BaseComponent.py @ 197260f

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 197260f was 74c5521, checked in by smk78, 8 years ago
Fixing docstring errors
Property mode set to `100644`
File size: 8.7 KB

Line
1	#!/usr/bin/env python
2
3	"""
4	Provide base functionality for all model components
5	"""
6
7	# imports
8	import copy
9	import numpy
10	#TO DO: that about a way to make the parameter
11	#is self return if it is fittable or not
12
13	class BaseComponent:
14	"""
15	Basic model component
16
17	Since version 0.5.0, basic operations are no longer supported.
18	"""
19
20	def __init__(self):
21	""" Initialization"""
22
23	## Name of the model
24	self.name = "BaseComponent"
25
26	## Parameters to be accessed by client
27	self.params = {}
28	self.details = {}
29	## Dictionary used to store the dispersity/averaging
30	# parameters of dispersed/averaged parameters.
31	self.dispersion = {}
32	# string containing information about the model such as the equation
33	#of the given model, exception or possible use
34	self.description = ''
35	#list of parameter that can be fitted
36	self.fixed = []
37	#list of non-fittable parameter
38	self.non_fittable = []
39	## parameters with orientation
40	self.orientation_params = []
41	## magnetic parameters
42	self.magnetic_params = []
43	## store dispersity reference
44	self._persistency_dict = {}
45	## independent parameter name and unit [string]
46	self.input_name = "Q"
47	self.input_unit = "A^{-1}"
48	## output name and unit [string]
49	self.output_name = "Intensity"
50	self.output_unit = "cm^{-1}"
51
52	def __str__(self):
53	"""
54	:return: string representatio
55	"""
56	return self.name
57
58	def is_fittable(self, par_name):
59	"""
60	Check if a given parameter is fittable or not
61
62	:param par_name: the parameter name to check
63
64	"""
65	return par_name.lower() in self.fixed
66	#For the future
67	#return self.params[str(par_name)].is_fittable()
68
69	def run(self, x):
70	"""
71	run 1d
72	"""
73	return NotImplemented
74
75	def runXY(self, x):
76	"""
77	run 2d
78	"""
79	return NotImplemented
80
81	def calculate_ER(self):
82	"""
83	Calculate effective radius
84	"""
85	return NotImplemented
86
87	def calculate_VR(self):
88	"""
89	Calculate volume fraction ratio
90	"""
91	return NotImplemented
92
93	def evalDistribution(self, qdist):
94	"""
95	Evaluate a distribution of q-values.
96
97	* For 1D, a numpy array is expected as input: ::
98
99	evalDistribution(q)
100
101	where q is a numpy array.
102
103
104	* For 2D, a list of numpy arrays are expected: [qx_prime,qy_prime],
105	where 1D arrays, ::
106
107	qx_prime = [ qx[0], qx[1], qx[2], ....]
108
109	and ::
110
111	qy_prime = [ qy[0], qy[1], qy[2], ....]
112
113	Then get ::
114
115	q = numpy.sqrt(qx_prime^2+qy_prime^2)
116
117	that is a qr in 1D array; ::
118
119	q = [q[0], q[1], q[2], ....]
120
121	..note::
122	Due to 2D speed issue, no anisotropic scattering
123	is supported for python models, thus C-models should have
124	their own evalDistribution methods.
125
126	The method is then called the following way: ::
127
128	evalDistribution(q)
129
130	where q is a numpy array.
131
132	:param qdist: ndarray of scalar q-values or list [qx,qy] where qx,qy are 1D ndarrays
133	"""
134	if qdist.__class__.__name__ == 'list':
135	# Check whether we have a list of ndarrays [qx,qy]
136	if len(qdist)!=2 or \
137	qdist[0].__class__.__name__ != 'ndarray' or \
138	qdist[1].__class__.__name__ != 'ndarray':
139	msg = "evalDistribution expects a list of 2 ndarrays"
140	raise RuntimeError, msg
141
142	# Extract qx and qy for code clarity
143	qx = qdist[0]
144	qy = qdist[1]
145
146	# calculate q_r component for 2D isotropic
147	q = numpy.sqrt(qx2+qy2)
148	# vectorize the model function runXY
149	v_model = numpy.vectorize(self.runXY, otypes=[float])
150	# calculate the scattering
151	iq_array = v_model(q)
152
153	return iq_array
154
155	elif qdist.__class__.__name__ == 'ndarray':
156	# We have a simple 1D distribution of q-values
157	v_model = numpy.vectorize(self.runXY, otypes=[float])
158	iq_array = v_model(qdist)
159	return iq_array
160
161	else:
162	mesg = "evalDistribution is expecting an ndarray of scalar q-values"
163	mesg += " or a list [qx,qy] where qx,qy are 2D ndarrays."
164	raise RuntimeError, mesg
165
166
167
168	def clone(self):
169	""" Returns a new object identical to the current object """
170	obj = copy.deepcopy(self)
171	return self._clone(obj)
172
173	def _clone(self, obj):
174	"""
175	Internal utility function to copy the internal
176	data members to a fresh copy.
177	"""
178	obj.params = copy.deepcopy(self.params)
179	obj.details = copy.deepcopy(self.details)
180	obj.dispersion = copy.deepcopy(self.dispersion)
181	obj._persistency_dict = copy.deepcopy( self._persistency_dict)
182	return obj
183
184	def set_dispersion(self, parameter, dispersion):
185	"""
186	model dispersions
187	"""
188	##Not Implemented
189	return None
190
191	def getProfile(self):
192	"""
193	Get SLD profile
194
195	: return: (z, beta) where z is a list of depth of the transition points
196	beta is a list of the corresponding SLD values
197	"""
198	#Not Implemented
199	return None, None
200
201	def setParam(self, name, value):
202	"""
203	Set the value of a model parameter
204
205	:param name: name of the parameter
206	:param value: value of the parameter
207
208	"""
209	# Look for dispersion parameters
210	toks = name.split('.')
211	if len(toks)==2:
212	for item in self.dispersion.keys():
213	if item.lower()==toks[0].lower():
214	for par in self.dispersion[item]:
215	if par.lower() == toks[1].lower():
216	self.dispersion[item][par] = value
217	return
218	else:
219	# Look for standard parameter
220	for item in self.params.keys():
221	if item.lower()==name.lower():
222	self.params[item] = value
223	return
224
225	raise ValueError, "Model does not contain parameter %s" % name
226
227	def getParam(self, name):
228	"""
229	Set the value of a model parameter
230	:param name: name of the parameter
231
232	"""
233	# Look for dispersion parameters
234	toks = name.split('.')
235	if len(toks)==2:
236	for item in self.dispersion.keys():
237	if item.lower()==toks[0].lower():
238	for par in self.dispersion[item]:
239	if par.lower() == toks[1].lower():
240	return self.dispersion[item][par]
241	else:
242	# Look for standard parameter
243	for item in self.params.keys():
244	if item.lower()==name.lower():
245	return self.params[item]
246
247	raise ValueError, "Model does not contain parameter %s" % name
248
249	def getParamList(self):
250	"""
251	Return a list of all available parameters for the model
252	"""
253	list = self.params.keys()
254	# WARNING: Extending the list with the dispersion parameters
255	list.extend(self.getDispParamList())
256	return list
257
258	def getDispParamList(self):
259	"""
260	Return a list of all available parameters for the model
261	"""
262	list = []
263
264	for item in self.dispersion.keys():
265	for p in self.dispersion[item].keys():
266	if p not in ['type']:
267	list.append('%s.%s' % (item.lower(), p.lower()))
268
269	return list
270
271	# Old-style methods that are no longer used
272	def setParamWithToken(self, name, value, token, member):
273	"""
274	set Param With Token
275	"""
276	return NotImplemented
277	def getParamWithToken(self, name, token, member):
278	"""
279	get Param With Token
280	"""
281	return NotImplemented
282
283	def getParamListWithToken(self, token, member):
284	"""
285	get Param List With Token
286	"""
287	return NotImplemented
288	def __add__(self, other):
289	"""
290	add
291	"""
292	raise ValueError, "Model operation are no longer supported"
293	def __sub__(self, other):
294	"""
295	sub
296	"""
297	raise ValueError, "Model operation are no longer supported"
298	def __mul__(self, other):
299	"""
300	mul
301	"""
302	raise ValueError, "Model operation are no longer supported"
303	def __div__(self, other):
304	"""
305	div
306	"""
307	raise ValueError, "Model operation are no longer supported"

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source: sasview/src/sas/sascalc/calculator/BaseComponent.py @ 197260f

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