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UniVTG / utils /cpd_nonlin.py

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	import numpy as np
	# from scipy import weave

	def calc_scatters(K):
	n = K.shape[0]
	K1 = np.cumsum([0] + list(np.diag(K)))
	K2 = np.zeros((n+1, n+1))
	K2[1:, 1:] = np.cumsum(np.cumsum(K, 0), 1) # TODO: use the fact that K - symmetric

	scatters = np.zeros((n, n))

	# code = r"""
	# for (int i = 0; i < n; i++) {
	# for (int j = i; j < n; j++) {
	# scatters(i,j) = K1(j+1)-K1(i) - (K2(j+1,j+1)+K2(i,i)-K2(j+1,i)-K2(i,j+1))/(j-i+1);
	# }
	# }
	# """
	# weave.inline(code, ['K1','K2','scatters','n'], global_dict = \
	# {'K1':K1, 'K2':K2, 'scatters':scatters, 'n':n}, type_converters=weave.converters.blitz)

	for i in range(n):
	for j in range(i, n):
	scatters[i,j] = K1[j+1] - K1[i] - (K2[j+1,j+1]+K2[i,i]-K2[j+1,i]-K2[i,j+1])/(j-i+1)
	return scatters

	def cpd_nonlin(K, ncp, lmin=1, lmax=100000, backtrack=True, verbose=True,
	out_scatters=None):
	""" Change point detection with dynamic programming
	K - square kernel matrix
	ncp - number of change points to detect (ncp >= 0)
	lmin - minimal length of a segment
	lmax - maximal length of a segment
	backtrack - when False - only evaluate objective scores (to save memory)

	Returns: (cps, obj)
	cps - detected array of change points: mean is thought to be constant on [ cps[i], cps[i+1] )
	obj_vals - values of the objective function for 0..m changepoints

	"""
	m = int(ncp) # prevent numpy.int64

	(n, n1) = K.shape
	assert(n == n1), "Kernel matrix awaited."

	assert(n >= (m + 1)*lmin)
	assert(n <= (m + 1)*lmax)
	assert(lmax >= lmin >= 1)

	if verbose:
	#print "n =", n
	print("Precomputing scatters...")
	J = calc_scatters(K)

	if out_scatters != None:
	out_scatters[0] = J

	if verbose:
	print("Inferring best change points...")
	I = 1e101*np.ones((m+1, n+1))
	I[0, lmin:lmax] = J[0, lmin-1:lmax-1]

	if backtrack:
	p = np.zeros((m+1, n+1), dtype=int)
	else:
	p = np.zeros((1,1), dtype=int)

	# code = r"""
	# #define max(x,y) ((x)>(y)?(x):(y))
	# for (int k=1; k<m+1; k++) {
	# for (int l=(k+1)*lmin; l<n+1; l++) {
	# I(k, l) = 1e100; //nearly infinity
	# for (int t=max(k*lmin,l-lmax); t<l-lmin+1; t++) {
	# double c = I(k-1, t) + J(t, l-1);
	# if (c < I(k, l)) {
	# I(k, l) = c;
	# if (backtrack == 1) {
	# p(k, l) = t;
	# }
	# }
	# }
	# }
	# }
	# """

	# weave.inline(code, ['m','n','p','I', 'J', 'lmin', 'lmax', 'backtrack'], \
	# global_dict={'m':m, 'n':n, 'p':p, 'I':I, 'J':J, \
	# 'lmin':lmin, 'lmax':lmax, 'backtrack': int(1) if backtrack else int(0)},
	# type_converters=weave.converters.blitz)

	for k in range(1, m+1):
	for l in range((k+1)*lmin, n+1):
	I[k, l] = 1e100
	for t in range(max(k*lmin,l-lmax), l-lmin+1):
	c = I[k-1, t] + J[t, l-1]
	if (c < I[k, l]):
	I[k, l] = c
	if (backtrack == 1):
	p[k, l] = t


	# Collect change points
	cps = np.zeros(m, dtype=int)

	if backtrack:
	cur = n
	for k in range(m, 0, -1):
	cps[k-1] = p[k, cur]
	cur = cps[k-1]

	scores = I[:, n].copy()
	scores[scores > 1e99] = np.inf
	return cps, scores