# Module containing several functions to compute SPIKE-Synchronization profiles # and distances # Copyright 2014-2015, Mario Mulansky # Distributed under the BSD License from __future__ import absolute_import import numpy as np from functools import partial import pyspike from pyspike import DiscreteFunc, SpikeTrain from pyspike.generic import _generic_profile_multi, _generic_distance_matrix ############################################################ # spike_sync_profile ############################################################ def spike_sync_profile(*args, **kwargs): """ Computes the spike-synchronization profile S_sync(t) of the given spike trains. Returns the profile as a DiscreteFunction object. In the bivariate case, he S_sync values are either 1 or 0, indicating the presence or absence of a coincidence. For multi-variate cases, each spike in the set of spike trains, the profile is defined as the number of coincidences divided by the number of spike trains pairs involving the spike train of containing this spike, which is the number of spike trains minus one (N-1). Valid call structures:: spike_sync_profile(st1, st2) # returns the bi-variate profile spike_sync_profile(st1, st2, st3) # multi-variate profile of 3 sts sts = [st1, st2, st3, st4] # list of spike trains spike_sync_profile(sts) # profile of the list of spike trains spike_sync_profile(sts, indices=[0, 1]) # use only the spike trains # given by the indices In the multivariate case, the profile is defined as the number of coincidences for each spike in the set of spike trains divided by the number of spike trains pairs involving the spike train of containing this spike, which is the number of spike trains minus one (N-1). :returns: The spike-sync profile :math:`S_{sync}(t)`. :rtype: :class:`pyspike.function.DiscreteFunction` """ if len(args) == 1: return spike_sync_profile_multi(args[0], **kwargs) elif len(args) == 2: return spike_sync_profile_bi(args[0], args[1], **kwargs) else: return spike_sync_profile_multi(args, **kwargs) ############################################################ # spike_sync_profile_bi ############################################################ def spike_sync_profile_bi(spike_train1, spike_train2, max_tau=None): """ Specific function to compute a bivariate SPIKE-Sync-profile. This is a deprecated function and should not be called directly. Use :func:`.spike_sync_profile` to compute SPIKE-Sync-profiles. :param spike_train1: First spike train. :type spike_train1: :class:`pyspike.SpikeTrain` :param spike_train2: Second spike train. :type spike_train2: :class:`pyspike.SpikeTrain` :param max_tau: Maximum coincidence window size. If 0 or `None`, the coincidence window has no upper bound. :returns: The spike-sync profile :math:`S_{sync}(t)`. :rtype: :class:`pyspike.function.DiscreteFunction` """ # check whether the spike trains are defined for the same interval assert spike_train1.t_start == spike_train2.t_start, \ "Given spike trains are not defined on the same interval!" assert spike_train1.t_end == spike_train2.t_end, \ "Given spike trains are not defined on the same interval!" # cython implementation try: from .cython.cython_profiles import coincidence_profile_cython \ as coincidence_profile_impl except ImportError: if not(pyspike.disable_backend_warning): print("Warning: spike_distance_cython not found. Make sure that \ PySpike is installed by running\n 'python setup.py build_ext --inplace'!\n \ Falling back to slow python backend.") # use python backend from .cython.python_backend import coincidence_python \ as coincidence_profile_impl if max_tau is None: max_tau = 0.0 times, coincidences, multiplicity \ = coincidence_profile_impl(spike_train1.spikes, spike_train2.spikes, spike_train1.t_start, spike_train1.t_end, max_tau) return DiscreteFunc(times, coincidences, multiplicity) ############################################################ # spike_sync_profile_multi ############################################################ def spike_sync_profile_multi(spike_trains, indices=None, max_tau=None): """ Specific function to compute a multivariate SPIKE-Sync-profile. This is a deprecated function and should not be called directly. Use :func:`.spike_sync_profile` to compute SPIKE-Sync-profiles. :param spike_trains: list of :class:`pyspike.SpikeTrain` :param indices: list of indices defining which spike trains to use, if None all given spike trains are used (default=None) :type indices: list or None :param max_tau: Maximum coincidence window size. If 0 or `None`, the coincidence window has no upper bound. :returns: The multi-variate spike sync profile :math:`(t)` :rtype: :class:`pyspike.function.DiscreteFunction` """ prof_func = partial(spike_sync_profile_bi, max_tau=max_tau) average_prof, M = _generic_profile_multi(spike_trains, prof_func, indices) # average_dist.mul_scalar(1.0/M) # no normalization here! return average_prof ############################################################ # _spike_sync_values ############################################################ def _spike_sync_values(spike_train1, spike_train2, interval, max_tau): """" Internal function. Computes the summed coincidences and multiplicity for spike synchronization of the two given spike trains. Do not call this function directly, use `spike_sync` or `spike_sync_multi` instead. """ if interval is None: # distance over the whole interval is requested: use specific function # for optimal performance try: from .cython.cython_distances import coincidence_value_cython \ as coincidence_value_impl if max_tau is None: max_tau = 0.0 c, mp = coincidence_value_impl(spike_train1.spikes, spike_train2.spikes, spike_train1.t_start, spike_train1.t_end, max_tau) return c, mp except ImportError: # Cython backend not available: fall back to profile averaging return spike_sync_profile_bi(spike_train1, spike_train2, max_tau).integral(interval) else: # some specific interval is provided: use profile return spike_sync_profile_bi(spike_train1, spike_train2, max_tau).integral(interval) ############################################################ # spike_sync ############################################################ def spike_sync(*args, **kwargs): """ Computes the spike synchronization value SYNC of the given spike trains. The spike synchronization value is the computed as the total number of coincidences divided by the total number of spikes: .. math:: SYNC = \sum_n C_n / N. Valid call structures:: spike_sync(st1, st2) # returns the bi-variate spike synchronization spike_sync(st1, st2, st3) # multi-variate result for 3 spike trains spike_trains = [st1, st2, st3, st4] # list of spike trains spike_sync(spike_trains) # spike-sync of the list of spike trains spike_sync(spike_trains, indices=[0, 1]) # use only the spike trains # given by the indices The multivariate SPIKE-Sync is again defined as the overall ratio of all coincidence values divided by the total number of spikes. :returns: The spike synchronization value. :rtype: `double` """ if len(args) == 1: return spike_sync_multi(args[0], **kwargs) elif len(args) == 2: return spike_sync_bi(args[0], args[1], **kwargs) else: return spike_sync_multi(args, **kwargs) ############################################################ # spike_sync_bi ############################################################ def spike_sync_bi(spike_train1, spike_train2, interval=None, max_tau=None): """ Specific function to compute a bivariate SPIKE-Sync value. This is a deprecated function and should not be called directly. Use :func:`.spike_sync` to compute SPIKE-Sync values. :param spike_train1: First spike train. :type spike_train1: :class:`pyspike.SpikeTrain` :param spike_train2: Second spike train. :type spike_train2: :class:`pyspike.SpikeTrain` :param interval: averaging interval given as a pair of floats (T0, T1), if `None` the average over the whole function is computed. :type interval: Pair of floats or None. :param max_tau: Maximum coincidence window size. If 0 or `None`, the coincidence window has no upper bound. :returns: The spike synchronization value. :rtype: `double` """ c, mp = _spike_sync_values(spike_train1, spike_train2, interval, max_tau) if mp == 0: return 1.0 else: return 1.0*c/mp ############################################################ # spike_sync_multi ############################################################ def spike_sync_multi(spike_trains, indices=None, interval=None, max_tau=None): """ Specific function to compute a multivariate SPIKE-Sync value. This is a deprecated function and should not be called directly. Use :func:`.spike_sync` to compute SPIKE-Sync values. :param spike_trains: list of :class:`pyspike.SpikeTrain` :param indices: list of indices defining which spike trains to use, if None all given spike trains are used (default=None) :type indices: list or None :param interval: averaging interval given as a pair of floats, if None the average over the whole function is computed. :type interval: Pair of floats or None. :param max_tau: Maximum coincidence window size. If 0 or `None`, the coincidence window has no upper bound. :returns: The multi-variate spike synchronization value SYNC. :rtype: double """ if indices is None: indices = np.arange(len(spike_trains)) indices = np.array(indices) # check validity of indices assert (indices < len(spike_trains)).all() and (indices >= 0).all(), \ "Invalid index list." # generate a list of possible index pairs pairs = [(indices[i], j) for i in range(len(indices)) for j in indices[i+1:]] coincidence = 0.0 mp = 0.0 for (i, j) in pairs: c, m = _spike_sync_values(spike_trains[i], spike_trains[j], interval, max_tau) coincidence += c mp += m if mp == 0.0: return 1.0 else: return coincidence/mp ############################################################ # spike_sync_matrix ############################################################ def spike_sync_matrix(spike_trains, indices=None, interval=None, max_tau=None): """ Computes the overall spike-synchronization value of all pairs of spike-trains. :param spike_trains: list of :class:`pyspike.SpikeTrain` :param indices: list of indices defining which spike trains to use, if None all given spike trains are used (default=None) :type indices: list or None :param interval: averaging interval given as a pair of floats, if None the average over the whole function is computed. :type interval: Pair of floats or None. :param max_tau: Maximum coincidence window size. If 0 or `None`, the coincidence window has no upper bound. :returns: 2D array with the pair wise time spike synchronization values :math:`SYNC_{ij}` :rtype: np.array """ dist_func = partial(spike_sync_bi, max_tau=max_tau) return _generic_distance_matrix(spike_trains, dist_func, indices, interval) ############################################################ # filter_by_spike_sync ############################################################ def filter_by_spike_sync(spike_trains, threshold, indices=None, max_tau=None, return_removed_spikes=False): """ Removes the spikes with a multi-variate spike_sync value below threshold. """ N = len(spike_trains) filtered_spike_trains = [] removed_spike_trains = [] # cython implementation try: from .cython.cython_profiles import coincidence_single_profile_cython \ as coincidence_impl except ImportError: if not(pyspike.disable_backend_warning): print("Warning: coincidence_single_profile_cython not found. Make \ sure that PySpike is installed by running\n \ 'python setup.py build_ext --inplace'!\n \ Falling back to slow python backend.") # use python backend from .cython.python_backend import coincidence_single_python \ as coincidence_impl if max_tau is None: max_tau = 0.0 for i, st in enumerate(spike_trains): coincidences = np.zeros_like(st) for j in range(N): if i == j: continue coincidences += coincidence_impl(st.spikes, spike_trains[j].spikes, st.t_start, st.t_end, max_tau) filtered_spikes = st[coincidences > threshold*(N-1)] filtered_spike_trains.append(SpikeTrain(filtered_spikes, [st.t_start, st.t_end])) if return_removed_spikes: removed_spikes = st[coincidences <= threshold*(N-1)] removed_spike_trains.append(SpikeTrain(removed_spikes, [st.t_start, st.t_end])) if return_removed_spikes: return [filtered_spike_trains, removed_spike_trains] else: return filtered_spike_trains