model_thread.py @ 33fdb34

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 33fdb34 was 7e7e806, checked in by Gervaise Alina <gervyh@…>, 13 years ago
modify model thread to make data as a required input parameter
Property mode set to `100644`
File size: 7.5 KB

Rev	Line
[5062bbf]	1
	2
[bb18ef1]	3	import time
	4	import sys
[7e7e806]	5	import numpy
	6	import math
[e4957fb]	7	from sans.models.smearing_2d import Smearer2D
[7e7e806]	8	from data_util.calcthread import CalcThread
[5062bbf]	9
[bb18ef1]	10	class Calc2D(CalcThread):
	11	"""
[5062bbf]	12	Compute 2D model
	13	This calculation assumes a 2-fold symmetry of the model
	14	where points are computed for one half of the detector
	15	and I(qx, qy) = I(-qx, -qy) is assumed.
[bb18ef1]	16	"""
[7e7e806]	17	def __init__(self, data, model, smearer, qmin, qmax, page_id,
[5ef55d2]	18	state=None,
[fa65e99]	19	toggle_mode_on=False,
[7e7e806]	20	completefn=None,
	21	updatefn=None,
[2296316]	22	update_chisqr=True,
[7e7e806]	23	yieldtime=0.04,
	24	worktime=0.04
[bb18ef1]	25	):
	26	CalcThread.__init__(self,completefn,
	27	updatefn,
	28	yieldtime,
	29	worktime)
[7e7e806]	30	self.qmin = qmin
	31	self.qmax = qmax
	32	#self.qstep = qstep
[fa65e99]	33	self.toggle_mode_on = toggle_mode_on
[7e7e806]	34	self.data = data
[66ff250]	35	self.page_id = page_id
[5ef55d2]	36	self.state = None
[1b001a7]	37	# the model on to calculate
[bb18ef1]	38	self.model = model
[7e7e806]	39	self.smearer = smearer
[904713c]	40	self.starttime = 0
[2296316]	41	self.update_chisqr = update_chisqr
[bb18ef1]	42
	43	def compute(self):
	44	"""
[5062bbf]	45	Compute the data given a model function
[bb18ef1]	46	"""
[1b001a7]	47	self.starttime = time.time()
	48	# Determine appropriate q range
[7e7e806]	49	if self.qmin == None:
[c77d859]	50	self.qmin = 0
[7e7e806]	51	if self.qmax == None:
	52	if self.data != None:
	53	newx = math.pow(max(math.fabs(self.data.xmax),
	54	math.fabs(self.data.xmin)), 2)
	55	newy = math.pow(max(math.fabs(self.data.ymax),
	56	math.fabs(self.data.ymin)), 2)
	57	self.qmax = math.sqrt(newx + newy)
[e575db9]	58
[7e7e806]	59	if self.data is None:
	60	msg = "Compute Calc2D receive data = %s.\n" % str(self.data)
	61	raise ValueError, msg
[e575db9]	62
[7e7e806]	63	# Define matrix where data will be plotted
	64	radius= numpy.sqrt((self.data.qx_data * self.data.qx_data) + \
	65	(self.data.qy_data * self.data.qy_data))
	66	index_data = (self.qmin <= radius) & self.data.mask
[43e685d]	67
[e575db9]	68	# For theory, qmax is based on 1d qmax
	69	# so that must be mulitified by sqrt(2) to get actual max for 2d
[7e7e806]	70	index_model = (self.qmin <= radius) & (radius <= self.qmax)
	71	index_model = index_model & self.data.mask
	72	index_model = index_model & numpy.isfinite(self.data.data)
	73
	74	if self.smearer is not None:
[f72333f]	75	# Set smearer w/ data, model and index.
	76	fn = self.smearer
	77	fn.set_model(self.model)
	78	fn.set_index(index_model)
	79	# Get necessary data from self.data and set the data for smearing
	80	fn.get_data()
[7e7e806]	81	# Calculate smeared Intensity
	82	#(by Gaussian averaging): DataLoader/smearing2d/Smearer2D()
[f72333f]	83	value = fn.get_value()
	84	else:
	85	# calculation w/o smearing
[7e7e806]	86	value = self.model.evalDistribution([self.data.qx_data[index_model],
	87	self.data.qy_data[index_model]])
	88	output = numpy.zeros(len(self.data.qx_data))
[43e685d]	89	# output default is None
[7e7e806]	90	# This method is to distinguish between masked
	91	#point(nan) and data point = 0.
[43e685d]	92	output = output/output
	93	# set value for self.mask==True, else still None to Plottools
[51a71a3]	94	output[index_model] = value
[1b001a7]	95	elapsed = time.time()-self.starttime
[6bbeacd4]	96	self.complete(image=output,
	97	data=self.data,
[66ff250]	98	page_id=self.page_id,
[6bbeacd4]	99	model=self.model,
[5ef55d2]	100	state=self.state,
[fa65e99]	101	toggle_mode_on=self.toggle_mode_on,
[6bbeacd4]	102	elapsed=elapsed,
	103	index=index_model,
	104	qmin=self.qmin,
	105	qmax=self.qmax,
[7e7e806]	106	#qstep=self.qstep,
	107	update_chisqr = self.update_chisqr)
[1b001a7]	108
[bb18ef1]	109
	110	class Calc1D(CalcThread):
[5062bbf]	111	"""
	112	Compute 1D data
	113	"""
[7e7e806]	114	def __init__(self, model,
[66ff250]	115	page_id,
[7e7e806]	116	data,
[bb18ef1]	117	qmin=None,
	118	qmax=None,
	119	smearer=None,
[fa65e99]	120	toggle_mode_on=False,
[5ef55d2]	121	state=None,
[bb18ef1]	122	completefn = None,
[2296316]	123	update_chisqr=True,
[7e7e806]	124	updatefn=None,
	125	yieldtime=0.01,
	126	worktime=0.01
[bb18ef1]	127	):
[5062bbf]	128	"""
	129	"""
[bb18ef1]	130	CalcThread.__init__(self,completefn,
	131	updatefn,
	132	yieldtime,
	133	worktime)
[fa65e99]	134	self.data = data
	135	self.qmin = qmin
	136	self.qmax = qmax
[bb18ef1]	137	self.model = model
[fa65e99]	138	self.toggle_mode_on = toggle_mode_on
[5ef55d2]	139	self.state = state
[66ff250]	140	self.page_id = page_id
[fa65e99]	141	self.smearer = smearer
[bb18ef1]	142	self.starttime = 0
[2296316]	143	self.update_chisqr = update_chisqr
[bb18ef1]	144
	145	def compute(self):
[c77d859]	146	"""
[5062bbf]	147	Compute model 1d value given qmin , qmax , x value
[c77d859]	148	"""
[bb18ef1]	149	self.starttime = time.time()
[7e7e806]	150	output = numpy.zeros((len(self.data.x)))
	151	index= (self.qmin <= self.data.x)& (self.data.x <= self.qmax)
[bfe4644]	152
[fb8daaaf]	153	##smearer the ouput of the plot
[7e7e806]	154	if self.smearer is not None:
	155	first_bin, last_bin = self.smearer.get_bin_range(self.qmin,
	156	self.qmax)
	157	mask = self.data.x[first_bin:last_bin]
	158	output[first_bin:last_bin] = self.model.evalDistribution(mask)
[a0bc608]	159	output = self.smearer(output, first_bin, last_bin)
[e627f19]	160	else:
[7e7e806]	161	output[index] = self.model.evalDistribution(self.data.x[index])
[bfe4644]	162
[5062bbf]	163	elapsed = time.time() - self.starttime
[785c8233]	164
[7e7e806]	165	self.complete(x=self.data.x[index], y=output[index],
[66ff250]	166	page_id=self.page_id,
[5ef55d2]	167	state=self.state,
[fa65e99]	168	toggle_mode_on=self.toggle_mode_on,
[5062bbf]	169	elapsed=elapsed,index=index, model=self.model,
[2296316]	170	data=self.data,
[7e7e806]	171	update_chisqr = self.update_chisqr)
[bb18ef1]	172
[f72333f]	173	def results(self):
	174	"""
[5062bbf]	175	Send resuts of the computation
[f72333f]	176	"""
	177	return [self.out, self.index]
[5062bbf]	178
	179	"""
	180	Example: ::
	181
	182	class CalcCommandline:
	183	def __init__(self, n=20000):
	184	#print thread.get_ident()
	185	from sans.models.CylinderModel import CylinderModel
	186
	187	model = CylinderModel()
	188
	189
	190	print model.runXY([0.01, 0.02])
	191
	192	qmax = 0.01
	193	qstep = 0.0001
	194	self.done = False
	195
	196	x = numpy.arange(-qmax, qmax+qstep*0.01, qstep)
	197	y = numpy.arange(-qmax, qmax+qstep*0.01, qstep)
[bb18ef1]	198
	199
[5062bbf]	200	calc_thread_2D = Calc2D(x, y, None, model.clone(),None,
	201	-qmax, qmax,qstep,
	202	completefn=self.complete,
	203	updatefn=self.update ,
	204	yieldtime=0.0)
[bb18ef1]	205
[5062bbf]	206	calc_thread_2D.queue()
	207	calc_thread_2D.ready(2.5)
	208
	209	while not self.done:
	210	time.sleep(1)
[904713c]	211
[5062bbf]	212	def update(self,output):
	213	print "update"
[bb18ef1]	214
[5062bbf]	215	def complete(self, image, data, model, elapsed, qmin, qmax,index, qstep ):
	216	print "complete"
	217	self.done = True
	218
	219	if __name__ == "__main__":
	220	CalcCommandline()
	221	"""

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source: sasview/fittingview/src/sans/perspectives/fitting/model_thread.py @ 33fdb34

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