コード例 #1
0
def saveUVDistanceForPost(filename, name, p_index, c_index):
    """ Saves connection length data but for incoming connections of a given
    post-synaptic neuron,
    name and p_index therefore also refer to the post-synaptic layer """
    object = bpy.data.objects[name]
    uvs = getUVs(object, p_index)
    
    distances = []
    axon_lengths = []
    number_particles = len(object.particle_systems[p_index].particles)
    for i, p in enumerate(object.particle_systems[p_index].particles):
        logger.info('%i / %i' % (i, number_particles))
        pre_neurons, synapses = model.getPreIndicesOfPostIndex(c_index, i)
        distance = []
        axon_length = []
        for j in range(len(pre_neurons)):
            distance.append(model.CONNECTION_RESULTS[c_index]['d'][pre_neurons[j]][synapses[j]])
            axon_length.append(pam.computeDistance_PreToSynapse(c_index, pre_neurons[j], [synapses[j]])[0])
            
        distances.append(np.mean(distance))
        axon_lengths.append(np.mean(axon_length))
        
    f = open(filename, 'w')
    writer = csv.writer(
        f,
        delimiter=";",
        quoting=csv.QUOTE_NONNUMERIC
    )
    
    for i, uv in enumerate(uvs):
        #for d in distances[i]:
        writer.writerow([uv[0], uv[1], distances[i], axon_lengths[i]])
        
    f.close()
コード例 #2
0
def saveUVDistanceForPost(filename, name, p_index, c_index):
    """ Saves connection length data but for incoming connections of a given
    post-synaptic neuron,
    name and p_index therefore also refer to the post-synaptic layer """
    object = bpy.data.objects[name]
    uvs = getUVs(object, p_index)

    distances = []
    axon_lengths = []
    number_particles = len(object.particle_systems[p_index].particles)
    for i, p in enumerate(object.particle_systems[p_index].particles):
        logger.info('%i / %i' % (i, number_particles))
        pre_neurons, synapses = model.getPreIndicesOfPostIndex(c_index, i)
        distance = []
        axon_length = []
        for j in range(len(pre_neurons)):
            distance.append(model.CONNECTION_RESULTS[c_index]['d'][
                pre_neurons[j]][synapses[j]])
            axon_length.append(
                pam.computeDistance_PreToSynapse(c_index, pre_neurons[j],
                                                 [synapses[j]])[0])

        distances.append(np.mean(distance))
        axon_lengths.append(np.mean(axon_length))

    f = open(filename, 'w')
    writer = csv.writer(f, delimiter=";", quoting=csv.QUOTE_NONNUMERIC)

    for i, uv in enumerate(uvs):
        #for d in distances[i]:
        writer.writerow([uv[0], uv[1], distances[i], axon_lengths[i]])

    f.close()
コード例 #3
0
def saveUVDistance(filename, name, p_index, c_index):
    uvs, distances = getUVDistance(name, p_index, c_index)
    
    no_particles = len(bpy.data.objects[name].particle_systems[p_index].particles)
    axon_length = [pam.computeDistance_PreToSynapse(c_index, i)[0] for i in range(no_particles)]

    f = open(filename, 'w')
    writer = csv.writer(
        f,
        delimiter=";",
        quoting=csv.QUOTE_NONNUMERIC
    )
    
    for i, uv in enumerate(uvs):
        #for d in distances[i]:
        writer.writerow([uv[0], uv[1], distances[i], axon_length[i]])
        
    f.close()
コード例 #4
0
def saveUVDistance(filename, name, p_index, c_index):
    uvs, distances = getUVDistance(name, p_index, c_index)

    no_particles = len(
        bpy.data.objects[name].particle_systems[p_index].particles)
    axon_length = [
        pam.computeDistance_PreToSynapse(c_index, i)[0]
        for i in range(no_particles)
    ]

    f = open(filename, 'w')
    writer = csv.writer(f, delimiter=";", quoting=csv.QUOTE_NONNUMERIC)

    for i, uv in enumerate(uvs):
        #for d in distances[i]:
        writer.writerow([uv[0], uv[1], distances[i], axon_length[i]])

    f.close()