I have written the following cython code to be used with the analysis of my research.
def jumprate(np.ndarray[FTYPE_t, ndim=1] X ,np.ndarray[LTYPE_t, ndim=1] V): cdef np.ndarray J = np.zeros([X.shape], dtype=LTYPE) cdef np.ndarray O = np.zeros([X.shape], dtype=LTYPE) cdef np.ndarray Vel = np.zeros([X.shape], dtype=FTYPE) cdef long j=0 # index of J cdef long o=0# index of O cdef long k = 0 # index of X cdef long l = 0 # counts length of sequence of same velocity sign cdef long L = V.shape/3 cdef int jumpstart = 1 cdef int jumpend = 1 cdef long S0 = 0 while k < L: # run over position array if V[k]==V[k-1]: # might be a start of jump jumpstart = k # Also where last oscilation ended S0 = V[k] while V[k]==S0: # As long as velocity sign doesn't change we might be in a jump l += 1 # Count sequences length k += 1 # Update position in array if int(X[jumpstart]) != int(X[k]): # If start end ending point of sequence are # in different grid squares, it's a jump J[j] = l # Append jump length to list j += 1 Vel[j] = (jumpstart-jumpend)/100 O[o] = abs((jumpend-jumpstart)) # Append oscilation length to list o += 1 l = 0 jumpend = k # mark where last jump ended (also where new oscilation starts) k+=1 return J,O,Vel
Notice in the definition of L at the 9th line the division by 3. I inserted it after receiving the following error at runtime
while V[k]==S0: # ... IndexError: Out of bounds on buffer access (axis 0)
which sort of solved the problem. However, the array's X,V passed to the function have 99990 elements in them, and this solution means only the first 33330 are used. At first i though i should simply change the type from int to long but it did not help.
Can anyone suggest a remedy for the problem?
Those who are interested in the purpose of the code, it is meant to follow the trajectory of an atom (the array X), which oscillates in a potential well some times, and jumps from one well to another at other times. The function "jumprate" returns two arrays which holds the lengths (in time) of the alternating jumping and oscillatory motion sequences.