pagestate.py @ 11a7e11

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 11a7e11 was 11a7e11, checked in by Gervaise Alina <gervyh@…>, 14 years ago
working on save state
Property mode set to `100644`
File size: 36.7 KB

Line
1	"""
2	This software was developed by the University of Tennessee as part of the
3	Distributed Data Analysis of Neutron Scattering Experiments (DANSE)
4	project funded by the US National Science Foundation.
5
6	See the license text in license.txt
7
8	copyright 2009, University of Tennessee
9	"""
10	import time
11	import os
12	import sys
13	import copy
14	import logging
15
16	from xml.dom.minidom import parse
17	from lxml import etree
18
19	import DataLoader
20	from DataLoader.readers.cansas_reader import Reader as CansasReader
21	from DataLoader.readers.cansas_reader import get_content
22
23	#Information to read/write state as xml
24	FITTING_NODE_NAME = 'fitting_plug_in'
25	CANSAS_NS = "cansas1d/1.0"
26
27	list_of_data_attributes = [["is_data", "is_data", "bool"],
28	["group_id", "data_group_id", "string"],
29	["data_name", "data_name", "string"],
30	["data_id", "data_id", "string"],
31	["name", "name", "string"],
32	["data_name", "data_name", "string"]]
33	list_of_state_attributes = [["qmin", "qmin", "float"],
34	["qmax", "qmax", "float"],
35	["npts", "npts", "float"],
36	["shape_rbutton", "shape_rbutton", "bool"],
37	["shape_indep_rbutton", "shape_indep_rbutton", "bool"],
38	["plugin_rbutton", "plugin_rbutton","bool"],
39	["struct_rbutton", "struct_rbutton", "bool"],
40	["formfactorcombobox", "formfactorcombobox", "bool"],
41	["structurecombobox", "structurecombobox", "bool"],
42	["disp_box", "disp_box"],
43	["enable_smearer","enable_smearer","bool"],
44	["disable_smearer","disable_smearer","bool"],
45	["pinhole_smearer","pinhole_smearer","bool"],
46	["slit_smearer","slit_smearer","bool"],
47	["enable_disp","enable_disp","bool"],
48	["disable_disp","disable_disp","bool"],
49	["slit_smearer","slit_smearer","bool"],
50	["enable2D","enable2D","bool"],
51	["cb1","cb1","bool"],
52	["tcChi","tcChi","float"],
53	["smearer", "smearer", "float"],
54	["smear_type","smear_type", "string"],
55	["dq_l", "dq_l", "string"],
56	["dq_r","dq_r", "string"]]
57
58	list_of_model_attributes = [["values", "values"],
59	["weights", "weights"]]
60
61	list_of_state_parameters = [["parameters", "parameters"] ,
62	["orientation_parameters", "orientation_params"],
63	["dispersity_parameters", "orientation_params_disp"],
64	["fixed_param", "fixed_param"],
65	["fittable_param","fittable_param"]]
66
67	class PageState(object):
68	"""
69	Contains information to reconstruct a page of the fitpanel.
70	"""
71	def __init__(self, parent=None, model=None, data=None):
72
73	"""
74	Initialize the current state
75	@param model: a selected model within a page
76	@param data:
77	"""
78	self.file = None
79	#Time of state creation
80	self.timestamp = time.time()
81	## Data member to store the dispersion object created
82	self._disp_obj_dict = {}
83	#------------------------
84	#Data used for fitting
85	self.data = data
86	#save additional information on data that dataloader.reader does not read
87	self.is_data = None
88	self.data_name = ""
89
90	if self.data is not None:
91	self.data_name = self.data.name
92	self.data_id = None
93	if self.data is not None and hasattr(self.data, "id"):
94	self.data_id = self.data.id
95	self.data_group_id = None
96	if self.data is not None and hasattr(self.data, "group_id"):
97	self.data_group_id = self.data.group_id
98	#-------------------------
99	## reset True change the state of exsiting button
100	self.reset = False
101
102	#engine type
103	self.engine_type = None
104	# flag to allow data2D plot
105	self.enable2D = False
106	# model on which the fit would be performed
107	self.model = model
108
109	#fit page manager
110	self.manager = None
111	#Store the parent of this panel parent
112	# For this application fitpanel is the parent
113	self.parent = parent
114	# Event_owner is the owner of model event
115	self.event_owner = None
116	##page name
117	self.page_name = ""
118	# Contains link between model ,all its parameters, and panel organization
119	self.parameters = []
120	# Contains list of parameters that cannot be fitted and reference to
121	#panel objects
122	self.fixed_param = []
123	# Contains list of parameters with dispersity and reference to
124	#panel objects
125	self.fittable_param = []
126	## orientation parameters
127	self.orientation_params = []
128	## orientation parmaters for gaussian dispersity
129	self.orientation_params_disp = []
130	## smearer info
131	self.smearer = None
132	self.smear_type = None
133	self.dq_l = None
134	self.dq_r = None
135
136	#list of dispersion paramaters
137	self.disp_list =[]
138	if self.model is not None:
139	self.disp_list = self.model.getDispParamList()
140	self._disp_obj_dict = {}
141	self.disp_cb_dict = {}
142	self.values = []
143	self.weights = []
144
145	#contains link between a model and selected parameters to fit
146	self.param_toFit = []
147	##dictionary of model type and model class
148	self.model_list_box = None
149	## save the state of the context menu
150	self.saved_states = {}
151	## save selection of combobox
152	self.formfactorcombobox = None
153	self.structurecombobox = None
154	## radio box to select type of model
155	self.shape_rbutton = False
156	self.shape_indep_rbutton = False
157	self.struct_rbutton = False
158	self.plugin_rbutton = False
159	## the indice of the current selection
160	self.disp_box = 0
161	## Qrange
162	## Q range
163	self.qmin = 0.001
164	self.qmax = 0.1
165	self.npts = None
166	self.name = ""
167	## enable smearering state
168	self.enable_smearer = False
169	self.disable_smearer = True
170	self.pinhole_smearer = False
171	self.slit_smearer = False
172	## disperity selection
173	self.enable_disp = False
174	self.disable_disp = True
175
176	## state of selected all check button
177	self.cb1 = False
178	## store value of chisqr
179	self.tcChi = None
180
181	def clone(self):
182	"""
183	Create a new copy of the current object
184	"""
185	model = None
186	if self.model is not None:
187	model = self.model.clone()
188
189	obj = PageState(self.parent, model=model)
190	obj.file = copy.deepcopy(self.file)
191	obj.data = copy.deepcopy(self.data)
192	if self.data is not None:
193	self.data_name = self.data.name
194	obj.data_name = self.data_name
195	obj.is_data = self.is_data
196	obj.model_list_box = copy.deepcopy(self.model_list_box)
197	obj.engine_type = copy.deepcopy(self.engine_type)
198
199	obj.formfactorcombobox = self.formfactorcombobox
200	obj.structurecombobox = self.structurecombobox
201
202	obj.shape_rbutton = self.shape_rbutton
203	obj.shape_indep_rbutton = self.shape_indep_rbutton
204	obj.struct_rbutton = self.struct_rbutton
205	obj.plugin_rbutton = self.plugin_rbutton
206
207	obj.manager = self.manager
208	obj.event_owner = self.event_owner
209	obj.disp_list = copy.deepcopy(self.disp_list)
210
211	obj.enable2D = copy.deepcopy(self.enable2D)
212	obj.parameters = copy.deepcopy(self.parameters)
213	obj.fixed_param = copy.deepcopy(self.fixed_param)
214	obj.fittable_param = copy.deepcopy(self.fittable_param)
215	obj.orientation_params = copy.deepcopy(self.orientation_params)
216	obj.orientation_params_disp = copy.deepcopy(self.orientation_params_disp)
217	obj.enable_disp = copy.deepcopy(self.enable_disp)
218	obj.disable_disp = copy.deepcopy(self.disable_disp)
219	obj.tcChi = self.tcChi
220
221	if len(self._disp_obj_dict)>0:
222	for k , v in self._disp_obj_dict.iteritems():
223	obj._disp_obj_dict[k]= v
224	if len(self.disp_cb_dict)>0:
225	for k , v in self.disp_cb_dict.iteritems():
226	obj.disp_cb_dict[k]= v
227
228	obj.values = copy.deepcopy(self.values)
229	obj.weights = copy.deepcopy(self.weights)
230	obj.enable_smearer = copy.deepcopy(self.enable_smearer)
231	obj.disable_smearer = copy.deepcopy(self.disable_smearer)
232	obj.pinhole_smearer = copy.deepcopy(self.pinhole_smearer)
233	obj.slit_smearer = copy.deepcopy(self.slit_smearer)
234	obj.smear_type = copy.deepcopy(self.smear_type)
235	obj.dq_l = copy.deepcopy(self.dq_l)
236	obj.dq_r = copy.deepcopy(self.dq_r)
237
238	obj.disp_box = copy.deepcopy(self.disp_box)
239	obj.qmin = copy.deepcopy(self.qmin)
240	obj.qmax = copy.deepcopy(self.qmax)
241	obj.npts = copy.deepcopy(self.npts )
242	obj.cb1 = copy.deepcopy(self.cb1)
243	obj.smearer = copy.deepcopy(self.smearer)
244
245	for name, state in self.saved_states.iteritems():
246	copy_name = copy.deepcopy(name)
247	copy_state = state.clone()
248	obj.saved_states[copy_name]= copy_state
249	return obj
250
251	def _repr_helper(self, list, rep):
252	"""
253	Helper method to print a state
254	"""
255	for item in list:
256	rep += "parameter name: %s \n"%str(item[1])
257	rep += "value: %s\n"%str(item[2])
258	rep += "selected: %s\n"%str(item[0])
259	rep += "error displayed : %s \n"%str(item[4][0])
260	rep += "error value:%s \n"%str(item[4][1])
261	rep += "minimum displayed : %s \n"%str(item[5][0])
262	rep += "minimum value : %s \n"%str(item[5][1])
263	rep += "maximum displayed : %s \n"%str(item[6][0])
264	rep += "maximum value : %s \n"%str(item[6][1])
265	rep += "parameter unit: %s\n\n"%str(item[7])
266	return rep
267
268	def __repr__(self):
269	"""
270	output string for printing
271	"""
272	rep = "\nState name: %s\n"%self.file
273	t = time.localtime(self.timestamp)
274	time_str = time.strftime("%b %d %H:%M", t)
275	rep += "State created on : %s\n"%time_str
276	rep += "State form factor combobox selection: %s\n"%self.formfactorcombobox
277	rep += "State structure factor combobox selection: %s\n"%self.structurecombobox
278	rep += "is data : %s\n"%self.is_data
279	rep += "data's name : %s\n"%self.data_name
280	rep += "data's id : %s\n"%self.data_id
281	rep += "model type (form factor) selected: %s\n"%self.shape_rbutton
282	rep += "model type (shape independent) selected: %s\n"%self.shape_indep_rbutton
283	rep += "model type (structure factor) selected: %s\n"%self.struct_rbutton
284	rep += "model type (plug-in ) selected: %s\n"%self.plugin_rbutton
285	rep += "data : %s\n"% str(self.data)
286	rep += "Plotting Range: min: %s, max: %s, steps: %s\n"%(str(self.qmin),
287	str(self.qmax),str(self.npts))
288	"""
289	rep += "model : %s\n\n"% str(self.model)
290	rep += "number parameters(self.parameters): %s\n"%len(self.parameters)
291	rep += self._repr_helper( list=self.parameters, rep=rep)
292	rep += "number orientation parameters"
293	rep += "(self.orientation_params): %s\n"%len(self.orientation_params)
294	rep += self._repr_helper( list=self.orientation_params, rep=rep)
295	rep += "number dispersity parameters"
296	rep += "(self.orientation_params_disp): %s\n"%len(self.orientation_params_disp)
297	rep += self._repr_helper( list=self.orientation_params_disp, rep=rep)
298	"""
299	return rep
300
301	def _toXML_helper(self, list, element, newdoc):
302	"""
303	Helper method to create xml file for saving state
304	"""
305	for item in list:
306	sub_element = newdoc.createElement('parameter')
307	sub_element.setAttribute('name', str(item[1]))
308	sub_element.setAttribute('value', str(item[2]))
309	sub_element.setAttribute('selected_to_fit', str(item[0]))
310	sub_element.setAttribute('error_displayed', str(item[4][0]))
311	sub_element.setAttribute('error_value', str(item[4][1]))
312	sub_element.setAttribute('minimum_displayed', str(item[5][0]))
313	sub_element.setAttribute('minimum_value', str(item[5][1]))
314	sub_element.setAttribute('maximum_displayed', str(item[6][0]))
315	sub_element.setAttribute('maximum_value', str(item[6][1]))
316	sub_element.setAttribute('unit', str(item[7]))
317	element.appendChild(sub_element)
318
319	def toXML(self, file="fitting_state.fitv", doc=None, entry_node=None):
320	"""
321	Writes the state of the InversionControl panel to file, as XML.
322
323	Compatible with standalone writing, or appending to an
324	already existing XML document. In that case, the XML document
325	is required. An optional entry node in the XML document may also be given.
326
327	@param file: file to write to
328	@param doc: XML document object [optional]
329	@param entry_node: XML node within the XML document at which we will append the data [optional]
330	"""
331	from xml.dom.minidom import getDOMImplementation
332
333	# Check whether we have to write a standalone XML file
334	if doc is None:
335	impl = getDOMImplementation()
336	doc_type = impl.createDocumentType(FITTING_NODE_NAME, "1.0", "1.0")
337	newdoc = impl.createDocument(None, FITTING_NODE_NAME, doc_type)
338	top_element = newdoc.documentElement
339	else:
340	# We are appending to an existing document
341	newdoc = doc
342	top_element = newdoc.createElement(FITTING_NODE_NAME)
343	if entry_node is None:
344	newdoc.documentElement.appendChild(top_element)
345	else:
346	entry_node.appendChild(top_element)
347
348	attr = newdoc.createAttribute("version")
349	attr.nodeValue = '1.0'
350	top_element.setAttributeNode(attr)
351
352	# File name
353	element = newdoc.createElement("filename")
354	if self.file is not None:
355	element.appendChild(newdoc.createTextNode(str(self.file)))
356	else:
357	element.appendChild(newdoc.createTextNode(str(file)))
358	top_element.appendChild(element)
359
360	element = newdoc.createElement("timestamp")
361	element.appendChild(newdoc.createTextNode(time.ctime(self.timestamp)))
362	attr = newdoc.createAttribute("epoch")
363	attr.nodeValue = str(self.timestamp)
364	element.setAttributeNode(attr)
365	top_element.appendChild(element)
366	# Inputs
367	inputs = newdoc.createElement("Attributes")
368	top_element.appendChild(inputs)
369
370	element = newdoc.createElement('data_attributes')
371	if self.data is not None and hasattr(self.data, "group_id"):
372	self.data_group_id = self.data.group_id
373	if self.data is not None and hasattr(self.data, "is_data"):
374	self.is_data = self.data.is_data
375	if self.data is not None:
376	self.data_name = self.data.name
377	if self.data is not None and hasattr(self.data, "id"):
378	self.data_id = self.data.id
379
380	for item in list_of_data_attributes:
381	exec "element.setAttribute(item[0], str(self.%s))"%(item[1])
382	inputs.appendChild(element)
383
384	for item in list_of_state_attributes:
385	element = newdoc.createElement(item[0])
386	exec "element.setAttribute(item[0], str(self.%s))"%(item[1])
387	inputs.appendChild(element)
388
389	for item in list_of_model_attributes:
390	element = newdoc.createElement(item[0])
391	exec "list = self.%s"%item[1]
392	for item in list:
393	exec "element.appendChild(newdoc.createTextNode(str(%s)))" % item
394	inputs.appendChild(element)
395
396	for item in list_of_state_parameters:
397	element = newdoc.createElement(item[0])
398	exec "self._toXML_helper(list=self.%s, element=element, newdoc=newdoc)"%item[1]
399	inputs.appendChild(element)
400
401	# Save the file
402	if doc is None:
403	fd = open(file, 'w')
404	fd.write(newdoc.toprettyxml())
405	fd.close()
406	return None
407	else:
408	return newdoc.toprettyxml()
409
410	def _fromXML_helper(self, node, list):
411	"""
412	Helper function to write state to xml
413	"""
414	for item in node:
415	name = item.get('name')
416	value = item.get('value')
417	selected_to_fit = item.get('selected_to_fit')
418	error_displayed = item.get('error_displayed')
419	error_value = item.get('error_value')
420	minimum_displayed = item.get('minimum_displayed')
421	minimum_value = item.get('minimum_value')
422	maximum_displayed = item.get('maximum_displayed')
423	maximum_value = item.get('maximum_value')
424	unit = item.get('unit')
425	list.append([selected_to_fit, name, value, "+/-",[error_displayed, error_value],
426	[minimum_displayed,minimum_value],[maximum_displayed,maximum_value], unit])
427
428	def fromXML(self, file=None, node=None):
429	"""
430	Load fitting state from a file
431
432	@param file: .fitv file
433	@param node: node of a XML document to read from
434	"""
435
436	if file is not None:
437	msg = "PageState no longer supports non-CanSAS"
438	msg += " format for fitting files"
439	raise RuntimeError, msg
440
441	if node.get('version')and node.get('version') == '1.0':
442
443	# Get file name
444	entry = get_content('ns:filename', node)
445	if entry is not None:
446	self.file = entry.text.strip()
447
448	# Get time stamp
449	entry = get_content('ns:timestamp', node)
450	if entry is not None and entry.get('epoch'):
451	try:
452	self.timestamp = float(entry.get('epoch'))
453	except:
454	msg = "PageState.fromXML: Could not"
455	msg += " read timestamp\n %s" % sys.exc_value
456	logging.error(msg)
457
458	# Parse fitting attributes
459	entry = get_content('ns:Attributes', node)
460	if entry is not None:
461	for item in list_of_state_attributes:
462	field = get_content('ns:%s'%item[0], entry)
463	if field is not None:
464	if item[2] == "string":
465	exec "self.%s= str(field.text)"%item[1]
466	elif item[2] == "bool":
467	try:
468	exec "self.%s= field.get(str(%s))"%(item[1], item[0])
469	except:
470	exec "self.%s = None"%item[1]
471	else:
472	try:
473	exec "self.%s = float(field.get(%s))"%(item[1], item[0])
474	except:
475	exec "self.%s = None"%item[1]
476	for item in list_of_model_attributes:
477	node = get_content("ns:%s"%item[0], entry)
478	list = []
479	for value in node:
480	try:
481	list.append(float(value))
482	except:
483	list.append(None)
484
485	exec "self.%s = list"%item[1]
486
487	for item in list_of_state_parameters:
488	node = get_content("ns:%s"%item[0], entry)
489	self._fromXML_helper(node=node, list=self.parameters)
490
491
492	class Reader(CansasReader):
493	"""
494	Class to load a .fitv fitting file
495	"""
496	## File type
497	type_name = "Fitting"
498
499	## Wildcards
500	type = ["Fitting files (.fitv)\|.fitv"]
501	## List of allowed extensions
502	ext=['.fitv', '.FITV']
503
504	def __init__(self, call_back=None, cansas=True):
505	"""
506	Initialize the call-back method to be called
507	after we load a file
508	@param call_back: call-back method
509	@param cansas: True = files will be written/read in CanSAS format
510	False = write CanSAS format
511
512	"""
513	## Call back method to be executed after a file is read
514	self.call_back = call_back
515	## CanSAS format flag
516	self.cansas = cansas
517
518	def read(self, path):
519	"""
520	Load a new P(r) inversion state from file
521
522	@param path: file path
523	@return: None
524	"""
525	if self.cansas==True:
526	return self._read_cansas(path)
527	else:
528	return self._read_standalone(path)
529
530	def _data2d_to_xml_doc(self):
531	"""
532	Create an XML document to contain the content of a Data2D
533
534	@param datainfo: Data2D object
535	"""
536	if not issubclass(datainfo.__class__, Data2D):
537	raise RuntimeError, "The cansas writer expects a Data2D instance"
538
539	doc = xml.dom.minidom.Document()
540	main_node = doc.createElement("SASroot")
541	main_node.setAttribute("version", self.version)
542
543	doc.appendChild(main_node)
544
545	entry_node = doc.createElement("SASentry")
546	main_node.appendChild(entry_node)
547
548	write_node(doc, entry_node, "Title", datainfo.title)
549
550	for item in datainfo.run:
551	runname = {}
552	if datainfo.run_name.has_key(item) and len(str(datainfo.run_name[item]))>1:
553	runname = {'name': datainfo.run_name[item] }
554	write_node(doc, entry_node, "Run", item, runname)
555
556	# Data info
557	node = doc.createElement("SASdata")
558	entry_node.appendChild(node)
559
560	for i in range(len(datainfo.x)):
561	pt = doc.createElement("Idata")
562	node.appendChild(pt)
563	write_node(doc, pt, "Q", datainfo.x[i], {'unit':datainfo.x_unit})
564	if len(datainfo.y)>=i:
565	write_node(doc, pt, "I", datainfo.y[i], {'unit':datainfo.y_unit})
566	if datainfo.dx !=None and len(datainfo.dx)>=i:
567	write_node(doc, pt, "Qdev", datainfo.dx[i], {'unit':datainfo.x_unit})
568	if datainfo.dy !=None and len(datainfo.dy)>=i:
569	write_node(doc, pt, "Idev", datainfo.dy[i], {'unit':datainfo.y_unit})
570
571
572	# Sample info
573	sample = doc.createElement("SASsample")
574	if datainfo.sample.name is not None:
575	sample.setAttribute("name", str(datainfo.sample.name))
576	entry_node.appendChild(sample)
577	write_node(doc, sample, "ID", str(datainfo.sample.ID))
578	write_node(doc, sample, "thickness", datainfo.sample.thickness, {"unit":datainfo.sample.thickness_unit})
579	write_node(doc, sample, "transmission", datainfo.sample.transmission)
580	write_node(doc, sample, "temperature", datainfo.sample.temperature, {"unit":datainfo.sample.temperature_unit})
581
582	for item in datainfo.sample.details:
583	write_node(doc, sample, "details", item)
584
585	pos = doc.createElement("position")
586	written = write_node(doc, pos, "x", datainfo.sample.position.x, {"unit":datainfo.sample.position_unit})
587	written = written \| write_node(doc, pos, "y", datainfo.sample.position.y, {"unit":datainfo.sample.position_unit})
588	written = written \| write_node(doc, pos, "z", datainfo.sample.position.z, {"unit":datainfo.sample.position_unit})
589	if written == True:
590	sample.appendChild(pos)
591
592	ori = doc.createElement("orientation")
593	written = write_node(doc, ori, "roll", datainfo.sample.orientation.x, {"unit":datainfo.sample.orientation_unit})
594	written = written \| write_node(doc, ori, "pitch", datainfo.sample.orientation.y, {"unit":datainfo.sample.orientation_unit})
595	written = written \| write_node(doc, ori, "yaw", datainfo.sample.orientation.z, {"unit":datainfo.sample.orientation_unit})
596	if written == True:
597	sample.appendChild(ori)
598
599	# Instrument info
600	instr = doc.createElement("SASinstrument")
601	entry_node.appendChild(instr)
602
603	write_node(doc, instr, "name", datainfo.instrument)
604
605	# Source
606	source = doc.createElement("SASsource")
607	if datainfo.source.name is not None:
608	source.setAttribute("name", str(datainfo.source.name))
609	instr.appendChild(source)
610
611	write_node(doc, source, "radiation", datainfo.source.radiation)
612	write_node(doc, source, "beam_shape", datainfo.source.beam_shape)
613	size = doc.createElement("beam_size")
614	if datainfo.source.beam_size_name is not None:
615	size.setAttribute("name", str(datainfo.source.beam_size_name))
616	written = write_node(doc, size, "x", datainfo.source.beam_size.x, {"unit":datainfo.source.beam_size_unit})
617	written = written \| write_node(doc, size, "y", datainfo.source.beam_size.y, {"unit":datainfo.source.beam_size_unit})
618	written = written \| write_node(doc, size, "z", datainfo.source.beam_size.z, {"unit":datainfo.source.beam_size_unit})
619	if written == True:
620	source.appendChild(size)
621
622	write_node(doc, source, "wavelength", datainfo.source.wavelength, {"unit":datainfo.source.wavelength_unit})
623	write_node(doc, source, "wavelength_min", datainfo.source.wavelength_min, {"unit":datainfo.source.wavelength_min_unit})
624	write_node(doc, source, "wavelength_max", datainfo.source.wavelength_max, {"unit":datainfo.source.wavelength_max_unit})
625	write_node(doc, source, "wavelength_spread", datainfo.source.wavelength_spread, {"unit":datainfo.source.wavelength_spread_unit})
626
627	# Collimation
628	for item in datainfo.collimation:
629	coll = doc.createElement("SAScollimation")
630	if item.name is not None:
631	coll.setAttribute("name", str(item.name))
632	instr.appendChild(coll)
633
634	write_node(doc, coll, "length", item.length, {"unit":item.length_unit})
635
636	for apert in item.aperture:
637	ap = doc.createElement("aperture")
638	if apert.name is not None:
639	ap.setAttribute("name", str(apert.name))
640	if apert.type is not None:
641	ap.setAttribute("type", str(apert.type))
642	coll.appendChild(ap)
643
644	write_node(doc, ap, "distance", apert.distance, {"unit":apert.distance_unit})
645
646	size = doc.createElement("size")
647	if apert.size_name is not None:
648	size.setAttribute("name", str(apert.size_name))
649	written = write_node(doc, size, "x", apert.size.x, {"unit":apert.size_unit})
650	written = written \| write_node(doc, size, "y", apert.size.y, {"unit":apert.size_unit})
651	written = written \| write_node(doc, size, "z", apert.size.z, {"unit":apert.size_unit})
652	if written == True:
653	ap.appendChild(size)
654
655	# Detectors
656	for item in datainfo.detector:
657	det = doc.createElement("SASdetector")
658	written = write_node(doc, det, "name", item.name)
659	written = written \| write_node(doc, det, "SDD", item.distance, {"unit":item.distance_unit})
660	written = written \| write_node(doc, det, "slit_length", item.slit_length, {"unit":item.slit_length_unit})
661	if written == True:
662	instr.appendChild(det)
663
664	off = doc.createElement("offset")
665	written = write_node(doc, off, "x", item.offset.x, {"unit":item.offset_unit})
666	written = written \| write_node(doc, off, "y", item.offset.y, {"unit":item.offset_unit})
667	written = written \| write_node(doc, off, "z", item.offset.z, {"unit":item.offset_unit})
668	if written == True:
669	det.appendChild(off)
670
671	center = doc.createElement("beam_center")
672	written = write_node(doc, center, "x", item.beam_center.x, {"unit":item.beam_center_unit})
673	written = written \| write_node(doc, center, "y", item.beam_center.y, {"unit":item.beam_center_unit})
674	written = written \| write_node(doc, center, "z", item.beam_center.z, {"unit":item.beam_center_unit})
675	if written == True:
676	det.appendChild(center)
677
678	pix = doc.createElement("pixel_size")
679	written = write_node(doc, pix, "x", item.pixel_size.x, {"unit":item.pixel_size_unit})
680	written = written \| write_node(doc, pix, "y", item.pixel_size.y, {"unit":item.pixel_size_unit})
681	written = written \| write_node(doc, pix, "z", item.pixel_size.z, {"unit":item.pixel_size_unit})
682	if written == True:
683	det.appendChild(pix)
684
685	ori = doc.createElement("orientation")
686	written = write_node(doc, ori, "roll", item.orientation.x, {"unit":item.orientation_unit})
687	written = written \| write_node(doc, ori, "pitch", item.orientation.y, {"unit":item.orientation_unit})
688	written = written \| write_node(doc, ori, "yaw", item.orientation.z, {"unit":item.orientation_unit})
689	if written == True:
690	det.appendChild(ori)
691
692
693	# Processes info
694	for item in datainfo.process:
695	node = doc.createElement("SASprocess")
696	entry_node.appendChild(node)
697
698	write_node(doc, node, "name", item.name)
699	write_node(doc, node, "date", item.date)
700	write_node(doc, node, "description", item.description)
701	for term in item.term:
702	value = term['value']
703	del term['value']
704	write_node(doc, node, "term", value, term)
705	for note in item.notes:
706	write_node(doc, node, "SASprocessnote", note)
707
708	# Return the document, and the SASentry node associated with
709	# the data we just wrote
710	return doc, entry_node
711
712	def _read_standalone(self, path):
713	"""
714	Load a new P(r) inversion state from file.
715	The P(r) node is assumed to be the top element.
716
717	@param path: file path
718	@return: None
719	"""
720	# Read the new state from file
721	state = PageState()
722	state.fromXML(file=path)
723	# Call back to post the new state
724	self.call_back(state)
725	return None
726
727	def _parse_state(self, entry):
728	"""
729	Read a fit result from an XML node
730	@param entry: XML node to read from
731	@return: PageState object
732	"""
733	# Create an empty state
734	state = PageState()
735	# Locate the P(r) node
736	try:
737	nodes = entry.xpath('ns:%s' % FITTING_NODE_NAME, namespaces={'ns': CANSAS_NS})
738	state.fromXML(node=nodes[0])
739	except:
740	logging.info("XML document does not contain fitting information.\n %s" % sys.exc_value)
741
742	return state
743
744	def _read_cansas(self, path):
745	"""
746	Load data and P(r) information from a CanSAS XML file.
747
748	@param path: file path
749	@return: Data1D object if a single SASentry was found,
750	or a list of Data1D objects if multiple entries were found,
751	or None of nothing was found
752	@raise RuntimeError: when the file can't be opened
753	@raise ValueError: when the length of the data vectors are inconsistent
754	"""
755	output = []
756	try:
757	if os.path.isfile(path):
758	basename = os.path.basename(path)
759	root, extension = os.path.splitext(basename)
760	#TODO: eventually remove the check for .xml once
761	# the P(r) writer/reader is truly complete.
762	if extension.lower() in self.ext or \
763	extension.lower() == '.xml':
764
765	tree = etree.parse(path, parser=etree.ETCompatXMLParser())
766	# Check the format version number
767	# Specifying the namespace will take care of the file format version
768	root = tree.getroot()
769	entry_list = root.xpath('/ns:SASroot/ns:SASentry', namespaces={'ns': CANSAS_NS})
770	for entry in entry_list:
771	sas_entry = self._parse_entry(entry)
772	fitstate = self._parse_state(entry)
773	sas_entry.meta_data['fitstate'] = fitstate
774	sas_entry.filename = fitstate.file
775	output.append(sas_entry)
776
777	else:
778	raise RuntimeError, "%s is not a file" % path
779
780	# Return output consistent with the loader's api
781	if len(output)==0:
782	return None
783	elif len(output)==1:
784	# Call back to post the new state
785	state = output[0].meta_data['fitstate']
786	t = time.localtime(state.timestamp)
787	time_str = time.strftime("%b %d %H:%M", t)
788	# Check that no time stamp is already appended
789	max_char = state.file.find("[")
790	if max_char < 0:
791	max_char = len(state.file)
792	state.file = state.file[0:max_char] +' [' + time_str + ']'
793
794
795	if state is not None and state.is_data is not None:
796	exec 'output[0].is_data = state.is_data'
797
798	output[0].filename = state.file
799	#output[0].filename = state.data_name
800	state.data = output[0]
801	state.data.name = state.data_name
802	state.data.id = state.data_id
803	#state.data.group_id = state.data_group_id
804	state.data.group_id = output[0].filename
805
806	self.call_back(state=state, datainfo=output[0])
807	return output[0]
808	else:
809	return output
810	except:
811	raise
812
813	def write(self, filename, datainfo=None, fitstate=None):
814	"""
815	Write the content of a Data1D as a CanSAS XML file
816
817	@param filename: name of the file to write
818	@param datainfo: Data1D object
819	@param fitstate: PageState object
820	"""
821	# Sanity check
822	if self.cansas == True:
823
824	# Add fitting information to the XML document
825	if fitstate is not None:
826	if fitstate.data is None:
827	data = DataLoader.data_info.Data1D(x=[], y=[])
828	elif issubclass(fitstate.data.__class__, DataLoader.data_info.Data1D):
829	data = fitstate.data
830	doc, sasentry = self._to_xml_doc(data)
831	else:
832	data = fitstate.data
833	doc, sasentry = self._data2d_to_xml_doc(data)
834	fitstate.toXML(doc=doc, entry_node=sasentry)
835	# Write the XML document
836	fd = open(filename, 'w')
837	fd.write(doc.toprettyxml())
838	fd.close()
839	else:
840	fitstate.toXML(file=filename)
841
842
843	if __name__ == "__main__":
844	state = PageState(parent=None)
845	state.toXML()
846	print "state", state

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SasView

source: sasview/sansview/perspectives/fitting/pagestate.py @ 11a7e11

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