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source: trunk/fprime.py @ 4435

Last change on this file since 4435 was 4365, checked in by toby, 5 years ago
set keywords & eol on all G2 files
Property svn:eol-style set to `native` Property svn:keywords set to `Date Author Revision URL Id`
File size: 23.9 KB

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1	#!/usr/bin/env python
2
3	"""main Fprime routines
4	Copyright: 2008, Robert B. Von Dreele (Argonne National Laboratory)
5	"""
6	from __future__ import division, print_function
7	import platform
8	import math
9	import wx
10	import numpy as np
11	import sys
12	import matplotlib as mpl
13	import GSASIIpath
14	GSASIIpath.SetVersionNumber("$Revision: 4365 $")
15	import GSASIIElem as G2elem
16	import GSASIIElemGUI as G2elemGUI
17
18	try:
19	wx.NewIdRef
20	wx.NewId = wx.NewIdRef
21	except AttributeError:
22	pass
23
24	if '2' in platform.python_version_tuple()[0]:
25	Gkmu = unichr(0x3bc)
26	Gktheta = unichr(0x3b8)
27	Gklambda = unichr(0x3bb)
28	GkDelta = unichr(0x0394)
29	Pwr10 = unichr(0x0b9)+unichr(0x2070)
30	Pwr20 = unichr(0x0b2)+unichr(0x2070)
31	Pwrm1 = unichr(0x207b)+unichr(0x0b9)
32	Pwrm2 = unichr(0x207b)+unichr(0x0b2)
33	Pwrm6 = unichr(0x207b)+unichr(0x2076)
34	Pwrm4 = unichr(0x207b)+unichr(0x2074)
35	Angstr = unichr(0x00c5)
36	else:
37	Gkmu = chr(0x3bc)
38	Gktheta = chr(0x3b8)
39	Gklambda = chr(0x3bb)
40	GkDelta = chr(0x0394)
41	Pwr10 = chr(0x0b9)+chr(0x2070)
42	Pwr20 = chr(0x0b2)+chr(0x2070)
43	Pwrm1 = chr(0x207b)+chr(0x0b9)
44	Pwrm2 = chr(0x207b)+chr(0x0b2)
45	Pwrm6 = chr(0x207b)+chr(0x2076)
46	Pwrm4 = chr(0x207b)+chr(0x2074)
47	Angstr = chr(0x00c5)
48
49	[wxID_FPRIMECHOICE1, wxID_FPRIMECHOICE2, wxID_SPINTEXT1, wxID_SPINTEXT2,
50	wxID_FPRIMERESULTS,wxID_FPRIMESLIDER1, wxID_SPINBUTTON,
51	] = [wx.NewId() for _init_ctrls in range(7)]
52
53	[wxID_FPRIMEEXIT, wxID_FPRIMEDELETE, wxID_FPRIMENEW,
54	] = [wx.NewId() for _init_coll_FPRIME_Items in range(3)]
55
56	[wxID_FPRIMEKALPHAAGKA, wxID_FPRIMEKALPHACOKA, wxID_FPRIMEKALPHACRKA,
57	wxID_FPRIMEKALPHACUKA, wxID_FPRIMEKALPHAFEKA, wxID_FPRIMEKALPHAMNKA,
58	wxID_FPRIMEKALPHAMOKA, wxID_FPRIMEKALPHANIKA, wxID_FPRIMEKALPHAZNKA,
59	] = [wx.NewId() for _init_coll_KALPHA_Items in range(9)]
60
61	[wxID_FPRIMEABOUT] = [wx.NewId() for _init_coll_ABOUT_Items in range(1)]
62
63	class Fprime(wx.Frame):
64	''' '''
65	Elems = []
66	Wave = 1.5405 #CuKa default
67	Kev = 12.397639 #keV for 1A x-rays
68	for arg in sys.argv:
69	if '-w' in arg:
70	Wave = float(arg.split('-w')[1])
71	elif '-e' in arg:
72	E = float(arg.split('-e')[1])
73	Wave = Kev/E
74	elif '-h' in arg:
75	print( '''
76	fprime.py can take the following arguments:
77	-h - this help listing
78	-wv - set default wavelength to v, e.g. -w1.54 sets wavelength to 1.54A
79	-ev - set default energy to v, e.g. -e27 sets energy to 27keV
80	without arguments fprime uses CuKa as default (Wave=1.54052A, E=8.0478keV)
81	''')
82	sys.exit()
83	Wmin = 0.05 #wavelength range
84	Wmax = 3.0
85	Wres = 0.004094 #plot resolution step size as const delta-lam/lam - gives 1000 steps for Wmin to Wmax
86	Eres = 1.5e-4 #typical energy resolution for synchrotron x-ray sources
87	ffpfignum = 1
88	fppfignum = 2
89	Energy = Kev/Wave
90	ifWave = True
91	FFxaxis = 'S' #default form factor plot is vs sin(theta)/lambda
92	def _init_coll_ABOUT_Items(self, parent):
93
94	parent.Append(wxID_FPRIMEABOUT, 'About')
95	self.Bind(wx.EVT_MENU, self.OnABOUTItems0Menu, id=wxID_FPRIMEABOUT)
96
97	def _init_coll_menuBar1_Menus(self, parent):
98
99	parent.Append(menu=self.FPRIME, title='Fprime')
100	parent.Append(menu=self.KALPHA, title='Kalpha')
101	parent.Append(menu=self.ABOUT, title='About')
102
103	def _init_coll_KALPHA_Items(self, parent):
104	"Set of characteristic radiation from sealed tube sources"
105
106	parent.Append(wxID_FPRIMEKALPHACRKA,'CrKa')
107	parent.Append(wxID_FPRIMEKALPHAMNKA,'MnKa')
108	parent.Append(wxID_FPRIMEKALPHAFEKA,'FeKa')
109	parent.Append(wxID_FPRIMEKALPHACOKA,'CoKa')
110	parent.Append(wxID_FPRIMEKALPHANIKA,'NiKa')
111	parent.Append(wxID_FPRIMEKALPHACUKA,'CuKa')
112	parent.Append(wxID_FPRIMEKALPHAZNKA,'ZnKa')
113	parent.Append(wxID_FPRIMEKALPHAMOKA,'MoKa')
114	parent.Append(wxID_FPRIMEKALPHAAGKA,'AgKa')
115	self.Bind(wx.EVT_MENU, self.OnKALPHACrkaMenu, id=wxID_FPRIMEKALPHACRKA)
116	self.Bind(wx.EVT_MENU, self.OnKALPHAMnkaMenu, id=wxID_FPRIMEKALPHAMNKA)
117	self.Bind(wx.EVT_MENU, self.OnKALPHAFekaMenu, id=wxID_FPRIMEKALPHAFEKA)
118	self.Bind(wx.EVT_MENU, self.OnKALPHACokaMenu, id=wxID_FPRIMEKALPHACOKA)
119	self.Bind(wx.EVT_MENU, self.OnKALPHANikaMenu, id=wxID_FPRIMEKALPHANIKA)
120	self.Bind(wx.EVT_MENU, self.OnKALPHACukaMenu, id=wxID_FPRIMEKALPHACUKA)
121	self.Bind(wx.EVT_MENU, self.OnKALPHAZnkaMenu, id=wxID_FPRIMEKALPHAZNKA)
122	self.Bind(wx.EVT_MENU, self.OnKALPHAMokaMenu, id=wxID_FPRIMEKALPHAMOKA)
123	self.Bind(wx.EVT_MENU, self.OnKALPHAAgkaMenu, id=wxID_FPRIMEKALPHAAGKA)
124
125	def _init_coll_FPRIME_Items(self, parent):
126	parent.Append(wxID_FPRIMENEW,'&New Element','Add new element')
127	self.Delete = parent.Append(wxID_FPRIMEDELETE,'&Delete Element','Delete an element')
128	self.Delete.Enable(False)
129	parent.Append(wxID_FPRIMEEXIT,'&Exit','Exit Fprime')
130	self.Bind(wx.EVT_MENU, self.OnFPRIMEExitMenu, id=wxID_FPRIMEEXIT)
131	self.Bind(wx.EVT_MENU, self.OnFPRIMENewMenu, id=wxID_FPRIMENEW)
132	self.Bind(wx.EVT_MENU, self.OnFPRIMEDeleteMenu, id=wxID_FPRIMEDELETE)
133
134	def _init_utils(self):
135	self.FPRIME = wx.Menu(title='')
136
137	self.KALPHA = wx.Menu(title='')
138	self.KALPHA.SetEvtHandlerEnabled(True)
139
140	self.ABOUT = wx.Menu(title='')
141
142	self.menuBar1 = wx.MenuBar()
143
144	self._init_coll_FPRIME_Items(self.FPRIME)
145	self._init_coll_KALPHA_Items(self.KALPHA)
146	self._init_coll_ABOUT_Items(self.ABOUT)
147	self._init_coll_menuBar1_Menus(self.menuBar1)
148
149	def _init_ctrls(self, parent):
150
151	wx.Frame.__init__(self, parent=parent,
152	size=wx.Size(500, 300),style=wx.DEFAULT_FRAME_STYLE ^ wx.CLOSE_BOX, title='Fprime')
153	self._init_utils()
154	self.SetMenuBar(self.menuBar1)
155	panel = wx.Panel(self)
156
157	mainSizer = wx.BoxSizer(wx.VERTICAL)
158	self.Results = wx.TextCtrl( parent=panel,style=wx.TE_MULTILINE\|wx.TE_DONTWRAP )
159	self.Results.SetEditable(False)
160	mainSizer.Add(self.Results,1,wx.ALIGN_CENTER_HORIZONTAL\|wx.EXPAND)
161	mainSizer.Add((10,15),0)
162
163	selSizer = wx.BoxSizer(wx.HORIZONTAL)
164	selSizer.Add((5,10),0)
165	selSizer.Add(wx.StaticText(parent=panel, label='Wavelength:'),0,
166	wx.ALIGN_CENTER_VERTICAL\|wx.EXPAND)
167	selSizer.Add((5,10),0)
168	self.SpinText1 = wx.TextCtrl(id=wxID_SPINTEXT1, parent=panel,
169	size=wx.Size(100,20), value = "%6.4f" % (self.Wave),style=wx.TE_PROCESS_ENTER )
170	selSizer.Add(self.SpinText1,0)
171	selSizer.Add((5,10),0)
172	self.SpinText1.Bind(wx.EVT_TEXT_ENTER, self.OnSpinText1, id=wxID_SPINTEXT1)
173
174	selSizer.Add(wx.StaticText(parent=panel, label='Energy:'),0,
175	wx.ALIGN_CENTER_VERTICAL\|wx.EXPAND)
176	selSizer.Add((5,10),0)
177	self.SpinText2 = wx.TextCtrl(id=wxID_SPINTEXT2, parent=panel,
178	size=wx.Size(100,20), value = "%7.4f" % (self.Energy),style=wx.TE_PROCESS_ENTER)
179	selSizer.Add(self.SpinText2,0)
180	self.SpinText2.Bind(wx.EVT_TEXT_ENTER, self.OnSpinText2, id=wxID_SPINTEXT2)
181	mainSizer.Add(selSizer,0)
182	mainSizer.Add((10,10),0)
183
184	slideSizer = wx.BoxSizer(wx.HORIZONTAL)
185	self.SpinButton = wx.SpinButton(id=wxID_SPINBUTTON, parent=panel,
186	size=wx.Size(25,24), style=wx.SP_VERTICAL \| wx.SP_ARROW_KEYS)
187	slideSizer.Add(self.SpinButton,0,wx.ALIGN_RIGHT)
188	self.SpinButton.SetRange(-1,1)
189	self.SpinButton.SetValue(0)
190	self.SpinButton.Bind(wx.EVT_SPIN, self.OnSpinButton, id=wxID_SPINBUTTON)
191
192	self.slider1 = wx.Slider(id=wxID_FPRIMESLIDER1, maxValue=int(1000.*self.Wmax),
193	minValue=int(1000.*self.Wmin), parent=panel,style=wx.SL_HORIZONTAL,
194	value=int(self.Wave*1000.), )
195	slideSizer.Add(self.slider1,1,wx.EXPAND\|wx.ALIGN_RIGHT)
196	self.slider1.Bind(wx.EVT_SLIDER, self.OnSlider1, id=wxID_FPRIMESLIDER1)
197	mainSizer.Add(slideSizer,0,wx.EXPAND)
198	mainSizer.Add((10,10),0)
199
200	choiceSizer = wx.BoxSizer(wx.HORIZONTAL)
201	choiceSizer.Add((5,10),0)
202	choiceSizer.Add(wx.StaticText(parent=panel, label='Plot scales:'),
203	0,wx.ALIGN_CENTER_VERTICAL\|wx.EXPAND)
204	choiceSizer.Add((5,10),0)
205
206	self.choice1 = wx.ComboBox(id=wxID_FPRIMECHOICE1, parent=panel, value='Wavelength',
207	choices=['Wavelength','Energy'],style=wx.CB_READONLY\|wx.CB_DROPDOWN)
208	choiceSizer.Add(self.choice1,0)
209	choiceSizer.Add((10,10),0)
210	self.choice1.Bind(wx.EVT_COMBOBOX, self.OnChoice1, id=wxID_FPRIMECHOICE1)
211
212	def OnChoice2(event):
213	if event.GetString() == ' sin('+Gktheta+')/'+Gklambda:
214	self.FFxaxis = 'S'
215	elif event.GetString() == ' Q':
216	self.FFxaxis = 'Q'
217	else:
218	self.FFxaxis = 'T'
219	self.UpDateFPlot(self.Wave,rePlot=False)
220
221	self.choice2 = wx.ComboBox(id=wxID_FPRIMECHOICE2, value=' sin('+Gktheta+')/'+Gklambda,
222	choices=[' sin('+Gktheta+')/'+Gklambda,' 2'+Gktheta,' Q'],
223	parent=panel, style=wx.CB_READONLY\|wx.CB_DROPDOWN)
224	choiceSizer.Add(self.choice2,0)
225	self.choice2.Bind(wx.EVT_COMBOBOX, OnChoice2, id=wxID_FPRIMECHOICE2)
226	mainSizer.Add(choiceSizer,0)
227	mainSizer.Add((10,10),0)
228	panel.SetSizer(mainSizer)
229
230	def __init__(self, parent):
231	self._init_ctrls(parent)
232	self.parent = parent
233	self.Lines = []
234	self.Elems = []
235	self.linePicked = None
236
237	def OnFPRIMEExitMenu(self, event):
238	self.parent.G2plotNB.Delete('Fprime')
239	self.Close()
240	self.Destroy()
241
242	def OnFPRIMENewMenu(self, event):
243	ElList = []
244	for Elem in self.Elems: ElList.append(Elem[0])
245	PE = G2elemGUI.PickElements(self,ElList)
246	if PE.ShowModal() == wx.ID_OK:
247	Elems = PE.Elem
248	PE.Destroy()
249	if Elems:
250	for El in Elems:
251	ElemSym = El.strip().upper()
252	if ElemSym not in ElList:
253	FormFactors = G2elem.GetFormFactorCoeff(ElemSym)
254	for FormFac in FormFactors:
255	FormSym = FormFac['Symbol'].strip()
256	if FormSym == ElemSym:
257	Z = FormFac['Z'] #At. No.
258	Orbs = G2elem.GetXsectionCoeff(ElemSym)
259	Elem = (ElemSym,Z,FormFac,Orbs)
260	self.Elems.append(Elem)
261	self.Delete.Enable(True)
262	self.CalcFPPS()
263	self.SetWaveEnergy(self.Wave)
264
265	def OnFPRIMEDeleteMenu(self, event):
266	if len(self.Elems):
267	ElList = []
268	for Elem in self.Elems: ElList.append(Elem[0])
269	S = []
270	DE = G2elemGUI.DeleteElement(self,ElList)
271	if DE.ShowModal() == wx.ID_OK:
272	El = DE.GetDeleteElement().strip().upper()
273	for Elem in self.Elems:
274	if Elem[0] != El:
275	S.append(Elem)
276	self.Elems = S
277	self.CalcFPPS()
278	if not self.Elems:
279	self.Delete.Enable(False)
280	self.SetWaveEnergy(self.Wave)
281
282	def OnKALPHACrkaMenu(self, event):
283	self.SetWaveEnergy(2.28962)
284
285	def OnKALPHAMnkaMenu(self, event):
286	self.SetWaveEnergy(2.10174)
287
288	def OnKALPHAFekaMenu(self, event):
289	self.SetWaveEnergy(1.93597)
290
291	def OnKALPHACokaMenu(self, event):
292	self.SetWaveEnergy(1.78896)
293
294	def OnKALPHANikaMenu(self, event):
295	self.SetWaveEnergy(1.65784)
296
297	def OnKALPHACukaMenu(self, event):
298	self.SetWaveEnergy(1.54052)
299
300	def OnKALPHAZnkaMenu(self, event):
301	self.SetWaveEnergy(1.43510)
302
303	def OnKALPHAMokaMenu(self, event):
304	self.SetWaveEnergy(0.70926)
305
306	def OnKALPHAAgkaMenu(self, event):
307	self.SetWaveEnergy(0.55936)
308
309	def OnSpinText1(self, event):
310	self.SetWaveEnergy(float(self.SpinText1.GetValue()))
311
312	def OnSpinText2(self, event):
313	self.SetWaveEnergy(self.Kev/(float(self.SpinText2.GetValue())))
314
315	def OnSpinButton(self, event):
316	move = self.SpinButton.GetValue()/10000.
317	self.Wave = min(max(self.Wave+move,self.Wmin),self.Wmax)
318	self.SpinButton.SetValue(0)
319	self.SetWaveEnergy(self.Wave)
320
321	def OnSlider1(self, event):
322	if self.ifWave:
323	Wave = float(self.slider1.GetValue())/1000.
324	else:
325	Wave = self.Kev/(float(self.slider1.GetValue())/1000.)
326	self.SetWaveEnergy(Wave)
327
328	def OnKeyPress(self,event):
329	if event.key == 'g':
330	mpl.rcParams['axes.grid'] = not mpl.rcParams['axes.grid']
331	self.SetWaveEnergy(self.Wave)
332
333	def UpDateFPlot(self,Wave,rePlot=True):
334	"""Plot f' & f" vs wavelength 0.05-3.0A"""
335	"generate a set of form factor curves & plot them vs sin-theta/lambda or q or 2-theta"
336	self.axylim = []
337	self.bxylim = []
338	try:
339	if rePlot:
340	self.axylim = self.ax.get_xlim(),self.ax.get_ylim()
341	self.bxylim = self.bx.get_xlim(),self.bx.get_ylim()
342	newPlot = False
343	except:
344	new,plotNum,self.Page,self.fplot,lim = self.parent.G2plotNB.FindPlotTab('Fprime','mpl')
345	self.Page.canvas.mpl_connect('pick_event', self.OnPick)
346	self.Page.canvas.mpl_connect('button_release_event', self.OnRelease)
347	self.Page.canvas.mpl_connect('motion_notify_event', self.OnMotion)
348	self.Page.canvas.mpl_connect('key_press_event', self.OnKeyPress)
349	newPlot = True
350	self.ax,self.bx = self.Page.figure.subplots(1,2)
351	self.Page.Choice = (' key press','g: toggle grid',)
352	self.Page.keyPress = self.OnKeyPress
353	self.fplot.set_visible(False)
354	self.ax.cla()
355	self.bx.cla()
356	self.ax.set_title('Resonant Scattering Factors',x=0,ha='left')
357	self.ax.set_ylabel("f ',"+' f ", e-',fontsize=14)
358	Ymin = 0.0
359	Ymax = 0.0
360	colors=['r','b','g','c','m','k']
361	if self.FPPS:
362	for i,Fpps in enumerate(self.FPPS):
363	Color = colors[i%6]
364	Ymin = min(Ymin,min(Fpps[2]),min(Fpps[3]))
365	Ymax = max(Ymax,max(Fpps[2]),max(Fpps[3]))
366	fppsP1 = np.array(Fpps[1])
367	fppsP2 = np.array(Fpps[2])
368	fppsP3 = np.array(Fpps[3])
369	self.ax.plot(fppsP1,fppsP2,Color,label=Fpps[0]+" f '")
370	self.ax.plot(fppsP1,fppsP3,Color,label=Fpps[0]+' f "')
371	if self.ifWave:
372	self.ax.set_xlabel(r'$\mathsf{\lambda, \AA}$',fontsize=14)
373	self.ax.axvline(x=Wave,picker=3,color='black')
374	else:
375	self.ax.set_xlabel(r'$\mathsf{E, keV}$',fontsize=14)
376	self.ax.set_xscale('log')
377	self.ax.axvline(x=self.Kev/Wave,picker=3,color='black')
378	self.ax.set_ylim(Ymin,Ymax)
379	if self.FPPS:
380	self.ax.legend(loc='best')
381	self.Page.figure.subplots_adjust(hspace=0.25)
382	if self.ifWave:
383	self.bx.set_title('%s%s%6.4f%s'%('Form factors (',r'$\lambda=$',self.Wave,r'$\AA)$'),x=0,ha='left')
384	else:
385	self.bx.set_title('%s%6.2f%s'%('Form factors (E =',self.Energy,'keV)'),x=0,ha='left')
386	if self.FFxaxis == 'S':
387	self.bxlabel = 'sin('+Gktheta+')/'+Gklambda
388	self.bx.set_xlabel(r'$\mathsf{sin(\theta)/\lambda}$',fontsize=14)
389	elif self.FFxaxis == 'T':
390	self.bxlabel = '2'+Gktheta
391	self.bx.set_xlabel(r'$\mathsf{2\theta}$',fontsize=14)
392	else:
393	self.bxlabel = 'Q, '+Angstr+Pwrm1
394	self.bx.set_xlabel(r'$Q, \AA$',fontsize=14)
395	self.bx.set_ylabel("f+f ', e-",fontsize=14)
396	E = self.Energy
397	DE = E*self.Eres #smear by defined source resolution
398	StlMax = min(2.0,math.sin(80.0*math.pi/180.)/Wave)
399	Stl = np.arange(0.,StlMax,.01)
400	Ymax = 0.0
401	for i,Elem in enumerate(self.Elems):
402	Els = Elem[0]
403	Els = Els = Els.ljust(2).lower().capitalize()
404	Ymax = max(Ymax,Elem[1])
405	res1 = G2elem.FPcalc(Elem[3],E+DE)
406	res2 = G2elem.FPcalc(Elem[3],E-DE)
407	res = (res1[0]+res2[0])/2.0
408	if Elem[1] > 78 and self.Energy > self.Kev/0.16: res = 0.0
409	if Elem[1] > 94 and self.Energy < self.Kev/2.67: res = 0.0
410	Els = Elem[0]
411	Els = Els.ljust(2).lower().capitalize()
412	X = []
413	ff = []
414	ffo = []
415	for S in Stl:
416	ff.append(G2elem.ScatFac(Elem[2],S)+res)
417	ffo.append(G2elem.ScatFac(Elem[2],S))
418	if self.FFxaxis == 'S':
419	X.append(S)
420	elif self.FFxaxis == 'T':
421	X.append(360.0math.asin(Sself.Wave)/math.pi)
422	else:
423	X.append(4.0Smath.pi)
424	Color = colors[i%6]
425	Xp = np.array(X)
426	ffop = np.array(ffo)
427	ffp = np.array(ff)
428	self.bx.plot(Xp,ffop,Color+'--',label=Els+" f")
429	self.bx.plot(Xp,ffp,Color,label=Els+" f+f'")
430	if self.Elems:
431	self.bx.legend(loc='best')
432	self.bx.set_ylim(0.0,Ymax+1.0)
433
434	if newPlot:
435	newPlot = False
436	self.Page.canvas.draw()
437	else:
438	if rePlot:
439	tb = self.Page.canvas.toolbar
440	tb.push_current()
441	self.ax.set_xlim(self.axylim[0])
442	self.ax.set_ylim(self.axylim[1])
443	self.axylim = []
444	tb.push_current()
445	self.bx.set_xlim(self.bxylim[0])
446	self.bx.set_ylim(self.bxylim[1])
447	self.bxylim = []
448	tb.push_current()
449	self.Page.canvas.draw()
450
451	def OnPick(self, event):
452	self.linePicked = event.artist
453
454	def OnMotion(self,event):
455	xpos = event.xdata
456	if xpos and xpos>0.1:
457	ypos = event.ydata
458	if self.ifWave:
459	Wave = xpos
460	else:
461	Wave = self.Kev/xpos
462	Wave = min(max(Wave,self.Wmin),self.Wmax)
463	if event.inaxes == self.ax:
464	self.parent.G2plotNB.status.SetStatusText("Wavelength: %.4f, Energy: %.3f, f'%s: %.3f"%(Wave,self.Kev/Wave,'f"',ypos),1)
465	elif event.inaxes == self.bx:
466	self.parent.G2plotNB.status.SetStatusText("%s: %.4f, f,f+f': %.3f"%(self.bxlabel,xpos,ypos),1)
467	if self.linePicked:
468	self.SetWaveEnergy(Wave)
469
470	def OnRelease(self, event):
471	if self.linePicked is None: return
472	self.linePicked = None
473	xpos = event.xdata
474	if xpos:
475	if self.ifWave:
476	Wave = xpos
477	else:
478	Wave = self.Kev/xpos
479	self.SetWaveEnergy(Wave)
480
481	def SetWaveEnergy(self,Wave):
482	self.Wave = Wave
483	self.Energy = self.Kev/self.Wave
484	self.Energy = round(self.Energy,4)
485	E = self.Energy
486	DE = E*self.Eres #smear by defined source resolution
487	self.SpinText1.SetValue("%6.4f" % (self.Wave))
488	self.SpinText2.SetValue("%7.4f" % (self.Energy))
489	self.SpinText1.Update()
490	self.SpinText2.Update()
491	if self.ifWave:
492	self.slider1.SetValue(int(1000.*self.Wave))
493	else:
494	self.slider1.SetValue(int(1000.*self.Energy))
495	Text = ''
496	for Elem in self.Elems:
497	r1 = G2elem.FPcalc(Elem[3],E+DE)
498	r2 = G2elem.FPcalc(Elem[3],E-DE)
499	Els = Elem[0]
500	Els = Els.ljust(2).lower().capitalize()
501	if Elem[1] > 78 and self.Energy+DE > self.Kev/0.16:
502	Text += "%s\t%s%6s\t%s%6.3f \t%s%10.2f %s\n" % (
503	'Element= '+str(Els)," f'=",'not valid',
504	' f"=',(r1[1]+r2[1])/2.0,' '+Gkmu+'=',(r1[2]+r2[2])/2.0,'barns/atom')
505	elif Elem[1] > 94 and self.Energy-DE < self.Kev/2.67:
506	Text += "%s\t%s%6s\t%s%6s\t%s%10s%s\n" % (
507	'Element= '+str(Els)," f'=",'not valid',
508	' f"=','not valid',' '+Gkmu+'=','not valid')
509	else:
510	Text += "%s\t%s%6.3f \t%s%6.3f \t%s%10.2f %s\n" % (
511	'Element= '+str(Els)," f'=",(r1[0]+r2[0])/2.0,
512	' f"=',(r1[1]+r2[1])/2.0,' '+Gkmu+'=',(r1[2]+r2[2])/2.0,'barns/atom')
513	if len(self.Elems):
514	self.Results.SetValue(Text)
515	self.Results.Update()
516	self.UpDateFPlot(Wave)
517
518	def CalcFPPS(self):
519	"""generate set of f' & f" curves for selected elements
520	does constant delta-lambda/lambda steps over defined range
521	"""
522	FPPS = []
523	if self.Elems:
524	wx.BeginBusyCursor()
525	try:
526	for Elem in self.Elems:
527	Els = Elem[0]
528	Els = Els = Els.ljust(2).lower().capitalize()
529	Wmin = self.Wmin
530	Wmax = self.Wmax
531	Z = Elem[1]
532	if Z > 78: Wmin = 0.16 #heavy element high energy failure of Cromer-Liberman
533	if Z > 94: Wmax = 2.67 #heavy element low energy failure of Cromer-Liberman
534	lWmin = math.log(Wmin)
535	N = int(round(math.log(Wmax/Wmin)/self.Wres)) #number of constant delta-lam/lam steps
536	I = range(N+1)
537	Ws = []
538	for i in I: Ws.append(math.exp(i*self.Wres+lWmin))
539	fps = []
540	fpps = []
541	Es = []
542	for W in Ws:
543	E = self.Kev/W
544	DE = E*self.Eres #smear by defined source resolution
545	res1 = G2elem.FPcalc(Elem[3],E+DE)
546	res2 = G2elem.FPcalc(Elem[3],E-DE)
547	fps.append((res1[0]+res2[0])/2.0)
548	fpps.append((res1[1]+res2[1])/2.0)
549	Es.append(E)
550	if self.ifWave:
551	Fpps = (Els,Ws,fps,fpps)
552	else:
553	Fpps = (Els,Es,fps,fpps)
554	FPPS.append(Fpps)
555	finally:
556	wx.EndBusyCursor()
557	self.FPPS = FPPS
558
559	def OnChoice1(self, event):
560	if event.GetString() == "Wavelength":
561	self.ifWave = True
562	self.NewFPPlot = True
563	self.Wave = round(self.Wave,4)
564	self.slider1.SetRange(int(1000.self.Wmin),int(1000.self.Wmax))
565	self.slider1.SetValue(int(1000.*self.Wave))
566	self.SpinText1.SetValue("%6.4f" % (self.Wave))
567	self.SpinText2.SetValue("%7.4f" % (self.Energy))
568	else:
569	self.ifWave = False
570	self.NewFPPlot = True
571	Emin = self.Kev/self.Wmax
572	Emax = self.Kev/self.Wmin
573	self.Energy = round(self.Energy,4)
574	self.slider1.SetRange(int(1000.Emin),int(1000.Emax))
575	self.slider1.SetValue(int(1000.*self.Energy))
576	self.SpinText1.SetValue("%6.4f" % (self.Wave))
577	self.SpinText2.SetValue("%7.4f" % (self.Energy))
578	self.CalcFPPS()
579	self.UpDateFPlot(self.Wave,rePlot=False)
580
581	def OnABOUTItems0Menu(self, event):
582	''' '''
583	try:
584	import wx.adv as wxadv # AboutBox moved here in Phoenix
585	except:
586	wxadv = wx
587	info = wxadv.AboutDialogInfo()
588	info.Name = 'pyFprime'
589	info.Copyright = '''
590	Robert B. Von Dreele, 2008(C)
591	Argonne National Laboratory
592	This product includes software developed
593	by the UChicago Argonne, LLC, as
594	Operator of Argonne National Laboratory. '''
595	info.Description = '''
596	For calculating real and resonant X-ray scattering factors to 250keV;
597	based on Fortran program of Cromer & Liberman corrected for
598	Kissel & Pratt energy term; Jensen term not included
599	(D. T. Cromer and D. A. Liberman, Acta Cryst. (1981). A37, 267-268.)
600	'''
601	wxadv.AboutBox(info)

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