invariant_panel.py @ 04295ea

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 04295ea was 04295ea, checked in by Jae Cho <jhjcho@…>, 13 years ago
This fixes the problems w/ status file open/close
Property mode set to `100644`
File size: 75.9 KB

Line
1	"""
2	This module provide GUI for the neutron scattering length density calculator
3
4	"""
5	import copy
6	import time
7	import sys
8	import os
9	import wx
10	from wx.lib.scrolledpanel import ScrolledPanel
11	from sans.invariant import invariant
12	from sans.guiframe.utils import format_number
13	from sans.guiframe.utils import check_float
14	from sans.guiframe.events import StatusEvent
15	from sans.guiframe.events import AppendBookmarkEvent
16	from .invariant_details import InvariantDetailsPanel
17	from .invariant_details import InvariantContainer
18	from .invariant_widgets import OutputTextCtrl
19	from .invariant_widgets import InvTextCtrl
20	from .invariant_state import InvariantState as IState
21	from sans.guiframe.panel_base import PanelBase
22	# The minimum q-value to be used when extrapolating
23	Q_MINIMUM = 1e-5
24	# The maximum q-value to be used when extrapolating
25	Q_MAXIMUM = 10
26	# the ratio of maximum q value/(qmax of data) to plot the theory data
27	Q_MAXIMUM_PLOT = 3
28	# the number of points to consider during fit
29	NPTS = 10
30	#Default value for background
31	BACKGROUND = 0.0
32	#default value for the scale
33	SCALE = 1.0
34	#default value of the contrast
35	CONTRAST = 1.0
36	#default value of the power used for power law
37	POWER = 4.0
38	#Invariant panel size
39	_BOX_WIDTH = 76
40
41
42	if sys.platform.count("win32") > 0:
43	_STATICBOX_WIDTH = 450
44	PANEL_WIDTH = 500
45	PANEL_HEIGHT = 700
46	FONT_VARIANT = 0
47	else:
48	_STATICBOX_WIDTH = 480
49	PANEL_WIDTH = 530
50	PANEL_HEIGHT = 700
51	FONT_VARIANT = 1
52
53
54	class InvariantPanel(ScrolledPanel, PanelBase):
55	"""
56	Provides the Invariant GUI.
57	"""
58	## Internal nickname for the window, used by the AUI manager
59	window_name = "Invariant"
60	## Name to appear on the window title bar
61	window_caption = "Invariant"
62	## Flag to tell the AUI manager to put this panel in the center pane
63	CENTER_PANE = True
64	def __init__(self, parent, data=None, manager=None, args, *kwds):
65	kwds["size"] = (PANEL_WIDTH, PANEL_HEIGHT)
66	kwds["style"] = wx.FULL_REPAINT_ON_RESIZE
67	ScrolledPanel.__init__(self, parent=parent, args, *kwds)
68	PanelBase.__init__(self, parent)
69	self.SetupScrolling()
70	#Font size
71	self.SetWindowVariant(variant=FONT_VARIANT)
72	#Object that receive status event
73	self.parent = parent
74	#plug-in using this panel
75	self._manager = manager
76	#Data uses for computation
77	self._data = data
78	self._scale = SCALE
79	self._background = BACKGROUND
80	self._bmark = None
81	self.bookmark_num = 0
82
83	self._set_bookmark_menu()
84	#Init state
85	self.set_state()
86	# default flags for state
87	self.new_state = False
88	self.is_state_data = False
89	self.is_power_out = False
90
91	#container of invariant value
92	self.inv_container = None
93	#Draw the panel
94	self._do_layout()
95	self.reset_panel()
96	self._reset_state_list()
97
98	if self.parent is not None:
99	msg = ""
100	wx.PostEvent(self.parent,StatusEvent(status=msg, info="info"))
101
102	## Default file location for save
103	self._default_save_location = os.getcwd()
104	self._set_bookmark_flag(False)
105
106	def get_data(self):
107	"""
108	"""
109	return self._manager.get_data()
110
111	def get_state(self):
112	"""
113	"""
114	return self.state
115
116	def set_data(self, data):
117	"""
118	Set the data
119	"""
120	self._data = data
121	#edit the panel
122	if self._data is not None:
123	self.get_state_by_num(0)
124	data_name = self._data.name
125	data_qmin = min (self._data.x)
126	data_qmax = max (self._data.x)
127	self.data_name_tcl.SetValue(str(data_name))
128	self.data_min_tcl.SetValue(str(data_qmin))
129	self.data_max_tcl.SetValue(str(data_qmax))
130	self.reset_panel()
131	self.compute_invariant(event=None)
132	self.state.file = self._data.name
133	#Reset the list of states
134	self.state.data = copy.deepcopy(data)
135	self._set_save_flag(True)
136	self._set_preview_flag(False)
137	self._reset_state_list()
138	self._set_bookmark_flag(True)
139	return True
140
141	def set_message(self):
142	"""
143	Display warning message if available
144	"""
145	if self.inv_container is not None:
146	if self.inv_container.existing_warning:
147	msg = "Warning! Computations on invariant require your "
148	msg += "attention.\n Please click on Details button."
149	self.hint_msg_txt.SetForegroundColour("red")
150
151	wx.PostEvent(self.parent,
152	StatusEvent(status=msg,info="warning"))
153	else:
154	msg = "For more information, click on Details button."
155	self.hint_msg_txt.SetForegroundColour("black")
156	wx.PostEvent(self.parent,
157	StatusEvent(status=msg,info="info"))
158	self.hint_msg_txt.SetLabel(msg)
159
160
161	def set_manager(self, manager):
162	"""
163	set value for the manager
164	"""
165	self._manager = manager
166
167	def set_state(self,state=None,data=None):
168	"""
169	set state when loading it from a .inv/.svs file
170	"""
171
172	if state == None and data == None:
173	self.state = IState()
174	elif state == None or data == None: return
175	else:
176	new_state = copy.deepcopy(state)
177	self.new_state = True
178	if not self.set_data(data):
179	return
180
181	self.state = new_state
182	self.state.file = data.name
183
184	num = self.state.saved_state['state_num']
185	if num > 0 :
186	self._set_undo_flag(True)
187	if num < len(state.state_list) - 1:
188	self._set_redo_flag(True)
189
190	# get bookmarks
191	self.bookmark_num = len(self.state.bookmark_list)
192	total_bookmark_num = self.bookmark_num + 1
193
194	for ind in range(1,total_bookmark_num):
195	#bookmark_num = ind
196	value = self.state.bookmark_list[ind]
197	name = "%d] bookmarked at %s on %s"% (ind,value[0], value[1])
198	# append it to menu
199	id = wx.NewId()
200	self.popUpMenu.Append(id,name,str(''))
201	wx.EVT_MENU(self, id, self._back_to_bookmark)
202	wx.PostEvent(self.parent, AppendBookmarkEvent(title=name,
203	hint='',
204	handler=self._back_to_bookmark))
205
206	self.get_state_by_num(state_num=str(num))
207
208	self._get_input_list()
209	#make sure that the data is reset (especially
210	# when loaded from a inv file)
211	self.state.data = self._data
212	self._set_preview_flag(False)
213	self.new_state = False
214	self.is_state_data = False
215
216	def clear_panel(self):
217	"""
218	Clear panel to defaults, used by set_state of manager
219	"""
220
221	self._data = None
222	# default data testctrl
223	self.hint_msg_txt.SetLabel('')
224	data_name = ''
225	data_qmin = ''
226	data_qmax = ''
227	self.data_name_tcl.SetValue(str(data_name))
228	self.data_min_tcl.SetValue(str(data_qmin))
229	self.data_max_tcl.SetValue(str(data_qmax))
230	#reset output textctrl
231	self._reset_output()
232	#reset panel
233	self.reset_panel()
234	#reset state w/o data
235	self.set_state()
236	# default flags for state
237	self.new_state = False
238	self.is_state_data = False
239	self.is_power_out = False
240
241	def get_background(self):
242	"""
243	return the background textcrtl value as a float
244	"""
245	background = self.background_tcl.GetValue().lstrip().rstrip()
246	if background == "":
247	raise ValueError, "Need a background"
248	if check_float(self.background_tcl):
249	return float(background)
250	else:
251	msg = "Receive invalid value for background : %s" % (background)
252	raise ValueError, msg
253
254	def get_scale(self):
255	"""
256	return the scale textcrtl value as a float
257	"""
258	scale = self.scale_tcl.GetValue().lstrip().rstrip()
259	if scale == "":
260	raise ValueError, "Need a background"
261	if check_float(self.scale_tcl):
262	if float(scale) <= 0.0:
263	self.scale_tcl.SetBackgroundColour("pink")
264	self.scale_tcl.Refresh()
265	msg = "Receive invalid value for scale: %s" % (scale)
266	raise ValueError, msg
267	return float(scale)
268	else:
269	raise ValueError, "Receive invalid value for scale : %s" % (scale)
270
271	def get_contrast(self):
272	"""
273	return the contrast textcrtl value as a float
274	"""
275	par_str = self.contrast_tcl.GetValue().strip()
276	contrast = None
277	if par_str !=" " and check_float(self.contrast_tcl):
278	contrast = float(par_str)
279	return contrast
280
281	def get_extrapolation_type(self, low_q, high_q):
282	"""
283	"""
284	extrapolation = None
285	if low_q and not high_q:
286	extrapolation = "low"
287	elif not low_q and high_q:
288	extrapolation = "high"
289	elif low_q and high_q:
290	extrapolation = "both"
291	return extrapolation
292
293	def get_porod_const(self):
294	"""
295	return the porod constant textcrtl value as a float
296	"""
297	par_str = self.porod_constant_tcl.GetValue().strip()
298	porod_const = None
299	if par_str != "" and check_float(self.porod_constant_tcl):
300	porod_const = float(par_str)
301	return porod_const
302
303	def get_volume(self, inv, contrast, extrapolation):
304	"""
305	"""
306	if contrast is not None:
307	try:
308	v, dv = inv.get_volume_fraction_with_error(contrast=contrast,
309	extrapolation=extrapolation)
310	self.volume_tcl.SetValue(format_number(v))
311	self.volume_err_tcl.SetValue(format_number(dv))
312	except:
313	self.volume_tcl.SetValue(format_number(None))
314	self.volume_err_tcl.SetValue(format_number(None))
315	msg = "Error occurred computing volume "
316	msg += " fraction: %s" % sys.exc_value
317	wx.PostEvent(self.parent, StatusEvent(status=msg,
318	info="error",
319	type="stop"))
320
321	def get_surface(self, inv, contrast, porod_const, extrapolation):
322	"""
323	"""
324	if contrast is not None and porod_const is not None:
325	try:
326	s, ds = inv.get_surface_with_error(contrast=contrast,
327	porod_const=porod_const,
328	extrapolation=extrapolation)
329	self.surface_tcl.SetValue(format_number(s))
330	self.surface_err_tcl.SetValue(format_number(ds))
331	except:
332	self.surface_tcl.SetValue(format_number(None))
333	self.surface_err_tcl.SetValue(format_number(None))
334	msg = "Error occurred computing "
335	msg += "specific surface: %s" % sys.exc_value
336	wx.PostEvent(self.parent, StatusEvent(status=msg, info="error",
337	type="stop"))
338
339	def get_total_qstar(self, inv, extrapolation):
340	"""
341	"""
342	try:
343	qstar_total, qstar_total_err = inv.get_qstar_with_error(extrapolation)
344
345	self.invariant_total_tcl.SetValue(format_number(qstar_total))
346	self.invariant_total_err_tcl.SetValue(format_number(qstar_total_err))
347	self.inv_container.qstar_total = qstar_total
348	self.inv_container.qstar_total_err = qstar_total_err
349
350	except:
351	self.inv_container.qstar_total = "Error"
352	self.inv_container.qstar_total_err = "Error"
353	self.invariant_total_tcl.SetValue(format_number(None))
354	self.invariant_total_err_tcl.SetValue(format_number(None))
355	msg = "Error occurred computing invariant using"
356	msg += " extrapolation: %s" % sys.exc_value
357	wx.PostEvent(self.parent, StatusEvent(status= msg, type="stop"))
358
359	def get_low_qstar(self, inv, npts_low, low_q=False):
360	"""
361	"""
362	if low_q:
363	try:
364	qstar_low, qstar_low_err = inv.get_qstar_low()
365	self.inv_container.qstar_low = qstar_low
366	self.inv_container.qstar_low_err = qstar_low_err
367	extrapolated_data = inv.get_extra_data_low(npts_in=npts_low)
368	power_low = inv.get_extrapolation_power(range='low')
369	if self.power_law_low.GetValue():
370	self.power_low_tcl.SetValue(format_number(power_low))
371	self._manager.plot_theory(data=extrapolated_data,
372	name="Low-Q extrapolation")
373	except:
374	raise
375	self.inv_container.qstar_low = "ERROR"
376	self.inv_container.qstar_low_err = "ERROR"
377	self._manager.plot_theory(name="Low-Q extrapolation")
378	msg = "Error occurred computing low-Q "
379	msg += "invariant: %s" % sys.exc_value
380	wx.PostEvent(self.parent,
381	StatusEvent(status=msg, type="stop"))
382	else:
383	try:
384	self._manager.plot_theory(name="Low-Q extrapolation")
385	except: pass
386
387	def get_high_qstar(self, inv, high_q=False):
388	"""
389	"""
390	if high_q:
391	try:
392	qmax_plot = Q_MAXIMUM_PLOT * max(self._data.x)
393	if qmax_plot > Q_MAXIMUM: qmax_plot = Q_MAXIMUM
394	qstar_high, qstar_high_err = inv.get_qstar_high()
395	self.inv_container.qstar_high = qstar_high
396	self.inv_container.qstar_high_err = qstar_high_err
397	power_high = inv.get_extrapolation_power(range='high')
398	self.power_high_tcl.SetValue(format_number(power_high))
399	high_out_data = inv.get_extra_data_high(q_end=qmax_plot,
400	npts=500)
401	self._manager.plot_theory(data=high_out_data,
402	name="High-Q extrapolation")
403	except:
404	#raise
405	self.inv_container.qstar_high = "ERROR"
406	self.inv_container.qstar_high_err = "ERROR"
407	self._manager.plot_theory(name="High-Q extrapolation")
408	msg = "Error occurred computing high-Q "
409	msg += "invariant: %s" % sys.exc_value
410	wx.PostEvent(self.parent, StatusEvent(status=msg,
411	type="stop"))
412	else:
413	try:
414	self._manager.plot_theory(name="High-Q extrapolation")
415	except: pass
416
417	def get_qstar(self, inv):
418	"""
419	"""
420	qstar, qstar_err = inv.get_qstar_with_error()
421	self.inv_container.qstar = qstar
422	self.inv_container.qstar_err = qstar_err
423
424	def set_extrapolation_low(self, inv, low_q=False):
425	"""
426	return float value necessary to compute invariant a low q
427	"""
428	#get funtion
429	if self.guinier.GetValue():
430	function_low = "guinier"
431	# get the function
432	power_low = None #2.0/3.0
433	if self.power_law_low.GetValue():
434	function_low = "power_law"
435	if self.fit_enable_low.GetValue():
436	#set value of power_low to none to allow fitting
437	power_low = None
438	else:
439	power_low = self.power_low_tcl.GetValue().lstrip().rstrip()
440	if check_float(self.power_low_tcl):
441	power_low = float(power_low)
442	else:
443	if low_q :
444	#Raise error only when qstar at low q is requested
445	msg = "Expect float for power at low q, "
446	msg += " got %s" % (power_low)
447	raise ValueError, msg
448
449	#Get the number of points to extrapolated
450	npts_low = self.npts_low_tcl.GetValue().lstrip().rstrip()
451	if check_float(self.npts_low_tcl):
452	npts_low = float(npts_low)
453	else:
454	if low_q:
455	msg = "Expect float for number of points at low q,"
456	msg += " got %s" % (npts_low)
457	raise ValueError, msg
458	#Set the invariant calculator
459	inv.set_extrapolation(range="low", npts=npts_low,
460	function=function_low, power=power_low)
461	return inv, npts_low
462
463
464	def set_extrapolation_high(self, inv, high_q=False):
465	"""
466	return float value necessary to compute invariant a high q
467	"""
468	power_high = None
469	#if self.power_law_high.GetValue():
470	function_high = "power_law"
471	if self.fit_enable_high.GetValue():
472	#set value of power_high to none to allow fitting
473	power_high = None
474	else:
475	power_high = self.power_high_tcl.GetValue().lstrip().rstrip()
476	if check_float(self.power_high_tcl):
477	power_high = float(power_high)
478	else:
479	if high_q :
480	#Raise error only when qstar at high q is requested
481	msg = "Expect float for power at high q,"
482	msg += " got %s" % (power_high)
483	raise ValueError, msg
484
485	npts_high = self.npts_high_tcl.GetValue().lstrip().rstrip()
486	if check_float(self.npts_high_tcl):
487	npts_high = float(npts_high)
488	else:
489	if high_q:
490	msg = "Expect float for number of points at high q,"
491	msg += " got %s" % (npts_high)
492	raise ValueError, msg
493	inv.set_extrapolation(range="high", npts=npts_high,
494	function=function_high, power=power_high)
495	return inv, npts_high
496
497	def display_details(self, event):
498	"""
499	open another panel for more details on invariant calculation
500	"""
501	panel = InvariantDetailsPanel(parent=self,
502	qstar_container=self.inv_container)
503	panel.ShowModal()
504	panel.Destroy()
505	self.button_calculate.SetFocus()
506
507	def compute_invariant(self, event=None):
508	"""
509	compute invariant
510	"""
511	if self._data == None:
512	msg = "\n\nData must be loaded first in order"
513	msg += " to perform a compution..."
514	wx.PostEvent(self.parent, StatusEvent(status=msg))
515	# set a state for this computation for saving
516	elif event != None:
517	self._set_compute_state(state='compute')
518	self._set_bookmark_flag(True)
519	msg= "\n\nStarting a new invariant computation..."
520	wx.PostEvent(self.parent, StatusEvent(status=msg))
521
522
523	if self._data is None:
524	return
525	self.button_details.Enable()
526	#clear outputs textctrl
527	self._reset_output()
528	try:
529	background = self.get_background()
530	scale = self.get_scale()
531	except:
532	msg = "Invariant Error: %s" % (sys.exc_value)
533	wx.PostEvent(self.parent, StatusEvent(status=msg, type="stop"))
534	return
535
536	low_q = self.enable_low_cbox.GetValue()
537	high_q = self.enable_high_cbox.GetValue()
538	temp_data = copy.deepcopy(self._data)
539
540	#set invariant calculator
541	inv = invariant.InvariantCalculator(data=temp_data,
542	background=background,
543	scale=scale)
544	try:
545	inv, npts_low = self.set_extrapolation_low(inv=inv, low_q=low_q)
546	inv, npts_high = self.set_extrapolation_high(inv=inv, high_q=high_q)
547	except:
548	msg = "Error occurred computing invariant: %s" % sys.exc_value
549	wx.PostEvent(self.parent, StatusEvent(status=msg,
550	info="warning",type="stop"))
551	return
552	#check the type of extrapolation
553	extrapolation = self.get_extrapolation_type(low_q=low_q, high_q=high_q)
554
555	#Compute invariant
556	bkg_changed = False
557	scale_changed = False
558	try:
559	self.get_qstar(inv=inv)
560	#if scale_changed or bkg_changed:
561	#self._manager.plot_data(data=inv.get_data())
562
563	except:
564	msg= "Error occurred computing invariant: %s" % sys.exc_value
565	wx.PostEvent(self.parent, StatusEvent(status=msg,
566	info="warning",
567	type="stop"))
568	return
569
570	#Compute qstar extrapolated to low q range
571	self.get_low_qstar(inv=inv, npts_low=npts_low, low_q=low_q)
572	#Compute qstar extrapolated to high q range
573	self.get_high_qstar(inv=inv, high_q=high_q)
574	#Compute qstar extrapolated to total q range and set value to txtcrtl
575	self.get_total_qstar(inv=inv, extrapolation=extrapolation)
576	# Parse additional parameters
577	porod_const = self.get_porod_const()
578	contrast = self.get_contrast()
579
580	try:
581	#Compute volume and set value to txtcrtl
582	self.get_volume(inv=inv, contrast=contrast,
583	extrapolation=extrapolation)
584	#compute surface and set value to txtcrtl
585	except:
586	msg = "Error occurred computing invariant: %s" % sys.exc_value
587	wx.PostEvent(self.parent, StatusEvent(status=msg,
588	info="warning",
589	type="stop"))
590	try:
591	self.get_surface(inv=inv, contrast=contrast,
592	porod_const=porod_const,
593	extrapolation=extrapolation)
594
595	except:
596	msg = "Error occurred computing invariant: %s" % sys.exc_value
597	wx.PostEvent(self.parent, StatusEvent(status=msg,
598	info="warning",
599	type="stop"))
600
601	#compute percentage of each invariant
602	self.inv_container.compute_percentage()
603
604	#display a message
605	self.set_message()
606
607	# reset power_out to default to get ready for another '_on_text'
608	if self.is_power_out == True:
609	self.state.container = copy.deepcopy(self.inv_container)
610	self.state.timestamp= self._get_time_stamp()
611	msg = self.state.__str__()
612	self.state.set_report_string()
613	self.is_power_out = False
614	wx.PostEvent(self.parent, StatusEvent(status = msg ))
615
616	#enable the button_ok for more details
617	self._set_preview_flag(True)
618
619	if event != None:
620	self._set_preview_flag(True)
621	self._set_save_flag(True)
622	wx.PostEvent(self.parent,
623	StatusEvent(status='\nFinished invariant computation...'))
624
625	def on_undo(self,event=None):
626	"""
627	Go back to the previous state
628
629	: param event: undo button event
630	"""
631	if self.state.state_num < 0:
632	return
633	self.is_power_out = True
634	# get the previous state_num
635	pre_state_num = int(self.state.saved_state['state_num']) - 1
636
637	self.get_state_by_num(state_num=str(pre_state_num))
638
639	if float(pre_state_num) <= 0:
640	self._set_undo_flag(False)
641	else:
642	self._set_undo_flag(True)
643	self._set_redo_flag(True)
644	self.is_power_out = False
645	self._info_state_num()
646
647
648	def on_redo(self,event=None):
649	"""
650	Go forward to the previous state
651
652	: param event: redo button event
653	"""
654	self.is_power_out = True
655	# get the next state_num
656	next_state_num = int(self.state.saved_state['state_num']) + 1
657
658	self.get_state_by_num(state_num=str(next_state_num))
659
660	if float(next_state_num)+2 > len(self.state.state_list):
661	self._set_redo_flag(False)
662	else:
663	self._set_redo_flag(True)
664
665	self._set_undo_flag(True)
666	self.is_power_out = False
667	self._info_state_num()
668
669	def on_preview(self, event=None):
670	"""
671	Invoke report dialog panel
672
673	: param event: report button event
674	"""
675	from .report_dialog import ReportDialog
676
677	self.state.set_report_string()
678	report_html_str = self.state.report_str
679	report_text_str = self.state.__str__()
680	report_img = self.state.image
681	report_list = [report_html_str,report_text_str,report_img]
682	dialog = ReportDialog(report_list, None, -1, "")
683	dialog.ShowModal()
684
685	def get_state_by_num(self,state_num=None):
686	"""
687	Get the state given by number
688
689	: param state_num: the given state number
690	"""
691	if state_num == None:
692	return
693
694	backup_state_list = copy.deepcopy(self.state.state_list)
695
696	# get the previous state
697	try:
698	current_state = copy.deepcopy(self.state.state_list[str(state_num)])
699	# get the previously computed state number
700	#(computation before the state changes happened)
701	current_compute_num = str(current_state['compute_num'])
702	except :
703	raise
704	#raise ValueError, "No such state exists in history"
705
706	# get the state at pre_compute_num
707	comp_state = copy.deepcopy(self.state.state_list[current_compute_num])
708
709	# set the parameters
710	for key in comp_state:
711	value = comp_state[key]
712	try:
713	exec "self.%s.SetValue(str(%s))" % (key, value)
714	except TypeError:
715	exec "self.%s.SetValue(%s)" % (key, value)
716	except:
717	pass
718
719	self.compute_invariant(event=None)
720
721	# set the input params at the state at pre_state_num
722	for key in current_state:
723	# set the inputs and boxes
724	value = current_state[key]
725	try:
726	exec 'self.%s.SetValue(str(%s))' % (key, value)
727	except TypeError:
728	exec 'self.%s.SetValue(%s)' % (key, value)
729	except:
730	pass
731
732	self._enable_high_q_section(event=None)
733	self._enable_low_q_section(event=None)
734	self.state.state_list = backup_state_list
735	self.state.saved_state = current_state
736	self.state.state_num = state_num
737
738
739	def get_bookmark_by_num(self, num=None):
740	"""
741	Get the bookmark state given by number
742
743	: param num: the given bookmark number
744
745	"""
746	current_state = {}
747	comp_state = {}
748	backup_state_list = copy.deepcopy(self.state.state_list)
749
750	# get the previous state
751	try:
752	time,date,current_state,comp_state = self.state.bookmark_list[int(num)]
753	except :
754	raise ValueError, "No such bookmark exists"
755
756	# set the parameters
757	for key in comp_state:
758	value = comp_state[key]
759	try:
760	exec "self.%s.SetValue(str(%s))" % (key, value)
761	except TypeError:
762	exec "self.%s.SetValue(%s)" % (key, value)
763	except:
764	pass
765
766	self.compute_invariant(event=None)
767	# set the input params at the state of pre_state_num
768	for key in current_state:
769	value = current_state[key]
770	try:
771	exec 'self.%s.SetValue(str(%s))' % (key, value)
772	except TypeError:
773	exec 'self.%s.SetValue(%s)' % (key, value)
774	except:
775	pass
776	self.state.saved_state = copy.deepcopy(current_state)
777
778	self._enable_high_q_section(event=None)
779	self._enable_low_q_section(event=None)
780	self.state.state_list = backup_state_list
781	#self.state.saved_state = current_state
782	#self.state.state_num = state_num
783
784	def reset_panel(self):
785	"""
786	set the panel at its initial state.
787	"""
788	self.background_tcl.SetValue(str(BACKGROUND))
789	self.scale_tcl.SetValue(str(SCALE))
790	self.contrast_tcl.SetValue(str(CONTRAST))
791	self.porod_constant_tcl.SetValue('')
792	self.npts_low_tcl.SetValue(str(NPTS))
793	self.enable_low_cbox.SetValue(False)
794	self.fix_enable_low.SetValue(True)
795	self.power_low_tcl.SetValue(str(POWER))
796	self.guinier.SetValue(True)
797	self.power_low_tcl.Disable()
798	self.enable_high_cbox.SetValue(False)
799	self.fix_enable_high.SetValue(True)
800	self.power_high_tcl.SetValue(str(POWER))
801	self.npts_high_tcl.SetValue(str(NPTS))
802	self.button_details.Disable()
803	#Change the state of txtcrtl to enable/disable
804	self._enable_low_q_section()
805	#Change the state of txtcrtl to enable/disable
806	self._enable_high_q_section()
807	self._reset_output()
808	self._set_undo_flag(False)
809	self._set_redo_flag(False)
810	self._set_bookmark_flag(False)
811	self._set_preview_flag(False)
812	self._set_save_flag(False)
813	self.button_calculate.SetFocus()
814	#self.SetupScrolling()
815
816	def _set_state(self, event):
817	"""
818	Set the state list
819
820	:param event: rb/cb event
821	"""
822	if event == None:
823	return
824	obj = event.GetEventObject()
825	name = str(obj.GetName())
826	value = str(obj.GetValue())
827	rb_list = [['power_law_low','guinier'],
828	['fit_enable_low','fix_enable_low'],
829	['fit_enable_high','fix_enable_high']]
830
831	try:
832	if value == None or value.lstrip().rstrip() =='':
833	value = 'None'
834	exec 'self.state.%s = %s' % (name, value)
835	exec "self.state.saved_state['%s'] = %s" % (name, value)
836
837	# set the count part of radio button clicked
838	#False for the saved_state
839	for title,content in rb_list:
840	if name == title:
841	name = content
842	value = False
843	elif name == content:
844	name = title
845	value = False
846	exec "self.state.saved_state['%s'] = %s" % (name, value)
847
848	# Instead of changing the future, create a new future.
849	max_state_num = len(self.state.state_list) - 1
850	self.state.saved_state['state_num'] = max_state_num
851
852	self.state.saved_state['state_num'] += 1
853	self.state.state_num = self.state.saved_state['state_num']
854	self.state.state_list[str(self.state.state_num)] = self.state.clone_state()#copy.deepcopy(self.state.saved_state)
855	except:
856	pass
857
858	self._set_undo_flag(True)
859	self._set_redo_flag(False)
860	#event.Skip()
861
862	def _set_compute_state(self,state=None):
863	"""
864	Notify the compute_invariant state to self.state
865
866	: param state: set 'compute' when the computation is
867	activated by the 'compute' button, else None
868
869	"""
870	# reset the default
871	if state != 'compute':
872	self.new_state = False
873	self.is_power_out = False
874	else:
875	self.is_power_out = True
876	# Instead of changing the future, create a new future.
877	max_state_num = len(self.state.state_list)-1
878	self.state.saved_state['state_num'] = max_state_num
879	# A new computation is also A state
880	#copy.deepcopy(self.state.saved_state)
881	temp_saved_states = self.state.clone_state()
882	temp_saved_states['state_num'] += 1
883	self.state.state_num = temp_saved_states['state_num']
884
885
886	# set the state number of the computation
887	if state == 'compute':
888	temp_saved_states['compute_num'] = self.state.state_num
889	self.state.saved_state= copy.deepcopy(temp_saved_states)
890	#copy.deepcopy(self.state.saved_state)
891	self.state.state_list[str(self.state.state_num)] = self.state.clone_state()
892
893	# A computation is a new state, so delete the states with any higher
894	# state numbers
895	for i in range(self.state.state_num+1,len(self.state.state_list)):
896	try:
897	del (self.state.state_list[str(i)])
898	except:
899	pass
900	# Enable the undo button if it was not
901	self._set_undo_flag(True)
902	self._set_redo_flag(False)
903
904	def _reset_state_list(self, data=None):
905	"""
906	Reset the state_list just before data was loading:
907	Used in 'set_current_data()'
908	"""
909	#if data == None: return
910	#temp_state = self.state.clone_state()
911	#copy.deepcopy(self.state.saved_state)
912	# Clear the list
913	self.state.state_list.clear()
914	self.state.bookmark_list.clear()
915	# Set defaults
916	self.state.saved_state['state_num'] = 0
917	self.state.saved_state['compute_num'] = 0
918	if self._data != None:
919	self.state.saved_state['file'] = str(self._data.name)
920	else:
921	self.state.saved_state['file'] = 'None'
922	self.state.file = self.state.saved_state['file']
923
924	self.state.state_num = self.state.saved_state['state_num']
925	self.state.timestamp = "('00:00:00', '00/00/0000')"
926
927	# Put only the current state in the list
928	#copy.deepcopy(self.state.saved_state)
929	self.state.state_list[str(self.state.state_num)] = self.state.clone_state()
930	self._set_undo_flag(False)
931	self._set_redo_flag(False)
932	self._set_bookmark_flag(False)
933	self._set_preview_flag(False)
934	self._set_save_flag(False)
935
936
937	def _on_text(self, event):
938	"""
939	Catch text change event to add the state to the state_list
940
941	:param event: txtctr event ; assumes not None
942
943	"""
944	if self._data == None:
945	return
946	# check if this event is from do/undo button
947	if self.state.saved_state['is_time_machine'] or self.new_state:
948	#event.Skip()
949	return
950
951	# get the object
952	obj = event.GetEventObject()
953	name = str(obj.GetName())
954	value = str(obj.GetValue())
955	state_num = self.state.saved_state['state_num']
956
957	# text event is a new state, so delete the states with higher state_num
958	# i.e., change the future
959	for i in range(int(state_num)+1,len(self.state.state_list)):
960	try:
961	del (self.state.state_list[str(i)])
962	except:
963	pass
964
965	# Instead of changing the future, create a new future.
966	#max_state_num = len(self.state.state_list)-1
967	#self.state.saved_state['state_num'] = max_state_num
968
969	# try to add new state of the text changes in the state_list
970	try:
971	if value.strip() == None: value = ''
972	exec "self.state.%s = '%s'" % (name, value)
973	exec "self.state.saved_state['%s'] = '%s'" % (name, value)
974	exec "self.state.input_list['%s'] = '%s'" % (name, value)
975	if not self.is_power_out:
976	if name != 'power_low_tcl' and name !='power_high_tcl':
977	self.state.saved_state['state_num'] += 1
978	self.state.state_num = self.state.saved_state['state_num']
979	#copy.deepcopy(self.state.saved_state)
980	self.state.state_list[str(self.state.state_num)] = self.state.clone_state()
981	except:
982	pass
983
984	#event.Skip()
985	self._set_undo_flag(True)
986	self._set_redo_flag(False)
987	self._set_bookmark_flag(True)
988	self._set_preview_flag(False)
989
990	def _on_out_text(self, event):
991	"""
992	Catch ouput text change to add the state
993
994	:param event: txtctr event ; assumes not None
995
996	"""
997	# get the object
998	obj = event.GetEventObject()
999	name = str(obj.GetName())
1000	value = str(obj.GetValue())
1001	try:
1002	exec "self.state.saved_state['%s'] = '%s'" % (name, value)
1003	self.state.state_list[str(self.state.state_num)] = self.state.clone_state()
1004	except:
1005	pass
1006	#if event != None: event.Skip()
1007
1008	def _get_input_list(self):
1009	"""
1010	get input_list; called by set_state
1011	"""
1012	# get state num of the last compute state
1013	compute_num = self.state.saved_state['compute_num']
1014	# find values and put into the input list
1015	for key1,value1 in self.state.state_list[str(compute_num)].iteritems():
1016	for key,value in self.state.input_list.iteritems():
1017	if key == key1:
1018	self.state.input_list[key]=value1
1019	break
1020
1021	def _set_bookmark_menu(self):
1022	"""
1023	Setup 'bookmark' context menu
1024	"""
1025	## Create context menu for page
1026	self.popUpMenu = wx.Menu()
1027	id = wx.NewId()
1028	self._bmark = wx.MenuItem(self.popUpMenu,id,"BookMark",
1029	" Bookmark the panel to recall it later")
1030	self.popUpMenu.AppendItem(self._bmark)
1031	self._bmark.Enable(True)
1032	wx.EVT_MENU(self, id, self.on_bookmark)
1033	self.popUpMenu.AppendSeparator()
1034	self.Bind(wx.EVT_CONTEXT_MENU, self._on_context_menu)
1035
1036	def on_bookmark(self,event):
1037	"""
1038	Save the panel state in memory and add the list on
1039	the popup menu on bookmark context menu event
1040	"""
1041	if self._data == None: return
1042	if event == None: return
1043	self.bookmark_num += 1
1044	# date and time of the event
1045	#year, month, day,hour,minute,second,tda,ty,tm_isdst= time.localtime()
1046	#my_time= str(hour)+" : "+str(minute)+" : "+str(second)+" "
1047	#date= str( month)+"/"+str(day)+"/"+str(year)
1048	my_time, date = self._get_time_stamp()
1049	state_num = self.state.state_num
1050	compute_num = self.state.saved_state['compute_num']
1051	# name and message of the bookmark list
1052	msg= "State saved at %s on %s"%(my_time, date)
1053	## post help message for the selected model
1054	msg +=" Right click on the panel to retrieve this state"
1055	#wx.PostEvent(self.parent.parent, StatusEvent(status = msg ))
1056	name = "%d] bookmarked at %s on %s"%(self.bookmark_num, my_time, date)
1057
1058	# append it to menu
1059	id = wx.NewId()
1060	self.popUpMenu.Append(id,name,str(msg))
1061	wx.EVT_MENU(self, id, self._back_to_bookmark)
1062	state = self.state.clone_state()
1063	comp_state = copy.deepcopy(self.state.state_list[str(compute_num)])
1064	self.state.bookmark_list[self.bookmark_num] = [my_time, date,
1065	state,comp_state]
1066	self.state.toXML(self, doc=None, entry_node=None)
1067
1068	wx.PostEvent(self.parent,StatusEvent(status=msg,info="info"))
1069	wx.PostEvent(self.parent,
1070	AppendBookmarkEvent(title=name,
1071	hint=str(msg),
1072	handler=self._back_to_bookmark))
1073
1074	def _back_to_bookmark(self,event):
1075	"""
1076	Bring the panel back to the state of bookmarked requested by
1077	context menu event
1078	and set it as a new state
1079	"""
1080	self._manager.on_perspective(event)
1081	menu = event.GetEventObject()
1082	## post help message for the selected model
1083	msg = menu.GetHelpString(event.GetId())
1084	msg +=" reloaded"
1085	wx.PostEvent(self.parent, StatusEvent(status = msg ))
1086
1087	name= menu.GetLabel(event.GetId())
1088
1089	num,time = name.split(']')
1090	current_state_num = self.state.state_num
1091	self.get_bookmark_by_num(num)
1092	state_num = int(current_state_num)+1
1093
1094	self.state.saved_state['state_num'] = state_num
1095	#copy.deepcopy(self.state.saved_state)
1096	self.state.state_list[str(state_num)] = self.state.clone_state()
1097	self.state.state_num = state_num
1098
1099	self._set_undo_flag(True)
1100	self._info_bookmark_num(event)
1101
1102	def _info_bookmark_num(self,event=None):
1103	"""
1104	print the bookmark number in info
1105
1106	: event: popUpMenu event
1107	"""
1108	if event == None: return
1109	# get the object
1110	menu = event.GetEventObject()
1111	item = menu.FindItemById(event.GetId())
1112	text = item.GetText()
1113	num = text.split(']')[0]
1114	msg = "bookmark num = %s "% num
1115
1116	wx.PostEvent(self.parent, StatusEvent(status = msg ))
1117
1118	def _info_state_num(self):
1119	"""
1120	print the current state number in info
1121	"""
1122	msg = "state num = "
1123	msg += self.state.state_num
1124
1125	wx.PostEvent(self.parent, StatusEvent(status = msg))
1126
1127	def _get_time_stamp(self):
1128	"""
1129	return time and date stings
1130	"""
1131	# date and time
1132	year, month, day,hour,minute,second,tda,ty,tm_isdst= time.localtime()
1133	my_time= str(hour)+":"+str(minute)+":"+str(second)
1134	date= str( month)+"/"+str(day)+"/"+str(year)
1135	return my_time, date
1136
1137
1138	def on_save(self, evt=None):
1139	"""
1140	Save invariant state into a file
1141	"""
1142	# Ask the user the location of the file to write to.
1143	path = None
1144	dlg = wx.FileDialog(self, "Choose a file",
1145	self._default_save_location, "", "*.inv", wx.SAVE)
1146	if dlg.ShowModal() == wx.ID_OK:
1147	path = dlg.GetPath()
1148	self._default_save_location = os.path.dirname(path)
1149	else:
1150	return None
1151
1152	dlg.Destroy()
1153
1154	self._manager.save_file(filepath=path, state=self.state)
1155
1156	def _show_message(self, mssg='',msg='Warning'):
1157	"""
1158	Show warning message when resetting data
1159	"""
1160	# no message for now
1161	return True
1162	count_bf = self.data_cbbox.GetCount()
1163	if count_bf > 1:
1164	msg += "Loading a new data set will reset all the work"
1165	msg += " done in this panel. \n\r"
1166	mssg += "Please make sure to save it first... \n\r"
1167	answer = wx.MessageBox(mssg, msg,
1168	wx.CANCEL\|wx.OK\|wx.ICON_EXCLAMATION)
1169
1170	if answer == wx.OK:
1171	return True
1172	else:
1173	return False
1174	else: True
1175
1176	def _reset_output(self):
1177	"""
1178	clear outputs textcrtl
1179	"""
1180	self.invariant_total_tcl.Clear()
1181	self.invariant_total_err_tcl.Clear()
1182	self.volume_tcl.Clear()
1183	self.volume_err_tcl.Clear()
1184	self.surface_tcl.Clear()
1185	self.surface_err_tcl.Clear()
1186	#prepare a new container to put result of invariant
1187	self.inv_container = InvariantContainer()
1188
1189
1190	def _on_context_menu(self,event):
1191
1192	pos = event.GetPosition()
1193	pos = self.ScreenToClient(pos)
1194
1195	self.PopupMenu(self.popUpMenu, pos)
1196
1197	def _define_structure(self):
1198	"""
1199	Define main sizers needed for this panel
1200	"""
1201	## Box sizers must be defined first before
1202	#defining buttons/textctrls (MAC).
1203	self.main_sizer = wx.BoxSizer(wx.VERTICAL)
1204	#Sizer related to outputs
1205	outputs_box = wx.StaticBox(self, -1, "Outputs")
1206	self.outputs_sizer = wx.StaticBoxSizer(outputs_box, wx.VERTICAL)
1207	self.outputs_sizer.SetMinSize((PANEL_WIDTH,-1))
1208	#Sizer related to data
1209	data_name_box = wx.StaticBox(self, -1, "I(q) Data Source")
1210	self.data_name_boxsizer = wx.StaticBoxSizer(data_name_box, wx.VERTICAL)
1211	self.data_name_boxsizer.SetMinSize((PANEL_WIDTH,-1))
1212	self.hint_msg_sizer = wx.BoxSizer(wx.HORIZONTAL)
1213	self.data_name_sizer = wx.BoxSizer(wx.HORIZONTAL)
1214
1215	self.data_range_sizer = wx.BoxSizer(wx.HORIZONTAL)
1216	#Sizer related to background and scale
1217	self.bkg_scale_sizer = wx.BoxSizer(wx.HORIZONTAL)
1218	#Sizer related to contrast and porod constant
1219	self.contrast_porod_sizer = wx.BoxSizer(wx.HORIZONTAL)
1220	#Sizer related to inputs
1221	inputs_box = wx.StaticBox(self, -1, "Customized Inputs")
1222	self.inputs_sizer = wx.StaticBoxSizer(inputs_box, wx.VERTICAL)
1223	#Sizer related to extrapolation
1224	extrapolation_box = wx.StaticBox(self, -1, "Extrapolation")
1225	self.extrapolation_sizer = wx.StaticBoxSizer(extrapolation_box,
1226	wx.VERTICAL)
1227	self.extrapolation_sizer.SetMinSize((PANEL_WIDTH,-1))
1228	self.extrapolation_range_sizer = wx.BoxSizer(wx.HORIZONTAL)
1229	self.extrapolation_low_high_sizer = wx.BoxSizer(wx.HORIZONTAL)
1230	#Sizer related to extrapolation at low q range
1231	low_q_box = wx.StaticBox(self, -1, "Low Q")
1232	self.low_extrapolation_sizer = wx.StaticBoxSizer(low_q_box, wx.VERTICAL)
1233	self.low_q_sizer = wx.GridBagSizer(5,5)
1234	#Sizer related to extrapolation at low q range
1235	high_q_box = wx.StaticBox(self, -1, "High Q")
1236	self.high_extrapolation_sizer = wx.StaticBoxSizer(high_q_box,
1237	wx.VERTICAL)
1238	self.high_q_sizer = wx.GridBagSizer(5,5)
1239	#sizer to define outputs
1240	self.volume_surface_sizer = wx.GridBagSizer(5,5)
1241	#Sizer related to invariant output
1242	self.invariant_sizer = wx.GridBagSizer(5, 5)
1243	#Sizer related to button
1244	self.button_sizer = wx.BoxSizer(wx.HORIZONTAL)
1245	#Sizer related to save button
1246	self.save_button_sizer = wx.BoxSizer(wx.HORIZONTAL)
1247
1248	def _layout_data_name(self):
1249	"""
1250	Draw widgets related to data's name
1251	"""
1252	#Sizer hint
1253	hint_msg = ""
1254
1255	self.hint_msg_txt = wx.StaticText(self, -1, hint_msg)
1256	self.hint_msg_txt.SetForegroundColour("red")
1257	msg = "Highlight = mouse the mouse's cursor on the data until"
1258	msg += " the plot's color changes to yellow"
1259	self.hint_msg_txt.SetToolTipString(msg)
1260	self.hint_msg_sizer.Add(self.hint_msg_txt)
1261	#Data name [string]
1262	data_name_txt = wx.StaticText(self, -1, 'Data : ')
1263
1264	self.data_name_tcl = OutputTextCtrl(self, -1, size=(_BOX_WIDTH*5, 20),
1265	style=0)
1266	self.data_name_tcl.SetToolTipString("Data's name.")
1267	self.data_name_sizer.AddMany([(data_name_txt, 0, wx.LEFT\|wx.RIGHT, 10),
1268	(self.data_name_tcl, 0, wx.EXPAND)])
1269	#Data range [string]
1270	data_range_txt = wx.StaticText(self, -1, 'Total Q Range (1/A): ')
1271	data_min_txt = wx.StaticText(self, -1, 'Min : ')
1272	self.data_min_tcl = OutputTextCtrl(self, -1, size=(_BOX_WIDTH, 20),
1273	style=0, name='data_min_tcl')
1274	self.data_min_tcl.SetToolTipString("The minimum value of q range.")
1275	data_max_txt = wx.StaticText(self, -1, 'Max : ')
1276	self.data_max_tcl = OutputTextCtrl(self, -1, size=(_BOX_WIDTH, 20),
1277	style=0, name='data_max_tcl')
1278	self.data_max_tcl.SetToolTipString("The maximum value of q range.")
1279	self.data_range_sizer.AddMany([(data_range_txt, 0, wx.RIGHT, 10),
1280	(data_min_txt, 0, wx.RIGHT, 10),
1281	(self.data_min_tcl, 0, wx.RIGHT, 10),
1282	(data_max_txt, 0, wx.RIGHT, 10),
1283	(self.data_max_tcl, 0, wx.RIGHT, 10)])
1284	self.data_name_boxsizer.AddMany([(self.hint_msg_sizer, 0 , wx.ALL, 5),
1285	(self.data_name_sizer, 0 , wx.ALL, 10),
1286	(self.data_range_sizer, 0 , wx.ALL, 10)])
1287
1288	def _layout_bkg_scale(self):
1289	"""
1290	Draw widgets related to background and scale
1291	"""
1292	background_txt = wx.StaticText(self, -1, 'Background : ')
1293	self.background_tcl = InvTextCtrl(self, -1, size=(_BOX_WIDTH, 20),
1294	style=0, name='background_tcl')
1295	wx.EVT_TEXT(self, self.background_tcl.GetId(), self._on_text)
1296	background_hint_txt = "Background"
1297	self.background_tcl.SetToolTipString(background_hint_txt)
1298	background_unit_txt = wx.StaticText(self, -1, '[1/cm]')
1299	scale_txt = wx.StaticText(self, -1, 'Scale : ')
1300	self.scale_tcl = InvTextCtrl(self, -1, size=(_BOX_WIDTH, 20), style=0,
1301	name='scale_tcl')
1302	wx.EVT_TEXT(self, self.scale_tcl.GetId(), self._on_text)
1303	scale_hint_txt = "Scale"
1304	self.scale_tcl.SetToolTipString(scale_hint_txt)
1305	self.bkg_scale_sizer.AddMany([(background_txt, 0, wx.LEFT, 10),
1306	(self.background_tcl, 0, wx.LEFT, 5),
1307	(background_unit_txt, 0, wx.LEFT, 10),
1308	(scale_txt, 0, wx.LEFT, 70),
1309	(self.scale_tcl, 0, wx.LEFT, 40)])
1310
1311	def _layout_contrast_porod(self):
1312	"""
1313	Draw widgets related to porod constant and contrast
1314	"""
1315	contrast_txt = wx.StaticText(self, -1, 'Contrast : ')
1316	self.contrast_tcl = InvTextCtrl(self, -1, size=(_BOX_WIDTH, 20),
1317	style=0,name='contrast_tcl')
1318	wx.EVT_TEXT(self, self.contrast_tcl.GetId(), self._on_text)
1319	contrast_hint_txt = "Contrast"
1320	self.contrast_tcl.SetToolTipString(contrast_hint_txt)
1321	contrast_unit_txt = wx.StaticText(self, -1, '[1/A^(2)]')
1322	porod_const_txt = wx.StaticText(self, -1, 'Porod Constant:')
1323	self.porod_constant_tcl = InvTextCtrl(self, -1,
1324	size=(_BOX_WIDTH, 20), style=0,
1325	name='porod_constant_tcl')
1326	wx.EVT_TEXT(self, self.porod_constant_tcl.GetId(), self._on_text)
1327	porod_const_hint_txt = "Porod Constant"
1328	self.porod_constant_tcl.SetToolTipString(porod_const_hint_txt)
1329	optional_txt = wx.StaticText(self, -1, '(Optional)')
1330	self.contrast_porod_sizer.AddMany([(contrast_txt, 0, wx.LEFT, 10),
1331	(self.contrast_tcl, 0, wx.LEFT, 20),
1332	(contrast_unit_txt, 0, wx.LEFT, 10),
1333	(porod_const_txt, 0, wx.LEFT, 50),
1334	(self.porod_constant_tcl, 0, wx.LEFT, 0),
1335	(optional_txt, 0, wx.LEFT, 10)])
1336
1337	def _enable_fit_power_law_low(self, event=None):
1338	"""
1339	Enable and disable the power value editing
1340	"""
1341	if event != None:
1342	self._set_bookmark_flag(True)
1343	self._set_preview_flag(False)
1344
1345	if self.fix_enable_low.IsEnabled():
1346
1347	if self.fix_enable_low.GetValue():
1348	self.fit_enable_low.SetValue(False)
1349	self.power_low_tcl.Enable()
1350	else:
1351	self.fit_enable_low.SetValue(True)
1352	self.power_low_tcl.Disable()
1353	self._set_state(event=event)
1354
1355	def _enable_low_q_section(self, event=None):
1356	"""
1357	Disable or enable some button if the user enable low q extrapolation
1358	"""
1359	if event != None:
1360	self._set_bookmark_flag(True)
1361	self._set_preview_flag(False)
1362
1363	if self.enable_low_cbox.GetValue():
1364	self.npts_low_tcl.Enable()
1365	self.fix_enable_low.Enable()
1366	self.fit_enable_low.Enable()
1367	self.guinier.Enable()
1368	self.power_law_low.Enable()
1369
1370	else:
1371	self.npts_low_tcl.Disable()
1372	self.fix_enable_low.Disable()
1373	self.fit_enable_low.Disable()
1374	self.guinier.Disable()
1375	self.power_law_low.Disable()
1376
1377	self._enable_power_law_low()
1378	self._enable_fit_power_law_low()
1379	self._set_state(event=event)
1380	self.button_calculate.SetFocus()
1381
1382	def _enable_power_law_low(self, event=None):
1383	"""
1384	Enable editing power law section at low q range
1385	"""
1386	if event != None:
1387	self._set_bookmark_flag(True)
1388	self._set_preview_flag(False)
1389	if self.guinier.GetValue():
1390	self.power_law_low.SetValue(False)
1391	self.fix_enable_low.Disable()
1392	self.fit_enable_low.Disable()
1393	self.power_low_tcl.Disable()
1394	else:
1395	self.power_law_low.SetValue(True)
1396	self.fix_enable_low.Enable()
1397	self.fit_enable_low.Enable()
1398	self.power_low_tcl.Enable()
1399	self._enable_fit_power_law_low()
1400	self._set_state(event=event)
1401
1402	def _layout_extrapolation_low(self):
1403	"""
1404	Draw widgets related to extrapolation at low q range
1405	"""
1406	self.enable_low_cbox = wx.CheckBox(self, -1,
1407	"Enable Extrapolate Low Q",
1408	name='enable_low_cbox')
1409	wx.EVT_CHECKBOX(self, self.enable_low_cbox.GetId(),
1410	self._enable_low_q_section)
1411	self.fix_enable_low = wx.RadioButton(self, -1, 'Fix',
1412	(10, 10), style=wx.RB_GROUP,
1413	name='fix_enable_low')
1414	self.Bind(wx.EVT_RADIOBUTTON, self._enable_fit_power_law_low,
1415	id=self.fix_enable_low.GetId())
1416	self.fit_enable_low = wx.RadioButton(self, -1, 'Fit', (10, 10),
1417	name='fit_enable_low')
1418	self.Bind(wx.EVT_RADIOBUTTON, self._enable_fit_power_law_low,
1419	id=self.fit_enable_low.GetId())
1420	self.guinier = wx.RadioButton(self, -1, 'Guinier',
1421	(10, 10), style=wx.RB_GROUP,
1422	name='guinier')
1423	self.Bind(wx.EVT_RADIOBUTTON, self._enable_power_law_low,
1424	id=self.guinier.GetId())
1425	self.power_law_low = wx.RadioButton(self, -1, 'Power Law',
1426	(10, 10), name='power_law_low')
1427	self.Bind(wx.EVT_RADIOBUTTON, self._enable_power_law_low,
1428	id=self.power_law_low.GetId())
1429
1430	npts_low_txt = wx.StaticText(self, -1, 'Npts')
1431	self.npts_low_tcl = InvTextCtrl(self, -1,
1432	size=(_BOX_WIDTH*2/3, -1),
1433	name='npts_low_tcl')
1434	wx.EVT_TEXT(self, self.npts_low_tcl.GetId(), self._on_text)
1435	msg_hint = "Number of Q points to consider"
1436	msg_hint +="while extrapolating the low-Q region"
1437	self.npts_low_tcl.SetToolTipString(msg_hint)
1438	power_txt = wx.StaticText(self, -1, 'Power')
1439	self.power_low_tcl = InvTextCtrl(self, -1, size=(_BOX_WIDTH*2/3, -1),
1440	name='power_low_tcl')
1441	wx.EVT_TEXT(self, self.power_low_tcl.GetId(), self._on_text)
1442
1443	power_hint_txt = "Exponent to apply to the Power_law function."
1444	self.power_low_tcl.SetToolTipString(power_hint_txt)
1445	iy = 0
1446	ix = 0
1447	self.low_q_sizer.Add(self.enable_low_cbox,(iy, ix), (1, 5),
1448	wx.TOP\|wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 15)
1449	iy += 1
1450	ix = 0
1451	self.low_q_sizer.Add(npts_low_txt,(iy, ix), (1, 1),
1452	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 15)
1453	ix += 1
1454	self.low_q_sizer.Add(self.npts_low_tcl, (iy, ix), (1,1),
1455	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
1456	iy += 1
1457	ix = 0
1458	self.low_q_sizer.Add(self.guinier,(iy, ix),(1,2),
1459	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 15)
1460	iy += 1
1461	ix = 0
1462	self.low_q_sizer.Add(self.power_law_low,(iy, ix), (1, 2),
1463	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 15)
1464
1465	# Parameter controls for power law
1466	ix = 1
1467	iy += 1
1468	self.low_q_sizer.Add(self.fix_enable_low,(iy, ix), (1, 1),
1469	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
1470	ix += 1
1471	self.low_q_sizer.Add(self.fit_enable_low,(iy, ix),(1,1),
1472	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
1473	ix = 1
1474	iy += 1
1475	self.low_q_sizer.Add(power_txt,(iy, ix), (1, 1),
1476	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
1477	ix += 1
1478	self.low_q_sizer.Add(self.power_low_tcl, (iy, ix), (1, 1),
1479	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
1480	self.low_extrapolation_sizer.AddMany([(self.low_q_sizer, 0,
1481	wx.BOTTOM\|wx.RIGHT, 15)])
1482
1483	def _enable_fit_power_law_high(self, event=None):
1484	"""
1485	Enable and disable the power value editing
1486	"""
1487	if event != None:
1488	self._set_bookmark_flag(True)
1489
1490	self._set_preview_flag(False)
1491	if self.fix_enable_high.IsEnabled():
1492	if self.fix_enable_high.GetValue():
1493	self.fit_enable_high.SetValue(False)
1494	self.power_high_tcl.Enable()
1495	else:
1496	self.fit_enable_high.SetValue(True)
1497	self.power_high_tcl.Disable()
1498	self._set_state(event=event)
1499
1500	def _enable_high_q_section(self, event=None):
1501	"""
1502	Disable or enable some button if the user enable high q extrapolation
1503	"""
1504	if event != None:
1505	self._set_bookmark_flag(True)
1506	self._set_preview_flag(False)
1507	if self.enable_high_cbox.GetValue():
1508	self.npts_high_tcl.Enable()
1509	self.power_law_high.Enable()
1510	self.power_high_tcl.Enable()
1511	self.fix_enable_high.Enable()
1512	self.fit_enable_high.Enable()
1513	else:
1514	self.npts_high_tcl.Disable()
1515	self.power_law_high.Disable()
1516	self.power_high_tcl.Disable()
1517	self.fix_enable_high.Disable()
1518	self.fit_enable_high.Disable()
1519	self._enable_fit_power_law_high()
1520	self._set_state(event=event)
1521	self.button_calculate.SetFocus()
1522
1523	def _layout_extrapolation_high(self):
1524	"""
1525	Draw widgets related to extrapolation at high q range
1526	"""
1527	self.enable_high_cbox = wx.CheckBox(self, -1,
1528	"Enable Extrapolate high-Q",
1529	name='enable_high_cbox')
1530	wx.EVT_CHECKBOX(self, self.enable_high_cbox.GetId(),
1531	self._enable_high_q_section)
1532	self.fix_enable_high = wx.RadioButton(self, -1, 'Fix',
1533	(10, 10), style=wx.RB_GROUP,
1534	name='fix_enable_high')
1535	self.Bind(wx.EVT_RADIOBUTTON, self._enable_fit_power_law_high,
1536	id=self.fix_enable_high.GetId())
1537	self.fit_enable_high = wx.RadioButton(self, -1, 'Fit', (10, 10),
1538	name='fit_enable_high')
1539	self.Bind(wx.EVT_RADIOBUTTON, self._enable_fit_power_law_high,
1540	id=self.fit_enable_high.GetId())
1541
1542	self.power_law_high = wx.StaticText(self, -1, 'Power Law')
1543	msg_hint ="Check to extrapolate data at high-Q"
1544	self.power_law_high.SetToolTipString(msg_hint)
1545	npts_high_txt = wx.StaticText(self, -1, 'Npts')
1546	self.npts_high_tcl = InvTextCtrl(self, -1, size=(_BOX_WIDTH*2/3, -1),
1547	name='npts_high_tcl')
1548	wx.EVT_TEXT(self, self.npts_high_tcl.GetId(), self._on_text)
1549	msg_hint = "Number of Q points to consider"
1550	msg_hint += "while extrapolating the high-Q region"
1551	self.npts_high_tcl.SetToolTipString(msg_hint)
1552	power_txt = wx.StaticText(self, -1, 'Power')
1553	self.power_high_tcl = InvTextCtrl(self, -1, size=(_BOX_WIDTH*2/3, -1),
1554	name='power_high_tcl')
1555	wx.EVT_TEXT(self, self.power_high_tcl.GetId(), self._on_text)
1556	power_hint_txt = "Exponent to apply to the Power_law function."
1557	self.power_high_tcl.SetToolTipString(power_hint_txt)
1558	iy = 0
1559	ix = 0
1560	self.high_q_sizer.Add(self.enable_high_cbox, (iy, ix), (1, 5),
1561	wx.TOP\|wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 15)
1562	iy += 1
1563	ix = 0
1564	self.high_q_sizer.Add(npts_high_txt, (iy, ix), (1, 1),
1565	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 15)
1566	ix += 1
1567	self.high_q_sizer.Add(self.npts_high_tcl, (iy, ix), (1, 1),
1568	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
1569	iy += 2
1570	ix = 0
1571	self.high_q_sizer.Add(self.power_law_high, (iy, ix),(1, 2),
1572	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 15)
1573
1574	# Parameter controls for power law
1575	ix = 1
1576	iy += 1
1577	self.high_q_sizer.Add(self.fix_enable_high,(iy, ix), (1, 1),
1578	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
1579	ix += 1
1580	self.high_q_sizer.Add(self.fit_enable_high,(iy, ix), (1, 1),
1581	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
1582	ix = 1
1583	iy += 1
1584	self.high_q_sizer.Add(power_txt,(iy, ix), (1, 1),
1585	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 15)
1586	ix += 1
1587	self.high_q_sizer.Add(self.power_high_tcl, (iy, ix), (1, 1),
1588	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
1589	self.high_extrapolation_sizer.AddMany([(self.high_q_sizer, 0,
1590	wx.BOTTOM\|wx.RIGHT, 10)])
1591
1592	def _layout_extrapolation(self):
1593	"""
1594	Draw widgets related to extrapolation
1595	"""
1596	extra_hint = "Extrapolation Maximum Q Range [1/A]: "
1597	extra_hint_txt = wx.StaticText(self, -1, extra_hint)
1598	#Extrapolation range [string]
1599	extrapolation_min_txt = wx.StaticText(self, -1, 'Min :')
1600	self.extrapolation_min_tcl = OutputTextCtrl(self, -1,
1601	size=(_BOX_WIDTH, 20), style=0,
1602	name='extrapolation_min_tcl')
1603	self.extrapolation_min_tcl.SetValue(str(Q_MINIMUM))
1604	hint_msg = "The minimum extrapolated q value."
1605	self.extrapolation_min_tcl.SetToolTipString(hint_msg)
1606	extrapolation_max_txt = wx.StaticText(self, -1, 'Max :')
1607	self.extrapolation_max_tcl = OutputTextCtrl(self, -1,
1608	size=(_BOX_WIDTH, 20),
1609	style=0,
1610	name='extrapolation_max_tcl')
1611	self.extrapolation_max_tcl.SetValue(str(Q_MAXIMUM))
1612	hint_msg = "The maximum extrapolated q value."
1613	self.extrapolation_max_tcl.SetToolTipString(hint_msg)
1614	self.extrapolation_range_sizer.AddMany([(extra_hint_txt, 0,
1615	wx.LEFT, 10),
1616	(extrapolation_min_txt, 0,
1617	wx.LEFT, 10),
1618	(self.extrapolation_min_tcl,
1619	0, wx.LEFT, 10),
1620	(extrapolation_max_txt, 0,
1621	wx.LEFT, 10),
1622	(self.extrapolation_max_tcl,
1623	0, wx.LEFT, 10),
1624	])
1625	self._layout_extrapolation_low()
1626	self._layout_extrapolation_high()
1627	self.extrapolation_low_high_sizer.AddMany([(self.low_extrapolation_sizer,
1628	0, wx.ALL, 5),
1629	(self.high_extrapolation_sizer,
1630	0, wx.ALL, 5)])
1631	self.extrapolation_sizer.AddMany([(self.extrapolation_range_sizer, 0,
1632	wx.RIGHT, 5),
1633	(self.extrapolation_low_high_sizer, 0,
1634	wx.ALL, 5)])
1635
1636	def _layout_volume_surface_sizer(self):
1637	"""
1638	Draw widgets related to volume and surface
1639	"""
1640	unit_volume = ''
1641	unit_surface = ''
1642	uncertainty = "+/-"
1643	volume_txt = wx.StaticText(self, -1, 'Volume Fraction ')
1644	self.volume_tcl = OutputTextCtrl(self, -1, size=(_BOX_WIDTH, -1),
1645	name='volume_tcl')
1646	wx.EVT_TEXT(self, self.volume_tcl.GetId(), self._on_out_text)
1647	self.volume_tcl.SetToolTipString("Volume fraction.")
1648	self.volume_err_tcl = OutputTextCtrl(self, -1, size=(_BOX_WIDTH, -1),
1649	name='volume_err_tcl')
1650	wx.EVT_TEXT(self, self.volume_err_tcl.GetId(), self._on_out_text)
1651	hint_msg = "Uncertainty on the volume fraction."
1652	self.volume_err_tcl.SetToolTipString(hint_msg)
1653	volume_units_txt = wx.StaticText(self, -1, unit_volume)
1654
1655	surface_txt = wx.StaticText(self, -1, 'Specific Surface')
1656	self.surface_tcl = OutputTextCtrl(self, -1, size=(_BOX_WIDTH, -1),
1657	name='surface_tcl')
1658	wx.EVT_TEXT(self, self.surface_tcl.GetId(), self._on_out_text)
1659	self.surface_tcl.SetToolTipString("Specific surface value.")
1660	self.surface_err_tcl = OutputTextCtrl(self, -1, size=(_BOX_WIDTH, -1),
1661	name='surface_err_tcl')
1662	wx.EVT_TEXT(self, self.surface_err_tcl.GetId(), self._on_out_text)
1663	hint_msg = "Uncertainty on the specific surface."
1664	self.surface_err_tcl.SetToolTipString(hint_msg)
1665	surface_units_txt = wx.StaticText(self, -1, unit_surface)
1666	iy = 0
1667	ix = 0
1668	self.volume_surface_sizer.Add(volume_txt, (iy, ix), (1, 1),
1669	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 15)
1670	ix += 1
1671	self.volume_surface_sizer.Add(self.volume_tcl, (iy, ix), (1, 1),
1672	wx.EXPAND\|wx.ADJUST_MINSIZE, 10)
1673	ix += 1
1674	self.volume_surface_sizer.Add(wx.StaticText(self, -1, uncertainty),
1675	(iy, ix),(1,1),wx.EXPAND\|wx.ADJUST_MINSIZE, 10)
1676	ix += 1
1677	self.volume_surface_sizer.Add(self.volume_err_tcl, (iy, ix), (1, 1),
1678	wx.EXPAND\|wx.ADJUST_MINSIZE, 10)
1679	ix += 1
1680	self.volume_surface_sizer.Add(volume_units_txt, (iy, ix), (1, 1),
1681	wx.EXPAND\|wx.ADJUST_MINSIZE, 10)
1682	iy += 1
1683	ix = 0
1684	self.volume_surface_sizer.Add(surface_txt, (iy, ix), (1, 1),
1685	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 15)
1686	ix += 1
1687	self.volume_surface_sizer.Add(self.surface_tcl, (iy, ix), (1, 1),
1688	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
1689	ix += 1
1690	self.volume_surface_sizer.Add(wx.StaticText(self, -1, uncertainty),
1691	(iy, ix),(1,1),wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
1692	ix += 1
1693	self.volume_surface_sizer.Add(self.surface_err_tcl, (iy, ix), (1, 1),
1694	wx.EXPAND\|wx.ADJUST_MINSIZE, 0)
1695	ix += 1
1696	self.volume_surface_sizer.Add(surface_units_txt, (iy, ix), (1, 1),
1697	wx.EXPAND\|wx.ADJUST_MINSIZE, 10)
1698
1699	def _layout_invariant_sizer(self):
1700	"""
1701	Draw widgets related to invariant
1702	"""
1703	uncertainty = "+/-"
1704	unit_invariant = '[1/(cm * A)]'
1705	invariant_total_txt = wx.StaticText(self, -1, 'Invariant Total [Q*]')
1706	self.invariant_total_tcl = OutputTextCtrl(self, -1,
1707	size=(_BOX_WIDTH,-1),
1708	name='invariant_total_tcl')
1709	msg_hint = "Total invariant [Q*], including extrapolated regions."
1710	self.invariant_total_tcl.SetToolTipString(msg_hint)
1711	self.invariant_total_err_tcl = OutputTextCtrl(self, -1,
1712	size=(_BOX_WIDTH,-1),
1713	name='invariant_total_err_tcl')
1714	hint_msg = "Uncertainty on invariant."
1715	self.invariant_total_err_tcl.SetToolTipString(hint_msg)
1716	invariant_total_units_txt = wx.StaticText(self, -1, unit_invariant)
1717
1718	#Invariant total
1719	iy = 0
1720	ix = 0
1721	self.invariant_sizer.Add(invariant_total_txt, (iy, ix), (1, 1),
1722	wx.LEFT\|wx.EXPAND\|wx.ADJUST_MINSIZE, 15)
1723	ix += 1
1724	self.invariant_sizer.Add(self.invariant_total_tcl, (iy, ix), (1, 1),
1725	wx.EXPAND\|wx.ADJUST_MINSIZE, 10)
1726	ix += 1
1727	self.invariant_sizer.Add( wx.StaticText(self, -1, uncertainty),
1728	(iy, ix),(1,1),wx.EXPAND\|wx.ADJUST_MINSIZE, 10)
1729	ix += 1
1730	self.invariant_sizer.Add(self.invariant_total_err_tcl, (iy, ix), (1, 1),
1731	wx.EXPAND\|wx.ADJUST_MINSIZE, 10)
1732	ix += 1
1733	self.invariant_sizer.Add(invariant_total_units_txt,(iy, ix), (1, 1),
1734	wx.EXPAND\|wx.ADJUST_MINSIZE, 10)
1735
1736	def _layout_inputs_sizer(self):
1737	"""
1738	Draw widgets related to inputs
1739	"""
1740	self._layout_bkg_scale()
1741	self._layout_contrast_porod()
1742	self.inputs_sizer.AddMany([(self.bkg_scale_sizer, 0, wx.ALL, 5),
1743	(self.contrast_porod_sizer, 0, wx.ALL, 5)])
1744
1745	def _layout_outputs_sizer(self):
1746	"""
1747	Draw widgets related to outputs
1748	"""
1749	self._layout_volume_surface_sizer()
1750	self._layout_invariant_sizer()
1751	static_line = wx.StaticLine(self, -1)
1752	self.outputs_sizer.AddMany([(self.volume_surface_sizer, 0, wx.ALL, 10),
1753	(static_line, 0, wx.EXPAND, 0),
1754	(self.invariant_sizer, 0, wx.ALL, 10)])
1755	def _layout_button(self):
1756	"""
1757	Do the layout for the button widgets
1758	"""
1759	#compute button
1760	id = wx.NewId()
1761	self.button_calculate = wx.Button(self, id, "Compute",
1762	name='compute_invariant')
1763	self.button_calculate.SetToolTipString("Compute invariant")
1764	self.Bind(wx.EVT_BUTTON, self.compute_invariant, id=id)
1765	#detail button
1766	id = wx.NewId()
1767	self.button_details = wx.Button(self, id, "Details?")
1768	hint_msg = "Details about the results of the computation"
1769	self.button_details.SetToolTipString(hint_msg)
1770	self.Bind(wx.EVT_BUTTON, self.display_details, id=id)
1771	details = "Details on Invariant Total Calculations"
1772	details_txt = wx.StaticText(self, -1, details)
1773	self.button_sizer.AddMany([((50,10), 0 , wx.LEFT,0),
1774	(details_txt, 0 ,
1775	wx.RIGHT\|wx.BOTTOM\|wx.TOP, 10),
1776	(self.button_details, 0 , wx.ALL, 10),
1777	(self.button_calculate, 0 ,
1778	wx.RIGHT\|wx.TOP\|wx.BOTTOM, 10)])
1779	def _do_layout(self):
1780	"""
1781	Draw window content
1782	"""
1783	self._define_structure()
1784	self._layout_data_name()
1785	self._layout_extrapolation()
1786	self._layout_inputs_sizer()
1787	self._layout_outputs_sizer()
1788	self._layout_button()
1789	self.main_sizer.AddMany([(self.data_name_boxsizer,0, wx.ALL, 10),
1790	(self.outputs_sizer, 0,
1791	wx.LEFT\|wx.RIGHT\|wx.BOTTOM, 10),
1792	(self.button_sizer,0,
1793	wx.LEFT\|wx.RIGHT\|wx.BOTTOM, 10),
1794	(self.inputs_sizer, 0,
1795	wx.LEFT\|wx.RIGHT\|wx.BOTTOM, 10),
1796	(self.extrapolation_sizer, 0,
1797	wx.LEFT\|wx.RIGHT\|wx.BOTTOM, 10)])
1798	self.SetSizer(self.main_sizer)
1799	self.SetAutoLayout(True)
1800
1801
1802	class InvariantDialog(wx.Dialog):
1803	"""
1804	"""
1805	def __init__(self, parent=None, id=1,graph=None,
1806	data=None, title="Invariant",base=None):
1807	wx.Dialog.__init__(self, parent, id, title, size=(PANEL_WIDTH,
1808	PANEL_HEIGHT))
1809	self.panel = InvariantPanel(self)
1810	self.Centre()
1811	self.Show(True)
1812
1813	class InvariantWindow(wx.Frame):
1814	"""
1815	"""
1816	def __init__(self, parent=None, id=1, graph=None,
1817	data=None, title="Invariant", base=None):
1818
1819	wx.Frame.__init__(self, parent, id, title, size=(PANEL_WIDTH +100,
1820	PANEL_HEIGHT+100))
1821	from DataLoader.loader import Loader
1822	self.loader = Loader()
1823	import invariant
1824	path = "C:/ECLPS/workspace/trunk/DataLoader/test/ascii_test_3.txt"
1825	data= self.loader.load(path)
1826	self.panel = InvariantPanel(self)
1827
1828	data.name = data.filename
1829	self.panel.set_data(data)
1830	self.Centre()
1831	self.Show(True)
1832
1833	class MyApp(wx.App):
1834	def OnInit(self):
1835	wx.InitAllImageHandlers()
1836	frame = InvariantWindow()
1837	frame.Show(True)
1838	self.SetTopWindow(frame)
1839
1840	return True
1841
1842	# end of class MyApp
1843
1844	if __name__ == "__main__":
1845	app = MyApp(0)
1846	app.MainLoop()

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SasView

source: sasview/invariantview/perspectives/invariant/invariant_panel.py @ 04295ea

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