From 29e50478dcfc31ce04c4343fa585463abe96caae Mon Sep 17 00:00:00 2001 From: Mario Mulansky Date: Wed, 12 Aug 2015 18:42:54 +0200 Subject: new spike delay asymmetry measures added first version of spike delay asymmetry functions. still incomplete and untested. --- pyspike/directionality/cython/__init__.py | 0 .../cython/cython_directionality.pyx | 177 +++++++++++++++++++++ 2 files changed, 177 insertions(+) create mode 100644 pyspike/directionality/cython/__init__.py create mode 100644 pyspike/directionality/cython/cython_directionality.pyx (limited to 'pyspike/directionality/cython') diff --git a/pyspike/directionality/cython/__init__.py b/pyspike/directionality/cython/__init__.py new file mode 100644 index 0000000..e69de29 diff --git a/pyspike/directionality/cython/cython_directionality.pyx b/pyspike/directionality/cython/cython_directionality.pyx new file mode 100644 index 0000000..f5ea752 --- /dev/null +++ b/pyspike/directionality/cython/cython_directionality.pyx @@ -0,0 +1,177 @@ +#cython: boundscheck=False +#cython: wraparound=False +#cython: cdivision=True + +""" +cython_directionality.pyx + +cython implementation of the spike delay asymmetry measures + +Copyright 2015, Mario Mulansky + +Distributed under the BSD License + +""" + +""" +To test whether things can be optimized: remove all yellow stuff +in the html output:: + + cython -a cython_directionality.pyx + +which gives:: + + cython_directionality.html + +""" + +import numpy as np +cimport numpy as np + +from libc.math cimport fabs +from libc.math cimport fmax +from libc.math cimport fmin + +# from pyspike.cython.cython_distances cimport get_tau + +DTYPE = np.float +ctypedef np.float_t DTYPE_t + + +############################################################ +# get_tau +############################################################ +cdef inline double get_tau(double[:] spikes1, double[:] spikes2, + int i, int j, double interval, double max_tau): + cdef double m = interval # use interval length as initial tau + cdef int N1 = spikes1.shape[0]-1 # len(spikes1)-1 + cdef int N2 = spikes2.shape[0]-1 # len(spikes2)-1 + if i < N1 and i > -1: + m = fmin(m, spikes1[i+1]-spikes1[i]) + if j < N2 and j > -1: + m = fmin(m, spikes2[j+1]-spikes2[j]) + if i > 0: + m = fmin(m, spikes1[i]-spikes1[i-1]) + if j > 0: + m = fmin(m, spikes2[j]-spikes2[j-1]) + m *= 0.5 + if max_tau > 0.0: + m = fmin(m, max_tau) + return m + + +############################################################ +# spike_delay_asymmetry_profile_cython +############################################################ +def spike_delay_asymmetry_profile_cython(double[:] spikes1, double[:] spikes2, + double t_start, double t_end, + double max_tau): + + cdef int N1 = len(spikes1) + cdef int N2 = len(spikes2) + cdef int i = -1 + cdef int j = -1 + cdef int n = 0 + cdef double[:] st = np.zeros(N1 + N2 + 2) # spike times + cdef double[:] a = np.zeros(N1 + N2 + 2) # asymmetry values + cdef double[:] mp = np.ones(N1 + N2 + 2) # multiplicity + cdef double interval = t_end - t_start + cdef double tau + while i + j < N1 + N2 - 2: + if (i < N1-1) and (j == N2-1 or spikes1[i+1] < spikes2[j+1]): + i += 1 + n += 1 + tau = get_tau(spikes1, spikes2, i, j, interval, max_tau) + st[n] = spikes1[i] + if j > -1 and spikes1[i]-spikes2[j] < tau: + # coincidence between the current spike and the previous spike + # spike from spike train 1 after spike train 2 + # both get marked with -1 + a[n] = -1 + a[n-1] = -1 + elif (j < N2-1) and (i == N1-1 or spikes1[i+1] > spikes2[j+1]): + j += 1 + n += 1 + tau = get_tau(spikes1, spikes2, i, j, interval, max_tau) + st[n] = spikes2[j] + if i > -1 and spikes2[j]-spikes1[i] < tau: + # coincidence between the current spike and the previous spike + # spike from spike train 1 before spike train 2 + # both get marked with 1 + a[n] = 1 + a[n-1] = 1 + else: # spikes1[i+1] = spikes2[j+1] + # advance in both spike trains + j += 1 + i += 1 + n += 1 + # add only one event with zero asymmetry value and multiplicity 2 + st[n] = spikes1[i] + a[n] = 0 + mp[n] = 2 + + st = st[:n+2] + a = a[:n+2] + mp = mp[:n+2] + + st[0] = t_start + st[len(st)-1] = t_end + if N1 + N2 > 0: + a[0] = a[1] + a[len(a)-1] = a[len(a)-2] + mp[0] = mp[1] + mp[len(mp)-1] = mp[len(mp)-2] + else: + a[0] = 1 + a[1] = 1 + + return st, a, mp + + + +############################################################ +# spike_delay_asymmetry_cython +############################################################ +def spike_delay_asymmetry_cython(double[:] spikes1, double[:] spikes2, + double t_start, double t_end, double max_tau): + + cdef int N1 = len(spikes1) + cdef int N2 = len(spikes2) + cdef int i = -1 + cdef int j = -1 + cdef int asym = 0 + cdef int mp = 0 + cdef double interval = t_end - t_start + cdef double tau + while i + j < N1 + N2 - 2: + if (i < N1-1) and (j == N2-1 or spikes1[i+1] < spikes2[j+1]): + i += 1 + mp += 1 + tau = get_tau(spikes1, spikes2, i, j, interval, max_tau) + if j > -1 and spikes1[i]-spikes2[j] < tau: + # coincidence between the current spike and the previous spike + # spike in spike train 2 appeared before spike in spike train 1 + # mark with -1 + asym -= 1 + elif (j < N2-1) and (i == N1-1 or spikes1[i+1] > spikes2[j+1]): + j += 1 + mp += 1 + tau = get_tau(spikes1, spikes2, i, j, interval, max_tau) + if i > -1 and spikes2[j]-spikes1[i] < tau: + # coincidence between the current spike and the previous spike + # spike in spike train 1 appeared before spike in spike train 2 + # mark with +1 + asym += 1 + else: # spikes1[i+1] = spikes2[j+1] + # advance in both spike trains + j += 1 + i += 1 + # add only one event with multiplicity 2, but no asymmetry counting + mp += 2 + + if asym == 0 and mp == 0: + # empty spike trains -> spike sync = 1 by definition + asym = 1 + mp = 1 + + return asym, mp -- cgit v1.2.3