fitpage.py @ e89c135

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 e89c135 was 5e48acb, checked in by Jae Cho <jhjcho@…>, 13 years ago
fixed group_id related problem when set data in fitpage and added feature that send multiple data sets on import
Property mode set to `100644`
File size: 130.8 KB

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1
2
3	import sys
4	import wx
5	import wx.lib.newevent
6	import numpy
7	import copy
8	import math
9	import time
10	from sans.models.dispersion_models import ArrayDispersion, GaussianDispersion
11	#from sans.dataloader.data_info import Data1D
12	from sans.guiframe.events import StatusEvent
13	from sans.guiframe.events import NewPlotEvent
14	from sans.guiframe.dataFitting import check_data_validity
15	from sans.guiframe.utils import format_number
16	from sans.guiframe.utils import check_float
17
18	(Chi2UpdateEvent, EVT_CHI2_UPDATE) = wx.lib.newevent.NewEvent()
19	_BOX_WIDTH = 76
20	_DATA_BOX_WIDTH = 300
21	SMEAR_SIZE_L = 0.00
22	SMEAR_SIZE_H = 0.00
23
24	import basepage
25	from basepage import BasicPage
26	from basepage import PageInfoEvent
27	from sans.models.qsmearing import smear_selection
28
29
30	class FitPage(BasicPage):
31	"""
32	FitPanel class contains fields allowing to display results when
33	fitting a model and one data
34
35	:note: For Fit to be performed the user should check at least one parameter
36	on fit Panel window.
37	"""
38
39	def __init__(self,parent, color='rand'):
40	"""
41	Initialization of the Panel
42	"""
43	BasicPage.__init__(self, parent, color=color)
44
45	## draw sizer
46	self._fill_data_sizer()
47	self.is_2D = None
48	self.fit_started = False
49	self.weightbt_string = None
50	# get smear info from data
51	self._get_smear_info()
52	self._fill_model_sizer( self.sizer1)
53	self._get_defult_custom_smear()
54	self._fill_range_sizer()
55	self._set_smear(self.data)
56	self.Bind(EVT_CHI2_UPDATE, self.on_complete_chisqr)
57	# bind key event
58	self.Bind(wx.EVT_RIGHT_DOWN, self.on_right_down)
59	self._set_bookmark_flag(False)
60	self._set_save_flag(False)
61	self._set_preview_flag(False)
62	self._set_copy_flag(False)
63	self._set_paste_flag(False)
64	self.btFit.SetFocus()
65	self.enable_fit_button()
66	self.fill_data_combobox(data_list=self.data_list)
67	#create a default data for an empty panel
68	self.create_default_data()
69
70	def enable_fit_button(self):
71	"""
72	Enable fit button if data is valid and model is valid
73	"""
74	flag = check_data_validity(self.data) & (self.model is not None)
75	self.btFit.Enable(flag)
76
77	def _fill_data_sizer(self):
78	"""
79	fill sizer 0 with data info
80	"""
81	box_description= wx.StaticBox(self, -1, 'I(q) Data Source')
82	boxsizer1 = wx.StaticBoxSizer(box_description, wx.VERTICAL)
83	#----------------------------------------------------------
84	sizer_data = wx.BoxSizer(wx.HORIZONTAL)
85	self.dataSource = wx.ComboBox(self, -1, style=wx.CB_READONLY)
86	wx.EVT_COMBOBOX(self.dataSource, -1, self.on_select_data)
87	self.dataSource.SetMinSize((_DATA_BOX_WIDTH, -1))
88	sizer_data.Add(wx.StaticText(self, -1, 'Name : '))
89	sizer_data.Add(self.dataSource)
90	sizer_data.Add( (0,5) )
91	boxsizer1.Add(sizer_data,0, wx.ALL, 10)
92	self.sizer0.Add(boxsizer1,0, wx.EXPAND \| wx.ALL, 10)
93	self.sizer0.Layout()
94
95	def enable_datasource(self):
96	"""
97	Enable or disable data source control depending on existing data
98	"""
99	if not self.data_list:
100	self.dataSource.Disable()
101	else:
102	self.dataSource.Enable()
103
104	def fill_data_combobox(self, data_list):
105	"""
106	Get a list of data and fill the corresponding combobox
107	"""
108	self.dataSource.Clear()
109	self.data_list = data_list
110	self.enable_datasource()
111	if data_list:
112	#find the maximum range covering all data
113	qmin, qmax, _ = self.compute_data_range(data_list[0])
114	self.qmin_data_set, self.qmax_data_set = qmin, qmax
115	self.npts_data_set = 0
116	for data in self.data_list:
117	if data is not None:
118	self.compute_data_set_range(data)
119	self.dataSource.Append(str(data.name), clientData=data)
120	self.dataSource.SetSelection(0)
121	self.on_select_data(event=None)
122
123	def on_select_data(self, event=None):
124	"""
125	"""
126	if event is None and self.dataSource.GetCount() > 0:
127	data = self.dataSource.GetClientData(0)
128	self.set_data(data)
129	elif self.dataSource.GetCount() > 0:
130	pos = self.dataSource.GetSelection()
131	data = self.dataSource.GetClientData(pos)
132	self.set_data(data)
133
134
135
136	def _on_fit_complete(self):
137	"""
138	When fit is complete ,reset the fit button label.
139	"""
140	self.btFit.SetLabel("Fit")
141	self.bind_fit_button()
142
143	def _is_2D(self):
144	"""
145	Check if data_name is Data2D
146
147	:return: True or False
148
149	"""
150	if self.data.__class__.__name__ == "Data2D" or \
151	self.enable2D:
152	return True
153	return False
154
155	def _on_engine_change(self, name):
156	"""
157	get the current name of the fit engine type
158	and update the panel accordingly
159	"""
160
161	self.engine_type = str(name)
162	self.state.engine_type = self.engine_type
163	if not self.is_mac:
164	if len(self.parameters) == 0:
165	self.Layout()
166	return
167	self.Layout()
168	self.Refresh()
169
170
171
172	def _fill_range_sizer(self):
173	"""
174	Fill the sizer containing the plotting range
175	add access to npts
176	"""
177	is_2Ddata = False
178
179	# Check if data is 2D
180	if self.data.__class__.__name__ == "Data2D" or \
181	self.enable2D:
182	is_2Ddata = True
183
184	title = "Fitting"
185	#smear messages & titles
186	smear_message_none = "No smearing is selected..."
187	smear_message_dqdata = "The dQ data is being used for smearing..."
188	smear_message_2d = \
189	"Higher accuracy is very time-expensive. Use it with care..."
190	smear_message_new_ssmear = \
191	"Please enter only the value of interest to customize smearing..."
192	smear_message_new_psmear = \
193	"Please enter both; the dQ will be generated by interpolation..."
194	smear_message_2d_x_title = "<dQp>[1/A]:"
195	smear_message_2d_y_title = "<dQs>[1/A]:"
196	smear_message_pinhole_min_title = "dQ_low[1/A]:"
197	smear_message_pinhole_max_title = "dQ_high[1/A]:"
198	smear_message_slit_height_title = "Slit height[1/A]:"
199	smear_message_slit_width_title = "Slit width[1/A]:"
200
201	self._get_smear_info()
202
203	#Sizers
204	box_description_range = wx.StaticBox(self, -1,str(title))
205	boxsizer_range = wx.StaticBoxSizer(box_description_range, wx.VERTICAL)
206	self.sizer_set_smearer = wx.BoxSizer(wx.VERTICAL)
207	sizer_smearer = wx.BoxSizer(wx.HORIZONTAL)
208	self.sizer_new_smear= wx.BoxSizer(wx.HORIZONTAL)
209	self.sizer_set_masking = wx.BoxSizer(wx.HORIZONTAL)
210	sizer_chi2 = wx.BoxSizer(wx.VERTICAL)
211	smear_set_box= wx.StaticBox(self, -1,'Set Instrumental Smearing')
212	sizer_smearer_box = wx.StaticBoxSizer(smear_set_box, wx.HORIZONTAL)
213	sizer_smearer_box.SetMinSize((_DATA_BOX_WIDTH, 60))
214
215	weighting_set_box= wx.StaticBox(self, -1,\
216	'Set Weighting by Selecting dI Source')
217	weighting_box = wx.StaticBoxSizer(weighting_set_box, wx.HORIZONTAL)
218	sizer_weighting = wx.BoxSizer(wx.HORIZONTAL)
219	weighting_box.SetMinSize((_DATA_BOX_WIDTH, 40))
220	#Filling the sizer containing weighting info.
221	self.dI_noweight = wx.RadioButton(self, -1, 'No Weighting',
222	style=wx.RB_GROUP)
223	self.dI_didata = wx.RadioButton(self, -1, 'Use dI Data')
224	self.dI_sqrdata = wx.RadioButton(self, -1, 'Use \|sqrt(I Data)\|')
225	self.dI_idata = wx.RadioButton(self, -1, 'Use \|I Data\|')
226	self.Bind(wx.EVT_RADIOBUTTON, self.onWeighting,
227	id=self.dI_noweight.GetId())
228	self.Bind(wx.EVT_RADIOBUTTON, self.onWeighting,
229	id=self.dI_didata.GetId())
230	self.Bind(wx.EVT_RADIOBUTTON, self.onWeighting,
231	id=self.dI_sqrdata.GetId())
232	self.Bind(wx.EVT_RADIOBUTTON, self.onWeighting,
233	id=self.dI_idata.GetId())
234	self.dI_didata.SetValue(True)
235	# add 4 types of weighting to the sizer
236	sizer_weighting.Add( self.dI_noweight,0, wx.LEFT, 10)
237	sizer_weighting.Add((14,10))
238	sizer_weighting.Add( self.dI_didata)
239	sizer_weighting.Add((14,10))
240	sizer_weighting.Add( self.dI_sqrdata)
241	sizer_weighting.Add((14,10))
242	sizer_weighting.Add( self.dI_idata)
243	sizer_weighting.Add((10,10))
244	self.dI_noweight.Enable(False)
245	self.dI_didata.Enable(False)
246	self.dI_sqrdata.Enable(False)
247	self.dI_idata.Enable(False)
248	weighting_box.Add(sizer_weighting)
249
250	sizer_fit = wx.GridSizer(2, 4, 2, 6)
251
252	# combobox for smear2d accuracy selection
253	self.smear_accuracy = wx.ComboBox(self, -1,size=(50,-1),
254	style=wx.CB_READONLY)
255	self._set_accuracy_list()
256	self.smear_accuracy.SetValue(self.smear2d_accuracy)
257	self.smear_accuracy.SetSelection(0)
258	self.smear_accuracy.SetToolTipString(\
259	"'Higher' uses more Gaussian points for smearing computation.")
260
261	wx.EVT_COMBOBOX(self.smear_accuracy,-1, self._on_select_accuracy)
262
263	#Fit button
264	self.btFit = wx.Button(self,wx.NewId(),'Fit', size=(88,25))
265	self.default_bt_colour = self.btFit.GetDefaultAttributes()
266	self.btFit.Bind(wx.EVT_BUTTON, self._onFit,id= self.btFit.GetId())
267	self.btFit.SetToolTipString("Start fitting.")
268
269	#textcntrl for custom resolution
270	self.smear_pinhole_max = self.ModelTextCtrl(self, -1,
271	size=(_BOX_WIDTH-25,20),style=wx.TE_PROCESS_ENTER,
272	text_enter_callback = self.onPinholeSmear)
273	self.smear_pinhole_min = self.ModelTextCtrl(self, -1,
274	size=(_BOX_WIDTH-25,20),style=wx.TE_PROCESS_ENTER,
275	text_enter_callback = self.onPinholeSmear)
276	self.smear_slit_height= self.ModelTextCtrl(self, -1,
277	size=(_BOX_WIDTH-25,20),style=wx.TE_PROCESS_ENTER,
278	text_enter_callback = self.onSlitSmear)
279	self.smear_slit_width = self.ModelTextCtrl(self, -1,
280	size=(_BOX_WIDTH-25,20),style=wx.TE_PROCESS_ENTER,
281	text_enter_callback = self.onSlitSmear)
282
283	## smear
284	self.smear_data_left= BGTextCtrl(self, -1,
285	size=(_BOX_WIDTH-25,20), style=0)
286	self.smear_data_left.SetValue(str(self.dq_l))
287	self.smear_data_right = BGTextCtrl(self, -1,
288	size=(_BOX_WIDTH-25,20), style=0)
289	self.smear_data_right.SetValue(str(self.dq_r))
290
291	#set default values for smear
292	self.smear_pinhole_max.SetValue(str(self.dx_max))
293	self.smear_pinhole_min.SetValue(str(self.dx_min))
294	self.smear_slit_height.SetValue(str(self.dxl))
295	self.smear_slit_width.SetValue(str(self.dxw))
296
297	#Filling the sizer containing instruments smearing info.
298	self.disable_smearer = wx.RadioButton(self, -1,
299	'None', style=wx.RB_GROUP)
300	self.enable_smearer = wx.RadioButton(self, -1,
301	'Use dQ Data')
302	#self.enable_smearer.SetToolTipString(
303	#"Click to use the loaded dQ data for smearing.")
304	self.pinhole_smearer = wx.RadioButton(self, -1,
305	'Custom Pinhole Smear')
306	#self.pinhole_smearer.SetToolTipString
307	#("Click to input custom resolution for pinhole smearing.")
308	self.slit_smearer = wx.RadioButton(self, -1, 'Custom Slit Smear')
309	#self.slit_smearer.SetToolTipString
310	#("Click to input custom resolution for slit smearing.")
311	self.Bind(wx.EVT_RADIOBUTTON, self.onSmear,
312	id=self.disable_smearer.GetId())
313	self.Bind(wx.EVT_RADIOBUTTON, self.onSmear,
314	id=self.enable_smearer.GetId())
315	self.Bind(wx.EVT_RADIOBUTTON, self.onPinholeSmear,
316	id=self.pinhole_smearer.GetId())
317	self.Bind(wx.EVT_RADIOBUTTON, self.onSlitSmear,
318	id=self.slit_smearer.GetId())
319	self.disable_smearer.SetValue(True)
320
321	# add 4 types of smearing to the sizer
322	sizer_smearer.Add( self.disable_smearer,0, wx.LEFT, 10)
323	sizer_smearer.Add((10,10))
324	sizer_smearer.Add( self.enable_smearer)
325	sizer_smearer.Add((10,10))
326	sizer_smearer.Add( self.pinhole_smearer )
327	sizer_smearer.Add((10,10))
328	sizer_smearer.Add( self.slit_smearer )
329	sizer_smearer.Add((10,10))
330
331	# StaticText for chi2, N(for fitting), Npts
332	self.tcChi = BGTextCtrl(self, -1, "-", size=(75,20), style=0)
333	self.tcChi.SetToolTipString("Chi2/Npts(Fit)")
334	self.Npts_fit = BGTextCtrl(self, -1, "-", size=(75,20), style=0)
335	self.Npts_fit.SetToolTipString(\
336	" Npts : number of points selected for fitting")
337	self.Npts_total = self.ModelTextCtrl(self, -1,
338	size=(_BOX_WIDTH, 20),
339	style=wx.TE_PROCESS_ENTER,
340	text_enter_callback=self._onQrangeEnter)
341	self.Npts_total.SetValue(format_number(self.npts_x))
342	self.Npts_total.SetToolTipString(\
343	" Total Npts : total number of data points")
344
345	# Update and Draw button
346	self.draw_button = wx.Button(self,wx.NewId(),'Compute', size=(88,24))
347	self.draw_button.Bind(wx.EVT_BUTTON, \
348	self._onDraw,id= self.draw_button.GetId())
349	self.draw_button.SetToolTipString("Compute and Draw.")
350
351	box_description_1= wx.StaticText(self, -1,' Chi2/Npts')
352	box_description_2= wx.StaticText(self, -1,'Npts(Fit)')
353	box_description_3= wx.StaticText(self, -1,'Total Npts')
354	box_description_3.SetToolTipString( \
355	" Total Npts : total number of data points")
356	#box_description_4= wx.StaticText(self, -1,' ')
357
358
359	sizer_fit.Add(box_description_1,0,0)
360	sizer_fit.Add(box_description_2,0,0)
361	sizer_fit.Add(box_description_3,0,0)
362	sizer_fit.Add(self.draw_button,0,0)
363	sizer_fit.Add(self.tcChi,0,0)
364	sizer_fit.Add(self.Npts_fit ,0,0)
365	sizer_fit.Add(self.Npts_total,0,0)
366	sizer_fit.Add(self.btFit,0,0)
367
368	# StaticText for smear
369	#self.tcChi = wx.StaticText(self, -1, "-", style=wx.ALIGN_LEFT)
370	self.smear_description_none = wx.StaticText(self, -1,
371	smear_message_none , style=wx.ALIGN_LEFT)
372	self.smear_description_dqdata = wx.StaticText(self,
373	-1, smear_message_dqdata , style=wx.ALIGN_LEFT)
374	self.smear_description_type = wx.StaticText(self,
375	-1, "Type:" , style=wx.ALIGN_LEFT)
376	self.smear_description_accuracy_type = wx.StaticText(self, -1,
377	"Accuracy:" , style=wx.ALIGN_LEFT)
378	self.smear_description_smear_type = BGTextCtrl(self, -1,
379	size=(57,20), style=0)
380	self.smear_description_smear_type.SetValue(str(self.dq_l))
381	self.SetBackgroundColour(self.GetParent().GetBackgroundColour())
382	self.smear_description_2d = wx.StaticText(self, -1,
383	smear_message_2d , style=wx.ALIGN_LEFT)
384	self.smear_message_new_s = wx.StaticText(self, -1,
385	smear_message_new_ssmear, style=wx.ALIGN_LEFT)
386	self.smear_message_new_p = wx.StaticText(self, -1,
387	smear_message_new_psmear , style=wx.ALIGN_LEFT)
388	self.smear_description_2d_x = wx.StaticText(self, -1,
389	smear_message_2d_x_title , style=wx.ALIGN_LEFT)
390	self.smear_description_2d_x.SetToolTipString(\
391	" dQp(parallel) in q_r direction.")
392	self.smear_description_2d_y = wx.StaticText(self, -1,
393	smear_message_2d_y_title , style=wx.ALIGN_LEFT)
394	self.smear_description_2d_y.SetToolTipString(\
395	" dQs(perpendicular) in q_phi direction.")
396	self.smear_description_pin_min = wx.StaticText(self, -1,
397	smear_message_pinhole_min_title , style=wx.ALIGN_LEFT)
398	self.smear_description_pin_max = wx.StaticText(self, -1,
399	smear_message_pinhole_max_title , style=wx.ALIGN_LEFT)
400	self.smear_description_slit_height = wx.StaticText(self, -1,
401	smear_message_slit_height_title , style=wx.ALIGN_LEFT)
402	self.smear_description_slit_width = wx.StaticText(self, -1,
403	smear_message_slit_width_title , style=wx.ALIGN_LEFT)
404
405	#arrange sizers
406	#boxsizer1.Add( self.tcChi )
407	self.sizer_set_smearer.Add(sizer_smearer )
408	self.sizer_set_smearer.Add((10,10))
409	self.sizer_set_smearer.Add( self.smear_description_none,
410	0, wx.CENTER, 10 )
411	self.sizer_set_smearer.Add( self.smear_description_dqdata,
412	0, wx.CENTER, 10 )
413	self.sizer_set_smearer.Add( self.smear_description_2d,
414	0, wx.CENTER, 10 )
415	self.sizer_new_smear.Add( self.smear_description_type,
416	0, wx.CENTER, 10 )
417	self.sizer_new_smear.Add( self.smear_description_accuracy_type,
418	0, wx.CENTER, 10 )
419	self.sizer_new_smear.Add( self.smear_accuracy )
420	self.sizer_new_smear.Add( self.smear_description_smear_type,
421	0, wx.CENTER, 10 )
422	self.sizer_new_smear.Add((15,-1))
423	self.sizer_new_smear.Add( self.smear_description_2d_x,
424	0, wx.CENTER, 10 )
425	self.sizer_new_smear.Add( self.smear_description_pin_min,
426	0, wx.CENTER, 10 )
427	self.sizer_new_smear.Add( self.smear_description_slit_height,
428	0, wx.CENTER, 10 )
429
430	self.sizer_new_smear.Add( self.smear_pinhole_min,
431	0, wx.CENTER, 10 )
432	self.sizer_new_smear.Add( self.smear_slit_height,
433	0, wx.CENTER, 10 )
434	self.sizer_new_smear.Add( self.smear_data_left,
435	0, wx.CENTER, 10 )
436	self.sizer_new_smear.Add((20,-1))
437	self.sizer_new_smear.Add( self.smear_description_2d_y,
438	0, wx.CENTER, 10 )
439	self.sizer_new_smear.Add( self.smear_description_pin_max,
440	0, wx.CENTER, 10 )
441	self.sizer_new_smear.Add( self.smear_description_slit_width,
442	0, wx.CENTER, 10 )
443
444	self.sizer_new_smear.Add( self.smear_pinhole_max,0, wx.CENTER, 10 )
445	self.sizer_new_smear.Add( self.smear_slit_width,0, wx.CENTER, 10 )
446	self.sizer_new_smear.Add( self.smear_data_right,0, wx.CENTER, 10 )
447
448	self.sizer_set_smearer.Add( self.smear_message_new_s,0, wx.CENTER, 10)
449	self.sizer_set_smearer.Add( self.smear_message_new_p,0, wx.CENTER, 10)
450	self.sizer_set_smearer.Add((5,2))
451	self.sizer_set_smearer.Add( self.sizer_new_smear,0, wx.CENTER, 10 )
452
453	# add all to chi2 sizer
454	sizer_smearer_box.Add(self.sizer_set_smearer)
455	sizer_chi2.Add(sizer_smearer_box)
456	sizer_chi2.Add((-1,5))
457	sizer_chi2.Add(weighting_box)
458	sizer_chi2.Add((-1,5))
459
460	# hide all smear messages and textctrl
461	self._hide_all_smear_info()
462
463	# get smear_selection
464	self.current_smearer= smear_selection( self.data, self.model )
465
466	# Show only the relevant smear messages, etc
467	if self.current_smearer == None:
468	if not is_2Ddata:
469	self.smear_description_none.Show(True)
470	self.enable_smearer.Disable()
471	else:
472	self.smear_description_none.Show(True)
473	#self.smear_description_2d.Show(True)
474	#self.pinhole_smearer.Disable()
475	self.slit_smearer.Disable()
476	#self.enable_smearer.Disable()
477	if self.data == None:
478	self.slit_smearer.Disable()
479	self.pinhole_smearer.Disable()
480	self.enable_smearer.Disable()
481	else: self._show_smear_sizer()
482	boxsizer_range.Add(self.sizer_set_masking)
483	#2D data? default
484	is_2Ddata = False
485
486	#check if it is 2D data
487	if self.data.__class__.__name__ == "Data2D" or \
488	self.enable2D:
489	is_2Ddata = True
490
491	self.sizer5.Clear(True)
492
493	self.qmin = self.ModelTextCtrl(self, -1,size=(_BOX_WIDTH,20),
494	style=wx.TE_PROCESS_ENTER,
495	text_enter_callback = self._onQrangeEnter)
496	self.qmin.SetValue(str(self.qmin_x))
497	self.qmin.SetToolTipString("Minimun value of Q in linear scale.")
498
499	self.qmax = self.ModelTextCtrl(self, -1,size=(_BOX_WIDTH,20),
500	style=wx.TE_PROCESS_ENTER,
501	text_enter_callback=self._onQrangeEnter)
502	self.qmax.SetValue(str(self.qmax_x))
503	self.qmax.SetToolTipString("Maximum value of Q in linear scale.")
504	"""
505	self.theory_npts_tcrtl = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH, 20),
506	style=wx.TE_PROCESS_ENTER,
507	text_enter_callback=self._onQrangeEnter)
508	self.theory_npts_tcrtl.SetValue(format_number(self.npts_x))
509	self.theory_npts_tcrtl.SetToolTipString("Number of point to plot.")
510	"""
511	id = wx.NewId()
512	self.reset_qrange =wx.Button(self,id,'Reset',size=(77,20))
513
514	self.reset_qrange.Bind(wx.EVT_BUTTON, self.on_reset_clicked,id=id)
515	self.reset_qrange.SetToolTipString("Reset Q range to the default values")
516
517	sizer_horizontal=wx.BoxSizer(wx.HORIZONTAL)
518	sizer= wx.GridSizer(2, 4, 2, 6)
519
520	self.btEditMask = wx.Button(self,wx.NewId(),'Editor', size=(88,23))
521	self.btEditMask.Bind(wx.EVT_BUTTON, self._onMask,id= self.btEditMask.GetId())
522	self.btEditMask.SetToolTipString("Edit Mask.")
523	self.EditMask_title = wx.StaticText(self, -1, ' Masking(2D)')
524
525	sizer.Add(wx.StaticText(self, -1, ' Q range'))
526	sizer.Add(wx.StaticText(self, -1, ' Min[1/A]'))
527	sizer.Add(wx.StaticText(self, -1, ' Max[1/A]'))
528	sizer.Add(self.EditMask_title)
529	#sizer.Add(wx.StaticText(self, -1, ''))
530	sizer.Add(self.reset_qrange)
531	sizer.Add(self.qmin)
532	sizer.Add(self.qmax)
533	#sizer.Add(self.theory_npts_tcrtl)
534	sizer.Add(self.btEditMask)
535	boxsizer_range.Add(sizer_chi2)
536	boxsizer_range.Add((10,10))
537	boxsizer_range.Add(sizer)
538
539	boxsizer_range.Add((10,15))
540	boxsizer_range.Add(sizer_fit)
541	if is_2Ddata:
542	self.btEditMask.Enable()
543	self.EditMask_title.Enable()
544	else:
545	self.btEditMask.Disable()
546	self.EditMask_title.Disable()
547	## save state
548	self.save_current_state()
549	self.sizer5.Add(boxsizer_range,0, wx.EXPAND \| wx.ALL, 10)
550	self.sizer5.Layout()
551
552
553	def _fill_model_sizer(self, sizer):
554	"""
555	fill sizer containing model info
556	"""
557	##Add model function Details button in fitpanel.
558	##The following 3 lines are for Mac. Let JHC know before modifying...
559	title = "Model"
560	self.formfactorbox = None
561	self.multifactorbox = None
562	self.mbox_description= wx.StaticBox(self, -1,str(title))
563	boxsizer1 = wx.StaticBoxSizer(self.mbox_description, wx.VERTICAL)
564
565	id = wx.NewId()
566	self.model_help =wx.Button(self,id,'Details', size=(80,23))
567	self.model_help.Bind(wx.EVT_BUTTON, self.on_model_help_clicked,id=id)
568	self.model_help.SetToolTipString("Model Function Help")
569	id = wx.NewId()
570	self.model_view = wx.Button(self, id,"Show 2D", size=(80, 23))
571	self.model_view.Bind(wx.EVT_BUTTON, self._onModel2D, id=id)
572	hint = "toggle view of model from 1D to 2D or 2D to 1D"
573	self.model_view.SetToolTipString(hint)
574
575	self.shape_rbutton = wx.RadioButton(self, -1, 'Shapes',
576	style=wx.RB_GROUP)
577	self.shape_indep_rbutton = wx.RadioButton(self, -1, "Shape-Independent")
578	self.struct_rbutton = wx.RadioButton(self, -1, "Structure Factor ")
579	self.plugin_rbutton = wx.RadioButton(self, -1, "Customized Models")
580
581	self.Bind(wx.EVT_RADIOBUTTON, self._show_combox,
582	id= self.shape_rbutton.GetId())
583	self.Bind(wx.EVT_RADIOBUTTON, self._show_combox,
584	id= self.shape_indep_rbutton.GetId())
585	self.Bind(wx.EVT_RADIOBUTTON, self._show_combox,
586	id= self.struct_rbutton.GetId())
587	self.Bind(wx.EVT_RADIOBUTTON, self._show_combox,
588	id= self.plugin_rbutton.GetId())
589	#MAC needs SetValue
590	self.shape_rbutton.SetValue(True)
591
592	sizer_radiobutton = wx.GridSizer(2, 3, 5, 5)
593	sizer_radiobutton.Add(self.shape_rbutton)
594	sizer_radiobutton.Add(self.shape_indep_rbutton)
595	#sizer_radiobutton.Add((5, 5))
596	sizer_radiobutton.Add(self.model_view,1, wx.LEFT, 20)
597	sizer_radiobutton.Add(self.plugin_rbutton)
598	sizer_radiobutton.Add(self.struct_rbutton)
599	#sizer_radiobutton.Add((5, 5))
600	sizer_radiobutton.Add(self.model_help,1, wx.LEFT, 20)
601
602	sizer_selection = wx.BoxSizer(wx.HORIZONTAL)
603	mutifactor_selection = wx.BoxSizer(wx.HORIZONTAL)
604
605	self.text1 = wx.StaticText(self,-1,"" )
606	self.text2 = wx.StaticText(self,-1,"P(Q)*S(Q)" )
607	self.mutifactor_text = wx.StaticText( self,-1,"No. of Shells: ")
608	self.mutifactor_text1 = wx.StaticText( self,-1,"" )
609	self.show_sld_button = wx.Button( self,-1,"Show SLD Profile" )
610	self.show_sld_button.Bind(wx.EVT_BUTTON,self._on_show_sld)
611
612	self.formfactorbox = wx.ComboBox(self, -1,style=wx.CB_READONLY)
613	if self.model!= None:
614	self.formfactorbox.SetValue(self.model.name)
615	self.structurebox = wx.ComboBox(self, -1, style=wx.CB_READONLY)
616	self.multifactorbox = wx.ComboBox(self, -1, style=wx.CB_READONLY)
617	self.initialize_combox()
618	wx.EVT_COMBOBOX(self.formfactorbox, -1, self._on_select_model)
619
620	wx.EVT_COMBOBOX(self.structurebox, -1, self._on_select_model)
621	wx.EVT_COMBOBOX(self.multifactorbox, -1, self._on_select_model)
622	## check model type to show sizer
623	if self.model !=None:
624	self._set_model_sizer_selection(self.model)
625
626	sizer_selection.Add(self.text1)
627	sizer_selection.Add((5, 5))
628	sizer_selection.Add(self.formfactorbox)
629	sizer_selection.Add((5, 5))
630	sizer_selection.Add(self.text2)
631	sizer_selection.Add((5, 5))
632	sizer_selection.Add(self.structurebox)
633
634	mutifactor_selection.Add((10,5))
635	mutifactor_selection.Add(self.mutifactor_text)
636	mutifactor_selection.Add(self.multifactorbox)
637	mutifactor_selection.Add((5, 5))
638	mutifactor_selection.Add(self.mutifactor_text1)
639	mutifactor_selection.Add((10, 5))
640	mutifactor_selection.Add(self.show_sld_button)
641
642
643	boxsizer1.Add(sizer_radiobutton)
644	boxsizer1.Add((10, 10))
645	boxsizer1.Add(sizer_selection)
646	boxsizer1.Add((10, 10))
647	boxsizer1.Add(mutifactor_selection)
648
649	self._set_multfactor_combobox()
650	self.multifactorbox.SetSelection(1)
651	self.show_sld_button.Hide()
652	sizer.Add(boxsizer1,0, wx.EXPAND \| wx.ALL, 10)
653	sizer.Layout()
654
655	def _set_sizer_dispersion(self):
656	"""
657	draw sizer with gaussian dispersity parameters
658	"""
659	self.fittable_param=[]
660	self.fixed_param=[]
661	self.orientation_params_disp=[]
662
663	self.sizer4_4.Clear(True)
664	if self.model==None:
665	##no model is selected
666	return
667	if not self.enable_disp.GetValue():
668	## the user didn't select dispersity display
669	return
670
671	self._reset_dispersity()
672
673	## fill a sizer with the combobox to select dispersion type
674	#sizer_select_dispers = wx.BoxSizer(wx.HORIZONTAL)
675	model_disp = wx.StaticText(self, -1, 'Function')
676
677	import sans.models.dispersion_models
678	self.polydisp= sans.models.dispersion_models.models
679
680	ix = 0
681	iy = 0
682	disp = wx.StaticText(self, -1, ' ')
683	self.sizer4_4.Add(disp,( iy, ix),(1,1),
684	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 15)
685	ix += 1
686	values = wx.StaticText(self, -1, 'PD[ratio]')
687	polytext = "Polydispersity (= STD/mean); "
688	polytext += "the standard deviation over the mean value."
689	values.SetToolTipString(polytext)
690
691	self.sizer4_4.Add(values,( iy, ix),(1,1), wx.EXPAND\|wx.ADJUST_MINSIZE,
692	0)
693	ix +=2
694	if self.is_mac:
695	err_text = 'Error'
696	else:
697	err_text = ''
698	self.text_disp_1 = wx.StaticText(self, -1, err_text)
699	self.sizer4_4.Add( self.text_disp_1,(iy, ix),(1,1),\
700	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
701
702
703	ix +=1
704	self.text_disp_min = wx.StaticText(self, -1, 'Min')
705	self.sizer4_4.Add(self.text_disp_min,(iy, ix),(1,1),\
706	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
707
708	ix +=1
709	self.text_disp_max = wx.StaticText(self, -1, 'Max')
710	self.sizer4_4.Add(self.text_disp_max,(iy, ix),(1,1),\
711	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
712
713	ix += 1
714	npts = wx.StaticText(self, -1, 'Npts')
715	npts.SetToolTipString("Number of sampling points for the numerical\n\
716	integration over the distribution function.")
717	self.sizer4_4.Add(npts,( iy, ix),(1,1), wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
718	ix += 1
719	nsigmas = wx.StaticText(self, -1, 'Nsigs')
720	nsigmas.SetToolTipString(" Number of sigmas between which the range\n\
721	of the distribution function will be used for weighting. \n\
722	The value '3' covers 99.5% for Gaussian distribution \n\
723	function. Note: Not recommended to change this value.")
724	self.sizer4_4.Add(nsigmas,( iy, ix),(1,1), wx.EXPAND\|wx.ADJUST_MINSIZE,
725	0)
726	ix +=1
727	self.sizer4_4.Add(model_disp,(iy, ix),(1,1),\
728	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
729
730	if self.engine_type=="park":
731	self.text_disp_max.Show(True)
732	self.text_disp_min.Show(True)
733
734	for item in self.model.dispersion.keys():
735	if not item in self.model.orientation_params:
736	if not self.disp_cb_dict.has_key(item):
737	self.disp_cb_dict[item]= None
738	name0="Distribution of " + item
739	name1=item+".width"
740	name2=item+".npts"
741	name3=item+".nsigmas"
742	if not self.model.details.has_key(name1):
743	self.model.details [name1] = ["",None,None]
744
745	iy += 1
746	for p in self.model.dispersion[item].keys():
747
748	if p=="width":
749	ix = 0
750	cb = wx.CheckBox(self, -1, name0, (10, 10))
751	cb.SetToolTipString("Check mark to fit")
752	wx.EVT_CHECKBOX(self, cb.GetId(), self.select_param)
753	self.sizer4_4.Add( cb,( iy, ix),(1,1),
754	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE,
755	5)
756	ix = 1
757	value= self.model.getParam(name1)
758	ctl1 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH/1.3,20)
759	,style=wx.TE_PROCESS_ENTER)
760	ctl1.SetLabel('PD[ratio]')
761	poly_text = "Polydispersity (STD/mean) of %s\n" % item
762	poly_text += "STD: the standard deviation"
763	poly_text += " from the mean value."
764	ctl1.SetToolTipString(poly_text)
765	ctl1.SetValue(str (format_number(value, True)))
766	self.sizer4_4.Add(ctl1, (iy,ix),(1,1),wx.EXPAND)
767	## text to show error sign
768	ix = 2
769	text2=wx.StaticText(self, -1, '+/-')
770	self.sizer4_4.Add(text2,(iy, ix),(1,1),
771	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
772	if not self.is_mac:
773	text2.Hide()
774
775	ix = 3
776	ctl2 = wx.TextCtrl(self, -1, size=(_BOX_WIDTH/1.3,20),
777	style=0)
778
779	self.sizer4_4.Add(ctl2, (iy,ix),(1,1),
780	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
781	if not self.is_mac:
782	ctl2.Hide()
783
784	ix = 4
785	ctl3 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH/2,
786	20), style=wx.TE_PROCESS_ENTER,
787	text_enter_callback = self._onparamRangeEnter)
788
789	self.sizer4_4.Add(ctl3, (iy,ix),(1,1),
790	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
791
792
793	ix = 5
794	ctl4 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH/2,
795	20), style=wx.TE_PROCESS_ENTER,
796	text_enter_callback = self._onparamRangeEnter)
797
798	self.sizer4_4.Add(ctl4, (iy,ix),(1,1),
799	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
800
801
802	if self.engine_type=="park":
803	ctl3.Show(True)
804	ctl4.Show(True)
805
806	elif p=="npts":
807	ix = 6
808	value= self.model.getParam(name2)
809	Tctl = self.ModelTextCtrl(self, -1,
810	size=(_BOX_WIDTH/2.2,20),
811	style=wx.TE_PROCESS_ENTER)
812
813	Tctl.SetValue(str (format_number(value)))
814	self.sizer4_4.Add(Tctl, (iy,ix),(1,1),
815	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
816	self.fixed_param.append([None,name2, Tctl,None,None,
817	None, None,None])
818	elif p=="nsigmas":
819	ix = 7
820	value= self.model.getParam(name3)
821	Tct2 = self.ModelTextCtrl(self, -1,
822	size=(_BOX_WIDTH/2.2,20),
823	style=wx.TE_PROCESS_ENTER)
824
825	Tct2.SetValue(str (format_number(value)))
826	self.sizer4_4.Add(Tct2, (iy,ix),(1,1),
827	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
828	#ix +=1
829	#self.sizer4_4.Add((20,20), (iy,ix),(1,1),
830	# wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
831
832	self.fixed_param.append([None, name3, Tct2,
833	None, None, None,
834	None, None])
835
836
837	ix = 8
838	disp_box = wx.ComboBox(self, -1,size=(65,-1),
839	style=wx.CB_READONLY, name = '%s'% name1)
840	for key, value in self.polydisp.iteritems():
841	name_disp = str(key)
842	disp_box.Append(name_disp,value)
843	disp_box.SetStringSelection("gaussian")
844	wx.EVT_COMBOBOX(disp_box,-1, self._on_disp_func)
845	self.sizer4_4.Add(disp_box,(iy,ix),(1,1), wx.EXPAND)
846	self.fittable_param.append([cb,name1,ctl1,text2,
847	ctl2, ctl3, ctl4, disp_box])
848
849	ix =0
850	iy +=1
851	self.sizer4_4.Add((20,20),(iy,ix),(1,1),
852	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 15)
853	first_orient = True
854	for item in self.model.dispersion.keys():
855	if item in self.model.orientation_params:
856	if not self.disp_cb_dict.has_key(item):
857	self.disp_cb_dict[item]= None
858	name0="Distribution of " + item
859	name1=item+".width"
860	name2=item+".npts"
861	name3=item+".nsigmas"
862
863	if not self.model.details.has_key(name1):
864	self.model.details [name1] = ["",None,None]
865
866
867	iy += 1
868	for p in self.model.dispersion[item].keys():
869
870	if p=="width":
871	ix = 0
872	cb = wx.CheckBox(self, -1, name0, (10, 10))
873	cb.SetToolTipString("Check mark to fit")
874	wx.EVT_CHECKBOX(self, cb.GetId(), self.select_param)
875	self.sizer4_4.Add( cb,( iy, ix),(1,1),
876	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE,
877	5)
878	if self.data.__class__.__name__ == "Data2D" or \
879	self.enable2D:
880	cb.Show(True)
881	elif cb.IsShown():
882	cb.Hide()
883	ix = 1
884	value= self.model.getParam(name1)
885	ctl1 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH/1.3,
886	20),style=wx.TE_PROCESS_ENTER)
887	poly_tip = "Absolute Sigma for %s." % item
888	ctl1.SetToolTipString(poly_tip)
889	ctl1.SetValue(str (format_number(value, True)))
890	if self.data.__class__.__name__ == "Data2D" or \
891	self.enable2D:
892	if first_orient:
893	values.SetLabel('PD[ratio], Sig[deg]')
894	poly_text = "PD(polydispersity for lengths):\n"
895	poly_text += "It should be a value between"
896	poly_text += "0 and 1\n"
897	poly_text += "Sigma for angles: \n"
898	poly_text += "It is the STD (ratio*mean)"
899	poly_text += " of the distribution.\n "
900
901	values.SetToolTipString(poly_text)
902	first_orient = False
903	ctl1.Show(True)
904	elif ctl1.IsShown():
905	ctl1.Hide()
906
907	self.sizer4_4.Add(ctl1, (iy,ix),(1,1),wx.EXPAND)
908	## text to show error sign
909	ix = 2
910	text2=wx.StaticText(self, -1, '+/-')
911	self.sizer4_4.Add(text2,(iy, ix),(1,1),
912	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
913
914	text2.Hide()
915
916	ix = 3
917	ctl2 = wx.TextCtrl(self, -1, size=(_BOX_WIDTH/1.3,20),
918	style=0)
919
920	self.sizer4_4.Add(ctl2, (iy,ix),(1,1),
921	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
922
923	ctl2.Hide()
924	if self.data.__class__.__name__ == "Data2D" or \
925	self.enable2D:
926	if self.is_mac:
927	text2.Show(True)
928	ctl2.Show(True)
929
930	ix = 4
931	ctl3 = self.ModelTextCtrl(self, -1,
932	size=(_BOX_WIDTH/2,20),
933	style=wx.TE_PROCESS_ENTER,
934	text_enter_callback = self._onparamRangeEnter)
935
936	self.sizer4_4.Add(ctl3, (iy,ix),(1,1),
937	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
938
939	ctl3.Hide()
940
941	ix = 5
942	ctl4 = self.ModelTextCtrl(self, -1,
943	size=(_BOX_WIDTH/2,20), style=wx.TE_PROCESS_ENTER,
944	text_enter_callback = self._onparamRangeEnter)
945	self.sizer4_4.Add(ctl4, (iy,ix),(1,1),
946	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
947	ctl4.Hide()
948
949	if self.data.__class__.__name__ == "Data2D" or \
950	self.enable2D:
951	ctl3.Show(True)
952	ctl4.Show(True)
953
954	elif p=="npts":
955	ix = 6
956	value= self.model.getParam(name2)
957	Tctl = self.ModelTextCtrl(self, -1,
958	size=(_BOX_WIDTH/2.2, 20),
959	style=wx.TE_PROCESS_ENTER)
960
961	Tctl.SetValue(str (format_number(value)))
962	if self.data.__class__.__name__ == "Data2D" or \
963	self.enable2D:
964	Tctl.Show(True)
965	else:
966	Tctl.Hide()
967	self.sizer4_4.Add(Tctl, (iy,ix),(1,1),
968	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
969	self.fixed_param.append([None,name2, Tctl,None,None,
970	None, None,None])
971	self.orientation_params_disp.append([None,name2,
972	Tctl,None,None,
973	None, None,None])
974	elif p=="nsigmas":
975	ix = 7
976	value= self.model.getParam(name3)
977	Tct2 = self.ModelTextCtrl(self, -1,
978	size=(_BOX_WIDTH/2.2,20),
979	style=wx.TE_PROCESS_ENTER)
980
981	Tct2.SetValue(str (format_number(value)))
982	if self.data.__class__.__name__ == "Data2D" or \
983	self.enable2D:
984	Tct2.Show(True)
985	else:
986	Tct2.Hide()
987	self.sizer4_4.Add(Tct2, (iy,ix),(1,1),
988	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
989
990
991	self.fixed_param.append([None,name3, Tct2
992	,None,None, None, None,None])
993
994	self.orientation_params_disp.append([None,name3,
995	Tct2 ,None,None, None, None,None])
996
997
998	ix = 8
999	disp_box = wx.ComboBox(self, -1,size=(65,-1),
1000	style=wx.CB_READONLY, name = '%s'% name1)
1001	for key, value in self.polydisp.iteritems():
1002	name_disp = str(key)
1003	disp_box.Append(name_disp,value)
1004	disp_box.SetStringSelection("gaussian")
1005	wx.EVT_COMBOBOX(disp_box,-1, self._on_disp_func)
1006	self.sizer4_4.Add(disp_box,(iy,ix),(1,1), wx.EXPAND)
1007	self.fittable_param.append([cb,name1,ctl1,text2,
1008	ctl2, ctl3, ctl4, disp_box])
1009	self.orientation_params_disp.append([cb,name1,ctl1,
1010	text2, ctl2, ctl3, ctl4, disp_box])
1011
1012	if self.data.__class__.__name__ == "Data2D" or \
1013	self.enable2D:
1014	disp_box.Show(True)
1015	else:
1016	disp_box.Hide()
1017
1018
1019	self.state.disp_cb_dict = copy.deepcopy(self.disp_cb_dict)
1020
1021	self.state.model = self.model.clone()
1022	## save state into
1023	self.state.cb1 = self.cb1.GetValue()
1024	self._copy_parameters_state(self.parameters, self.state.parameters)
1025	self._copy_parameters_state(self.orientation_params_disp,
1026	self.state.orientation_params_disp)
1027	self._copy_parameters_state(self.fittable_param,
1028	self.state.fittable_param)
1029	self._copy_parameters_state(self.fixed_param, self.state.fixed_param)
1030
1031
1032	wx.PostEvent(self.parent, StatusEvent(status=\
1033	" Selected Distribution: Gaussian"))
1034	#Fill the list of fittable parameters
1035	self.select_all_param(event=None)
1036
1037	self.Layout()
1038
1039
1040	def _onDraw(self, event):
1041	"""
1042	Update and Draw the model
1043	"""
1044	if self.model ==None:
1045	msg="Please select a Model first..."
1046	wx.MessageBox(msg, 'Info')
1047
1048	return
1049	flag = self._update_paramv_on_fit()
1050	self._onparamEnter_helper()
1051	if not flag:
1052	msg= "The parameters are invalid"
1053	wx.PostEvent(self.parent.parent, StatusEvent(status= msg ))
1054	return
1055
1056
1057	def _onFit(self, event):
1058	"""
1059	Allow to fit
1060	"""
1061	if event != None:
1062	event.Skip()
1063	if len(self.parent._manager.fit_thread_list)>0 and\
1064	self.parent._manager._fit_engine != "park":
1065	msg = "The FitEnging will be set to 'ParkMC'\n"
1066	msg += " to fit with more than one data set..."
1067	wx.MessageBox(msg, 'Info')
1068	#wx.PostEvent(self._manager.parent, StatusEvent(status=\
1069	# "Fitting: %s"%msg))
1070
1071	if self.data is None:
1072	msg = "Please get Data first..."
1073	wx.MessageBox(msg, 'Info')
1074	wx.PostEvent(self._manager.parent, StatusEvent(status=\
1075	"Fit: %s" % msg))
1076	return
1077	if self.model is None:
1078	msg = "Please select a Model first..."
1079	wx.MessageBox(msg, 'Info')
1080	wx.PostEvent(self._manager.parent, StatusEvent(status=\
1081	"Fit: %s"%msg, type="stop"))
1082	return
1083
1084	if len(self.param_toFit) <= 0:
1085	msg= "Select at least one parameter to fit"
1086	wx.MessageBox(msg, 'Info')
1087	wx.PostEvent(self._manager.parent, StatusEvent(status= msg,
1088	type="stop" ))
1089	return
1090
1091	flag = self._update_paramv_on_fit()
1092
1093	if not flag:
1094	msg= "Fitting range or parameters are invalid"
1095	wx.PostEvent(self.parent.parent, StatusEvent(status= msg,
1096	type="stop"))
1097	return
1098
1099	self.select_param(event =None)
1100
1101	#Clear errors if exist from previous fitting
1102	#self._clear_Err_on_Fit()
1103
1104	# Remove or do not allow fitting on the Q=0 point, especially
1105	# when y(q=0)=None at x[0].
1106	self.qmin_x = float(self.qmin.GetValue())
1107	self.qmax_x = float(self.qmax.GetValue())
1108	self._manager._reset_schedule_problem(value=0, uid=self.uid)
1109	self._manager.schedule_for_fit(uid=self.uid,value=1)
1110	self._manager.set_fit_range(uid=self.uid,qmin=self.qmin_x,
1111	qmax=self.qmax_x)
1112	#single fit
1113	self._manager.onFit(uid=self.uid)
1114	self.btFit.SetLabel("Stop")
1115	self.bind_fit_button()
1116
1117	def get_weight_flag(self):
1118	"""
1119	Get flag corresponding to a given weighting dI data.
1120	"""
1121	button_list = [self.dI_noweight,
1122	self.dI_didata,
1123	self.dI_sqrdata,
1124	self.dI_idata]
1125	flag = 1
1126	for item in button_list:
1127	if item.GetValue():
1128	if button_list.index(item) == 0:
1129	flag = 0 #dy = numpy.ones_like(dy_data)
1130	elif button_list.index(item) == 1:
1131	flag = 1 #dy = dy_data
1132	elif button_list.index(item) == 2:
1133	flag = 2 #dy = numpy.sqrt(numpy.abs(data))
1134	elif button_list.index(item) == 3:
1135	flag = 3 # dy = numpy.abs(data)
1136	break
1137	return flag
1138
1139	def bind_fit_button(self):
1140	"""
1141	bind the fit button to either fit handler or stop fit handler
1142	"""
1143	self.btFit.Unbind(event=wx.EVT_BUTTON, id= self.btFit.GetId())
1144	if self.btFit.GetLabel().lower() == "stop":
1145	self.fit_started = True
1146	self.btFit.SetForegroundColour('red')
1147	self.btFit.Bind(event=wx.EVT_BUTTON, handler=self._StopFit,
1148	id=self.btFit.GetId())
1149	elif self.btFit.GetLabel().lower() == "fit":
1150	self.fit_started = False
1151	self.btFit.SetDefault()
1152	self.btFit.SetForegroundColour('black')
1153	#self.btFit.SetBackgroundColour(self.default_bt_colour)
1154	self.btFit.Bind(event=wx.EVT_BUTTON, handler=self._onFit,
1155	id=self.btFit.GetId())
1156	else:
1157	msg = "FitPage: fit button has unknown label"
1158	raise ValuerError, msg
1159	self._manager._reset_schedule_problem(value=0)
1160
1161	def is_fitting(self):
1162	if self.fit_started:
1163	self._StopFit(event=None)
1164
1165	def _StopFit(self, event=None):
1166	"""
1167	Stop fit
1168	"""
1169	#time.sleep(0.1)
1170	if event != None:
1171	event.Skip()
1172	#if self.engine_type=="scipy":
1173	self._manager.stop_fit(self.uid)
1174	self._manager._reset_schedule_problem(value=0)
1175	self._on_fit_complete()
1176
1177	def rename_model(self):
1178	"""
1179	find a short name for model
1180	"""
1181	if self.model is not None:
1182	self.model.name = "M" + str(self.index_model)
1183
1184	def _on_select_model(self, event=None):
1185	"""
1186	call back for model selection
1187	"""
1188
1189	self.Show(False)
1190	self._on_select_model_helper()
1191	self.set_model_param_sizer(self.model)
1192	if self.model is None:
1193	self._set_bookmark_flag(False)
1194	self._keep.Enable(False)
1195	self._set_save_flag(False)
1196	self.enable_disp.SetValue(False)
1197	self.disable_disp.SetValue(True)
1198	try:
1199	self.set_dispers_sizer()
1200	except:
1201	pass
1202	#self.btFit.SetFocus()
1203	self.state.enable_disp = self.enable_disp.GetValue()
1204	self.state.disable_disp = self.disable_disp.GetValue()
1205	self.state.pinhole_smearer = self.pinhole_smearer.GetValue()
1206	self.state.slit_smearer = self.slit_smearer.GetValue()
1207
1208	self.state.structurecombobox = self.structurebox.GetCurrentSelection()
1209	self.state.formfactorcombobox = self.formfactorbox.GetCurrentSelection()
1210	self.enable_fit_button()
1211	if self.model != None:
1212	self.rename_model()
1213	self._set_copy_flag(True)
1214	self._set_paste_flag(True)
1215	if self.data != None:
1216	self._set_bookmark_flag(True)
1217	self._keep.Enable(True)
1218	#self._set_save_flag(True)
1219	# Reset smearer, model and data
1220	self._set_smear(self.data)
1221
1222	# more disables for 2D
1223	self._set_smear_buttons()
1224
1225	try:
1226	# update smearer sizer
1227	self.onSmear(None)
1228	temp_smear = None
1229	if not self.disable_smearer.GetValue():
1230	# Set the smearer environments
1231	temp_smear = self.current_smearer
1232	except:
1233	raise
1234	## error occured on chisqr computation
1235	#pass
1236	## event to post model to fit to fitting plugins
1237	(ModelEventbox, EVT_MODEL_BOX) = wx.lib.newevent.NewEvent()
1238
1239	## set smearing value whether or not
1240	# the data contain the smearing info
1241	evt = ModelEventbox(model=self.model,
1242	smearer=temp_smear,
1243	enable_smearer=not self.disable_smearer.GetValue(),
1244	qmin=float(self.qmin_x),
1245	uid=self.uid,
1246	caption=self.window_caption,
1247	qmax=float(self.qmax_x))
1248
1249	self._manager._on_model_panel(evt=evt)
1250	self.mbox_description.SetLabel("Model [%s]" % str(self.model.name))
1251	self.state.model = self.model.clone()
1252	self.state.model.name = self.model.name
1253
1254
1255	if event != None:
1256	## post state to fit panel
1257	new_event = PageInfoEvent(page = self)
1258	wx.PostEvent(self.parent, new_event)
1259	#update list of plugins if new plugin is available
1260	if self.plugin_rbutton.GetValue():
1261	temp = self.parent.update_model_list()
1262	if temp:
1263	self.model_list_box = temp
1264	current_val = self.formfactorbox.GetValue()
1265	pos = self.formfactorbox.GetSelection()
1266	self._show_combox_helper()
1267	self.formfactorbox.SetSelection(pos)
1268	self.formfactorbox.SetValue(current_val)
1269	self._onDraw(event=None)
1270	else:
1271	self._draw_model()
1272	self.SetupScrolling()
1273	self.Show(True)
1274
1275	def _onparamEnter(self,event):
1276	"""
1277	when enter value on panel redraw model according to changed
1278	"""
1279	if self.model ==None:
1280	msg="Please select a Model first..."
1281	wx.MessageBox(msg, 'Info')
1282	#wx.PostEvent(self._manager.parent, StatusEvent(status=\
1283	# "Parameters: %s"%msg))
1284	return
1285
1286	#default flag
1287	flag = False
1288	self.fitrange = True
1289	#get event object
1290	tcrtl = event.GetEventObject()
1291
1292	#wx.PostEvent(self._manager.parent, StatusEvent(status=" \
1293	# updating ... ",type="update"))
1294	#Clear msg if previously shown.
1295	msg= ""
1296	wx.PostEvent(self.parent.parent, StatusEvent(status = msg ))
1297
1298	if check_float(tcrtl):
1299	flag = self._onparamEnter_helper()
1300	self.set_npts2fit()
1301	if self.fitrange:
1302	temp_smearer = None
1303	if not self.disable_smearer.GetValue():
1304	temp_smearer= self.current_smearer
1305	## set smearing value whether or not
1306	# the data contain the smearing info
1307	if self.slit_smearer.GetValue():
1308	flag1 = self.update_slit_smear()
1309	flag = flag or flag1
1310	elif self.pinhole_smearer.GetValue():
1311	flag1 = self.update_pinhole_smear()
1312	flag = flag or flag1
1313	elif self.data.__class__.__name__ != "Data2D" and \
1314	not self.enable2D:
1315	self._manager.set_smearer(smearer=temp_smearer,
1316	fid=self.data.id,
1317	uid=self.uid,
1318	qmin= float(self.qmin_x),
1319	qmax= float(self.qmax_x),
1320	enable_smearer=not self.disable_smearer.GetValue(),
1321	draw=True)
1322	if flag:
1323	#self.compute_chisqr(smearer= temp_smearer)
1324
1325	## new state posted
1326	if self.state_change:
1327	#self._undo.Enable(True)
1328	event = PageInfoEvent(page = self)
1329	wx.PostEvent(self.parent, event)
1330	self.state_change= False
1331	else:
1332	# invalid fit range: do nothing here:
1333	# msg already displayed in validate
1334	return
1335	else:
1336	self.save_current_state()
1337	msg= "Cannot Plot :Must enter a number!!! "
1338	wx.PostEvent(self.parent.parent, StatusEvent(status = msg ))
1339
1340	self.save_current_state()
1341	return
1342
1343	def _onparamRangeEnter(self, event):
1344	"""
1345	Check validity of value enter in the parameters range field
1346	"""
1347	#if self.check_invalid_panel():
1348	# return
1349	tcrtl= event.GetEventObject()
1350	#Clear msg if previously shown.
1351	msg= ""
1352	wx.PostEvent(self.parent.parent, StatusEvent(status = msg ))
1353	# Flag to register when a parameter has changed.
1354	is_modified = False
1355	if tcrtl.GetValue().lstrip().rstrip()!="":
1356	try:
1357	value = float(tcrtl.GetValue())
1358	tcrtl.SetBackgroundColour(wx.WHITE)
1359	self._check_value_enter(self.fittable_param ,is_modified)
1360	self._check_value_enter(self.parameters ,is_modified)
1361	except:
1362	tcrtl.SetBackgroundColour("pink")
1363	msg= "Model Error:wrong value entered : %s"% sys.exc_value
1364	wx.PostEvent(self.parent.parent, StatusEvent(status = msg ))
1365	return
1366	else:
1367	tcrtl.SetBackgroundColour(wx.WHITE)
1368
1369	#self._undo.Enable(True)
1370	self.save_current_state()
1371	event = PageInfoEvent(page = self)
1372	wx.PostEvent(self.parent, event)
1373	self.state_change= False
1374
1375
1376	def _onQrangeEnter(self, event):
1377	"""
1378	Check validity of value enter in the Q range field
1379	"""
1380	tcrtl = event.GetEventObject()
1381	#Clear msg if previously shown.
1382	msg= ""
1383	wx.PostEvent(self.parent.parent, StatusEvent(status = msg ))
1384	# Flag to register when a parameter has changed.
1385	is_modified = False
1386	if tcrtl.GetValue().lstrip().rstrip()!="":
1387	try:
1388	value = float(tcrtl.GetValue())
1389	tcrtl.SetBackgroundColour(wx.WHITE)
1390
1391	# If qmin and qmax have been modified, update qmin and qmax
1392	if self._validate_qrange( self.qmin, self.qmax):
1393	tempmin = float(self.qmin.GetValue())
1394	if tempmin != self.qmin_x:
1395	self.qmin_x = tempmin
1396	tempmax = float(self.qmax.GetValue())
1397	if tempmax != self.qmax_x:
1398	self.qmax_x = tempmax
1399	else:
1400	tcrtl.SetBackgroundColour("pink")
1401	msg= "Model Error:wrong value entered : %s"% sys.exc_value
1402	wx.PostEvent(self.parent.parent, StatusEvent(status = msg ))
1403	return
1404
1405	except:
1406	tcrtl.SetBackgroundColour("pink")
1407	msg= "Model Error:wrong value entered : %s"% sys.exc_value
1408	wx.PostEvent(self.parent.parent, StatusEvent(status = msg ))
1409	return
1410	#Check if # of points for theory model are valid(>0).
1411	# check for 2d
1412	if self.data.__class__.__name__ == "Data2D" or \
1413	self.enable2D:
1414	# set mask
1415	radius= numpy.sqrt(self.data.qx_data*self.data.qx_data +
1416	self.data.qy_data*self.data.qy_data )
1417	index_data = ((self.qmin_x <= radius)& \
1418	(radius<= self.qmax_x))
1419	index_data = (index_data)&(self.data.mask)
1420	index_data = (index_data)&(numpy.isfinite(self.data.data))
1421	if len(index_data[index_data]) < 10:
1422	msg = "Cannot Plot :No or too little npts in"
1423	msg += " that data range!!! "
1424	wx.PostEvent(self.parent.parent,
1425	StatusEvent(status=msg))
1426	return
1427	else:
1428	self.data.mask = index_data
1429	#self.Npts_fit.SetValue(str(len(self.data.mask)))
1430	self.set_npts2fit()
1431	else:
1432	index_data = ((self.qmin_x <= self.data.x)& \
1433	(self.data.x <= self.qmax_x))
1434	self.Npts_fit.SetValue(str(len(self.data.x[index_data])))
1435
1436	self.npts_x = self.Npts_total.GetValue()
1437	self.create_default_data()
1438	self._save_plotting_range()
1439	else:
1440	tcrtl.SetBackgroundColour("pink")
1441	msg= "Model Error:wrong value entered!!!"
1442	wx.PostEvent(self.parent.parent, StatusEvent(status = msg ))
1443
1444	self._draw_model()
1445	self.save_current_state()
1446	event = PageInfoEvent(page = self)
1447	wx.PostEvent(self.parent, event)
1448	self.state_change= False
1449	return
1450
1451	def _clear_Err_on_Fit(self):
1452	"""
1453	hide the error text control shown
1454	after fitting
1455	"""
1456	if self.is_mac:
1457	return
1458	if hasattr(self,"text2_3"):
1459	self.text2_3.Hide()
1460
1461	if len(self.parameters)>0:
1462	for item in self.parameters:
1463	#Skip t ifhe angle parameters if 1D data
1464	if self.data.__class__.__name__ != "Data2D" and \
1465	not self.enable2D:
1466	if item in self.orientation_params:
1467	continue
1468	if item in self.param_toFit:
1469	continue
1470	## hide statictext +/-
1471	if len(item) < 4 :
1472	continue
1473	if item[3]!=None and item[3].IsShown():
1474	item[3].Hide()
1475	## hide textcrtl for error after fit
1476	if item[4]!=None and item[4].IsShown():
1477	item[4].Hide()
1478
1479	if len(self.fittable_param)>0:
1480	for item in self.fittable_param:
1481	#Skip t ifhe angle parameters if 1D data
1482	if self.data.__class__.__name__ != "Data2D" and \
1483	not self.enable2D:
1484	if item in self.orientation_params:
1485	continue
1486	if item in self.param_toFit:
1487	continue
1488	if len(item) < 4 :
1489	continue
1490	## hide statictext +/-
1491	if item[3]!=None and item[3].IsShown():
1492	item[3].Hide()
1493	## hide textcrtl for error after fit
1494	if item[4]!=None and item[4].IsShown():
1495	item[4].Hide()
1496	return
1497
1498	def _get_defult_custom_smear(self):
1499	"""
1500	Get the defult values for custum smearing.
1501	"""
1502	# get the default values
1503	if self.dxl == None: self.dxl = 0.0
1504	if self.dxw == None: self.dxw = ""
1505	if self.dx_min == None: self.dx_min = SMEAR_SIZE_L
1506	if self.dx_max == None: self.dx_max = SMEAR_SIZE_H
1507
1508	def _get_smear_info(self):
1509	"""
1510	Get the smear info from data.
1511
1512	:return: self.smear_type, self.dq_l and self.dq_r,
1513	respectively the type of the smear, dq_min and
1514	dq_max for pinhole smear data
1515	while dxl and dxw for slit smear
1516
1517	"""
1518
1519	# default
1520	self.smear_type = None
1521	self.dq_l = None
1522	self.dq_r = None
1523	data = self.data
1524	if self.data is None:
1525	return
1526	elif self.data.__class__.__name__ == "Data2D" or \
1527	self.enable2D:
1528	if data.dqx_data == None or data.dqy_data ==None:
1529	return
1530	elif self.current_smearer != None and (data.dqx_data.any()!=0) and \
1531	(data.dqx_data.any()!=0):
1532	self.smear_type = "Pinhole2d"
1533	self.dq_l = format_number(numpy.average(data.dqx_data))
1534	self.dq_r = format_number(numpy.average(data.dqy_data))
1535	return
1536	else:
1537	return
1538	# check if it is pinhole smear and get min max if it is.
1539	if data.dx != None and all(data.dx !=0):
1540	self.smear_type = "Pinhole"
1541	self.dq_l = data.dx[0]
1542	self.dq_r = data.dx[-1]
1543
1544	# check if it is slit smear and get min max if it is.
1545	elif data.dxl != None or data.dxw != None:
1546	self.smear_type = "Slit"
1547	if data.dxl != None and all(data.dxl !=0):
1548	self.dq_l = data.dxl[0]
1549	if data.dxw != None and all(data.dxw !=0):
1550	self.dq_r = data.dxw[0]
1551	#return self.smear_type,self.dq_l,self.dq_r
1552
1553	def _show_smear_sizer(self):
1554	"""
1555	Show only the sizers depending on smear selection
1556	"""
1557	# smear disabled
1558	if self.disable_smearer.GetValue():
1559	self.smear_description_none.Show(True)
1560	# 2Dsmear
1561	elif self._is_2D():
1562	self.smear_description_accuracy_type.Show(True)
1563	self.smear_accuracy.Show(True)
1564	self.smear_description_accuracy_type.Show(True)
1565	self.smear_description_2d.Show(True)
1566	self.smear_description_2d_x.Show(True)
1567	self.smear_description_2d_y.Show(True)
1568	if self.pinhole_smearer.GetValue():
1569	self.smear_pinhole_min.Show(True)
1570	self.smear_pinhole_max.Show(True)
1571	# smear from data
1572	elif self.enable_smearer.GetValue():
1573
1574	self.smear_description_dqdata.Show(True)
1575	if self.smear_type != None:
1576	self.smear_description_smear_type.Show(True)
1577	if self.smear_type == 'Slit':
1578	self.smear_description_slit_height.Show(True)
1579	self.smear_description_slit_width.Show(True)
1580	elif self.smear_type == 'Pinhole':
1581	self.smear_description_pin_min.Show(True)
1582	self.smear_description_pin_max.Show(True)
1583	self.smear_description_smear_type.Show(True)
1584	self.smear_description_type.Show(True)
1585	self.smear_data_left.Show(True)
1586	self.smear_data_right.Show(True)
1587	# custom pinhole smear
1588	elif self.pinhole_smearer.GetValue():
1589	if self.smear_type == 'Pinhole':
1590	self.smear_message_new_p.Show(True)
1591	self.smear_description_pin_min.Show(True)
1592	self.smear_description_pin_max.Show(True)
1593
1594	self.smear_pinhole_min.Show(True)
1595	self.smear_pinhole_max.Show(True)
1596	# custom slit smear
1597	elif self.slit_smearer.GetValue():
1598	self.smear_message_new_s.Show(True)
1599	self.smear_description_slit_height.Show(True)
1600	self.smear_slit_height.Show(True)
1601	self.smear_description_slit_width.Show(True)
1602	self.smear_slit_width.Show(True)
1603
1604	def _hide_all_smear_info(self):
1605	"""
1606	Hide all smearing messages in the set_smearer sizer
1607	"""
1608	self.smear_description_none.Hide()
1609	self.smear_description_dqdata.Hide()
1610	self.smear_description_type.Hide()
1611	self.smear_description_smear_type.Hide()
1612	self.smear_description_accuracy_type.Hide()
1613	self.smear_description_2d_x.Hide()
1614	self.smear_description_2d_y.Hide()
1615	self.smear_description_2d.Hide()
1616
1617	self.smear_accuracy.Hide()
1618	self.smear_data_left.Hide()
1619	self.smear_data_right.Hide()
1620	self.smear_description_pin_min.Hide()
1621	self.smear_pinhole_min.Hide()
1622	self.smear_description_pin_max.Hide()
1623	self.smear_pinhole_max.Hide()
1624	self.smear_description_slit_height.Hide()
1625	self.smear_slit_height.Hide()
1626	self.smear_description_slit_width.Hide()
1627	self.smear_slit_width.Hide()
1628	self.smear_message_new_p.Hide()
1629	self.smear_message_new_s.Hide()
1630
1631	def _set_accuracy_list(self):
1632	"""
1633	Set the list of an accuracy in 2D custum smear: Xhigh, High, Med, or Low
1634	"""
1635	# list of accuracy choices
1636	list = ['Low','Med','High','Xhigh']
1637	for idx in range(len(list)):
1638	self.smear_accuracy.Append(list[idx],idx)
1639
1640	def _set_fun_box_list(self,fun_box):
1641	"""
1642	Set the list of func for multifunctional models
1643	"""
1644	# Check if it is multi_functional model
1645	if self.model.__class__ not in self.model_list_box["Multi-Functions"] \
1646	and not self.temp_multi_functional:
1647	return None
1648	# Get the func name list
1649	list = self.model.fun_list
1650	if len(list) == 0:
1651	return None
1652	# build function (combo)box
1653	ind = 0
1654	while(ind < len(list)):
1655	for key, val in list.iteritems():
1656	if (val == ind):
1657	fun_box.Append(key,val)
1658	break
1659	ind += 1
1660
1661	def _on_select_accuracy(self,event):
1662	"""
1663	Select an accuracy in 2D custom smear: Xhigh, High, Med, or Low
1664	"""
1665	#event.Skip()
1666	# Check if the accuracy is same as before
1667	#self.smear2d_accuracy = event.GetEventObject().GetValue()
1668	self.smear2d_accuracy = self.smear_accuracy.GetValue()
1669	if self.pinhole_smearer.GetValue():
1670	self.onPinholeSmear(event=None)
1671	else:
1672	self.onSmear(event=None)
1673	if self.current_smearer != None:
1674	self.current_smearer.set_accuracy(accuracy =
1675	self.smear2d_accuracy)
1676	event.Skip()
1677
1678	def _on_fun_box(self,event):
1679	"""
1680	Select an func: Erf,Rparabola,LParabola
1681	"""
1682	fun_val = None
1683	fun_box = event.GetEventObject()
1684	name = fun_box.Name
1685	value = fun_box.GetValue()
1686	if self.model.fun_list.has_key(value):
1687	fun_val = self.model.fun_list[value]
1688
1689	self.model.setParam(name,fun_val)
1690	# save state
1691	self._copy_parameters_state(self.str_parameters,
1692	self.state.str_parameters)
1693	# update params
1694	self._update_paramv_on_fit()
1695	# draw
1696	self._draw_model()
1697	self.Refresh()
1698	# get ready for new event
1699	event.Skip()
1700
1701	def _onMask(self, event):
1702	"""
1703	Build a panel to allow to edit Mask
1704	"""
1705
1706	from sans.guiframe.local_perspectives.plotting.masking \
1707	import MaskPanel as MaskDialog
1708
1709	self.panel = MaskDialog(base=self, data=self.data, id=wx.NewId())
1710	#self.panel.Bind(wx.EVT_CLOSE, self._draw_masked_model)
1711	self.panel.ShowModal()
1712	#wx.PostEvent(self.parent, event)
1713
1714	def _draw_masked_model(self, event):
1715	"""
1716	Draw model image w/mask
1717	"""
1718	#event.Skip()
1719	is_valid_qrange = self._update_paramv_on_fit()
1720
1721	if is_valid_qrange and self.model != None:
1722	#self.panel.Show(0)
1723	#self.panel.Destroy() # frame
1724	self.panel.MakeModal(False)
1725	event.Skip()
1726	# try re draw the model plot if it exists
1727	self._draw_model()
1728	self.set_npts2fit()
1729	elif self.model == None:
1730	#self.panel.Show(0)
1731	#self.panel.Destroy() # frame
1732	self.panel.MakeModal(False)
1733	event.Skip()
1734	self.set_npts2fit()
1735	msg= "No model is found on updating MASK in the model plot... "
1736	wx.PostEvent(self.parent.parent, StatusEvent(status = msg ))
1737	else:
1738	event.Skip()
1739	msg = ' Please consider your Q range, too.'
1740	self.panel.ShowMessage(msg)
1741
1742
1743	def _set_smear(self, data):
1744	"""
1745	"""
1746	if data is None:
1747	return
1748	self.current_smearer = smear_selection(data, self.model)
1749	self.disable_smearer.SetValue(True)
1750	if self.current_smearer == None:
1751	self.enable_smearer.Disable()
1752	else:
1753	self.enable_smearer.Enable()
1754
1755	def _mac_sleep(self, sec=0.2):
1756	"""
1757	Give sleep to MAC
1758	"""
1759	if self.is_mac:
1760	time.sleep(sec)
1761
1762	def get_view_mode(self):
1763	"""
1764	return True if the panel allow 2D or False if 1D
1765	"""
1766	return self.enable2D
1767
1768	def compute_data_set_range(self, data):
1769	"""
1770	find the range that include all data in the set
1771	return the minimum and the maximum values
1772	"""
1773	if data is not None:
1774	qmin, qmax, npts = self.compute_data_range(data)
1775	self.qmin_data_set = min(self.qmin_data_set, qmin)
1776	self.qmax_data_set = max(self.qmax_data_set, qmax)
1777	self.npts_data_set += npts
1778
1779	def compute_data_range(self, data):
1780	"""
1781	compute the minimum and the maximum range of the data
1782	return the npts contains in data
1783	:param data:
1784	"""
1785	qmin, qmax, npts = None, None, None
1786	if data is not None:
1787	if not hasattr(data,"data"):
1788	qmin = min(data.x)
1789	# Maximum value of data
1790	qmax = max(data.x)
1791	npts = len(data.x)
1792	else:
1793	qmin = 0
1794	x = max(math.fabs(data.xmin), math.fabs(data.xmax))
1795	y = max(math.fabs(data.ymin), math.fabs(data.ymax))
1796	## Maximum value of data
1797	qmax = math.sqrt(xx + yy)
1798	npts = len(data.data)
1799	return qmin, qmax, npts
1800
1801
1802	def set_data(self, data):
1803	"""
1804	reset the current data
1805	"""
1806	from sans.guiframe.dataFitting import check_data_validity
1807	id = None
1808	flag = False
1809	is_data = False
1810	if self.data is not None:
1811	is_data = check_data_validity(self.data)
1812	if not is_data and data is not None:
1813	flag = True
1814	if data is not None:
1815	id = data.id
1816	if is_data:
1817	self.graph_id = self.data.group_id
1818	flag = (data.id != self.data.id)
1819	self.data = data
1820	if check_data_validity(data):
1821	self.graph_id = data.group_id
1822	self.data.group_id = self.graph_id
1823
1824	if self.data is None:
1825	data_min = ""
1826	data_max = ""
1827	data_name = ""
1828	self._set_bookmark_flag(False)
1829	self._keep.Enable(False)
1830	self._set_save_flag(False)
1831	else:
1832	if self.model != None:
1833	self._set_bookmark_flag(True)
1834	self._keep.Enable(True)
1835
1836	self._set_save_flag(True)
1837	self._set_preview_flag(True)
1838
1839	self._set_smear(data)
1840	# more disables for 2D
1841	if self.data.__class__.__name__ == "Data2D" or \
1842	self.enable2D:
1843	self.slit_smearer.Disable()
1844	self.pinhole_smearer.Enable(True)
1845	self.default_mask = copy.deepcopy(self.data.mask)
1846	if self.data.err_data == None or\
1847	(self.data.err_data == 1).all() or\
1848	(self.data.err_data == 0).all():
1849	self.dI_didata.Enable(False)
1850	self.dI_noweight.SetValue(True)
1851	self.weightbt_string = self.dI_noweight.GetLabelText()
1852	else:
1853	self.dI_didata.Enable(True)
1854	self.dI_didata.SetValue(True)
1855	self.weightbt_string = self.dI_didata.GetLabelText()
1856	else:
1857	self.slit_smearer.Enable(True)
1858	self.pinhole_smearer.Enable(True)
1859	if self.data.dy == None or\
1860	(self.data.dy == 1).all() or\
1861	(self.data.dy == 0).all():
1862	self.dI_didata.Enable(False)
1863	self.dI_noweight.SetValue(True)
1864	self.weightbt_string = self.dI_noweight.GetLabelText()
1865	else:
1866	self.dI_didata.Enable(True)
1867	self.dI_didata.SetValue(True)
1868	self.weightbt_string = self.dI_didata.GetLabelText()
1869	# Enable weighting radio uttons
1870	self.dI_noweight.Enable(True)
1871	self.dI_sqrdata.Enable(True)
1872	self.dI_idata.Enable(True)
1873
1874	self.formfactorbox.Enable()
1875	self.structurebox.Enable()
1876	data_name = self.data.name
1877	data_min, data_max = self.qmin_data_set, self.qmax_data_set
1878	npts = self.npts_data_set
1879	#set maximum range for x in linear scale
1880	if not hasattr(self.data, "data"): #Display only for 1D data fit
1881	self.btEditMask.Disable()
1882	self.EditMask_title.Disable()
1883	else:
1884	self.btEditMask.Enable()
1885	self.EditMask_title.Enable()
1886	self.Npts_total.SetValue(str(npts))
1887	#default:number of data points selected to fit
1888	self.Npts_fit.SetValue(str(npts))
1889	self.Npts_total.SetEditable(False)
1890	self.Npts_total.SetBackgroundColour(\
1891	self.GetParent().GetBackgroundColour())
1892
1893	self.Npts_total.Bind(wx.EVT_MOUSE_EVENTS, self._npts_click)
1894	self.dataSource.SetValue(data_name)
1895	self.qmin_x = data_min
1896	self.qmax_x = data_max
1897	#self.minimum_q.SetValue(str(data_min))
1898	#self.maximum_q.SetValue(str(data_max))
1899	if data_min is None:
1900	data_min = ""
1901	if data_max is None:
1902	data_max = ""
1903	self.qmin.SetValue(str(data_min))
1904	self.qmax.SetValue(str(data_max))
1905	self.qmin.SetBackgroundColour("white")
1906	self.qmax.SetBackgroundColour("white")
1907	self.state.data = data
1908	self.state.qmin = self.qmin_x
1909	self.state.qmax = self.qmax_x
1910	self.enable_fit_button()
1911	# send graph_id to page_finder
1912	self._manager.set_graph_id(uid=self.uid, graph_id=self.graph_id)
1913	#update model plot with new data information
1914	if flag:
1915	#set model view button
1916	if self.data.__class__.__name__ == "Data2D":
1917	self.enable2D = True
1918	self.model_view.SetLabel("2D Mode")
1919	else:
1920	self.enable2D = False
1921	self.model_view.SetLabel("1D Mode")
1922	self.model_view.Disable()
1923	#replace data plot on combo box selection
1924	#by removing the previous selected data
1925	wx.PostEvent(self._manager.parent, NewPlotEvent(action="remove",
1926	group_id=self.graph_id, id=id))
1927	#plot the current selected data
1928	wx.PostEvent(self._manager.parent, NewPlotEvent(plot=self.data,
1929	title=str(self.data.title)))
1930	#self._manager.store_data(uid=self.uid, data_list=self.data_list,
1931	# caption=self.window_name)
1932	self._draw_model()
1933
1934	def _npts_click(self, event):
1935	"""
1936	Prevent further handling of the mouse event on Npts_total
1937	by not calling Skip().
1938	"""
1939	pass
1940
1941	def reset_page(self, state,first=False):
1942	"""
1943	reset the state
1944	"""
1945	self.reset_page_helper(state)
1946	#import sans.guiframe.gui_manager
1947	#evt = ModelEventbox(model=state.model)
1948	#wx.PostEvent(self.event_owner, evt)
1949
1950	if self.engine_type != None:
1951	self._manager._on_change_engine(engine=self.engine_type)
1952
1953	self.select_param(event = None)
1954	#Save state_fit
1955	self.save_current_state_fit()
1956	self._lay_out()
1957	self.Refresh()
1958
1959	def get_range(self):
1960	"""
1961	return the fitting range
1962	"""
1963	return float(self.qmin_x) , float(self.qmax_x)
1964
1965	def get_npts2fit(self):
1966	"""
1967	return numbers of data points within qrange
1968
1969	:Note: This is for Park where chi2 is not normalized by Npts of fit
1970
1971	"""
1972	if self.data is None:
1973	return
1974	npts2fit = 0
1975	qmin,qmax = self.get_range()
1976	if self.data.__class__.__name__ == "Data2D" or \
1977	self.enable2D:
1978	radius= numpy.sqrt( self.data.qx_data*self.data.qx_data +
1979	self.data.qy_data*self.data.qy_data )
1980	index_data = (self.qmin_x <= radius)&(radius<= self.qmax_x)
1981	index_data= (index_data)&(self.data.mask)
1982	index_data = (index_data)&(numpy.isfinite(self.data.data))
1983	npts2fit = len(self.data.data[index_data])
1984	else:
1985	for qx in self.data.x:
1986	if qx >= qmin and qx <= qmax:
1987	npts2fit += 1
1988	return npts2fit
1989
1990	def set_npts2fit(self):
1991	"""
1992	setValue Npts for fitting
1993	"""
1994	self.Npts_fit.SetValue(str(self.get_npts2fit()))
1995
1996	def get_chi2(self):
1997	"""
1998	return the current chi2
1999	"""
2000	return self.tcChi.GetValue()
2001
2002	def get_param_list(self):
2003	"""
2004	:return self.param_toFit: list containing references to TextCtrl
2005	checked.Theses TextCtrl will allow reference to parameters to fit.
2006
2007	:raise: if return an empty list of parameter fit will nnote work
2008	properly so raise ValueError,"missing parameter to fit"
2009	"""
2010	if self.param_toFit !=[]:
2011	return self.param_toFit
2012	else:
2013	msg = "missing parameters to fit"
2014	wx.MessageBox(msg, 'warning')
2015	return False
2016	#raise ValueError,"missing parameters to fit"
2017
2018	def onsetValues(self, chisqr, p_name, out, cov):
2019	"""
2020	Build the panel from the fit result
2021
2022	:param chisqr: Value of the goodness of fit metric
2023	:param p_name: the name of parameters
2024	:param out: list of parameter with the best value found during fitting
2025	:param cov: Covariance matrix
2026
2027	"""
2028	if out == None or not numpy.isfinite(chisqr):
2029	raise ValueError,"Fit error occured..."
2030
2031	is_modified = False
2032	has_error = False
2033	dispersity = ''
2034
2035	#Hide textctrl boxes of errors.
2036	self._clear_Err_on_Fit()
2037
2038	#Check if chi2 is finite
2039	if chisqr != None and numpy.isfinite(chisqr):
2040	#format chi2
2041	if self.engine_type == "park":
2042	npt_fit = float(self.get_npts2fit())
2043	if npt_fit > 0:
2044	chisqr =chisqr/npt_fit
2045	chi2 = format_number(chisqr, True)
2046	self.tcChi.SetValue(chi2)
2047	self.tcChi.Refresh()
2048	else:
2049	self.tcChi.SetValue("-")
2050
2051	#Hide error title
2052	if self.text2_3.IsShown() and not self.is_mac:
2053	self.text2_3.Hide()
2054
2055	try:
2056	if self.enable_disp.GetValue():
2057	if hasattr(self,"text_disp_1" ):
2058	if self.text_disp_1 != None and not self.is_mac:
2059	self.text_disp_1.Hide()
2060	except:
2061	dispersity = None
2062	pass
2063	#set the panel when fit result are float not list
2064	if out.__class__== numpy.float64:
2065	self.param_toFit[0][2].SetValue(format_number(out, True))
2066
2067	if self.param_toFit[0][4].IsShown and not self.is_mac:
2068	self.param_toFit[0][4].Hide()
2069	if cov !=None :
2070	self.text2_3.Show(True)
2071	try:
2072	if self.enable_disp.GetValue():
2073	if hasattr(self,"text_disp_1" ):
2074	if self.text_disp_1 !=None:
2075	self.text_disp_1.Show(True)
2076	except:
2077	pass
2078
2079	if cov[0]==None or not numpy.isfinite(cov[0]):
2080	if self.param_toFit[0][3].IsShown and not self.is_mac:
2081	self.param_toFit[0][3].Hide()
2082	else:
2083	self.param_toFit[0][3].Show(True)
2084	self.param_toFit[0][4].Show(True)
2085	self.param_toFit[0][4].SetValue(format_number(cov[0], True))
2086	has_error = True
2087	else:
2088
2089	i = 0
2090	#Set the panel when fit result are list
2091	for item in self.param_toFit:
2092	if len(item)>5 and item != None:
2093	## reset error value to initial state
2094	if not self.is_mac:
2095	item[3].Hide()
2096	item[4].Hide()
2097
2098	for ind in range(len(out)):
2099
2100	if item[1] == p_name[ind]:
2101	break
2102	if len(out)<=len(self.param_toFit) and out[ind] !=None:
2103	val_out = format_number(out[ind], True)
2104	item[2].SetValue(val_out)
2105
2106
2107	if(cov !=None):
2108
2109	try:
2110	if dispersity !=None:
2111	if self.enable_disp.GetValue():
2112	if hasattr(self,"text_disp_1" ):
2113	if self.text_disp_1!=None:
2114	if not self.text_disp_1.IsShown()\
2115	and not self.is_mac:
2116	self.text_disp_1.Show(True)
2117	except:
2118	pass
2119
2120	if cov[ind]!=None :
2121	if numpy.isfinite(float(cov[ind])):
2122	val_err = format_number(cov[ind], True)
2123	if not self.is_mac:
2124	item[3].Show(True)
2125	item[4].Show(True)
2126	item[4].SetValue(val_err)
2127
2128	has_error = True
2129	i += 1
2130	#Show error title when any errors displayed
2131	if has_error:
2132	if not self.text2_3.IsShown():
2133	self.text2_3.Show(True)
2134	## save current state
2135	self.save_current_state()
2136
2137	#self._lay_out()
2138	if not self.is_mac:
2139	self.Layout()
2140	self.Refresh()
2141	self._mac_sleep(0.1)
2142	#plot model ( when drawing, do not update chisqr value again)
2143	self._draw_model(update_chisqr=False)
2144	#PostStatusEvent
2145	#msg = "Fit completed!dddd "
2146	#wx.PostEvent(self._manager.parent, StatusEvent(status=msg))
2147
2148	def onWeighting(self, event):
2149	"""
2150	On Weighting radio button event, sets the weightbt_string
2151	"""
2152	self.weightbt_string = event.GetEventObject().GetLabelText()
2153
2154	def onPinholeSmear(self, event):
2155	"""
2156	Create a custom pinhole smear object that will change the way residuals
2157	are compute when fitting
2158
2159	:Note: accuracy is given by strings'High','Med', 'Low' FOR 2d,
2160	None for 1D
2161
2162	"""
2163
2164	#if self.check_invalid_panel():
2165	# return
2166	if self.model ==None:
2167	self.disable_smearer.SetValue(True)
2168	msg="Please select a Model first..."
2169	wx.MessageBox(msg, 'Info')
2170	wx.PostEvent(self._manager.parent, StatusEvent(status=\
2171	"Smear: %s"%msg))
2172	return
2173
2174	# Need update param values
2175	self._update_paramv_on_fit()
2176
2177	# msg default
2178	msg = None
2179	if event != None:
2180	tcrtl= event.GetEventObject()
2181	# event case of radio button
2182	if tcrtl.GetValue()== True:
2183	self.dx_min = 0.0
2184	self.dx_max = 0.0
2185	is_new_pinhole = True
2186	else:
2187	is_new_pinhole = self._is_changed_pinhole()
2188	else:
2189	is_new_pinhole = True
2190	# if any value is changed
2191	if is_new_pinhole:
2192	msg = self._set_pinhole_smear()
2193	# hide all silt sizer
2194	self._hide_all_smear_info()
2195
2196	##Calculate chi2
2197	temp_smearer = self.current_smearer
2198	#self.compute_chisqr(smearer= temp_smearer)
2199
2200	# show relevant slit sizers
2201	self._show_smear_sizer()
2202
2203	self.sizer_set_smearer.Layout()
2204	self.Layout()
2205
2206	if event != None:
2207	event.Skip()
2208	#self._undo.Enable(True)
2209	self.save_current_state()
2210	event = PageInfoEvent(page = self)
2211	wx.PostEvent(self.parent, event)
2212
2213	def _is_changed_pinhole(self):
2214	"""
2215	check if any of pinhole smear is changed
2216
2217	:return: True or False
2218
2219	"""
2220	# get the values
2221	pin_min = self.smear_pinhole_min.GetValue()
2222	pin_max = self.smear_pinhole_max.GetValue()
2223
2224	# Check changes in slit width
2225	try:
2226	dx_min = float(pin_min)
2227	except:
2228	return True
2229	if self.dx_min != dx_min:
2230	return True
2231
2232	# Check changes in slit heigth
2233	try:
2234	dx_max = float(pin_max)
2235	except:
2236	return True
2237	if self.dx_max != dx_max:
2238	return True
2239	return False
2240
2241	def _set_pinhole_smear(self):
2242	"""
2243	Set custom pinhole smear
2244
2245	:return: msg
2246
2247	"""
2248	# copy data
2249	data = copy.deepcopy(self.data)
2250	if self._is_2D():
2251	self.smear_type = 'Pinhole2d'
2252	len_data = len(data.data)
2253	data.dqx_data = numpy.zeros(len_data)
2254	data.dqy_data = numpy.zeros(len_data)
2255	else:
2256	self.smear_type = 'Pinhole'
2257	len_data = len(data.x)
2258	data.dx = numpy.zeros(len_data)
2259	data.dxl = None
2260	data.dxw = None
2261	msg = None
2262
2263	get_pin_min = self.smear_pinhole_min
2264	get_pin_max = self.smear_pinhole_max
2265
2266	if not check_float(get_pin_min):
2267	get_pin_min.SetBackgroundColour("pink")
2268	msg= "Model Error:wrong value entered!!!"
2269	elif not check_float(get_pin_max ):
2270	get_pin_max.SetBackgroundColour("pink")
2271	msg= "Model Error:wrong value entered!!!"
2272	else:
2273	if len_data < 2: len_data = 2
2274	self.dx_min = float(get_pin_min.GetValue())
2275	self.dx_max = float(get_pin_max.GetValue())
2276	if self.dx_min < 0:
2277	get_pin_min.SetBackgroundColour("pink")
2278	msg= "Model Error:This value can not be negative!!!"
2279	elif self.dx_max <0:
2280	get_pin_max.SetBackgroundColour("pink")
2281	msg= "Model Error:This value can not be negative!!!"
2282	elif self.dx_min != None and self.dx_max != None:
2283	if self._is_2D():
2284	data.dqx_data[data.dqx_data==0] = self.dx_min
2285	data.dqy_data[data.dqy_data==0] = self.dx_max
2286	elif self.dx_min == self.dx_max:
2287	data.dx[data.dx==0] = self.dx_min
2288	else:
2289	step = (self.dx_max - self.dx_min)/(len_data-1)
2290	data.dx = numpy.arange(self.dx_min,self.dx_max+step/1.1,
2291	step)
2292	elif self.dx_min != None:
2293	if self._is_2D(): data.dqx_data[data.dqx_data==0] = self.dx_min
2294	else: data.dx[data.dx==0] = self.dx_min
2295	elif self.dx_max != None:
2296	if self._is_2D(): data.dqy_data[data.dqy_data==0] = self.dx_max
2297	else: data.dx[data.dx==0] = self.dx_max
2298	self.current_smearer = smear_selection(data, self.model)
2299	# 2D need to set accuracy
2300	if self._is_2D():
2301	self.current_smearer.set_accuracy(accuracy = \
2302	self.smear2d_accuracy)
2303
2304	if msg != None:
2305	wx.PostEvent(self._manager.parent, StatusEvent(status = msg ))
2306	else:
2307	get_pin_min.SetBackgroundColour("white")
2308	get_pin_max.SetBackgroundColour("white")
2309	## set smearing value whether or not the data contain the smearing info
2310
2311	self._manager.set_smearer(smearer=self.current_smearer,
2312	fid=self.data.id,
2313	qmin=float(self.qmin_x),
2314	qmax= float(self.qmax_x),
2315	enable_smearer=not self.disable_smearer.GetValue(),
2316	uid=self.uid)
2317	return msg
2318
2319	def update_pinhole_smear(self):
2320	"""
2321	called by kill_focus on pinhole TextCntrl
2322	to update the changes
2323
2324	:return: False when wrong value was entered
2325
2326	"""
2327	# msg default
2328	msg = None
2329	# check if any value is changed
2330	if self._is_changed_pinhole():
2331	msg = self._set_pinhole_smear()
2332	#self._undo.Enable(True)
2333	self.save_current_state()
2334
2335	if msg != None:
2336	return False
2337	else:
2338	return True
2339
2340	def onSlitSmear(self, event):
2341	"""
2342	Create a custom slit smear object that will change the way residuals
2343	are compute when fitting
2344	"""
2345
2346	#if self.check_invalid_panel():
2347	# return
2348
2349	if self.model ==None:
2350	self.disable_smearer.SetValue(True)
2351
2352	msg="Please select a Model first..."
2353	wx.MessageBox(msg, 'Info')
2354	wx.PostEvent(self._manager.parent, StatusEvent(status=\
2355	"Smear: %s"%msg))
2356	return
2357
2358	# Need update param values
2359	self._update_paramv_on_fit()
2360
2361	# msg default
2362	msg = None
2363	# for event given
2364	if event != None:
2365	tcrtl= event.GetEventObject()
2366	# event case of radio button
2367	if tcrtl.GetValue():
2368	self.dxl = 0.0
2369	self.dxw = 0.0
2370	is_new_slit = True
2371	else:
2372	is_new_slit = self._is_changed_slit()
2373	else:
2374	is_new_slit = True
2375
2376	# if any value is changed
2377	if is_new_slit:
2378	msg = self._set_slit_smear()
2379
2380	# hide all silt sizer
2381	self._hide_all_smear_info()
2382	##Calculate chi2
2383	#self.compute_chisqr(smearer= self.current_smearer)
2384	# show relevant slit sizers
2385	self._show_smear_sizer()
2386	self.sizer_set_smearer.Layout()
2387	self.Layout()
2388
2389	if event != None:
2390	event.Skip()
2391	#self._undo.Enable(True)
2392	self.save_current_state()
2393	event = PageInfoEvent(page = self)
2394	wx.PostEvent(self.parent, event)
2395	if msg != None:
2396	wx.PostEvent(self._manager.parent, StatusEvent(status = msg))
2397
2398	def _is_changed_slit(self):
2399	"""
2400	check if any of slit lengths is changed
2401
2402	:return: True or False
2403
2404	"""
2405	# get the values
2406	width = self.smear_slit_width.GetValue()
2407	height = self.smear_slit_height.GetValue()
2408
2409	# check and change the box bg color if it was pink
2410	# but it should be white now
2411	# because this is the case that _set_slit_smear() will not handle
2412	if height.lstrip().rstrip()=="":
2413	self.smear_slit_height.SetBackgroundColour(wx.WHITE)
2414	if width.lstrip().rstrip()=="":
2415	self.smear_slit_width.SetBackgroundColour(wx.WHITE)
2416
2417	# Check changes in slit width
2418	if width == "":
2419	dxw = 0.0
2420	else:
2421	try:
2422	dxw = float(width)
2423	except:
2424	return True
2425	if self.dxw != dxw:
2426	return True
2427
2428	# Check changes in slit heigth
2429	if height == "":
2430	dxl = 0.0
2431	else:
2432	try:
2433	dxl = float(height)
2434	except:
2435	return True
2436	if self.dxl != dxl:
2437	return True
2438
2439	return False
2440
2441	def _set_slit_smear(self):
2442	"""
2443	Set custom slit smear
2444
2445	:return: message to inform the user about the validity
2446	of the values entered for slit smear
2447	"""
2448	if self.data.__class__.__name__ == "Data2D" or \
2449	self.enable2D:
2450	return
2451	temp_smearer = None
2452	# make sure once more if it is smearer
2453	data = copy.deepcopy(self.data)
2454	data_len = len(data.x)
2455	data.dx = None
2456	data.dxl = None
2457	data.dxw = None
2458	msg = None
2459
2460	try:
2461	self.dxl = float(self.smear_slit_height.GetValue())
2462	data.dxl = self.dxl* numpy.ones(data_len)
2463	self.smear_slit_height.SetBackgroundColour(wx.WHITE)
2464	except:
2465	data.dxl = numpy.zeros(data_len)
2466	if self.smear_slit_height.GetValue().lstrip().rstrip()!="":
2467	self.smear_slit_height.SetBackgroundColour("pink")
2468	msg = "Wrong value entered... "
2469	else:
2470	self.smear_slit_height.SetBackgroundColour(wx.WHITE)
2471	try:
2472	self.dxw = float(self.smear_slit_width.GetValue())
2473	self.smear_slit_width.SetBackgroundColour(wx.WHITE)
2474	data.dxw = self.dxw* numpy.ones(data_len)
2475	except:
2476	data.dxw = numpy.zeros(data_len)
2477	if self.smear_slit_width.GetValue().lstrip().rstrip()!="":
2478	self.smear_slit_width.SetBackgroundColour("pink")
2479	msg = "Wrong Fit value entered... "
2480	else:
2481	self.smear_slit_width.SetBackgroundColour(wx.WHITE)
2482
2483	self.current_smearer = smear_selection(data, self.model)
2484	#temp_smearer = self.current_smearer
2485	## set smearing value whether or not the data contain the smearing info
2486	self._manager.set_smearer(smearer=self.current_smearer,
2487	fid=self.data.id,
2488	qmin=float(self.qmin_x),
2489	qmax= float(self.qmax_x),
2490	enable_smearer=not self.disable_smearer.GetValue(),
2491	uid=self.uid)
2492	return msg
2493
2494	def update_slit_smear(self):
2495	"""
2496	called by kill_focus on pinhole TextCntrl
2497	to update the changes
2498
2499	:return: False when wrong value was entered
2500
2501	"""
2502	# msg default
2503	msg = None
2504	# check if any value is changed
2505	if self._is_changed_slit():
2506	msg = self._set_slit_smear()
2507	#self._undo.Enable(True)
2508	self.save_current_state()
2509
2510	if msg != None:
2511	return False
2512	else:
2513	return True
2514
2515	def onSmear(self, event):
2516	"""
2517	Create a smear object that will change the way residuals
2518	are compute when fitting
2519	"""
2520	if event != None:
2521	event.Skip()
2522	if self.data is None:
2523	return
2524
2525	if self.model == None:
2526	self.disable_smearer.SetValue(True)
2527	msg="Please select a Model first..."
2528	wx.MessageBox(msg, 'Info')
2529	wx.PostEvent(self._manager.parent, StatusEvent(status=\
2530	"Smear: %s"%msg))
2531	return
2532
2533	# Need update param values
2534	self._update_paramv_on_fit()
2535
2536	temp_smearer = None
2537	self._get_smear_info()
2538
2539	#renew smear sizer
2540	if self.smear_type != None:
2541	self.smear_description_smear_type.SetValue(str(self.smear_type))
2542	self.smear_data_left.SetValue(str(self.dq_l))
2543	self.smear_data_right.SetValue(str(self.dq_r))
2544
2545	self._hide_all_smear_info()
2546
2547	data = copy.deepcopy(self.data)
2548	# make sure once more if it is smearer
2549	self.current_smearer = smear_selection(data, self.model)
2550
2551	if self.enable_smearer.GetValue():
2552	if hasattr(self.data,"dxl"):
2553
2554	msg= ": Resolution smearing parameters"
2555	if hasattr(self.data,"dxw"):
2556	msg= ": Slit smearing parameters"
2557	if self.current_smearer ==None:
2558	wx.PostEvent(self._manager.parent, StatusEvent(status=\
2559	"Data contains no smearing information"))
2560	else:
2561	wx.PostEvent(self._manager.parent, StatusEvent(status=\
2562	"Data contains smearing information"))
2563
2564	#self.smear_description_dqdata.Show(True)
2565	self.smear_data_left.Show(True)
2566	self.smear_data_right.Show(True)
2567	temp_smearer= self.current_smearer
2568	elif self.disable_smearer.GetValue():
2569	self.smear_description_none.Show(True)
2570
2571	self._show_smear_sizer()
2572
2573	self.sizer_set_smearer.Layout()
2574	self.Layout()
2575	## set smearing value whether or not the data contain the smearing info
2576	self._manager.set_smearer(uid=self.uid, smearer=temp_smearer,
2577	fid=self.data.id,
2578	qmin=float(self.qmin_x),
2579	qmax=float(self.qmax_x),
2580	enable_smearer=not self.disable_smearer.GetValue(),
2581	draw=True)
2582
2583	self.state.enable_smearer= self.enable_smearer.GetValue()
2584	self.state.disable_smearer=self.disable_smearer.GetValue()
2585	self.state.pinhole_smearer = self.pinhole_smearer.GetValue()
2586	self.state.slit_smearer = self.slit_smearer.GetValue()
2587
2588	def on_complete_chisqr(self, event):
2589	"""
2590	Display result chisqr on the panel
2591	:event: activated by fitting/ complete after draw
2592	"""
2593	try:
2594	if event == None:
2595	output= "-"
2596	elif not numpy.isfinite(event.output):
2597	output= "-"
2598	else:
2599	output = event.output
2600	self.tcChi.SetValue(str(format_number(output, True)))
2601	self.state.tcChi = self.tcChi.GetValue()
2602	except:
2603	pass
2604
2605
2606	def select_all_param(self,event):
2607	"""
2608	set to true or false all checkBox given the main checkbox value cb1
2609	"""
2610	self.param_toFit=[]
2611	if self.parameters !=[]:
2612	if self.cb1.GetValue():
2613	for item in self.parameters:
2614	## for data2D select all to fit
2615	if self.data.__class__.__name__== "Data2D" or \
2616	self.enable2D:
2617	item[0].SetValue(True)
2618	self.param_toFit.append(item )
2619	else:
2620	## for 1D all parameters except orientation
2621	if not item in self.orientation_params:
2622	item[0].SetValue(True)
2623	self.param_toFit.append(item )
2624	#if len(self.fittable_param)>0:
2625	for item in self.fittable_param:
2626	if self.data.__class__.__name__== "Data2D" or \
2627	self.enable2D:
2628	item[0].SetValue(True)
2629	self.param_toFit.append(item )
2630	try:
2631	if len(self.values[item[1]]) > 0:
2632	item[0].SetValue(False)
2633	except:
2634	pass
2635
2636	else:
2637	## for 1D all parameters except orientation
2638	if not item in self.orientation_params_disp:
2639	item[0].SetValue(True)
2640	self.param_toFit.append(item )
2641	try:
2642	if len(self.values[item[1]]) > 0:
2643	item[0].SetValue(False)
2644	except:
2645	pass
2646
2647	else:
2648	for item in self.parameters:
2649	item[0].SetValue(False)
2650	for item in self.fittable_param:
2651	item[0].SetValue(False)
2652	self.param_toFit=[]
2653
2654	self.save_current_state_fit()
2655
2656	if event !=None:
2657	#self._undo.Enable(True)
2658	## post state to fit panel
2659	event = PageInfoEvent(page = self)
2660	wx.PostEvent(self.parent, event)
2661	param2fit = []
2662	for item in self.param_toFit:
2663	if item[0]:
2664	param2fit.append(item[1])
2665	self.parent._manager.set_param2fit(self.uid, param2fit)
2666
2667
2668	def select_param(self,event):
2669	"""
2670	Select TextCtrl checked for fitting purpose and stores them
2671	in self.param_toFit=[] list
2672	"""
2673	self.param_toFit=[]
2674	for item in self.parameters:
2675	#Skip t ifhe angle parameters if 1D data
2676	if self.data.__class__.__name__ != "Data2D" and\
2677	not self.enable2D:
2678	if item in self.orientation_params:
2679	continue
2680	#Select parameters to fit for list of primary parameters
2681	if item[0].GetValue():
2682	if not (item in self.param_toFit):
2683	self.param_toFit.append(item )
2684	else:
2685	#remove parameters from the fitting list
2686	if item in self.param_toFit:
2687	self.param_toFit.remove(item)
2688
2689	#Select parameters to fit for list of fittable parameters
2690	# with dispersion
2691	for item in self.fittable_param:
2692	#Skip t ifhe angle parameters if 1D data
2693	if self.data.__class__.__name__ != "Data2D" and\
2694	not self.enable2D:
2695	if item in self.orientation_params:
2696	continue
2697	if item[0].GetValue():
2698	if not (item in self.param_toFit):
2699	self.param_toFit.append(item)
2700	else:
2701	#remove parameters from the fitting list
2702	if item in self.param_toFit:
2703	self.param_toFit.remove(item)
2704
2705	#Calculate num. of angle parameters
2706	if self.data.__class__.__name__ == "Data2D" or \
2707	self.enable2D:
2708	len_orient_para = 0
2709	else:
2710	len_orient_para = len(self.orientation_params) #assume even len
2711	#Total num. of angle parameters
2712	if len(self.fittable_param) > 0:
2713	len_orient_para *= 2
2714	#Set the value of checkbox that selected every checkbox or not
2715	if len(self.parameters)+len(self.fittable_param)-len_orient_para ==\
2716	len(self.param_toFit):
2717	self.cb1.SetValue(True)
2718	else:
2719	self.cb1.SetValue(False)
2720	self.save_current_state_fit()
2721	if event !=None:
2722	#self._undo.Enable(True)
2723	## post state to fit panel
2724	event = PageInfoEvent(page = self)
2725	wx.PostEvent(self.parent, event)
2726
2727	param2fit = []
2728	for item in self.param_toFit:
2729	if item[0]:
2730	param2fit.append(item[1])
2731	self.parent._manager.set_param2fit(self.uid, param2fit)
2732
2733	def set_model_param_sizer(self, model):
2734	"""
2735	Build the panel from the model content
2736
2737	:param model: the model selected in combo box for fitting purpose
2738
2739	"""
2740	self.sizer3.Clear(True)
2741	self.parameters = []
2742	self.str_parameters = []
2743	self.param_toFit=[]
2744	self.fittable_param=[]
2745	self.fixed_param=[]
2746	self.orientation_params=[]
2747	self.orientation_params_disp=[]
2748
2749	if model ==None:
2750	self.sizer3.Layout()
2751	self.SetupScrolling()
2752	return
2753	## the panel is drawn using the current value of the fit engine
2754	if self.engine_type==None and self._manager !=None:
2755	self.engine_type= self._manager._return_engine_type()
2756
2757	box_description= wx.StaticBox(self, -1,str("Model Parameters"))
2758	boxsizer1 = wx.StaticBoxSizer(box_description, wx.VERTICAL)
2759	sizer = wx.GridBagSizer(5,5)
2760	## save the current model
2761	self.model = model
2762
2763	keys = self.model.getParamList()
2764	#list of dispersion paramaters
2765	self.disp_list=self.model.getDispParamList()
2766
2767	def custom_compare(a,b):
2768	"""
2769	Custom compare to order, first by alphabets then second by number.
2770	"""
2771	# number at the last digit
2772	a_last = a[len(a)-1]
2773	b_last = b[len(b)-1]
2774	# default
2775	num_a = None
2776	num_b = None
2777	# split the names
2778	a2 = a.lower().split('_')
2779	b2 = b.lower().split('_')
2780	# check length of a2, b2
2781	len_a2 = len(a2)
2782	len_b2 = len(b2)
2783	# check if it contains a int number(<10)
2784	try:
2785	num_a = int(a_last)
2786	except: pass
2787	try:
2788	num_b = int(b_last)
2789	except: pass
2790	# Put 'scale' near the top; happens
2791	# when numbered param name exists
2792	if a == 'scale':
2793	return -1
2794	# both have a number
2795	if num_a != None and num_b != None:
2796	if num_a > num_b: return -1
2797	# same number
2798	elif num_a == num_b:
2799	# different last names
2800	if a2[len_a2-1] != b2[len_b2-1] and num_a != 0:
2801	return -cmp(a2[len_a2-1], b2[len_b2-1])
2802	else:
2803	return cmp(a, b)
2804	else: return 1
2805	# one of them has a number
2806	elif num_a != None: return 1
2807	elif num_b != None: return -1
2808	# no numbers
2809	else: return cmp(a.lower(), b.lower())
2810
2811
2812	keys.sort(custom_compare)
2813
2814	iy = 0
2815	ix = 0
2816	select_text = "Select All"
2817	self.cb1 = wx.CheckBox(self, -1,str(select_text), (10, 10))
2818	wx.EVT_CHECKBOX(self, self.cb1.GetId(), self.select_all_param)
2819	self.cb1.SetToolTipString("To check/uncheck all the boxes below.")
2820	self.cb1.SetValue(True)
2821
2822	sizer.Add(self.cb1,(iy, ix),(1,1),\
2823	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 5)
2824	ix +=1
2825	self.text2_2 = wx.StaticText(self, -1, 'Value')
2826	sizer.Add(self.text2_2,(iy, ix),(1,1),\
2827	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
2828	ix +=2
2829	self.text2_3 = wx.StaticText(self, -1, 'Error')
2830	sizer.Add(self.text2_3,(iy, ix),(1,1),\
2831	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
2832	if not self.is_mac:
2833	self.text2_3.Hide()
2834	ix +=1
2835	self.text2_min = wx.StaticText(self, -1, 'Min')
2836	sizer.Add(self.text2_min,(iy, ix),(1,1),\
2837	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
2838	#self.text2_min.Hide()
2839	ix +=1
2840	self.text2_max = wx.StaticText(self, -1, 'Max')
2841	sizer.Add(self.text2_max,(iy, ix),(1,1),\
2842	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
2843	#self.text2_max.Hide()
2844	ix += 1
2845	self.text2_4 = wx.StaticText(self, -1, '[Units]')
2846	sizer.Add(self.text2_4,(iy, ix),(1,1),\
2847	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
2848	self.text2_4.Hide()
2849
2850	for item in keys:
2851	if not item in self.disp_list and not item in \
2852	self.model.orientation_params:
2853
2854	##prepare a spot to store errors
2855	if not self.model.details.has_key(item):
2856	self.model.details [item] = ["",None,None]
2857
2858	iy += 1
2859	ix = 0
2860	if (self.model.__class__ in \
2861	self.model_list_box["Multi-Functions"] or \
2862	self.temp_multi_functional)\
2863	and (item in self.model.non_fittable):
2864	non_fittable_name = wx.StaticText(self, -1, item )
2865	sizer.Add(non_fittable_name,(iy, ix),(1,1),\
2866	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 21)
2867	## add parameter value
2868	ix += 1
2869	value= self.model.getParam(item)
2870	if len(self.model.fun_list) > 0:
2871	num = item.split('_')[1][5:7]
2872	fun_box = wx.ComboBox(self, -1,size=(100,-1),
2873	style=wx.CB_READONLY, name = '%s'% item)
2874	self._set_fun_box_list(fun_box)
2875	fun_box.SetSelection(0)
2876	#self.fun_box.SetToolTipString("A function
2877	# describing the interface")
2878	wx.EVT_COMBOBOX(fun_box,-1, self._on_fun_box)
2879	else:
2880	fun_box = self.ModelTextCtrl(self, -1,
2881	size=(_BOX_WIDTH,20),
2882	style=wx.TE_PROCESS_ENTER, name ='%s'% item)
2883	fun_box.SetToolTipString(\
2884	"Hit 'Enter' after typing to update the plot.")
2885	fun_box.SetValue(format_number(value, True))
2886	sizer.Add(fun_box, (iy,ix),(1,1), wx.EXPAND)
2887	self.str_parameters.append([None,item, fun_box,
2888	None, None, None,
2889	None, None])
2890
2891
2892	else:
2893	## add parameters name with checkbox for selecting to fit
2894	cb = wx.CheckBox(self, -1, item )
2895	cb.SetToolTipString(" Check mark to fit.")
2896	#cb.SetValue(True)
2897	wx.EVT_CHECKBOX(self, cb.GetId(), self.select_param)
2898
2899	sizer.Add( cb,( iy, ix),(1,1),
2900	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 5)
2901
2902	## add parameter value
2903	ix += 1
2904	value= self.model.getParam(item)
2905	ctl1 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH,20),
2906	style=wx.TE_PROCESS_ENTER)
2907	ctl1.SetToolTipString(\
2908	"Hit 'Enter' after typing to update the plot.")
2909	ctl1.SetValue(format_number(value, True))
2910	sizer.Add(ctl1, (iy,ix),(1,1), wx.EXPAND)
2911	## text to show error sign
2912	ix += 1
2913	text2=wx.StaticText(self, -1, '+/-')
2914	sizer.Add(text2,(iy, ix),(1,1),\
2915	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
2916	if not self.is_mac:
2917	text2.Hide()
2918	ix += 1
2919	ctl2 = wx.TextCtrl(self, -1, size=(_BOX_WIDTH/1.2,20), style=0)
2920	sizer.Add(ctl2, (iy,ix),(1,1),
2921	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
2922	if not self.is_mac:
2923	ctl2.Hide()
2924
2925	ix += 1
2926	ctl3 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH/1.9,20),
2927	style=wx.TE_PROCESS_ENTER,
2928	text_enter_callback = self._onparamRangeEnter)
2929
2930	sizer.Add(ctl3, (iy,ix),(1,1),
2931	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
2932
2933	ix += 1
2934	ctl4 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH/1.9,20),
2935	style=wx.TE_PROCESS_ENTER,
2936	text_enter_callback = self._onparamRangeEnter)
2937	sizer.Add(ctl4, (iy,ix),(1,1),
2938	wx.EXPAND\|wx.FIXED_MINSIZE, 0)
2939
2940	ix +=1
2941	# Units
2942	if self.model.details.has_key(item):
2943	units = wx.StaticText(self, -1,
2944	self.model.details[item][0], style=wx.ALIGN_LEFT)
2945	else:
2946	units = wx.StaticText(self, -1, "", style=wx.ALIGN_LEFT)
2947	sizer.Add(units, (iy,ix),(1,1),
2948	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
2949
2950	##[cb state, name, value, "+/-", error of fit, min, max , units]
2951	self.parameters.append([cb,item, ctl1,
2952	text2,ctl2, ctl3, ctl4,units])
2953
2954	iy+=1
2955	sizer.Add((10,10),(iy,ix),(1,1),
2956	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 15)
2957
2958	# type can be either Guassian or Array
2959	if len(self.model.dispersion.values())>0:
2960	type= self.model.dispersion.values()[0]["type"]
2961	else:
2962	type = "Gaussian"
2963
2964	iy += 1
2965	ix = 0
2966	#Add tile for orientational angle
2967	for item in keys:
2968	if item in self.model.orientation_params:
2969	orient_angle = wx.StaticText(self, -1, '[For 2D only]:')
2970	sizer.Add(orient_angle,(iy, ix),(1,1),
2971	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 15)
2972	if not self.data.__class__.__name__ == "Data2D" and \
2973	not self.enable2D:
2974	orient_angle.Hide()
2975	else:
2976	orient_angle.Show(True)
2977	break
2978
2979	#For Gaussian only
2980	if type.lower() != "array":
2981	for item in self.model.orientation_params:
2982	if not item in self.disp_list:
2983	##prepare a spot to store min max
2984	if not self.model.details.has_key(item):
2985	self.model.details [item] = ["",None,None]
2986
2987	iy += 1
2988	ix = 0
2989	## add parameters name with checkbox for selecting to fit
2990	cb = wx.CheckBox(self, -1, item )
2991	cb.SetValue(False)
2992	cb.SetToolTipString("Check mark to fit")
2993	wx.EVT_CHECKBOX(self, cb.GetId(), self.select_param)
2994	if self.data.__class__.__name__ == "Data2D" or \
2995	self.enable2D:
2996	cb.Show(True)
2997	else:
2998	cb.Hide()
2999	sizer.Add( cb,( iy, ix),(1,1),
3000	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 5)
3001
3002	## add parameter value
3003	ix += 1
3004	value= self.model.getParam(item)
3005	ctl1 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH,20),
3006	style=wx.TE_PROCESS_ENTER)
3007	ctl1.SetToolTipString(\
3008	"Hit 'Enter' after typing to update the plot.")
3009	ctl1.SetValue(format_number(value, True))
3010	if self.data.__class__.__name__ == "Data2D" or \
3011	self.enable2D:
3012	ctl1.Show(True)
3013	else:
3014	ctl1.Hide()
3015	sizer.Add(ctl1, (iy,ix),(1,1), wx.EXPAND)
3016	## text to show error sign
3017	ix += 1
3018	text2=wx.StaticText(self, -1, '+/-')
3019	sizer.Add(text2,(iy, ix),(1,1),\
3020	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
3021
3022	text2.Hide()
3023	ix += 1
3024	ctl2 = wx.TextCtrl(self, -1, size=(_BOX_WIDTH/1.2,20), style=0)
3025	sizer.Add(ctl2, (iy,ix),(1,1),
3026	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
3027
3028	ctl2.Hide()
3029
3030
3031	ix += 1
3032	ctl3 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH/1.8,20),
3033	style=wx.TE_PROCESS_ENTER,
3034	text_enter_callback = self._onparamRangeEnter)
3035
3036	sizer.Add(ctl3, (iy,ix),(1,1),
3037	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
3038	ctl3.Hide()
3039
3040	ix += 1
3041	ctl4 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH/1.8,20),
3042	style=wx.TE_PROCESS_ENTER,
3043	text_enter_callback = self._onparamRangeEnter)
3044	sizer.Add(ctl4, (iy,ix),(1,1),
3045	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
3046
3047	ctl4.Hide()
3048
3049	if self.data.__class__.__name__ == "Data2D" or \
3050	self.enable2D:
3051	if self.is_mac:
3052	text2.Show(True)
3053	ctl2.Show(True)
3054	ctl3.Show(True)
3055	ctl4.Show(True)
3056
3057	ix +=1
3058	# Units
3059	if self.model.details.has_key(item):
3060	units = wx.StaticText(self, -1,
3061	self.model.details[item][0],
3062	style=wx.ALIGN_LEFT)
3063	else:
3064	units = wx.StaticText(self, -1, "", style=wx.ALIGN_LEFT)
3065	if self.data.__class__.__name__ == "Data2D" or \
3066	self.enable2D:
3067	units.Show(True)
3068
3069	else:
3070	units.Hide()
3071
3072	sizer.Add(units, (iy,ix),(1,1),
3073	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
3074
3075	##[cb state, name, value, "+/-", error of fit,min,max,units]
3076	self.parameters.append([cb,item, ctl1,
3077	text2,ctl2, ctl3, ctl4,units])
3078	self.orientation_params.append([cb,item, ctl1,
3079	text2,ctl2, ctl3, ctl4,units])
3080
3081	iy+=1
3082
3083	#Display units text on panel
3084	for item in keys:
3085	if self.model.details.has_key(item):
3086	self.text2_4.Show()
3087	#Fill the list of fittable parameters
3088	self.select_all_param(event=None)
3089
3090	self.save_current_state_fit()
3091	boxsizer1.Add(sizer)
3092	self.sizer3.Add(boxsizer1,0, wx.EXPAND \| wx.ALL, 10)
3093	self.sizer3.Layout()
3094	self.Layout()
3095	#self.Refresh()
3096
3097	def on_right_down(self, event):
3098	"""
3099	Get key stroke event
3100	"""
3101	if self.data == None:
3102	return
3103	# Figuring out key combo: Cmd for copy, Alt for paste
3104	if event.AltDown() and event.ShiftDown():
3105	self._manager.show_ftol_dialog()
3106	flag = True
3107	elif event.AltDown() or event.ShiftDown():
3108	flag = False
3109	else:
3110	return
3111	# make event free
3112	event.Skip()
3113	# messages depending on the flag
3114	if not flag:
3115	msg = " Could not open ftol dialog;"
3116	msg += " Check if the Scipy fit engine is selected in the menubar."
3117	infor = 'warning'
3118	# inform msg to wx
3119	wx.PostEvent( self.parent.parent,
3120	StatusEvent(status= msg, info=infor))
3121
3122
3123	def _onModel2D(self, event):
3124	"""
3125	toggle view of model from 1D to 2D or 2D from 1D
3126	"""
3127	if self.model_view.GetLabelText() == "Show 2D":
3128	self.model_view.SetLabel("Show 1D")
3129	self.enable2D = True
3130
3131	else:
3132	self.model_view.SetLabel("Show 2D")
3133	self.enable2D = False
3134	self.create_default_data()
3135	self.set_model_param_sizer(self.model)
3136	self._set_sizer_dispersion()
3137	self._set_smear_buttons()
3138	self._draw_model()
3139
3140
3141	self.state.enable2D = copy.deepcopy(self.enable2D)
3142
3143	def _set_smear_buttons(self):
3144	"""
3145	Set semarer radio buttons
3146	"""
3147	# more disables for 2D
3148	if self.data.__class__.__name__ == "Data2D" or \
3149	self.enable2D:
3150	self.slit_smearer.Disable()
3151	self.pinhole_smearer.Enable(True)
3152	self.default_mask = copy.deepcopy(self.data.mask)
3153	else:
3154	self.slit_smearer.Enable(True)
3155	self.pinhole_smearer.Enable(True)
3156
3157
3158	class BGTextCtrl(wx.TextCtrl):
3159	"""
3160	Text control used to display outputs.
3161	No editing allowed. The background is
3162	grayed out. User can't select text.
3163	"""
3164	def __init__(self, args, *kwds):
3165	wx.TextCtrl.__init__(self, args, *kwds)
3166	self.SetEditable(False)
3167	self.SetBackgroundColour(self.GetParent().parent.GetBackgroundColour())
3168
3169	# Bind to mouse event to avoid text highlighting
3170	# The event will be skipped once the call-back
3171	# is called.
3172	self.Bind(wx.EVT_MOUSE_EVENTS, self._click)
3173
3174	def _click(self, event):
3175	"""
3176	Prevent further handling of the mouse event
3177	by not calling Skip().
3178	"""
3179	pass
3180

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SasView

source: sasview/fittingview/src/sans/perspectives/fitting/fitpage.py @ e89c135

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