num_term.py @ 37bbd5f

ESS_GUIESS_GUI_DocsESS_GUI_batch_fittingESS_GUI_bumps_abstractionESS_GUI_iss1116ESS_GUI_iss879ESS_GUI_iss959ESS_GUI_openclESS_GUI_orderingESS_GUI_sync_sascalccostrafo411magnetic_scattrelease-4.1.1release-4.1.2release-4.2.2release_4.0.1ticket-1009ticket-1094-headlessticket-1242-2d-resolutionticket-1243ticket-1249ticket885unittest-saveload

Last change on this file since 37bbd5f was 79492222, checked in by krzywon, 9 years ago
Changed the file and folder names to remove all SANS references.
Property mode set to `100644`
File size: 5.7 KB

Rev	Line
[1db4a53]	1	import math
	2	import numpy
	3	import copy
[79492222]	4	from sas.pr.invertor import Invertor
[e96a852]	5
[34f3ad0]	6
	7	class Num_terms():
[d84a90c]	8	"""
	9	"""
	10	def __init__(self, invertor):
	11	"""
	12	"""
	13	self.invertor = invertor
	14	self.nterm_min = 10
	15	self.nterm_max = len(self.invertor.x)
[1db4a53]	16	if self.nterm_max > 50:
	17	self.nterm_max = 50
[d84a90c]	18	self.isquit_func = None
[e96a852]	19
[d84a90c]	20	self.osc_list = []
	21	self.err_list = []
	22	self.alpha_list = []
	23	self.mess_list = []
[e96a852]	24
[d84a90c]	25	self.dataset = []
[e96a852]	26
[d84a90c]	27	def is_odd(self, n):
	28	"""
	29	"""
[1db4a53]	30	return bool(n % 2)
[e96a852]	31
[d84a90c]	32	def sort_osc(self):
	33	"""
	34	"""
[1db4a53]	35	#import copy
[d84a90c]	36	osc = copy.deepcopy(self.dataset)
	37	lis = []
	38	for i in range(len(osc)):
	39	osc.sort()
	40	re = osc.pop(0)
	41	lis.append(re)
	42	return lis
[e96a852]	43
[d84a90c]	44	def median_osc(self):
	45	"""
	46	"""
	47	osc = self.sort_osc()
	48	dv = len(osc)
	49	med = float(dv) / 2.0
	50	odd = self.is_odd(dv)
	51	medi = 0
	52	for i in range(dv):
	53	if odd == True:
	54	medi = osc[int(med)]
	55	else:
	56	medi = osc[int(med) - 1]
	57	return medi
[e96a852]	58
[d84a90c]	59	def get0_out(self):
	60	"""
[34f3ad0]	61	"""
[e96a852]	62	inver = self.invertor
	63	self.osc_list = []
	64	self.err_list = []
	65	self.alpha_list = []
[7578961]	66	for k in range(self.nterm_min, self.nterm_max, 1):
[e96a852]	67	if self.isquit_func != None:
	68	self.isquit_func()
[34f3ad0]	69	best_alpha, message, _ = inver.estimate_alpha(k)
[e96a852]	70	inver.alpha = best_alpha
	71	inver.out, inver.cov = inver.lstsq(k)
	72	osc = inver.oscillations(inver.out)
	73	err = inver.get_pos_err(inver.out, inver.cov)
[1db4a53]	74	if osc > 10.0:
[7578961]	75	break
[e96a852]	76	self.osc_list.append(osc)
	77	self.err_list.append(err)
	78	self.alpha_list.append(inver.alpha)
	79	self.mess_list.append(message)
	80
	81	new_osc1 = []
[1db4a53]	82	new_osc2 = []
[e96a852]	83	new_osc3 = []
[1db4a53]	84	flag9 = False
	85	flag8 = False
	86	flag7 = False
[e96a852]	87	for i in range(len(self.err_list)):
[1db4a53]	88	if self.err_list[i] <= 1.0 and self.err_list[i] >= 0.9:
[e96a852]	89	new_osc1.append(self.osc_list[i])
[1db4a53]	90	flag9 = True
	91	if self.err_list[i] < 0.9 and self.err_list[i] >= 0.8:
[e96a852]	92	new_osc2.append(self.osc_list[i])
[1db4a53]	93	flag8 = True
	94	if self.err_list[i] < 0.8 and self.err_list[i] >= 0.7:
[e96a852]	95	new_osc3.append(self.osc_list[i])
[34f3ad0]	96	flag7 = True
[e96a852]	97
[1db4a53]	98	if flag9 == True:
[e96a852]	99	self.dataset = new_osc1
[1db4a53]	100	elif flag8 == True:
[e96a852]	101	self.dataset = new_osc2
	102	else:
	103	self.dataset = new_osc3
	104
	105	return self.dataset
	106
[d84a90c]	107	def ls_osc(self):
	108	"""
	109	"""
[e96a852]	110	# Generate data
	111	ls_osc = self.get0_out()
	112	med = self.median_osc()
	113
	114	#TODO: check 1
	115	ls_osc = self.dataset
	116	ls = []
	117	for i in range(len(ls_osc)):
	118	if int(med) == int(ls_osc[i]):
	119	ls.append(ls_osc[i])
	120	return ls
	121
[d84a90c]	122	def compare_err(self):
	123	"""
	124	"""
[e96a852]	125	ls = self.ls_osc()
	126	#print "ls", ls
	127	nt_ls = []
	128	for i in range(len(ls)):
	129	r = ls[i]
	130	n = self.osc_list.index(r) + 10
	131	#er = self.err_list[n]
	132	#nt = self.osc_list.index(r) + 10
	133	nt_ls.append(n)
[bd30f4a5]	134	#print "nt list", nt_ls
[e96a852]	135	return nt_ls
	136
[d84a90c]	137	def num_terms(self, isquit_func=None):
	138	"""
	139	"""
	140	try:
	141	self.isquit_func = isquit_func
	142	nts = self.compare_err()
	143	div = len(nts)
	144	tem = float(div)/2.0
	145	odd = self.is_odd(div)
	146	if odd == True:
	147	nt = nts[int(tem)]
	148	else:
	149	nt = nts[int(tem) - 1]
	150	return nt, self.alpha_list[nt - 10], self.mess_list[nt-10]
	151	except:
	152	return self.nterm_min, self.alpha_list[10], self.mess_list[10]
[e96a852]	153
[34f3ad0]	154
[e96a852]	155	#For testing
	156	def load(path):
[d84a90c]	157	# Read the data from the data file
	158	data_x = numpy.zeros(0)
	159	data_y = numpy.zeros(0)
	160	data_err = numpy.zeros(0)
	161	scale = None
	162	min_err = 0.0
	163	if not path == None:
	164	input_f = open(path,'r')
	165	buff = input_f.read()
	166	lines = buff.split('\n')
	167	for line in lines:
	168	try:
	169	toks = line.split()
[1db4a53]	170	test_x = float(toks[0])
	171	test_y = float(toks[1])
	172	if len(toks) > 2:
[d84a90c]	173	err = float(toks[2])
	174	else:
[1db4a53]	175	if scale == None:
	176	scale = 0.05 * math.sqrt(test_y)
[d84a90c]	177	#scale = 0.05/math.sqrt(y)
[34f3ad0]	178	min_err = 0.01 * y
[1db4a53]	179	err = scale * math.sqrt(test_y) + min_err
[d84a90c]	180	#err = 0
	181
[1db4a53]	182	data_x = numpy.append(data_x, test_x)
	183	data_y = numpy.append(data_y, test_y)
[d84a90c]	184	data_err = numpy.append(data_err, err)
	185	except:
	186	pass
	187
	188	return data_x, data_y, data_err
	189
[e96a852]	190
	191	if __name__ == "__main__":
	192	i = Invertor()
	193	x, y, erro = load("test/Cyl_A_D102.txt")
	194	i.d_max = 102.0
[34f3ad0]	195	i.nfunc = 10
[e96a852]	196	#i.q_max = 0.4
	197	#i.q_min = 0.07
[34f3ad0]	198	i.x = x
	199	i.y = y
	200	i.err = erro
[e96a852]	201	#i.out, i.cov = i.lstsq(10)
	202	# Testing estimator
	203	est = Num_terms(i)
	204	print est.num_terms()

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source: sasview/src/sas/pr/num_term.py @ 37bbd5f

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