def main(): with contexts.complex_figure('plots/melki_rates_combined.pdf', width=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM, height=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM, right_label=True) as figure: melki_rate_plot(figure) # melki_rate_error_plot(figure) # melki_timecourses() # single_timecourse() # stupid_melki_timecourses() with contexts.complex_figure('plots/melki_fit_quality.pdf', width=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM, height=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM) as figure: melki_sample_timecourses(figure)
def main(): with contexts.complex_figure( 'plots/depoly.pdf', # height=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM, height=4 * 2.54, width=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM) as figure: stacked_timecourses(figure)
def main(filename='plots/copoly_results.pdf'): # copoly_adp_only(filename) # copoly_halftime_plot(filename) with contexts.complex_figure( filename, height=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM) as figure: # copoly_timecourse_plot(figure) copoly_adp_only(figure)
def main(): with contexts.complex_figure( 'plots/melki_non_be_comparison.pdf', width=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM, height=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM * 2) as figure: non_be_rates(figure) non_be_quality(figure)
def main(filename='plots/copoly_results.pdf'): # copoly_adp_only(filename) # copoly_halftime_plot(filename) with contexts.complex_figure(filename, height=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM) as figure: # copoly_timecourse_plot(figure) copoly_adp_only(figure)
def main(filename='plots/fnc_lagtimes.pdf'): with contexts.complex_figure(filename, width=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM, height=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM, ) as figure: # lagtime_plot(figure) linear_lagtime_plot(figure)
def main(): # with contexts.complex_figure('plots/critical_concentration.pdf', with contexts.complex_figure('plots/cc_tip.pdf', width=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM, height=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM * 2) as figure: # crit_conc(figure) cc_tip(figure)
def main(): # with contexts.complex_figure('plots/critical_concentration.pdf', with contexts.complex_figure( 'plots/cc_tip.pdf', width=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM, height=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM * 2) as figure: # crit_conc(figure) cc_tip(figure)
def main(filename='plots/fnc_lagtimes.pdf'): with contexts.complex_figure( filename, width=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM, height=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM, ) as figure: # lagtime_plot(figure) linear_lagtime_plot(figure)
def main(filename='plots/pi_saturation.pdf'): with contexts.complex_figure(filename, # width=settings.DOUBLE_COLUMN_DEFAULT_WIDTH_CM, # height=settings.DOUBLE_COLUMN_DEFAULT_HEIGHT_CM width=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM * 2, height=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM * 2) as figure: # timecourse_plot(figure) # asymptotic_plot(figure) halftime_plot(figure)
def main(): with contexts.complex_figure( "plots/melki_rates_combined.pdf", width=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM, height=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM, right_label=True, ) as figure: melki_rate_plot(figure) # melki_rate_error_plot(figure) # melki_timecourses() # single_timecourse() # stupid_melki_timecourses() with contexts.complex_figure( "plots/melki_fit_quality.pdf", width=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM, height=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM, ) as figure: melki_sample_timecourses(figure)
def main(filename='plots/pi_saturation.pdf'): with contexts.complex_figure( filename, # width=settings.DOUBLE_COLUMN_DEFAULT_WIDTH_CM, # height=settings.DOUBLE_COLUMN_DEFAULT_HEIGHT_CM width=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM * 2, height=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM * 2) as figure: # timecourse_plot(figure) # asymptotic_plot(figure) halftime_plot(figure)
def main(): with contexts.complex_figure('plots/melki_non_be_comparison.pdf', width=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM, height=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM * 2) as figure: non_be_rates(figure) non_be_quality(figure)
def main(): with contexts.complex_figure('plots/melki_vc_tc_comp.pdf', width=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM, height=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM) as figure: vec_tcs(figure)
def main(): with contexts.complex_figure('plots/depoly.pdf', # height=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM, height=4 * 2.54, width=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM) as figure: stacked_timecourses(figure)
def main(): with contexts.complex_figure( 'plots/melki_vc_tc_comp.pdf', width=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM, height=settings.SINGLE_COLUMN_DEFAULT_SIZE_CM) as figure: vec_tcs(figure)