MultiplicationModel.py @ c16557c

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 c16557c was 3740b11, checked in by Jae Cho <jhjcho@…>, 16 years ago
Plug-In Cylinder (Ellips)Model times StructureModels?, yet needs to be checked very soon.
Property mode set to `100644`
File size: 8.4 KB

Rev	Line
[c9636f7]	1
	2	from sans.models.BaseComponent import BaseComponent
	3	import numpy, math
[a68efd1]	4	import copy
[3740b11]	5	from sans.models.pluginmodel import Model1DPlugin
	6	from sans.models.DiamCylFunc import DiamCylFunc
	7	from sans.models.DiamEllipFunc import DiamEllipFunc
[c9636f7]	8	class MultiplicationModel(BaseComponent):
	9	"""
	10	Use for S(Q)*P(Q).
	11	Perform multplication of two models.
	12	Contains the models parameters combined.
	13	"""
	14	def __init__(self, model1, model2 ):
	15	BaseComponent.__init__(self)
	16
[996fd35]	17
[8cfdd5e]	18	## Setting model name model description
[996fd35]	19	self.description=""
	20	if model1.name != "NoStructure"and model2.name != "NoStructure":
	21	self.name = model1.name +" * "+ model2.name
	22	self.description= self.name+"\n"
	23	self.description +="see %s description and %s description"%( model1.name,
	24	model2.name )
	25	elif model2.name != "NoStructure":
	26	self.name = model2.name
	27	self.description= model2.description
	28	else :
	29	self.name = model1.name
	30	self.description= model1.description
[3740b11]	31
	32	#For virial coefficients for only two P(Q) models,"CylinderModel","EllipsoidModel". SphereModel works w/o it.
	33	modelDiam = None
	34	if model1.__class__.__name__ == "CylinderModel":
	35	Model1DPlugin("DiamCylFunc")
	36	modelDiam = DiamCylFunc()
	37	para1 = 'radius'
	38	para2 = 'length'
	39
	40	elif model1.__class__.__name__ == "EllipsoidModel":
	41	Model1DPlugin("DiamEllipFunc")
	42	modelDiam = DiamEllipFunc()
	43	para1 = 'radius_a'
	44	para2 = 'radius_b'
	45
	46	self.modelD = modelDiam
[996fd35]	47
[3740b11]	48	if model1.__class__.__name__ == "CylinderModel" \
	49	or model1.__class__.__name__ == "EllipsoidModel":
	50
	51	self.para1 = para1
	52	self.para2 = para2
	53
[996fd35]	54
[c9636f7]	55	self.model1= model1
	56	self.model2= model2
[3740b11]	57
	58	#if modelDiam != None:
	59	#self.model2.params["radius"]= DiamEllipFunc()
	60
	61	#print "self.modelD",self.modelD.params,self.model1.params,self.model2.params
	62
[c9636f7]	63	## dispersion
	64	self._set_dispersion()
	65	## Define parameters
	66	self._set_params()
	67	## Parameter details [units, min, max]
	68	self._set_details()
	69	#list of parameter that can be fitted
	70	self._set_fixed_params()
	71
[a68efd1]	72	def _clone(self, obj):
	73	"""
	74	Internal utility function to copy the internal
	75	data members to a fresh copy.
	76	"""
	77	obj.params = copy.deepcopy(self.params)
	78	obj.description = copy.deepcopy(self.description)
	79	obj.details = copy.deepcopy(self.details)
	80	obj.dispersion = copy.deepcopy(self.dispersion)
	81	obj.model1 = self.model1.clone()
	82	obj.model2 = self.model2.clone()
	83
	84	return obj
	85
	86
[c9636f7]	87	def _set_dispersion(self):
	88	"""
	89	combined the two models dispersions
	90	"""
	91	for name , value in self.model1.dispersion.iteritems():
	92	self.dispersion[name]= value
	93
	94	for name , value in self.model2.dispersion.iteritems():
[3740b11]	95	if not name in self.dispersion.keys()and name !='radius':
[c9636f7]	96	self.dispersion[name]= value
[3740b11]	97
	98
[c9636f7]	99
	100
	101	def _set_params(self):
	102	"""
	103	Concatenate the parameters of the two models to create
	104	this model parameters
	105	"""
[3740b11]	106
[c9636f7]	107	for name , value in self.model1.params.iteritems():
	108	self.params[name]= value
[3740b11]	109
	110	if self.modelD !=None:
	111	if name == self.para1 or name == self.para2:
	112	self.modelD.params[name]= value
	113	elif name in self.model2.getParamList() and name !='radius':
	114	self.model2.setParam( name, value)
	115
	116	elif name in self.model2.getParamList():
[24415e9]	117	self.model2.setParam(name, value)
[3740b11]	118	if self.modelD !=None:
	119	self.model2.setParam('radius', self.modelD.run())
[c9636f7]	120
	121	for name , value in self.model2.params.iteritems():
[3740b11]	122	if not name in self.params.keys()and name != 'radius':
[c9636f7]	123	self.params[name]= value
	124
	125	def _set_details(self):
	126	"""
	127	Concatenate details of the two models to create
	128	this model details
	129	"""
	130	for name ,detail in self.model1.details.iteritems():
	131	self.details[name]= detail
	132
	133	for name , detail in self.model2.details.iteritems():
[3740b11]	134	if not name in self.details.keys()and name != 'radius':
[c9636f7]	135	self.details[name]= detail
	136
[8cfdd5e]	137	def setParam(self, name, value):
	138	"""
	139	Set the value of a model parameter
	140
	141	@param name: name of the parameter
	142	@param value: value of the parameter
	143	"""
[3740b11]	144
	145	self._setParamHelper( name, value)
	146
[8cfdd5e]	147	if name in self.model1.getParamList():
	148	self.model1.setParam( name, value)
[3740b11]	149
	150
	151	if self.modelD !=None:
	152	if name == self.para1 or name == self.para2:
	153	self.modelD.params[name]= value
	154	elif name in self.model2.getParamList() and name != 'radius':
	155	self.model2.setParam( name, value)
	156	elif name in self.model2.getParamList()and name != 'radius':
[8cfdd5e]	157	self.model2.setParam( name, value)
[3740b11]	158
[24415e9]	159
	160	self._setParamHelper( name, value)
[8cfdd5e]	161
	162	def _setParamHelper(self, name, value):
	163	"""
	164	Helper function to setparam
	165	"""
	166	# Look for dispersion parameters
	167	toks = name.split('.')
	168	if len(toks)==2:
	169	for item in self.dispersion.keys():
	170	if item.lower()==toks[0].lower():
	171	for par in self.dispersion[item]:
	172	if par.lower() == toks[1].lower():
	173	self.dispersion[item][par] = value
	174	return
	175	else:
	176	# Look for standard parameter
	177	for item in self.params.keys():
	178	if item.lower()==name.lower():
	179	self.params[item] = value
	180	return
	181
	182	raise ValueError, "Model does not contain parameter %s" % name
	183
	184
	185
	186
	187
[c9636f7]	188	def _set_fixed_params(self):
	189	"""
	190	fill the self.fixed list with the two models fixed list
	191	"""
	192	for item in self.model1.fixed:
	193	self.fixed.append(item)
	194
	195	for item in self.model2.fixed:
	196	if not item in self.fixed:
	197	self.fixed.append(item)
	198	self.fixed.sort()
	199
	200
	201	def run(self, x = 0.0):
	202	""" Evaluate the model
	203	@param x: input q-value (float or [float, float] as [r, theta])
	204	@return: (DAB value)
	205	"""
[3740b11]	206	#MultiplicationModel(self.model1, self.model2 )
	207
	208	if self.modelD!=None:
	209	value = self.modelD.run(x)
	210	self.model2.setParam( "radius", value)
	211
	212	print "self.model2.setParam( radius, value)",value
	213	return self.model1.run(x)*self.model2.run(x)
[c9636f7]	214
	215	def runXY(self, x = 0.0):
	216	""" Evaluate the model
	217	@param x: input q-value (float or [float, float] as [qx, qy])
	218	@return: DAB value
	219	"""
	220	return self.model1.runXY(x)* self.model2.runXY(x)
	221
	222	def set_dispersion(self, parameter, dispersion):
	223	"""
	224	Set the dispersion object for a model parameter
	225	@param parameter: name of the parameter [string]
	226	@dispersion: dispersion object of type DispersionModel
	227	"""
[db39b2a]	228	value= None
	229	try:
	230	if parameter in self.model1.getParamList():
	231	value= self.model1.set_dispersion(parameter, dispersion)
	232	elif parameter in self.model2.ParamList():
	233	value= self.model2.set_dispersion(parameter, dispersion)
	234	return value
	235	except:
	236	raise
[c9636f7]	237
	238
	239

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source: sasview/sansmodels/src/sans/models/MultiplicationModel.py @ c16557c

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