RPA10Model.py @ 79492222

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 79492222 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: 9.6 KB

Rev	Line
[35aface]	1
[79492222]	2	from sas.models.BaseComponent import BaseComponent
	3	from sas.models.RPAModel import RPAModel
[35aface]	4	from copy import deepcopy
	5	max_case_n = 10
	6	class RPA10Model(BaseComponent):
	7	"""
	8	This multi-model is based on Parratt formalism and provides the capability
	9	of changing the number of layers between 0 and 10.
	10	"""
	11	def __init__(self, multfactor=1):
	12	BaseComponent.__init__(self)
	13	"""
	14	:param multfactor: number of cases in the model, assumes 0<= case# <=10.
	15	"""
	16
	17	## Setting model name model description
	18	self.description=""
	19	model = RPAModel()
	20	self.model = model
	21	self.name = "RPA10Model"
	22	self.description=model.description
	23	self.case_num = multfactor
	24	## Define parameters
	25	self.params = {}
	26
	27	## Parameter details [units, min, max]
	28	self.details = {}
	29
	30	# non-fittable parameters
	31	self.non_fittable = model.non_fittable
	32
	33	# list of function in order of the function number
	34	self.fun_list = self._get_func_list()
	35	## dispersion
	36	self._set_dispersion()
	37	## Define parameters
	38	self._set_params()
	39
	40	## Parameter details [units, min, max]
	41	self._set_details()
	42
	43	#list of parameter that can be fitted
	44	self._set_fixed_params()
	45	self.model.params['lcase_n'] = self.case_num
	46
	47	## functional multiplicity of the model
[339ce67]	48	self.multiplicity_info = [max_case_n,"Case No.:",["C/D Binary Mixture of Homopolymers",
	49	"C-D Diblock Copolymer",
	50	"B/C/D Ternary Mixture of Homopolymers",
	51	"B/C-D Mixture of Homopolymer B and Diblock Copolymer C-D",
	52	"B-C-D Triblock Copolymer",
	53	"A/B/C/D Quaternary Mixture of Homopolymers",
	54	"A/B/C-D Mixture of Homopolymer A/B and Diblock C-D",
	55	"A/B-C-D Mixture of Homopolymer A and triblock B-C-D",
	56	"A-B/C-D Mixture of Diblock Copolymer A-B and Diblock C-D",
	57	"A-B-C-D Four-block Copolymer"],
	58	[]]
[35aface]	59
	60	def _clone(self, obj):
	61	"""
	62	Internal utility function to copy the internal
	63	data members to a fresh copy.
	64	"""
	65	obj.params = deepcopy(self.params)
	66	obj.non_fittable = deepcopy(self.non_fittable)
	67	obj.description = deepcopy(self.description)
	68	obj.details = deepcopy(self.details)
	69	obj.dispersion = deepcopy(self.dispersion)
	70	obj.model = self.model.clone()
	71
	72	return obj
	73
	74
	75	def _set_dispersion(self):
	76	"""
	77	model dispersions
	78	"""
	79	##set dispersion from model
	80	self.dispersion = {}
	81
	82
	83	def _set_params(self):
	84	"""
	85	Concatenate the parameters of the model to create
	86	this model parameters
	87	"""
	88	# set the case number first
	89	self.model.params['lcase_n'] = self.case_num
	90	# rearrange the parameters for the given # of shells
	91	for name , value in self.model.params.iteritems():
	92	if name == 'lcase_n':
	93	continue
	94	elif name.lower() == 'scale' or \
	95	name.lower() == 'background':
	96	self.params[name] = value
	97	elif self.case_num <= 1:
	98	if name.lower() == 'nc' or \
	99	name.lower() == 'phic' or \
	100	name.lower() == 'vc' or \
	101	name.lower() == 'lc' or \
	102	name.lower() == 'bc' or \
	103	name.lower() == 'nd' or \
	104	name.lower() == 'phid' or \
	105	name.lower() == 'vd' or \
	106	name.lower() == 'ld' or \
	107	name.lower() == 'bd' or \
	108	name.lower() == 'kcd':
	109	self.params[name] = value
	110	elif self.case_num > 1 and self.case_num <= 4:
	111	if name.lower() == 'nb' or \
	112	name.lower() == 'phib' or \
	113	name.lower() == 'vb' or \
	114	name.lower() == 'lb' or \
	115	name.lower() == 'bb' or \
	116	name.lower() == 'nc' or \
	117	name.lower() == 'phic' or \
	118	name.lower() == 'vc' or \
	119	name.lower() == 'lc' or \
	120	name.lower() == 'bc' or \
	121	name.lower() == 'nd' or \
	122	name.lower() == 'phid' or \
	123	name.lower() == 'vd' or \
	124	name.lower() == 'ld' or \
	125	name.lower() == 'bd' or \
	126	name.lower() == 'kbc' or \
	127	name.lower() == 'kbd' or \
	128	name.lower() == 'kcd' :
	129	self.params[name] = value
	130	else:
	131	if name.lower() == 'na' or \
	132	name.lower() == 'phia' or \
	133	name.lower() == 'va' or \
	134	name.lower() == 'la' or \
	135	name.lower() == 'ba' or \
	136	name.lower() == 'nb' or \
	137	name.lower() == 'phib' or \
	138	name.lower() == 'vb' or \
	139	name.lower() == 'lb' or \
	140	name.lower() == 'bb' or \
	141	name.lower() == 'nc' or \
	142	name.lower() == 'phic' or \
	143	name.lower() == 'vc' or \
	144	name.lower() == 'lc' or \
	145	name.lower() == 'bc' or \
	146	name.lower() == 'nd' or \
	147	name.lower() == 'phid' or \
	148	name.lower() == 'vd' or \
	149	name.lower() == 'ld' or \
	150	name.lower() == 'bd' or \
	151	name.lower() == 'kab' or \
	152	name.lower() == 'kac' or \
	153	name.lower() == 'kad' or \
	154	name.lower() == 'kbc' or \
	155	name.lower() == 'kbd' or \
	156	name.lower() == 'kcd' :
	157	self.params[name] = value
	158
	159
	160
	161	def _set_details(self):
	162	"""
	163	Concatenate details of the original model to create
	164	this model details
	165	"""
	166	for name ,detail in self.model.details.iteritems():
	167	if name in self.params.iterkeys():
	168	self.details[name]= detail
	169
	170	def _get_func_list(self):
	171	"""
	172	Get the list of functions in each cases
	173	"""
	174	func_list = {}
	175	return func_list
	176
	177	def getProfile(self):
	178	"""
	179	Get SLD profile
	180
	181	: return: None, No SLD profile supporting for this model
	182	"""
	183	return None
	184
	185	def setParam(self, name, value):
	186	"""
	187	Set the value of a model parameter
	188
	189	: param name: name of the parameter
	190	: param value: value of the parameter
	191	"""
	192	# set param to new model
	193	self._setParamHelper( name, value)
	194
	195	self.model.setParam( name, value)
	196
	197	def _setParamHelper(self, name, value):
	198	"""
	199	Helper function to setParam
	200	"""
	201
	202	# Look for standard parameter
	203	for item in self.params.keys():
	204	if item.lower()==name.lower():
	205	self.params[item] = value
	206	return
	207
	208	raise ValueError, "Model does not contain parameter %s" % name
	209
	210
	211	def _set_fixed_params(self):
	212	"""
	213	Fill the self.fixed list with the model fixed list
	214	"""
	215	pass
	216
	217	def run(self, x = 0.0):
	218	"""
	219	Evaluate the model
	220
	221	:param x: input q, or [q,phi]
	222
	223	:return: scattering function P(q)
	224
	225	"""
	226
	227	return self.model.run(x)
	228
	229	def runXY(self, x = 0.0):
	230	"""
	231	Evaluate the model
	232
	233	: param x: input q-value (float or [float, float] as [qx, qy])
	234	: return: scattering function value
	235	"""
	236
	237	return self.model.runXY(x)
	238
	239	## Now (May27,10) directly uses the model eval function
	240	## instead of the for-loop in Base Component.
	241	def evalDistribution(self, x = []):
	242	"""
	243	Evaluate the model in cartesian coordinates
	244
	245	: param x: input q[], or [qx[], qy[]]
	246	: return: scattering function P(q[])
	247	"""
	248	# set effective radius and scaling factor before run
	249	return self.model.evalDistribution(x)
	250	def calculate_ER(self):
	251	"""
	252	"""
	253	return self.model.calculate_ER()
	254	def set_dispersion(self, parameter, dispersion):
	255	"""
	256	Set the dispersion object for a model parameter
	257
	258	: param parameter: name of the parameter [string]
	259	:dispersion: dispersion object of type DispersionModel
	260	"""
	261	pass

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source: sasview/src/sas/models/RPA10Model.py @ 79492222

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