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figures.py
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import fiber_density
def figure_1_main():
print('\nPanel D')
fiber_density.inner_density_vs_window_distance_single_cells.main(_low_connectivity=False)
print('\nPanel F')
fiber_density.inner_density_vs_window_distance_cell_pairs.main(_low_connectivity=False)
print('\nPanel G')
fiber_density.inner_density_vs_window_distance_differences.main(_low_connectivity=False)
def figure_si_1_distances():
print('\nPanel A')
fiber_density.simulations.inner_density_vs_window_distance.main(_low_connectivity=False)
print('\nPanel B')
fiber_density.experiments.inner_density_vs_window_distance.main()
def figure_si_1_correlation_distance_density_offset():
print('\nPanels B (main panel) & C')
fiber_density.experiments.inner_density_vs_pair_distance_correlations_vs_window_distance.main()
print('\nPanel B (secondary panels)')
fiber_density.experiments.inner_density_vs_pair_distance.main()
def figure_1_all():
print('\nFigure 1 - Main Figure')
figure_1_main()
print('\nFigure SI 1')
print('\nFigure SI 1 - Distances (S2)')
figure_si_1_distances()
print('\nFigure SI 1 - Correlation Distance Density Offset (S3)')
figure_si_1_correlation_distance_density_offset()
def figure_2_main():
print('\nPanel B')
fiber_density.inner_density_vs_time_single_cells.main()
print('\nPanel D')
fiber_density.inner_density_vs_time_cell_pairs.main()
print('\nPanel E')
fiber_density.simulations.inner_density_vs_change_in_inner_density.main()
print('\nPanel F')
fiber_density.experiments.inner_density_vs_change_in_inner_density.main(_early_time_frames=True)
def figure_si_2_density_vs_change_in_density_in_late_time_points():
fiber_density.experiments.inner_density_vs_change_in_inner_density.main(_early_time_frames=False)
def figure_2_all():
print('\nFigure 2 - Main Figure')
figure_2_main()
print('\nFigure SI 2')
print('\nFigure SI 2 - Density vs. Change in Density in Late Time-points (S4)')
figure_si_2_density_vs_change_in_density_in_late_time_points()
def figure_3_main():
print('\nPanels B & C')
fiber_density.simulations.inner_correlation_by_derivatives_cell_pairs.main()
print('\nPanels D & E')
fiber_density.simulations.inner_correlation_vs_outer_correlation_heterogeneity.main()
def figure_si_3_detrending_simulations():
print('\nPanels A, B & C')
fiber_density.simulations.inner_density_vs_time_derivatives.main()
print('\nPanel D')
fiber_density.simulations.inner_correlation_by_derivatives_cell_pairs.main(_directions=['inside'])
print('\nPanels E & F')
fiber_density.simulations.stationary_vs_inner_dynamics_derivatives_cell_pairs.main()
print('\nPanel G')
fiber_density.simulations.inner_correlation_by_derivatives_single_cells.main()
print('\nPanels H & I')
fiber_density.simulations.stationary_vs_inner_dynamics_derivatives_single_cells.main()
def figure_si_3_insides_vs_outsides_distances():
print('\nPanels A & B')
fiber_density.simulations.inner_correlation_vs_outer_correlation_pair_distance.main()
def figure_si_3_insides_vs_outsides_offsets():
print('\nPanels A & B')
fiber_density.simulations.inner_correlation_vs_outer_correlation_offsets.main()
def figure_3_all():
print('\nFigure 3 - Main Figure')
figure_3_main()
print('\nFigure SI 3')
print('\nFigure SI 3 - Detrending Simulations (S5)')
figure_si_3_detrending_simulations()
print('\nFigure SI 3 - Insides vs. Outsides Distances (S6)')
figure_si_3_insides_vs_outsides_distances()
print('\nFigure SI 3 - Insides vs. Outsides Offsets (S7)')
figure_si_3_insides_vs_outsides_offsets()
def figure_4_main():
print('\nPanel B')
fiber_density.simulations.same_inner_correlation_vs_different_inner_correlation.main(_low_connectivity=False)
print('\nPanel C')
fiber_density.simulations.same_inner_correlation_vs_different_inner_correlation_pair_distance.main(
_low_connectivity=False)
print('\nPanel D')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation.main(_band=True,
_high_temporal_resolution=False)
print('\nPanel E')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation_vs_pair_distance.main(
_band=True, _high_temporal_resolution=False)
print('\nPanel G')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation_triplet.main()
print('\nPanel H')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation_triplets.main()
def figure_si_4_same_vs_diff_offsets():
print('\nTop panel')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation.main(_offset_y=0.5, _offset_z=0)
print('\nLeft panel')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation.main(_offset_y=0, _offset_z=-0.5)
print('\nMiddle panel')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation.main(_offset_y=0, _offset_z=0)
print('\nRight panel')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation.main(_offset_y=0, _offset_z=0.5)
print('\nBottom panel')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation.main(_offset_y=-0.5, _offset_z=0)
def figure_si_4_detrending_experiments():
print('\nPanel A')
fiber_density.experiments.inner_correlation_by_derivatives_cell_pairs.main(_directions=['inside'])
print('\nPanels B & C')
fiber_density.experiments.stationary_vs_inner_dynamics_derivatives_cell_pairs.main()
print('\nPanel D')
fiber_density.experiments.inner_correlation_by_derivatives_single_cells.main()
print('\nPanels E & F')
fiber_density.experiments.stationary_vs_inner_dynamics_derivatives_single_cells.main()
def figure_si_4_same_vs_diff_distances():
print('\nPanel A')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation.main(
_band=True, _high_temporal_resolution=False, _pair_distance_range=[4, 6])
print('\nPanel B')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation.main(
_band=True, _high_temporal_resolution=False, _pair_distance_range=[6, 8])
print('\nPanel C')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation.main(
_band=True, _high_temporal_resolution=False, _pair_distance_range=[8, 10])
def figure_si_4_same_vs_diff_controls():
print('\nPanel B')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation.main(
_real_cells=False, _static=False, _band=True, _high_temporal_resolution=False)
print('\nPanel D')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation.main(
_real_cells=False, _static=True, _band=False, _high_temporal_resolution=False)
def figure_si_4_real_vs_fake():
print('\nPanels A & B')
fiber_density.experiments.same_real_inner_correlation_vs_different_fake_inner_correlation.main(
_offset_y=0, _high_temporal_resolution=False)
print('\nPanels C & D')
fiber_density.experiments.same_real_inner_correlation_vs_different_fake_inner_correlation.main(
_offset_y=0.5, _high_temporal_resolution=False)
print('\nPanels E & F')
fiber_density.experiments.same_real_inner_correlation_vs_different_fake_inner_correlation.main(
_offset_y=0, _high_temporal_resolution=True)
print('\nPanels G & H')
fiber_density.experiments.same_real_inner_correlation_vs_different_fake_inner_correlation.main(
_offset_y=0.5, _high_temporal_resolution=True)
def figure_si_4_same_vs_diff_high_temporal_res():
print('\nPanel A')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation.main(
_band=True, _high_temporal_resolution=True)
print('\nPanel B')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation.main(
_band=False, _high_temporal_resolution=True)
def figure_si_4_temporal_assessment():
print('\nPanel A')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation_temporal_assessment.main(
_high_temporal_resolution=False)
print('\nPanel B')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation_temporal_assessment.main()
def figure_4_all():
print('\nFigure 4 - Main Figure')
figure_4_main()
print('\nFigure SI 4')
print('\nFigure SI 4 - Detrending Experiments (S8)')
figure_si_4_detrending_experiments()
print('\nFigure SI 4 - Same vs. Different - Offsets (S9)')
figure_si_4_same_vs_diff_offsets()
print('\nFigure SI 4 - Same vs. Different - Distances (S10)')
figure_si_4_same_vs_diff_distances()
print('\nFigure SI 4 - Same vs. Different - High Temporal Resolution (S11)')
figure_si_4_same_vs_diff_high_temporal_res()
print('\nFigure SI 4 - Temporal Assessment (S12)')
figure_si_4_temporal_assessment()
print('\nFigure SI 4 - Same vs. Different - Controls (S13)')
figure_si_4_same_vs_diff_controls()
print('\nFigure SI 4 - Real vs. Fake (S14)')
figure_si_4_real_vs_fake()
def figure_5_main():
print('\nPanel B')
fiber_density.experiments.inner_density_vs_offsets_in_axes.main(_high_temporal_resolution=False)
print('\nPanel C')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation_offsets_in_axes.main(
_high_temporal_resolution=False)
print('\nPanel D')
fiber_density.experiments.inner_density_vs_same_inner_correlation_vs_different_inner_correlation_vs_z_offset.main()
print('\nPanel G')
fiber_density.experiments.inner_density_vs_time_tuple.compute_tuples([('SN16', 3, 'cells_0_1')])
print('\nPanel H')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation.main(_band=False,
_high_temporal_resolution=False)
print('\nPanel I')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation_band_vs_no_band.main(
_high_temporal_resolution=False)
def figure_si_5_saturation():
print('\nPanel A')
fiber_density.experiments.inner_correlation_vs_saturation.main(_offset_y=0)
print('\nPanel B')
fiber_density.experiments.inner_correlation_vs_saturation.main(_offset_y=0.5)
def figure_si_5_high_temporal_res():
print('\nPanel A')
fiber_density.experiments.inner_density_vs_offsets_in_axes.main(_high_temporal_resolution=True)
print('\nPanel B')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation_offsets_in_axes.main(
_high_temporal_resolution=True)
def figure_si_5_simulations():
print('\nPanel A')
fiber_density.simulations.inner_density_vs_offsets_in_axes.main(_low_connectivity=False)
print('\nPanel B')
fiber_density.simulations.same_inner_correlation_vs_different_inner_correlation_offsets_in_axes.main(
_low_connectivity=False)
def figure_si_5_no_band():
print('\nPanel A')
fiber_density.experiments.inner_density_vs_offsets_in_axes.main(_band=False, _high_temporal_resolution=False)
print('\nPanel B')
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation_offsets_in_axes.main(
_band=False, _high_temporal_resolution=False)
def figure_5_all():
print('\nFigure 5 - Main Figure')
figure_5_main()
print('\nFigure SI 5')
print('\nFigure SI 5 - Saturation (S16)')
figure_si_5_saturation()
print('\nFigure SI 5 - High Temporal Resolution (S17)')
figure_si_5_high_temporal_res()
# print('\nFigure SI 5 - Simulations')
# figure_si_5_simulations()
print('\nFigure SI 5 - No Band (S18)')
figure_si_5_no_band()
def figure_6_main():
print('\nPanels B & C')
fiber_density.experiments.matchmaking_by_inner_correlation.main(
_real_cells=True, _offset_y=0.5, _high_temporal_resolution=False)
print('\nPanel D')
fiber_density.experiments.matchmaking_by_inner_correlation.main(
_real_cells=True, _offset_y=0, _high_temporal_resolution=False)
print('\nPanel E')
fiber_density.experiments.matchmaking_by_inner_correlation.main(
_real_cells=False, _offset_y=0.5, _high_temporal_resolution=False)
print('\nPanel F')
fiber_density.experiments.matchmaking_by_inner_correlation.main(
_real_cells=True, _offset_y=0.5, _high_temporal_resolution=True)
print('\nPanel G')
fiber_density.experiments.matchmaking_by_inner_correlation.main(
_real_cells=True, _offset_y=0.5, _high_temporal_resolution=True, _band=False)
def figure_6_all():
print('\nFigure 6 - Main Figure')
figure_6_main()
def figure_7_main():
print('\nPanel B')
fiber_density.simulations.same_inner_correlation_vs_different_inner_correlation_cross_correlation.main(
_alpha=1, _beta=1, _low_connectivity=False, _plots=['same'], _plot_types=['box'])
print('\nPanel C')
fiber_density.simulations.same_inner_correlation_vs_different_inner_correlation_cross_correlation_alphas_betas.main(
_type='alpha', _low_connectivity=False, _plots=['same'], _plot_types=['box'])
print('\nPanel D')
fiber_density.simulations.same_inner_correlation_vs_different_inner_correlation_cross_correlation_alphas_betas.main(
_type='alpha', _low_connectivity=False, _plots=['same'], _plot_types=['stacked_bar']
)
print('\nPanel E')
fiber_density.simulations.same_inner_correlation_vs_different_inner_correlation_cross_correlation_alphas_betas.main(
_type='beta', _low_connectivity=False, _plots=['same'], _plot_types=['box'])
print('\nPanel F')
fiber_density.experiments.inner_dynamics_granger_causality.main(
_band=None, _high_temporal_resolution=True, _tuples_to_mark=[('SN45', 2, 'cells_2_3'), ('SN45', 1, 'cells_1_3')],
_plots=['granger'])
def figure_si_7_simulate_time_lag_distribution():
print('\nPanel A')
fiber_density.simulations.same_inner_correlation_vs_different_inner_correlation_cross_correlation.main(
_alpha=1, _beta=1, _low_connectivity=False, _plots=['same'], _plot_types=['bar'])
print('\nPanel B')
fiber_density.simulations.same_inner_correlation_vs_different_inner_correlation_cross_correlation_alphas_betas.main(
_type='alpha', _low_connectivity=False, _plots=['same'], _plot_types=['bar'])
print('\nPanel C')
fiber_density.simulations.same_inner_correlation_vs_different_inner_correlation_cross_correlation_alphas_betas.main(
_type='beta', _low_connectivity=False, _plots=['same'], _plot_types=['bar'])
def figure_si_7_leader_follower_cross_correlation_experiments():
fiber_density.experiments.same_inner_correlation_vs_different_inner_correlation_cross_correlation.main(
_plots=['same', 'different'], _plot_types=['box', 'bar'])
def figure_si_7_different_network():
print('\nPanels A & B')
fiber_density.simulations.same_inner_correlation_vs_different_inner_correlation_cross_correlation.main(
_alpha=1, _beta=1, _low_connectivity=False, _plots=['different'])
print('\nPanels C & D')
fiber_density.simulations.same_inner_correlation_vs_different_inner_correlation_cross_correlation_alphas_betas.main(
_type='alpha', _low_connectivity=False, _plots=['different'])
print('\nPanels E & F')
fiber_density.simulations.same_inner_correlation_vs_different_inner_correlation_cross_correlation_alphas_betas.main(
_type='beta', _low_connectivity=False, _plots=['different'])
def figure_si_7_granger_causality():
print('\nPanels B & C')
fiber_density.experiments.inner_dynamics_granger_causality.main(
_band=None, _high_temporal_resolution=True, _tuples_to_plot=[('SN45', 2, 'cells_2_3')])
print('\nPanels E & F')
fiber_density.experiments.inner_dynamics_granger_causality.main(
_band=None, _high_temporal_resolution=True, _tuples_to_plot=[('SN45', 1, 'cells_1_3')])
def figure_si_7_whiteness():
fiber_density.experiments.inner_dynamics_granger_causality.main(
_band=None, _high_temporal_resolution=True, _tuples_to_mark=[('SN45', 2, 'cells_2_3'), ('SN45', 1, 'cells_1_3')],
_plots=['whiteness'])
def figure_7_all():
print('\nFigure 7 - Main Figure')
figure_7_main()
print('\nFigure SI 7')
print('\nFigure SI 7 - Simulate Time Lag Distribution (S19)')
figure_si_7_simulate_time_lag_distribution()
print('\nFigure SI 7 - Different Network (S20)')
figure_si_7_different_network()
print('\nFigure SI 7 - Leader Follower Cross Correlation Experiments (S21)')
figure_si_7_leader_follower_cross_correlation_experiments()
print('\nFigure SI 7 - Granger Causality (S22)')
figure_si_7_granger_causality()
print('\nFigure 7 SI - Whiteness (S23)')
figure_si_7_whiteness()
def figure_si_discussion_plasticity():
fiber_density.experiments.inner_density_vs_same_inner_correlation_vs_different_inner_correlation_offsets_in_axes.\
main()
def figure_discussion_all():
print('\nFigure SI Discussion - Plasticity (S24)')
figure_si_discussion_plasticity()
if __name__ == '__main__':
print('\nFigures')
figure_1_all()
figure_2_all()
figure_3_all()
figure_4_all()
figure_5_all()
figure_6_all()
figure_7_all()
figure_discussion_all()