylabel_visible=True, right_label=True, placeFieldColor=None, title='', rasterized=False, color='.4', transients_color=Df_color) sns.despine(ax=df_trace_ax, top=True, left=False, bottom=True, right=True) df_trace_ax.set_ylabel(Df_label, rotation='horizontal', ha='right') df_trace_ax.tick_params(bottom=False, labelbottom=False) df_trace_ax.tick_params(axis='y', direction='in', length=3, pad=3) df_trace_ax.spines['left'].set_linewidth(1) df_trace_ax.spines['left'].set_position(('outward', 5)) y_min = min(wt_trace_ax.get_ylim()[0], df_trace_ax.get_ylim()[0]) y_max = max(wt_trace_ax.get_ylim()[1], df_trace_ax.get_ylim()[1]) wt_trace_ax.set_ylim(y_min, y_max) df_trace_ax.set_ylim(y_min, y_max) wt_trace_ax.set_yticks([0, y_max]) df_trace_ax.set_yticks([0, y_max]) wt_trace_ax.set_yticklabels(['0', '{:0.1f}'.format(y_max)]) df_trace_ax.set_yticklabels(['0', '{:0.1f}'.format(y_max)]) wt_trace_ax.set_xlim(0, 600) df_trace_ax.set_xlim(0, 600) place.plotPosition(wt_expt.find('trial'), ax=wt_position_ax, rasterized=False, position_kwargs={'color': 'k'}) sns.despine(ax=wt_position_ax, top=True, left=True, bottom=True, right=True) wt_position_ax.set_ylabel('') wt_position_ax.set_xlabel('') wt_position_ax.tick_params(left=False, bottom=False, top=False, right=False, labelleft=False, labelbottom=False, labelright=False, labeltop=False) plotting.add_scalebar(wt_position_ax, matchx=False, matchy=False, hidex=False, hidey=False, sizex=60, labelx='1 min', bar_thickness=.02, pad=0, loc=4) wt_position_ax.set_yticks([0, 1]) wt_position_ax.set_ylim(0, 1) place.plotPosition(df_expt.find('trial'), ax=df_position_ax, rasterized=False, position_kwargs={'color': 'k'}) sns.despine(ax=df_position_ax, top=True, bottom=True, right=True) df_position_ax.tick_params(bottom=False, top=False, right=False, labelbottom=False, labelright=False, labeltop=False, direction='in', length=3, pad=3) df_position_ax.spines['left'].set_linewidth(1) df_position_ax.spines['left'].set_position(('outward', 5)) df_position_ax.set_ylabel('Position') df_position_ax.set_xlabel('') df_position_ax.set_yticks([0, 1]) df_position_ax.set_ylim(0, 1) trans_kwargs = { 'color': WT_color, 'marker': 'o', 'linestyle': 'None', 'markersize': 3 } wt_pf = [pc_expt_grp.pfs_n()[wt_expt][wt_idx]] place.plotPosition(wt_expt.find('trial'), ax=wt_transients_ax, polar=True, placeFields=wt_pf, placeFieldColors=[WT_color], trans_roi_filter=lambda roi: roi.id == wt_id, rasterized=False, running_trans_only=True, demixed=False, position_kwargs={'color': '0.5'}, trans_kwargs=trans_kwargs) wt_transients_ax.set_xlabel('') wt_transients_ax.set_ylabel('') wt_transients_ax.set_rticks([]) prep_polar_ax(wt_transients_ax) trans_kwargs['color'] = Df_color df_pf = [pc_expt_grp.pfs_n()[df_expt][df_idx]] place.plotPosition(df_expt.find('trial'), ax=df_transients_ax, polar=True, placeFields=df_pf, placeFieldColors=[Df_color], trans_roi_filter=lambda roi: roi.id == df_id, rasterized=False, running_trans_only=True, demixed=False, position_kwargs={'color': '0.5'}, trans_kwargs=trans_kwargs) df_transients_ax.set_xlabel('') df_transients_ax.set_ylabel('') df_transients_ax.set_rticks([]) prep_polar_ax(df_transients_ax) place.plotTransientVectors(place.pcExperimentGroup([wt_expt], imaging_label='soma'), wt_idx, wt_vector_ax, mean_zorder=99, color=WT_color, mean_color='g') place.plotTransientVectors(place.pcExperimentGroup([df_expt], imaging_label='soma'), df_idx, df_vector_ax, mean_zorder=99, color=Df_color, mean_color='g') # # Stats # groupby = [['expt'], ['mouseID']] plotting.plot_metric(pf_fraction_ax, expt_grps, metric_fn=place.place_cell_percentage, groupby=None, plotby=None, colorby=None, plot_method='cdf', roi_filters=roi_filters, activity_kwargs=None, colors=colors, activity_label='Place cell fraction', rotate_labels=False, return_full_dataframes=False, linestyles=linestyles) pf_fraction_ax.legend(loc='upper left', fontsize=6) pf_fraction_ax.set_title('') pf_fraction_ax.set_ylabel('Cumulative fraction') pf_fraction_ax.set_xticks([0, .2, .4, .6, .8]) pf_fraction_ax.set_xlim(0, .8) pf_fraction_ax.spines['left'].set_linewidth(1) pf_fraction_ax.spines['bottom'].set_linewidth(1) plotting.plot_metric(pf_fraction_inset_ax, expt_grps, metric_fn=place.place_cell_percentage, groupby=groupby, plotby=None, colorby=None, plot_method='swarm', roi_filters=roi_filters, activity_kwargs=None, colors=colors, activity_label='Place cell fraction', rotate_labels=False, linewidth=0.2, edgecolor='gray') pf_fraction_inset_ax.set_title('') pf_fraction_inset_ax.set_ylabel('') pf_fraction_inset_ax.set_xlabel('') pf_fraction_inset_ax.set_yticks([0, 0.5]) pf_fraction_inset_ax.set_ylim([0, 0.5]) pf_fraction_inset_ax.get_legend().set_visible(False) sns.despine(ax=pf_fraction_inset_ax) pf_fraction_inset_ax.tick_params(bottom=False, labelbottom=False) pf_fraction_inset_ax.spines['left'].set_linewidth(1) pf_fraction_inset_ax.spines['bottom'].set_linewidth(1) pf_fraction_inset_ax.set_xlim(-0.6, 0.6) n_pf_kwargs = {'per_mouse_fractions': True, 'max_n_place_fields': 3} plotting.plot_metric(pf_per_cell_ax, expt_grps, metric_fn=place.n_place_fields, groupby=None, plotby=['number'], plot_method='swarm', roi_filters=roi_filters, activity_kwargs=n_pf_kwargs, colors=colors, activity_label='Fraction of place cells', rotate_labels=False, plot_bar=True, edgecolor='k', linewidth=0.5, size=3) sns.despine(ax=pf_per_cell_ax) pf_per_cell_ax.set_title('') pf_per_cell_ax.set_xlabel('Place fields per cell') pf_per_cell_ax.set_ylabel('Fraction of place cells') pf_per_cell_ax.set_xticklabels(['1', '2', '3+']) pf_per_cell_ax.set_yticks([0, 0.2, 0.4, 0.6, 0.8, 1]) plotting.plot_metric(pf_width_ax, expt_grps, metric_fn=place.place_field_width, groupby=[['roi_id', 'expt']], plotby=None, plot_method='hist', roi_filters=roi_filters, activity_kwargs=None, activity_label='Place field width (cm)', normed=True, plot_mean=True, bins=20, range=(0, 120), colors=colors, rotate_labels=False, filled=False, mean_kwargs={'ls': ':'}, return_full_dataframes=False, linestyles=linestyles) pf_width_ax.set_title('') pf_width_ax.legend(loc='lower right', fontsize=6) pf_width_ax.set_xticks([0, 40, 80, 120]) pf_width_ax.set_yticks([0, 0.02, 0.04, 0.06, 0.08]) pf_width_ax.set_ylim(0, 0.08) pf_width_ax.set_ylabel('Normalized density') pf_width_ax.spines['left'].set_linewidth(1) pf_width_ax.spines['bottom'].set_linewidth(1) plotting.plot_metric(pf_width_inset_ax, expt_grps, metric_fn=place.place_field_width, groupby=[['roi_id', 'expt'], ['expt'], ['mouseID']], plotby=None, plot_method='swarm', roi_filters=roi_filters, activity_kwargs=None, activity_label='Place field width (cm)', colors=colors, rotate_labels=False, linewidth=0.2, edgecolor='gray') pf_width_inset_ax.set_title('') pf_width_inset_ax.set_ylabel('') pf_width_inset_ax.set_xlabel('') pf_width_inset_ax.get_legend().set_visible(False) sns.despine(ax=pf_width_inset_ax) pf_width_inset_ax.tick_params(bottom=False, labelbottom=False) pf_width_inset_ax.set_ylim(25, 40) pf_width_inset_ax.set_yticks([25, 40]) pf_width_inset_ax.spines['left'].set_linewidth(1) pf_width_inset_ax.spines['bottom'].set_linewidth(1) pf_width_inset_ax.set_xlim(-0.6, 0.6) plotting.plot_metric(circ_var_ax, expt_grps, metric_fn=place.circular_variance, groupby=[['roi_id', 'expt']], plotby=None, plot_method='cdf', roi_filters=roi_filters, activity_kwargs=None, activity_label='Circular variance', colors=colors, rotate_labels=False, return_full_dataframes=False, linestyles=linestyles) circ_var_ax.set_title('') circ_var_ax.legend(loc='upper left', fontsize=6) circ_var_ax.set_ylabel('Cumulative fraction') circ_var_ax.set_xlim(-0.1, 1) circ_var_ax.set_xticks([0, 0.5, 1]) circ_var_ax.spines['left'].set_linewidth(1) circ_var_ax.spines['bottom'].set_linewidth(1) plotting.plot_metric(circ_var_inset_ax, expt_grps, metric_fn=place.circular_variance, groupby=groupby, plotby=None, plot_method='swarm', roi_filters=roi_filters, activity_kwargs=None, activity_label='Circular variance', colors=colors, rotate_labels=False, linewidth=0.2, edgecolor='gray') circ_var_inset_ax.set_title('') circ_var_inset_ax.set_ylabel('') circ_var_inset_ax.set_xlabel('') circ_var_inset_ax.get_legend().set_visible(False) sns.despine(ax=circ_var_inset_ax) circ_var_inset_ax.tick_params(bottom=False, labelbottom=False) circ_var_inset_ax.set_ylim(0, 0.6) circ_var_inset_ax.set_yticks([0, 0.6]) circ_var_inset_ax.spines['left'].set_linewidth(1) circ_var_inset_ax.spines['bottom'].set_linewidth(1) circ_var_inset_ax.set_xlim(-0.6, 0.6) misc.save_figure(fig, filename, save_dir=save_dir) plt.close('all')
def main(): all_expt_grps = df.loadExptGrps('GOL') WT_expt_grp_hidden = all_expt_grps['WT_place_set'] Df_expt_grp_hidden = all_expt_grps['Df_place_set'] expt_grps = [WT_expt_grp_hidden, Df_expt_grp_hidden] paired_grps = [grp.pair( 'consecutive groups', groupby=['condition_day']) for grp in expt_grps] fig = plt.figure(figsize=(8.5, 11)) gs1 = plt.GridSpec( 3, 8, top=0.9, bottom=0.7, left=0.1, right=0.9, wspace=0.4) ax2 = fig.add_subplot(gs1[:, :2]) pf_fraction_ax = fig.add_subplot(gs1[:, 2:4]) circ_var_ax = fig.add_subplot(gs1[:, 4:6]) trans_ax1 = fig.add_subplot(gs1[0, 6], polar=True) trans_ax2 = fig.add_subplot(gs1[0, 7], polar=True) trans_ax3 = fig.add_subplot(gs1[1, 6], polar=True) trans_ax4 = fig.add_subplot(gs1[1, 7], polar=True) trans_ax5 = fig.add_subplot(gs1[2, 6], polar=True) trans_ax6 = fig.add_subplot(gs1[2, 7], polar=True) trans_axs = [ trans_ax1, trans_ax2, trans_ax3, trans_ax4, trans_ax5, trans_ax6] # # Stability by distance to fabric transitions # filter_fn = lambda df: df['second_condition_day_session'] == 'B_0_0' filter_columns = ['second_condition_day_session'] label_order = ['before', 'middle', 'after'] data_to_plot = [[], [], []] all_data, shuffles = [], [] for expt_grp, roi_filter in zip(paired_grps, roi_filters): fabric_map = {expt: expt.belt().fabric_transitions( units='normalized') for expt in expt_grp} def norm_diff(n1, n2): d = n1 - n2 d = d + 1.0 if d < -0.5 else d d = d - 1.0 if d >= 0.5 else d return d def closest_transition(row): expt = row['first_expt'] centroid = complex_to_norm(row['first_centroid']) positions = fabric_map[expt]['position'] distances = [norm_diff(centroid, t) for t in positions] row['closest'] = distances[np.argmin(np.abs(distances))] return row data, shuffle = place.activity_centroid_shift( expt_grp, roi_filter=roi_filter, activity_filter='active_both', circ_var_pcs=False, units='norm', shuffle=True) plotting.prepare_dataframe(data, include_columns=filter_columns) data = data[filter_fn(data)] plotting.prepare_dataframe(shuffle, include_columns=filter_columns) data = data.apply(closest_transition, axis=1) shuffle = shuffle.apply(closest_transition, axis=1) def categorize(row): if row['closest'] < 0 and -1 / 9. < row['closest']: row['category'] = 'before' elif row['closest'] > 0 and 1 / 9. > row['closest']: row['category'] = 'after' else: row['category'] = 'middle' return row data = data.apply(categorize, axis=1) shuffle = shuffle.apply(categorize, axis=1) groupby = [ ['second_condition_day_session', 'second_mouse', 'category']] for gb in groupby: plotting.prepare_dataframe(data, include_columns=gb) plotting.prepare_dataframe(shuffle, include_columns=gb) data = data.groupby(gb, as_index=False).mean() shuffle = shuffle.groupby(gb, as_index=False).mean() for category, group in data.groupby(['category']): idx = label_order.index(category) data_to_plot[idx].append(group['value']) shuffles.append(shuffle) all_data.append(data) shuffle_df = pd.concat(shuffles, ignore_index=True) for category, group in shuffle_df.groupby(['category']): idx = label_order.index(category) data_to_plot[idx].append(group['value']) plotting.grouped_bar( ax2, data_to_plot, condition_labels=label_order, cluster_labels=df.labels + ('shuffle',), bar_colors=sns.color_palette('deep')[3:], scatter_points=False, scatterbar_colors=None, jitter_x=False, loc='best', error_bars='sem') sns.despine(ax=ax2) ax2.set_yticks([0, 0.1, 0.2, 0.3]) ax2.set_ylabel('Centroid shift (fraction of belt)') # # Burlap belt # expts = lab.ExperimentSet( os.path.join(df.metadata_path, 'expt_metadata.xml'), behaviorDataPath=os.path.join(df.data_path, 'behavior'), dataPath=os.path.join(df.data_path, 'imaging')) burlap_expt_grp = lab.classes.pcExperimentGroup.from_json( cue_free_json, expts, imaging_label=df.IMAGING_LABEL, label='cue-free') acute_grps = df.loadExptGrps('RF') WT_expt_grp_acute = acute_grps['WT_place_set'].unpair() WT_expt_grp_acute.label('cue-rich') burlap_colors = ('k', '0.9') example_expt = expts.grabExptByPath('/jz128/TSeries-07262015-burlap-000') cv = place.circular_variance_p(burlap_expt_grp) cv = cv[cv['expt'] == example_expt] cv = cv.sort_values(by=['value']) trans_kwargs = { 'color': '0.9', 'marker': 'o', 'linestyle': 'None', 'markersize': 3} for ax, (idx, row) in zip(trans_axs, cv.iloc[:6].iterrows()): expt = row['expt'] roi_idx = expt.rois().index(row['roi']) pf = None place.plotPosition( expt.find('trial'), ax=ax, polar=True, placeFields=pf, placeFieldColors=['0.9'], trans_roi_filter=lambda roi: roi.id == expt.roi_ids()[roi_idx], rasterized=False, running_trans_only=True, demixed=False, position_kwargs={'color': '0.5'}, trans_kwargs=trans_kwargs) ax.set_xlabel('') ax.set_ylabel('') ax.set_rticks([]) prep_polar_ax(ax) for ax in trans_axs[:-1]: ax.set_xticklabels(['', '', '', '']) activity_kwargs = {'circ_var': True} plotting.plot_metric( pf_fraction_ax, [WT_expt_grp_acute, burlap_expt_grp], metric_fn=place.place_cell_percentage, groupby=None, plotby=None, colorby=None, plot_method='swarm', roi_filters=[WT_filter, WT_filter], activity_kwargs=activity_kwargs, colors=burlap_colors, activity_label='Place cell fraction', rotate_labels=False, plot_bar=True) pf_fraction_ax.set_title('') pf_fraction_ax.set_xlabel('') sns.despine(ax=pf_fraction_ax) pf_fraction_ax.set_yticks([0.0, 0.1, 0.2, 0.3, 0.4]) plotting.plot_metric( circ_var_ax, [WT_expt_grp_acute, burlap_expt_grp], metric_fn=place.circular_variance, groupby=[['roi_id', 'expt']], plotby=None, plot_method='cdf', roi_filters=[WT_filter, WT_filter], activity_kwargs=None, activity_label='Circular variance', colors=burlap_colors, rotate_labels=False) circ_var_ax.set_title('') circ_var_ax.get_legend().set_visible(False) circ_var_ax.set_xticks([0, 0.5, 1]) save_figure(fig, filename, save_dir=save_dir) plt.close('all')
def main(): all_grps = df.loadExptGrps('GOL') expts = lab.ExperimentSet(os.path.join(df.metadata_path, 'expt_metadata.xml'), behaviorDataPath=os.path.join( df.data_path, 'behavior'), dataPath=os.path.join(df.data_path, 'imaging')) WT_expt_grp = all_grps['WT_hidden_behavior_set'] Df_expt_grp = all_grps['Df_hidden_behavior_set'] expt_grps = [WT_expt_grp, Df_expt_grp] if MALES_ONLY: for expt_grp in expt_grps: expt_grp.filter(lambda expt: expt.parent.get('sex') == 'M') labels = [expt_grp.label() for expt_grp in expt_grps] fig = plt.figure(figsize=(8.5, 11)) HORIZONTAL = False if HORIZONTAL: gs1 = plt.GridSpec(8, 6) wt_lick_axs = [ fig.add_subplot(gs1[0, 0]), fig.add_subplot(gs1[0, 1]), fig.add_subplot(gs1[0, 2]), fig.add_subplot(gs1[0, 3]), fig.add_subplot(gs1[0, 4]), fig.add_subplot(gs1[0, 5]) ] df_lick_axs = [ fig.add_subplot(gs1[1, 0]), fig.add_subplot(gs1[1, 1]), fig.add_subplot(gs1[1, 2]), fig.add_subplot(gs1[1, 3]), fig.add_subplot(gs1[1, 4]), fig.add_subplot(gs1[1, 5]) ] gs2 = plt.GridSpec(4, 2, hspace=0.5, wspace=0.2) reward_zone_ax = fig.add_subplot(gs2[1, 0]) else: gs1 = plt.GridSpec(10, 6) wt_lick_axs = [ fig.add_subplot(gs1[0, 0]), fig.add_subplot(gs1[1, 0]), fig.add_subplot(gs1[2, 0]), fig.add_subplot(gs1[3, 0]), fig.add_subplot(gs1[4, 0]), fig.add_subplot(gs1[5, 0]) ] df_lick_axs = [ fig.add_subplot(gs1[0, 1]), fig.add_subplot(gs1[1, 1]), fig.add_subplot(gs1[2, 1]), fig.add_subplot(gs1[3, 1]), fig.add_subplot(gs1[4, 1]), fig.add_subplot(gs1[5, 1]) ] gs2 = plt.GridSpec(10, 1, hspace=0.5, wspace=0.8, left=0.47, right=0.9) reward_zone_ax = fig.add_subplot(gs2[0:4, :]) gs3 = plt.GridSpec(10, 3, hspace=0.5, wspace=0.1, left=0.47, right=0.9) fraction_licks_by_session_A_ax = fig.add_subplot(gs3[5:7, 0]) fraction_licks_by_session_B_ax = fig.add_subplot(gs3[5:7, 1]) fraction_licks_by_session_C_ax = fig.add_subplot(gs3[5:7, 2]) # # Lick plots # wt_lick_expts = [ expts.grabExpt('jz101', '2014-11-06-23h37m54s'), expts.grabExpt('jz101', '2014-11-08-22h53m27s'), expts.grabExpt('jz101', '2014-11-09-23h06m56s'), expts.grabExpt('jz101', '2014-11-11-23h13m16s'), expts.grabExpt('jz101', '2014-11-12-19h29m41s'), expts.grabExpt('jz101', '2014-11-14-19h59m09s') ] df_lick_expts = [ expts.grabExpt('jz106', '2014-12-11-17h06m49s'), expts.grabExpt('jz106', '2014-12-13-19h00m01s'), expts.grabExpt('jz106', '2014-12-14-17h17m17s'), expts.grabExpt('jz106', '2014-12-16-17h43m05s'), expts.grabExpt('jz106', '2014-12-17-17h57m51s'), expts.grabExpt('jz106', '2014-12-19-17h13m52s') ] shade_color = sns.xkcd_rgb['light green'] for ax, expt in zip(wt_lick_axs, wt_lick_expts): expt.licktogram(ax=ax, plot_belt=False, nPositionBins=20, color=WT_color, linewidth=0, shade_reward=True, shade_color=shade_color) for ax, expt in zip(df_lick_axs, df_lick_expts): expt.licktogram(ax=ax, plot_belt=False, nPositionBins=20, color=Df_color, linewidth=0, shade_reward=True, shade_color=shade_color) for ax in wt_lick_axs + df_lick_axs: ax.set_ylim(0, 0.6) ax.set_yticks([0, 0.3, 0.6]) ax.set_xticks([0, 0.5, 1]) ax.set_xticklabels(['0.0', '0.5', '1.0']) sns.despine(ax=ax) ax.set_title('') if HORIZONTAL: for ax in wt_lick_axs: ax.tick_params(labelbottom=False) ax.set_xlabel('') for ax in df_lick_axs[1:]: ax.set_xlabel('') for ax, label in zip(wt_lick_axs, [ r'Condition $\mathrm{I}$' + '\nDay 1', r'Condition $\mathrm{I}$' + '\nDay 3', r'Condition $\mathrm{II}$' + '\nDay 1', r'Condition $\mathrm{II}$' + '\nDay 3', r'Condition $\mathrm{III}$' + '\nDay 1', r'Condition $\mathrm{III}$' + '\nDay 3' ]): ax.set_title(label) for ax in it.chain(wt_lick_axs[1:], df_lick_axs[1:]): ax.set_ylabel('') sns.despine(ax=ax, left=True, top=True, right=True) for ax in wt_lick_axs + df_lick_axs: ax.spines['bottom'].set_linewidth(0.5) wt_lick_axs[0].tick_params(labelbottom=False) for ax in wt_lick_axs[1:]: ax.tick_params(labelleft=False, left=False, labelbottom=False) for ax in df_lick_axs[1:]: ax.tick_params(labelleft=False, left=False) right_label(wt_lick_axs[-1], labels[0]) right_label(df_lick_axs[-1], labels[1]) df_lick_axs[0].set_yticks([0, 0.6]) wt_lick_axs[0].set_yticks([0, 0.6]) df_lick_axs[0].set_ylabel('Fraction of licks') wt_lick_axs[0].set_ylabel('') df_lick_axs[0].spines['left'].set_linewidth(0.5) wt_lick_axs[0].spines['left'].set_linewidth(0.5) else: for ax in wt_lick_axs + df_lick_axs: ax.spines['bottom'].set_linewidth(0.5) for ax in wt_lick_axs + df_lick_axs[1:]: sns.despine(ax=ax, left=True, top=True, right=True) sns.despine(ax=df_lick_axs[0], left=True, top=True, right=False) for ax in wt_lick_axs[:-1] + df_lick_axs[:-1]: ax.set_xlabel('') for ax in df_lick_axs: ax.set_ylabel('') for ax, label in zip(wt_lick_axs, [ r'Condition $\mathrm{I}$' + '\nDay 1', r'Condition $\mathrm{I}$' + '\nDay 3', r'Condition $\mathrm{II}$' + '\nDay 1', r'Condition $\mathrm{II}$' + '\nDay 3', r'Condition $\mathrm{III}$' + '\nDay 1', r'Condition $\mathrm{III}$' + '\nDay 3' ]): ax.set_ylabel(label, rotation='horizontal', ha='right', multialignment='center', labelpad=3, va='center') for ax in wt_lick_axs[:-1] + df_lick_axs[:-1]: ax.tick_params(labelleft=False, left=False, labelbottom=False) for ax in (wt_lick_axs[-1], df_lick_axs[-1]): ax.tick_params(labelleft=False, left=False) wt_lick_axs[0].set_title(labels[0]) df_lick_axs[0].set_title(labels[1]) df_lick_axs[0].yaxis.tick_right() df_lick_axs[0].yaxis.set_label_position("right") df_lick_axs[0].set_yticks([0, 0.6]) df_lick_axs[0].tick_params(axis='y', length=2, pad=2, direction='in') df_lick_axs[0].set_ylabel('Fraction of licks') df_lick_axs[0].spines['right'].set_linewidth(0.5) filter_fn = None filter_columns = None behavior_fn = ra.fraction_licks_in_reward_zone behavior_kwargs = {} activity_label = 'Fraction of licks in reward zone' plot_metric(reward_zone_ax, expt_grps, metric_fn=behavior_fn, activity_kwargs=behavior_kwargs, groupby=[['expt'], ['mouseID', 'X_condition', 'X_day']], plotby=['X_condition', 'X_day'], plot_method='line', activity_label=activity_label, colors=colors, linestyles=linestyles, label_every_n=1, label_groupby=False, markers=markers, markersize=5, rotate_labels=False, filter_fn=filter_fn, filter_columns=filter_columns, return_full_dataframes=False) reward_zone_ax.set_yticks([0, .1, .2, .3, .4]) sns.despine(ax=reward_zone_ax) reward_zone_ax.set_xlabel('Day in Condition') reward_zone_ax.set_title('') day_number_only_label(reward_zone_ax) label_conditions(reward_zone_ax) reward_zone_ax.legend(loc='lower left', fontsize=8) # reward_zone_ax.get_legend().set_visible(False) # stackedText(reward_zone_ax, labels, colors=colors, loc=3, size=10) groupby = [['expt']] plotby = ['X_condition', 'X_session'] filter_fn = lambda df: (df['X_session'] != '1') & (df['X_condition'] == 'A' ) filter_columns = ['X_session', 'X_condition'] line_kwargs = {'markersize': 4} plot_metric(fraction_licks_by_session_A_ax, expt_grps, metric_fn=behavior_fn, activity_kwargs=behavior_kwargs, groupby=groupby, plotby=plotby, plot_method='box_and_line', activity_label=activity_label, colors=colors, notch=False, label_every_n=1, label_groupby=False, markers=markers, rotate_labels=False, line_kwargs=line_kwargs, linestyles=linestyles, filter_fn=filter_fn, filter_columns=filter_columns, flierprops={ 'markersize': 2, 'marker': 'o' }, box_width=0.4, box_spacing=0.2, return_full_dataframes=False, whis='range') sns.despine(ax=fraction_licks_by_session_A_ax, top=True, right=True) fraction_licks_by_session_A_ax.set_xticklabels(['first', 'last']) fraction_licks_by_session_A_ax.set_xlabel('') fraction_licks_by_session_A_ax.set_ylim(-0.02, 0.6) fraction_licks_by_session_A_ax.set_yticks([0, 0.2, 0.4, 0.6]) fraction_licks_by_session_A_ax.set_title('') fraction_licks_by_session_A_ax.legend(loc='upper left', fontsize=6) # fraction_licks_by_session_A_ax.get_legend().set_visible(False) fraction_licks_by_session_A_ax.text( 0.5, .95, r'$\mathrm{I}$', ha='center', va='center', transform=fraction_licks_by_session_A_ax.transAxes, fontsize=12) filter_fn = lambda df: (df['X_session'] != '1') & (df['X_condition'] == 'B' ) filter_columns = ['X_session', 'X_condition'] plot_metric(fraction_licks_by_session_B_ax, expt_grps, metric_fn=behavior_fn, activity_kwargs=behavior_kwargs, groupby=groupby, plotby=plotby, plot_method='box_and_line', activity_label=activity_label, colors=colors, label_every_n=1, label_groupby=False, markers=markers, rotate_labels=False, line_kwargs=line_kwargs, linestyles=linestyles, filter_fn=filter_fn, filter_columns=filter_columns, notch=False, flierprops={ 'markersize': 2, 'marker': 'o' }, box_width=0.4, box_spacing=0.2, return_full_dataframes=False, whis='range') sns.despine(ax=fraction_licks_by_session_B_ax, top=True, right=True, left=True) fraction_licks_by_session_B_ax.tick_params(left=False, labelleft=False) fraction_licks_by_session_B_ax.set_xticklabels(['first', 'last']) fraction_licks_by_session_B_ax.set_xlabel('Session in day') fraction_licks_by_session_B_ax.set_ylabel('') fraction_licks_by_session_B_ax.set_ylim(-0.02, 0.6) fraction_licks_by_session_B_ax.set_title('') fraction_licks_by_session_B_ax.get_legend().set_visible(False) fraction_licks_by_session_B_ax.text( 0.5, .95, r'$\mathrm{II}$', ha='center', va='center', transform=fraction_licks_by_session_B_ax.transAxes, fontsize=12) filter_fn = lambda df: (df['X_session'] != '1') & (df['X_condition'] == 'C' ) filter_columns = ['X_session', 'X_condition'] plot_metric(fraction_licks_by_session_C_ax, expt_grps, metric_fn=behavior_fn, activity_kwargs=behavior_kwargs, groupby=groupby, plotby=plotby, plot_method='box_and_line', activity_label=activity_label, colors=colors, notch=False, label_every_n=1, label_groupby=False, markers=markers, rotate_labels=False, line_kwargs=line_kwargs, linestyles=linestyles, filter_fn=filter_fn, filter_columns=filter_columns, return_full_dataframes=False, flierprops={ 'markersize': 2, 'marker': 'o' }, box_width=0.4, box_spacing=0.2, whis='range') sns.despine(ax=fraction_licks_by_session_C_ax, top=True, right=True, left=True) fraction_licks_by_session_C_ax.tick_params(left=False, labelleft=False) fraction_licks_by_session_C_ax.set_xticklabels(['first', 'last']) fraction_licks_by_session_C_ax.set_xlabel('') fraction_licks_by_session_C_ax.set_ylabel('') fraction_licks_by_session_C_ax.set_ylim(-0.02, 0.6) fraction_licks_by_session_C_ax.set_title('') fraction_licks_by_session_C_ax.get_legend().set_visible(False) fraction_licks_by_session_C_ax.text( 0.5, .95, r'$\mathrm{III}$', ha='center', va='center', transform=fraction_licks_by_session_C_ax.transAxes, fontsize=12) misc.save_figure(fig, filename, save_dir=save_dir) plt.close('all')
def main(): all_grps = df.loadExptGrps('GOL') expt_grps = [all_grps['WT_place_set'], all_grps['Df_place_set']] pc_filters = [expt_grp.pcs_filter(roi_filter=roi_filter) for expt_grp, roi_filter in zip(expt_grps, roi_filters)] fig = plt.figure(figsize=(8.5, 11)) gs1 = plt.GridSpec( 3, 3, left=0.1, right=0.9, top=0.9, bottom=0.3, wspace=0.5, hspace=0.4) sensitivity_cdf_ax = fig.add_subplot(gs1[1, 0]) sensitivity_bar_ax = fig.add_axes([0.24, 0.535, 0.05, 0.07]) specificity_cdf_ax = fig.add_subplot(gs1[1, 1]) specificity_bar_ax = fig.add_axes([0.43, 0.60, 0.05, 0.07]) width_cdf_ax = fig.add_subplot(gs1[2, 0]) width_bar_ax = fig.add_axes([0.24, 0.315, 0.05, 0.07]) sparsity_cdf_ax = fig.add_subplot(gs1[2, 1]) sparsity_bar_ax = fig.add_axes([0.54, 0.315, 0.05, 0.07]) is_ever_pc_fraction_ax = fig.add_subplot(gs1[0, 0]) pc_fraction_ax = fig.add_subplot(gs1[0, 1]) pc_fraction_bar_ax = fig.add_axes([0.54, 0.755, 0.05, 0.07]) cdf_axs = [ sensitivity_cdf_ax, specificity_cdf_ax, width_cdf_ax, sparsity_cdf_ax, pc_fraction_ax] bar_axs = [ sensitivity_bar_ax, specificity_bar_ax, width_bar_ax, sparsity_bar_ax, pc_fraction_bar_ax] sensitivity_range = (0, 1) plotting.plot_metric( sensitivity_cdf_ax, expt_grps, metric_fn=place.sensitivity, groupby=[['roi_id', 'expt']], plotby=None, plot_method='cdf', roi_filters=pc_filters, activity_kwargs=None, activity_label='Transient sensitivity', colors=colors, rotate_labels=False, linestyles=linestyles) sensitivity_cdf_ax.set_xlim(sensitivity_range) plotting.plot_metric( sensitivity_bar_ax, expt_grps, metric_fn=place.sensitivity, groupby=[['roi_id', 'expt'], ['roi_id', 'uniqueLocationKey', 'mouseID'], ['mouseID']], plotby=None, plot_method='grouped_bar', roi_filters=pc_filters, activity_kwargs=None, activity_label='Transient sensitivity', colors=colors) sensitivity_bar_ax.set_ylim(sensitivity_range) sensitivity_bar_ax.set_yticks(sensitivity_range) plotting.stackedText( sensitivity_cdf_ax, [WT_label, Df_label], colors=colors, loc=2, size=10) specificity_range = (0, 1) plotting.plot_metric( specificity_cdf_ax, expt_grps, metric_fn=place.specificity, groupby=[['roi_id', 'expt']], plotby=None, plot_method='cdf', roi_filters=pc_filters, activity_kwargs=None, activity_label='Transient specificity', colors=colors, rotate_labels=False, linestyles=linestyles) specificity_cdf_ax.set_xlim(specificity_range) plotting.plot_metric( specificity_bar_ax, expt_grps, metric_fn=place.specificity, groupby=[['roi_id', 'expt'], ['roi_id', 'uniqueLocationKey', 'mouseID'], ['mouseID']], plotby=None, plot_method='grouped_bar', roi_filters=pc_filters, activity_kwargs=None, activity_label='Transient specificity', colors=colors) specificity_bar_ax.set_ylim(specificity_range) specificity_bar_ax.set_yticks(specificity_range) width_range = (0, 100) plotting.plot_metric( width_cdf_ax, expt_grps, metric_fn=place.place_field_width, groupby=None, plotby=None, plot_method='cdf', roi_filters=pc_filters, activity_kwargs=None, activity_label='Place field width (cm)', colors=colors, rotate_labels=False, linestyles=linestyles) width_cdf_ax.set_xlim(width_range) plotting.plot_metric( width_bar_ax, expt_grps, metric_fn=place.place_field_width, groupby=[['roi_id', 'uniqueLocationKey', 'mouseID'], ['mouseID']], plotby=None, plot_method='grouped_bar', roi_filters=pc_filters, activity_kwargs=None, activity_label='Place field width', colors=colors) width_bar_ax.set_ylim(width_range) width_bar_ax.set_yticks(width_range) sparsity_range = (0, 1) plotting.plot_metric( sparsity_cdf_ax, expt_grps, metric_fn=place.sparsity, groupby=[['roi_id', 'expt']], plotby=None, plot_method='cdf', roi_filters=pc_filters, activity_kwargs=None, activity_label='Single-cell sparsity', colors=colors, rotate_labels=False, linestyles=linestyles) sparsity_cdf_ax.set_xlim(sparsity_range) plotting.plot_metric( sparsity_bar_ax, expt_grps, metric_fn=place.sparsity, groupby=[['roi_id', 'expt'], ['roi_id', 'uniqueLocationKey', 'mouseID'], ['mouseID']], plotby=None, plot_method='grouped_bar', roi_filters=pc_filters, activity_kwargs=None, activity_label='Single-cell sparsity', colors=colors) sparsity_bar_ax.set_ylim(sparsity_range) sparsity_bar_ax.set_yticks(sparsity_range) fraction_ses_pc_range = (0, 0.5) plotting.plot_metric( pc_fraction_ax, expt_grps, metric_fn=lab.ExperimentGroup.filtered_rois, groupby=(('mouseID', 'uniqueLocationKey', 'roi_id'),), plotby=None, colorby=None, plot_method='cdf', roi_filters=pc_filters, activity_kwargs=[ {'include_roi_filter': roi_filter} for roi_filter in roi_filters], colors=colors, activity_label='Fraction of sessions a place cell', rotate_labels=False, linestyles=linestyles) pc_fraction_ax.tick_params(length=3, pad=2) pc_fraction_ax.get_legend().set_visible(False) pc_fraction_ax.set_title('') pc_fraction_ax.set_xticks([0, .2, .4, .6, .8]) pc_fraction_ax.set_xlim(0, .8) pc_fraction_ax.spines['left'].set_linewidth(1) pc_fraction_ax.spines['bottom'].set_linewidth(1) plotting.plot_metric( pc_fraction_bar_ax, expt_grps, metric_fn=lab.ExperimentGroup.filtered_rois, groupby=[['roi_id', 'uniqueLocationKey', 'mouseID'], ['mouseID']], plotby=None, plot_method='grouped_bar', roi_filters=pc_filters, activity_kwargs=[ {'include_roi_filter': roi_filter} for roi_filter in roi_filters], activity_label='Fraction of sessions a place cell', colors=colors) pc_fraction_bar_ax.set_ylim(fraction_ses_pc_range) pc_fraction_bar_ax.set_yticks(fraction_ses_pc_range) place.is_ever_place_cell( expt_grps, roi_filters=roi_filters, ax=is_ever_pc_fraction_ax, colors=colors, filter_fn=lambda df: df['session_number'] < 15, filter_columns=['session_number'], groupby=[['mouseID', 'session_number']]) is_ever_pc_fraction_ax.get_legend().set_visible(False) is_ever_pc_fraction_ax.tick_params(length=3, pad=2) is_ever_pc_fraction_ax.set_xlabel('Session number') is_ever_pc_fraction_ax.set_title('Lifetime place coding') is_ever_pc_fraction_ax.set_xticklabels([ '1', '', '3', '', '5', '', '7', '', '9', '', '11', '', '13', '', '15']) for ax in cdf_axs + bar_axs: ax.tick_params(length=3, pad=2) for ax in cdf_axs: ax.set_title('') for ax in bar_axs: ax.set_xlabel('') ax.set_ylabel('') ax.set_title('') ax.set_xticks([]) ax.tick_params(bottom=False, labelbottom=False, length=3, pad=2) ax.get_legend().set_visible(False) sns.despine(fig) misc.save_figure(fig, filename, save_dir=save_dir) plt.close('all')