Drangmeister
/
structured_inhibition_spatial_network_model


			
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							import multiprocessing

import numpy as np
from pypet import Trajectory
from pypet.brian2 import Brian2MonitorResult

from scripts.spatial_network.spatial_network_setup import calculate_rates
from scripts.spatial_network.supplement_pinwheel_map.run_simulation_pinwheel_map import DATA_FOLDER, TRAJ_NAME

traj = None
directions = None
def get_spike_train_dictionary(number_of_neurons, spike_times, neuron_indices):
    spike_train_dict = {}
    for neuron_idx in range(number_of_neurons):
        spike_train_dict[neuron_idx] = []

    for neuron_idx, t in zip(neuron_indices, spike_times):
        spike_train_dict[neuron_idx].append(t)
    return spike_train_dict


def get_firing_rate_dict_per_cell_and_direction(traj, run_name):
    traj.f_set_crun(run_name)
    firing_rate_dict = {}
    direction_names = ["dir{:d}".format(idx) for idx in range(traj.input.number_of_directions)]
    for idx in range(traj.N_E):
        firing_rate_dict[idx] = []
    for direction in direction_names:
        number_of_neurons = traj.N_E
        all_spike_times = traj.results.runs[run_name][direction].spikes.e.t
        neuron_indices = traj.results.runs[run_name][direction].spikes.e.i
        ex_spike_trains = get_spike_train_dictionary(number_of_neurons, all_spike_times,
                                                     neuron_indices)
        ex_spike_rates = calculate_rates(ex_spike_trains.values())
        for idx, spike_rate in enumerate(ex_spike_rates):
            firing_rate_dict[idx].append(spike_rate)
    traj.f_restore_default()
    return firing_rate_dict

def get_firing_rate_array_per_cell_and_direction(traj, run_name):
    traj.f_set_crun(run_name)
    firing_rate_array = np.ndarray((traj.N_E, traj.input.number_of_directions))
    direction_names = ["dir{:d}".format(idx) for idx in range(traj.input.number_of_directions)]
    for dir_idx, direction in enumerate(direction_names):
        number_of_neurons = traj.N_E
        all_spike_times = traj.results.runs[run_name][direction].spikes.e.t
        neuron_indices = traj.results.runs[run_name][direction].spikes.e.i
        ex_spike_trains = get_spike_train_dictionary(number_of_neurons, all_spike_times,
                                                     neuron_indices)
        ex_spike_rates = calculate_rates(ex_spike_trains.values())
        for n_idx, spike_rate in enumerate(ex_spike_rates):
            #TODO: Why on earth does the unit vanish?
            firing_rate_array[n_idx, dir_idx] = spike_rate
    traj.f_restore_default()
    return firing_rate_array


def get_head_direction_indices(directions, firing_rate_array):
    n_exc_neurons = firing_rate_array.shape[0]
    n_directions = len(directions)

    tuning_vectors = np.zeros((n_exc_neurons,n_directions,2))
    rate_sums = np.zeros((n_exc_neurons,))
    for ex_id, ex_rates in enumerate(firing_rate_array):
        rate_sum = 0.
        for dir_id, dir in enumerate(directions):
            tuning_vectors[ex_id, dir_id] = np.array([np.cos(dir), np.sin(dir)]) * ex_rates[dir_id]
            rate_sum += ex_rates[dir_id]
        rate_sums[ex_id] = rate_sum
    tuning_vectors_return = tuning_vectors.copy()
    for ex_id in range(n_exc_neurons):
        if rate_sums[ex_id] != 0.:
            tuning_vectors[ex_id, :, :] /= rate_sums[ex_id]
    tuning_vectors_summed = np.sum(tuning_vectors, axis=1)

    head_direction_indices = np.array([np.linalg.norm(v) for v in tuning_vectors_summed])

    return head_direction_indices, tuning_vectors_return


def get_inhibitory_firing_rate_array_per_cell_and_direction(traj, run_name):
    number_of_neurons = traj.N_I
    traj.f_set_crun(run_name)
    firing_rate_array = np.ndarray((number_of_neurons, traj.input.number_of_directions))
    direction_names = ["dir{:d}".format(idx) for idx in range(traj.input.number_of_directions)]

    try:
        traj.results.runs[run_name]['dir0'].spikes.i.t
    except:
        label = traj.derived_parameters.runs[run_name].morphology.morph_label
        print('Cant find t for run {} with label {}'.format(run_name,label))
        return np.zeros((number_of_neurons, traj.input.number_of_directions))

    for dir_idx, direction in enumerate(direction_names):
        all_spike_times = traj.results.runs[run_name][direction].spikes.i.t
        neuron_indices = traj.results.runs[run_name][direction].spikes.i.i
        inh_spike_trains = get_spike_train_dictionary(number_of_neurons, all_spike_times,
                                                      neuron_indices)
        inh_spike_rates = calculate_rates(inh_spike_trains.values())
        for n_idx, spike_rate in enumerate(inh_spike_rates):
            #TODO: Why on earth does the unit vanish?
            firing_rate_array[n_idx, dir_idx] = spike_rate
    traj.f_restore_default()
    return firing_rate_array


def get_inhibitory_head_direction_indices(directions, firing_rate_array):
    n_inh_neurons = firing_rate_array.shape[0]
    n_directions = len(directions)

    tuning_vectors = np.zeros((n_inh_neurons,n_directions,2))
    rate_sums = np.zeros((n_inh_neurons,))
    for inh_id, inh_rates in enumerate(firing_rate_array):
        rate_sum = 0.
        for dir_id, dir in enumerate(directions):
            tuning_vectors[inh_id, dir_id] = np.array([np.cos(dir), np.sin(dir)]) * inh_rates[dir_id]
            rate_sum += inh_rates[dir_id]
        rate_sums[inh_id] = rate_sum
    tuning_vectors_return = tuning_vectors.copy()
    for inh_id in range(n_inh_neurons):
        if rate_sums[inh_id] != 0.:
            tuning_vectors[inh_id, :, :] /= rate_sums[inh_id]
    tuning_vectors_summed = np.sum(tuning_vectors, axis=1)

    head_direction_indices = np.array([np.linalg.norm(v) for v in tuning_vectors_summed])

    return head_direction_indices, tuning_vectors_return


def get_runs_with_circular_morphology(traj):
    filtered_indices = traj.f_find_idx(('parameters.long_axis', 'parameters.short_axis'), lambda r1, r2: r1 == r2)
    return filtered_indices

def analyse_single_run(run_name):
    traj.f_set_crun(run_name)
    label = traj.derived_parameters.runs[run_name].morphology.morph_label
    print(run_name, label)

    if label != 'no conn':
        print(run_name,'inh')
        inh_firing_rate_array = get_inhibitory_firing_rate_array_per_cell_and_direction(traj, run_name)
        inh_head_direction_indices, inh_tuning_vectors = get_inhibitory_head_direction_indices(directions, inh_firing_rate_array)
    else:
        n_inh = traj.N_I
        n_dir = traj.input.number_of_directions
        inh_firing_rate_array = np.zeros((n_inh, n_dir))
        inh_head_direction_indices = np.zeros(n_inh)
        inh_tuning_vectors = np.zeros((n_inh,n_dir,2))

    exc_firing_rate_array = get_firing_rate_array_per_cell_and_direction(traj, run_name)
    exc_head_direction_indices, exc_tuning_vectors = get_head_direction_indices(directions, exc_firing_rate_array)
    return exc_firing_rate_array, exc_head_direction_indices, exc_tuning_vectors, inh_firing_rate_array, inh_head_direction_indices, inh_tuning_vectors


def main():
    global traj, directions
    traj = Trajectory(TRAJ_NAME, add_time=False, dynamic_imports=Brian2MonitorResult)
    NO_LOADING = 0
    FULL_LOAD = 2
    traj.f_load(filename=DATA_FOLDER + TRAJ_NAME + ".hdf5", load_parameters=FULL_LOAD, load_results=FULL_LOAD)

    # traj.v_auto_load = True

    directions = np.linspace(-np.pi, np.pi, traj.input.number_of_directions, endpoint=False)

    run_names = traj.f_get_run_names()[::-1]

    pool = multiprocessing.Pool()
    multi_proc_result = pool.map(analyse_single_run, run_names)
    print(type(multi_proc_result), len(multi_proc_result))

    for idx, run_name in enumerate(run_names):
        traj.f_set_crun(run_name)
        traj.f_add_result('runs.$.firing_rate_array', multi_proc_result[idx][0],
                          comment='The firing rates of the excitatory population')
        traj.f_add_result('runs.$.head_direction_indices', multi_proc_result[idx][1],
                          comment='The HDIs of the excitatory population')
        traj.f_add_result('runs.$.tuning_vectors', multi_proc_result[idx][2],
                          comment='The tuning vectors of the excitatory population')

        traj.f_add_result('runs.$.inh_firing_rate_array', multi_proc_result[idx][3],
                          comment='The firing rates of the inhibitory population')
        traj.f_add_result('runs.$.inh_head_direction_indices', multi_proc_result[idx][4],
                          comment='The HDIs of the inhibitory population')
        traj.f_add_result('runs.$.inh_tuning_vectors', multi_proc_result[idx][5],
                          comment='The tuning vectors of the inhibitory population')

        traj.f_restore_default()

    traj.f_store()
    print('Analysis done')

if __name__ == "__main__":
    main()