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source: trunk/GSASIIgrid.py @ 2656

Last change on this file since 2656 was 2656, checked in by toby, 6 years ago
Way cleaner approach to grid pointer; handles multiple grids in a frame, too.
Property svn:eol-style set to `native` Property svn:keywords set to `Date Author Revision URL Id`
File size: 223.4 KB

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1	# -- coding: utf-8 --
2	#GSASIIgrid - data display routines
3	########### SVN repository information ###################
4	# $Date: 2017-01-22 22:27:37 +0000 (Sun, 22 Jan 2017) $
5	# $Author: toby $
6	# $Revision: 2656 $
7	# $URL: trunk/GSASIIgrid.py $
8	# $Id: GSASIIgrid.py 2656 2017-01-22 22:27:37Z toby $
9	########### SVN repository information ###################
10	'''
11	GSASIIgrid: Basic GUI routines
12	--------------------------------
13
14	'''
15	import wx
16	import wx.grid as wg
17	#import wx.wizard as wz
18	#import wx.aui
19	import wx.lib.scrolledpanel as wxscroll
20	import time
21	import copy
22	import sys
23	import os
24	import random as ran
25	import numpy as np
26	import scipy.optimize as so
27	import GSASIIpath
28	GSASIIpath.SetVersionNumber("$Revision: 2656 $")
29	import GSASIImath as G2mth
30	import GSASIIIO as G2IO
31	import GSASIIstrIO as G2stIO
32	import GSASIIlattice as G2lat
33	import GSASIIplot as G2plt
34	import GSASIIpwdGUI as G2pdG
35	import GSASIIimgGUI as G2imG
36	import GSASIIphsGUI as G2phG
37	import GSASIIspc as G2spc
38	import GSASIImapvars as G2mv
39	import GSASIIconstrGUI as G2cnstG
40	import GSASIIrestrGUI as G2restG
41	import GSASIIpy3 as G2py3
42	import GSASIIobj as G2obj
43	import GSASIIexprGUI as G2exG
44	import GSASIIlog as log
45	import GSASIIctrls as G2G
46
47	# trig functions in degrees
48	sind = lambda x: np.sin(x*np.pi/180.)
49	tand = lambda x: np.tan(x*np.pi/180.)
50	cosd = lambda x: np.cos(x*np.pi/180.)
51
52	# Define a short name for convenience
53	WACV = wx.ALIGN_CENTER_VERTICAL
54
55	[ wxID_FOURCALC, wxID_FOURSEARCH, wxID_FOURCLEAR, wxID_PEAKSMOVE, wxID_PEAKSCLEAR,
56	wxID_CHARGEFLIP, wxID_PEAKSUNIQUE, wxID_PEAKSDELETE, wxID_PEAKSDA,
57	wxID_PEAKSDISTVP, wxID_PEAKSVIEWPT, wxID_FINDEQVPEAKS,wxID_SHOWBONDS,wxID_MULTIMCSA,
58	wxID_SINGLEMCSA,wxID_4DCHARGEFLIP,wxID_TRANSFORMSTRUCTURE,
59	] = [wx.NewId() for item in range(17)]
60
61	[ wxID_PWDRADD, wxID_HKLFADD, wxID_PWDANALYSIS, wxID_PWDCOPY, wxID_PLOTCTRLCOPY,
62	wxID_DATADELETE,wxID_DATACOPY,wxID_DATACOPYFLAGS,wxID_DATASELCOPY,wxID_DATAUSE,
63	] = [wx.NewId() for item in range(10)]
64
65	[ wxID_ATOMSEDITADD, wxID_ATOMSEDITINSERT, wxID_ATOMSEDITDELETE,
66	wxID_ATOMSMODIFY, wxID_ATOMSTRANSFORM, wxID_ATOMSVIEWADD, wxID_ATOMVIEWINSERT,
67	wxID_RELOADDRAWATOMS,wxID_ATOMSDISAGL,wxID_ATOMMOVE,wxID_MAKEMOLECULE,
68	wxID_ASSIGNATMS2RB,wxID_ATOMSPDISAGL, wxID_ISODISP,wxID_ADDHATOM,wxID_UPDATEHATOM,
69	wxID_WAVEVARY,wxID_ATOMSROTATE, wxID_ATOMSDENSITY,
70	wxID_ATOMSSETALL, wxID_ATOMSSETSEL,
71	] = [wx.NewId() for item in range(21)]
72
73	[ wxID_DRAWATOMSTYLE, wxID_DRAWATOMLABEL, wxID_DRAWATOMCOLOR, wxID_DRAWATOMRESETCOLOR,
74	wxID_DRAWVIEWPOINT, wxID_DRAWTRANSFORM, wxID_DRAWDELETE, wxID_DRAWFILLCELL,
75	wxID_DRAWADDEQUIV, wxID_DRAWFILLCOORD, wxID_DRAWDISAGLTOR, wxID_DRAWPLANE,
76	wxID_DRAWDISTVP, wxID_DRAWADDSPHERE,wxID_DRWAEDITRADII,
77	] = [wx.NewId() for item in range(15)]
78
79	[ wxID_DRAWRESTRBOND, wxID_DRAWRESTRANGLE, wxID_DRAWRESTRPLANE, wxID_DRAWRESTRCHIRAL,
80	] = [wx.NewId() for item in range(4)]
81
82	[ wxID_ADDMCSAATOM,wxID_ADDMCSARB,wxID_CLEARMCSARB,wxID_MOVEMCSA,wxID_MCSACLEARRESULTS,
83	] = [wx.NewId() for item in range(5)]
84
85	[ wxID_CLEARTEXTURE,wxID_REFINETEXTURE,
86	] = [wx.NewId() for item in range(2)]
87
88	[ wxID_LOADDIFFAX,wxID_LAYERSIMULATE,wxID_SEQUENCESIMULATE, wxID_LAYERSFIT, wxID_COPYPHASE,
89	] = [wx.NewId() for item in range(5)]
90
91	[ wxID_PAWLEYLOAD, wxID_PAWLEYESTIMATE, wxID_PAWLEYUPDATE, wxID_PAWLEYSELALL, wxID_PAWLEYSELNONE,
92	wxID_PAWLEYSELTOGGLE, wxID_PAWLEYSET,
93	] = [wx.NewId() for item in range(7)]
94
95	[ wxID_IMCALIBRATE,wxID_IMRECALIBRATE,wxID_IMINTEGRATE, wxID_IMCLEARCALIB,wxID_IMRECALIBALL,
96	wxID_IMCOPYCONTROLS, wxID_INTEGRATEALL, wxID_IMSAVECONTROLS, wxID_IMLOADCONTROLS, wxID_IMAUTOINTEG,
97	wxID_IMCOPYSELECTED, wxID_SAVESELECTEDCONTROLS, wxID_IMXFERCONTROLS,
98	] = [wx.NewId() for item in range(13)]
99
100	[ wxID_MASKCOPY, wxID_MASKSAVE, wxID_MASKLOAD, wxID_NEWMASKSPOT,wxID_NEWMASKARC,wxID_NEWMASKRING,
101	wxID_NEWMASKFRAME, wxID_NEWMASKPOLY,wxID_MASKLOADNOT,wxID_FINDSPOTS,
102	] = [wx.NewId() for item in range(10)]
103
104	[ wxID_STRSTACOPY, wxID_STRSTAFIT, wxID_STRSTASAVE, wxID_STRSTALOAD,wxID_STRSTSAMPLE,
105	wxID_APPENDDZERO,wxID_STRSTAALLFIT,wxID_UPDATEDZERO,wxID_STRSTAPLOT,
106	] = [wx.NewId() for item in range(9)]
107
108	[ wxID_BACKCOPY,wxID_LIMITCOPY, wxID_SAMPLECOPY, wxID_SAMPLECOPYSOME, wxID_BACKFLAGCOPY, wxID_SAMPLEFLAGCOPY,
109	wxID_SAMPLESAVE, wxID_SAMPLELOAD,wxID_ADDEXCLREGION,wxID_SETSCALE,wxID_SAMPLE1VAL,wxID_ALLSAMPLELOAD,
110	wxID_MAKEBACKRDF,
111	] = [wx.NewId() for item in range(13)]
112
113	[ wxID_INSTPRMRESET,wxID_CHANGEWAVETYPE,wxID_INSTCOPY, wxID_INSTFLAGCOPY, wxID_INSTLOAD,
114	wxID_INSTSAVE, wxID_INST1VAL, wxID_INSTCALIB,wxID_INSTSAVEALL,
115	] = [wx.NewId() for item in range(9)]
116
117	[ wxID_UNDO,wxID_LSQPEAKFIT,wxID_LSQONECYCLE,wxID_RESETSIGGAM,wxID_CLEARPEAKS,wxID_AUTOSEARCH,
118	wxID_PEAKSCOPY, wxID_SEQPEAKFIT,
119	] = [wx.NewId() for item in range(8)]
120
121	[ wxID_INDXRELOAD, wxID_INDEXPEAKS, wxID_REFINECELL, wxID_COPYCELL, wxID_MAKENEWPHASE,
122	wxID_EXPORTCELLS,
123	] = [wx.NewId() for item in range(6)]
124
125	[ wxID_CONSTRAINTADD,wxID_EQUIVADD,wxID_HOLDADD,wxID_FUNCTADD,wxID_ADDRIDING,
126	wxID_CONSPHASE, wxID_CONSHIST, wxID_CONSHAP, wxID_CONSGLOBAL,wxID_EQUIVALANCEATOMS,
127	] = [wx.NewId() for item in range(10)]
128
129	[ wxID_RESTRAINTADD, wxID_RESTSELPHASE,wxID_RESTDELETE, wxID_RESRCHANGEVAL,
130	wxID_RESTCHANGEESD,wxID_AARESTRAINTADD,wxID_AARESTRAINTPLOT,
131	] = [wx.NewId() for item in range(7)]
132
133	[ wxID_RIGIDBODYADD,wxID_DRAWDEFINERB,wxID_RIGIDBODYIMPORT,wxID_RESIDUETORSSEQ,
134	wxID_AUTOFINDRESRB,wxID_GLOBALRESREFINE,wxID_RBREMOVEALL,wxID_COPYRBPARMS,
135	wxID_GLOBALTHERM,wxID_VECTORBODYADD
136	] = [wx.NewId() for item in range(10)]
137
138	[ wxID_RENAMESEQSEL,wxID_SAVESEQSEL,wxID_SAVESEQSELCSV,wxID_SAVESEQCSV,wxID_PLOTSEQSEL,
139	wxID_ORGSEQSEL,wxADDSEQVAR,wxDELSEQVAR,wxEDITSEQVAR,wxCOPYPARFIT,wxID_AVESEQSEL,
140	wxADDPARFIT,wxDELPARFIT,wxEDITPARFIT,wxDOPARFIT,wxADDSEQDIST,wxADDSEQANGLE
141	] = [wx.NewId() for item in range(17)]
142
143	[ wxID_MODELCOPY,wxID_MODELFIT,wxID_MODELADD,wxID_ELEMENTADD,wxID_ELEMENTDELETE,
144	wxID_ADDSUBSTANCE,wxID_LOADSUBSTANCE,wxID_DELETESUBSTANCE,wxID_COPYSUBSTANCE,
145	wxID_MODELUNDO,wxID_MODELFITALL,wxID_MODELCOPYFLAGS,
146	] = [wx.NewId() for item in range(12)]
147
148	[ wxID_SELECTPHASE,wxID_PWDHKLPLOT,wxID_PWD3DHKLPLOT,wxID_3DALLHKLPLOT,wxID_MERGEHKL,
149	] = [wx.NewId() for item in range(5)]
150
151	[ wxID_PDFCOPYCONTROLS, wxID_PDFSAVECONTROLS, wxID_PDFLOADCONTROLS,
152	wxID_PDFCOMPUTE, wxID_PDFCOMPUTEALL, wxID_PDFADDELEMENT, wxID_PDFDELELEMENT, #wxID_PDFOPT,
153	] = [wx.NewId() for item in range(7)]
154
155	[ wxID_MCRON,wxID_MCRLIST,wxID_MCRSAVE,wxID_MCRPLAY,
156	] = [wx.NewId() for item in range(4)]
157
158	VERY_LIGHT_GREY = wx.Colour(235,235,235)
159
160	commonTrans = {'abc':np.eye(3),'a-cb':np.array([[1,0,0],[0,0,-1],[0,1,0]]),
161	'ba-c':np.array([[0,1,0],[1,0,0],[0,0,-1]]),'-cba':np.array([[0,0,-1],[0,1,0],[1,0,0]]),
162	'bca':np.array([[0,1,0],[0,0,1],[1,0,0]]),'cab':np.array([[0,0,1],[1,0,0],[0,1,0]]),
163	'P->R':np.array([[1,-1,0],[0,1,-1],[1,1,1]]),'R->P':np.array([[2./3,1./3,1./3],[-1./3,1./3,1./3],[-1./3,-2./3,1./3]]),
164	'P->A':np.array([[-1,0,0],[0,-1,1],[0,1,1]]),'R->O':np.array([[-1,0,0],[0,-1,0],[0,0,1]]),
165	'P->B':np.array([[-1,0,1],[0,-1,0],[1,0,1]]),'B->P':np.array([[-.5,0,.5],[0,-1,0],[.5,0,.5]]),
166	'P->C':np.array([[1,1,0],[1,-1,0],[0,0,-1]]),'C->P':np.array([[.5,.5,0],[.5,-.5,0],[0,0,-1]]),
167	'P->F':np.array([[-1,1,1],[1,-1,1],[1,1,-1]]),'F->P':np.array([[0,.5,.5],[.5,0,.5],[.5,.5,0]]),
168	'P->I':np.array([[0,1,1],[1,0,1],[1,1,0]]),'I->P':np.array([[-.5,.5,.5],[.5,-.5,.5],[.5,.5,-.5]]),
169	'A->P':np.array([[-1,0,0],[0,-.5,.5],[0,.5,.5]]),'O->R':np.array([[-1,0,0],[0,-1,0],[0,0,1]]),
170	'abc*':np.eye(3), }
171	commonNames = ['abc','bca','cab','a-cb','ba-c','-cba','P->A','A->P','P->B','B->P','P->C','C->P',
172	'P->I','I->P','P->F','F->P','P->R','R->P','R->O','O->R','abc*',]
173
174	# Should SGMessageBox, SymOpDialog, DisAglDialog be moved?
175
176	################################################################################
177	#### GSAS-II class definitions
178	################################################################################
179
180	class SGMessageBox(wx.Dialog):
181	''' Special version of MessageBox that displays space group & super space group text
182	in two blocks
183	'''
184	def __init__(self,parent,title,text,table,):
185	wx.Dialog.__init__(self,parent,wx.ID_ANY,title,pos=wx.DefaultPosition,
186	style=wx.DEFAULT_DIALOG_STYLE\|wx.RESIZE_BORDER)
187	self.text = text
188	self.table = table
189	self.panel = wx.Panel(self)
190	mainSizer = wx.BoxSizer(wx.VERTICAL)
191	mainSizer.Add((0,10))
192	for line in text:
193	mainSizer.Add(wx.StaticText(self.panel,label=' %s '%(line)),0,WACV)
194	ncol = self.table[0].count(',')+1
195	tableSizer = wx.FlexGridSizer(0,2*ncol+3,0,0)
196	for j,item in enumerate(self.table):
197	num,flds = item.split(')')
198	tableSizer.Add(wx.StaticText(self.panel,label=' %s '%(num+')')),0,WACV\|wx.ALIGN_LEFT)
199	flds = flds.replace(' ','').split(',')
200	for i,fld in enumerate(flds):
201	if i < ncol-1:
202	tableSizer.Add(wx.StaticText(self.panel,label='%s, '%(fld)),0,WACV\|wx.ALIGN_RIGHT)
203	else:
204	tableSizer.Add(wx.StaticText(self.panel,label='%s'%(fld)),0,WACV\|wx.ALIGN_RIGHT)
205	if not j%2:
206	tableSizer.Add((20,0))
207	mainSizer.Add(tableSizer,0,wx.ALIGN_LEFT)
208	btnsizer = wx.StdDialogButtonSizer()
209	OKbtn = wx.Button(self.panel, wx.ID_OK)
210	OKbtn.Bind(wx.EVT_BUTTON, self.OnOk)
211	OKbtn.SetDefault()
212	btnsizer.AddButton(OKbtn)
213	btnsizer.Realize()
214	mainSizer.Add((0,10))
215	mainSizer.Add(btnsizer,0,wx.ALIGN_CENTER)
216	self.panel.SetSizer(mainSizer)
217	self.panel.Fit()
218	self.Fit()
219	size = self.GetSize()
220	self.SetSize([size[0]+20,size[1]])
221
222	def Show(self):
223	'''Use this method after creating the dialog to post it
224	'''
225	self.ShowModal()
226	return
227
228	def OnOk(self,event):
229	parent = self.GetParent()
230	parent.Raise()
231	self.EndModal(wx.ID_OK)
232
233	class SGMagSpinBox(wx.Dialog):
234	''' Special version of MessageBox that displays magnetic spin text
235	'''
236	def __init__(self,parent,title,text,table,names,spins,):
237	wx.Dialog.__init__(self,parent,wx.ID_ANY,title,pos=wx.DefaultPosition,
238	style=wx.DEFAULT_DIALOG_STYLE\|wx.RESIZE_BORDER,size=wx.Size(420,350))
239	self.text = text
240	self.table = table
241	self.names = names
242	self.spins = spins
243	self.panel = wxscroll.ScrolledPanel(self)
244	mainSizer = wx.BoxSizer(wx.VERTICAL)
245	mainSizer.Add((0,10))
246	first = text[0].split(':')[-1].strip()
247	cents = [0,]
248	if 'P' != first[0]:
249	cents = text[-1].split(';')
250	for line in text:
251	mainSizer.Add(wx.StaticText(self.panel,label=' %s '%(line)),0,WACV)
252	ncol = self.table[0].count(',')+2
253	for ic,cent in enumerate(cents):
254	if cent:
255	cent = cent.strip(' (').strip(')+\n')
256	mainSizer.Add(wx.StaticText(self.panel,label=' for (%s)+'%(cent)),0,WACV)
257	tableSizer = wx.FlexGridSizer(0,2*ncol+3,0,0)
258	for j,item in enumerate(self.table):
259	flds = item.split(')')[1]
260	tableSizer.Add(wx.StaticText(self.panel,label=' (%2d) '%(j+1)),0,WACV\|wx.ALIGN_LEFT)
261	flds = flds.replace(' ','').split(',')
262	for i,fld in enumerate(flds):
263	if i < ncol-1:
264	text = wx.StaticText(self.panel,label='%s, '%(fld))
265	tableSizer.Add(text,0,WACV\|wx.ALIGN_RIGHT)
266	else:
267	text = wx.StaticText(self.panel,label='%s '%(fld))
268	tableSizer.Add(text,0,WACV\|wx.ALIGN_RIGHT)
269	text = wx.StaticText(self.panel,label=' (%s) '%(self.names[j]))
270	if self.spins[j+ic*len(self.table)] < 0:
271	text.SetForegroundColour('Red')
272	tableSizer.Add(text,0,WACV\|wx.ALIGN_RIGHT)
273	if not j%2:
274	tableSizer.Add((20,0))
275	mainSizer.Add(tableSizer,0,wx.ALIGN_CENTER)
276
277	btnsizer = wx.StdDialogButtonSizer()
278	OKbtn = wx.Button(self.panel, wx.ID_OK)
279	OKbtn.SetDefault()
280	btnsizer.AddButton(OKbtn)
281	btnsizer.Realize()
282	mainSizer.Add((0,10))
283	mainSizer.Add(btnsizer,0,wx.ALIGN_CENTER)
284	self.panel.SetSizer(mainSizer)
285	size = np.array(self.GetSize())
286	self.panel.SetupScrolling()
287	size = [size[0]-5,size[1]-20] #this fiddling is needed for older wx!
288	self.panel.SetSize(size)
289	self.panel.SetAutoLayout(1)
290
291	def Show(self):
292	'''Use this method after creating the dialog to post it
293	'''
294	self.ShowModal()
295	return
296
297	################################################################################
298	class SymOpDialog(wx.Dialog):
299	'''Class to select a symmetry operator
300	'''
301	def __init__(self,parent,SGData,New=True,ForceUnit=False):
302	wx.Dialog.__init__(self,parent,-1,'Select symmetry operator',
303	pos=wx.DefaultPosition,style=wx.DEFAULT_DIALOG_STYLE)
304	panel = wx.Panel(self)
305	self.SGData = SGData
306	self.New = New
307	self.Force = ForceUnit
308	self.OpSelected = [0,0,0,[0,0,0],False,False]
309	mainSizer = wx.BoxSizer(wx.VERTICAL)
310	if ForceUnit:
311	choice = ['No','Yes']
312	self.force = wx.RadioBox(panel,-1,'Force to unit cell?',choices=choice)
313	self.force.Bind(wx.EVT_RADIOBOX, self.OnOpSelect)
314	mainSizer.Add(self.force,0,WACV\|wx.TOP,5)
315	# if SGData['SGInv']:
316	choice = ['No','Yes']
317	self.inv = wx.RadioBox(panel,-1,'Choose inversion?',choices=choice)
318	self.inv.Bind(wx.EVT_RADIOBOX, self.OnOpSelect)
319	mainSizer.Add(self.inv,0,WACV)
320	if SGData['SGLatt'] != 'P':
321	LattOp = G2spc.Latt2text(SGData['SGLatt']).split(';')
322	self.latt = wx.RadioBox(panel,-1,'Choose cell centering?',choices=LattOp)
323	self.latt.Bind(wx.EVT_RADIOBOX, self.OnOpSelect)
324	mainSizer.Add(self.latt,0,WACV)
325	if SGData['SGLaue'] in ['-1','2/m','mmm','4/m','4/mmm']:
326	Ncol = 2
327	else:
328	Ncol = 3
329	OpList = []
330	for Opr in SGData['SGOps']:
331	OpList.append(G2spc.MT2text(Opr))
332	self.oprs = wx.RadioBox(panel,-1,'Choose space group operator?',choices=OpList,
333	majorDimension=Ncol)
334	self.oprs.Bind(wx.EVT_RADIOBOX, self.OnOpSelect)
335	mainSizer.Add(self.oprs,0,WACV\|wx.BOTTOM,5)
336	mainSizer.Add(wx.StaticText(panel,-1," Choose unit cell?"),0,WACV)
337	cellSizer = wx.BoxSizer(wx.HORIZONTAL)
338	cellName = ['X','Y','Z']
339	self.cell = []
340	for i in range(3):
341	self.cell.append(wx.SpinCtrl(panel,-1,cellName[i],size=wx.Size(50,20)))
342	self.cell[-1].SetRange(-3,3)
343	self.cell[-1].SetValue(0)
344	self.cell[-1].Bind(wx.EVT_SPINCTRL, self.OnOpSelect)
345	cellSizer.Add(self.cell[-1],0,WACV)
346	mainSizer.Add(cellSizer,0,WACV\|wx.BOTTOM,5)
347	if self.New:
348	choice = ['No','Yes']
349	self.new = wx.RadioBox(panel,-1,'Generate new positions?',choices=choice)
350	self.new.Bind(wx.EVT_RADIOBOX, self.OnOpSelect)
351	mainSizer.Add(self.new,0,WACV)
352
353	OkBtn = wx.Button(panel,-1,"Ok")
354	OkBtn.Bind(wx.EVT_BUTTON, self.OnOk)
355	cancelBtn = wx.Button(panel,-1,"Cancel")
356	cancelBtn.Bind(wx.EVT_BUTTON, self.OnCancel)
357	btnSizer = wx.BoxSizer(wx.HORIZONTAL)
358	btnSizer.Add((20,20),1)
359	btnSizer.Add(OkBtn)
360	btnSizer.Add((20,20),1)
361	btnSizer.Add(cancelBtn)
362	btnSizer.Add((20,20),1)
363
364	mainSizer.Add(btnSizer,0,wx.EXPAND\|wx.BOTTOM\|wx.TOP, 10)
365	panel.SetSizer(mainSizer)
366	panel.Fit()
367	self.Fit()
368
369	def OnOpSelect(self,event):
370	# if self.SGData['SGInv']:
371	self.OpSelected[0] = self.inv.GetSelection()
372	if self.SGData['SGLatt'] != 'P':
373	self.OpSelected[1] = self.latt.GetSelection()
374	self.OpSelected[2] = self.oprs.GetSelection()
375	for i in range(3):
376	self.OpSelected[3][i] = float(self.cell[i].GetValue())
377	if self.New:
378	self.OpSelected[4] = self.new.GetSelection()
379	if self.Force:
380	self.OpSelected[5] = self.force.GetSelection()
381
382	def GetSelection(self):
383	return self.OpSelected
384
385	def OnOk(self,event):
386	parent = self.GetParent()
387	parent.Raise()
388	self.EndModal(wx.ID_OK)
389
390	def OnCancel(self,event):
391	parent = self.GetParent()
392	parent.Raise()
393	self.EndModal(wx.ID_CANCEL)
394
395	################################################################################
396	class SphereEnclosure(wx.Dialog):
397	''' Add atoms within sphere of enclosure to drawing
398
399	:param wx.Frame parent: reference to parent frame (or None)
400	:param general: general data (includes drawing data)
401	:param atoms: drawing atoms data
402	:param indx: list of selected atoms (may be empty)
403
404	'''
405	def __init__(self,parent,general,drawing,indx):
406	wx.Dialog.__init__(self,parent,wx.ID_ANY,'Setup phase transformation',
407	pos=wx.DefaultPosition,style=wx.DEFAULT_DIALOG_STYLE)
408	self.panel = wx.Panel(self) #just a dummy - gets destroyed in Draw!
409	self.General = general
410	self.Drawing = drawing
411	self.indx = indx
412	self.Sphere = 1.0
413	self.centers = []
414	self.atomTypes = [[item,True] for item in self.General['AtomTypes']]
415
416	self.Draw()
417
418	def Draw(self):
419
420	def OnRadius(event):
421	event.Skip()
422	try:
423	val = float(radius.GetValue())
424	if val < 0.5:
425	raise ValueError
426	self.Sphere = val
427	except ValueError:
428	pass
429	radius.SetValue('%.3f'%(self.Sphere))
430
431	def OnAtomType(event):
432	Obj = event.GetEventObject()
433	id = Ind[Obj.GetId()]
434	self.atomTypes[id][1] = Obj.GetValue()
435
436	self.panel.Destroy()
437	self.panel = wx.Panel(self)
438	mainSizer = wx.BoxSizer(wx.VERTICAL)
439	mainSizer.Add(wx.StaticText(self.panel,label=' Sphere of enclosure controls:'),0,WACV)
440	topSizer = wx.BoxSizer(wx.HORIZONTAL)
441	atoms = []
442	if len(self.indx):
443	topSizer.Add(wx.StaticText(self.panel,label=' Sphere centered at atoms: '),0,WACV)
444	cx,ct,cs = self.Drawing['atomPtrs'][:3]
445	# print self.Drawing.keys()
446	for id in self.indx:
447	atom = self.Drawing['Atoms'][id]
448	self.centers.append(atom[cx:cx+3])
449	atoms.append('%s(%s)'%(atom[ct-1],atom[cs-1]))
450	topSizer.Add(wx.ComboBox(self.panel,choices=atoms,value=atoms[0],
451	style=wx.CB_READONLY\|wx.CB_DROPDOWN),0,WACV)
452	else:
453	topSizer.Add(wx.StaticText(self.panel,label=' Sphere centered at drawing view point'),0,WACV)
454	self.centers.append(self.Drawing['viewPoint'][0])
455	mainSizer.Add(topSizer,0,WACV)
456	sphereSizer = wx.BoxSizer(wx.HORIZONTAL)
457	sphereSizer.Add(wx.StaticText(self.panel,label=' Sphere radius: '),0,WACV)
458	radius = wx.TextCtrl(self.panel,value='%.3f'%(self.Sphere),style=wx.TE_PROCESS_ENTER)
459	radius.Bind(wx.EVT_TEXT_ENTER,OnRadius)
460	radius.Bind(wx.EVT_KILL_FOCUS,OnRadius)
461	sphereSizer.Add(radius,0,WACV)
462	mainSizer.Add(sphereSizer,0,WACV)
463	mainSizer.Add(wx.StaticText(self.panel,label=' Target selected atoms:'),0,WACV)
464	atSizer = wx.BoxSizer(wx.HORIZONTAL)
465	Ind = {}
466	for i,item in enumerate(self.atomTypes):
467	atm = wx.CheckBox(self.panel,label=item[0])
468	atm.SetValue(item[1])
469	atm.Bind(wx.EVT_CHECKBOX, OnAtomType)
470	Ind[atm.GetId()] = i
471	atSizer.Add(atm,0,WACV)
472	mainSizer.Add(atSizer,0,WACV)
473
474	OkBtn = wx.Button(self.panel,-1,"Ok")
475	OkBtn.Bind(wx.EVT_BUTTON, self.OnOk)
476	cancelBtn = wx.Button(self.panel,-1,"Cancel")
477	cancelBtn.Bind(wx.EVT_BUTTON, self.OnCancel)
478	btnSizer = wx.BoxSizer(wx.HORIZONTAL)
479	btnSizer.Add((20,20),1)
480	btnSizer.Add(OkBtn)
481	btnSizer.Add((20,20),1)
482	btnSizer.Add(cancelBtn)
483	btnSizer.Add((20,20),1)
484
485	mainSizer.Add(btnSizer,0,wx.EXPAND\|wx.BOTTOM\|wx.TOP, 10)
486	self.panel.SetSizer(mainSizer)
487	self.panel.Fit()
488	self.Fit()
489
490	def GetSelection(self):
491	used = []
492	for atm in self.atomTypes:
493	if atm[1]:
494	used.append(str(atm[0]))
495	return self.centers,self.Sphere,used
496
497	def OnOk(self,event):
498	parent = self.GetParent()
499	parent.Raise()
500	self.EndModal(wx.ID_OK)
501
502	def OnCancel(self,event):
503	parent = self.GetParent()
504	parent.Raise()
505	self.EndModal(wx.ID_CANCEL)
506
507	################################################################################
508	class TransformDialog(wx.Dialog):
509	''' Phase transformation
510
511	:param wx.Frame parent: reference to parent frame (or None)
512	:param phase: phase data
513
514	#NB: commonNames & commonTrans defined at top of this file
515	'''
516	def __init__(self,parent,phase):
517	wx.Dialog.__init__(self,parent,wx.ID_ANY,'Setup phase transformation',
518	pos=wx.DefaultPosition,style=wx.DEFAULT_DIALOG_STYLE)
519	self.panel = wx.Panel(self) #just a dummy - gets destroyed in Draw!
520	self.Phase = copy.deepcopy(phase) #will be a new phase!
521	# self.Super = phase['General']['Super']
522	# if self.Super:
523	# self.Trans = np.eye(4)
524	# self.Vec = np.zeros(4)
525	# else:
526	self.Trans = np.eye(3)
527	self.Vec = np.zeros(3)
528	self.oldSpGrp = phase['General']['SGData']['SpGrp']
529	self.oldSGdata = phase['General']['SGData']
530	self.newSpGrp = self.Phase['General']['SGData']['SpGrp']
531	self.oldCell = phase['General']['Cell'][1:8]
532	self.newCell = self.Phase['General']['Cell'][1:8]
533	self.Common = 'abc'
534	self.ifMag = False
535	self.ifConstr = True
536	self.Draw()
537
538	def Draw(self):
539
540	def OnMatValue(event):
541	event.Skip()
542	Obj = event.GetEventObject()
543	ix,iy = Ind[Obj.GetId()]
544	val = Obj.GetValue()
545	try:
546	if '/' in val:
547	vals = val.split('/')
548	self.Trans[iy,ix] = float(vals[0])/float(vals[1])
549	else:
550	self.Trans[iy,ix] = float(Obj.GetValue())
551	except ValueError:
552	pass
553	Obj.SetValue('%5.3f'%(self.Trans[iy,ix]))
554
555	def OnVecValue(event):
556	event.Skip()
557	Obj = event.GetEventObject()
558	iy = Ind[Obj.GetId()]
559	val = Obj.GetValue()
560	try:
561	if '/' in val:
562	vals = val.split('/')
563	self.Vec[iy] = float(vals[0])/float(vals[1])
564	else:
565	self.Vec[iy] = float(Obj.GetValue())
566	except ValueError:
567	pass
568	Obj.SetValue('%5.3f'%(self.Vec[iy]))
569
570	def OnCommon(event):
571	Obj = event.GetEventObject()
572	self.Common = Obj.GetValue()
573	if '*' in self.Common:
574	A,B = G2lat.cell2AB(self.oldCell[:6])
575	self.newCell[2:5] = [A[2,2],90.,90.]
576	a,b = G2lat.cell2AB(self.newCell[:6])
577	self.Trans = np.inner(a.T,B) #correct!
578	self.newSpGrp = 'P 1'
579	SGErr,SGData = G2spc.SpcGroup(self.newSpGrp)
580	self.Phase['General']['SGData'] = SGData
581	else:
582	self.Trans = commonTrans[self.Common]
583	OnTest(event)
584
585	def OnSpaceGroup(event):
586	event.Skip()
587	Flds = SGTxt.GetValue().split()
588	Flds[0] = Flds[0].upper()
589	#get rid of extra spaces between fields first
590	for fld in Flds: fld = fld.strip()
591	SpcGp = ' '.join(Flds)
592	if SpcGp == self.newSpGrp: #didn't change it!
593	return
594	# try a lookup on the user-supplied name
595	SpGrpNorm = G2spc.StandardizeSpcName(SpcGp)
596	if SpGrpNorm:
597	SGErr,SGData = G2spc.SpcGroup(SpGrpNorm)
598	else:
599	SGErr,SGData = G2spc.SpcGroup(SpcGp)
600	if SGErr:
601	text = [G2spc.SGErrors(SGErr)+'\nSpace Group set to previous']
602	SGTxt.SetValue(self.newSpGrp)
603	msg = 'Space Group Error'
604	Style = wx.ICON_EXCLAMATION
605	Text = '\n'.join(text)
606	wx.MessageBox(Text,caption=msg,style=Style)
607	else:
608	text,table = G2spc.SGPrint(SGData)
609	self.Phase['General']['SGData'] = SGData
610	self.newSpGrp = SpcGp
611	SGTxt.SetValue(self.Phase['General']['SGData']['SpGrp'])
612	msg = 'Space Group Information'
613	SGMessageBox(self.panel,msg,text,table).Show()
614	if self.Phase['General']['Type'] == 'magnetic':
615	Nops = len(SGData['SGOps'])*len(SGData['SGCen'])
616	if SGData['SGInv']:
617	Nops *= 2
618	SGData['SpnFlp'] = Nops*[1,]
619	# if self.Phase['General']['Type'] in ['modulated',]:
620	# self.Phase['General']['SuperSg'] = SetDefaultSSsymbol()
621	# self.Phase['General']['SSGData'] = G2spc.SSpcGroup(generalData['SGData'],generalData['SuperSg'])[1]
622
623	def OnTest(event):
624	self.newCell = G2lat.TransformCell(self.oldCell[:6],self.Trans)
625	wx.CallAfter(self.Draw)
626
627	def OnMag(event):
628	self.ifMag = mag.GetValue()
629
630	def OnConstr(event):
631	self.ifConstr = constr.GetValue()
632
633	self.panel.Destroy()
634	self.panel = wx.Panel(self)
635	Ind = {}
636	mainSizer = wx.BoxSizer(wx.VERTICAL)
637	MatSizer = wx.BoxSizer(wx.HORIZONTAL)
638	transSizer = wx.BoxSizer(wx.VERTICAL)
639	transSizer.Add(wx.StaticText(self.panel,label=" XYZ Transformation matrix & vector: M*X+V = X'"))
640	# if self.Super:
641	# Trmat = wx.FlexGridSizer(4,4,0,0)
642	# else:
643	commonSizer = wx.BoxSizer(wx.HORIZONTAL)
644	commonSizer.Add(wx.StaticText(self.panel,label=' Common transformations: '),0,WACV)
645	common = wx.ComboBox(self.panel,value=self.Common,choices=commonNames,
646	style=wx.CB_READONLY\|wx.CB_DROPDOWN)
647	common.Bind(wx.EVT_COMBOBOX,OnCommon)
648	commonSizer.Add(common,0,WACV)
649	transSizer.Add(commonSizer)
650	Trmat = wx.FlexGridSizer(3,5,0,0)
651	for iy,line in enumerate(self.Trans):
652	for ix,val in enumerate(line):
653	item = wx.TextCtrl(self.panel,value='%5.3f'%(val),
654	size=(50,25),style=wx.TE_PROCESS_ENTER)
655	Ind[item.GetId()] = [ix,iy]
656	item.Bind(wx.EVT_TEXT_ENTER,OnMatValue)
657	item.Bind(wx.EVT_KILL_FOCUS,OnMatValue)
658	Trmat.Add(item)
659	Trmat.Add((25,0),0)
660	vec = wx.TextCtrl(self.panel,value='%5.3f'%(self.Vec[iy]),
661	size=(50,25),style=wx.TE_PROCESS_ENTER)
662	Ind[vec.GetId()] = [iy]
663	vec.Bind(wx.EVT_TEXT_ENTER,OnVecValue)
664	vec.Bind(wx.EVT_KILL_FOCUS,OnVecValue)
665	Trmat.Add(vec)
666	transSizer.Add(Trmat)
667	MatSizer.Add((10,0),0)
668	MatSizer.Add(transSizer)
669	mainSizer.Add(MatSizer)
670	mainSizer.Add(wx.StaticText(self.panel,label=' Old lattice parameters:'),0,WACV)
671	mainSizer.Add(wx.StaticText(self.panel,label=
672	' a = %.5f b = %.5f c = %.5f'%(self.oldCell[0],self.oldCell[1],self.oldCell[2])),0,WACV)
673	mainSizer.Add(wx.StaticText(self.panel,label=' alpha = %.3f beta = %.3f gamma = %.3f'%
674	(self.oldCell[3],self.oldCell[4],self.oldCell[5])),0,WACV)
675	mainSizer.Add(wx.StaticText(self.panel,label=' volume = %.3f'%(self.oldCell[6])),0,WACV)
676	mainSizer.Add(wx.StaticText(self.panel,label=' New lattice parameters:'),0,WACV)
677	mainSizer.Add(wx.StaticText(self.panel,label=
678	' a = %.5f b = %.5f c = %.5f'%(self.newCell[0],self.newCell[1],self.newCell[2])),0,WACV)
679	mainSizer.Add(wx.StaticText(self.panel,label=' alpha = %.3f beta = %.3f gamma = %.3f'%
680	(self.newCell[3],self.newCell[4],self.newCell[5])),0,WACV)
681	mainSizer.Add(wx.StaticText(self.panel,label=' volume = %.3f'%(self.newCell[6])),0,WACV)
682	sgSizer = wx.BoxSizer(wx.HORIZONTAL)
683	sgSizer.Add(wx.StaticText(self.panel,label=' Space group: '),0,WACV)
684	SGTxt = wx.TextCtrl(self.panel,value=self.newSpGrp,style=wx.TE_PROCESS_ENTER)
685	SGTxt.Bind(wx.EVT_TEXT_ENTER,OnSpaceGroup)
686	SGTxt.Bind(wx.EVT_KILL_FOCUS,OnSpaceGroup)
687	sgSizer.Add(SGTxt,0,WACV)
688	mainSizer.Add(sgSizer,0,WACV)
689	if 'magnetic' not in self.Phase['General']['Type']:
690	mag = wx.CheckBox(self.panel,label=' Make new phase magnetic?')
691	mag.Bind(wx.EVT_CHECKBOX,OnMag)
692	mainSizer.Add(mag,0,WACV)
693	mainSizer.Add(wx.StaticText(self.panel, \
694	label=' NB: Nonmagnetic atoms will be deleted from new phase'),0,WACV)
695	constr = wx.CheckBox(self.panel,label=' Make constraints between phases?')
696	mainSizer.Add(wx.StaticText(self.panel, \
697	label=' Constraints not correct for non-diagonal transforms'),0,WACV)
698	constr.SetValue(self.ifConstr)
699	constr.Bind(wx.EVT_CHECKBOX,OnConstr)
700	mainSizer.Add(constr,0,WACV)
701
702	TestBtn = wx.Button(self.panel,-1,"Test")
703	TestBtn.Bind(wx.EVT_BUTTON, OnTest)
704	OkBtn = wx.Button(self.panel,-1,"Ok")
705	OkBtn.Bind(wx.EVT_BUTTON, self.OnOk)
706	cancelBtn = wx.Button(self.panel,-1,"Cancel")
707	cancelBtn.Bind(wx.EVT_BUTTON, self.OnCancel)
708	btnSizer = wx.BoxSizer(wx.HORIZONTAL)
709	btnSizer.Add((20,20),1)
710	btnSizer.Add(TestBtn)
711	btnSizer.Add((20,20),1)
712	btnSizer.Add(OkBtn)
713	btnSizer.Add((20,20),1)
714	btnSizer.Add(cancelBtn)
715	btnSizer.Add((20,20),1)
716
717	mainSizer.Add(btnSizer,0,wx.EXPAND\|wx.BOTTOM\|wx.TOP, 10)
718	self.panel.SetSizer(mainSizer)
719	self.panel.Fit()
720	self.Fit()
721
722	def GetSelection(self):
723	if self.ifMag:
724	self.Phase['General']['Name'] += ' mag'
725	else:
726	self.Phase['General']['Name'] += ' %s'%(self.Common)
727	self.Phase['General']['Cell'][1:] = G2lat.TransformCell(self.oldCell[:6],self.Trans)
728	return self.Phase,self.Trans,self.Vec,self.ifMag,self.ifConstr
729
730	def OnOk(self,event):
731	parent = self.GetParent()
732	parent.Raise()
733	self.EndModal(wx.ID_OK)
734
735	def OnCancel(self,event):
736	parent = self.GetParent()
737	parent.Raise()
738	self.EndModal(wx.ID_CANCEL)
739	################################################################################
740	class UseMagAtomDialog(wx.Dialog):
741	'''Get user selected magnetic atoms after cell transformation
742	'''
743	def __init__(self,parent,Atoms,atCodes):
744	wx.Dialog.__init__(self,parent,wx.ID_ANY,'Magnetic atom selection',
745	pos=wx.DefaultPosition,style=wx.DEFAULT_DIALOG_STYLE)
746	self.panel = wx.Panel(self) #just a dummy - gets destroyed in Draw!
747	self.Atoms = Atoms
748	self.atCodes = atCodes
749	self.Use = len(self.Atoms)*[True,]
750	self.Draw()
751
752	def Draw(self):
753
754	def OnUseChk(event):
755	Obj = event.GetEventObject()
756	iuse = Indx[Obj.GetId()]
757	self.Use[iuse] = not self.Use[iuse]
758	Obj.SetValue(self.Use[iuse])
759
760	self.panel.Destroy()
761	self.panel = wx.Panel(self)
762	Indx = {}
763	mainSizer = wx.BoxSizer(wx.VERTICAL)
764
765	mainSizer.Add(wx.StaticText(self.panel,label=' Name, x, y, z:'),0,WACV)
766	atmSizer = wx.FlexGridSizer(0,2,5,5)
767	for iuse,[use,atom] in enumerate(zip(self.Use,self.Atoms)):
768	useChk = wx.CheckBox(self.panel,label='Use?')
769	Indx[useChk.GetId()] = iuse
770	useChk.SetValue(use)
771	useChk.Bind(wx.EVT_CHECKBOX, OnUseChk)
772	atmSizer.Add(useChk,0,WACV)
773	text = ' %s %10.5f %10.5f %10.5f'%(atom[0],atom[3],atom[4],atom[5])
774	atmSizer.Add(wx.StaticText(self.panel,label=text),0,WACV)
775	mainSizer.Add(atmSizer)
776
777	OkBtn = wx.Button(self.panel,-1,"Ok")
778	OkBtn.Bind(wx.EVT_BUTTON, self.OnOk)
779	cancelBtn = wx.Button(self.panel,-1,"Use All")
780	cancelBtn.Bind(wx.EVT_BUTTON, self.OnCancel)
781	btnSizer = wx.BoxSizer(wx.HORIZONTAL)
782	btnSizer.Add((20,20),1)
783	btnSizer.Add(OkBtn)
784	btnSizer.Add((20,20),1)
785	btnSizer.Add(cancelBtn)
786	btnSizer.Add((20,20),1)
787
788	mainSizer.Add(btnSizer,0,wx.EXPAND\|wx.BOTTOM\|wx.TOP, 10)
789	self.panel.SetSizer(mainSizer)
790	self.panel.Fit()
791	self.Fit()
792
793	def GetSelection(self):
794	useAtoms = []
795	useatCodes = []
796	for use,atom,code in zip(self.Use,self.Atoms,self.atCodes):
797	if use:
798	useAtoms.append(atom)
799	useatCodes.append(code)
800	return useAtoms,useatCodes
801
802	def OnOk(self,event):
803	parent = self.GetParent()
804	parent.Raise()
805	self.EndModal(wx.ID_OK)
806
807	def OnCancel(self,event):
808	parent = self.GetParent()
809	parent.Raise()
810	self.EndModal(wx.ID_CANCEL)
811
812
813	################################################################################
814	class RotationDialog(wx.Dialog):
815	''' Get Rotate & translate matrix & vector - currently not used
816	needs rethinking - possible use to rotate a group of atoms about some
817	vector/origin + translation
818
819	'''
820	def __init__(self,parent):
821	wx.Dialog.__init__(self,parent,wx.ID_ANY,'Atom group rotation/translation',
822	pos=wx.DefaultPosition,style=wx.DEFAULT_DIALOG_STYLE)
823	self.panel = wx.Panel(self) #just a dummy - gets destroyed in Draw!
824	self.Trans = np.eye(3)
825	self.Vec = np.zeros(3)
826	self.rotAngle = 0.
827	self.rotVec = np.array([0.,0.,1.])
828	self.Expand = ''
829	self.Draw()
830
831	def Draw(self):
832
833	def OnMatValue(event):
834	event.Skip()
835	Obj = event.GetEventObject()
836	ix,iy = Ind[Obj.GetId()]
837	val = Obj.GetValue()
838	if '/' in val:
839	vals = val.split('/')
840	self.Trans[iy,ix] = float(vals[0])/float(vals[1])
841	else:
842	self.Trans[iy,ix] = float(Obj.GetValue())
843	Obj.SetValue('%5.3f'%(self.Trans[iy,ix]))
844
845
846	def OnVecValue(event):
847	event.Skip()
848	Obj = event.GetEventObject()
849	iy = Ind[Obj.GetId()]
850	val = Obj.GetValue()
851	if '/' in val:
852	vals = val.split('/')
853	self.Vec[iy] = float(vals[0])/float(vals[1])
854	else:
855	self.Vec[iy] = float(Obj.GetValue())
856	Obj.SetValue('%5.3f'%(self.Vec[iy]))
857
858	def OnExpand(event):
859	self.Expand = expand.GetValue()
860
861	def OnRotAngle(event):
862	event.Skip()
863	self.rotAngle = float(rotangle.GetValue())
864	rotangle.SetValue('%5.3f'%(self.rotAngle))
865	Q = G2mth.AVdeg2Q(self.rotAngle,self.rotVec)
866	self.Trans = G2mth.Q2Mat(Q)
867	self.Draw()
868
869	def OnRotVec(event):
870	event.Skip()
871	vals = rotvec.GetValue()
872	vals = vals.split()
873	self.rotVec = np.array([float(val) for val in vals])
874	rotvec.SetValue('%5.3f %5.3f %5.3f'%(self.rotVec[0],self.rotVec[1],self.rotVec[2]))
875	Q = G2mth.AVdeg2Q(self.rotAngle,self.rotVec)
876	self.Trans = G2mth.Q2Mat(Q)
877	self.Draw()
878
879	self.panel.Destroy()
880	self.panel = wx.Panel(self)
881	Ind = {}
882	mainSizer = wx.BoxSizer(wx.VERTICAL)
883	MatSizer = wx.BoxSizer(wx.HORIZONTAL)
884	transSizer = wx.BoxSizer(wx.VERTICAL)
885	transSizer.Add(wx.StaticText(self.panel,label=" XYZ Transformation matrix && vector: "+ \
886	"\n BMA*(X-V)+V = X'\n A,B: Cartesian transformation matrices"))
887	Trmat = wx.FlexGridSizer(3,5,0,0)
888	for iy,line in enumerate(self.Trans):
889	for ix,val in enumerate(line):
890	item = wx.TextCtrl(self.panel,value='%5.3f'%(val),
891	size=(50,25),style=wx.TE_PROCESS_ENTER)
892	Ind[item.GetId()] = [ix,iy]
893	item.Bind(wx.EVT_TEXT_ENTER,OnMatValue)
894	item.Bind(wx.EVT_KILL_FOCUS,OnMatValue)
895	Trmat.Add(item)
896	Trmat.Add((25,0),0)
897	vec = wx.TextCtrl(self.panel,value='%5.3f'%(self.Vec[iy]),
898	size=(50,25),style=wx.TE_PROCESS_ENTER)
899	Ind[vec.GetId()] = [iy]
900	vec.Bind(wx.EVT_TEXT_ENTER,OnVecValue)
901	vec.Bind(wx.EVT_KILL_FOCUS,OnVecValue)
902	Trmat.Add(vec)
903	transSizer.Add(Trmat)
904	MatSizer.Add((10,0),0)
905	MatSizer.Add(transSizer)
906	mainSizer.Add(MatSizer)
907	rotationBox = wx.BoxSizer(wx.HORIZONTAL)
908	rotationBox.Add(wx.StaticText(self.panel,label=' Rotation angle: '),0,WACV)
909	rotangle = wx.TextCtrl(self.panel,value='%5.3f'%(self.rotAngle),
910	size=(50,25),style=wx.TE_PROCESS_ENTER)
911	rotangle.Bind(wx.EVT_TEXT_ENTER,OnRotAngle)
912	rotangle.Bind(wx.EVT_KILL_FOCUS,OnRotAngle)
913	rotationBox.Add(rotangle,0,WACV)
914	rotationBox.Add(wx.StaticText(self.panel,label=' about vector: '),0,WACV)
915	rotvec = wx.TextCtrl(self.panel,value='%5.3f %5.3f %5.3f'%(self.rotVec[0],self.rotVec[1],self.rotVec[2]),
916	size=(100,25),style=wx.TE_PROCESS_ENTER)
917	rotvec.Bind(wx.EVT_TEXT_ENTER,OnRotVec)
918	rotvec.Bind(wx.EVT_KILL_FOCUS,OnRotVec)
919	rotationBox.Add(rotvec,0,WACV)
920	mainSizer.Add(rotationBox,0,WACV)
921	expandChoice = ['','xy','xz','yz','xyz']
922	expandBox = wx.BoxSizer(wx.HORIZONTAL)
923	expandBox.Add(wx.StaticText(self.panel,label=' Expand -1 to +1 on: '),0,WACV)
924	expand = wx.ComboBox(self.panel,value=self.Expand,choices=expandChoice,
925	style=wx.CB_READONLY\|wx.CB_DROPDOWN)
926	expand.Bind(wx.EVT_COMBOBOX,OnExpand)
927	expandBox.Add(expand,0,WACV)
928	expandBox.Add(wx.StaticText(self.panel,label=' and find unique atoms '),0,WACV)
929	mainSizer.Add(expandBox)
930
931	OkBtn = wx.Button(self.panel,-1,"Ok")
932	OkBtn.Bind(wx.EVT_BUTTON, self.OnOk)
933	cancelBtn = wx.Button(self.panel,-1,"Cancel")
934	cancelBtn.Bind(wx.EVT_BUTTON, self.OnCancel)
935	btnSizer = wx.BoxSizer(wx.HORIZONTAL)
936	btnSizer.Add((20,20),1)
937	btnSizer.Add(OkBtn)
938	btnSizer.Add((20,20),1)
939	btnSizer.Add(cancelBtn)
940	btnSizer.Add((20,20),1)
941
942	mainSizer.Add(btnSizer,0,wx.EXPAND\|wx.BOTTOM\|wx.TOP, 10)
943	self.panel.SetSizer(mainSizer)
944	self.panel.Fit()
945	self.Fit()
946
947	def GetSelection(self):
948	return self.Trans,self.Vec,self.Expand
949
950	def OnOk(self,event):
951	parent = self.GetParent()
952	parent.Raise()
953	self.EndModal(wx.ID_OK)
954
955	def OnCancel(self,event):
956	parent = self.GetParent()
957	parent.Raise()
958	self.EndModal(wx.ID_CANCEL)
959
960	################################################################################
961	class DIFFaXcontrols(wx.Dialog):
962	''' Solicit items needed to prepare DIFFaX control.dif file
963	'''
964	def __init__(self,parent,ctrls,parms=None):
965	wx.Dialog.__init__(self,parent,wx.ID_ANY,'DIFFaX controls',
966	pos=wx.DefaultPosition,style=wx.DEFAULT_DIALOG_STYLE)
967	self.panel = wx.Panel(self) #just a dummy - gets destroyed in Draw!
968	self.ctrls = ctrls
969	self.calcType = 'powder pattern'
970	self.plane = 'h0l'
971	self.planeChoice = ['h0l','0kl','hhl','h-hl',]
972	self.lmax = '2'
973	self.lmaxChoice = [str(i+1) for i in range(6)]
974	self.Parms = parms
975	self.Parm = None
976	if self.Parms != None:
977	self.Parm = self.Parms[0]
978	self.parmRange = [0.,1.]
979	self.parmStep = 2
980	self.Inst = 'Gaussian'
981	self.Draw()
982
983	def Draw(self):
984
985	def OnCalcType(event):
986	self.calcType = calcType.GetValue()
987	wx.CallAfter(self.Draw)
988
989	def OnPlane(event):
990	self.plane = plane.GetValue()
991
992	def OnMaxL(event):
993	self.lmax = lmax.GetValue()
994
995	def OnParmSel(event):
996	self.Parm = parmsel.GetValue()
997
998	def OnNumStep(event):
999	self.parmStep = int(numStep.GetValue())
1000
1001	def OnParmRange(event):
1002	event.Skip()
1003	vals = parmrange.GetValue().split()
1004	try:
1005	vals = [float(vals[0]),float(vals[1])]
1006	except ValueError:
1007	vals = self.parmRange
1008	parmrange.SetValue('%.3f %.3f'%(vals[0],vals[1]))
1009	self.parmRange = vals
1010
1011	def OnInstSel(event):
1012	self.Inst = instsel.GetValue()
1013
1014	self.panel.Destroy()
1015	self.panel = wx.Panel(self)
1016	mainSizer = wx.BoxSizer(wx.VERTICAL)
1017	mainSizer.Add(wx.StaticText(self.panel,label=' Controls for DIFFaX'),0,WACV)
1018	if self.Parms:
1019	mainSizer.Add(wx.StaticText(self.panel,label=' Sequential powder pattern simulation'),0,WACV)
1020	else:
1021	calcChoice = ['powder pattern','selected area']
1022	calcSizer = wx.BoxSizer(wx.HORIZONTAL)
1023	calcSizer.Add(wx.StaticText(self.panel,label=' Select calculation type: '),0,WACV)
1024	calcType = wx.ComboBox(self.panel,value=self.calcType,choices=calcChoice,
1025	style=wx.CB_READONLY\|wx.CB_DROPDOWN)
1026	calcType.Bind(wx.EVT_COMBOBOX,OnCalcType)
1027	calcSizer.Add(calcType,0,WACV)
1028	mainSizer.Add(calcSizer)
1029	if self.Parms:
1030	parmSel = wx.BoxSizer(wx.HORIZONTAL)
1031	parmSel.Add(wx.StaticText(self.panel,label=' Select parameter to vary: '),0,WACV)
1032	parmsel = wx.ComboBox(self.panel,value=self.Parm,choices=self.Parms,
1033	style=wx.CB_READONLY\|wx.CB_DROPDOWN)
1034	parmsel.Bind(wx.EVT_COMBOBOX,OnParmSel)
1035	parmSel.Add(parmsel,0,WACV)
1036	mainSizer.Add(parmSel)
1037	mainSizer.Add(wx.StaticText(self.panel,label=' Enter parameter range & no. steps: '),0,WACV)
1038	parmRange = wx.BoxSizer(wx.HORIZONTAL)
1039	numChoice = [str(i+1) for i in range(10)]
1040	parmrange = wx.TextCtrl(self.panel,value='%.3f %.3f'%(self.parmRange[0],self.parmRange[1]),
1041	style=wx.TE_PROCESS_ENTER)
1042	parmrange.Bind(wx.EVT_TEXT_ENTER,OnParmRange)
1043	parmrange.Bind(wx.EVT_KILL_FOCUS,OnParmRange)
1044	parmRange.Add(parmrange,0,WACV)
1045	numStep = wx.ComboBox(self.panel,value=str(self.parmStep),choices=numChoice,
1046	style=wx.CB_READONLY\|wx.CB_DROPDOWN)
1047	numStep.Bind(wx.EVT_COMBOBOX,OnNumStep)
1048	parmRange.Add(numStep,0,WACV)
1049	mainSizer.Add(parmRange)
1050	if 'selected' in self.calcType:
1051	planeSizer = wx.BoxSizer(wx.HORIZONTAL)
1052	planeSizer.Add(wx.StaticText(self.panel,label=' Select plane: '),0,WACV)
1053	plane = wx.ComboBox(self.panel,value=self.plane,choices=self.planeChoice,
1054	style=wx.CB_READONLY\|wx.CB_DROPDOWN)
1055	plane.Bind(wx.EVT_COMBOBOX,OnPlane)
1056	planeSizer.Add(plane,0,WACV)
1057	planeSizer.Add(wx.StaticText(self.panel,label=' Max. l index: '),0,WACV)
1058	lmax = wx.ComboBox(self.panel,value=self.lmax,choices=self.lmaxChoice,
1059	style=wx.CB_READONLY\|wx.CB_DROPDOWN)
1060	lmax.Bind(wx.EVT_COMBOBOX,OnMaxL)
1061	planeSizer.Add(lmax,0,WACV)
1062	mainSizer.Add(planeSizer)
1063	else:
1064	instChoice = ['None','Mean Gaussian','Gaussian',]
1065	instSizer = wx.BoxSizer(wx.HORIZONTAL)
1066	instSizer.Add(wx.StaticText(self.panel,label=' Select instrument broadening: '),0,WACV)
1067	instsel = wx.ComboBox(self.panel,value=self.Inst,choices=instChoice,
1068	style=wx.CB_READONLY\|wx.CB_DROPDOWN)
1069	instsel.Bind(wx.EVT_COMBOBOX,OnInstSel)
1070	instSizer.Add(instsel,0,WACV)
1071	mainSizer.Add(instSizer)
1072	OkBtn = wx.Button(self.panel,-1,"Ok")
1073	OkBtn.Bind(wx.EVT_BUTTON, self.OnOk)
1074	cancelBtn = wx.Button(self.panel,-1,"Cancel")
1075	cancelBtn.Bind(wx.EVT_BUTTON, self.OnCancel)
1076	btnSizer = wx.BoxSizer(wx.HORIZONTAL)
1077	btnSizer.Add((20,20),1)
1078	btnSizer.Add(OkBtn)
1079	btnSizer.Add((20,20),1)
1080	btnSizer.Add(cancelBtn)
1081	btnSizer.Add((20,20),1)
1082
1083	mainSizer.Add(btnSizer,0,wx.EXPAND\|wx.BOTTOM\|wx.TOP, 10)
1084	self.panel.SetSizer(mainSizer)
1085	self.panel.Fit()
1086	self.Fit()
1087
1088	def GetSelection(self):
1089	if 'powder' in self.calcType:
1090	return 'PWDR',self.Inst,self.Parm,self.parmRange,self.parmStep
1091	elif 'selected' in self.calcType:
1092	return 'SADP',self.plane,self.lmax
1093
1094	def OnOk(self,event):
1095	parent = self.GetParent()
1096	parent.Raise()
1097	self.EndModal(wx.ID_OK)
1098
1099	def OnCancel(self,event):
1100	parent = self.GetParent()
1101	parent.Raise()
1102	self.EndModal(wx.ID_CANCEL)
1103
1104
1105	################################################################################
1106	class MergeDialog(wx.Dialog):
1107	''' HKL transformation & merge dialog
1108
1109	:param wx.Frame parent: reference to parent frame (or None)
1110	:param data: HKLF data
1111
1112	#NB: commonNames & commonTrans defined at top of this file
1113	'''
1114	def __init__(self,parent,data):
1115	wx.Dialog.__init__(self,parent,wx.ID_ANY,'Setup HKLF merge',
1116	pos=wx.DefaultPosition,style=wx.DEFAULT_DIALOG_STYLE)
1117	self.panel = wx.Panel(self) #just a dummy - gets destroyed in Draw!
1118	self.data = data
1119	self.Super = data[1]['Super']
1120	if self.Super:
1121	self.Trans = np.eye(4)
1122	else:
1123	self.Trans = np.eye(3)
1124	self.Cent = 'noncentrosymmetric'
1125	self.Laue = '1'
1126	self.Class = 'triclinic'
1127	self.Common = 'abc'
1128	self.Draw()
1129
1130	def Draw(self):
1131
1132	def OnMatValue(event):
1133	event.Skip()
1134	Obj = event.GetEventObject()
1135	ix,iy = Ind[Obj.GetId()]
1136	self.Trans[ix,iy] = float(Obj.GetValue())
1137
1138	def OnCent(event):
1139	Obj = event.GetEventObject()
1140	self.Cent = Obj.GetValue()
1141	self.Laue = ''
1142	wx.CallAfter(self.Draw)
1143
1144	def OnLaue(event):
1145	Obj = event.GetEventObject()
1146	self.Laue = Obj.GetValue()
1147	wx.CallAfter(self.Draw)
1148
1149	def OnClass(event):
1150	Obj = event.GetEventObject()
1151	self.Class = Obj.GetValue()
1152	self.Laue = ''
1153	wx.CallAfter(self.Draw)
1154
1155	def OnCommon(event):
1156	Obj = event.GetEventObject()
1157	self.Common = Obj.GetValue()
1158	self.Trans = commonTrans[self.Common]
1159	wx.CallAfter(self.Draw)
1160
1161	self.panel.Destroy()
1162	self.panel = wx.Panel(self)
1163	Ind = {}
1164	mainSizer = wx.BoxSizer(wx.VERTICAL)
1165	MatSizer = wx.BoxSizer(wx.HORIZONTAL)
1166	transSizer = wx.BoxSizer(wx.VERTICAL)
1167	transSizer.Add(wx.StaticText(self.panel,label=" HKL Transformation matrix: M*H = H'"))
1168	if self.Super:
1169	Trmat = wx.FlexGridSizer(4,4,0,0)
1170	else:
1171	commonSizer = wx.BoxSizer(wx.HORIZONTAL)
1172	commonSizer.Add(wx.StaticText(self.panel,label=' Common transformations: '),0,WACV)
1173	common = wx.ComboBox(self.panel,value=self.Common,choices=commonNames[:-1], #not the last one!
1174	style=wx.CB_READONLY\|wx.CB_DROPDOWN)
1175	common.Bind(wx.EVT_COMBOBOX,OnCommon)
1176	commonSizer.Add(common,0,WACV)
1177	transSizer.Add(commonSizer)
1178	Trmat = wx.FlexGridSizer(3,3,0,0)
1179	for iy,line in enumerate(self.Trans):
1180	for ix,val in enumerate(line):
1181	item = wx.TextCtrl(self.panel,value='%5.3f'%(val),
1182	size=(50,25),style=wx.TE_PROCESS_ENTER)
1183	Ind[item.GetId()] = [ix,iy]
1184	item.Bind(wx.EVT_TEXT_ENTER,OnMatValue)
1185	item.Bind(wx.EVT_KILL_FOCUS,OnMatValue)
1186	Trmat.Add(item)
1187	transSizer.Add(Trmat)
1188	MatSizer.Add((10,0),0)
1189	MatSizer.Add(transSizer)
1190	mainSizer.Add(MatSizer)
1191	laueClass = ['triclinic','monoclinic','orthorhombic','trigonal(H)','tetragonal','hexagonal','cubic']
1192	centroLaue = {'triclinic':['-1',],'monoclinic':['2/m','1 1 2/m','2/m 1 1',],
1193	'orthorhombic':['m m m',],'trigonal(H)':['-3','-3 m 1','-3 1 m',], \
1194	'tetragonal':['4/m','4/m m m',],'hexagonal':['6/m','6/m m m',],'cubic':['m 3','m 3 m']}
1195	noncentroLaue = {'triclinic':['1',],'monoclinic':['2','2 1 1','1 1 2','m','m 1 1','1 1 m',],
1196	'orthorhombic':['2 2 2','m m 2','m 2 m','2 m m',],
1197	'trigonal(H)':['3','3 1 2','3 2 1','3 m 1','3 1 m',],
1198	'tetragonal':['4','-4','4 2 2','4 m m','-4 2 m','-4 m 2',], \
1199	'hexagonal':['6','-6','6 2 2','6 m m','-6 m 2','-6 2 m',],'cubic':['2 3','4 3 2','-4 3 m']}
1200	centChoice = ['noncentrosymmetric','centrosymmetric']
1201	mainSizer.Add(wx.StaticText(self.panel,label=' Select Laue class for new lattice:'),0,WACV)
1202	Class = wx.ComboBox(self.panel,value=self.Class,choices=laueClass,
1203	style=wx.CB_READONLY\|wx.CB_DROPDOWN)
1204	Class.Bind(wx.EVT_COMBOBOX,OnClass)
1205	mainSizer.Add(Class,0,WACV)
1206	mainSizer.Add(wx.StaticText(self.panel,label=' Target Laue symmetry:'),0,WACV)
1207	Cent = wx.ComboBox(self.panel,value=self.Cent,choices=centChoice,
1208	style=wx.CB_READONLY\|wx.CB_DROPDOWN)
1209	Cent.Bind(wx.EVT_COMBOBOX,OnCent)
1210	mergeSizer = wx.BoxSizer(wx.HORIZONTAL)
1211	mergeSizer.Add(Cent,0,WACV)
1212	mergeSizer.Add((10,0),0)
1213	Choice = centroLaue[self.Class]
1214	if 'non' in self.Cent:
1215	Choice = noncentroLaue[self.Class]
1216	Laue = wx.ComboBox(self.panel,value=self.Laue,choices=Choice,
1217	style=wx.CB_READONLY\|wx.CB_DROPDOWN)
1218	Laue.Bind(wx.EVT_COMBOBOX,OnLaue)
1219	mergeSizer.Add(Laue,0,WACV)
1220	mainSizer.Add(mergeSizer)
1221
1222	OkBtn = wx.Button(self.panel,-1,"Ok")
1223	OkBtn.Bind(wx.EVT_BUTTON, self.OnOk)
1224	cancelBtn = wx.Button(self.panel,-1,"Cancel")
1225	cancelBtn.Bind(wx.EVT_BUTTON, self.OnCancel)
1226	btnSizer = wx.BoxSizer(wx.HORIZONTAL)
1227	btnSizer.Add((20,20),1)
1228	if self.Laue:
1229	btnSizer.Add(OkBtn)
1230	btnSizer.Add((20,20),1)
1231	btnSizer.Add(cancelBtn)
1232	btnSizer.Add((20,20),1)
1233
1234	mainSizer.Add(btnSizer,0,wx.EXPAND\|wx.BOTTOM\|wx.TOP, 10)
1235	self.panel.SetSizer(mainSizer)
1236	self.panel.Fit()
1237	self.Fit()
1238
1239	def GetSelection(self):
1240	return self.Trans,self.Cent,self.Laue
1241
1242	def OnOk(self,event):
1243	parent = self.GetParent()
1244	parent.Raise()
1245	self.EndModal(wx.ID_OK)
1246
1247	def OnCancel(self,event):
1248	parent = self.GetParent()
1249	parent.Raise()
1250	self.EndModal(wx.ID_CANCEL)
1251
1252
1253	################################################################################
1254	class AddHatomDialog(wx.Dialog):
1255	'''H atom addition dialog. After :meth:`ShowModal` returns, the results
1256	are found in dict :attr:`self.data`, which is accessed using :meth:`GetData`.
1257
1258	:param wx.Frame parent: reference to parent frame (or None)
1259	:param dict Neigh: a dict of atom names with list of atom name, dist pairs for neighboring atoms
1260	:param dict phase: a dict containing the phase as defined by
1261	:ref:`Phase Tree Item <Phase_table>`
1262	'''
1263	def __init__(self,parent,Neigh,phase):
1264	wx.Dialog.__init__(self,parent,wx.ID_ANY,'H atom add',
1265	pos=wx.DefaultPosition,style=wx.DEFAULT_DIALOG_STYLE)
1266	self.panel = wxscroll.ScrolledPanel(self) #just a dummy - gets destroyed in Draw!
1267	self.Neigh = Neigh
1268	self.phase = phase
1269	self.Hatoms = []
1270	self.Draw(self.Neigh,self.phase)
1271
1272	def Draw(self,Neigh,phase):
1273	'''Creates the contents of the dialog. Normally called
1274	by :meth:`__init__`.
1275	'''
1276	def OnHSelect(event):
1277	Obj = event.GetEventObject()
1278	item,i = Indx[Obj.GetId()]
1279	for obj in Indx[item]:
1280	obj.SetValue(False)
1281	Obj.SetValue(True)
1282	self.Neigh[item][2] = i
1283
1284	def OnBond(event):
1285	Obj = event.GetEventObject()
1286	inei,ibond = Indx[Obj.GetId()]
1287	self.Neigh[inei][1][0][ibond][2] = Obj.GetValue()
1288
1289	self.panel.Destroy()
1290	self.panel = wxscroll.ScrolledPanel(self,style = wx.DEFAULT_DIALOG_STYLE)
1291	mainSizer = wx.BoxSizer(wx.VERTICAL)
1292	mainSizer.Add(wx.StaticText(self.panel,-1,'H atom add controls for phase %s:'%(phase['General']['Name'])),
1293	0,wx.LEFT\|wx.TOP,10)
1294	mainSizer.Add(wx.StaticText(self.panel,-1,'NB: Check selections as they may not be correct'),0,WACV\|wx.LEFT,10)
1295	mainSizer.Add(wx.StaticText(self.panel,-1," Atom: Add # H's Use: Neighbors, dist"),0,wx.TOP\|wx.LEFT,5)
1296	nHatms = ['0','1','2','3']
1297	dataSizer = wx.FlexGridSizer(0,3,0,0)
1298	Indx = {}
1299	for inei,neigh in enumerate(Neigh):
1300	dataSizer.Add(wx.StaticText(self.panel,-1,' %s: '%(neigh[0])),0,WACV)
1301	nH = 1 #for O atom
1302	if 'C' in neigh[0] or 'N' in neigh[0]:
1303	nH = 4-len(neigh[1][0])
1304	checks = wx.BoxSizer(wx.HORIZONTAL)
1305	Ids = []
1306	for i in range(nH+1):
1307	nHs = wx.CheckBox(self.panel,-1,label=nHatms[i])
1308	if i == neigh[2]:
1309	nHs.SetValue(True)
1310	Indx[nHs.GetId()] = [inei,i]
1311	Ids.append(nHs)
1312	nHs.Bind(wx.EVT_CHECKBOX, OnHSelect)
1313	checks.Add(nHs,0,WACV)
1314	Indx[inei] = Ids
1315	dataSizer.Add(checks,0,WACV)
1316	lineSizer = wx.BoxSizer(wx.HORIZONTAL)
1317	for ib,bond in enumerate(neigh[1][0]):
1318	Bond = wx.CheckBox(self.panel,-1,label=': %s, %.3f'%(bond[0],bond[1]))
1319	Bond.SetValue(bond[2])
1320	Indx[Bond.GetId()] = [inei,ib]
1321	Bond.Bind(wx.EVT_CHECKBOX,OnBond)
1322	lineSizer.Add(Bond,0,WACV)
1323	dataSizer.Add(lineSizer,0,WACV\|wx.RIGHT,10)
1324	mainSizer.Add(dataSizer,0,wx.LEFT,5)
1325
1326	CancelBtn = wx.Button(self.panel,-1,'Cancel')
1327	CancelBtn.Bind(wx.EVT_BUTTON, self.OnCancel)
1328	OkBtn = wx.Button(self.panel,-1,'Ok')
1329	OkBtn.Bind(wx.EVT_BUTTON, self.OnOk)
1330	btnSizer = wx.BoxSizer(wx.HORIZONTAL)
1331	btnSizer.Add((20,20),1)
1332	btnSizer.Add(OkBtn)
1333	btnSizer.Add((20,20),1)
1334	btnSizer.Add(CancelBtn)
1335	btnSizer.Add((20,20),1)
1336	mainSizer.Add(btnSizer,0,wx.BOTTOM\|wx.TOP, 10)
1337	self.panel.SetSizer(mainSizer)
1338	size = np.array(self.GetSize())
1339	self.panel.SetupScrolling()
1340	self.panel.SetAutoLayout(1)
1341	size = [size[0]-5,size[1]-20] #this fiddling is needed for older wx!
1342	self.panel.SetSize(size)
1343
1344	def GetData(self):
1345	'Returns the values from the dialog'
1346	for neigh in self.Neigh:
1347	for ibond,bond in enumerate(neigh[1][0]):
1348	if not bond[2]:
1349	neigh[1][1][1][ibond] = 0 #deselected bond
1350	neigh[1][1][1] = [a for a in neigh[1][1][1] if a]
1351	return self.Neigh #has #Hs to add for each entry
1352
1353	def OnOk(self,event):
1354	'Called when the OK button is pressed'
1355	parent = self.GetParent()
1356	parent.Raise()
1357	self.EndModal(wx.ID_OK)
1358
1359	def OnCancel(self,event):
1360	parent = self.GetParent()
1361	parent.Raise()
1362	self.EndModal(wx.ID_CANCEL)
1363
1364	################################################################################
1365	class DisAglDialog(wx.Dialog):
1366	'''Distance/Angle Controls input dialog. After
1367	:meth:`ShowModal` returns, the results are found in
1368	dict :attr:`self.data`, which is accessed using :meth:`GetData`.
1369
1370	:param wx.Frame parent: reference to parent frame (or None)
1371	:param dict data: a dict containing the current
1372	search ranges or an empty dict, which causes default values
1373	to be used.
1374	Will be used to set element `DisAglCtls` in
1375	:ref:`Phase Tree Item <Phase_table>`
1376	:param dict default: A dict containing the default
1377	search ranges for each element.
1378	:param bool Reset: if True (default), show Reset button
1379	:param bool Angle: if True (default), show angle radii
1380	'''
1381	def __init__(self,parent,data,default,Reset=True,Angle=True):
1382	text = 'Distance Angle Controls'
1383	if not Angle:
1384	text = 'Distance Controls'
1385	wx.Dialog.__init__(self,parent,wx.ID_ANY,text,
1386	pos=wx.DefaultPosition,style=wx.DEFAULT_DIALOG_STYLE)
1387	self.default = default
1388	self.Reset = Reset
1389	self.Angle = Angle
1390	self.panel = wx.Panel(self) #just a dummy - gets destroyed in Draw!
1391	self._default(data,self.default)
1392	self.Draw(self.data)
1393
1394	def _default(self,data,default):
1395	'''Set starting values for the search values, either from
1396	the input array or from defaults, if input is null
1397	'''
1398	if data:
1399	self.data = copy.deepcopy(data) # don't mess with originals
1400	else:
1401	self.data = {}
1402	self.data['Name'] = default['Name']
1403	self.data['Factors'] = [0.85,0.85]
1404	self.data['AtomTypes'] = default['AtomTypes']
1405	self.data['BondRadii'] = default['BondRadii'][:]
1406	self.data['AngleRadii'] = default['AngleRadii'][:]
1407
1408	def Draw(self,data):
1409	'''Creates the contents of the dialog. Normally called
1410	by :meth:`__init__`.
1411	'''
1412	self.panel.Destroy()
1413	self.panel = wx.Panel(self)
1414	mainSizer = wx.BoxSizer(wx.VERTICAL)
1415	mainSizer.Add(wx.StaticText(self.panel,-1,'Controls for phase '+data['Name']),
1416	0,WACV\|wx.LEFT,10)
1417	mainSizer.Add((10,10),1)
1418
1419	ncol = 3
1420	if not self.Angle:
1421	ncol=2
1422	radiiSizer = wx.FlexGridSizer(0,ncol,5,5)
1423	radiiSizer.Add(wx.StaticText(self.panel,-1,' Type'),0,WACV)
1424	radiiSizer.Add(wx.StaticText(self.panel,-1,'Bond radii'),0,WACV)
1425	if self.Angle:
1426	radiiSizer.Add(wx.StaticText(self.panel,-1,'Angle radii'),0,WACV)
1427	self.objList = {}
1428	for id,item in enumerate(self.data['AtomTypes']):
1429	radiiSizer.Add(wx.StaticText(self.panel,-1,' '+item),0,WACV)
1430	bRadii = G2G.ValidatedTxtCtrl(self.panel,data['BondRadii'],id,nDig=(10,3),typeHint=float)
1431	radiiSizer.Add(bRadii,0,WACV)
1432	if self.Angle:
1433	aRadii = G2G.ValidatedTxtCtrl(self.panel,data['AngleRadii'],id,nDig=(10,3),typeHint=float)
1434	radiiSizer.Add(aRadii,0,WACV)
1435	mainSizer.Add(radiiSizer,0,wx.EXPAND)
1436	if self.Angle:
1437	factorSizer = wx.FlexGridSizer(0,2,5,5)
1438	Names = ['Bond','Angle']
1439	for i,name in enumerate(Names):
1440	factorSizer.Add(wx.StaticText(self.panel,-1,name+' search factor'),0,WACV)
1441	bondFact = G2G.ValidatedTxtCtrl(self.panel,data['Factors'],i,nDig=(10,3),typeHint=float)
1442	factorSizer.Add(bondFact)
1443	mainSizer.Add(factorSizer,0,wx.EXPAND)
1444
1445	OkBtn = wx.Button(self.panel,-1,"Ok")
1446	OkBtn.Bind(wx.EVT_BUTTON, self.OnOk)
1447	btnSizer = wx.BoxSizer(wx.HORIZONTAL)
1448	btnSizer.Add((20,20),1)
1449	btnSizer.Add(OkBtn)
1450	if self.Reset:
1451	ResetBtn = wx.Button(self.panel,-1,'Reset')
1452	ResetBtn.Bind(wx.EVT_BUTTON, self.OnReset)
1453	btnSizer.Add(ResetBtn)
1454	btnSizer.Add((20,20),1)
1455	mainSizer.Add(btnSizer,0,wx.EXPAND\|wx.BOTTOM\|wx.TOP, 10)
1456	self.panel.SetSizer(mainSizer)
1457	self.panel.Fit()
1458	self.Fit()
1459
1460	def GetData(self):
1461	'Returns the values from the dialog'
1462	return self.data
1463
1464	def OnOk(self,event):
1465	'Called when the OK button is pressed'
1466	parent = self.GetParent()
1467	parent.Raise()
1468	self.EndModal(wx.ID_OK)
1469
1470	def OnReset(self,event):
1471	'Called when the Reset button is pressed'
1472	data = {}
1473	self._default(data,self.default)
1474	self.Draw(self.data)
1475
1476	################################################################################
1477	class ShowLSParms(wx.Dialog):
1478	'''Create frame to show least-squares parameters
1479	'''
1480	def __init__(self,parent,title,parmDict,varyList,fullVaryList,
1481	size=(300,430)):
1482	wx.Dialog.__init__(self,parent,wx.ID_ANY,title,size=size,
1483	style=wx.DEFAULT_DIALOG_STYLE\|wx.RESIZE_BORDER)
1484	mainSizer = wx.BoxSizer(wx.VERTICAL)
1485
1486	panel = wxscroll.ScrolledPanel(
1487	self, wx.ID_ANY,
1488	#size=size,
1489	style = wx.TAB_TRAVERSAL\|wx.SUNKEN_BORDER)
1490	num = len(varyList)
1491	mainSizer.Add(wx.StaticText(self,wx.ID_ANY,'Number of refined variables: '+str(num)))
1492	if len(varyList) != len(fullVaryList):
1493	num = len(fullVaryList) - len(varyList)
1494	mainSizer.Add(wx.StaticText(self,wx.ID_ANY,' + '+str(num)+' parameters are varied via constraints'))
1495	subSizer = wx.FlexGridSizer(cols=4,hgap=2,vgap=2)
1496	parmNames = parmDict.keys()
1497	parmNames.sort()
1498	subSizer.Add((-1,-1))
1499	subSizer.Add(wx.StaticText(panel,wx.ID_ANY,'Parameter name '))
1500	subSizer.Add(wx.StaticText(panel,wx.ID_ANY,'refine?'))
1501	subSizer.Add(wx.StaticText(panel,wx.ID_ANY,'value'),0,wx.ALIGN_RIGHT)
1502	explainRefine = False
1503	for name in parmNames:
1504	# skip entries without numerical values
1505	if isinstance(parmDict[name],basestring): continue
1506	try:
1507	value = G2py3.FormatSigFigs(parmDict[name])
1508	except TypeError:
1509	value = str(parmDict[name])+' -?' # unexpected
1510	#continue
1511	v = G2obj.getVarDescr(name)
1512	if v is None or v[-1] is None:
1513	subSizer.Add((-1,-1))
1514	else:
1515	ch = G2G.HelpButton(panel,G2obj.fmtVarDescr(name))
1516	subSizer.Add(ch,0,wx.LEFT\|wx.RIGHT\|WACV\|wx.ALIGN_CENTER,1)
1517	subSizer.Add(wx.StaticText(panel,wx.ID_ANY,str(name)))
1518	if name in varyList:
1519	subSizer.Add(wx.StaticText(panel,wx.ID_ANY,'R'))
1520	elif name in fullVaryList:
1521	subSizer.Add(wx.StaticText(panel,wx.ID_ANY,'C'))
1522	explainRefine = True
1523	else:
1524	subSizer.Add((-1,-1))
1525	subSizer.Add(wx.StaticText(panel,wx.ID_ANY,value),0,wx.ALIGN_RIGHT)
1526
1527	# finish up ScrolledPanel
1528	panel.SetSizer(subSizer)
1529	panel.SetAutoLayout(1)
1530	panel.SetupScrolling()
1531	mainSizer.Add(panel,1, wx.ALL\|wx.EXPAND,1)
1532
1533	if explainRefine:
1534	mainSizer.Add(
1535	wx.StaticText(self,wx.ID_ANY,
1536	'"R" indicates a refined variable\n'+
1537	'"C" indicates generated from a constraint'
1538	),
1539	0, wx.ALL,0)
1540	# make OK button
1541	btnsizer = wx.BoxSizer(wx.HORIZONTAL)
1542	btn = wx.Button(self, wx.ID_CLOSE,"Close")
1543	btn.Bind(wx.EVT_BUTTON,self._onClose)
1544	btnsizer.Add(btn)
1545	mainSizer.Add(btnsizer, 0, wx.ALIGN_CENTER\|wx.ALL, 5)
1546	# Allow window to be enlarged but not made smaller
1547	self.SetSizer(mainSizer)
1548	self.SetMinSize(self.GetSize())
1549
1550	def _onClose(self,event):
1551	self.EndModal(wx.ID_CANCEL)
1552
1553	################################################################################
1554	class DataFrame(wx.Frame):
1555	'''Create the data item window and all the entries in menus used in
1556	that window. For Linux and windows, the menu entries are created for the
1557	current data item window, but in the Mac the menu is accessed from all
1558	windows. This means that a different menu is posted depending on which
1559	data item is posted. On the Mac, all the menus contain the data tree menu
1560	items, but additional menus are added specific to the data item.
1561
1562	Note that while the menus are created here,
1563	the binding for the menus is done later in various GSASII*GUI modules,
1564	where the functions to be called are defined.
1565	'''
1566	def Bind(self,eventtype,handler,args,*kwargs):
1567	'''Override the Bind() function: on the Mac the binding is to
1568	the main window, so that menus operate with any window on top.
1569	For other platforms, either wrap calls that will be logged
1570	or call the default wx.Frame Bind() to bind to the menu item directly.
1571
1572	Note that bindings can be made to objects by Id or by direct reference to the
1573	object. As a convention, when bindings are to objects, they are not logged
1574	but when bindings are by Id, they are logged.
1575	'''
1576	if sys.platform == "darwin": # mac
1577	self.G2frame.Bind(eventtype,handler,args,*kwargs)
1578	return
1579	if eventtype == wx.EVT_MENU and 'id' in kwargs:
1580	menulabels = log.SaveMenuCommand(kwargs['id'],self.G2frame,handler)
1581	if menulabels:
1582	#print 'intercepting bind for',handler,menulabels,kwargs['id']
1583	wx.Frame.Bind(self,eventtype,self.G2frame.MenuBinding,args,*kwargs)
1584	return
1585	wx.Frame.Bind(self,eventtype,handler,args,*kwargs)
1586
1587	def PrefillDataMenu(self,menu,empty=False):
1588	'''Create the "standard" part of data frame menus. Note that on Linux and
1589	Windows nothing happens here. On Mac, this menu duplicates the
1590	tree menu, but adds an extra help command for the data item and a separator.
1591	'''
1592	self.datamenu = menu
1593	self.G2frame.dataMenuBars.append(menu)
1594	if sys.platform == "darwin": # mac
1595	self.G2frame.FillMainMenu(menu,addhelp=False) # add the data tree menu items
1596	if not empty:
1597	menu.Append(wx.Menu(title=''),title='\|') # add a separator
1598
1599	def PostfillDataMenu(self,empty=False):
1600	'''Add the help menu to the data frame menus. Note that on Linux and
1601	Windows, this is the standard help Menu but without the update commands but adds an extra help
1602	command for the data item.
1603	On Mac, this is the entire help menu including the update commands, a separator and the
1604	extra help command for the data item.
1605	'''
1606	menu = self.datamenu
1607	if sys.platform == "darwin": # mac
1608	if not empty:
1609	menu.Append(wx.Menu(title=''),title='\|') # add another separator
1610	HelpMenu=G2G.MyHelp(self,includeTree=True,
1611	morehelpitems=[('&Tutorials','Tutorials'),])
1612	menu.Append(menu=HelpMenu,title='&Help')
1613	else: # other
1614	menu.Append(menu=G2G.MyHelp(self),title='&Help')
1615
1616	def _init_menus(self):
1617	'define all GSAS-II data frame menus'
1618
1619	# for use where no menu or data frame help is provided
1620	self.BlankMenu = wx.MenuBar()
1621
1622	# Controls
1623	self.ControlsMenu = wx.MenuBar()
1624	self.PrefillDataMenu(self.ControlsMenu,empty=True)
1625	self.PostfillDataMenu(empty=True)
1626
1627	# Notebook
1628	self.DataNotebookMenu = wx.MenuBar()
1629	self.PrefillDataMenu(self.DataNotebookMenu,empty=True)
1630	self.PostfillDataMenu(empty=True)
1631
1632	# Comments
1633	self.DataCommentsMenu = wx.MenuBar()
1634	self.PrefillDataMenu(self.DataCommentsMenu,empty=True)
1635	self.PostfillDataMenu(empty=True)
1636
1637	# Constraints
1638	self.ConstraintMenu = wx.MenuBar()
1639	self.PrefillDataMenu(self.ConstraintMenu)
1640	self.ConstraintTab = wx.Menu(title='')
1641	self.ConstraintMenu.Append(menu=self.ConstraintTab, title='Select tab')
1642	for id,txt in (
1643	(wxID_CONSPHASE,'Phase'),
1644	(wxID_CONSHAP,'Histogram/Phase'),
1645	(wxID_CONSHIST,'Histogram'),
1646	(wxID_CONSGLOBAL,'Global')):
1647	self.ConstraintTab.Append(
1648	id=id, kind=wx.ITEM_NORMAL,text=txt,
1649	help='Select '+txt+' constraint editing tab')
1650	self.ConstraintEdit = wx.Menu(title='')
1651	self.ConstraintMenu.Append(menu=self.ConstraintEdit, title='Edit Constr.') # renamed from Edit due to Mac adding extra items to menu
1652	self.ConstraintEdit.Append(id=wxID_HOLDADD, kind=wx.ITEM_NORMAL,text='Add hold',
1653	help='Prevent refinement of parameter values')
1654	self.ConstraintEdit.Append(id=wxID_EQUIVADD, kind=wx.ITEM_NORMAL,text='Add equivalence',
1655	help='Force parameter values to be equivalent')
1656	self.ConstraintEdit.Append(id=wxID_CONSTRAINTADD, kind=wx.ITEM_NORMAL,text='Add constraint equation',
1657	help='Add a constraint equation to apply to parameter values')
1658	self.ConstraintEdit.Append(id=wxID_FUNCTADD, kind=wx.ITEM_NORMAL,text='Add New Var',
1659	help='Create a variable composed of existing parameters')
1660	self.ConstraintEdit.Append(id=wxID_EQUIVALANCEATOMS, kind=wx.ITEM_NORMAL,text='Make atoms equivalent',
1661	help='Force atom parameter values to be equivalent')
1662	self.ConstraintEdit.Enable(wxID_EQUIVALANCEATOMS,False)
1663	# self.ConstraintEdit.Append(id=wxID_ADDRIDING, kind=wx.ITEM_NORMAL,text='Add H riding constraints',
1664	# help='Add H atom riding constraints between atom parameter values')
1665	# self.ConstraintEdit.Enable(wxID_ADDRIDING,False)
1666	self.PostfillDataMenu()
1667
1668	# item = self.ConstraintEdit.Append(id=wx.ID_ANY,kind=wx.ITEM_NORMAL,text='Update GUI')
1669	# def UpdateGSASIIconstrGUI(event):
1670	# import GSASIIconstrGUI
1671	# reload(GSASIIconstrGUI)
1672	# import GSASIIobj
1673	# reload(GSASIIobj)
1674	# self.Bind(wx.EVT_MENU,UpdateGSASIIconstrGUI,id=item.GetId())
1675
1676	# Rigid bodies
1677	self.RigidBodyMenu = wx.MenuBar()
1678	self.PrefillDataMenu(self.RigidBodyMenu)
1679	self.ResidueRBMenu = wx.Menu(title='')
1680	self.ResidueRBMenu.Append(id=wxID_RIGIDBODYIMPORT, kind=wx.ITEM_NORMAL,text='Import XYZ',
1681	help='Import rigid body XYZ from file')
1682	self.ResidueRBMenu.Append(id=wxID_RESIDUETORSSEQ, kind=wx.ITEM_NORMAL,text='Define sequence',
1683	help='Define torsion sequence')
1684	self.ResidueRBMenu.Append(id=wxID_RIGIDBODYADD, kind=wx.ITEM_NORMAL,text='Import residues',
1685	help='Import residue rigid bodies from macro file')
1686	self.RigidBodyMenu.Append(menu=self.ResidueRBMenu, title='Edit Body')
1687	self.PostfillDataMenu()
1688
1689	self.VectorBodyMenu = wx.MenuBar()
1690	self.PrefillDataMenu(self.VectorBodyMenu)
1691	self.VectorRBEdit = wx.Menu(title='')
1692	self.VectorRBEdit.Append(id=wxID_VECTORBODYADD, kind=wx.ITEM_NORMAL,text='Add rigid body',
1693	help='Add vector rigid body')
1694	self.VectorBodyMenu.Append(menu=self.VectorRBEdit, title='Edit Vector Body')
1695	self.PostfillDataMenu()
1696
1697
1698	# Restraints
1699	self.RestraintTab = wx.Menu(title='')
1700	self.RestraintEdit = wx.Menu(title='')
1701	self.RestraintEdit.Append(id=wxID_RESTSELPHASE, kind=wx.ITEM_NORMAL,text='Select phase',
1702	help='Select phase')
1703	self.RestraintEdit.Append(id=wxID_RESTRAINTADD, kind=wx.ITEM_NORMAL,text='Add restraints',
1704	help='Add restraints')
1705	self.RestraintEdit.Enable(wxID_RESTRAINTADD,True) #gets disabled if macromolecule phase
1706	self.RestraintEdit.Append(id=wxID_AARESTRAINTADD, kind=wx.ITEM_NORMAL,text='Add residue restraints',
1707	help='Add residue based restraints for macromolecules from macro file')
1708	self.RestraintEdit.Enable(wxID_AARESTRAINTADD,False) #gets enabled if macromolecule phase
1709	self.RestraintEdit.Append(id=wxID_AARESTRAINTPLOT, kind=wx.ITEM_NORMAL,text='Plot residue restraints',
1710	help='Plot selected residue based restraints for macromolecules from macro file')
1711	self.RestraintEdit.Enable(wxID_AARESTRAINTPLOT,False) #gets enabled if macromolecule phase
1712	self.RestraintEdit.Append(id=wxID_RESRCHANGEVAL, kind=wx.ITEM_NORMAL,text='Change value',
1713	help='Change observed value')
1714	self.RestraintEdit.Append(id=wxID_RESTCHANGEESD, kind=wx.ITEM_NORMAL,text='Change esd',
1715	help='Change esd in observed value')
1716	self.RestraintEdit.Append(id=wxID_RESTDELETE, kind=wx.ITEM_NORMAL,text='Delete restraints',
1717	help='Delete selected restraints')
1718
1719	self.RestraintMenu = wx.MenuBar()
1720	self.PrefillDataMenu(self.RestraintMenu)
1721	self.RestraintMenu.Append(menu=self.RestraintTab, title='Select tab')
1722	self.RestraintMenu.Append(menu=self.RestraintEdit, title='Edit Restr.')
1723	self.PostfillDataMenu()
1724
1725	# Sequential results
1726	self.SequentialMenu = wx.MenuBar()
1727	self.PrefillDataMenu(self.SequentialMenu)
1728	self.SequentialFile = wx.Menu(title='')
1729	self.SequentialMenu.Append(menu=self.SequentialFile, title='Columns')
1730	self.SequentialFile.Append(id=wxID_RENAMESEQSEL, kind=wx.ITEM_NORMAL,text='Rename selected',
1731	help='Rename selected sequential refinement columns')
1732	self.SequentialFile.Append(id=wxID_SAVESEQSEL, kind=wx.ITEM_NORMAL,text='Save selected as text',
1733	help='Save selected sequential refinement results as a text file')
1734	self.SequentialFile.Append(id=wxID_SAVESEQCSV, kind=wx.ITEM_NORMAL,text='Save all as CSV',
1735	help='Save all sequential refinement results as a CSV spreadsheet file')
1736	self.SequentialFile.Append(id=wxID_SAVESEQSELCSV, kind=wx.ITEM_NORMAL,text='Save selected as CSV',
1737	help='Save selected sequential refinement results as a CSV spreadsheet file')
1738	self.SequentialFile.Append(id=wxID_PLOTSEQSEL, kind=wx.ITEM_NORMAL,text='Plot selected',
1739	help='Plot selected sequential refinement results')
1740	self.SequentialFile.Append(id=wxID_AVESEQSEL, kind=wx.ITEM_NORMAL,text='Compute average',
1741	help='Compute average for selected parameter')
1742	self.SequentialFile.Append(id=wxID_ORGSEQSEL, kind=wx.ITEM_NORMAL,text='Reorganize',
1743	help='Reorganize variables where variables change')
1744	self.SequentialPvars = wx.Menu(title='')
1745	self.SequentialMenu.Append(menu=self.SequentialPvars, title='Pseudo Vars')
1746	self.SequentialPvars.Append(
1747	id=wxADDSEQVAR, kind=wx.ITEM_NORMAL,text='Add Formula',
1748	help='Add a new custom pseudo-variable')
1749	self.SequentialPvars.Append(
1750	id=wxADDSEQDIST, kind=wx.ITEM_NORMAL,text='Add Distance',
1751	help='Add a new bond distance pseudo-variable')
1752	self.SequentialPvars.Append(
1753	id=wxADDSEQANGLE, kind=wx.ITEM_NORMAL,text='Add Angle',
1754	help='Add a new bond angle pseudo-variable')
1755	self.SequentialPvars.Append(
1756	id=wxDELSEQVAR, kind=wx.ITEM_NORMAL,text='Delete',
1757	help='Delete an existing pseudo-variable')
1758	self.SequentialPvars.Append(
1759	id=wxEDITSEQVAR, kind=wx.ITEM_NORMAL,text='Edit',
1760	help='Edit an existing pseudo-variable')
1761
1762	self.SequentialPfit = wx.Menu(title='')
1763	self.SequentialMenu.Append(menu=self.SequentialPfit, title='Parametric Fit')
1764	self.SequentialPfit.Append(
1765	id=wxADDPARFIT, kind=wx.ITEM_NORMAL,text='Add equation',
1766	help='Add a new equation to minimize')
1767	self.SequentialPfit.Append(
1768	id=wxCOPYPARFIT, kind=wx.ITEM_NORMAL,text='Copy equation',
1769	help='Copy an equation to minimize - edit it next')
1770	self.SequentialPfit.Append(
1771	id=wxDELPARFIT, kind=wx.ITEM_NORMAL,text='Delete equation',
1772	help='Delete an equation for parametric minimization')
1773	self.SequentialPfit.Append(
1774	id=wxEDITPARFIT, kind=wx.ITEM_NORMAL,text='Edit equation',
1775	help='Edit an existing parametric minimization equation')
1776	self.SequentialPfit.Append(
1777	id=wxDOPARFIT, kind=wx.ITEM_NORMAL,text='Fit to equation(s)',
1778	help='Perform a parametric minimization')
1779	# fill sequential Export menu
1780	self.SeqExportLookup = {}
1781	self.SequentialEx = wx.Menu(title='')
1782	self.SequentialMenu.Append(menu=self.SequentialEx, title='Seq Export')
1783	for lbl,txt in (('Phase','Export selected phase(s)'),
1784	('Project','Export entire sequential fit')):
1785	objlist = []
1786	for obj in self.G2frame.exporterlist:
1787	if lbl.lower() in obj.exporttype:
1788	try:
1789	obj.Writer
1790	except AttributeError:
1791	continue
1792	objlist.append(obj)
1793	if objlist:
1794	submenu = wx.Menu()
1795	item = self.SequentialEx.AppendMenu(
1796	wx.ID_ANY, lbl+' as',
1797	submenu, help=txt)
1798	for obj in objlist:
1799	item = submenu.Append(
1800	wx.ID_ANY,
1801	help=obj.longFormatName,
1802	kind=wx.ITEM_NORMAL,
1803	text=obj.formatName)
1804	self.SeqExportLookup[item.GetId()] = (obj,lbl) # lookup table for submenu item
1805
1806	self.PostfillDataMenu()
1807
1808	# PWDR & SASD
1809	self.PWDRMenu = wx.MenuBar()
1810	self.PrefillDataMenu(self.PWDRMenu)
1811	self.ErrorAnal = wx.Menu(title='')
1812	self.PWDRMenu.Append(menu=self.ErrorAnal,title='Commands')
1813	self.ErrorAnal.Append(id=wxID_PWDANALYSIS,kind=wx.ITEM_NORMAL,text='Error Analysis',
1814	help='Error analysis on powder pattern')
1815	self.ErrorAnal.Append(id=wxID_PWDCOPY,kind=wx.ITEM_NORMAL,text='Copy params',
1816	help='Copy of PWDR parameters')
1817	self.ErrorAnal.Append(id=wxID_PLOTCTRLCOPY,kind=wx.ITEM_NORMAL,text='Copy plot controls',
1818	help='Copy of PWDR plot controls')
1819	self.moveDiffCurve = self.ErrorAnal.Append(id=wx.ID_ANY,kind=wx.ITEM_NORMAL,text='Move diff. curve',
1820	help='Click on position where difference curve is placed')
1821	self.moveTickLoc = self.ErrorAnal.Append(id=wx.ID_ANY,kind=wx.ITEM_NORMAL,text='Move ticks',
1822	help='Move mouse to where tick marks should be positioned')
1823	self.moveTickSpc = self.ErrorAnal.Append(id=wx.ID_ANY,kind=wx.ITEM_NORMAL,text='Set tick space',
1824	help='Click to set spacing between phase tick marks')
1825	self.PostfillDataMenu()
1826
1827	# HKLF
1828	self.HKLFMenu = wx.MenuBar()
1829	self.PrefillDataMenu(self.HKLFMenu)
1830	self.ErrorAnal = wx.Menu(title='')
1831	self.HKLFMenu.Append(menu=self.ErrorAnal,title='Commands')
1832	self.ErrorAnal.Append(id=wxID_PWDANALYSIS,kind=wx.ITEM_NORMAL,text='Error Analysis',
1833	help='Error analysis on single crystal data')
1834	self.ErrorAnal.Append(id=wxID_MERGEHKL,kind=wx.ITEM_NORMAL,text='Merge HKLs',
1835	help='Transform & merge HKLF data to new histogram')
1836	self.ErrorAnal.Append(id=wxID_PWD3DHKLPLOT,kind=wx.ITEM_NORMAL,text='Plot 3D HKLs',
1837	help='Plot HKLs from single crystal data in 3D')
1838	self.ErrorAnal.Append(id=wxID_3DALLHKLPLOT,kind=wx.ITEM_NORMAL,text='Plot all 3D HKLs',
1839	help='Plot HKLs from all single crystal data in 3D')
1840	self.ErrorAnal.Append(id=wxID_PWDCOPY,kind=wx.ITEM_NORMAL,text='Copy params',
1841	help='Copy of HKLF parameters')
1842	self.PostfillDataMenu()
1843
1844	# PWDR / Limits
1845	self.LimitMenu = wx.MenuBar()
1846	self.PrefillDataMenu(self.LimitMenu)
1847	self.LimitEdit = wx.Menu(title='')
1848	self.LimitMenu.Append(menu=self.LimitEdit, title='Edit Limits')
1849	self.LimitEdit.Append(id=wxID_LIMITCOPY, kind=wx.ITEM_NORMAL,text='Copy',
1850	help='Copy limits to other histograms')
1851	self.LimitEdit.Append(id=wxID_ADDEXCLREGION, kind=wx.ITEM_NORMAL,text='Add exclude',
1852	help='Add excluded region - select a point on plot; drag to adjust')
1853	self.PostfillDataMenu()
1854
1855	# PDR / Background
1856	self.BackMenu = wx.MenuBar()
1857	self.PrefillDataMenu(self.BackMenu)
1858	self.BackEdit = wx.Menu(title='')
1859	self.BackMenu.Append(menu=self.BackEdit, title='File')
1860	self.BackEdit.Append(id=wxID_BACKCOPY, kind=wx.ITEM_NORMAL,text='Copy',
1861	help='Copy background parameters to other histograms')
1862	self.BackEdit.Append(id=wxID_BACKFLAGCOPY, kind=wx.ITEM_NORMAL,text='Copy flags',
1863	help='Copy background refinement flags to other histograms')
1864	self.BackEdit.Append(id=wxID_PEAKSMOVE, kind=wx.ITEM_NORMAL,text='Move peaks',
1865	help='Move background peaks to Peak List')
1866	self.BackEdit.Append(id=wxID_MAKEBACKRDF, kind=wx.ITEM_NORMAL,text='Plot RDF',
1867	help='Plot radial distribution from differences')
1868	self.BackFixed = wx.Menu(title='') # fixed background point menu
1869	self.BackMenu.Append(menu=self.BackFixed, title='Fixed Points')
1870	self.wxID_BackPts = {}
1871	self.wxID_BackPts['Add'] = wx.NewId() # N.B. not using wxID_ global as for other menu items
1872	self.BackFixed.Append(id=self.wxID_BackPts['Add'], kind=wx.ITEM_RADIO,text='Add',
1873	help='Add fixed background points with mouse clicks')
1874	self.wxID_BackPts['Move'] = wx.NewId()
1875	item = self.BackFixed.Append(id=self.wxID_BackPts['Move'], kind=wx.ITEM_RADIO,text='Move',
1876	help='Move selected fixed background points with mouse drags')
1877	item.Check(True)
1878	self.wxID_BackPts['Del'] = wx.NewId()
1879	self.BackFixed.Append(id=self.wxID_BackPts['Del'], kind=wx.ITEM_RADIO,text='Delete',
1880	help='Delete fixed background points with mouse clicks')
1881	self.wxID_BackPts['Clear'] = wx.NewId()
1882	self.BackFixed.Append(id=self.wxID_BackPts['Clear'], kind=wx.ITEM_NORMAL,text='Clear',
1883	help='Clear fixed background points')
1884	self.wxID_BackPts['Fit'] = wx.NewId()
1885	self.BackFixed.Append(id=self.wxID_BackPts['Fit'], kind=wx.ITEM_NORMAL,text='Fit background',
1886	help='Fit background function to fixed background points')
1887	self.PostfillDataMenu()
1888
1889	# PDR / Instrument Parameters
1890	self.InstMenu = wx.MenuBar()
1891	self.PrefillDataMenu(self.InstMenu)
1892	self.InstEdit = wx.Menu(title='')
1893	self.InstMenu.Append(menu=self.InstEdit, title='Operations')
1894	self.InstEdit.Append(help='Calibrate from indexed peaks',
1895	id=wxID_INSTCALIB, kind=wx.ITEM_NORMAL,text='Calibrate')
1896	self.InstEdit.Append(help='Reset instrument profile parameters to default',
1897	id=wxID_INSTPRMRESET, kind=wx.ITEM_NORMAL,text='Reset profile')
1898	self.InstEdit.Append(help='Load instrument profile parameters from file',
1899	id=wxID_INSTLOAD, kind=wx.ITEM_NORMAL,text='Load profile...')
1900	self.InstEdit.Append(help='Save instrument profile parameters to file',
1901	id=wxID_INSTSAVE, kind=wx.ITEM_NORMAL,text='Save profile...')
1902	self.InstEdit.Append(help='Save all instrument profile parameters to one file',
1903	id=wxID_INSTSAVEALL, kind=wx.ITEM_NORMAL,text='Save all profile...')
1904	self.InstEdit.Append(help='Copy instrument profile parameters to other histograms',
1905	id=wxID_INSTCOPY, kind=wx.ITEM_NORMAL,text='Copy')
1906	self.InstEdit.Append(id=wxID_INSTFLAGCOPY, kind=wx.ITEM_NORMAL,text='Copy flags',
1907	help='Copy instrument parameter refinement flags to other histograms')
1908	# self.InstEdit.Append(help='Change radiation type (Ka12 - synch)',
1909	# id=wxID_CHANGEWAVETYPE, kind=wx.ITEM_NORMAL,text='Change radiation')
1910	self.InstEdit.Append(id=wxID_INST1VAL, kind=wx.ITEM_NORMAL,text='Set one value',
1911	help='Set one instrument parameter value across multiple histograms')
1912
1913	self.PostfillDataMenu()
1914
1915	# PDR / Sample Parameters
1916	self.SampleMenu = wx.MenuBar()
1917	self.PrefillDataMenu(self.SampleMenu)
1918	self.SampleEdit = wx.Menu(title='')
1919	self.SampleMenu.Append(menu=self.SampleEdit, title='Command')
1920	self.SetScale = self.SampleEdit.Append(id=wxID_SETSCALE, kind=wx.ITEM_NORMAL,text='Set scale',
1921	help='Set scale by matching to another histogram')
1922	self.SampleEdit.Append(id=wxID_SAMPLELOAD, kind=wx.ITEM_NORMAL,text='Load',
1923	help='Load sample parameters from file')
1924	self.SampleEdit.Append(id=wxID_SAMPLESAVE, kind=wx.ITEM_NORMAL,text='Save',
1925	help='Save sample parameters to file')
1926	self.SampleEdit.Append(id=wxID_SAMPLECOPY, kind=wx.ITEM_NORMAL,text='Copy',
1927	help='Copy refinable and most other sample parameters to other histograms')
1928	self.SampleEdit.Append(id=wxID_SAMPLECOPYSOME, kind=wx.ITEM_NORMAL,text='Copy selected...',
1929	help='Copy selected sample parameters to other histograms')
1930	self.SampleEdit.Append(id=wxID_SAMPLEFLAGCOPY, kind=wx.ITEM_NORMAL,text='Copy flags',
1931	help='Copy sample parameter refinement flags to other histograms')
1932	self.SampleEdit.Append(id=wxID_SAMPLE1VAL, kind=wx.ITEM_NORMAL,text='Set one value',
1933	help='Set one sample parameter value across multiple histograms')
1934	self.SampleEdit.Append(id=wxID_ALLSAMPLELOAD, kind=wx.ITEM_NORMAL,text='Load all',
1935	help='Load sample parmameters over multiple histograms')
1936
1937	self.PostfillDataMenu()
1938	self.SetScale.Enable(False)
1939
1940	# PDR / Peak List
1941	self.PeakMenu = wx.MenuBar()
1942	self.PrefillDataMenu(self.PeakMenu)
1943	self.PeakEdit = wx.Menu(title='')
1944	self.PeakMenu.Append(menu=self.PeakEdit, title='Peak Fitting')
1945	self.peaksSel = self.PeakEdit.Append(wx.ID_ANY,
1946	help='Set refinement flags for selected peaks',
1947	kind=wx.ITEM_NORMAL,
1948	text='Set sel. ref flags...')
1949	self.peaksAll = self.PeakEdit.Append(wx.ID_ANY,
1950	help='Set refinement flags for all peaks',
1951	kind=wx.ITEM_NORMAL,
1952	text='Set all ref flags...')
1953	self.AutoSearch = self.PeakEdit.Append(help='Automatic peak search',
1954	id=wxID_AUTOSEARCH, kind=wx.ITEM_NORMAL,text='Auto search')
1955	self.UnDo = self.PeakEdit.Append(help='Undo last least squares refinement',
1956	id=wxID_UNDO, kind=wx.ITEM_NORMAL,text='UnDo')
1957	self.PeakFit = self.PeakEdit.Append(id=wxID_LSQPEAKFIT, kind=wx.ITEM_NORMAL,text='Peakfit',
1958	help='Peak fitting' )
1959	self.PFOneCycle = self.PeakEdit.Append(id=wxID_LSQONECYCLE, kind=wx.ITEM_NORMAL,text='Peakfit one cycle',
1960	help='One cycle of Peak fitting' )
1961	self.PeakEdit.Append(id=wxID_RESETSIGGAM, kind=wx.ITEM_NORMAL,
1962	text='Reset sig and gam',help='Reset sigma and gamma to global fit' )
1963	self.PeakCopy = self.PeakEdit.Append(help='Copy peaks to other histograms',
1964	id=wxID_PEAKSCOPY, kind=wx.ITEM_NORMAL,text='Peak copy')
1965	self.SeqPeakFit = self.PeakEdit.Append(id=wxID_SEQPEAKFIT, kind=wx.ITEM_NORMAL,text='Seq PeakFit',
1966	help='Sequential Peak fitting for all histograms' )
1967	self.PeakEdit.Append(id=wxID_CLEARPEAKS, kind=wx.ITEM_NORMAL,text='Clear peaks',
1968	help='Clear the peak list' )
1969	self.movePeak = self.PeakEdit.Append(id=wx.ID_ANY,kind=wx.ITEM_NORMAL,text='Move selected peak',
1970	help='Select a peak in the table, then use this to move it with the mouse.')
1971	self.PostfillDataMenu()
1972	self.UnDo.Enable(False)
1973	self.PeakFit.Enable(False)
1974	self.PFOneCycle.Enable(False)
1975	self.AutoSearch.Enable(True)
1976
1977	# PDR / Index Peak List
1978	self.IndPeaksMenu = wx.MenuBar()
1979	self.PrefillDataMenu(self.IndPeaksMenu)
1980	self.IndPeaksEdit = wx.Menu(title='')
1981	self.IndPeaksMenu.Append(menu=self.IndPeaksEdit,title='Operations')
1982	self.IndPeaksEdit.Append(help='Load/Reload index peaks from peak list',id=wxID_INDXRELOAD,
1983	kind=wx.ITEM_NORMAL,text='Load/Reload')
1984	self.PostfillDataMenu()
1985
1986	# PDR / Unit Cells List
1987	self.IndexMenu = wx.MenuBar()
1988	self.PrefillDataMenu(self.IndexMenu)
1989	self.IndexEdit = wx.Menu(title='')
1990	self.IndexMenu.Append(menu=self.IndexEdit, title='Cell Index/Refine')
1991	self.IndexPeaks = self.IndexEdit.Append(help='', id=wxID_INDEXPEAKS, kind=wx.ITEM_NORMAL,
1992	text='Index Cell')
1993	self.CopyCell = self.IndexEdit.Append( id=wxID_COPYCELL, kind=wx.ITEM_NORMAL,text='Copy Cell',
1994	help='Copy selected unit cell from indexing to cell refinement fields')
1995	self.RefineCell = self.IndexEdit.Append( id=wxID_REFINECELL, kind=wx.ITEM_NORMAL,
1996	text='Refine Cell',help='Refine unit cell parameters from indexed peaks')
1997	self.MakeNewPhase = self.IndexEdit.Append( id=wxID_MAKENEWPHASE, kind=wx.ITEM_NORMAL,
1998	text='Make new phase',help='Make new phase from selected unit cell')
1999	self.ExportCells = self.IndexEdit.Append( id=wxID_EXPORTCELLS, kind=wx.ITEM_NORMAL,
2000	text='Export cell list',help='Export cell list to csv file')
2001	self.PostfillDataMenu()
2002	self.IndexPeaks.Enable(False)
2003	self.CopyCell.Enable(False)
2004	self.RefineCell.Enable(False)
2005	self.MakeNewPhase.Enable(False)
2006
2007	# PDR / Reflection Lists
2008	self.ReflMenu = wx.MenuBar()
2009	self.PrefillDataMenu(self.ReflMenu)
2010	self.ReflEdit = wx.Menu(title='')
2011	self.ReflMenu.Append(menu=self.ReflEdit, title='Reflection List')
2012	self.SelectPhase = self.ReflEdit.Append(help='Select phase for reflection list',id=wxID_SELECTPHASE,
2013	kind=wx.ITEM_NORMAL,text='Select phase')
2014	self.ReflEdit.Append(id=wxID_PWDHKLPLOT,kind=wx.ITEM_NORMAL,text='Plot HKLs',
2015	help='Plot HKLs from powder pattern')
2016	self.ReflEdit.Append(id=wxID_PWD3DHKLPLOT,kind=wx.ITEM_NORMAL,text='Plot 3D HKLs',
2017	help='Plot HKLs from powder pattern in 3D')
2018	self.PostfillDataMenu()
2019
2020	# SASD / Instrument Parameters
2021	self.SASDInstMenu = wx.MenuBar()
2022	self.PrefillDataMenu(self.SASDInstMenu)
2023	self.SASDInstEdit = wx.Menu(title='')
2024	self.SASDInstMenu.Append(menu=self.SASDInstEdit, title='Operations')
2025	self.InstEdit.Append(help='Reset instrument profile parameters to default',
2026	id=wxID_INSTPRMRESET, kind=wx.ITEM_NORMAL,text='Reset profile')
2027	self.SASDInstEdit.Append(help='Copy instrument profile parameters to other histograms',
2028	id=wxID_INSTCOPY, kind=wx.ITEM_NORMAL,text='Copy')
2029	self.PostfillDataMenu()
2030
2031	#SASD & REFL/ Substance editor
2032	self.SubstanceMenu = wx.MenuBar()
2033	self.PrefillDataMenu(self.SubstanceMenu)
2034	self.SubstanceEdit = wx.Menu(title='')
2035	self.SubstanceMenu.Append(menu=self.SubstanceEdit, title='Edit substance')
2036	self.SubstanceEdit.Append(id=wxID_LOADSUBSTANCE, kind=wx.ITEM_NORMAL,text='Load substance',
2037	help='Load substance from file')
2038	self.SubstanceEdit.Append(id=wxID_ADDSUBSTANCE, kind=wx.ITEM_NORMAL,text='Add substance',
2039	help='Add new substance to list')
2040	self.SubstanceEdit.Append(id=wxID_COPYSUBSTANCE, kind=wx.ITEM_NORMAL,text='Copy substances',
2041	help='Copy substances')
2042	self.SubstanceEdit.Append(id=wxID_DELETESUBSTANCE, kind=wx.ITEM_NORMAL,text='Delete substance',
2043	help='Delete substance from list')
2044	self.SubstanceEdit.Append(id=wxID_ELEMENTADD, kind=wx.ITEM_NORMAL,text='Add elements',
2045	help='Add elements to substance')
2046	self.SubstanceEdit.Append(id=wxID_ELEMENTDELETE, kind=wx.ITEM_NORMAL,text='Delete elements',
2047	help='Delete elements from substance')
2048	self.PostfillDataMenu()
2049
2050	# SASD/ Models
2051	self.ModelMenu = wx.MenuBar()
2052	self.PrefillDataMenu(self.ModelMenu)
2053	self.ModelEdit = wx.Menu(title='')
2054	self.ModelMenu.Append(menu=self.ModelEdit, title='Models')
2055	self.ModelEdit.Append(id=wxID_MODELADD,kind=wx.ITEM_NORMAL,text='Add',
2056	help='Add new term to model')
2057	self.ModelEdit.Append(id=wxID_MODELFIT, kind=wx.ITEM_NORMAL,text='Fit',
2058	help='Fit model parameters to data')
2059	self.SasdUndo = self.ModelEdit.Append(id=wxID_MODELUNDO, kind=wx.ITEM_NORMAL,text='Undo',
2060	help='Undo model fit')
2061	self.SasdUndo.Enable(False)
2062	self.ModelEdit.Append(id=wxID_MODELFITALL, kind=wx.ITEM_NORMAL,text='Sequential fit',
2063	help='Sequential fit of model parameters to all SASD data')
2064	self.ModelEdit.Append(id=wxID_MODELCOPY, kind=wx.ITEM_NORMAL,text='Copy',
2065	help='Copy model parameters to other histograms')
2066	self.ModelEdit.Append(id=wxID_MODELCOPYFLAGS, kind=wx.ITEM_NORMAL,text='Copy flags',
2067	help='Copy model refinement flags to other histograms')
2068	self.PostfillDataMenu()
2069
2070	# IMG / Image Controls
2071	self.ImageMenu = wx.MenuBar()
2072	self.PrefillDataMenu(self.ImageMenu)
2073	self.ImageEdit = wx.Menu(title='')
2074	self.ImageMenu.Append(menu=self.ImageEdit, title='Operations')
2075	self.ImageEdit.Append(help='Calibrate detector by fitting to calibrant lines',
2076	id=wxID_IMCALIBRATE, kind=wx.ITEM_NORMAL,text='Calibrate')
2077	self.ImageEdit.Append(help='Recalibrate detector by fitting to calibrant lines',
2078	id=wxID_IMRECALIBRATE, kind=wx.ITEM_NORMAL,text='Recalibrate')
2079	self.ImageEdit.Append(help='Recalibrate all images by fitting to calibrant lines',
2080	id=wxID_IMRECALIBALL, kind=wx.ITEM_NORMAL,text='Recalibrate all')
2081	self.ImageEdit.Append(help='Clear calibration data points and rings',id=wxID_IMCLEARCALIB,
2082	kind=wx.ITEM_NORMAL,text='Clear calibration')
2083	self.ImageEdit.Append(help='Integrate selected image',id=wxID_IMINTEGRATE,
2084	kind=wx.ITEM_NORMAL,text='Integrate')
2085	self.ImageEdit.Append(help='Integrate all images selected from list',id=wxID_INTEGRATEALL,
2086	kind=wx.ITEM_NORMAL,text='Integrate all')
2087	self.ImageEdit.Append(help='Copy image controls to other images',
2088	id=wxID_IMCOPYCONTROLS, kind=wx.ITEM_NORMAL,text='Copy Controls')
2089	self.ImageEdit.Append(help='Copy selected image controls to other images',
2090	id=wxID_IMCOPYSELECTED, kind=wx.ITEM_NORMAL,text='Copy Selected')
2091	self.ImageEdit.Append(help='Save image controls to file',
2092	id=wxID_IMSAVECONTROLS, kind=wx.ITEM_NORMAL,text='Save Controls')
2093	self.ImageEdit.Append(help='Save controls from selected images to file',
2094	id=wxID_SAVESELECTEDCONTROLS, kind=wx.ITEM_NORMAL,text='Save Multiple Controls')
2095	self.ImageEdit.Append(help='Load image controls from file',
2096	id=wxID_IMLOADCONTROLS, kind=wx.ITEM_NORMAL,text='Load Controls')
2097	self.ImageEdit.Append(help='Transfer integration range for other detector distances',
2098	id=wxID_IMXFERCONTROLS, kind=wx.ITEM_NORMAL,text='Xfer angles')
2099	self.ImageEdit.Append(help='Open Auto-integration window to integrate a series of images',
2100	id=wxID_IMAUTOINTEG, kind=wx.ITEM_NORMAL,text='Auto Integrate')
2101	self.PostfillDataMenu()
2102
2103	# IMG / Masks
2104	self.MaskMenu = wx.MenuBar()
2105	self.PrefillDataMenu(self.MaskMenu)
2106	self.MaskEdit = wx.Menu(title='')
2107	self.MaskMenu.Append(menu=self.MaskEdit, title='Operations')
2108	submenu = wx.Menu()
2109	self.MaskEdit.AppendMenu(
2110	wx.ID_ANY,'Create new', submenu,
2111	help=''
2112	)
2113	self.MaskEdit.Append(help='Copy mask to other images',
2114	id=wxID_MASKCOPY, kind=wx.ITEM_NORMAL,text='Copy mask')
2115	self.MaskEdit.Append(help='Save mask to file',
2116	id=wxID_MASKSAVE, kind=wx.ITEM_NORMAL,text='Save mask')
2117	self.MaskEdit.Append(help='Load mask from file',
2118	id=wxID_MASKLOAD, kind=wx.ITEM_NORMAL,text='Load mask')
2119	self.MaskEdit.Append(help='Load mask from file; ignore threshold',
2120	id=wxID_MASKLOADNOT, kind=wx.ITEM_NORMAL,text='Load mask w/o threshold')
2121	self.MaskEdit.Append(help='Auto search for spot masks; NB: will clear old spot masks',
2122	id=wxID_FINDSPOTS, kind=wx.ITEM_NORMAL,text='Auto spot masks')
2123	submenu.Append(help='Create an arc mask with mouse input',
2124	id=wxID_NEWMASKARC, kind=wx.ITEM_NORMAL,text='Arc mask')
2125	submenu.Append(help='Create a frame mask with mouse input',
2126	id=wxID_NEWMASKFRAME, kind=wx.ITEM_NORMAL,text='Frame mask')
2127	submenu.Append(help='Create a polygon mask with mouse input',
2128	id=wxID_NEWMASKPOLY, kind=wx.ITEM_NORMAL,text='Polygon mask')
2129	submenu.Append(help='Create a ring mask with mouse input',
2130	id=wxID_NEWMASKRING, kind=wx.ITEM_NORMAL,text='Ring mask')
2131	submenu.Append(help='Create spot masks with mouse input',
2132	id=wxID_NEWMASKSPOT, kind=wx.ITEM_NORMAL,text='Spot mask')
2133	self.PostfillDataMenu()
2134
2135	# IMG / Stress/Strain
2136	self.StrStaMenu = wx.MenuBar()
2137	self.PrefillDataMenu(self.StrStaMenu)
2138	self.StrStaEdit = wx.Menu(title='')
2139	self.StrStaMenu.Append(menu=self.StrStaEdit, title='Operations')
2140	self.StrStaEdit.Append(help='Append d-zero for one ring',
2141	id=wxID_APPENDDZERO, kind=wx.ITEM_NORMAL,text='Append d-zero')
2142	self.StrStaEdit.Append(help='Fit stress/strain data',
2143	id=wxID_STRSTAFIT, kind=wx.ITEM_NORMAL,text='Fit stress/strain')
2144	self.StrStaEdit.Append(help='Plot intensity distribution',
2145	id=wxID_STRSTAPLOT, kind=wx.ITEM_NORMAL,text='Plot intensity distribution')
2146	self.StrStaEdit.Append(help='Update d-zero from ave d-zero',
2147	id=wxID_UPDATEDZERO, kind=wx.ITEM_NORMAL,text='Update d-zero')
2148	self.StrStaEdit.Append(help='Fit stress/strain data for all images',
2149	id=wxID_STRSTAALLFIT, kind=wx.ITEM_NORMAL,text='All image fit')
2150	self.StrStaEdit.Append(help='Copy stress/strain data to other images',
2151	id=wxID_STRSTACOPY, kind=wx.ITEM_NORMAL,text='Copy stress/strain')
2152	self.StrStaEdit.Append(help='Save stress/strain data to file',
2153	id=wxID_STRSTASAVE, kind=wx.ITEM_NORMAL,text='Save stress/strain')
2154	self.StrStaEdit.Append(help='Load stress/strain data from file',
2155	id=wxID_STRSTALOAD, kind=wx.ITEM_NORMAL,text='Load stress/strain')
2156	self.StrStaEdit.Append(help='Load sample data from file',
2157	id=wxID_STRSTSAMPLE, kind=wx.ITEM_NORMAL,text='Load sample data')
2158	self.PostfillDataMenu()
2159
2160	# PDF / PDF Controls
2161	self.PDFMenu = wx.MenuBar()
2162	self.PrefillDataMenu(self.PDFMenu)
2163	self.PDFEdit = wx.Menu(title='')
2164	self.PDFMenu.Append(menu=self.PDFEdit, title='PDF Controls')
2165	self.PDFEdit.Append(help='Add one or more elements to sample composition',id=wxID_PDFADDELEMENT, kind=wx.ITEM_NORMAL,
2166	text='Add elements')
2167	self.PDFEdit.Append(help='Delete element from sample composition',id=wxID_PDFDELELEMENT, kind=wx.ITEM_NORMAL,
2168	text='Delete element')
2169	self.PDFEdit.Append(help='Copy PDF controls', id=wxID_PDFCOPYCONTROLS, kind=wx.ITEM_NORMAL,
2170	text='Copy controls')
2171	self.PDFEdit.Append(help='Load PDF controls from file',id=wxID_PDFLOADCONTROLS, kind=wx.ITEM_NORMAL,
2172	text='Load Controls')
2173	self.PDFEdit.Append(help='Save PDF controls to file', id=wxID_PDFSAVECONTROLS, kind=wx.ITEM_NORMAL,
2174	text='Save controls')
2175	self.PDFEdit.Append(help='Compute PDF', id=wxID_PDFCOMPUTE, kind=wx.ITEM_NORMAL,
2176	text='Compute PDF')
2177	self.PDFEdit.Append(help='Compute all PDFs', id=wxID_PDFCOMPUTEALL, kind=wx.ITEM_NORMAL,
2178	text='Compute all PDFs')
2179	# self.PDFEdit.Append(help='Optimize PDF', id=wxID_PDFOPT, kind=wx.ITEM_NORMAL,
2180	# text='Optimize corrections for r<Rmin section of current G(r)')
2181	self.PostfillDataMenu()
2182
2183	# Phase / General tab
2184	self.DataGeneral = wx.MenuBar()
2185	self.PrefillDataMenu(self.DataGeneral)
2186	self.DataGeneral.Append(menu=wx.Menu(title=''),title='Select tab')
2187	self.GeneralCalc = wx.Menu(title='')
2188	self.DataGeneral.Append(menu=self.GeneralCalc,title='Compute')
2189	self.GeneralCalc.Append(help='Compute Fourier map',id=wxID_FOURCALC, kind=wx.ITEM_NORMAL,
2190	text='Fourier map')
2191	self.GeneralCalc.Append(help='Search Fourier map',id=wxID_FOURSEARCH, kind=wx.ITEM_NORMAL,
2192	text='Search map')
2193	self.GeneralCalc.Append(help='Run charge flipping',id=wxID_CHARGEFLIP, kind=wx.ITEM_NORMAL,
2194	text='Charge flipping')
2195	self.GeneralCalc.Append(help='Run 4D charge flipping',id=wxID_4DCHARGEFLIP, kind=wx.ITEM_NORMAL,
2196	text='4D Charge flipping')
2197	self.GeneralCalc.Enable(wxID_4DCHARGEFLIP,False)
2198	self.GeneralCalc.Append(help='Clear map',id=wxID_FOURCLEAR, kind=wx.ITEM_NORMAL,
2199	text='Clear map')
2200	self.GeneralCalc.Append(help='Run Monte Carlo - Simulated Annealing',id=wxID_SINGLEMCSA, kind=wx.ITEM_NORMAL,
2201	text='MC/SA')
2202	self.GeneralCalc.Append(help='Run Monte Carlo - Simulated Annealing on multiprocessors',id=wxID_MULTIMCSA, kind=wx.ITEM_NORMAL,
2203	text='Multi MC/SA') #currently not useful
2204	self.GeneralCalc.Append(help='Transform crystal structure',id=wxID_TRANSFORMSTRUCTURE, kind=wx.ITEM_NORMAL,
2205	text='Transform')
2206	self.PostfillDataMenu()
2207
2208	# Phase / Data tab
2209	self.DataMenu = wx.MenuBar()
2210	self.PrefillDataMenu(self.DataMenu)
2211	self.DataMenu.Append(menu=wx.Menu(title=''),title='Select tab')
2212	self.DataEdit = wx.Menu(title='')
2213	self.DataMenu.Append(menu=self.DataEdit, title='Edit Phase')
2214	self.DataEdit.Append(id=wxID_DATACOPY, kind=wx.ITEM_NORMAL,text='Copy data',
2215	help='Copy phase data to other histograms')
2216	self.DataEdit.Append(id=wxID_DATACOPYFLAGS, kind=wx.ITEM_NORMAL,text='Copy flags',
2217	help='Copy phase data flags to other histograms')
2218	self.DataEdit.Append(id=wxID_DATASELCOPY, kind=wx.ITEM_NORMAL,text='Copy selected data',
2219	help='Copy selected phase data to other histograms')
2220	self.DataEdit.Append(id=wxID_DATAUSE, kind=wx.ITEM_NORMAL,text='Select used data',
2221	help='Select all histograms to use')
2222	self.DataEdit.Append(id=wxID_PWDRADD, kind=wx.ITEM_NORMAL,text='Add powder histograms',
2223	help='Select new powder histograms to be used for this phase')
2224	self.DataEdit.Append(id=wxID_HKLFADD, kind=wx.ITEM_NORMAL,text='Add single crystal histograms',
2225	help='Select new single crystal histograms to be used for this phase')
2226	self.DataEdit.Append(id=wxID_DATADELETE, kind=wx.ITEM_NORMAL,text='Remove histograms',
2227	help='Remove histograms from use for this phase')
2228	self.PostfillDataMenu()
2229
2230	# Phase / Atoms tab
2231	self.AtomsMenu = wx.MenuBar()
2232	self.PrefillDataMenu(self.AtomsMenu)
2233	self.AtomsMenu.Append(menu=wx.Menu(title=''),title='Select tab')
2234	self.AtomEdit = wx.Menu(title='')
2235	self.AtomCompute = wx.Menu(title='')
2236	self.AtomsMenu.Append(menu=self.AtomEdit, title='Edit Atoms')
2237	self.AtomsMenu.Append(menu=self.AtomCompute, title='Compute')
2238	submenu = wx.Menu()
2239	self.AtomEdit.AppendMenu(wx.ID_ANY, 'On selected atoms...', submenu,
2240	help='Set/Act on selected atoms')
2241	submenu.Append(wxID_ATOMSSETSEL,
2242	help='Set refinement flags for selected atoms',
2243	kind=wx.ITEM_NORMAL,
2244	text='Refine selected')
2245	submenu.Append(id=wxID_ATOMSMODIFY, kind=wx.ITEM_NORMAL,text='Modify parameters',
2246	help='Modify parameters values for all selected atoms')
2247	submenu.Append(id=wxID_ATOMSEDITINSERT, kind=wx.ITEM_NORMAL,text='Insert atom',
2248	help='Inserts an H atom before all selected atoms')
2249	submenu.Append(id=wxID_ADDHATOM, kind=wx.ITEM_NORMAL,text='Calc H atoms',
2250	help='Insert H atoms in expected bonding positions for selected atoms')
2251	submenu.Append(id=wxID_ATOMSEDITDELETE, kind=wx.ITEM_NORMAL,text='Delete atom',
2252	help='Delete selected atoms')
2253	submenu.Append(id=wxID_ATOMSTRANSFORM, kind=wx.ITEM_NORMAL,text='Transform atoms',
2254	help='Symmetry transform selected atoms')
2255	# self.AtomEdit.Append(id=wxID_ATOMSROTATE, kind=wx.ITEM_NORMAL,text='Rotate atoms',
2256	# help='Select atoms to rotate first')
2257	submenu.Append(wxID_ATOMSSETALL,
2258	help='Set refinement flags for all atoms',
2259	kind=wx.ITEM_NORMAL,
2260	text='Select All')
2261
2262	self.AtomEdit.Append(id=wxID_ATOMSEDITADD, kind=wx.ITEM_NORMAL,text='Append atom',
2263	help='Appended as an H atom')
2264	self.AtomEdit.Append(id=wxID_ATOMSVIEWADD, kind=wx.ITEM_NORMAL,text='Append view point',
2265	help='Appended as an H atom')
2266	self.AtomEdit.Append(id=wxID_ATOMVIEWINSERT, kind=wx.ITEM_NORMAL,text='Insert view point',
2267	help='Select atom row to insert before; inserted as an H atom')
2268	self.AtomEdit.Append(id=wxID_UPDATEHATOM, kind=wx.ITEM_NORMAL,text='Update H atoms',
2269	help='Update H atoms in standard positions')
2270	self.AtomEdit.Append(id=wxID_ATOMMOVE, kind=wx.ITEM_NORMAL,text='Move selected atom to view point',
2271	help='Select a single atom to be moved to view point in plot')
2272	self.AtomEdit.Append(id=wxID_MAKEMOLECULE, kind=wx.ITEM_NORMAL,text='Assemble molecule',
2273	help='Select a single atom to assemble as a molecule from scattered atom positions')
2274	self.AtomEdit.Append(id=wxID_RELOADDRAWATOMS, kind=wx.ITEM_NORMAL,text='Reload draw atoms',
2275	help='Reload atom drawing list')
2276	submenu = wx.Menu()
2277	self.AtomEdit.AppendMenu(wx.ID_ANY, 'Reimport atoms', submenu,
2278	help='Reimport atoms from file; sequence must match')
2279	# setup a cascade menu for the formats that have been defined
2280	self.ReImportMenuId = {} # points to readers for each menu entry
2281	for reader in self.G2frame.ImportPhaseReaderlist:
2282	item = submenu.Append(
2283	wx.ID_ANY,help=reader.longFormatName,
2284	kind=wx.ITEM_NORMAL,text='reimport coordinates from '+reader.formatName+' file')
2285	self.ReImportMenuId[item.GetId()] = reader
2286	item = submenu.Append(
2287	wx.ID_ANY,
2288	help='Reimport coordinates, try to determine format from file',
2289	kind=wx.ITEM_NORMAL,
2290	text='guess format from file')
2291	self.ReImportMenuId[item.GetId()] = None # try all readers
2292
2293	self.AtomCompute.Append(id=wxID_ATOMSDISAGL, kind=wx.ITEM_NORMAL,text='Show Distances && Angles',
2294	help='Compute distances & angles for selected atoms')
2295	self.AtomCompute.Append(id=wxID_ATOMSPDISAGL, kind=wx.ITEM_NORMAL,text='Save Distances && Angles',
2296	help='Compute distances & angles for selected atoms')
2297	self.AtomCompute.ISOcalc = self.AtomCompute.Append(
2298	id=wxID_ISODISP, kind=wx.ITEM_NORMAL,
2299	text='ISODISTORT mode values',
2300	help='Compute values of ISODISTORT modes from atom parameters')
2301	self.AtomCompute.Append(id=wxID_ATOMSDENSITY, kind=wx.ITEM_NORMAL,
2302	text='Density',
2303	help='Compute density for current phase')
2304	self.PostfillDataMenu()
2305
2306	# Phase / Imcommensurate "waves" tab
2307	self.WavesData = wx.MenuBar()
2308	self.PrefillDataMenu(self.WavesData)
2309	self.WavesData.Append(menu=wx.Menu(title=''),title='Select tab')
2310	self.WavesDataEdit = wx.Menu(title='')
2311	self.WavesData.Append(menu=self.WavesDataEdit, title='Edit Wave')
2312	self.WavesDataEdit.Append(id=wxID_WAVEVARY, kind=wx.ITEM_NORMAL,text='Global wave vary',
2313	help='Global setting of wave vary flags')
2314	self.PostfillDataMenu()
2315
2316	# Phase / Layer tab
2317	self.LayerData = wx.MenuBar()
2318	self.PrefillDataMenu(self.LayerData)
2319	self.LayerData.Append(menu=wx.Menu(title=''),title='Select tab')
2320	self.LayerDataEdit = wx.Menu(title='')
2321	self.LayerData.Append(menu=self.LayerDataEdit, title='Operations')
2322	self.LayerDataEdit.Append(id=wxID_LOADDIFFAX, kind=wx.ITEM_NORMAL,text='Load from DIFFaX file',
2323	help='Load layer info from DIFFaX file')
2324	self.LayerDataEdit.Append(id=wxID_COPYPHASE, kind=wx.ITEM_NORMAL,text='Copy phase cell',
2325	help='Copy phase cell from another project')
2326	self.LayerDataEdit.Append(id=wxID_LAYERSIMULATE, kind=wx.ITEM_NORMAL,text='Simulate pattern',
2327	help='Simulate diffraction pattern from layer stacking')
2328	self.LayerDataEdit.Append(id=wxID_LAYERSFIT, kind=wx.ITEM_NORMAL,text='Fit pattern',
2329	help='Fit diffraction pattern with layer stacking model')
2330	self.LayerDataEdit.Append(id=wxID_SEQUENCESIMULATE, kind=wx.ITEM_NORMAL,text='Sequence simulations',
2331	help='Sequence simulation changing one parameter')
2332	self.PostfillDataMenu()
2333
2334	# Phase / Draw Options tab
2335	self.DataDrawOptions = wx.MenuBar()
2336	self.PrefillDataMenu(self.DataDrawOptions)
2337	self.DataDrawOptions.Append(menu=wx.Menu(title=''),title='Select tab')
2338	self.PostfillDataMenu()
2339
2340	# Phase / Draw Atoms tab
2341	self.DrawAtomsMenu = wx.MenuBar()
2342	self.PrefillDataMenu(self.DrawAtomsMenu)
2343	self.DrawAtomsMenu.Append(menu=wx.Menu(title=''),title='Select tab')
2344	self.DrawAtomEdit = wx.Menu(title='')
2345	self.DrawAtomCompute = wx.Menu(title='')
2346	self.DrawAtomRestraint = wx.Menu(title='')
2347	self.DrawAtomRigidBody = wx.Menu(title='')
2348	self.DrawAtomsMenu.Append(menu=self.DrawAtomEdit, title='Edit Figure')
2349	self.DrawAtomsMenu.Append(menu=self.DrawAtomCompute,title='Compute')
2350	self.DrawAtomsMenu.Append(menu=self.DrawAtomRestraint, title='Restraints')
2351	self.DrawAtomsMenu.Append(menu=self.DrawAtomRigidBody, title='Rigid body')
2352	self.DrawAtomEdit.Append(id=wxID_DRAWATOMSTYLE, kind=wx.ITEM_NORMAL,text='Atom style',
2353	help='Select atoms first')
2354	self.DrawAtomEdit.Append(id=wxID_DRAWATOMLABEL, kind=wx.ITEM_NORMAL,text='Atom label',
2355	help='Select atoms first')
2356	self.DrawAtomEdit.Append(id=wxID_DRAWATOMCOLOR, kind=wx.ITEM_NORMAL,text='Atom color',
2357	help='Select atoms first')
2358	self.DrawAtomEdit.Append(id=wxID_DRAWATOMRESETCOLOR, kind=wx.ITEM_NORMAL,text='Reset atom colors',
2359	help='Resets all atom colors to defaults')
2360	self.DrawAtomEdit.Append(id=wxID_DRWAEDITRADII, kind=wx.ITEM_NORMAL,text='Edit atom radii',
2361	help='Edit drawing atom radii')
2362	self.DrawAtomEdit.Append(id=wxID_DRAWVIEWPOINT, kind=wx.ITEM_NORMAL,text='View point',
2363	help='View point is 1st atom selected')
2364	self.DrawAtomEdit.Append(id=wxID_DRAWADDEQUIV, kind=wx.ITEM_NORMAL,text='Add atoms',
2365	help='Add symmetry & cell equivalents to drawing set from selected atoms')
2366	self.DrawAtomEdit.Append(id=wxID_DRAWADDSPHERE, kind=wx.ITEM_NORMAL,text='Add sphere of atoms',
2367	help='Add atoms within sphere of enclosure')
2368	self.DrawAtomEdit.Append(id=wxID_DRAWTRANSFORM, kind=wx.ITEM_NORMAL,text='Transform draw atoms',
2369	help='Transform selected atoms by symmetry & cell translations')
2370	self.DrawAtomEdit.Append(id=wxID_DRAWFILLCOORD, kind=wx.ITEM_NORMAL,text='Fill CN-sphere',
2371	help='Fill coordination sphere for selected atoms')
2372	self.DrawAtomEdit.Append(id=wxID_DRAWFILLCELL, kind=wx.ITEM_NORMAL,text='Fill unit cell',
2373	help='Fill unit cell with selected atoms')
2374	self.DrawAtomEdit.Append(id=wxID_DRAWDELETE, kind=wx.ITEM_NORMAL,text='Delete atoms',
2375	help='Delete atoms from drawing set')
2376	self.DrawAtomCompute.Append(id=wxID_DRAWDISTVP, kind=wx.ITEM_NORMAL,text='View pt. dist.',
2377	help='Compute distance of selected atoms from view point')
2378	self.DrawAtomCompute.Append(id=wxID_DRAWDISAGLTOR, kind=wx.ITEM_NORMAL,text='Dist. Ang. Tors.',
2379	help='Compute distance, angle or torsion for 2-4 selected atoms')
2380	self.DrawAtomCompute.Append(id=wxID_DRAWPLANE, kind=wx.ITEM_NORMAL,text='Best plane',
2381	help='Compute best plane for 4+ selected atoms')
2382	self.DrawAtomRestraint.Append(id=wxID_DRAWRESTRBOND, kind=wx.ITEM_NORMAL,text='Add bond restraint',
2383	help='Add bond restraint for selected atoms (2)')
2384	self.DrawAtomRestraint.Append(id=wxID_DRAWRESTRANGLE, kind=wx.ITEM_NORMAL,text='Add angle restraint',
2385	help='Add angle restraint for selected atoms (3: one end 1st)')
2386	self.DrawAtomRestraint.Append(id=wxID_DRAWRESTRPLANE, kind=wx.ITEM_NORMAL,text='Add plane restraint',
2387	help='Add plane restraint for selected atoms (4+)')
2388	self.DrawAtomRestraint.Append(id=wxID_DRAWRESTRCHIRAL, kind=wx.ITEM_NORMAL,text='Add chiral restraint',
2389	help='Add chiral restraint for selected atoms (4: center atom 1st)')
2390	self.DrawAtomRigidBody.Append(id=wxID_DRAWDEFINERB, kind=wx.ITEM_NORMAL,text='Define rigid body',
2391	help='Define rigid body with selected atoms')
2392	self.PostfillDataMenu()
2393
2394	# Phase / MCSA tab
2395	self.MCSAMenu = wx.MenuBar()
2396	self.PrefillDataMenu(self.MCSAMenu)
2397	self.MCSAMenu.Append(menu=wx.Menu(title=''),title='Select tab')
2398	self.MCSAEdit = wx.Menu(title='')
2399	self.MCSAMenu.Append(menu=self.MCSAEdit, title='MC/SA')
2400	self.MCSAEdit.Append(id=wxID_ADDMCSAATOM, kind=wx.ITEM_NORMAL,text='Add atom',
2401	help='Add single atom to MC/SA model')
2402	self.MCSAEdit.Append(id=wxID_ADDMCSARB, kind=wx.ITEM_NORMAL,text='Add rigid body',
2403	help='Add rigid body to MC/SA model' )
2404	self.MCSAEdit.Append(id=wxID_CLEARMCSARB, kind=wx.ITEM_NORMAL,text='Clear rigid bodies',
2405	help='Clear all atoms & rigid bodies from MC/SA model' )
2406	self.MCSAEdit.Append(id=wxID_MOVEMCSA, kind=wx.ITEM_NORMAL,text='Move MC/SA solution',
2407	help='Move MC/SA solution to atom list' )
2408	self.MCSAEdit.Append(id=wxID_MCSACLEARRESULTS, kind=wx.ITEM_NORMAL,text='Clear results',
2409	help='Clear table of MC/SA results' )
2410	self.PostfillDataMenu()
2411
2412	# Phase / Texture tab
2413	self.TextureMenu = wx.MenuBar()
2414	self.PrefillDataMenu(self.TextureMenu)
2415	self.TextureMenu.Append(menu=wx.Menu(title=''),title='Select tab')
2416	self.TextureEdit = wx.Menu(title='')
2417	self.TextureMenu.Append(menu=self.TextureEdit, title='Texture')
2418	self.TextureEdit.Append(id=wxID_REFINETEXTURE, kind=wx.ITEM_NORMAL,text='Refine texture',
2419	help='Refine the texture coefficients from sequential results')
2420	# self.TextureEdit.Append(id=wxID_CLEARTEXTURE, kind=wx.ITEM_NORMAL,text='Clear texture',
2421	# help='Clear the texture coefficients' )
2422	self.PostfillDataMenu()
2423
2424	# Phase / Pawley tab
2425	self.PawleyMenu = wx.MenuBar()
2426	self.PrefillDataMenu(self.PawleyMenu)
2427	self.PawleyMenu.Append(menu=wx.Menu(title=''),title='Select tab')
2428	self.PawleyEdit = wx.Menu(title='')
2429	self.PawleyMenu.Append(menu=self.PawleyEdit,title='Operations')
2430	self.PawleyEdit.Append(id=wxID_PAWLEYSET, kind=wx.ITEM_NORMAL,text='Pawley settings',
2431	help='Change Pawley refinement settings')
2432	self.PawleyEdit.Append(id=wxID_PAWLEYLOAD, kind=wx.ITEM_NORMAL,text='Pawley create',
2433	help='Initialize Pawley reflection list')
2434	self.PawleyEdit.Append(id=wxID_PAWLEYESTIMATE, kind=wx.ITEM_NORMAL,text='Pawley estimate',
2435	help='Estimate initial Pawley intensities')
2436	self.PawleyEdit.Append(id=wxID_PAWLEYUPDATE, kind=wx.ITEM_NORMAL,text='Pawley update',
2437	help='Update negative Pawley intensities with -0.5*Fobs and turn off refinement')
2438	self.PawleyEdit.Append(id=wxID_PAWLEYSELALL, kind=wx.ITEM_NORMAL,text='Select all',
2439	help='Select all reflections to be refined')
2440	self.PawleyEdit.Append(id=wxID_PAWLEYSELNONE, kind=wx.ITEM_NORMAL,text='Select none',
2441	help='Set flag for all reflections for no refinement')
2442	self.PawleyEdit.Append(id=wxID_PAWLEYSELTOGGLE, kind=wx.ITEM_NORMAL,text='Toggle Selection',
2443	help='Toggle Selection flag for all reflections to opposite setting')
2444	self.PostfillDataMenu()
2445
2446	# Phase / Map peaks tab
2447	self.MapPeaksMenu = wx.MenuBar()
2448	self.PrefillDataMenu(self.MapPeaksMenu)
2449	self.MapPeaksMenu.Append(menu=wx.Menu(title=''),title='Select tab')
2450	self.MapPeaksEdit = wx.Menu(title='')
2451	self.MapPeaksMenu.Append(menu=self.MapPeaksEdit, title='Map peaks')
2452	self.MapPeaksEdit.Append(id=wxID_PEAKSMOVE, kind=wx.ITEM_NORMAL,text='Move peaks',
2453	help='Move selected peaks to atom list')
2454	self.MapPeaksEdit.Append(id=wxID_PEAKSVIEWPT, kind=wx.ITEM_NORMAL,text='View point',
2455	help='View point is 1st peak selected')
2456	self.MapPeaksEdit.Append(id=wxID_PEAKSDISTVP, kind=wx.ITEM_NORMAL,text='View pt. dist.',
2457	help='Compute distance of selected peaks from view point')
2458	self.MapPeaksEdit.Append(id=wxID_SHOWBONDS, kind=wx.ITEM_NORMAL,text='Hide bonds',
2459	help='Hide or show bonds between peak positions')
2460	self.MapPeaksEdit.Append(id=wxID_PEAKSDA, kind=wx.ITEM_NORMAL,text='Calc dist/ang',
2461	help='Calculate distance or angle for selection')
2462	self.MapPeaksEdit.Append(id=wxID_FINDEQVPEAKS, kind=wx.ITEM_NORMAL,text='Equivalent peaks',
2463	help='Find equivalent peaks')
2464	self.MapPeaksEdit.Append(id=wxID_PEAKSUNIQUE, kind=wx.ITEM_NORMAL,text='Unique peaks',
2465	help='Select unique set')
2466	self.MapPeaksEdit.Append(id=wxID_PEAKSDELETE, kind=wx.ITEM_NORMAL,text='Delete peaks',
2467	help='Delete selected peaks')
2468	self.MapPeaksEdit.Append(id=wxID_PEAKSCLEAR, kind=wx.ITEM_NORMAL,text='Clear peaks',
2469	help='Clear the map peak list')
2470	self.PostfillDataMenu()
2471
2472	# Phase / Rigid bodies tab
2473	self.RigidBodiesMenu = wx.MenuBar()
2474	self.PrefillDataMenu(self.RigidBodiesMenu)
2475	self.RigidBodiesMenu.Append(menu=wx.Menu(title=''),title='Select tab')
2476	self.RigidBodiesEdit = wx.Menu(title='')
2477	self.RigidBodiesMenu.Append(menu=self.RigidBodiesEdit, title='Edit Body')
2478	self.RigidBodiesEdit.Append(id=wxID_ASSIGNATMS2RB, kind=wx.ITEM_NORMAL,text='Assign atoms to rigid body',
2479	help='Select & position rigid body in structure of existing atoms')
2480	self.RigidBodiesEdit.Append(id=wxID_AUTOFINDRESRB, kind=wx.ITEM_NORMAL,text='Auto find residues',
2481	help='Auto find of residue RBs in macromolecule')
2482	self.RigidBodiesEdit.Append(id=wxID_COPYRBPARMS, kind=wx.ITEM_NORMAL,text='Copy rigid body parms',
2483	help='Copy rigid body location & TLS parameters')
2484	self.RigidBodiesEdit.Append(id=wxID_GLOBALTHERM, kind=wx.ITEM_NORMAL,text='Global thermal motion',
2485	help='Global setting of residue thermal motion models')
2486	self.RigidBodiesEdit.Append(id=wxID_GLOBALRESREFINE, kind=wx.ITEM_NORMAL,text='Global residue refine',
2487	help='Global setting of residue RB refinement flags')
2488	self.RigidBodiesEdit.Append(id=wxID_RBREMOVEALL, kind=wx.ITEM_NORMAL,text='Remove all rigid bodies',
2489	help='Remove all rigid body assignment for atoms')
2490	self.PostfillDataMenu()
2491	# end of GSAS-II menu definitions
2492
2493	def _init_ctrls(self, parent,name=None,size=None,pos=None):
2494	wx.Frame.__init__(
2495	self,parent=parent,
2496	#style=wx.DEFAULT_FRAME_STYLE ^ wx.CLOSE_BOX \| wx.FRAME_FLOAT_ON_PARENT ,
2497	style=wx.DEFAULT_FRAME_STYLE ^ wx.CLOSE_BOX,
2498	size=size,pos=pos,title='GSAS-II data display')
2499	self._init_menus()
2500	if name:
2501	self.SetLabel(name)
2502	self.Show()
2503
2504	def __init__(self,parent,frame,data=None,name=None, size=None,pos=None):
2505	self.G2frame = frame
2506	self._init_ctrls(parent,name,size,pos)
2507	self.data = data
2508	clientSize = wx.ClientDisplayRect()
2509	Size = self.GetSize()
2510	xPos = clientSize[2]-Size[0]
2511	self.SetPosition(wx.Point(xPos,clientSize[1]+250))
2512	self.AtomGrid = []
2513	self.selectedRow = 0
2514	self.lastSize = Size
2515	self.manualPhaseSize = None
2516	self.userReSize = False
2517	wx.Frame.Bind(self,wx.EVT_SIZE,self.OnReSize)
2518
2519	def OnReSize(self,event):
2520	'''Keep track of size changes for Phase windows
2521	'''
2522	id = self.G2frame.PatternTree.GetSelection()
2523	try:
2524	parent = self.G2frame.PatternTree.GetItemParent(id)
2525	except: #avoid bad tree item on start via gpx file selection
2526	parent = 0
2527	if self.userReSize and parent and self.G2frame.PatternTree.GetItemText(parent) == "Phases":
2528	if self.lastSize == event.EventObject.GetSize():
2529	# if GSASIIpath.GetConfigValue('debug'):
2530	# print 'no save size=',self.lastSize
2531	return
2532	self.manualPhaseSize = event.EventObject.GetSize()
2533	self.lastSize = event.EventObject.GetSize()
2534	# if GSASIIpath.GetConfigValue('debug'):
2535	# print 'Saving Phase size=',self.manualPhaseSize
2536	#HowDidIgetHere()
2537	event.Skip()
2538
2539	def SendSizeEvent(self):
2540	'''Prevent SendSizeEvent from overriding the saved size
2541	'''
2542	self.userReSize = False
2543	wx.Frame.SendSizeEvent(self)
2544	self.userReSize = True
2545
2546	def setSizePosLeft(self,Size):
2547	'''Place the dataFrame window so that the upper left-hand corner remains in the same place;
2548	The size is dictated by parameter Width, unless overridden by a previous Phase window resize
2549	'''
2550	self.userReSize = False
2551	Size = list(Size)
2552	id = self.G2frame.PatternTree.GetSelection()
2553	try: #avoid bad tree item on start via gpx file selection
2554	pid = self.G2frame.PatternTree.GetItemParent(id)
2555	except:
2556	pid = 0
2557	if pid:
2558	parent = self.G2frame.PatternTree.GetItemText(pid)
2559	# is this a phase window and has a previous window has been resized?
2560	if self.manualPhaseSize and parent == "Phases":
2561	Size = list(self.manualPhaseSize)
2562	Pos = self.GetPosition()
2563	clientSize = wx.ClientDisplayRect() #display window size (e.g. 1304x768)
2564	Size[1] = min(Size[1],clientSize[2]-300)
2565	Size[0] = max(Size[0],300)
2566	# print 'current position/width:',Pos,Width
2567	self.SetSize(Size)
2568	Size[1] += 1 #kluge to ensure scrollbar settings & window properly displayed
2569	self.SetSize(Size)
2570	Pos[0] += self.lastSize[0]-Size[0]
2571	offSet = 0
2572	if Pos[0] < clientSize[2]:
2573	offSet = Pos[0]+Size[0]-clientSize[2]
2574	if offSet > 0:
2575	Pos[0] -= offSet
2576	self.SetPosition(wx.Point(Pos[0],Pos[1]))
2577	self.lastSize = Size
2578	self.userReSize = True
2579
2580	def Clear(self):
2581	self.ClearBackground()
2582	self.DestroyChildren()
2583
2584
2585	################################################################################
2586	##### Notebook Tree Item editor
2587	################################################################################
2588	def UpdateNotebook(G2frame,data):
2589	'''Called when the data tree notebook entry is selected. Allows for
2590	editing of the text in that tree entry
2591	'''
2592	def OnNoteBook(event):
2593	event.Skip()
2594	data = G2frame.dataDisplay.GetValue().split('\n')
2595	G2frame.PatternTree.SetItemPyData(GetPatternTreeItemId(G2frame,G2frame.root,'Notebook'),data)
2596	if 'nt' not in os.name:
2597	G2frame.dataDisplay.AppendText('\n')
2598
2599	if G2frame.dataDisplay:
2600	G2frame.dataDisplay.Destroy()
2601	G2frame.dataFrame.SetLabel('Notebook')
2602	G2frame.dataDisplay = wx.TextCtrl(parent=G2frame.dataFrame,size=G2frame.dataFrame.GetClientSize(),
2603	style=wx.TE_MULTILINE\|wx.TE_PROCESS_ENTER \| wx.TE_DONTWRAP)
2604	G2frame.dataDisplay.Bind(wx.EVT_TEXT_ENTER,OnNoteBook)
2605	G2frame.dataDisplay.Bind(wx.EVT_KILL_FOCUS,OnNoteBook)
2606	for line in data:
2607	G2frame.dataDisplay.AppendText(line+"\n")
2608	G2frame.dataDisplay.AppendText('Notebook entry @ '+time.ctime()+"\n")
2609	G2frame.dataFrame.setSizePosLeft([400,250])
2610
2611	################################################################################
2612	##### Controls Tree Item editor
2613	################################################################################
2614	def UpdateControls(G2frame,data):
2615	'''Edit overall GSAS-II controls in main Controls data tree entry
2616	'''
2617	#patch
2618	if 'deriv type' not in data:
2619	data = {}
2620	data['deriv type'] = 'analytic Hessian'
2621	data['min dM/M'] = 0.0001
2622	data['shift factor'] = 1.
2623	data['max cyc'] = 3
2624	data['F**2'] = False
2625	if 'shift factor' not in data:
2626	data['shift factor'] = 1.
2627	if 'max cyc' not in data:
2628	data['max cyc'] = 3
2629	if 'F**2' not in data:
2630	data['F**2'] = False
2631	if 'Author' not in data:
2632	data['Author'] = 'no name'
2633	if 'FreePrm1' not in data:
2634	data['FreePrm1'] = 'Sample humidity (%)'
2635	if 'FreePrm2' not in data:
2636	data['FreePrm2'] = 'Sample voltage (V)'
2637	if 'FreePrm3' not in data:
2638	data['FreePrm3'] = 'Applied load (MN)'
2639	if 'Copy2Next' not in data:
2640	data['Copy2Next'] = False
2641	if 'Reverse Seq' not in data:
2642	data['Reverse Seq'] = False
2643	if 'UsrReject' not in data:
2644	data['UsrReject'] = {'minF/sig':0,'MinExt':0.01,'MaxDF/F':20.,'MaxD':500.,'MinD':0.05}
2645	if 'HatomFix' not in data:
2646	data['HatomFix'] = False
2647	if 'Marquardt' not in data:
2648	data['Marquardt'] = -3
2649
2650	#end patch
2651
2652	def SeqSizer():
2653
2654	def OnSelectData(event):
2655	choices = GetPatternTreeDataNames(G2frame,['PWDR','HKLF',])
2656	sel = []
2657	try:
2658	if 'Seq Data' in data:
2659	for item in data['Seq Data']:
2660	sel.append(choices.index(item))
2661	sel = [choices.index(item) for item in data['Seq Data']]
2662	except ValueError: #data changed somehow - start fresh
2663	sel = []
2664	dlg = G2G.G2MultiChoiceDialog(G2frame.dataFrame, 'Sequential refinement',
2665	'Select dataset to include',choices)
2666	dlg.SetSelections(sel)
2667	names = []
2668	if dlg.ShowModal() == wx.ID_OK:
2669	for sel in dlg.GetSelections():
2670	names.append(choices[sel])
2671	data['Seq Data'] = names
2672	G2frame.EnableSeqRefineMenu()
2673	dlg.Destroy()
2674	wx.CallAfter(UpdateControls,G2frame,data)
2675
2676	def OnReverse(event):
2677	data['Reverse Seq'] = reverseSel.GetValue()
2678
2679	def OnCopySel(event):
2680	data['Copy2Next'] = copySel.GetValue()
2681
2682	seqSizer = wx.BoxSizer(wx.VERTICAL)
2683	dataSizer = wx.BoxSizer(wx.HORIZONTAL)
2684	dataSizer.Add(wx.StaticText(G2frame.dataDisplay,label=' Sequential Refinement: '),0,WACV)
2685	selSeqData = wx.Button(G2frame.dataDisplay,-1,label=' Select data')
2686	selSeqData.Bind(wx.EVT_BUTTON,OnSelectData)
2687	dataSizer.Add(selSeqData,0,WACV)
2688	SeqData = data.get('Seq Data',[])
2689	if not SeqData:
2690	lbl = ' (no data selected)'
2691	else:
2692	lbl = ' ('+str(len(SeqData))+' dataset(s) selected)'
2693
2694	dataSizer.Add(wx.StaticText(G2frame.dataDisplay,label=lbl),0,WACV)
2695	seqSizer.Add(dataSizer,0)
2696	if SeqData:
2697	selSizer = wx.BoxSizer(wx.HORIZONTAL)
2698	reverseSel = wx.CheckBox(G2frame.dataDisplay,-1,label=' Reverse order?')
2699	reverseSel.Bind(wx.EVT_CHECKBOX,OnReverse)
2700	reverseSel.SetValue(data['Reverse Seq'])
2701	selSizer.Add(reverseSel,0,WACV)
2702	copySel = wx.CheckBox(G2frame.dataDisplay,-1,label=' Copy results to next histogram?')
2703	copySel.Bind(wx.EVT_CHECKBOX,OnCopySel)
2704	copySel.SetValue(data['Copy2Next'])
2705	selSizer.Add(copySel,0,WACV)
2706	seqSizer.Add(selSizer,0)
2707	return seqSizer
2708
2709	def LSSizer():
2710
2711	def OnDerivType(event):
2712	data['deriv type'] = derivSel.GetValue()
2713	derivSel.SetValue(data['deriv type'])
2714	wx.CallAfter(UpdateControls,G2frame,data)
2715
2716	def OnConvergence(event):
2717	event.Skip()
2718	try:
2719	value = max(1.e-9,min(1.0,float(Cnvrg.GetValue())))
2720	except ValueError:
2721	value = 0.0001
2722	data['min dM/M'] = value
2723	Cnvrg.SetValue('%.2g'%(value))
2724
2725	def OnMaxCycles(event):
2726	data['max cyc'] = int(maxCyc.GetValue())
2727	maxCyc.SetValue(str(data['max cyc']))
2728
2729	def OnMarqLam(event):
2730	data['Marquardt'] = int(marqLam.GetValue())
2731	marqLam.SetValue(str(data['Marquardt']))
2732
2733	def OnFactor(event):
2734	event.Skip()
2735	try:
2736	value = min(max(float(Factr.GetValue()),0.00001),100.)
2737	except ValueError:
2738	value = 1.0
2739	data['shift factor'] = value
2740	Factr.SetValue('%.5f'%(value))
2741
2742	def OnFsqRef(event):
2743	data['F**2'] = fsqRef.GetValue()
2744
2745	# def OnHatomFix(event):
2746	# data['HatomFix'] = Hfix.GetValue()
2747
2748	def OnUsrRej(event):
2749	event.Skip()
2750	Obj = event.GetEventObject()
2751	item,limits = Indx[Obj]
2752	try:
2753	value = min(max(float(Obj.GetValue()),limits[0]),limits[1])
2754	except ValueError:
2755	value = data['UsrReject'][item]
2756	data['UsrReject'][item] = value
2757	Obj.SetValue('%.2f'%(value))
2758
2759	LSSizer = wx.FlexGridSizer(cols=4,vgap=5,hgap=5)
2760	LSSizer.Add(wx.StaticText(G2frame.dataDisplay,label=' Refinement derivatives: '),0,WACV)
2761	Choice=['analytic Jacobian','numeric','analytic Hessian']
2762	derivSel = wx.ComboBox(parent=G2frame.dataDisplay,value=data['deriv type'],choices=Choice,
2763	style=wx.CB_READONLY\|wx.CB_DROPDOWN)
2764	derivSel.SetValue(data['deriv type'])
2765	derivSel.Bind(wx.EVT_COMBOBOX, OnDerivType)
2766
2767	LSSizer.Add(derivSel,0,WACV)
2768	LSSizer.Add(wx.StaticText(G2frame.dataDisplay,label=' Min delta-M/M: '),0,WACV)
2769	Cnvrg = wx.TextCtrl(G2frame.dataDisplay,-1,value='%.2g'%(data['min dM/M']),style=wx.TE_PROCESS_ENTER)
2770	Cnvrg.Bind(wx.EVT_TEXT_ENTER,OnConvergence)
2771	Cnvrg.Bind(wx.EVT_KILL_FOCUS,OnConvergence)
2772	LSSizer.Add(Cnvrg,0,WACV)
2773	Indx = {}
2774	if 'Hessian' in data['deriv type']:
2775	LSSizer.Add(wx.StaticText(G2frame.dataDisplay,label=' Max cycles: '),0,WACV)
2776	Choice = ['0','1','2','3','5','10','15','20']
2777	maxCyc = wx.ComboBox(parent=G2frame.dataDisplay,value=str(data['max cyc']),choices=Choice,
2778	style=wx.CB_READONLY\|wx.CB_DROPDOWN)
2779	# maxCyc.SetValue(str(data['max cyc']))
2780	maxCyc.Bind(wx.EVT_COMBOBOX, OnMaxCycles)
2781	LSSizer.Add(maxCyc,0,WACV)
2782	LSSizer.Add(wx.StaticText(G2frame.dataDisplay,label=' Initial lambda = 10**'),0,WACV)
2783	MarqChoice = ['-3','-2','-1','0','1','2','3','4']
2784	marqLam = wx.ComboBox(parent=G2frame.dataDisplay,value=str(data['Marquardt']),choices=MarqChoice,
2785	style=wx.CB_READONLY\|wx.CB_DROPDOWN)
2786	marqLam.Bind(wx.EVT_COMBOBOX,OnMarqLam)
2787	LSSizer.Add(marqLam,0,WACV)
2788	else:
2789	LSSizer.Add(wx.StaticText(G2frame.dataDisplay,label=' Initial shift factor: '),0,WACV)
2790	Factr = wx.TextCtrl(G2frame.dataDisplay,-1,value='%.5f'%(data['shift factor']),style=wx.TE_PROCESS_ENTER)
2791	Factr.Bind(wx.EVT_TEXT_ENTER,OnFactor)
2792	Factr.Bind(wx.EVT_KILL_FOCUS,OnFactor)
2793	LSSizer.Add(Factr,0,WACV)
2794	if G2frame.Sngl:
2795	userReject = data['UsrReject']
2796	usrRej = {'minF/sig':[' Min obs/sig (0-5): ',[0,5], ],'MinExt':[' Min extinct. (0-.9): ',[0,.9],],
2797	'MaxDF/F':[' Max delt-F/sig (3-1000): ',[3.,1000.],],'MaxD':[' Max d-spacing (3-500): ',[3,500],],
2798	'MinD':[' Min d-spacing (0.1-2.0): ',[0.1,2.0],]}
2799
2800	fsqRef = wx.CheckBox(G2frame.dataDisplay,-1,label='Refine HKLF as F^2? ')
2801	fsqRef.SetValue(data['F**2'])
2802	fsqRef.Bind(wx.EVT_CHECKBOX,OnFsqRef)
2803	LSSizer.Add(fsqRef,0,WACV)
2804	LSSizer.Add((1,0),)
2805	for item in usrRej:
2806	LSSizer.Add(wx.StaticText(G2frame.dataDisplay,-1,label=usrRej[item][0]),0,WACV)
2807	usrrej = wx.TextCtrl(G2frame.dataDisplay,-1,value='%.2f'%(userReject[item]),style=wx.TE_PROCESS_ENTER)
2808	Indx[usrrej] = [item,usrRej[item][1]]
2809	usrrej.Bind(wx.EVT_TEXT_ENTER,OnUsrRej)
2810	usrrej.Bind(wx.EVT_KILL_FOCUS,OnUsrRej)
2811	LSSizer.Add(usrrej,0,WACV)
2812	# Hfix = wx.CheckBox(G2frame.dataDisplay,-1,label='Regularize H atoms? ')
2813	# Hfix.SetValue(data['HatomFix'])
2814	# Hfix.Bind(wx.EVT_CHECKBOX,OnHatomFix)
2815	# LSSizer.Add(Hfix,0,WACV) #for now
2816	return LSSizer
2817
2818	def AuthSizer():
2819
2820	def OnAuthor(event):
2821	event.Skip()
2822	data['Author'] = auth.GetValue()
2823
2824	Author = data['Author']
2825	authSizer = wx.BoxSizer(wx.HORIZONTAL)
2826	authSizer.Add(wx.StaticText(G2frame.dataDisplay,label=' CIF Author (last, first):'),0,WACV)
2827	auth = wx.TextCtrl(G2frame.dataDisplay,-1,value=Author,style=wx.TE_PROCESS_ENTER)
2828	auth.Bind(wx.EVT_TEXT_ENTER,OnAuthor)
2829	auth.Bind(wx.EVT_KILL_FOCUS,OnAuthor)
2830	authSizer.Add(auth,0,WACV)
2831	return authSizer
2832
2833
2834	if G2frame.dataDisplay:
2835	G2frame.dataDisplay.Destroy()
2836	if not G2frame.dataFrame.GetStatusBar():
2837	Status = G2frame.dataFrame.CreateStatusBar()
2838	Status.SetStatusText('')
2839	G2frame.dataFrame.SetLabel('Controls')
2840	G2frame.dataDisplay = wx.Panel(G2frame.dataFrame)
2841	SetDataMenuBar(G2frame,G2frame.dataFrame.ControlsMenu)
2842	mainSizer = wx.BoxSizer(wx.VERTICAL)
2843	mainSizer.Add((5,5),0)
2844	mainSizer.Add(wx.StaticText(G2frame.dataDisplay,label=' Refinement Controls:'),0,WACV)
2845	mainSizer.Add(LSSizer())
2846	mainSizer.Add((5,5),0)
2847	mainSizer.Add(SeqSizer())
2848	mainSizer.Add((5,5),0)
2849	mainSizer.Add(AuthSizer())
2850	mainSizer.Add((5,5),0)
2851
2852	mainSizer.Layout()
2853	G2frame.dataDisplay.SetSizer(mainSizer)
2854	G2frame.dataFrame.setSizePosLeft(mainSizer.Fit(G2frame.dataFrame))
2855
2856	################################################################################
2857	##### Comments
2858	################################################################################
2859
2860	def UpdateComments(G2frame,data):
2861
2862	if G2frame.dataDisplay:
2863	G2frame.dataDisplay.Destroy()
2864	G2frame.dataFrame.SetLabel('Comments')
2865	G2frame.dataDisplay = wx.TextCtrl(parent=G2frame.dataFrame,size=G2frame.dataFrame.GetClientSize(),
2866	style=wx.TE_MULTILINE\|wx.TE_READONLY\|wx.TE_DONTWRAP)
2867	for line in data:
2868	if '\n' not in line:
2869	G2frame.dataDisplay.AppendText(line+'\n')
2870	else:
2871	G2frame.dataDisplay.AppendText(line)
2872	G2frame.dataFrame.setSizePosLeft([400,250])
2873
2874	################################################################################
2875	##### Display of Sequential Results
2876	################################################################################
2877
2878	def UpdateSeqResults(G2frame,data,prevSize=None):
2879	"""
2880	Called when the Sequential Results data tree entry is selected
2881	to show results from a sequential refinement.
2882
2883	:param wx.Frame G2frame: main GSAS-II data tree windows
2884
2885	:param dict data: a dictionary containing the following items:
2886
2887	* 'histNames' - list of histogram names in order as processed by Sequential Refinement
2888	* 'varyList' - list of variables - identical over all refinements in sequence
2889	note that this is the original list of variables, prior to processing
2890	constraints.
2891	* 'variableLabels' -- a dict of labels to be applied to each parameter
2892	(this is created as an empty dict if not present in data).
2893	* keyed by histName - dictionaries for all data sets processed, which contains:
2894
2895	* 'variables'- result[0] from leastsq call
2896	* 'varyList' - list of variables passed to leastsq call (not same as above)
2897	* 'sig' - esds for variables
2898	* 'covMatrix' - covariance matrix from individual refinement
2899	* 'title' - histogram name; same as dict item name
2900	* 'newAtomDict' - new atom parameters after shifts applied
2901	* 'newCellDict' - refined cell parameters after shifts to A0-A5 from Dij terms applied'
2902	"""
2903
2904	def GetSampleParms():
2905	'''Make a dictionary of the sample parameters are not the same over the
2906	refinement series.
2907	'''
2908	if 'IMG' in histNames[0]:
2909	sampleParmDict = {'Sample load':[],}
2910	else:
2911	sampleParmDict = {'Temperature':[],'Pressure':[],'Time':[],
2912	'FreePrm1':[],'FreePrm2':[],'FreePrm3':[],'Omega':[],
2913	'Chi':[],'Phi':[],'Azimuth':[],}
2914	Controls = G2frame.PatternTree.GetItemPyData(
2915	GetPatternTreeItemId(G2frame,G2frame.root, 'Controls'))
2916	sampleParm = {}
2917	for name in histNames:
2918	if 'IMG' in name:
2919	for item in sampleParmDict:
2920	sampleParmDict[item].append(data[name]['parmDict'].get(item,0))
2921	else:
2922	Id = GetPatternTreeItemId(G2frame,G2frame.root,name)
2923	sampleData = G2frame.PatternTree.GetItemPyData(GetPatternTreeItemId(G2frame,Id,'Sample Parameters'))
2924	for item in sampleParmDict:
2925	sampleParmDict[item].append(sampleData.get(item,0))
2926	for item in sampleParmDict:
2927	frstValue = sampleParmDict[item][0]
2928	if np.any(np.array(sampleParmDict[item])-frstValue):
2929	if item.startswith('FreePrm'):
2930	sampleParm[Controls[item]] = sampleParmDict[item]
2931	else:
2932	sampleParm[item] = sampleParmDict[item]
2933	return sampleParm
2934
2935	def GetColumnInfo(col):
2936	'''returns column label, lists of values and errors (or None) for each column in the table
2937	for plotting. The column label is reformatted from Unicode to MatPlotLib encoding
2938	'''
2939	colName = G2frame.SeqTable.GetColLabelValue(col)
2940	plotName = variableLabels.get(colName,colName)
2941	plotName = plotSpCharFix(plotName)
2942	return plotName,colList[col],colSigs[col]
2943
2944	def PlotSelect(event):
2945	'Plots a row (covariance) or column on double-click'
2946	cols = G2frame.dataDisplay.GetSelectedCols()
2947	rows = G2frame.dataDisplay.GetSelectedRows()
2948	if cols:
2949	G2plt.PlotSelectedSequence(G2frame,cols,GetColumnInfo,SelectXaxis)
2950	elif rows:
2951	name = histNames[rows[0]] #only does 1st one selected
2952	G2plt.PlotCovariance(G2frame,data[name])
2953	else:
2954	G2frame.ErrorDialog(
2955	'Select row or columns',
2956	'Nothing selected in table. Click on column or row label(s) to plot. N.B. Grid selection can be a bit funky.'
2957	)
2958
2959	def OnPlotSelSeq(event):
2960	'plot the selected columns or row from menu command'
2961	cols = sorted(G2frame.dataDisplay.GetSelectedCols()) # ignore selection order
2962	rows = G2frame.dataDisplay.GetSelectedRows()
2963	if cols:
2964	G2plt.PlotSelectedSequence(G2frame,cols,GetColumnInfo,SelectXaxis)
2965	elif rows:
2966	name = histNames[rows[0]] #only does 1st one selected
2967	G2plt.PlotCovariance(G2frame,data[name])
2968	else:
2969	G2frame.ErrorDialog(
2970	'Select columns',
2971	'No columns or rows selected in table. Click on row or column labels to select fields for plotting.'
2972	)
2973
2974	def OnAveSelSeq(event):
2975	'average the selected columns from menu command'
2976	cols = sorted(G2frame.dataDisplay.GetSelectedCols()) # ignore selection order
2977	if cols:
2978	for col in cols:
2979	ave = np.mean(GetColumnInfo(col)[1])
2980	sig = np.std(GetColumnInfo(col)[1])
2981	print ' Average for '+G2frame.SeqTable.GetColLabelValue(col)+': '+'%.6g'%(ave)+' +/- '+'%.6g'%(sig)
2982	else:
2983	G2frame.ErrorDialog(
2984	'Select columns',
2985	'No columns selected in table. Click on column labels to select fields for averaging.'
2986	)
2987
2988	def OnRenameSelSeq(event):
2989	cols = sorted(G2frame.dataDisplay.GetSelectedCols()) # ignore selection order
2990	colNames = [G2frame.SeqTable.GetColLabelValue(c) for c in cols]
2991	newNames = colNames[:]
2992	for i,name in enumerate(colNames):
2993	if name in variableLabels:
2994	newNames[i] = variableLabels[name]
2995	if not cols:
2996	G2frame.ErrorDialog('Select columns',
2997	'No columns selected in table. Click on column labels to select fields for rename.')
2998	return
2999	dlg = G2G.MultiStringDialog(G2frame.dataDisplay,'Set column names',colNames,newNames)
3000	if dlg.Show():
3001	newNames = dlg.GetValues()
3002	variableLabels.update(dict(zip(colNames,newNames)))
3003	data['variableLabels'] = variableLabels
3004	dlg.Destroy()
3005	UpdateSeqResults(G2frame,data,G2frame.dataDisplay.GetSize()) # redisplay variables
3006	G2plt.PlotSelectedSequence(G2frame,cols,GetColumnInfo,SelectXaxis)
3007
3008	def OnReOrgSelSeq(event):
3009	'Reorder the columns'
3010	G2G.GetItemOrder(G2frame,VaryListChanges,vallookup,posdict)
3011	UpdateSeqResults(G2frame,data,G2frame.dataDisplay.GetSize()) # redisplay variables
3012
3013	def OnSaveSelSeqCSV(event):
3014	'export the selected columns to a .csv file from menu command'
3015	OnSaveSelSeq(event,csv=True)
3016
3017	def OnSaveSeqCSV(event):
3018	'export all columns to a .csv file from menu command'
3019	OnSaveSelSeq(event,csv=True,allcols=True)
3020
3021	def OnSaveSelSeq(event,csv=False,allcols=False):
3022	'export the selected columns to a .txt or .csv file from menu command'
3023	def WriteCSV():
3024	def WriteList(headerItems):
3025	line = ''
3026	for lbl in headerItems:
3027	if line: line += ','
3028	line += '"'+lbl+'"'
3029	return line
3030	head = ['name']
3031	for col in cols:
3032	item = G2frame.SeqTable.GetColLabelValue(col)
3033	# get rid of labels that have Unicode characters
3034	if not all([ord(c) < 128 and ord(c) != 0 for c in item]): item = '?'
3035	if col in havesig:
3036	head += [item,'esd-'+item]
3037	else:
3038	head += [item]
3039	SeqFile.write(WriteList(head)+'\n')
3040	for row,name in enumerate(saveNames):
3041	line = '"'+saveNames[row]+'"'
3042	for col in cols:
3043	if col in havesig:
3044	line += ','+str(saveData[col][row])+','+str(saveSigs[col][row])
3045	else:
3046	line += ','+str(saveData[col][row])
3047	SeqFile.write(line+'\n')
3048	def WriteSeq():
3049	lenName = len(saveNames[0])
3050	line = ' %s '%('name'.center(lenName))
3051	for col in cols:
3052	item = G2frame.SeqTable.GetColLabelValue(col)
3053	if col in havesig:
3054	line += ' %12s %12s '%(item.center(12),'esd'.center(12))
3055	else:
3056	line += ' %12s '%(item.center(12))
3057	SeqFile.write(line+'\n')
3058	for row,name in enumerate(saveNames):
3059	line = " '%s' "%(saveNames[row])
3060	for col in cols:
3061	if col in havesig:
3062	line += ' %12.6f %12.6f '%(saveData[col][row],saveSigs[col][row])
3063	else:
3064	line += ' %12.6f '%saveData[col][row]
3065	SeqFile.write(line+'\n')
3066
3067	# start of OnSaveSelSeq code
3068	if allcols:
3069	cols = range(G2frame.SeqTable.GetNumberCols())
3070	else:
3071	cols = sorted(G2frame.dataDisplay.GetSelectedCols()) # ignore selection order
3072	nrows = G2frame.SeqTable.GetNumberRows()
3073	if not cols:
3074	G2frame.ErrorDialog('Select columns',
3075	'No columns selected in table. Click on column labels to select fields for output.')
3076	return
3077	saveNames = [G2frame.SeqTable.GetRowLabelValue(r) for r in range(nrows)]
3078	saveData = {}
3079	saveSigs = {}
3080	havesig = []
3081	for col in cols:
3082	name,vals,sigs = GetColumnInfo(col)
3083	saveData[col] = vals
3084	if sigs:
3085	havesig.append(col)
3086	saveSigs[col] = sigs
3087	if csv:
3088	wild = 'CSV output file (.csv)\|.csv'
3089	else:
3090	wild = 'Text output file (.txt)\|.txt'
3091	pth = G2G.GetExportPath(G2frame)
3092	dlg = wx.FileDialog(
3093	G2frame,
3094	'Choose text output file for your selection', pth, '',
3095	wild,wx.FD_SAVE\|wx.FD_OVERWRITE_PROMPT)
3096	try:
3097	if dlg.ShowModal() == wx.ID_OK:
3098	SeqTextFile = dlg.GetPath()
3099	SeqTextFile = G2IO.FileDlgFixExt(dlg,SeqTextFile)
3100	SeqFile = open(SeqTextFile,'w')
3101	if csv:
3102	WriteCSV()
3103	else:
3104	WriteSeq()
3105	SeqFile.close()
3106	finally:
3107	dlg.Destroy()
3108
3109	def striphist(var,insChar=''):
3110	'strip a histogram number from a var name'
3111	sv = var.split(':')
3112	if len(sv) <= 1: return var
3113	if sv[1]:
3114	sv[1] = insChar
3115	return ':'.join(sv)
3116
3117	def plotSpCharFix(lbl):
3118	'Change selected unicode characters to their matplotlib equivalent'
3119	for u,p in [
3120	(u'\u03B1',r'$\alpha$'),
3121	(u'\u03B2',r'$\beta$'),
3122	(u'\u03B3',r'$\gamma$'),
3123	(u'\u0394\u03C7',r'$\Delta\chi$'),
3124	]:
3125	lbl = lbl.replace(u,p)
3126	return lbl
3127
3128	def SelectXaxis():
3129	'returns a selected column number (or None) as the X-axis selection'
3130	ncols = G2frame.SeqTable.GetNumberCols()
3131	colNames = [G2frame.SeqTable.GetColLabelValue(r) for r in range(ncols)]
3132	dlg = G2G.G2SingleChoiceDialog(
3133	G2frame.dataDisplay,
3134	'Select x-axis parameter for plot or Cancel for sequence number',
3135	'Select X-axis',
3136	colNames)
3137	try:
3138	if dlg.ShowModal() == wx.ID_OK:
3139	col = dlg.GetSelection()
3140	else:
3141	col = None
3142	finally:
3143	dlg.Destroy()
3144	return col
3145
3146	def EnablePseudoVarMenus():
3147	'Enables or disables the PseudoVar menu items that require existing defs'
3148	if Controls['SeqPseudoVars']:
3149	val = True
3150	else:
3151	val = False
3152	G2frame.dataFrame.SequentialPvars.Enable(wxDELSEQVAR,val)
3153	G2frame.dataFrame.SequentialPvars.Enable(wxEDITSEQVAR,val)
3154
3155	def DelPseudoVar(event):
3156	'Ask the user to select a pseudo var expression to delete'
3157	choices = Controls['SeqPseudoVars'].keys()
3158	selected = G2G.ItemSelector(
3159	choices,G2frame.dataFrame,
3160	multiple=True,
3161	title='Select expressions to remove',
3162	header='Delete expression')
3163	if selected is None: return
3164	for item in selected:
3165	del Controls['SeqPseudoVars'][choices[item]]
3166	if selected:
3167	UpdateSeqResults(G2frame,data,G2frame.dataDisplay.GetSize()) # redisplay variables
3168
3169	def EditPseudoVar(event):
3170	'Edit an existing pseudo var expression'
3171	choices = Controls['SeqPseudoVars'].keys()
3172	if len(choices) == 1:
3173	selected = 0
3174	else:
3175	selected = G2G.ItemSelector(
3176	choices,G2frame.dataFrame,
3177	multiple=False,
3178	title='Select an expression to edit',
3179	header='Edit expression')
3180	if selected is not None:
3181	dlg = G2exG.ExpressionDialog(
3182	G2frame.dataDisplay,PSvarDict,
3183	Controls['SeqPseudoVars'][choices[selected]],
3184	header="Edit the PseudoVar expression",
3185	VarLabel="PseudoVar #"+str(selected+1),
3186	fit=False)
3187	newobj = dlg.Show(True)
3188	if newobj:
3189	calcobj = G2obj.ExpressionCalcObj(newobj)
3190	del Controls['SeqPseudoVars'][choices[selected]]
3191	Controls['SeqPseudoVars'][calcobj.eObj.expression] = newobj
3192	UpdateSeqResults(G2frame,data,G2frame.dataDisplay.GetSize()) # redisplay variables
3193
3194	def AddNewPseudoVar(event):
3195	'Create a new pseudo var expression'
3196	dlg = G2exG.ExpressionDialog(
3197	G2frame.dataDisplay,PSvarDict,
3198	header='Enter an expression for a PseudoVar here',
3199	VarLabel = "New PseudoVar",
3200	fit=False)
3201	obj = dlg.Show(True)
3202	dlg.Destroy()
3203	if obj:
3204	calcobj = G2obj.ExpressionCalcObj(obj)
3205	Controls['SeqPseudoVars'][calcobj.eObj.expression] = obj
3206	UpdateSeqResults(G2frame,data,G2frame.dataDisplay.GetSize()) # redisplay variables
3207
3208	def AddNewDistPseudoVar(event):
3209	obj = None
3210	dlg = G2exG.BondDialog(
3211	G2frame.dataDisplay,Phases,PSvarDict,
3212	header='Select a Bond here',
3213	VarLabel = "New Bond")
3214	if dlg.ShowModal() == wx.ID_OK:
3215	pName,Oatom,Tatom = dlg.GetSelection()
3216	if Tatom:
3217	Phase = Phases[pName]
3218	General = Phase['General']
3219	cx,ct = General['AtomPtrs'][:2]
3220	pId = Phase['pId']
3221	SGData = General['SGData']
3222	sB = Tatom.find('(')+1
3223	symNo = 0
3224	if sB:
3225	sF = Tatom.find(')')
3226	symNo = int(Tatom[sB:sF])
3227	cellNo = [0,0,0]
3228	cB = Tatom.find('[')
3229	if cB>0:
3230	cF = Tatom.find(']')+1
3231	cellNo = eval(Tatom[cB:cF])
3232	Atoms = Phase['Atoms']
3233	aNames = [atom[ct-1] for atom in Atoms]
3234	oId = aNames.index(Oatom)
3235	tId = aNames.index(Tatom.split(' +')[0])
3236	# create an expression object
3237	obj = G2obj.ExpressionObj()
3238	obj.expression = 'Dist(%s,\n%s)'%(Oatom,Tatom.split(' d=')[0].replace(' ',''))
3239	obj.distance_dict = {'pId':pId,'SGData':SGData,'symNo':symNo,'cellNo':cellNo}
3240	obj.distance_atoms = [oId,tId]
3241	else:
3242	dlg.Destroy()
3243	return
3244	dlg.Destroy()
3245	if obj:
3246	Controls['SeqPseudoVars'][obj.expression] = obj
3247	UpdateSeqResults(G2frame,data,G2frame.dataDisplay.GetSize()) # redisplay variables
3248
3249	def AddNewAnglePseudoVar(event):
3250	obj = None
3251	dlg = G2exG.AngleDialog(
3252	G2frame.dataDisplay,Phases,PSvarDict,
3253	header='Enter an Angle here',
3254	VarLabel = "New Angle")
3255	if dlg.ShowModal() == wx.ID_OK:
3256	pName,Oatom,Tatoms = dlg.GetSelection()
3257	if Tatoms:
3258	Phase = Phases[pName]
3259	General = Phase['General']
3260	cx,ct = General['AtomPtrs'][:2]
3261	pId = Phase['pId']
3262	SGData = General['SGData']
3263	Atoms = Phase['Atoms']
3264	aNames = [atom[ct-1] for atom in Atoms]
3265	tIds = []
3266	symNos = []
3267	cellNos = []
3268	oId = aNames.index(Oatom)
3269	Tatoms = Tatoms.split(';')
3270	for Tatom in Tatoms:
3271	sB = Tatom.find('(')+1
3272	symNo = 0
3273	if sB:
3274	sF = Tatom.find(')')
3275	symNo = int(Tatom[sB:sF])
3276	symNos.append(symNo)
3277	cellNo = [0,0,0]
3278	cB = Tatom.find('[')
3279	if cB>0:
3280	cF = Tatom.find(']')+1
3281	cellNo = eval(Tatom[cB:cF])
3282	cellNos.append(cellNo)
3283	tIds.append(aNames.index(Tatom.split('+')[0]))
3284	# create an expression object
3285	obj = G2obj.ExpressionObj()
3286	obj.expression = 'Angle(%s,%s,\n%s)'%(Tatoms[0],Oatom,Tatoms[1])
3287	obj.angle_dict = {'pId':pId,'SGData':SGData,'symNo':symNos,'cellNo':cellNos}
3288	obj.angle_atoms = [oId,tIds]
3289	else:
3290	dlg.Destroy()
3291	return
3292	dlg.Destroy()
3293	if obj:
3294	Controls['SeqPseudoVars'][obj.expression] = obj
3295	UpdateSeqResults(G2frame,data,G2frame.dataDisplay.GetSize()) # redisplay variables
3296
3297	def UpdateParmDict(parmDict):
3298	'''generate the atom positions and the direct & reciprocal cell values,
3299	because they might be needed to evaluate the pseudovar
3300	'''
3301	Ddict = dict(zip(['D11','D22','D33','D12','D13','D23'],
3302	['A'+str(i) for i in range(6)])
3303	)
3304	delList = []
3305	phaselist = []
3306	for item in parmDict:
3307	if ':' not in item: continue
3308	key = item.split(':')
3309	if len(key) < 3: continue
3310	# remove the dA[xyz] terms, they would only bring confusion
3311	if key[2].startswith('dA'):
3312	delList.append(item)
3313	# compute and update the corrected reciprocal cell terms using the Dij values
3314	elif key[2] in Ddict:
3315	if key[0] not in phaselist: phaselist.append(key[0])
3316	akey = key[0]+'::'+Ddict[key[2]]
3317	parmDict[akey] -= parmDict[item]
3318	delList.append(item)
3319	for item in delList:
3320	del parmDict[item]
3321	for i in phaselist:
3322	pId = int(i)
3323	# apply cell symmetry
3324	A,zeros = G2stIO.cellFill(str(pId)+'::',SGdata[pId],parmDict,zeroDict[pId])
3325	# convert to direct cell & add the unique terms to the dictionary
3326	for i,val in enumerate(G2lat.A2cell(A)):
3327	if i in uniqCellIndx[pId]:
3328	lbl = str(pId)+'::'+cellUlbl[i]
3329	parmDict[lbl] = val
3330	lbl = str(pId)+'::'+'Vol'
3331	parmDict[lbl] = G2lat.calc_V(A)
3332	return parmDict
3333
3334	def EvalPSvarDeriv(calcobj,parmDict,sampleDict,var,ESD):
3335	'''Evaluate an expression derivative with respect to a
3336	GSAS-II variable name.
3337
3338	Note this likely could be faster if the loop over calcobjs were done
3339	inside after the Dict was created.
3340	'''
3341	step = ESD/10
3342	Ddict = dict(zip(['D11','D22','D33','D12','D13','D23'],
3343	['A'+str(i) for i in range(6)])
3344	)
3345	results = []
3346	phaselist = []
3347	VparmDict = sampleDict.copy()
3348	for incr in step,-step:
3349	VparmDict.update(parmDict.copy())
3350	# as saved, the parmDict has updated 'A[xyz]' values, but 'dA[xyz]'
3351	# values are not zeroed: fix that!
3352	VparmDict.update({item:0.0 for item in parmDict if 'dA' in item})
3353	VparmDict[var] += incr
3354	G2mv.Dict2Map(VparmDict,[]) # apply constraints
3355	# generate the atom positions and the direct & reciprocal cell values now, because they might
3356	# needed to evaluate the pseudovar
3357	for item in VparmDict:
3358	if item in sampleDict:
3359	continue
3360	if ':' not in item: continue
3361	key = item.split(':')
3362	if len(key) < 3: continue
3363	# apply any new shifts to atom positions
3364	if key[2].startswith('dA'):
3365	VparmDict[''.join(item.split('d'))] += VparmDict[item]
3366	VparmDict[item] = 0.0
3367	# compute and update the corrected reciprocal cell terms using the Dij values
3368	if key[2] in Ddict:
3369	if key[0] not in phaselist: phaselist.append(key[0])
3370	akey = key[0]+'::'+Ddict[key[2]]
3371	VparmDict[akey] -= VparmDict[item]
3372	for i in phaselist:
3373	pId = int(i)
3374	# apply cell symmetry
3375	A,zeros = G2stIO.cellFill(str(pId)+'::',SGdata[pId],VparmDict,zeroDict[pId])
3376	# convert to direct cell & add the unique terms to the dictionary
3377	for i,val in enumerate(G2lat.A2cell(A)):
3378	if i in uniqCellIndx[pId]:
3379	lbl = str(pId)+'::'+cellUlbl[i]
3380	VparmDict[lbl] = val
3381	lbl = str(pId)+'::'+'Vol'
3382	VparmDict[lbl] = G2lat.calc_V(A)
3383	# dict should be fully updated, use it & calculate
3384	calcobj.SetupCalc(VparmDict)
3385	results.append(calcobj.EvalExpression())
3386	return (results[0] - results[1]) / (2.*step)
3387
3388	def EnableParFitEqMenus():
3389	'Enables or disables the Parametric Fit menu items that require existing defs'
3390	if Controls['SeqParFitEqList']:
3391	val = True
3392	else:
3393	val = False
3394	G2frame.dataFrame.SequentialPfit.Enable(wxDELPARFIT,val)
3395	G2frame.dataFrame.SequentialPfit.Enable(wxEDITPARFIT,val)
3396	G2frame.dataFrame.SequentialPfit.Enable(wxDOPARFIT,val)
3397
3398	def ParEqEval(Values,calcObjList,varyList):
3399	'''Evaluate the parametric expression(s)
3400	:param list Values: a list of values for each variable parameter
3401	:param list calcObjList: a list of :class:`GSASIIobj.ExpressionCalcObj`
3402	expression objects to evaluate
3403	:param list varyList: a list of variable names for each value in Values
3404	'''
3405	result = []
3406	for calcobj in calcObjList:
3407	calcobj.UpdateVars(varyList,Values)
3408	result.append((calcobj.depVal-calcobj.EvalExpression())/calcobj.depSig)
3409	return result
3410
3411	def DoParEqFit(event,eqObj=None):
3412	'Parametric fit minimizer'
3413	varyValueDict = {} # dict of variables and their initial values
3414	calcObjList = [] # expression objects, ready to go for each data point
3415	if eqObj is not None:
3416	eqObjList = [eqObj,]
3417	else:
3418	eqObjList = Controls['SeqParFitEqList']
3419	UseFlags = G2frame.SeqTable.GetColValues(0)
3420	for obj in eqObjList:
3421	# assemble refined vars for this equation
3422	varyValueDict.update({var:val for var,val in obj.GetVariedVarVal()})
3423	# lookup dependent var position
3424	depVar = obj.GetDepVar()
3425	if depVar in colLabels:
3426	indx = colLabels.index(depVar)
3427	else:
3428	raise Exception('Dependent variable '+depVar+' not found')
3429	# assemble a list of the independent variables
3430	indepVars = obj.GetIndependentVars()
3431	# loop over each datapoint
3432	for j,row in enumerate(zip(*colList)):
3433	if not UseFlags[j]: continue
3434	# assemble equations to fit
3435	calcobj = G2obj.ExpressionCalcObj(obj)
3436	# prepare a dict of needed independent vars for this expression
3437	indepVarDict = {var:row[i] for i,var in enumerate(colLabels) if var in indepVars}
3438	calcobj.SetupCalc(indepVarDict)
3439	# values and sigs for current value of dependent var
3440	calcobj.depVal = row[indx]
3441	calcobj.depSig = colSigs[indx][j]
3442	calcObjList.append(calcobj)
3443	# varied parameters
3444	varyList = varyValueDict.keys()
3445	values = varyValues = [varyValueDict[key] for key in varyList]
3446	if not varyList:
3447	print 'no variables to refine!'
3448	return
3449	try:
3450	result = so.leastsq(ParEqEval,varyValues,full_output=True, #ftol=Ftol,
3451	args=(calcObjList,varyList)
3452	)
3453	values = result[0]
3454	covar = result[1]
3455	if covar is None:
3456	raise Exception
3457	esdDict = {}
3458	for i,avar in enumerate(varyList):
3459	esdDict[avar] = np.sqrt(covar[i,i])
3460	except:
3461	print('====> Fit failed')
3462	return
3463	print('==== Fit Results ====')
3464	for obj in eqObjList:
3465	obj.UpdateVariedVars(varyList,values)
3466	ind = ' '
3467	print(' '+obj.GetDepVar()+' = '+obj.expression)
3468	for var in obj.assgnVars:
3469	print(ind+var+' = '+obj.assgnVars[var])
3470	for var in obj.freeVars:
3471	avar = "::"+obj.freeVars[var][0]
3472	val = obj.freeVars[var][1]
3473	if obj.freeVars[var][2]:
3474	print(ind+var+' = '+avar + " = " + G2mth.ValEsd(val,esdDict[avar]))
3475	else:
3476	print(ind+var+' = '+avar + " =" + G2mth.ValEsd(val,0))
3477	# create a plot for each parametric variable
3478	for fitnum,obj in enumerate(eqObjList):
3479	calcobj = G2obj.ExpressionCalcObj(obj)
3480	# lookup dependent var position
3481	indx = colLabels.index(obj.GetDepVar())
3482	# assemble a list of the independent variables
3483	indepVars = obj.GetIndependentVars()
3484	# loop over each datapoint
3485	fitvals = []
3486	for j,row in enumerate(zip(*colList)):
3487	calcobj.SetupCalc(
3488	{var:row[i] for i,var in enumerate(colLabels) if var in indepVars}
3489	)
3490	fitvals.append(calcobj.EvalExpression())
3491	G2plt.PlotSelectedSequence(
3492	G2frame,[indx],GetColumnInfo,SelectXaxis,
3493	fitnum,fitvals)
3494
3495	def SingleParEqFit(eqObj):
3496	DoParEqFit(None,eqObj)
3497
3498	def DelParFitEq(event):
3499	'Ask the user to select function to delete'
3500	txtlst = [obj.GetDepVar()+' = '+obj.expression for obj in Controls['SeqParFitEqList']]
3501	selected = G2G.ItemSelector(
3502	txtlst,G2frame.dataFrame,
3503	multiple=True,
3504	title='Select a parametric equation(s) to remove',
3505	header='Delete equation')
3506	if selected is None: return
3507	Controls['SeqParFitEqList'] = [obj for i,obj in enumerate(Controls['SeqParFitEqList']) if i not in selected]
3508	EnableParFitEqMenus()
3509	if Controls['SeqParFitEqList']: DoParEqFit(event)
3510
3511	def EditParFitEq(event):
3512	'Edit an existing parametric equation'
3513	txtlst = [obj.GetDepVar()+' = '+obj.expression for obj in Controls['SeqParFitEqList']]
3514	if len(txtlst) == 1:
3515	selected = 0
3516	else:
3517	selected = G2G.ItemSelector(
3518	txtlst,G2frame.dataFrame,
3519	multiple=False,
3520	title='Select a parametric equation to edit',
3521	header='Edit equation')
3522	if selected is not None:
3523	dlg = G2exG.ExpressionDialog(
3524	G2frame.dataDisplay,indepVarDict,
3525	Controls['SeqParFitEqList'][selected],
3526	depVarDict=depVarDict,
3527	header="Edit the formula for this minimization function",
3528	ExtraButton=['Fit',SingleParEqFit])
3529	newobj = dlg.Show(True)
3530	if newobj:
3531	Controls['SeqParFitEqList'][selected] = newobj
3532	EnableParFitEqMenus()
3533	if Controls['SeqParFitEqList']: DoParEqFit(event)
3534
3535	def AddNewParFitEq(event):
3536	'Create a new parametric equation to be fit to sequential results'
3537
3538	# compile the variable names used in previous freevars to avoid accidental name collisions
3539	usedvarlist = []
3540	for obj in Controls['SeqParFitEqList']:
3541	for var in obj.freeVars:
3542	if obj.freeVars[var][0] not in usedvarlist: usedvarlist.append(obj.freeVars[var][0])
3543
3544	dlg = G2exG.ExpressionDialog(
3545	G2frame.dataDisplay,indepVarDict,
3546	depVarDict=depVarDict,
3547	header='Define an equation to minimize in the parametric fit',
3548	ExtraButton=['Fit',SingleParEqFit],
3549	usedVars=usedvarlist)
3550	obj = dlg.Show(True)
3551	dlg.Destroy()
3552	if obj:
3553	Controls['SeqParFitEqList'].append(obj)
3554	EnableParFitEqMenus()
3555	if Controls['SeqParFitEqList']: DoParEqFit(event)
3556
3557	def CopyParFitEq(event):
3558	'Copy an existing parametric equation to be fit to sequential results'
3559	# compile the variable names used in previous freevars to avoid accidental name collisions
3560	usedvarlist = []
3561	for obj in Controls['SeqParFitEqList']:
3562	for var in obj.freeVars:
3563	if obj.freeVars[var][0] not in usedvarlist: usedvarlist.append(obj.freeVars[var][0])
3564	txtlst = [obj.GetDepVar()+' = '+obj.expression for obj in Controls['SeqParFitEqList']]
3565	if len(txtlst) == 1:
3566	selected = 0
3567	else:
3568	selected = G2G.ItemSelector(
3569	txtlst,G2frame.dataFrame,
3570	multiple=False,
3571	title='Select a parametric equation to copy',
3572	header='Copy equation')
3573	if selected is not None:
3574	newEqn = copy.deepcopy(Controls['SeqParFitEqList'][selected])
3575	for var in newEqn.freeVars:
3576	newEqn.freeVars[var][0] = G2obj.MakeUniqueLabel(newEqn.freeVars[var][0],usedvarlist)
3577	dlg = G2exG.ExpressionDialog(
3578	G2frame.dataDisplay,indepVarDict,
3579	newEqn,
3580	depVarDict=depVarDict,
3581	header="Edit the formula for this minimization function",
3582	ExtraButton=['Fit',SingleParEqFit])
3583	newobj = dlg.Show(True)
3584	if newobj:
3585	Controls['SeqParFitEqList'].append(newobj)
3586	EnableParFitEqMenus()
3587	if Controls['SeqParFitEqList']: DoParEqFit(event)
3588
3589	def GridSetToolTip(row,col):
3590	'''Routine to show standard uncertainties for each element in table
3591	as a tooltip
3592	'''
3593	if colSigs[col]:
3594	return u'\u03c3 = '+str(colSigs[col][row])
3595	return ''
3596
3597	def GridColLblToolTip(col):
3598	'''Define a tooltip for a column. This will be the user-entered value
3599	(from data['variableLabels']) or the default name
3600	'''
3601	if col < 0 or col > len(colLabels):
3602	print 'Illegal column #',col
3603	return
3604	var = colLabels[col]
3605	return variableLabels.get(var,G2obj.fmtVarDescr(var))
3606
3607	def SetLabelString(event):
3608	'''Define or edit the label for a column in the table, to be used
3609	as a tooltip and for plotting
3610	'''
3611	col = event.GetCol()
3612	if col < 0 or col > len(colLabels):
3613	return
3614	var = colLabels[col]
3615	lbl = variableLabels.get(var,G2obj.fmtVarDescr(var))
3616	dlg = G2G.SingleStringDialog(G2frame.dataFrame,'Set variable label',
3617	'Set a new name for variable '+var,lbl,size=(400,-1))
3618	if dlg.Show():
3619	variableLabels[var] = dlg.GetValue()
3620	dlg.Destroy()
3621
3622	def DoSequentialExport(event):
3623	'''Event handler for all Sequential Export menu items
3624	'''
3625	vals = G2frame.dataFrame.SeqExportLookup.get(event.GetId())
3626	if vals is None:
3627	print('Error: Id not found. This should not happen!')
3628	G2IO.ExportSequential(G2frame,data,*vals)
3629
3630	#def GridRowLblToolTip(row): return 'Row ='+str(row)
3631
3632	# lookup table for unique cell parameters by symmetry
3633	cellGUIlist = [
3634	[['m3','m3m'],(0,)],
3635	[['3R','3mR'],(0,3)],
3636	[['3','3m1','31m','6/m','6/mmm','4/m','4/mmm'],(0,2)],
3637	[['mmm'],(0,1,2)],
3638	[['2/m'+'a'],(0,1,2,3)],
3639	[['2/m'+'b'],(0,1,2,4)],
3640	[['2/m'+'c'],(0,1,2,5)],
3641	[['-1'],(0,1,2,3,4,5)],
3642	]
3643	# cell labels
3644	cellUlbl = ('a','b','c',u'\u03B1',u'\u03B2',u'\u03B3') # unicode a,b,c,alpha,beta,gamma
3645
3646	#======================================================================
3647	# start processing sequential results here (UpdateSeqResults)
3648	#======================================================================
3649	if not data:
3650	print 'No sequential refinement results'
3651	return
3652	variableLabels = data.get('variableLabels',{})
3653	data['variableLabels'] = variableLabels
3654	Histograms,Phases = G2frame.GetUsedHistogramsAndPhasesfromTree()
3655	Controls = G2frame.PatternTree.GetItemPyData(GetPatternTreeItemId(G2frame,G2frame.root,'Controls'))
3656	# create a place to store Pseudo Vars & Parametric Fit functions, if not present
3657	if 'SeqPseudoVars' not in Controls: Controls['SeqPseudoVars'] = {}
3658	if 'SeqParFitEqList' not in Controls: Controls['SeqParFitEqList'] = []
3659	histNames = data['histNames']
3660	if G2frame.dataDisplay:
3661	G2frame.dataDisplay.Destroy()
3662	if not G2frame.dataFrame.GetStatusBar():
3663	Status = G2frame.dataFrame.CreateStatusBar()
3664	Status.SetStatusText("Select column to export; Double click on column to plot data; on row for Covariance")
3665	sampleParms = GetSampleParms()
3666
3667	# make dict of varied atom coords keyed by absolute position
3668	newAtomDict = data[histNames[0]].get('newAtomDict',{}) # dict with atom positions; relative & absolute
3669	# Possible error: the next might need to be data[histNames[0]]['varyList']
3670	# error will arise if there constraints on coordinates?
3671	atomLookup = {newAtomDict[item][0]:item for item in newAtomDict if item in data['varyList']}
3672
3673	# make dict of varied cell parameters equivalents
3674	ESDlookup = {} # provides the Dij term for each Ak term (where terms are refined)
3675	Dlookup = {} # provides the Ak term for each Dij term (where terms are refined)
3676	# N.B. These Dij vars are missing a histogram #
3677	newCellDict = data[histNames[0]].get('newCellDict',{})
3678	for item in newCellDict:
3679	if item in data['varyList']:
3680	ESDlookup[newCellDict[item][0]] = item
3681	Dlookup[item] = newCellDict[item][0]
3682	# add coordinate equivalents to lookup table
3683	for parm in atomLookup:
3684	Dlookup[atomLookup[parm]] = parm
3685	ESDlookup[parm] = atomLookup[parm]
3686
3687	# get unit cell & symmetry for all phases & initial stuff for later use
3688	RecpCellTerms = {}
3689	SGdata = {}
3690	uniqCellIndx = {}
3691	initialCell = {}
3692	RcellLbls = {}
3693	zeroDict = {}
3694	for phase in Phases:
3695	phasedict = Phases[phase]
3696	pId = phasedict['pId']
3697	pfx = str(pId)+'::' # prefix for A values from phase
3698	RcellLbls[pId] = [pfx+'A'+str(i) for i in range(6)]
3699	RecpCellTerms[pId] = G2lat.cell2A(phasedict['General']['Cell'][1:7])
3700	zeroDict[pId] = dict(zip(RcellLbls[pId],6*[0.,]))
3701	SGdata[pId] = phasedict['General']['SGData']
3702	laue = SGdata[pId]['SGLaue']
3703	if laue == '2/m':
3704	laue += SGdata[pId]['SGUniq']
3705	for symlist,celllist in cellGUIlist:
3706	if laue in symlist:
3707	uniqCellIndx[pId] = celllist
3708	break
3709	else: # should not happen
3710	uniqCellIndx[pId] = range(6)
3711	for i in uniqCellIndx[pId]:
3712	initialCell[str(pId)+'::A'+str(i)] = RecpCellTerms[pId][i]
3713
3714	SetDataMenuBar(G2frame,G2frame.dataFrame.SequentialMenu)
3715	G2frame.dataFrame.SetLabel('Sequential refinement results')
3716	if not G2frame.dataFrame.GetStatusBar():
3717	Status = G2frame.dataFrame.CreateStatusBar()
3718	Status.SetStatusText('')
3719	G2frame.dataFrame.Bind(wx.EVT_MENU, OnRenameSelSeq, id=wxID_RENAMESEQSEL)
3720	G2frame.dataFrame.Bind(wx.EVT_MENU, OnSaveSelSeq, id=wxID_SAVESEQSEL)
3721	G2frame.dataFrame.Bind(wx.EVT_MENU, OnSaveSelSeqCSV, id=wxID_SAVESEQSELCSV)
3722	G2frame.dataFrame.Bind(wx.EVT_MENU, OnSaveSeqCSV, id=wxID_SAVESEQCSV)
3723	G2frame.dataFrame.Bind(wx.EVT_MENU, OnPlotSelSeq, id=wxID_PLOTSEQSEL)
3724	G2frame.dataFrame.Bind(wx.EVT_MENU, OnAveSelSeq, id=wxID_AVESEQSEL)
3725	G2frame.dataFrame.Bind(wx.EVT_MENU, OnReOrgSelSeq, id=wxID_ORGSEQSEL)
3726	G2frame.dataFrame.Bind(wx.EVT_MENU, AddNewPseudoVar, id=wxADDSEQVAR)
3727	G2frame.dataFrame.Bind(wx.EVT_MENU, AddNewDistPseudoVar, id=wxADDSEQDIST)
3728	G2frame.dataFrame.Bind(wx.EVT_MENU, AddNewAnglePseudoVar, id=wxADDSEQANGLE)
3729	G2frame.dataFrame.Bind(wx.EVT_MENU, DelPseudoVar, id=wxDELSEQVAR)
3730	G2frame.dataFrame.Bind(wx.EVT_MENU, EditPseudoVar, id=wxEDITSEQVAR)
3731	G2frame.dataFrame.Bind(wx.EVT_MENU, AddNewParFitEq, id=wxADDPARFIT)
3732	G2frame.dataFrame.Bind(wx.EVT_MENU, CopyParFitEq, id=wxCOPYPARFIT)
3733	G2frame.dataFrame.Bind(wx.EVT_MENU, DelParFitEq, id=wxDELPARFIT)
3734	G2frame.dataFrame.Bind(wx.EVT_MENU, EditParFitEq, id=wxEDITPARFIT)
3735	G2frame.dataFrame.Bind(wx.EVT_MENU, DoParEqFit, id=wxDOPARFIT)
3736
3737	for id in G2frame.dataFrame.SeqExportLookup:
3738	G2frame.dataFrame.Bind(wx.EVT_MENU, DoSequentialExport, id=id)
3739
3740	EnablePseudoVarMenus()
3741	EnableParFitEqMenus()
3742
3743	# scan for locations where the variables change
3744	VaryListChanges = [] # histograms where there is a change
3745	combinedVaryList = []
3746	firstValueDict = {}
3747	vallookup = {}
3748	posdict = {}
3749	prevVaryList = []
3750	foundNames = []
3751	for i,name in enumerate(histNames):
3752	if name not in data:
3753	print("Error: "+name+" not found!")
3754	continue
3755	foundNames.append(name)
3756	for var,val,sig in zip(data[name]['varyList'],data[name]['variables'],data[name]['sig']):
3757	svar = striphist(var,'*') # wild-carded
3758	if svar not in combinedVaryList:
3759	# add variables to list as they appear
3760	combinedVaryList.append(svar)
3761	firstValueDict[svar] = (val,sig)
3762	if prevVaryList != data[name]['varyList']: # this refinement has a different refinement list from previous
3763	prevVaryList = data[name]['varyList']
3764	vallookup[name] = dict(zip(data[name]['varyList'],data[name]['variables']))
3765	posdict[name] = {}
3766	for var in data[name]['varyList']:
3767	svar = striphist(var,'*')
3768	posdict[name][combinedVaryList.index(svar)] = svar
3769	VaryListChanges.append(name)
3770	if len(VaryListChanges) > 1:
3771	G2frame.dataFrame.SequentialFile.Enable(wxID_ORGSEQSEL,True)
3772	else:
3773	G2frame.dataFrame.SequentialFile.Enable(wxID_ORGSEQSEL,False)
3774	#-----------------------------------------------------------------------------------
3775	# build up the data table by columns -----------------------------------------------
3776	histNames = foundNames
3777	nRows = len(histNames)
3778	colList = [nRows*[True]]
3779	colSigs = [None]
3780	colLabels = ['Use']
3781	Types = [wg.GRID_VALUE_BOOL]
3782	# start with Rwp values
3783	if 'IMG ' not in histNames[0][:4]:
3784	colList += [[data[name]['Rvals']['Rwp'] for name in histNames]]
3785	colSigs += [None]
3786	colLabels += ['Rwp']
3787	Types += [wg.GRID_VALUE_FLOAT+':10,3',]
3788	# add % change in Chi^2 in last cycle
3789	if histNames[0][:4] not in ['SASD','IMG '] and Controls.get('ShowCell'):
3790	colList += [[100.*data[name]['Rvals'].get('DelChi2',-1) for name in histNames]]
3791	colSigs += [None]
3792	colLabels += [u'\u0394\u03C7\u00B2 (%)']
3793	Types += [wg.GRID_VALUE_FLOAT,]
3794	deltaChiCol = len(colLabels)-1
3795	# add changing sample parameters to table
3796	for key in sampleParms:
3797	colList += [sampleParms[key]]
3798	colSigs += [None]
3799	colLabels += [key]
3800	Types += [wg.GRID_VALUE_FLOAT,]
3801	sampleDict = {}
3802	for i,name in enumerate(histNames):
3803	sampleDict[name] = dict(zip(sampleParms.keys(),[sampleParms[key][i] for key in sampleParms.keys()]))
3804	# add unique cell parameters TODO: review this where the cell symmetry changes (when possible)
3805	if Controls.get('ShowCell',False):
3806	for pId in sorted(RecpCellTerms):
3807	pfx = str(pId)+'::' # prefix for A values from phase
3808	cells = []
3809	cellESDs = []
3810	colLabels += [pfx+cellUlbl[i] for i in uniqCellIndx[pId]]
3811	colLabels += [pfx+'Vol']
3812	Types += (1+len(uniqCellIndx[pId]))*[wg.GRID_VALUE_FLOAT,]
3813	for name in histNames:
3814	covData = {
3815	'varyList': [Dlookup.get(striphist(v),v) for v in data[name]['varyList']],
3816	'covMatrix': data[name]['covMatrix']
3817	}
3818	A = RecpCellTerms[pId][:] # make copy of starting A values
3819	# update with refined values
3820	for i in range(6):
3821	var = str(pId)+'::A'+str(i)
3822	if var in ESDlookup:
3823	val = data[name]['newCellDict'][ESDlookup[var]][1] # get refined value
3824	A[i] = val # override with updated value
3825	# apply symmetry
3826	Albls = [pfx+'A'+str(i) for i in range(6)]
3827	cellDict = dict(zip(Albls,A))
3828	A,zeros = G2stIO.cellFill(pfx,SGdata[pId],cellDict,zeroDict[pId])
3829	# convert to direct cell & add only unique values to table
3830	c = G2lat.A2cell(A)
3831	vol = G2lat.calc_V(A)
3832	cE = G2stIO.getCellEsd(pfx,SGdata[pId],A,covData)
3833	cells += [[c[i] for i in uniqCellIndx[pId]]+[vol]]
3834	cellESDs += [[cE[i] for i in uniqCellIndx[pId]]+[cE[-1]]]
3835	colList += zip(*cells)
3836	colSigs += zip(*cellESDs)
3837	# sort out the variables in their selected order
3838	varcols = 0
3839	for d in posdict.itervalues():
3840	varcols = max(varcols,max(d.keys())+1)
3841	# get labels for each column
3842	for i in range(varcols):
3843	lbl = ''
3844	for h in VaryListChanges:
3845	if posdict[h].get(i):
3846	if posdict[h].get(i) in lbl: continue
3847	if lbl != "": lbl += '/'
3848	lbl += posdict[h].get(i)
3849	colLabels.append(lbl)
3850	Types += varcols*[wg.GRID_VALUE_FLOAT]
3851	vals = []
3852	esds = []
3853	varsellist = None # will be a list of variable names in the order they are selected to appear
3854	# tabulate values for each hist, leaving None for blank columns
3855	for name in histNames:
3856	if name in posdict:
3857	varsellist = [posdict[name].get(i) for i in range(varcols)]
3858	# translate variable names to how they will be used in the headings
3859	vs = [striphist(v,'*') for v in data[name]['varyList']]
3860	# determine the index for each column (or None) in the data[]['variables'] and ['sig'] lists
3861	sellist = [vs.index(v) if v is not None else None for v in varsellist]
3862	#sellist = [i if striphist(v,'*') in varsellist else None for i,v in enumerate(data[name]['varyList'])]
3863	if not varsellist: raise Exception()
3864	vals.append([data[name]['variables'][s] if s is not None else None for s in sellist])
3865	esds.append([data[name]['sig'][s] if s is not None else None for s in sellist])
3866	#GSASIIpath.IPyBreak()
3867	colList += zip(*vals)
3868	colSigs += zip(*esds)
3869	# compute and add weight fractions to table if varied
3870	for phase in Phases:
3871	var = str(Phases[phase]['pId'])+':*:Scale'
3872	if var not in combinedVaryList: continue
3873	wtFrList = []
3874	sigwtFrList = []
3875	for i,name in enumerate(histNames):
3876	wtFrSum = 0.
3877	for phase1 in Phases:
3878	wtFrSum += Phases[phase1]['Histograms'][name]['Scale'][0]*Phases[phase1]['General']['Mass']
3879	var = str(Phases[phase]['pId'])+':'+str(i)+':Scale'
3880	wtFr = Phases[phase]['Histograms'][name]['Scale'][0]*Phases[phase]['General']['Mass']/wtFrSum
3881	wtFrList.append(wtFr)
3882	if var in data[name]['varyList']:
3883	sig = data[name]['sig'][data[name]['varyList'].index(var)]*wtFr/Phases[phase]['Histograms'][name]['Scale'][0]
3884	else:
3885	sig = 0.0
3886	sigwtFrList.append(sig)
3887	colLabels.append(str(Phases[phase]['pId'])+':*:WgtFrac')
3888	colList += [wtFrList]
3889	colSigs += [sigwtFrList]
3890
3891	# tabulate constrained variables, removing histogram numbers if needed
3892	# from parameter label
3893	depValDict = {}
3894	depSigDict = {}
3895	for name in histNames:
3896	for var in data[name].get('depParmDict',{}):
3897	val,sig = data[name]['depParmDict'][var]
3898	svar = striphist(var,'*')
3899	if svar not in depValDict:
3900	depValDict[svar] = [val]
3901	depSigDict[svar] = [sig]
3902	else:
3903	depValDict[svar].append(val)
3904	depSigDict[svar].append(sig)
3905	# add the dependent constrained variables to the table
3906	for var in sorted(depValDict):
3907	if len(depValDict[var]) != len(histNames): continue
3908	colLabels.append(var)
3909	Types += [wg.GRID_VALUE_FLOAT,]
3910	colSigs += [depSigDict[var]]
3911	colList += [depValDict[var]]
3912
3913	# add atom parameters to table
3914	colLabels += atomLookup.keys()
3915	Types += len(atomLookup)*[wg.GRID_VALUE_FLOAT]
3916	for parm in sorted(atomLookup):
3917	colList += [[data[name]['newAtomDict'][atomLookup[parm]][1] for name in histNames]]
3918	if atomLookup[parm] in data[histNames[0]]['varyList']:
3919	col = data[histNames[0]]['varyList'].index(atomLookup[parm])
3920	colSigs += [[data[name]['sig'][col] for name in histNames]]
3921	else:
3922	colSigs += [None] # should not happen
3923	# evaluate Pseudovars, their ESDs and add them to grid
3924	for expr in Controls['SeqPseudoVars']:
3925	obj = Controls['SeqPseudoVars'][expr]
3926	calcobj = G2obj.ExpressionCalcObj(obj)
3927	valList = []
3928	esdList = []
3929	for seqnum,name in enumerate(histNames):
3930	sigs = data[name]['sig']
3931	G2mv.InitVars()
3932	parmDict = data[name].get('parmDict')
3933	constraintInfo = data[name].get('constraintInfo',[[],[],{},[],seqnum])
3934	groups,parmlist,constrDict,fixedList,ihst = constraintInfo
3935	varyList = data[name]['varyList']
3936	parmDict = data[name]['parmDict']
3937	G2mv.GenerateConstraints(groups,parmlist,varyList,constrDict,fixedList,parmDict,SeqHist=ihst)
3938	if 'Dist' in expr:
3939	derivs = G2mth.CalcDistDeriv(obj.distance_dict,obj.distance_atoms, parmDict)
3940	pId = obj.distance_dict['pId']
3941	aId,bId = obj.distance_atoms
3942	varyNames = ['%d::dA%s:%d'%(pId,ip,aId) for ip in ['x','y','z']]
3943	varyNames += ['%d::dA%s:%d'%(pId,ip,bId) for ip in ['x','y','z']]
3944	VCoV = G2mth.getVCov(varyNames,varyList,data[name]['covMatrix'])
3945	esdList.append(np.sqrt(np.inner(derivs,np.inner(VCoV,derivs.T)) ))
3946	# GSASIIpath.IPyBreak()
3947	elif 'Angle' in expr:
3948	derivs = G2mth.CalcAngleDeriv(obj.angle_dict,obj.angle_atoms, parmDict)
3949	pId = obj.angle_dict['pId']
3950	aId,bId = obj.angle_atoms
3951	varyNames = ['%d::dA%s:%d'%(pId,ip,aId) for ip in ['x','y','z']]
3952	varyNames += ['%d::dA%s:%d'%(pId,ip,bId[0]) for ip in ['x','y','z']]
3953	varyNames += ['%d::dA%s:%d'%(pId,ip,bId[1]) for ip in ['x','y','z']]
3954	VCoV = G2mth.getVCov(varyNames,varyList,data[name]['covMatrix'])
3955	esdList.append(np.sqrt(np.inner(derivs,np.inner(VCoV,derivs.T)) ))
3956	else:
3957	derivs = np.array(
3958	[EvalPSvarDeriv(calcobj,parmDict.copy(),sampleDict[name],var,ESD)
3959	for var,ESD in zip(varyList,sigs)])
3960	esdList.append(np.sqrt(
3961	np.inner(derivs,np.inner(data[name]['covMatrix'],derivs.T)) ))
3962	PSvarDict = parmDict.copy()
3963	PSvarDict.update(sampleDict[name])
3964	UpdateParmDict(PSvarDict)
3965	calcobj.UpdateDict(PSvarDict)
3966	valList.append(calcobj.EvalExpression())
3967	# if calcobj.su is not None: esdList[-1] = calcobj.su
3968	if not esdList:
3969	esdList = None
3970	colList += [valList]
3971	colSigs += [esdList]
3972	colLabels += [expr]
3973	Types += [wg.GRID_VALUE_FLOAT,]
3974	#---- table build done -------------------------------------------------------------
3975
3976	# Make dict needed for creating & editing pseudovars (PSvarDict).
3977	name = histNames[0]
3978	parmDict = data[name].get('parmDict',{})
3979	PSvarDict = parmDict.copy()
3980	PSvarDict.update(sampleParms)
3981	UpdateParmDict(PSvarDict)
3982	# Also dicts of dependent (depVarDict) & independent vars (indepVarDict)
3983	# for Parametric fitting from the data table
3984	parmDict = dict(zip(colLabels,zip(*colList)[0])) # scratch dict w/all values in table
3985	parmDict.update(
3986	{var:val for var,val in data[name].get('newCellDict',{}).values()} # add varied reciprocal cell terms
3987	)
3988	name = histNames[0]
3989
3990	#******************************************************************************
3991	# create a set of values for example evaluation of pseudovars and
3992	# this does not work for refinements that have differing numbers of variables.
3993	#raise Exception
3994	indepVarDict = {} # values in table w/o ESDs
3995	depVarDict = {}
3996	for i,var in enumerate(colLabels):
3997	if var == 'Use': continue
3998	if colList[i][0] is None:
3999	val,sig = firstValueDict.get(var,[None,None])
4000	elif colSigs[i]:
4001	val,sig = colList[i][0],colSigs[i][0]
4002	else:
4003	val,sig = colList[i][0],None
4004	if val is None:
4005	continue
4006	elif sig is None:
4007	indepVarDict[var] = val
4008	elif striphist(var) not in Dlookup:
4009	depVarDict[var] = val
4010	# add recip cell coeff. values
4011	depVarDict.update({var:val for var,val in data[name].get('newCellDict',{}).values()})
4012
4013	G2frame.dataDisplay = G2G.GSGrid(parent=G2frame.dataFrame)
4014	G2frame.SeqTable = G2G.Table(
4015	[list(cl) for cl in zip(*colList)], # convert from columns to rows
4016	colLabels=colLabels,rowLabels=histNames,types=Types)
4017	G2frame.dataDisplay.SetTable(G2frame.SeqTable, True)
4018	#G2frame.dataDisplay.EnableEditing(False)
4019	# make all but first column read-only
4020	for c in range(1,len(colLabels)):
4021	for r in range(nRows):
4022	G2frame.dataDisplay.SetCellReadOnly(r,c)
4023	G2frame.dataDisplay.Bind(wg.EVT_GRID_LABEL_LEFT_DCLICK, PlotSelect)
4024	G2frame.dataDisplay.Bind(wg.EVT_GRID_LABEL_RIGHT_CLICK, SetLabelString)
4025	G2frame.dataDisplay.SetRowLabelSize(8*len(histNames[0])) #pretty arbitrary 8
4026	G2frame.dataDisplay.SetMargins(0,0)
4027	G2frame.dataDisplay.AutoSizeColumns(True)
4028	if prevSize:
4029	G2frame.dataFrame.setSizePosLeft(prevSize)
4030	else:
4031	G2frame.dataFrame.setSizePosLeft([700,350])
4032	# highlight unconverged shifts
4033	if histNames[0][:4] not in ['SASD','IMG ']:
4034	for row,name in enumerate(histNames):
4035	deltaChi = G2frame.SeqTable.GetValue(row,deltaChiCol)
4036	if deltaChi > 10.:
4037	G2frame.dataDisplay.SetCellStyle(row,deltaChiCol,color=wx.Colour(255,0,0))
4038	elif deltaChi > 1.0:
4039	G2frame.dataDisplay.SetCellStyle(row,deltaChiCol,color=wx.Colour(255,255,0))
4040	G2frame.dataDisplay.InstallGridToolTip(GridSetToolTip,GridColLblToolTip)
4041	G2frame.dataDisplay.SendSizeEvent() # resize needed on mac
4042	G2frame.dataDisplay.Refresh() # shows colored text on mac
4043
4044	################################################################################
4045	##### Main PWDR panel
4046	################################################################################
4047
4048	def UpdatePWHKPlot(G2frame,kind,item):
4049	'''Called when the histogram main tree entry is called. Displays the
4050	histogram weight factor, refinement statistics for the histogram
4051	and the range of data for a simulation.
4052
4053	Also invokes a plot of the histogram.
4054	'''
4055	def onEditSimRange(event):
4056	'Edit simulation range'
4057	inp = [
4058	min(data[1][0]),
4059	max(data[1][0]),
4060	None
4061	]
4062	inp[2] = (inp[1] - inp[0])/(len(data[1][0])-1.)
4063	names = ('start angle', 'end angle', 'step size')
4064	dlg = G2G.ScrolledMultiEditor(
4065	G2frame,[inp] * len(inp), range(len(inp)), names,
4066	header='Edit simulation range',
4067	minvals=(0.001,0.001,0.0001),
4068	maxvals=(180.,180.,.1),
4069	)
4070	dlg.CenterOnParent()
4071	val = dlg.ShowModal()
4072	dlg.Destroy()
4073	if val != wx.ID_OK: return
4074	if inp[0] > inp[1]:
4075	end,start,step = inp
4076	else:
4077	start,end,step = inp
4078	step = abs(step)
4079	N = int((end-start)/step)+1
4080	newdata = np.linspace(start,end,N,True)
4081	if len(newdata) < 2: return # too small a range - reject
4082	data[1] = [newdata,np.zeros_like(newdata),np.ones_like(newdata),
4083	np.zeros_like(newdata),np.zeros_like(newdata),np.zeros_like(newdata)]
4084	Tmin = newdata[0]
4085	Tmax = newdata[-1]
4086	G2frame.PatternTree.SetItemPyData(GetPatternTreeItemId(G2frame,item,'Limits'),
4087	[(Tmin,Tmax),[Tmin,Tmax]])
4088	UpdatePWHKPlot(G2frame,kind,item) # redisplay data screen
4089
4090	def OnPlot3DHKL(event):
4091	refList = data[1]['RefList']
4092	FoMax = np.max(refList.T[8+Super])
4093	Hmin = np.array([int(np.min(refList.T[0])),int(np.min(refList.T[1])),int(np.min(refList.T[2]))])
4094	Hmax = np.array([int(np.max(refList.T[0])),int(np.max(refList.T[1])),int(np.max(refList.T[2]))])
4095	Vpoint = np.array([int(np.mean(refList.T[0])),int(np.mean(refList.T[1])),int(np.mean(refList.T[2]))])
4096	controls = {'Type' : 'Fosq','Iscale' : False,'HKLmax' : Hmax,'HKLmin' : Hmin,'Zone':False,'viewKey':'L',
4097	'FoMax' : FoMax,'Scale' : 1.0,'Drawing':{'viewPoint':[Vpoint,[]],'default':Vpoint[:],
4098	'backColor':[0,0,0],'depthFog':False,'Zclip':10.0,'cameraPos':10.,'Zstep':0.05,'viewUp':[0,1,0],
4099	'Scale':1.0,'oldxy':[],'viewDir':[0,0,1]},'Super':Super,'SuperVec':SuperVec}
4100	G2plt.Plot3DSngl(G2frame,newPlot=True,Data=controls,hklRef=refList,Title=phaseName)
4101
4102	def OnPlotAll3DHKL(event):
4103	choices = GetPatternTreeDataNames(G2frame,['HKLF',])
4104	dlg = G2G.G2MultiChoiceDialog(G2frame, 'Select reflection sets to plot',
4105	'Use data',choices)
4106	try:
4107	if dlg.ShowModal() == wx.ID_OK:
4108	refNames = [choices[i] for i in dlg.GetSelections()]
4109	else:
4110	return
4111	finally:
4112	dlg.Destroy()
4113	refList = np.zeros(0)
4114	for name in refNames:
4115	Id = GetPatternTreeItemId(G2frame,G2frame.root, name)
4116	reflData = G2frame.PatternTree.GetItemPyData(Id)[1]
4117	if len(refList):
4118	refList = np.concatenate((refList,reflData['RefList']))
4119	else:
4120	refList = reflData['RefList']
4121
4122	FoMax = np.max(refList.T[8+Super])
4123	Hmin = np.array([int(np.min(refList.T[0])),int(np.min(refList.T[1])),int(np.min(refList.T[2]))])
4124	Hmax = np.array([int(np.max(refList.T[0])),int(np.max(refList.T[1])),int(np.max(refList.T[2]))])
4125	Vpoint = [int(np.mean(refList.T[0])),int(np.mean(refList.T[1])),int(np.mean(refList.T[2]))]
4126	controls = {'Type' : 'Fosq','Iscale' : False,'HKLmax' : Hmax,'HKLmin' : Hmin,'Zone':False,'viewKey':'L',
4127	'FoMax' : FoMax,'Scale' : 1.0,'Drawing':{'viewPoint':[Vpoint,[]],'default':Vpoint[:],
4128	'backColor':[0,0,0],'depthFog':False,'Zclip':10.0,'cameraPos':10.,'Zstep':0.05,'viewUp':[0,1,0],
4129	'Scale':1.0,'oldxy':[],'viewDir':[1,0,0]},'Super':Super,'SuperVec':SuperVec}
4130	G2plt.Plot3DSngl(G2frame,newPlot=True,Data=controls,hklRef=refList,Title=phaseName)
4131
4132	def OnMergeHKL(event):
4133	Name = G2frame.PatternTree.GetItemText(G2frame.PatternId)
4134	Inst = G2frame.PatternTree.GetItemPyData(GetPatternTreeItemId(G2frame,
4135	G2frame.PatternId,'Instrument Parameters'))
4136	CId = GetPatternTreeItemId(G2frame,G2frame.PatternId,'Comments')
4137	if CId:
4138	Comments = G2frame.PatternTree.GetItemPyData(CId)
4139	else:
4140	Comments = []
4141	refList = np.copy(data[1]['RefList'])
4142	Comments.append(' Merging %d reflections from %s'%(len(refList),Name))
4143	dlg = MergeDialog(G2frame,data)
4144	try:
4145	if dlg.ShowModal() == wx.ID_OK:
4146	Trans,Cent,Laue = dlg.GetSelection()
4147	else:
4148	return
4149	finally:
4150	dlg.Destroy()
4151	Super = data[1]['Super']
4152	refList,badRefs = G2lat.transposeHKLF(Trans,Super,refList)
4153	if len(badRefs): #do I want to list badRefs?
4154	G2frame.ErrorDialog('Failed transformation','Matrix yields fractional hkl indices')
4155	return
4156	Comments.append(" Transformation M*H = H' applied; M=")
4157	Comments.append(str(Trans))
4158	refList = G2lat.LaueUnique(Laue,refList)
4159	dlg = wx.ProgressDialog('Build HKL dictonary','',len(refList)+1,
4160	style = wx.PD_ELAPSED_TIME\|wx.PD_AUTO_HIDE)
4161	HKLdict = {}
4162	for ih,hkl in enumerate(refList):
4163	if str(hkl[:3+Super]) not in HKLdict:
4164	HKLdict[str(hkl[:3+Super])] = [hkl[:3+Super],[hkl[3+Super:],]]
4165	else:
4166	HKLdict[str(hkl[:3+Super])][1].append(hkl[3+Super:])
4167	dlg.Update(ih)
4168	dlg.Destroy()
4169	mergeRef = []
4170	dlg = wx.ProgressDialog('Processing merge','',len(HKLdict)+1,
4171	style = wx.PD_ELAPSED_TIME\|wx.PD_AUTO_HIDE)
4172	sumDf = 0.
4173	sumFo = 0.
4174	for ih,hkl in enumerate(HKLdict):
4175	HKL = HKLdict[hkl]
4176	newHKL = list(HKL[0])+list(HKL[1][0])
4177	if len(HKL[1]) > 1:
4178	fos = np.array(HKL[1])
4179	wFo = 1/fos[:,3]**2
4180	Fo = np.average(fos[:,2],weights=wFo)
4181	std = np.std(fos[:,2])
4182	sig = np.sqrt(np.mean(fos[:,3])2+std2)
4183	sumFo += np.sum(fos[:,2])
4184	sumDf += np.sum(np.abs(fos[:,2]-Fo))
4185	dlg.Update(ih)
4186	newHKL[5+Super] = Fo
4187	newHKL[6+Super] = sig
4188	newHKL[8+Super] = Fo
4189	if newHKL[5+Super] > 0.:
4190	mergeRef.append(list(newHKL))
4191	dlg.Destroy()
4192	if Super:
4193	mergeRef = G2mth.sortArray(G2mth.sortArray(G2mth.sortArray(G2mth.sortArray(mergeRef,3),2),1),0)
4194	else:
4195	mergeRef = G2mth.sortArray(G2mth.sortArray(G2mth.sortArray(mergeRef,2),1),0)
4196	mergeRef = np.array(mergeRef)
4197	if sumFo:
4198	mtext = ' merge R = %6.2f%s for %d reflections in %s'%(100.*sumDf/sumFo,'%',mergeRef.shape[0],Laue)
4199	print mtext
4200	Comments.append(mtext)
4201	else:
4202	print 'nothing to merge for %s reflections'%(mergeRef.shape[0])
4203	HKLFlist = []
4204	newName = Name+' '+Laue
4205	if G2frame.PatternTree.GetCount():
4206	item, cookie = G2frame.PatternTree.GetFirstChild(G2frame.root)
4207	while item:
4208	name = G2frame.PatternTree.GetItemText(item)
4209	if name.startswith('HKLF ') and name not in HKLFlist:
4210	HKLFlist.append(name)
4211	item, cookie = G2frame.PatternTree.GetNextChild(G2frame.root, cookie)
4212	newName = G2obj.MakeUniqueLabel(newName,HKLFlist)
4213	newData = copy.deepcopy(data)
4214	newData[0]['ranId'] = ran.randint(0,sys.maxint)
4215	newData[1]['RefList'] = mergeRef
4216	Id = G2frame.PatternTree.AppendItem(parent=G2frame.root,text=newName)
4217	G2frame.PatternTree.SetItemPyData(
4218	G2frame.PatternTree.AppendItem(Id,text='Comments'),Comments)
4219	G2frame.PatternTree.SetItemPyData(Id,newData)
4220	G2frame.PatternTree.SetItemPyData(
4221	G2frame.PatternTree.AppendItem(Id,text='Instrument Parameters'),Inst)
4222	G2frame.PatternTree.SetItemPyData(
4223	G2frame.PatternTree.AppendItem(Id,text='Reflection List'),{}) #dummy entry for GUI use
4224
4225	def OnErrorAnalysis(event):
4226	G2plt.PlotDeltSig(G2frame,kind)
4227
4228	def OnWtFactor(event):
4229	event.Skip()
4230	try:
4231	val = float(wtval.GetValue())
4232	except ValueError:
4233	val = data[0]['wtFactor']
4234	data[0]['wtFactor'] = val
4235	wtval.SetValue('%.3f'%(val))
4236
4237	# def OnCompression(event):
4238	# data[0] = int(comp.GetValue())
4239
4240	def onCopyPlotCtrls(event):
4241	'''Respond to menu item to copy multiple sections from a histogram.
4242	Need this here to pass on the G2frame object.
4243	'''
4244	G2pdG.CopyPlotCtrls(G2frame)
4245
4246	def onCopySelectedItems(event):
4247	'''Respond to menu item to copy multiple sections from a histogram.
4248	Need this here to pass on the G2frame object.
4249	'''
4250	G2pdG.CopySelectedHistItems(G2frame)
4251
4252	data = G2frame.PatternTree.GetItemPyData(item)
4253	#patches
4254	if not data:
4255	return
4256	if 'wtFactor' not in data[0]:
4257	data[0] = {'wtFactor':1.0}
4258	# if kind == 'PWDR' and 'Compression' not in data[0]:
4259	# data[0]['Compression'] = 1
4260	#if isinstance(data[1],list) and kind == 'HKLF':
4261	if 'list' in str(type(data[1])) and kind == 'HKLF':
4262	RefData = {'RefList':[],'FF':[]}
4263	for ref in data[1]:
4264	RefData['RefList'].append(ref[:11]+[ref[13],])
4265	RefData['FF'].append(ref[14])
4266	data[1] = RefData
4267	G2frame.PatternTree.SetItemPyData(item,data)
4268	#end patches
4269	if G2frame.dataDisplay:
4270	G2frame.dataDisplay.Destroy()
4271	if kind in ['PWDR','SASD']:
4272	SetDataMenuBar(G2frame,G2frame.dataFrame.PWDRMenu)
4273	G2frame.dataFrame.Bind(wx.EVT_MENU, OnErrorAnalysis, id=wxID_PWDANALYSIS)
4274	G2frame.dataFrame.Bind(wx.EVT_MENU, onCopySelectedItems, id=wxID_PWDCOPY)
4275	G2frame.dataFrame.Bind(wx.EVT_MENU, onCopyPlotCtrls, id=wxID_PLOTCTRLCOPY)
4276	elif kind in ['HKLF',]:
4277	SetDataMenuBar(G2frame,G2frame.dataFrame.HKLFMenu)
4278	G2frame.dataFrame.Bind(wx.EVT_MENU, OnErrorAnalysis, id=wxID_PWDANALYSIS)
4279	G2frame.dataFrame.Bind(wx.EVT_MENU, OnMergeHKL, id=wxID_MERGEHKL)
4280	G2frame.dataFrame.Bind(wx.EVT_MENU, OnPlot3DHKL, id=wxID_PWD3DHKLPLOT)