def plot_labels(axes):
core.plot_labels(axes,
labels_to_plot=[
"placeholder", "heatplot_homsyn",
"heatplot_heterosyn", "heatplot_hom_het_comparison",
"phase1", "phase2", "phase3"
],
label_ypos={
"placeholder": .9,
"heatplot_homsyn": 1.,
"heatplot_heterosyn": 1.,
"heatplot_hom_het_comparison": 1.,
"phase1": 1.,
"phase2": 1.,
"phase3": 1.
},
label_xpos={
"placeholder": 0.02,
"heatplot_heterosyn": 0.02,
"heatplot_homosyn": 0.02,
"heatplot_hom_het_comparison": 0.02,
"phase1": 0.02,
"phase2": 0.02,
"phase3": 0.02
})
def plot_labels(axes):
core.plot_labels(axes,
labels_to_plot=[
"dummy1",
"spikes_before_teach",
"weightpath_euc",
"weightpath_nat",
"learningcurve",
"dummy9",
"heatplot_homsyn",
"heatplot_heterosyn",
"heatplot_hom_het_comparison",
"attenuation_summary_abs",
"attenuation_example_abs",
"var_result_summary",
"var_result_example"
],
label_ypos = {
"dummy1":.8,
"spikes_before_teach":.8,
"weightpath_euc":.95,
"weightpath_nat":.95,
"learningcurve":.95,
"dummy9":.9,
"heatplot_homsyn":.95,
"heatplot_heterosyn":0.95,
"heatplot_hom_het_comparison":0.95,
"attenuation_summary_abs":.95,
"attenuation_example_abs":.95,
"var_result_summary":.95,
"var_result_example":.95
} ,
label_xpos = { "dummy1":-0.2,
"spikes_before_teach":-0.2,
"weightpath_euc":-0.2,
"weightpath_nat":-0.2,
"learningcurve":-0.2,
"dummy9":-0.2,
"heatplot_homsyn":-0.2,
"heatplot_heterosyn":-0.2,
"heatplot_hom_het_comparison":-0.2,
"attenuation_summary_abs":-0.2,
"attenuation_example_abs":-0.2,
"var_result_summary":-0.2,
"var_result_example":-0.2,
}
)
def plot_labels(axes):
core.plot_labels(axes,
labels_to_plot=[
"plasticity_hom",
"plasticity_het_u",
"plasticity_het_p",
],
label_ypos={
"plasticity_hom": .9,
"plasticity_het_u": .9,
"plasticity_het_p": .9,
},
label_xpos={
"plasticity_hom": 0.02,
"plasticity_het_u": 0.02,
"plasticity_het_p": 0.02,
})
def plot_labels(axes):
core.plot_labels(axes,
labels_to_plot=[
"attenuation_example_perc",
"attenuation_summary_perc",
"attenuation_example_abs",
"attenuation_summary_abs",
"var_hist_hr_ht",
"var_hist_lr_ht",
"var_hist_hr_lt",
"var_highr_hightau",
"var_lowr_hightau",
"var_highr_lowtau",
"var_result_example",
"var_result_summary"
],
label_ypos = {"attenuation_example_perc":1.,
"attenuation_summary_perc":1.,
"attenuation_example_abs":1.,
"attenuation_summary_abs":1.,
"var_hist_hr_ht":1.,
"var_hist_lr_ht":1.,
"var_hist_hr_lt":1.,
"var_highr_hightau":1.,
"var_lowr_hightau":1.,
"var_highr_lowtau":1.,
"var_result_example":1.,
"var_result_summary":1.
},
label_xpos = { "attenuation_example_perc":0.02,
"attenuation_summary_perc":0.02,
"attenuation_example_abs":0.02,
"attenuation_summary_abs":0.02,
"var_hist_hr_ht":0.02,
"var_hist_lr_ht":0.02,
"var_hist_hr_lt":0.02,
"var_highr_hightau":0.02,
"var_lowr_hightau":0.02,
"var_highr_lowtau":0.02,
"var_result_example":0.02,
"var_result_summary":0.02
}
)
def plot_labels(axes):
core.plot_labels(axes,
labels_to_plot=[
"network_schema",
"spikes_before",
"spikes_after",
#"spikes_before_teach",
#"spikes_after_teach",
#"histo_before",
#"histo_after",
#"voltage_before",
#"voltage_after",
"weightpath_euc",
"weightpath_nat",
"learningcurve"
],
label_ypos = {"network_schema":1.,
"spikes_before":1.,
"spikes_after":1.,
"spikes_before_teach":1.,
"spikes_after_teach":1.,
"histo_before":1.,
"histo_after":1.,
"voltage_before":1.,
"voltage_after":1.,
"weightpath_euc":1.,
"weightpath_nat":1.,
"learningcurve":1.,
},
label_xpos = { "network_schema": 0.02,
"spikes_before":0.02,
"spikes_after":0.02,
"spikes_before":0.02,
"spikes_after":0.02,
"histo_before":0.02,
"histo_after":0.02,
"voltage_before":0.02,
"voltage_after":0.02,
"weightpath_euc":0.02,
"weightpath_nat":0.02,
"learningcurve":0.02
}
)