# -*- coding: utf-8 -*- #GSASII - phase data display routines ########### SVN repository information ################### # $Date: 2016-08-25 20:10:53 +0000 (Thu, 25 Aug 2016) $ # $Author: vondreele $ # $Revision: 2451 $ # $URL: trunk/GSASIIphsGUI.py $ # $Id: GSASIIphsGUI.py 2451 2016-08-25 20:10:53Z vondreele $ ########### SVN repository information ################### ''' *GSASIIphsGUI: Phase GUI* ------------------------- Module to create the GUI for display of phase information in the data display window when a phase is selected. Phase information is stored in one or more :ref:`Phase Tree Item ` objects. Note that there are functions that respond to some tabs in the phase GUI in other modules (such as GSASIIddata). ''' import os.path import wx import wx.grid as wg import wx.lib.gridmovers as wgmove import wx.wizard as wz import wx.lib.scrolledpanel as wxscroll import matplotlib as mpl import copy import time import sys import random as ran import cPickle import GSASIIpath GSASIIpath.SetVersionNumber("$Revision: 2451 $") import GSASIIlattice as G2lat import GSASIIspc as G2spc import GSASIIElem as G2elem import GSASIIElemGUI as G2elemGUI import GSASIIddataGUI as G2ddG import GSASIIplot as G2plt import GSASIIgrid as G2gd import GSASIIIO as G2IO import GSASIIstrMain as G2stMn import GSASIIstrIO as G2strIO import GSASIImath as G2mth import GSASIIpwd as G2pwd import GSASIIpy3 as G2py3 import GSASIIobj as G2obj import GSASIIctrls as G2G import numpy as np import numpy.linalg as nl import numpy.ma as ma VERY_LIGHT_GREY = wx.Colour(235,235,235) WHITE = wx.Colour(255,255,255) BLACK = wx.Colour(0,0,0) WACV = wx.ALIGN_CENTER_VERTICAL mapDefault = {'MapType':'','RefList':'','Resolution':0.5,'Show bonds':True, 'rho':[],'rhoMax':0.,'mapSize':10.0,'cutOff':50.,'Flip':False} TabSelectionIdDict = {} # trig functions in degrees sind = lambda x: np.sin(x*np.pi/180.) tand = lambda x: np.tan(x*np.pi/180.) cosd = lambda x: np.cos(x*np.pi/180.) asind = lambda x: 180.*np.arcsin(x)/np.pi acosd = lambda x: 180.*np.arccos(x)/np.pi atan2d = lambda x,y: 180.*np.arctan2(y,x)/np.pi def SetPhaseWindow(mainFrame,phasePage,mainSizer,Scroll=0): phasePage.SetSizer(mainSizer) Size = mainSizer.GetMinSize() Size[0] += 40 Size[1] = min(Size[1]+ 150,500) phasePage.SetScrollbars(10,10,Size[0]/10-4,Size[1]/10-1) phasePage.SetSize(Size) phasePage.Scroll(0,Scroll) mainFrame.setSizePosLeft(Size) def FindBondsDraw(data): '''uses numpy & masks - very fast even for proteins! ''' import numpy.ma as ma cx,ct,cs,ci = data['Drawing']['atomPtrs'] hydro = data['Drawing']['showHydrogen'] atomData = data['Drawing']['Atoms'] generalData = data['General'] Amat,Bmat = G2lat.cell2AB(generalData['Cell'][1:7]) radii = generalData['BondRadii'] atomTypes = generalData['AtomTypes'] try: indH = atomTypes.index('H') radii[indH] = 0.5 except: pass for atom in atomData: atom[-2] = [] #clear out old bonds/polyhedra atom[-1] = [] Indx = range(len(atomData)) Atoms = [] Styles = [] Radii = [] for atom in atomData: Atoms.append(np.array(atom[cx:cx+3])) Styles.append(atom[cs]) try: if not hydro and atom[ct] == 'H': Radii.append(0.0) else: Radii.append(radii[atomTypes.index(atom[ct])]) except ValueError: #changed atom type! Radii.append(0.20) Atoms = np.array(Atoms) Radii = np.array(Radii) IASR = zip(Indx,Atoms,Styles,Radii) for atomA in IASR: if atomA[2] in ['lines','sticks','ellipsoids','balls & sticks','polyhedra']: Dx = Atoms-atomA[1] dist = ma.masked_less(np.sqrt(np.sum(np.inner(Amat,Dx)**2,axis=0)),0.5) #gets rid of G2frame & disorder "bonds" < 0.5A sumR = atomA[3]+Radii IndB = ma.nonzero(ma.masked_greater(dist-data['Drawing']['radiusFactor']*sumR,0.)) #get indices of bonded atoms i = atomA[0] for j in IndB[0]: if Styles[i] == 'polyhedra': atomData[i][-2].append(np.inner(Amat,Dx[j])) elif Styles[j] != 'polyhedra' and j > i: atomData[i][-2].append(Dx[j]*Radii[i]/sumR[j]) atomData[j][-2].append(-Dx[j]*Radii[j]/sumR[j]) if Styles[i] == 'polyhedra': Bonds = atomData[i][-2] Faces = [] if len(Bonds) > 2: FaceGen = G2lat.uniqueCombinations(Bonds,3) #N.B. this is a generator for face in FaceGen: vol = nl.det(face) if abs(vol) > 1. or len(Bonds) == 3: if vol < 0.: face = [face[0],face[2],face[1]] face = np.array(face) if not np.array([np.array(nl.det(face-bond))+0.0001 < 0 for bond in Bonds]).any(): norm = np.cross(face[1]-face[0],face[2]-face[0]) norm /= np.sqrt(np.sum(norm**2)) Faces.append([face,norm]) atomData[i][-1] = Faces def UpdatePhaseData(G2frame,Item,data,oldPage): '''Create the data display window contents when a phase is clicked on in the main (data tree) window. Called only from :meth:`GSASIIgrid.MovePatternTreeToGrid`, which in turn is called from :meth:`GSASII.GSASII.OnPatternTreeSelChanged` when a tree item is selected. :param wx.frame G2frame: the main GSAS-II frame object :param wx.TreeItemId Item: the tree item that was selected :param dict data: all the information on the phase in a dictionary :param int oldPage: This sets a tab to select when moving from one phase to another, in which case the same tab is selected to display first. This is set only when the previous data tree selection is a phase, if not the value is None. The default action is to bring up the General tab. ''' def GetReflData(G2frame,phaseName,reflNames): ReflData = {'RefList':[],'Type':''} if '' in reflNames: return None for reflName in reflNames: if 'PWDR' in reflName: PatternId = G2gd.GetPatternTreeItemId(G2frame,G2frame.root, reflName) reflSets = G2frame.PatternTree.GetItemPyData(G2gd.GetPatternTreeItemId(G2frame,PatternId,'Reflection Lists')) reflData = reflSets[phaseName] elif 'HKLF' in reflName: PatternId = G2gd.GetPatternTreeItemId(G2frame,G2frame.root, reflName) reflData = G2frame.PatternTree.GetItemPyData(PatternId)[1] if 'Type' not in reflData: reflData['Type'] = 'SXC' if ReflData['Type'] and reflData['Type'] != ReflData['Type']: G2frame.ErrorDialog('Data type conflict', reflName+' conflicts with previous '+ReflData['Type']) return None ReflData['RefList'] += list(reflData['RefList']) ReflData['Type'] = reflData['Type'] return ReflData # UpdatePhaseData execution continues below def SetupGeneral(): generalData = data['General'] atomData = data['Atoms'] generalData['AtomTypes'] = [] generalData['Isotopes'] = {} # various patches if 'Isotope' not in generalData: generalData['Isotope'] = {} if 'Data plot type' not in generalData: generalData['Data plot type'] = 'Mustrain' if 'POhkl' not in generalData: generalData['POhkl'] = [0,0,1] if 'Map' not in generalData: generalData['Map'] = mapDefault.copy() if 'Flip' not in generalData: generalData['Flip'] = {'RefList':'','Resolution':0.5,'Norm element':'None', 'k-factor':0.1,'k-Max':20.,} if 'testHKL' not in generalData['Flip']: generalData['Flip']['testHKL'] = [[0,0,2],[2,0,0],[1,1,1],[0,2,0],[1,2,3]] if 'doPawley' not in generalData: generalData['doPawley'] = False if 'Pawley dmin' not in generalData: generalData['Pawley dmin'] = 1.0 if 'Pawley neg wt' not in generalData: generalData['Pawley neg wt'] = 0.0 if 'Algolrithm' in generalData.get('MCSA controls',{}) or \ 'MCSA controls' not in generalData: generalData['MCSA controls'] = {'Data source':'','Annealing':[50.,0.001,50], 'dmin':2.0,'Algorithm':'log','Jump coeff':[0.95,0.5],'boltzmann':1.0, 'fast parms':[1.0,1.0,1.0],'log slope':0.9,'Cycles':1,'Results':[],'newDmin':True} if 'AtomPtrs' not in generalData: generalData['AtomPtrs'] = [3,1,7,9] if generalData['Type'] == 'macromolecular': generalData['AtomPtrs'] = [6,4,10,12] elif generalData['Type'] == 'magnetic': generalData['AtomPtrs'] = [3,1,10,12] if generalData['Type'] in ['modulated',]: generalData['Modulated'] = True generalData['Type'] = 'nuclear' if 'Super' not in generalData: generalData['Super'] = 1 generalData['SuperVec'] = [[0,0,.1],False,4] generalData['SSGData'] = {} if '4DmapData' not in generalData: generalData['4DmapData'] = mapDefault.copy() generalData['4DmapData'].update({'MapType':'Fobs'}) if 'Modulated' not in generalData: generalData['Modulated'] = False if 'HydIds' not in generalData: generalData['HydIds'] = {} # end of patches cx,ct,cs,cia = generalData['AtomPtrs'] generalData['NoAtoms'] = {} generalData['BondRadii'] = [] generalData['AngleRadii'] = [] generalData['vdWRadii'] = [] generalData['AtomMass'] = [] generalData['Color'] = [] generalData['Mydir'] = G2frame.dirname badList = {} for atom in atomData: atom[ct] = atom[ct].lower().capitalize() #force to standard form if generalData['AtomTypes'].count(atom[ct]): generalData['NoAtoms'][atom[ct]] += atom[cs-1]*float(atom[cs+1]) elif atom[ct] != 'UNK': Info = G2elem.GetAtomInfo(atom[ct]) if not Info: if atom[ct] not in badList: badList[atom[ct]] = 0 badList[atom[ct]] += 1 atom[ct] = 'UNK' continue atom[ct] = Info['Symbol'] # N.B. symbol might be changed by GetAtomInfo generalData['AtomTypes'].append(atom[ct]) generalData['Z'] = Info['Z'] generalData['Isotopes'][atom[ct]] = Info['Isotopes'] generalData['BondRadii'].append(Info['Drad']) generalData['AngleRadii'].append(Info['Arad']) generalData['vdWRadii'].append(Info['Vdrad']) if atom[ct] in generalData['Isotope']: if generalData['Isotope'][atom[ct]] not in generalData['Isotopes'][atom[ct]]: isotope = generalData['Isotopes'][atom[ct]].keys()[-1] generalData['Isotope'][atom[ct]] = isotope generalData['AtomMass'].append(Info['Isotopes'][generalData['Isotope'][atom[ct]]]['Mass']) else: generalData['Isotope'][atom[ct]] = 'Nat. Abund.' if 'Nat. Abund.' not in generalData['Isotopes'][atom[ct]]: isotope = generalData['Isotopes'][atom[ct]].keys()[-1] generalData['Isotope'][atom[ct]] = isotope generalData['AtomMass'].append(Info['Mass']) generalData['NoAtoms'][atom[ct]] = atom[cs-1]*float(atom[cs+1]) generalData['Color'].append(Info['Color']) if badList: msg = 'Warning: element symbol(s) not found:' for key in badList: msg += '\n\t' + key if badList[key] > 1: msg += ' (' + str(badList[key]) + ' times)' wx.MessageBox(msg,caption='Element symbol error') F000X = 0. F000N = 0. for i,elem in enumerate(generalData['AtomTypes']): F000X += generalData['NoAtoms'][elem]*generalData['Z'] isotope = generalData['Isotope'][elem] F000N += generalData['NoAtoms'][elem]*generalData['Isotopes'][elem][isotope]['SL'][0] generalData['F000X'] = F000X generalData['F000N'] = F000N generalData['Mass'] = G2mth.getMass(generalData) ################################################################################ ##### General phase routines ################################################################################ def UpdateGeneral(Scroll=0): '''Draw the controls for the General phase data subpage ''' """ This is the default dictionary structure for phase data (taken from GSASII.py) 'General':{ 'Name':PhaseName 'Type':'nuclear' 'SGData':SGData 'Cell':[False,10.,10.,10.,90.,90.,90,1000.] 'AtomPtrs':[] 'Pawley dmin':1.0, 'Pawley neg wt':0.0} 'Atoms':[] 'Drawing':{} """ # UpdateGeneral execution starts here #General.DestroyChildren() # bad, deletes scrollbars on Mac! if General.GetSizer(): General.GetSizer().Clear(True) phaseTypes = ['nuclear','magnetic','macromolecular','faulted'] SetupGeneral() generalData = data['General'] Map = generalData['Map'] Flip = generalData['Flip'] MCSAdata = generalData['MCSA controls'] PWDR = any(['PWDR' in item for item in data['Histograms'].keys()]) # UpdateGeneral execution continues below def NameSizer(): def SetDefaultSSsymbol(): if generalData['SGData']['SGLaue'] in '-1': return '(abg)' elif generalData['SGData']['SGLaue'] in ['2/m']: if generalData['SGData']['SGUniq'] == 'a': return '(a00)' elif generalData['SGData']['SGUniq'] == 'b': return '(0b0)' elif generalData['SGData']['SGUniq'] == 'c': return '(00g)' else: return '(00g)' def OnPhaseName(event): event.Skip() oldName = generalData['Name'] phaseRIdList,usedHistograms = G2frame.GetPhaseInfofromTree() phaseNameList = usedHistograms.keys() # phase names in use newName = NameTxt.GetValue().strip() if newName and newName != oldName: newName = G2obj.MakeUniqueLabel(newName,phaseNameList) generalData['Name'] = newName G2frame.G2plotNB.Rename(oldName,generalData['Name']) G2frame.dataFrame.SetLabel('Phase Data for '+generalData['Name']) G2frame.PatternTree.SetItemText(Item,generalData['Name']) # change phase name key in Reflection Lists for each histogram for hist in data['Histograms']: ht = G2gd.GetPatternTreeItemId(G2frame,G2frame.root,hist) rt = G2gd.GetPatternTreeItemId(G2frame,ht,'Reflection Lists') if not rt: continue RfList = G2frame.PatternTree.GetItemPyData(rt) if oldName not in RfList: print('Warning: '+oldName+' not in Reflection List for '+ hist) continue RfList[newName] = RfList[oldName] del RfList[oldName] NameTxt.SetValue(generalData['Name']) def OnPhaseType(event): if not len(generalData['AtomTypes']): #can change only if no atoms! generalData['Type'] = TypeTxt.GetValue() pages = [G2frame.dataDisplay.GetPageText(PageNum) for PageNum in range(G2frame.dataDisplay.GetPageCount())] if generalData['Type'] == 'faulted': G2frame.dataFrame.Bind(wx.EVT_MENU, OnLoadDIFFaX, id=G2gd.wxID_LOADDIFFAX) G2frame.dataFrame.Bind(wx.EVT_MENU, OnSimulate, id=G2gd.wxID_LAYERSIMULATE) G2frame.dataFrame.Bind(wx.EVT_MENU, OnSeqSimulate, id=G2gd.wxID_SEQUENCESIMULATE) if 'Wave Data' in pages: pass # G2frame.dataDisplay.DeletePage(pages.index('Wave Data')) if 'MC/SA' in pages: pass # G2frame.dataDisplay.DeletePage(pages.index('MC/SA')) if 'RB Models' in pages: pass # G2frame.dataDisplay.DeletePage(pages.index('RB Models')) if 'Layers' not in pages: if 'Layers' not in data: data['Layers'] = {'Laue':'-1','Cell':[False,1.,1.,1.,90.,90.,90,1.], 'Width':[[1.,1.],[False,False]],'Toler':0.01,'AtInfo':{}, 'Layers':[],'Stacking':[],'Transitions':[]} G2frame.layerData = wx.ScrolledWindow(G2frame.dataDisplay) G2frame.dataDisplay.InsertPage(3,G2frame.layerData,'Layers') Id = wx.NewId() TabSelectionIdDict[Id] = 'Layers' wx.CallAfter(UpdateGeneral) else: if 'Wave Data' in pages: G2frame.dataDisplay.DeletePage(pages.index('Wave Data')) if 'MC/SA' not in pages: G2frame.MCSA = wx.ScrolledWindow(G2frame.dataDisplay) G2frame.dataDisplay.InsertPage(7,G2frame.MCSA,'MC/SA') Id = wx.NewId() TabSelectionIdDict[Id] = 'MC/SA' wx.CallAfter(UpdateGeneral) else: G2frame.ErrorDialog('Phase type change error','Can change phase type only if there are no atoms') TypeTxt.SetValue(generalData['Type']) def OnSpaceGroup(event): event.Skip() Flds = SGTxt.GetValue().split() #get rid of extra spaces between fields first for fld in Flds: fld = fld.strip() SpcGp = ' '.join(Flds) # try a lookup on the user-supplied name SpGrpNorm = G2spc.StandardizeSpcName(SpcGp) if SpGrpNorm: SGErr,SGData = G2spc.SpcGroup(SpGrpNorm) else: SGErr,SGData = G2spc.SpcGroup(SpcGp) if SGErr: text = [G2spc.SGErrors(SGErr)+'\nSpace Group set to previous'] SGTxt.SetValue(generalData['SGData']['SpGrp']) msg = 'Space Group Error' Style = wx.ICON_EXCLAMATION Text = '\n'.join(text) wx.MessageBox(Text,caption=msg,style=Style) else: text,table = G2spc.SGPrint(SGData) generalData['SGData'] = SGData SGTxt.SetValue(generalData['SGData']['SpGrp']) msg = 'Space Group Information' G2gd.SGMessageBox(General,msg,text,table).Show() if generalData['Modulated']: generalData['SuperSg'] = SetDefaultSSsymbol() generalData['SSGData'] = G2spc.SSpcGroup(generalData['SGData'],generalData['SuperSg'])[1] Atoms = data['Atoms'] cx = generalData['AtomPtrs'][0] for atom in Atoms: XYZ = atom[cx:cx+3] Sytsym,Mult = G2spc.SytSym(XYZ,SGData) atom[cx+4] = Sytsym atom[cx+5] = Mult wx.CallAfter(UpdateGeneral) def OnModulated(event): if not len(generalData['AtomTypes']): #can change only if no atoms! pages = [G2frame.dataDisplay.GetPageText(PageNum) for PageNum in range(G2frame.dataDisplay.GetPageCount())] if generalData['Type'] in ['nuclear','magnetic']: generalData['Modulated'] = modulated.GetValue() if generalData['Modulated']: if 'SuperSg' not in generalData: generalData['SuperSg'] = SetDefaultSSsymbol() generalData['SSGData'] = G2spc.SSpcGroup(generalData['SGData'],generalData['SuperSg'])[1] if 'Super' not in generalData: generalData['Super'] = 1 generalData['SuperVec'] = [[0,0,.1],False,4] generalData['SSGData'] = {} if '4DmapData' not in generalData: generalData['4DmapData'] = mapDefault.copy() generalData['4DmapData'].update({'MapType':'Fobs'}) if 'MC/SA' in pages: pass # G2frame.dataDisplay.DeletePage(pages.index('MC/SA')) #this crashes!! if 'Layers' in pages: pass # G2frame.dataDisplay.DeletePage(pages.index('Layers')) if 'Wave Data' not in pages: G2frame.waveData = wx.ScrolledWindow(G2frame.dataDisplay) G2frame.dataDisplay.InsertPage(3,G2frame.waveData,'Wave Data') Id = wx.NewId() TabSelectionIdDict[Id] = 'Wave Data' else: if 'Wave Data' in pages: G2frame.dataDisplay.DeletePage(pages.index('Wave Data')) wx.CallAfter(UpdateGeneral) else: G2frame.ErrorDialog('Modulation type change error','Can change modulation only if there are no atoms') modulated.SetValue(generalData['Modulated']) nameSizer = wx.BoxSizer(wx.HORIZONTAL) nameSizer.Add(wx.StaticText(General,-1,' Phase name: '),0,WACV) NameTxt = wx.TextCtrl(General,-1,value=generalData['Name'],style=wx.TE_PROCESS_ENTER) NameTxt.Bind(wx.EVT_TEXT_ENTER,OnPhaseName) NameTxt.Bind(wx.EVT_KILL_FOCUS,OnPhaseName) nameSizer.Add(NameTxt,0,WACV) nameSizer.Add(wx.StaticText(General,-1,' Phase type: '),0,WACV) TypeTxt = wx.ComboBox(General,-1,value=generalData['Type'],choices=phaseTypes, style=wx.CB_READONLY|wx.CB_DROPDOWN) TypeTxt.Bind(wx.EVT_COMBOBOX, OnPhaseType) nameSizer.Add(TypeTxt,0,WACV) nameSizer.Add(wx.StaticText(General,-1,' Space group: '),0,WACV) SGTxt = wx.TextCtrl(General,-1,value=generalData['SGData']['SpGrp'],style=wx.TE_PROCESS_ENTER) SGTxt.Bind(wx.EVT_TEXT_ENTER,OnSpaceGroup) nameSizer.Add(SGTxt,0,WACV) if generalData['Type'] in ['nuclear','magnetic']: modulated = wx.CheckBox(General,label='Modulated? ') modulated.SetValue(generalData['Modulated']) modulated.Bind(wx.EVT_CHECKBOX,OnModulated) nameSizer.Add(modulated,0,WACV) return nameSizer def CellSizer(): cellGUIlist = [[['m3','m3m'],4,zip([" Unit cell: a = "," Vol = "],["%.5f","%.3f"],[True,False],[0,0])], [['3R','3mR'],6,zip([" a = "," alpha = "," Vol = "],["%.5f","%.3f","%.3f"],[True,True,False],[0,3,0])], [['3','3m1','31m','6/m','6/mmm','4/m','4/mmm'],6,zip([" a = "," c = "," Vol = "],["%.5f","%.5f","%.3f"],[True,True,False],[0,2,0])], [['mmm'],8,zip([" a = "," b = "," c = "," Vol = "],["%.5f","%.5f","%.5f","%.3f"], [True,True,True,False],[0,1,2,0])], [['2/m'+'a'],10,zip([" a = "," b = "," c = "," alpha = "," Vol = "], ["%.5f","%.5f","%.5f","%.3f","%.3f"],[True,True,True,True,False],[0,1,2,3,0])], [['2/m'+'b'],10,zip([" a = "," b = "," c = "," beta = "," Vol = "], ["%.5f","%.5f","%.5f","%.3f","%.3f"],[True,True,True,True,False],[0,1,2,4,0])], [['2/m'+'c'],10,zip([" a = "," b = "," c = "," gamma = "," Vol = "], ["%.5f","%.5f","%.5f","%.3f","%.3f"],[True,True,True,True,False],[0,1,2,5,0])], [['-1'],8,zip([" a = "," b = "," c = "," Vol = "," alpha = "," beta = "," gamma = "], ["%.5f","%.5f","%.5f","%.3f","%.3f","%.3f","%.3f"], [True,True,True,False,True,True,True],[0,1,2,0,3,4,5])]] def OnCellRef(event): generalData['Cell'][0] = cellRef.GetValue() def OnCellChange(event): event.Skip() SGData = generalData['SGData'] laue = SGData['SGLaue'] if laue == '2/m': laue += SGData['SGUniq'] cell = generalData['Cell'] Obj = event.GetEventObject() ObjId = cellList.index(Obj.GetId()) try: value = max(1.0,float(Obj.GetValue())) except ValueError: if ObjId < 3: #bad cell edge - reset value = controls[6+ObjId] else: #bad angle value = 90. if laue in ['m3','m3m']: cell[1] = cell[2] = cell[3] = value cell[4] = cell[5] = cell[6] = 90.0 Obj.SetValue("%.5f"%(cell[1])) elif laue in ['3R','3mR']: if ObjId == 0: cell[1] = cell[2] = cell[3] = value Obj.SetValue("%.5f"%(cell[1])) else: cell[4] = cell[5] = cell[6] = value Obj.SetValue("%.5f"%(cell[4])) elif laue in ['3','3m1','31m','6/m','6/mmm','4/m','4/mmm']: cell[4] = cell[5] = 90. cell[6] = 120. if laue in ['4/m','4/mmm']: cell[6] = 90. if ObjId == 0: cell[1] = cell[2] = value Obj.SetValue("%.5f"%(cell[1])) else: cell[3] = value Obj.SetValue("%.5f"%(cell[3])) elif laue in ['mmm']: cell[ObjId+1] = value cell[4] = cell[5] = cell[6] = 90. Obj.SetValue("%.5f"%(cell[ObjId+1])) elif laue in ['2/m'+'a']: cell[5] = cell[6] = 90. if ObjId != 3: cell[ObjId+1] = value Obj.SetValue("%.5f"%(cell[ObjId+1])) else: cell[4] = value Obj.SetValue("%.3f"%(cell[4])) elif laue in ['2/m'+'b']: cell[4] = cell[6] = 90. if ObjId != 3: cell[ObjId+1] = value Obj.SetValue("%.5f"%(cell[ObjId+1])) else: cell[5] = value Obj.SetValue("%.3f"%(cell[5])) elif laue in ['2/m'+'c']: cell[4] = cell[5] = 90. if ObjId != 3: cell[ObjId+1] = value Obj.SetValue("%.5f"%(cell[ObjId+1])) else: cell[6] = value Obj.SetValue("%.3f"%(cell[6])) else: cell[ObjId+1] = value if ObjId < 3: Obj.SetValue("%.5f"%(cell[1+ObjId])) else: Obj.SetValue("%.3f"%(cell[1+ObjId])) cell[7] = G2lat.calc_V(G2lat.cell2A(cell[1:7])) volVal.SetValue("%.3f"%(cell[7])) density,mattCoeff = G2mth.getDensity(generalData) if denSizer: denSizer[1].SetValue('%.3f'%(density)) if denSizer[2]: denSizer[2].SetValue('%.3f'%(mattCoeff)) cell = generalData['Cell'] laue = generalData['SGData']['SGLaue'] if laue == '2/m': laue += generalData['SGData']['SGUniq'] for cellGUI in cellGUIlist: if laue in cellGUI[0]: useGUI = cellGUI cellSizer = wx.FlexGridSizer(0,useGUI[1]+1,5,5) if PWDR: cellRef = wx.CheckBox(General,-1,label='Refine unit cell:') cellSizer.Add(cellRef,0,WACV) cellRef.Bind(wx.EVT_CHECKBOX, OnCellRef) cellRef.SetValue(cell[0]) cellList = [] for txt,fmt,ifEdit,Id in useGUI[2]: cellSizer.Add(wx.StaticText(General,label=txt),0,WACV) if ifEdit: #a,b,c,etc. cellVal = wx.TextCtrl(General,value=(fmt%(cell[Id+1])), style=wx.TE_PROCESS_ENTER) cellVal.Bind(wx.EVT_TEXT_ENTER,OnCellChange) cellVal.Bind(wx.EVT_KILL_FOCUS,OnCellChange) cellSizer.Add(cellVal,0,WACV) cellList.append(cellVal.GetId()) else: #volume volVal = wx.TextCtrl(General,value=(fmt%(cell[7])),style=wx.TE_READONLY) volVal.SetBackgroundColour(VERY_LIGHT_GREY) cellSizer.Add(volVal,0,WACV) return cellSizer def ElemSizer(): def OnIsotope(event): Obj = event.GetEventObject() item = Indx[Obj.GetId()] isotope = Obj.GetValue() nCols = len(generalData['AtomTypes'])+1 data['General']['Isotope'][item] = isotope indx = generalData['AtomTypes'].index(item) wt = generalData['Isotopes'][item][isotope]['Mass'] elemSizer.GetChildren()[indx+3*nCols+1].Window.SetValue('%.3f'%(wt)) #tricky data['General']['AtomMass'][indx] = wt density,mattCoeff = G2mth.getDensity(generalData) denSizer[1].SetValue('%.3f'%(density)) if denSizer[2]: denSizer[2].SetValue('%.3f'%(mattCoeff)) elemSizer = wx.FlexGridSizer(0,len(generalData['AtomTypes'])+1,1,1) elemSizer.Add(wx.StaticText(General,label=' Elements'),0,WACV) for elem in generalData['AtomTypes']: typTxt = wx.TextCtrl(General,value=elem,style=wx.TE_READONLY) typTxt.SetBackgroundColour(VERY_LIGHT_GREY) elemSizer.Add(typTxt,0,WACV) elemSizer.Add(wx.StaticText(General,label=' Isotope'),0,WACV) for elem in generalData['AtomTypes']: choices = generalData['Isotopes'][elem].keys() isoSel = wx.ComboBox(General,-1,value=generalData['Isotope'][elem],choices=choices, style=wx.CB_READONLY|wx.CB_DROPDOWN) isoSel.Bind(wx.EVT_COMBOBOX,OnIsotope) Indx[isoSel.GetId()] = elem elemSizer.Add(isoSel,1,WACV|wx.EXPAND) elemSizer.Add(wx.StaticText(General,label=' No. per cell'),0,WACV) for elem in generalData['AtomTypes']: numbTxt = wx.TextCtrl(General,value='%.1f'%(generalData['NoAtoms'][elem]), style=wx.TE_READONLY) numbTxt.SetBackgroundColour(VERY_LIGHT_GREY) elemSizer.Add(numbTxt,0,WACV) elemSizer.Add(wx.StaticText(General,label=' Atom weight'),0,WACV) for wt in generalData['AtomMass']: wtTxt = wx.TextCtrl(General,value='%.3f'%(wt),style=wx.TE_READONLY) wtTxt.SetBackgroundColour(VERY_LIGHT_GREY) elemSizer.Add(wtTxt,0,WACV) elemSizer.Add(wx.StaticText(General,label=' Bond radii'),0,WACV) for rad in generalData['BondRadii']: bondRadii = wx.TextCtrl(General,value='%.2f'%(rad),style=wx.TE_READONLY) bondRadii.SetBackgroundColour(VERY_LIGHT_GREY) elemSizer.Add(bondRadii,0,WACV) elemSizer.Add(wx.StaticText(General,label=' Angle radii'),0,WACV) for rad in generalData['AngleRadii']: elemTxt = wx.TextCtrl(General,value='%.2f'%(rad),style=wx.TE_READONLY) elemTxt.SetBackgroundColour(VERY_LIGHT_GREY) elemSizer.Add(elemTxt,0,WACV) elemSizer.Add(wx.StaticText(General,label=' van der Waals radii'),0,WACV) for rad in generalData['vdWRadii']: elemTxt = wx.TextCtrl(General,value='%.2f'%(rad),style=wx.TE_READONLY) elemTxt.SetBackgroundColour(VERY_LIGHT_GREY) elemSizer.Add(elemTxt,0,WACV) elemSizer.Add(wx.StaticText(General,label=' Default color'),0,WACV) for R,G,B in generalData['Color']: colorTxt = wx.TextCtrl(General,value='',style=wx.TE_READONLY) colorTxt.SetBackgroundColour(wx.Colour(R,G,B)) elemSizer.Add(colorTxt,0,WACV) return elemSizer def DenSizer(): generalData['Mass'] = G2mth.getMass(generalData) density,mattCoeff = G2mth.getDensity(generalData) denSizer = wx.BoxSizer(wx.HORIZONTAL) denSizer.Add(wx.StaticText(General,-1,' Density: '),0,WACV) denTxt = wx.TextCtrl(General,-1,'%.3f'%(density),style=wx.TE_READONLY) denTxt.SetBackgroundColour(VERY_LIGHT_GREY) denSizer.Add(denTxt,0,WACV) mattTxt = None if generalData['Type'] == 'macromolecular' and generalData['Mass'] > 0.0: denSizer.Add(wx.StaticText(General,-1,' Matthews coeff.: '), 0,WACV) mattTxt = wx.TextCtrl(General,-1,'%.3f'%(mattCoeff),style=wx.TE_READONLY) mattTxt.SetBackgroundColour(VERY_LIGHT_GREY) denSizer.Add(mattTxt,0,WACV) return denSizer,denTxt,mattTxt def MagSizer(): def OnSpinOp(event): Obj = event.GetEventObject() isym = Indx[Obj.GetId()] spCode = {'red':-1,'black':1} SGData['SGSpin'][isym] = spCode[Obj.GetValue()] wx.CallAfter(UpdateGeneral) SGData = generalData['SGData'] Indx = {} MagSym = generalData['SGData']['SpGrp'].split() magSizer = wx.BoxSizer(wx.VERTICAL) magSizer.Add(wx.StaticText(General,label=' Magnetic spin operator selection:'),0,WACV) magSizer.Add(wx.StaticText(General,label='NB: UNDER CONSTRUCTION - DO NOT USE'),0,WACV) if not len(GenSym): magSizer.Add(wx.StaticText(General,label=' No spin inversion allowed'),0,WACV) return magSizer spinSizer = wx.BoxSizer(wx.HORIZONTAL) spinColor = ['black','red'] spCode = {-1:'red',1:'black'} for isym,sym in enumerate(GenSym): spinSizer.Add(wx.StaticText(General,label='%s: '%(sym.strip())),0,WACV) spinOp = wx.ComboBox(General,value=spCode[SGData['SGSpin'][isym]],choices=spinColor, style=wx.CB_READONLY|wx.CB_DROPDOWN) Indx[spinOp.GetId()] = isym spinOp.Bind(wx.EVT_COMBOBOX,OnSpinOp) spinSizer.Add(spinOp,0,WACV) MagSym = G2spc.MagSGSym(SGData) spinSizer.Add(wx.StaticText(General,label=' Magnetic space group: '+MagSym),0,WACV) magSizer.Add(spinSizer) return magSizer def PawleySizer(): def OnPawleyRef(event): generalData['doPawley'] = pawlRef.GetValue() def OnPawleyVal(event): event.Skip() try: dmin = float(pawlVal.GetValue()) if 0.25 <= dmin <= 20.: generalData['Pawley dmin'] = dmin except ValueError: pass pawlVal.SetValue("%.5f"%(generalData['Pawley dmin'])) #reset in case of error def OnPawleyNegWt(event): event.Skip() try: wt = float(pawlNegWt.GetValue()) if 0. <= wt <= 1.: generalData['Pawley neg wt'] = wt except ValueError: pass pawlNegWt.SetValue("%.4f"%(generalData['Pawley neg wt'])) #reset in case of error pawleySizer = wx.BoxSizer(wx.HORIZONTAL) pawleySizer.Add(wx.StaticText(General,label=' Pawley controls: '),0,WACV) pawlRef = wx.CheckBox(General,-1,label=' Do Pawley refinement?') pawlRef.SetValue(generalData['doPawley']) pawlRef.Bind(wx.EVT_CHECKBOX,OnPawleyRef) pawleySizer.Add(pawlRef,0,WACV) pawleySizer.Add(wx.StaticText(General,label=' Pawley dmin: '),0,WACV) pawlVal = wx.TextCtrl(General,value='%.5f'%(generalData['Pawley dmin']),style=wx.TE_PROCESS_ENTER) pawlVal.Bind(wx.EVT_TEXT_ENTER,OnPawleyVal) pawlVal.Bind(wx.EVT_KILL_FOCUS,OnPawleyVal) pawleySizer.Add(pawlVal,0,WACV) pawleySizer.Add(wx.StaticText(General,label=' Pawley neg. wt.: '),0,WACV) pawlNegWt = wx.TextCtrl(General,value='%.4f'%(generalData['Pawley neg wt']),style=wx.TE_PROCESS_ENTER) pawlNegWt.Bind(wx.EVT_TEXT_ENTER,OnPawleyNegWt) pawlNegWt.Bind(wx.EVT_KILL_FOCUS,OnPawleyNegWt) pawleySizer.Add(pawlNegWt,0,WACV) return pawleySizer def ModulatedSizer(name): def OnSuperGp(event): #for HKLF needs to reject SSgps not agreeing with modVec! event.Skip() SSymbol = superGp.GetValue() E,SSGData = G2spc.SSpcGroup(generalData['SGData'],SSymbol) if SSGData: Vec = generalData['SuperVec'][0] #(3+1) only modSymb = SSGData['modSymb'] generalData['SuperVec'][0] = G2spc.SSGModCheck(Vec,modSymb)[0] text,table = G2spc.SSGPrint(generalData['SGData'],SSGData) generalData['SSGData'] = SSGData generalData['SuperSg'] = SSymbol msg = 'Superspace Group Information' G2gd.SGMessageBox(General,msg,text,table).Show() else: text = [E+'\nSuperspace Group set to previous'] superGp.SetValue(generalData['SuperSg']) msg = 'Superspace Group Error' Style = wx.ICON_EXCLAMATION Text = '\n'.join(text) wx.MessageBox(Text,caption=msg,style=Style) wx.CallAfter(UpdateGeneral) def OnVec(event): event.Skip() Obj = event.GetEventObject() ind = Indx[Obj.GetId()] val = Obj.GetValue() try: val = min(2.0,max(-1.0,float(val))) except ValueError: val = generalData['SuperVec'][0][ind] generalData['SuperVec'][0][ind] = val Obj.SetValue('%.4f'%(generalData['SuperVec'][0][ind])) def OnVecRef(event): generalData['SuperVec'][1] = Ref.GetValue() def OnMax(event): generalData['SuperVec'][2] = int(Max.GetValue()) Indx = {} ssSizer = wx.BoxSizer(wx.VERTICAL) modSizer = wx.BoxSizer(wx.HORIZONTAL) modSizer.Add(wx.StaticText(General,label=' '+name.capitalize()+' structure controls: '),0,WACV) modSizer.Add(wx.StaticText(General,label=' Superspace group: '+generalData['SGData']['SpGrp']),0,WACV) SSChoice = G2spc.ssdict.get(generalData['SGData']['SpGrp'],[]) if SSChoice: superGp = wx.ComboBox(General,value=generalData['SuperSg'],choices=SSChoice,style=wx.CB_DROPDOWN|wx.TE_PROCESS_ENTER) superGp.Bind(wx.EVT_TEXT_ENTER,OnSuperGp) superGp.Bind(wx.EVT_COMBOBOX,OnSuperGp) else: #nonstandard space group symbol not in my dictionary superGp = wx.TextCtrl(General,value=generalData['SuperSg'],style=wx.TE_PROCESS_ENTER) superGp.Bind(wx.EVT_TEXT_ENTER,OnSuperGp) modSizer.Add(superGp,0,WACV) if PWDR: modSizer.Add(wx.StaticText(General,label=' Max index: '),0,WACV) indChoice = ['1','2','3','4','5','6','7'] Max = wx.ComboBox(General,-1,value='%d'%(generalData['SuperVec'][2]),choices=indChoice, style=wx.CB_READONLY|wx.CB_DROPDOWN) Max.Bind(wx.EVT_COMBOBOX,OnMax) modSizer.Add(Max,0,WACV) ssSizer.Add(modSizer,0,WACV) vecSizer = wx.FlexGridSizer(1,5,5,5) vecSizer.Add(wx.StaticText(General,label=' Modulation vector: '),0,WACV) modS = G2spc.splitSSsym(generalData['SuperSg'])[0] generalData['SuperVec'][0],ifShow = G2spc.SSGModCheck(generalData['SuperVec'][0],modS) vec = generalData['SuperVec'][0] for i,[val,show] in enumerate(zip(generalData['SuperVec'][0],ifShow)): if show: modVal = wx.TextCtrl(General,value=('%.4f'%(val)), size=wx.Size(50,20),style=wx.TE_PROCESS_ENTER) modVal.Bind(wx.EVT_TEXT_ENTER,OnVec) modVal.Bind(wx.EVT_KILL_FOCUS,OnVec) vecSizer.Add(modVal,0,WACV) Indx[modVal.GetId()] = i else: modVal = wx.TextCtrl(General,value=('%.3f'%(val)), size=wx.Size(50,20),style=wx.TE_READONLY) modVal.SetBackgroundColour(VERY_LIGHT_GREY) vecSizer.Add(modVal,0,WACV) if PWDR: Ref = wx.CheckBox(General,label='Refine?') Ref.SetValue(generalData['SuperVec'][1]) Ref.Bind(wx.EVT_CHECKBOX, OnVecRef) vecSizer.Add(Ref,0,WACV) ssSizer.Add(vecSizer) return ssSizer def MapSizer(): def OnMapType(event): Map['MapType'] = mapType.GetValue() def OnRefList(event): dlg = G2G.G2MultiChoiceDialog(G2frame, 'Select reflection sets to use', 'Use data',refsList) try: if dlg.ShowModal() == wx.ID_OK: Map['RefList'] = [refsList[i] for i in dlg.GetSelections()] else: return finally: dlg.Destroy() wx.CallAfter(UpdateGeneral,General.GetScrollPos(wx.VERTICAL)) def OnResVal(event): event.Skip() try: res = float(mapRes.GetValue()) if 0.25 <= res <= 20.: Map['Resolution'] = res except ValueError: pass mapRes.SetValue("%.2f"%(Map['Resolution'])) #reset in case of error def OnCutOff(event): event.Skip() try: res = float(cutOff.GetValue()) if 1.0 <= res <= 100.: Map['cutOff'] = res except ValueError: pass cutOff.SetValue("%.1f"%(Map['cutOff'])) #reset in case of error #patch if 'cutOff' not in Map: Map['cutOff'] = 100.0 mapTypes = ['Fobs','Fcalc','delt-F','2*Fo-Fc','Omit','2Fo-Fc Omit','Patterson'] refsList = data['Histograms'].keys() if not generalData['AtomTypes']: mapTypes = ['Patterson',] Map['MapType'] = 'Patterson' mapSizer = wx.BoxSizer(wx.VERTICAL) lineSizer = wx.BoxSizer(wx.HORIZONTAL) lineSizer.Add(wx.StaticText(General,label=' Fourier map controls: Map type: '),0,WACV) mapType = wx.ComboBox(General,value=Map['MapType'],choices=mapTypes, style=wx.CB_READONLY|wx.CB_DROPDOWN) mapType.Bind(wx.EVT_COMBOBOX,OnMapType) lineSizer.Add(mapType,0,WACV) lineSizer.Add(wx.StaticText(General,label=' Reflection sets: '),0,WACV) if 'list' not in str(type(Map['RefList'])): #patch Map['RefList'] = [Map['RefList'],] lineSizer.Add(wx.ComboBox(General,value=Map['RefList'][0],choices=Map['RefList'], style=wx.CB_DROPDOWN|wx.CB_READONLY),0,WACV) refList = wx.Button(General,label='Select reflection sets') refList.Bind(wx.EVT_BUTTON,OnRefList) lineSizer.Add(refList,0,WACV) mapSizer.Add(lineSizer,0,WACV) line2Sizer = wx.BoxSizer(wx.HORIZONTAL) line2Sizer.Add(wx.StaticText(General,label=' Resolution: '),0,WACV) mapRes = wx.TextCtrl(General,value='%.2f'%(Map['Resolution']),style=wx.TE_PROCESS_ENTER) mapRes.Bind(wx.EVT_TEXT_ENTER,OnResVal) mapRes.Bind(wx.EVT_KILL_FOCUS,OnResVal) line2Sizer.Add(mapRes,0,WACV) line2Sizer.Add(wx.StaticText(General,label=' Peak cutoff %: '),0,WACV) cutOff = wx.TextCtrl(General,value='%.1f'%(Map['cutOff']),style=wx.TE_PROCESS_ENTER) cutOff.Bind(wx.EVT_TEXT_ENTER,OnCutOff) cutOff.Bind(wx.EVT_KILL_FOCUS,OnCutOff) line2Sizer.Add(cutOff,0,WACV) mapSizer.Add(line2Sizer,0,WACV) return mapSizer def FlipSizer(): if 'k-Max' not in Flip: Flip['k-Max'] = 20. def OnRefList(event): dlg = G2G.G2MultiChoiceDialog(G2frame, 'Select reflection sets to use', 'Use data',refsList) try: if dlg.ShowModal() == wx.ID_OK: Flip['RefList'] = [refsList[i] for i in dlg.GetSelections()] else: return finally: dlg.Destroy() wx.CallAfter(UpdateGeneral,General.GetScrollPos(wx.VERTICAL)) def OnNormElem(event): PE = G2elemGUI.PickElement(G2frame,ifNone=True) if PE.ShowModal() == wx.ID_OK: Flip['Norm element'] = PE.Elem.strip() normElem.SetLabel(Flip['Norm element']) PE.Destroy() def OnResVal(event): event.Skip() try: res = float(flipRes.GetValue()) if 0.25 <= res <= 20.: Flip['Resolution'] = res except ValueError: pass flipRes.SetValue("%.2f"%(Flip['Resolution'])) #reset in case of error def OnkFactor(event): event.Skip() try: res = float(kFactor.GetValue()) if 0.1 <= res <= 1.2: Flip['k-factor'] = res except ValueError: pass kFactor.SetValue("%.3f"%(Flip['k-factor'])) #reset in case of error def OnkMax(event): event.Skip() try: res = float(kMax.GetValue()) if res >= 10.: Flip['k-Max'] = res except ValueError: pass kMax.SetValue("%.1f"%(Flip['k-Max'])) #reset in case of error def OnTestHKL(event): event.Skip() Obj = event.GetEventObject() name = Obj.GetName() try: vals = Obj.GetValue().split() id = int(name.split('hkl')[1]) HKL = [int(val) for val in vals] Flip['testHKL'][id] = HKL except ValueError: HKL = Flip['testHKL'][id] Obj.SetValue('%3d %3d %3d'%(HKL[0],HKL[1],HKL[2])) refsList = data['Histograms'].keys() flipSizer = wx.BoxSizer(wx.VERTICAL) lineSizer = wx.BoxSizer(wx.HORIZONTAL) lineSizer.Add(wx.StaticText(General,label=' Charge flip controls: Reflection sets: '),0,WACV) if 'list' not in str(type(Flip['RefList'])): #patch Flip['RefList'] = [Flip['RefList'],] lineSizer.Add(wx.ComboBox(General,value=Flip['RefList'][0],choices=Flip['RefList'], style=wx.CB_DROPDOWN|wx.CB_READONLY),0,WACV) refList = wx.Button(General,label='Select reflection sets') refList.Bind(wx.EVT_BUTTON,OnRefList) lineSizer.Add(refList,0,WACV) lineSizer.Add(wx.StaticText(General,label=' Normalizing element: '),0,WACV) normElem = wx.Button(General,label=Flip['Norm element'],style=wx.TE_READONLY) normElem.Bind(wx.EVT_BUTTON,OnNormElem) lineSizer.Add(normElem,0,WACV) flipSizer.Add(lineSizer,0,WACV) line2Sizer = wx.BoxSizer(wx.HORIZONTAL) line2Sizer.Add(wx.StaticText(General,label=' Resolution: '),0,WACV) flipRes = wx.TextCtrl(General,value='%.2f'%(Flip['Resolution']),style=wx.TE_PROCESS_ENTER) flipRes.Bind(wx.EVT_TEXT_ENTER,OnResVal) flipRes.Bind(wx.EVT_KILL_FOCUS,OnResVal) line2Sizer.Add(flipRes,0,WACV) line2Sizer.Add(wx.StaticText(General,label=' k-Factor (0.1-1.2): '),0,WACV) kFactor = wx.TextCtrl(General,value='%.3f'%(Flip['k-factor']),style=wx.TE_PROCESS_ENTER) kFactor.Bind(wx.EVT_TEXT_ENTER,OnkFactor) kFactor.Bind(wx.EVT_KILL_FOCUS,OnkFactor) line2Sizer.Add(kFactor,0,WACV) line2Sizer.Add(wx.StaticText(General,label=' k-Max (>=10.0): '),0,WACV) kMax = wx.TextCtrl(General,value='%.1f'%(Flip['k-Max']),style=wx.TE_PROCESS_ENTER) kMax.Bind(wx.EVT_TEXT_ENTER,OnkMax) kMax.Bind(wx.EVT_KILL_FOCUS,OnkMax) line2Sizer.Add(kMax,0,WACV) flipSizer.Add(line2Sizer,0,WACV) line3Sizer = wx.BoxSizer(wx.HORIZONTAL) line3Sizer.Add(wx.StaticText(General,label=' Test HKLs:'),0,WACV) if len(Flip['testHKL']) < 5: Flip['testHKL'] += [[1,1,1],[0,2,0],[1,2,3]] HKL = Flip['testHKL'] for ih,hkl in enumerate(Flip['testHKL']): hkl = wx.TextCtrl(General,value='%3d %3d %3d'%(HKL[ih][0],HKL[ih][1],HKL[ih][2]), style=wx.TE_PROCESS_ENTER,name='hkl%d'%(ih)) hkl.Bind(wx.EVT_TEXT_ENTER,OnTestHKL) hkl.Bind(wx.EVT_KILL_FOCUS,OnTestHKL) line3Sizer.Add(hkl,0,WACV) flipSizer.Add(line3Sizer) return flipSizer def MCSASizer(): Ind = {} def OnRefList(event): MCSAdata['Data source'] = refList.GetValue() def OnDmin(event): event.Skip() try: val = float(dmin.GetValue()) if 1.0 <= val < 5.0: MCSAdata['dmin'] = val except ValueError: pass dmin.SetValue("%.3f"%(MCSAdata['dmin'])) #reset in case of error MCSAdata['newDmin'] = True def OnCycles(event): MCSAdata['Cycles'] = int(cycles.GetValue()) def OnAlist(event): MCSAdata['Algorithm'] = Alist.GetValue() wx.CallAfter(UpdateGeneral,General.GetScrollPos(wx.VERTICAL)) def OnSlope(event): event.Skip() try: val = float(slope.GetValue()) if .25 <= val < 1.0: MCSAdata['log slope'] = val except ValueError: pass slope.SetValue("%.3f"%(MCSAdata['log slope'])) #reset in case of error def OnAjump(event): event.Skip() Obj = event.GetEventObject() name,ind = Indx[Obj.GetId()] try: val = float(Obj.GetValue()) if .0 <= val <= 1.0: MCSAdata[name][ind] = val except ValueError: pass Obj.SetValue("%.3f"%(MCSAdata[name][ind])) def OnRanStart(event): MCSAdata['ranStart'] = ranStart.GetValue() def OnAutoRan(event): MCSAdata['autoRan'] = autoRan.GetValue() def OnRanRange(event): event.Skip() try: val = float(ranRange.GetValue())/100 if 0.01 <= val <= 0.99: MCSAdata['ranRange'] = val except ValueError: pass ranRange.SetValue('%.1f'%(MCSAdata['ranRange']*100.)) def OnAnneal(event): event.Skip() Obj = event.GetEventObject() ind,fmt = Indx[Obj.GetId()] if ind == 2: #No. trials try: val = int(Obj.GetValue()) if 1 <= val: MCSAdata['Annealing'][ind] = val except ValueError: Obj.SetValue(fmt%(MCSAdata['Annealing'][ind])) else: try: val = float(Obj.GetValue()) if .0 <= val: MCSAdata['Annealing'][ind] = val Obj.SetValue(fmt%(MCSAdata['Annealing'][ind])) except ValueError: MCSAdata['Annealing'][ind] = None Obj.SetValue(str(MCSAdata['Annealing'][ind])) refList = [] if len(data['Pawley ref']): refList = ['Pawley reflections'] for item in data['Histograms'].keys(): if 'HKLF' in item or 'PWDR' in item: refList.append(item) mcsaSizer = wx.BoxSizer(wx.VERTICAL) lineSizer = wx.BoxSizer(wx.HORIZONTAL) lineSizer.Add(wx.StaticText(General,label=' Monte Carlo/Simulated Annealing controls: Reflection set from: '),0,WACV) refList = wx.ComboBox(General,-1,value=MCSAdata['Data source'],choices=refList, style=wx.CB_READONLY|wx.CB_DROPDOWN) refList.Bind(wx.EVT_COMBOBOX,OnRefList) lineSizer.Add(refList,0,WACV) lineSizer.Add(wx.StaticText(General,label=' d-min: '),0,WACV) dmin = wx.TextCtrl(General,-1,value='%.3f'%(MCSAdata['dmin']),style=wx.TE_PROCESS_ENTER) dmin.Bind(wx.EVT_TEXT_ENTER,OnDmin) dmin.Bind(wx.EVT_KILL_FOCUS,OnDmin) lineSizer.Add(dmin,0,WACV) mcsaSizer.Add(lineSizer) mcsaSizer.Add((5,5),) line2Sizer = wx.BoxSizer(wx.HORIZONTAL) line2Sizer.Add(wx.StaticText(General,label=' MC/SA runs: '),0,WACV) Cchoice = ['1','2','4','8','16','32','64','128','256'] cycles = wx.ComboBox(General,-1,value=str(MCSAdata.get('Cycles',1)),choices=Cchoice, style=wx.CB_READONLY|wx.CB_DROPDOWN) cycles.Bind(wx.EVT_COMBOBOX,OnCycles) line2Sizer.Add(cycles,0,WACV) line2Sizer.Add((5,0),) ranStart = wx.CheckBox(General,-1,label=' MC/SA Refine at ') ranStart.Bind(wx.EVT_CHECKBOX, OnRanStart) ranStart.SetValue(MCSAdata.get('ranStart',False)) line2Sizer.Add(ranStart,0,WACV) ranRange = wx.TextCtrl(General,-1,value='%.1f'%(MCSAdata.get('ranRange',0.10)*100),style=wx.TE_PROCESS_ENTER) ranRange.Bind(wx.EVT_TEXT_ENTER,OnRanRange) ranRange.Bind(wx.EVT_KILL_FOCUS,OnRanRange) line2Sizer.Add(ranRange,0,WACV) line2Sizer.Add(wx.StaticText(General,label='% of ranges. '),0,WACV) # autoRan = wx.CheckBox(General,-1,label=' Do auto range reduction? ') # autoRan.Bind(wx.EVT_CHECKBOX, OnAutoRan) # autoRan.SetValue(MCSAdata.get('autoRan',False)) # line2Sizer.Add(autoRan,0,WACV) mcsaSizer.Add(line2Sizer) mcsaSizer.Add((5,5),) line3Sizer = wx.BoxSizer(wx.HORIZONTAL) Achoice = ['log','fast'] #these work # Achoice = ['log','fast','cauchy','boltzmann'] line3Sizer.Add(wx.StaticText(General,label=' MC/SA schedule: '),0,WACV) Alist = wx.ComboBox(General,-1,value=MCSAdata['Algorithm'],choices=Achoice, style=wx.CB_READONLY|wx.CB_DROPDOWN) Alist.Bind(wx.EVT_COMBOBOX,OnAlist) line3Sizer.Add(Alist,0,WACV) if MCSAdata['Algorithm'] in ['fast','boltzmann','cauchy']: Names = [' A-jump: ',' B-jump: '] parms = 'Jump coeff' if MCSAdata['Algorithm'] in ['boltzmann','cauchy']: Names = [' A-jump: '] elif 'fast' in MCSAdata['Algorithm']: Names = [' quench: ',' m-factor: ',' n-factor: '] parms = 'fast parms' for i,name in enumerate(Names): line3Sizer.Add(wx.StaticText(General,label=name),0,WACV) Ajump = wx.TextCtrl(General,-1,value='%.3f'%(MCSAdata[parms][i]),style=wx.TE_PROCESS_ENTER) Ajump.Bind(wx.EVT_TEXT_ENTER,OnAjump) Ajump.Bind(wx.EVT_KILL_FOCUS,OnAjump) Indx[Ajump.GetId()] = [parms,i] line3Sizer.Add(Ajump,0,WACV) elif 'log' in MCSAdata['Algorithm']: line3Sizer.Add(wx.StaticText(General,label=' slope: '),0,WACV) slope = wx.TextCtrl(General,-1,value='%.3f'%(MCSAdata['log slope']),style=wx.TE_PROCESS_ENTER) slope.Bind(wx.EVT_TEXT_ENTER,OnSlope) slope.Bind(wx.EVT_KILL_FOCUS,OnSlope) line3Sizer.Add(slope,0,WACV) mcsaSizer.Add(line3Sizer) mcsaSizer.Add((5,5),) line3Sizer = wx.BoxSizer(wx.HORIZONTAL) line3Sizer.Add(wx.StaticText(General,label=' Annealing schedule: '),0,WACV) names = [' Start temp: ',' Final temp: ',' No. trials: '] fmts = ['%.1f','%.5f','%d'] for i,[name,fmt] in enumerate(zip(names,fmts)): if MCSAdata['Annealing'][i]: text = fmt%(MCSAdata['Annealing'][i]) else: text = 'None' line3Sizer.Add(wx.StaticText(General,label=name),0,WACV) anneal = wx.TextCtrl(General,-1,value=text,style=wx.TE_PROCESS_ENTER) anneal.Bind(wx.EVT_TEXT_ENTER,OnAnneal) anneal.Bind(wx.EVT_KILL_FOCUS,OnAnneal) Indx[anneal.GetId()] = [i,fmt] line3Sizer.Add(anneal,0,WACV) mcsaSizer.Add(line3Sizer) return mcsaSizer # UpdateGeneral execution continues here if General.GetSizer(): General.GetSizer().Clear(True) mainSizer = wx.BoxSizer(wx.VERTICAL) mainSizer.Add((5,5),0) mainSizer.Add(NameSizer(),0) mainSizer.Add((5,5),0) mainSizer.Add(CellSizer(),0) mainSizer.Add((5,5),0) Indx = {} denSizer = None if len(generalData['AtomTypes']): denSizer = DenSizer() mainSizer.Add(denSizer[0]) mainSizer.Add((5,5),0) mainSizer.Add(ElemSizer()) G2G.HorizontalLine(mainSizer,General) if generalData['Type'] == 'magnetic': GenSym,GenFlg = G2spc.GetGenSym(generalData['SGData']) mainSizer.Add(MagSizer()) G2G.HorizontalLine(mainSizer,General) if generalData['Modulated']: G2frame.dataFrame.GeneralCalc.Enable(G2gd.wxID_SINGLEMCSA,False) G2frame.dataFrame.GeneralCalc.Enable(G2gd.wxID_MULTIMCSA,False) G2frame.dataFrame.GeneralCalc.Enable(G2gd.wxID_4DCHARGEFLIP,True) mainSizer.Add(ModulatedSizer(generalData['Type'])) G2G.HorizontalLine(mainSizer,General) else: G2frame.dataFrame.GeneralCalc.Enable(G2gd.wxID_SINGLEMCSA,True) G2frame.dataFrame.GeneralCalc.Enable(G2gd.wxID_MULTIMCSA,True) G2frame.dataFrame.GeneralCalc.Enable(G2gd.wxID_4DCHARGEFLIP,False) mainSizer.Add(PawleySizer()) G2G.HorizontalLine(mainSizer,General) mainSizer.Add(MapSizer()) G2G.HorizontalLine(mainSizer,General) mainSizer.Add(FlipSizer()) if generalData['Type'] in ['nuclear','macromolecular','faulted',]: G2G.HorizontalLine(mainSizer,General) mainSizer.Add(MCSASizer()) G2frame.dataFrame.SetStatusText('') SetPhaseWindow(G2frame.dataFrame,General,mainSizer,Scroll) def OnTransform(event): dlg = G2gd.TransformDialog(G2frame,data) try: if dlg.ShowModal() == wx.ID_OK: newPhase,Trans,Vec = dlg.GetSelection() else: return finally: dlg.Destroy() phaseName = newPhase['General']['Name'] newPhase = G2lat.TransformPhase(data,newPhase,Trans,Vec) newPhase['General']['Map'] = mapDefault.copy() sub = G2frame.PatternTree.AppendItem(parent= G2gd.GetPatternTreeItemId(G2frame,G2frame.root,'Phases'),text=phaseName) G2frame.PatternTree.SetItemPyData(sub,newPhase) ################################################################################ ##### Atom routines ################################################################################ def FillAtomsGrid(Atoms): '''Display the contents of the Atoms tab ''' def RefreshAtomGrid(event): r,c = event.GetRow(),event.GetCol() if r < 0 and c < 0: for row in range(Atoms.GetNumberRows()): Atoms.SelectRow(row,True) if r < 0: #double click on col label! Change all atoms! sel = -1 noSkip = True if Atoms.GetColLabelValue(c) == 'refine': Type = generalData['Type'] if Type in ['nuclear','macromolecular','faulted',]: choice = ['F - site fraction','X - coordinates','U - thermal parameters'] elif Type in ['magnetic',]: choice = ['F - site fraction','X - coordinates','U - thermal parameters','M - magnetic moment'] dlg = wx.MultiChoiceDialog(G2frame,'Select','Refinement controls',choice) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelections() parms = '' for x in sel: parms += choice[x][0] dlg.Destroy() elif Atoms.GetColLabelValue(c) == 'I/A': choice = ['Isotropic','Anisotropic'] dlg = wx.SingleChoiceDialog(G2frame,'Select','Thermal Motion',choice) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelection() parms = choice[sel][0] dlg.Destroy() elif Atoms.GetColLabelValue(c) == 'Type': choice = generalData['AtomTypes'] dlg = wx.SingleChoiceDialog(G2frame,'Select','Atom types',choice) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelection() parms = choice[sel] noSkip = False Atoms.ClearSelection() for row in range(Atoms.GetNumberRows()): if parms == atomData[row][c]: Atoms.SelectRow(row,True) dlg.Destroy() SetupGeneral() elif Atoms.GetColLabelValue(c) == 'residue': choice = [] for r in range(Atoms.GetNumberRows()): if str(atomData[r][c]) not in choice: choice.append(str(atomData[r][c])) choice.sort() dlg = wx.SingleChoiceDialog(G2frame,'Select','Residue',choice) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelection() parms = choice[sel] noSkip = False Atoms.ClearSelection() for row in range(Atoms.GetNumberRows()): if parms == atomData[row][c]: Atoms.SelectRow(row,True) dlg.Destroy() elif Atoms.GetColLabelValue(c) == 'res no': choice = [] for r in range(Atoms.GetNumberRows()): if str(atomData[r][c]) not in choice: choice.append(str(atomData[r][c])) dlg = wx.SingleChoiceDialog(G2frame,'Select','Residue no.',choice) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelection() parms = choice[sel] noSkip = False Atoms.ClearSelection() for row in range(Atoms.GetNumberRows()): if int(parms) == atomData[row][c]: Atoms.SelectRow(row,True) dlg.Destroy() elif Atoms.GetColLabelValue(c) == 'chain': choice = [] for r in range(Atoms.GetNumberRows()): if atomData[r][c] not in choice: choice.append(atomData[r][c]) dlg = wx.SingleChoiceDialog(G2frame,'Select','Chain',choice) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelection() parms = choice[sel] noSkip = False Atoms.ClearSelection() for row in range(Atoms.GetNumberRows()): if parms == atomData[row][c]: Atoms.SelectRow(row,True) dlg.Destroy() elif Atoms.GetColLabelValue(c) == 'Uiso': #this needs to ask for value pass #& then change all 'I' atoms if sel >= 0 and noSkip: ui = colLabels.index('U11') us = colLabels.index('Uiso') ss = colLabels.index('site sym') for r in range(Atoms.GetNumberRows()): ID = atomData[r][ui+6] if parms != atomData[r][c] and Atoms.GetColLabelValue(c) == 'I/A': if parms == 'A': #'I' --> 'A' Uiso = float(Atoms.GetCellValue(r,us)) sytsym = atomData[r][ss] CSI = G2spc.GetCSuinel(sytsym) atomData[r][ui:ui+6] = Uiso*np.array(CSI[3]) atomData[r][us] = 0.0 Atoms.SetCellStyle(r,us,VERY_LIGHT_GREY,True) for i in range(6): ci = ui+i Atoms.SetCellStyle(r,ci,VERY_LIGHT_GREY,True) if CSI[2][i]: Atoms.SetCellStyle(r,ci,WHITE,False) else: #'A' --> 'I' Uij = atomData[r][ui:ui+6] Uiso = (Uij[0]+Uij[1]+Uij[2])/3.0 atomData[r][us] = Uiso Atoms.SetCellStyle(r,us,WHITE,False) for i in range(6): ci = ui+i atomData[r][ci] = 0.0 Atoms.SetCellStyle(r,ci,VERY_LIGHT_GREY,True) if not Atoms.IsReadOnly(r,c): if Atoms.GetColLabelValue(c) == 'refine': rbExcl = rbAtmDict.get(atomData[r][ui+6],'') if rbExcl: for excl in rbExcl: atomData[r][c] = parms.replace(excl,'') else: atomData[r][c] = parms else: atomData[r][c] = parms if 'Atoms' in data['Drawing']: DrawAtomsReplaceByID(data['Drawing'],ui+6,atomData[r],ID) wx.CallAfter(Paint) def ChangeAtomCell(event): def chkUij(Uij,CSI): #needs to do something!!! return Uij r,c = event.GetRow(),event.GetCol() if r >= 0 and c >= 0: ci = colLabels.index('I/A') ID = atomData[r][ci+8] if Atoms.GetColLabelValue(c) in ['x','y','z']: ci = colLabels.index('x') XYZ = atomData[r][ci:ci+3] if None in XYZ: XYZ = [0,0,0] SScol = colLabels.index('site sym') Mulcol = colLabels.index('mult') E,SGData = G2spc.SpcGroup(generalData['SGData']['SpGrp']) Sytsym,Mult = G2spc.SytSym(XYZ,SGData) atomData[r][SScol] = Sytsym atomData[r][Mulcol] = Mult if atomData[r][colLabels.index('I/A')] == 'A': ui = colLabels.index('U11') CSI = G2spc.GetCSuinel(Sytsym) atomData[r][ui:ui+6] = chkUij(atomData[r][ui:ui+6],Sytsym) for i in range(6): ci = i+ui Atoms.SetCellStyle(r,ci,VERY_LIGHT_GREY,True) if CSI[2][i]: Atoms.SetCellStyle(r,ci,WHITE,False) SetupGeneral() elif Atoms.GetColLabelValue(c) in ['Mx','My','Mz']: pass elif Atoms.GetColLabelValue(c) == 'I/A': #note use of text color to make it vanish! if atomData[r][c] == 'I': Uij = atomData[r][c+2:c+8] atomData[r][c+1] = (Uij[0]+Uij[1]+Uij[2])/3.0 Atoms.SetCellStyle(r,c+1,WHITE,False) Atoms.SetCellTextColour(r,c+1,BLACK) for i in range(6): ci = i+colLabels.index('U11') Atoms.SetCellStyle(r,ci,VERY_LIGHT_GREY,True) Atoms.SetCellTextColour(r,ci,VERY_LIGHT_GREY) atomData[r][ci] = 0.0 else: value = atomData[r][c+1] CSI = G2spc.GetCSuinel(atomData[r][colLabels.index('site sym')]) atomData[r][c+1] = 0.0 Atoms.SetCellStyle(r,c+1,VERY_LIGHT_GREY,True) Atoms.SetCellTextColour(r,c+1,VERY_LIGHT_GREY) for i in range(6): ci = i+colLabels.index('U11') atomData[r][ci] = value*CSI[3][i] Atoms.SetCellStyle(r,ci,VERY_LIGHT_GREY,True) Atoms.SetCellTextColour(r,ci,BLACK) if CSI[2][i]: Atoms.SetCellStyle(r,ci,WHITE,False) elif Atoms.GetColLabelValue(c) in ['U11','U22','U33','U12','U13','U23']: value = atomData[r][c] CSI = G2spc.GetCSuinel(atomData[r][colLabels.index('site sym')]) iUij = CSI[0][c-colLabels.index('U11')] for i in range(6): if iUij == CSI[0][i]: atomData[r][i+colLabels.index('U11')] = value*CSI[1][i] elif Atoms.GetColLabelValue(c) == 'refine': ci = colLabels.index('I/A') atomData[r][c] = atomData[r][c].replace(rbAtmDict.get(atomData[r][ci+8],''),'') if 'Atoms' in data['Drawing']: ci = colLabels.index('I/A') DrawAtomsReplaceByID(data['Drawing'],ci+8,atomData[r],ID) wx.CallAfter(Paint) def AtomTypeSelect(event): r,c = event.GetRow(),event.GetCol() if Atoms.GetColLabelValue(c) == 'Type': PE = G2elemGUI.PickElement(G2frame) if PE.ShowModal() == wx.ID_OK: if PE.Elem != 'None': atomData[r][c] = PE.Elem.strip() name = atomData[r][c] if len(name) in [2,4]: atomData[r][c-1] = name[:2]+'%d'%(r+1) else: atomData[r][c-1] = name[:1]+'%d'%(r+1) PE.Destroy() SetupGeneral() wx.CallAfter(Paint) value = Atoms.GetCellValue(r,c) atomData[r][c] = value ci = colLabels.index('I/A') ID = atomData[r][ci+8] if 'Atoms' in data['Drawing']: DrawAtomsReplaceByID(data['Drawing'],ci+8,atomData[r],ID) SetupGeneral() else: event.Skip() def RowSelect(event): r,c = event.GetRow(),event.GetCol() if not (event.AltDown() or (event.ShiftDown() and event.ControlDown())): Atoms.frm = -1 G2frame.dataFrame.SetStatusText('') if r < 0 and c < 0: if Atoms.IsSelection(): Atoms.ClearSelection() elif c < 0: #only row clicks ci = colLabels.index('I/A') if event.ControlDown() and not event.ShiftDown(): if r in Atoms.GetSelectedRows(): Atoms.DeselectRow(r) else: Atoms.SelectRow(r,True) elif event.ShiftDown() and not event.ControlDown(): indxs = Atoms.GetSelectedRows() Atoms.ClearSelection() ibeg = 0 if indxs: ibeg = indxs[-1] for row in range(ibeg,r+1): Atoms.SelectRow(row,True) elif event.AltDown() or (event.ShiftDown() and event.ControlDown()): if atomData[r][ci+8] in rbAtmDict: G2frame.ErrorDialog('Atom move error','Atoms in rigid bodies can not be moved') Atoms.frm = -1 Atoms.ClearSelection() else: if Atoms.frm < 0: #pick atom to be moved Atoms.frm = r Atoms.SelectRow(r,True) n = colLabels.index('Name') G2frame.dataFrame.SetStatusText('Atom '+atomData[r][n]+' is to be moved') else: #move it item = atomData.pop(Atoms.frm) atomData.insert(r,item) Atoms.frm = -1 G2frame.dataFrame.SetStatusText('') wx.CallAfter(Paint) else: Atoms.ClearSelection() Atoms.SelectRow(r,True) def ChangeSelection(event): r,c = event.GetRow(),event.GetCol() if r < 0 and c < 0: Atoms.ClearSelection() if c < 0: if r in Atoms.GetSelectedRows(): Atoms.DeselectRow(r) else: Atoms.SelectRow(r,True) if r < 0: if c in Atoms.GetSelectedCols(): Atoms.DeselectCol(c) else: Atoms.SelectCol(c,True) def Paint(): table = [] rowLabels = [] for i,atom in enumerate(atomData): table.append(atom) rowLabels.append(str(i)) atomTable = G2G.Table(table,rowLabels=rowLabels,colLabels=colLabels,types=Types) Atoms.SetTable(atomTable, True) Atoms.frm = -1 colType = colLabels.index('Type') colR = colLabels.index('refine') colSS = colLabels.index('site sym') colX = colLabels.index('x') colIA = colLabels.index('I/A') colU11 = colLabels.index('U11') colUiso = colLabels.index('Uiso') attr = wx.grid.GridCellAttr() attr.IncRef() #fix from Jim Hester attr.SetEditor(G2G.GridFractionEditor(Atoms)) for c in range(colX,colX+3): attr = wx.grid.GridCellAttr() attr.IncRef() #fix from Jim Hester attr.SetEditor(G2G.GridFractionEditor(Atoms)) Atoms.SetColAttr(c, attr) for i in range(colU11-1,colU11+6): Atoms.SetColSize(i,50) for row in range(Atoms.GetNumberRows()): atId = atomData[row][colIA+8] rbExcl = rbAtmDict.get(atId,'') Atoms.SetReadOnly(row,colSS,True) #site sym Atoms.SetReadOnly(row,colSS+1,True) #Mult if Atoms.GetCellValue(row,colIA) == 'A': try: #patch for sytsym name changes CSI = G2spc.GetCSuinel(atomData[row][colSS]) except KeyError: Sytsym = G2spc.SytSym(atomData[row][colX:colX+3],SGData)[0] atomData[row][colSS] = Sytsym CSI = G2spc.GetCSuinel(Sytsym) Atoms.SetCellStyle(row,colUiso,VERY_LIGHT_GREY,True) Atoms.SetCellTextColour(row,colUiso,VERY_LIGHT_GREY) for i in range(6): cj = colU11+i Atoms.SetCellTextColour(row,cj,BLACK) Atoms.SetCellStyle(row,cj,VERY_LIGHT_GREY,True) if CSI[2][i] and 'U' not in rbExcl: Atoms.SetCellStyle(row,cj,WHITE,False) else: Atoms.SetCellStyle(row,colUiso,WHITE,False) Atoms.SetCellTextColour(row,colUiso,BLACK) if 'U' in rbExcl: Atoms.SetCellStyle(row,colUiso,VERY_LIGHT_GREY,True) for i in range(6): cj = colU11+i Atoms.SetCellStyle(row,cj,VERY_LIGHT_GREY,True) Atoms.SetCellTextColour(row,cj,VERY_LIGHT_GREY) if 'X' in rbExcl: for c in range(0,colX+3): if c != colR: Atoms.SetCellStyle(row,c,VERY_LIGHT_GREY,True) Atoms.AutoSizeColumns(False) # FillAtomsGrid executable code starts here if not data['Drawing']: #if new drawing - no drawing data! SetupDrawingData() generalData = data['General'] atomData = data['Atoms'] DData = data['Drawing'] resRBData = data['RBModels'].get('Residue',[]) vecRBData = data['RBModels'].get('Vector',[]) rbAtmDict = {} for rbObj in resRBData+vecRBData: exclList = ['X' for i in range(len(rbObj['Ids']))] rbAtmDict.update(dict(zip(rbObj['Ids'],exclList))) if rbObj['ThermalMotion'][0] != 'None': for id in rbObj['Ids']: rbAtmDict[id] += 'U' # exclList will be 'x' or 'xu' if TLS used in RB Items = [G2gd.wxID_ATOMSEDITINSERT,G2gd.wxID_ATOMSEDITDELETE,G2gd.wxID_ATOMSREFINE, G2gd.wxID_ATOMSMODIFY,G2gd.wxID_ATOMSTRANSFORM,G2gd.wxID_MAKEMOLECULE, G2gd.wxID_ATOMVIEWINSERT,G2gd.wxID_ATOMMOVE,G2gd.wxID_ADDHATOM] if atomData: for item in Items: G2frame.dataFrame.AtomsMenu.Enable(item,True) else: for item in Items: G2frame.dataFrame.AtomsMenu.Enable(item,False) Items = [G2gd.wxID_ATOMVIEWINSERT, G2gd.wxID_ATOMSVIEWADD,G2gd.wxID_ATOMMOVE] if 'showABC' in data['Drawing']: for item in Items: G2frame.dataFrame.AtomsMenu.Enable(item,True) else: for item in Items: G2frame.dataFrame.AtomsMenu.Enable(item,False) AAchoice = ": ,ALA,ARG,ASN,ASP,CYS,GLN,GLU,GLY,HIS,ILE,LEU,LYS,MET,PHE,PRO,SER,THR,TRP,TYR,VAL,MSE,HOH,UNK" Types = [wg.GRID_VALUE_STRING,wg.GRID_VALUE_STRING,wg.GRID_VALUE_CHOICE+": ,X,XU,U,F,FX,FXU,FU",]+ \ 3*[wg.GRID_VALUE_FLOAT+':10,5',]+[wg.GRID_VALUE_FLOAT+':10,4', #x,y,z,frac wg.GRID_VALUE_STRING,wg.GRID_VALUE_STRING,wg.GRID_VALUE_CHOICE+":I,A",] Types += 7*[wg.GRID_VALUE_FLOAT+':10,5',] colLabels = ['Name','Type','refine','x','y','z','frac','site sym','mult','I/A','Uiso','U11','U22','U33','U12','U13','U23'] if generalData['Type'] == 'macromolecular': colLabels = ['res no','residue','chain'] + colLabels Types = [wg.GRID_VALUE_STRING, wg.GRID_VALUE_CHOICE+AAchoice, wg.GRID_VALUE_STRING] + Types elif generalData['Type'] == 'magnetic': colLabels = colLabels[:7]+['Mx','My','Mz']+colLabels[7:] Types = Types[:7]+3*[wg.GRID_VALUE_FLOAT+':10,4',]+Types[7:] SGData = data['General']['SGData'] G2frame.dataFrame.SetStatusText('') if SGData['SGPolax']: G2frame.dataFrame.SetStatusText('Warning: The location of the origin is arbitrary in '+SGData['SGPolax']) Atoms.Bind(wg.EVT_GRID_CELL_CHANGE, ChangeAtomCell) Atoms.Bind(wg.EVT_GRID_CELL_LEFT_DCLICK, AtomTypeSelect) Atoms.Bind(wg.EVT_GRID_LABEL_LEFT_DCLICK, RefreshAtomGrid) Atoms.Bind(wg.EVT_GRID_LABEL_LEFT_CLICK, RowSelect) Atoms.Bind(wg.EVT_GRID_LABEL_RIGHT_CLICK, ChangeSelection) Atoms.SetMargins(0,0) G2frame.dataFrame.setSizePosLeft([700,300]) Paint() def OnAtomAdd(event): AtomAdd(0,0,0) FillAtomsGrid(Atoms) event.StopPropagation() if data['Drawing']: G2plt.PlotStructure(G2frame,data) def OnAtomViewAdd(event): try: drawData = data['Drawing'] x,y,z = drawData['viewPoint'][0] AtomAdd(x,y,z) except: AtomAdd(0,0,0) FillAtomsGrid(Atoms) event.StopPropagation() data['Drawing']['Atoms'] = [] UpdateDrawAtoms() G2plt.PlotStructure(G2frame,data) def AtomAdd(x,y,z,El='H',Name='UNK'): atomData = data['Atoms'] generalData = data['General'] Ncol = Atoms.GetNumberCols() atId = ran.randint(0,sys.maxint) E,SGData = G2spc.SpcGroup(generalData['SGData']['SpGrp']) Sytsym,Mult = G2spc.SytSym([x,y,z],SGData) if generalData['Type'] == 'macromolecular': atomData.append([0,Name,'',Name,El,'',x,y,z,1.,Sytsym,Mult,'I',0.10,0,0,0,0,0,0,atId]) elif generalData['Type'] in ['nuclear','faulted',]: if generalData['Modulated']: atomData.append([Name,El,'',x,y,z,1.,Sytsym,Mult,'I',0.01,0,0,0,0,0,0,atId,[],[], {'SS1':{'waveType':'Fourier','Sfrac':[],'Spos':[],'Sadp':[],'Smag':[]}}]) else: atomData.append([Name,El,'',x,y,z,1.,Sytsym,Mult,'I',0.01,0,0,0,0,0,0,atId]) elif generalData['Type'] == 'magnetic': if generalData['Modulated']: atomData.append([Name,El,'',x,y,z,1.,0.,0.,0.,Sytsym,Mult,'I',0.01,0,0,0,0,0,0,atId,[],[], {'SS1':{'waveType':'Fourier','Sfrac':[],'Spos':[],'Sadp':[],'Smag':[]}}]) else: atomData.append([Name,El,'',x,y,z,1.,0.,0.,0.,Sytsym,Mult,'I',0.01,0,0,0,0,0,0,atId]) SetupGeneral() data['Drawing']['Atoms'] = [] UpdateDrawAtoms() G2plt.PlotStructure(G2frame,data) # if 'Atoms' in data['Drawing']: # DrawAtomAdd(data['Drawing'],atomData[-1]) def OnAtomInsert(event): indx = Atoms.GetSelectedRows() if indx: AtomInsert(indx[0],0,0,0) FillAtomsGrid(Atoms) event.StopPropagation() data['Drawing']['Atoms'] = [] UpdateDrawAtoms() G2plt.PlotStructure(G2frame,data) def OnAtomViewInsert(event): if 'Drawing' in data: drawData = data['Drawing'] x,y,z = drawData['viewPoint'][0] AtomAdd(x,y,z) FillAtomsGrid(Atoms) event.StopPropagation() def OnHydAtomAdd(event): indx = Atoms.GetSelectedRows() if indx: DisAglCtls = {} generalData = data['General'] if 'DisAglCtls' in generalData: DisAglCtls = generalData['DisAglCtls'] if 'H' not in DisAglCtls['AtomTypes']: DisAglCtls['AtomTypes'].append('H') DisAglCtls['AngleRadii'].append(0.5) DisAglCtls['BondRadii'].append(0.5) dlg = G2gd.DisAglDialog(G2frame,DisAglCtls,generalData,Reset=False) if dlg.ShowModal() == wx.ID_OK: DisAglCtls = dlg.GetData() else: dlg.Destroy() return dlg.Destroy() generalData['DisAglCtls'] = DisAglCtls cx,ct,cs,cia = generalData['AtomPtrs'] atomData = data['Atoms'] AtNames = [atom[ct-1] for atom in atomData] AtLookUp = G2mth.FillAtomLookUp(atomData,cia+8) Neigh = [] AddHydIds = [] for ind in indx: atom = atomData[ind] if atom[ct] not in ['C','N','O']: continue neigh = [atom[ct-1],G2mth.FindNeighbors(data,atom[ct-1],AtNames),0] if len(neigh[1][0]) > 3 or (atom[ct] == 'O' and len(neigh[1][0]) > 1): continue nH = 1 #for O atom if atom[ct] in ['C','N']: nH = 4-len(neigh[1][0]) bonds = {item[0]:item[1:] for item in neigh[1][0]} nextName = '' if len(bonds) == 1: nextName = bonds.keys()[0] for bond in bonds: if 'C' in atom[ct]: if 'C' in bond and bonds[bond][0] < 1.42: nH -= 1 break elif 'O' in bond and bonds[bond][0] < 1.3: nH -= 1 break elif 'O' in atom[ct] and 'C' in bonds and bonds[bond][0] < 1.3: nH -= 1 break nextneigh = [] if nextName: nextneigh = G2mth.FindNeighbors(data,nextName,AtNames,notName=neigh[0]) if nextneigh[0]: neigh[1][1].append(nextneigh[1][1][0]) neigh[2] = max(0,nH) #set expected no. H's needed if len(neigh[1][0]): AddHydIds.append(neigh[1][1]) Neigh.append(neigh) if Neigh: letters = ['A','B','C'] HydIds = {} mapError = False dlg = G2gd.AddHatomDialog(G2frame,Neigh,data) if dlg.ShowModal() == wx.ID_OK: Nat = len(atomData) Neigh = dlg.GetData() mapData = generalData['Map'] for ineigh,neigh in enumerate(Neigh): AddHydIds[ineigh].append(neigh[2]) loc = AtLookUp[AddHydIds[ineigh][0]]+1 if 'O' in neigh[0] and (not len(mapData['rho']) or not 'delt-F' in mapData['MapType']): mapError = True continue Hxyz,HU = G2mth.AddHydrogens(AtLookUp,generalData,atomData,AddHydIds[ineigh]) for iX,X in enumerate(Hxyz): AtomInsert(loc+iX,X[0],X[1],X[2],'H','H%s'%(neigh[0][1:]+letters[iX])) data['Atoms'][loc+iX][cia+1] = HU[iX] Id = data['Atoms'][loc+iX][cia+8] HydIds[Id] = [iX,AddHydIds[ineigh]] Nat += 1 AtLookUp = G2mth.FillAtomLookUp(atomData,cia+8) if mapError: G2frame.ErrorDialog('Add H atom error','Adding O-H atoms requires delt-F map') SetupGeneral() data['General']['HydIds'].update(HydIds) G2frame.dataFrame.AtomEdit.Enable(G2gd.wxID_UPDATEHATOM,True) data['Drawing']['Atoms'] = [] UpdateDrawAtoms() FillAtomsGrid(Atoms) dlg.Destroy() G2plt.PlotStructure(G2frame,data) else: wx.MessageBox('No candidates found',caption='Add H atom Error',style=wx.ICON_EXCLAMATION) def OnHydAtomUpdate(event): Error = '' generalData = data['General'] cx,ct,cs,cia = generalData['AtomPtrs'] atomData = data['Atoms'] AtLookUp = G2mth.FillAtomLookUp(atomData,cia+8) HydIds = data['General']['HydIds'] delList = [] for HId in HydIds: hydIds = HydIds[HId] num = hydIds[0] Hxyz,HU = G2mth.AddHydrogens(AtLookUp,generalData,atomData,hydIds[1]) try: if data['Atoms'][AtLookUp[HId]][ct] != 'H': raise KeyError data['Atoms'][AtLookUp[HId]][cx:cx+3] = Hxyz[num] data['Atoms'][AtLookUp[HId]][cia+1] = HU[num] except KeyError: delList.append(HId) continue for HId in delList: #clear out deleted H-atom pointers del HydIds[HId] if not len(HydIds): G2frame.dataFrame.AtomEdit.Enable(G2gd.wxID_UPDATEHATOM,False) data['Drawing']['Atoms'] = [] UpdateDrawAtoms() FillAtomsGrid(Atoms) G2plt.PlotStructure(G2frame,data) def OnAtomMove(event): drawData = data['Drawing'] atomData = data['Atoms'] x,y,z = drawData['viewPoint'][0] colLabels = [Atoms.GetColLabelValue(c) for c in range(Atoms.GetNumberCols())] cx = colLabels.index('x') ci = colLabels.index('I/A') indx = Atoms.GetSelectedRows() if len(indx) != 1: G2frame.ErrorDialog('Atom move error','Only one atom can be moved') elif atomData[indx[0]][ci+8] in rbAtmDict: G2frame.ErrorDialog('Atom move error','Atoms in rigid bodies can not be moved') else: atomData[indx[0]][cx:cx+3] = [x,y,z] SetupGeneral() FillAtomsGrid(Atoms) ID = atomData[indx[0]][ci+8] DrawAtomsReplaceByID(data['Drawing'],ci+8,atomData[indx[0]],ID) G2plt.PlotStructure(G2frame,data) event.StopPropagation() def DrawAtomsReplaceByID(drawingData,loc,atom,ID): IDs = [ID,] atomData = drawingData['Atoms'] indx = G2mth.FindAtomIndexByIDs(atomData,loc,IDs) for ind in indx: atomData[ind] = MakeDrawAtom(atom,atomData[ind]) def MakeDrawAtom(atom,oldatom=None): AA3letter = ['ALA','ARG','ASN','ASP','CYS','GLN','GLU','GLY','HIS','ILE', 'LEU','LYS','MET','PHE','PRO','SER','THR','TRP','TYR','VAL','MSE','HOH','WAT','UNK'] AA1letter = ['A','R','N','D','C','Q','E','G','H','I', 'L','K','M','F','P','S','T','W','Y','V','M',' ',' ',' '] generalData = data['General'] SGData = generalData['SGData'] if generalData['Type'] in ['nuclear','faulted',]: if oldatom: opr = oldatom[5] if atom[9] == 'A': X,U = G2spc.ApplyStringOps(opr,SGData,atom[3:6],atom[11:17]) atomInfo = [atom[:2]+list(X)+oldatom[5:9]+atom[9:11]+list(U)+oldatom[17:]][0] else: X = G2spc.ApplyStringOps(opr,SGData,atom[3:6]) atomInfo = [atom[:2]+list(X)+oldatom[5:9]+atom[9:]+oldatom[17:]][0] else: atomInfo = [atom[:2]+atom[3:6]+['1',]+['vdW balls',]+ ['',]+[[255,255,255],]+atom[9:]+[[],[]]][0] ct,cs = [1,8] #type & color elif generalData['Type'] == 'magnetic': atomInfo = [atom[:2]+atom[3:6]+atom[7:10]+['1',]+['vdW balls',]+ ['',]+[[255,255,255],]+atom[12:]+[[],[]]][0] ct,cs = [1,11] #type & color elif generalData['Type'] == 'macromolecular': try: oneLetter = AA3letter.index(atom[1]) except ValueError: oneLetter = -1 atomInfo = [[atom[1].strip()+atom[0],]+ [AA1letter[oneLetter]+atom[0],]+atom[2:5]+ atom[6:9]+['1',]+['sticks',]+['',]+[[255,255,255],]+atom[12:]+[[],[]]][0] ct,cs = [4,11] #type & color atNum = generalData['AtomTypes'].index(atom[ct]) atomInfo[cs] = list(generalData['Color'][atNum]) return atomInfo def AtomInsert(indx,x,y,z,El='H',Name='UNK'): atomData = data['Atoms'] generalData = data['General'] Ncol = Atoms.GetNumberCols() E,SGData = G2spc.SpcGroup(generalData['SGData']['SpGrp']) Sytsym,Mult = G2spc.SytSym([x,y,z],SGData) atId = ran.randint(0,sys.maxint) if generalData['Type'] == 'macromolecular': atomData.insert(indx,[0,Name,'',Name,El,'',x,y,z,1,Sytsym,Mult,'I',0.10,0,0,0,0,0,0,atId]) elif generalData['Type'] in ['nuclear','faulted',]: if generalData['Modulated']: atomData.insert(indx,[Name,El,'',x,y,z,1,Sytsym,Mult,0,'I',0.01,0,0,0,0,0,0,atId,[],[], {'SS1':{'waveType':'Fourier','Sfrac':[],'Spos':[],'Sadp':[],'Smag':[]}}]) else: atomData.insert(indx,[Name,El,'',x,y,z,1,Sytsym,Mult,'I',0.01,0,0,0,0,0,0,atId]) SetupGeneral() data['Drawing']['Atoms'] = [] UpdateDrawAtoms() G2plt.PlotStructure(G2frame,data) def AtomDelete(event): colLabels = [Atoms.GetColLabelValue(c) for c in range(Atoms.GetNumberCols())] HydIds = data['General']['HydIds'] ci = colLabels.index('I/A') indx = Atoms.GetSelectedRows() IDs = [] if indx: atomData = data['Atoms'] indx.reverse() for ind in indx: atom = atomData[ind] if atom[ci+8] in rbAtmDict: G2frame.dataFrame.SetStatusText('**** ERROR - atom is in a rigid body and can not be deleted ****') else: if atom[ci+8] in HydIds: #remove Hs from Hatom update dict del HydIds[atom[ci+8]] IDs.append(atom[ci+8]) del atomData[ind] if 'Atoms' in data['Drawing']: Atoms.ClearSelection() DrawAtomsDeleteByIDs(IDs) data['Drawing']['Atoms'] = [] UpdateDrawAtoms() wx.CallAfter(FillAtomsGrid,Atoms) G2plt.PlotStructure(G2frame,data) SetupGeneral() if not len(HydIds): G2frame.dataFrame.AtomEdit.Enable(G2gd.wxID_UPDATEHATOM,False) event.StopPropagation() def AtomRefine(event): colLabels = [Atoms.GetColLabelValue(c) for c in range(Atoms.GetNumberCols())] c = colLabels.index('refine') indx = Atoms.GetSelectedRows() if indx: atomData = data['Atoms'] generalData = data['General'] Type = generalData['Type'] choice = ['F - site fraction','X - coordinates','U - thermal parameters'] dlg = wx.MultiChoiceDialog(G2frame,'Select','Refinement controls',choice) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelections() parms = '' for x in sel: parms += choice[x][0] for r in indx: if not Atoms.IsReadOnly(r,c): atomData[r][c] = parms Atoms.ForceRefresh() dlg.Destroy() def AtomModify(event): indx = Atoms.GetSelectedRows() if indx: atomData = data['Atoms'] generalData = data['General'] colLabels = [Atoms.GetColLabelValue(c) for c in range(Atoms.GetNumberCols())] ci = colLabels.index('I/A') choices = ['Type','Name','x','y','z','frac','I/A','Uiso'] dlg = wx.SingleChoiceDialog(G2frame,'Select','Atom parameter',choices) parm = '' if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelection() parm = choices[sel] cid = colLabels.index(parm) dlg.Destroy() if parm in ['Type']: dlg = G2elemGUI.PickElement(G2frame) if dlg.ShowModal() == wx.ID_OK: if dlg.Elem not in ['None']: El = dlg.Elem.strip() for r in indx: if not Atoms.IsReadOnly(r,cid): atomData[r][cid] = El if len(El) in [2,4]: atomData[r][cid-1] = El[:2]+'%d'%(r+1) else: atomData[r][cid-1] = El[:1]+'%d'%(r+1) SetupGeneral() if 'Atoms' in data['Drawing']: for r in indx: ID = atomData[r][ci+8] DrawAtomsReplaceByID(data['Drawing'],ci+8,atomData[r],ID) FillAtomsGrid(Atoms) dlg.Destroy() elif parm in ['Name',]: dlg = wx.MessageDialog(G2frame,'Do you really want to rename the selected atoms?','Rename', wx.YES_NO | wx.ICON_QUESTION) try: result = dlg.ShowModal() if result == wx.ID_YES: for r in indx: if not Atoms.IsReadOnly(r,cid+1): El = atomData[r][cid+1] if len(El) in [2,4]: atomData[r][cid] = El[:2]+'%d'%(r+1) else: atomData[r][cid] = El[:1]+'%d'%(r+1) FillAtomsGrid(Atoms) finally: dlg.Destroy() elif parm in ['I/A']: choices = ['Isotropic','Anisotropic'] dlg = wx.SingleChoiceDialog(G2frame,'Select','Thermal parameter model',choices) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelection() parm = choices[sel][0] for r in indx: if not Atoms.IsReadOnly(r,cid): atomData[r][cid] = parm FillAtomsGrid(Atoms) dlg.Destroy() elif parm in ['frac','Uiso']: limits = [0.,1.] val = 1.0 if parm in ['Uiso']: limits = [0.,0.25] val = 0.01 dlg = G2G.SingleFloatDialog(G2frame,'New value','Enter new value for '+parm,val,limits) if dlg.ShowModal() == wx.ID_OK: parm = dlg.GetValue() for r in indx: if not Atoms.IsReadOnly(r,cid): atomData[r][cid] = parm SetupGeneral() FillAtomsGrid(Atoms) dlg.Destroy() elif parm in ['x','y','z']: limits = [-1.,1.] val = 0. dlg = G2G.SingleFloatDialog(G2frame,'Atom shift','Enter shift for '+parm,val,limits) if dlg.ShowModal() == wx.ID_OK: parm = dlg.GetValue() for r in indx: if not Atoms.IsReadOnly(r,cid): atomData[r][cid] += parm SetupGeneral() FillAtomsGrid(Atoms) dlg.Destroy() data['Drawing']['Atoms'] = [] UpdateDrawAtoms() G2plt.PlotStructure(G2frame,data) else: print "select one or more rows of atoms" G2frame.ErrorDialog('Select atom',"select one or more atoms then redo") def AtomTransform(event): indx = Atoms.GetSelectedRows() if indx: generalData = data['General'] colLabels = [Atoms.GetColLabelValue(c) for c in range(Atoms.GetNumberCols())] cx = colLabels.index('x') cuia = colLabels.index('I/A') cuij = colLabels.index('U11') css = colLabels.index('site sym') atomData = data['Atoms'] SGData = generalData['SGData'] dlg = G2gd.SymOpDialog(G2frame,SGData,True,True) New = False try: if dlg.ShowModal() == wx.ID_OK: Inv,Cent,Opr,Cell,New,Force = dlg.GetSelection() Cell = np.array(Cell) cent = SGData['SGCen'][Cent] M,T = SGData['SGOps'][Opr] for ind in indx: XYZ = np.array(atomData[ind][cx:cx+3]) XYZ = np.inner(M,XYZ)+T if Inv: XYZ = -XYZ XYZ = XYZ+cent+Cell if Force: XYZ,cell = G2spc.MoveToUnitCell(XYZ) Cell += cell if New: atom = copy.copy(atomData[ind]) else: atom = atomData[ind] atom[cx:cx+3] = XYZ atom[css:css+2] = G2spc.SytSym(XYZ,SGData) if atom[cuia] == 'A': Uij = atom[cuij:cuij+6] U = G2spc.Uij2U(Uij) U = np.inner(np.inner(M,U),M) Uij = G2spc.U2Uij(U) atom[cuij:cuij+6] = Uij if New: atomData.append(atom) finally: dlg.Destroy() Atoms.ClearSelection() if New: FillAtomsGrid(Atoms) else: Atoms.ForceRefresh() data['Drawing']['Atoms'] = [] UpdateDrawAtoms() G2plt.PlotStructure(G2frame,data) else: print "select one or more rows of atoms" G2frame.ErrorDialog('Select atom',"select one or more atoms then redo") def AtomRotate(event): Units = {'':np.zeros(3), 'xy':np.array([[i,j,0] for i in range(3) for j in range(3)])-np.array([1,1,0]), 'xz':np.array([[i,0,j] for i in range(3) for j in range(3)])-np.array([1,1,0]), 'yz':np.array([[0,i,j] for i in range(3) for j in range(3)])-np.array([1,1,0]), 'xyz':np.array([[i,j,k] for i in range(3) for j in range(3) for k in range(3)])-np.array([1,1,1])} indx = Atoms.GetSelectedRows() if indx: generalData = data['General'] A,B = G2lat.cell2AB(generalData['Cell'][1:7]) colLabels = [Atoms.GetColLabelValue(c) for c in range(Atoms.GetNumberCols())] cx = colLabels.index('x') cuia = colLabels.index('I/A') #need to not do aniso atoms - stop with error? or force isotropic? css = colLabels.index('site sym') atomData = data['Atoms'] SGData = generalData['SGData'] dlg = G2gd.RotationDialog(G2frame) try: if dlg.ShowModal() == wx.ID_OK: M,T,Expand = dlg.GetSelection() Unit = Units[Expand] for ind in indx: XYZ = np.array(atomData[ind][cx:cx+3]) XYZS = XYZ+Unit XYZS -= T XYZS = np.inner(A,XYZS).T #to Cartesian XYZS = np.inner(M,XYZS).T #rotate XYZS = np.inner(B,XYZS).T+T #back to crystal & translate GSASIIpath.IPyBreak() atomData[ind][cx:cx+3] = XYZ # for unit in Unit: # XYZ = np.copy(np.array(atomData[ind][cx:cx+3])) # XYZ += unit # XYZ -= T # XYZ = np.inner(A,XYZ) #to Cartesian # XYZ = np.inner(M,XYZ) #rotate # XYZ = np.inner(B,XYZ)+T #back to crystal & translate # if np.all(XYZ>=0.) and np.all(XYZ<1.0): # atomData[ind][cx:cx+3] = XYZ ## atom[css:css+2] = G2spc.SytSym(XYZ,SGData) # break finally: dlg.Destroy() Atoms.ClearSelection() Atoms.ForceRefresh() else: print "select one or more rows of atoms" G2frame.ErrorDialog('Select atom',"select one or more atoms then redo") def MakeMolecule(event): indx = Atoms.GetSelectedRows() Oxyz = [] xyz = [] DisAglCtls = {} if len(indx) == 1: generalData = data['General'] if 'DisAglCtls' in generalData: DisAglCtls = generalData['DisAglCtls'] dlg = G2gd.DisAglDialog(G2frame,DisAglCtls,generalData) if dlg.ShowModal() == wx.ID_OK: DisAglCtls = dlg.GetData() else: dlg.Destroy() return dlg.Destroy() generalData['DisAglCtls'] = DisAglCtls atomData = copy.deepcopy(data['Atoms']) result = G2mth.FindMolecule(indx[0],generalData,atomData) if 'str' in str(type(result)): G2frame.ErrorDialog('Assemble molecule',result) else: data['Atoms'] = result Atoms.ClearSelection() data['Drawing']['Atoms'] = [] OnReloadDrawAtoms(event) FillAtomsGrid(Atoms) # G2frame.ErrorDialog('Distance/Angle calculation','try again but do "Reset" to fill in missing atom types') else: print "select one atom" G2frame.ErrorDialog('Select one atom',"select one atom to begin molecule build then redo") def OnDistAnglePrt(event): 'save distances and angles to a file' fp = file(os.path.abspath(os.path.splitext(G2frame.GSASprojectfile)[0]+'.disagl'),'w') OnDistAngle(event,fp=fp) fp.close() def OnDistAngle(event,fp=None): 'Compute distances and angles' indx = Atoms.GetSelectedRows() Oxyz = [] xyz = [] DisAglData = {} DisAglCtls = {} if indx: generalData = data['General'] DisAglData['OrigIndx'] = indx if 'DisAglCtls' in generalData: DisAglCtls = generalData['DisAglCtls'] dlg = G2gd.DisAglDialog(G2frame,DisAglCtls,generalData) if dlg.ShowModal() == wx.ID_OK: DisAglCtls = dlg.GetData() else: dlg.Destroy() return dlg.Destroy() generalData['DisAglCtls'] = DisAglCtls atomData = data['Atoms'] colLabels = [Atoms.GetColLabelValue(c) for c in range(Atoms.GetNumberCols())] cx = colLabels.index('x') cn = colLabels.index('Name') for i,atom in enumerate(atomData): xyz.append([i,]+atom[cn:cn+2]+atom[cx:cx+3]) if i in indx: Oxyz.append([i,]+atom[cn:cn+2]+atom[cx:cx+3]) DisAglData['OrigAtoms'] = Oxyz DisAglData['TargAtoms'] = xyz generalData = data['General'] DisAglData['SGData'] = generalData['SGData'] DisAglData['Cell'] = generalData['Cell'][1:] #+ volume if 'pId' in data: DisAglData['pId'] = data['pId'] DisAglData['covData'] = G2frame.PatternTree.GetItemPyData(G2gd.GetPatternTreeItemId(G2frame,G2frame.root, 'Covariance')) try: if fp: G2stMn.PrintDistAngle(DisAglCtls,DisAglData,fp) else: G2stMn.PrintDistAngle(DisAglCtls,DisAglData) except KeyError: # inside DistAngle for missing atom types in DisAglCtls G2frame.ErrorDialog('Distance/Angle calculation','try again but do "Reset" to fill in missing atom types') else: print "select one or more rows of atoms" G2frame.ErrorDialog('Select atom',"select one or more rows of atoms then redo") def OnIsoDistortCalc(event): '''Compute the ISODISTORT mode values from the current coordinates. Called in response to the (Phase/Atoms tab) AtomCompute "Compute ISODISTORT mode values" menu item, which should be enabled only when Phase['ISODISTORT'] is defined. ''' def _onClose(event): dlg.EndModal(wx.ID_CANCEL) def fmtHelp(item,fullname): helptext = "A new variable" if item[-3]: helptext += " named "+str(item[-3]) helptext += " is a linear combination of the following parameters:\n" first = True for term in item[:-3]: line = '' var = str(term[1]) m = term[0] if first: first = False line += ' = ' else: if m >= 0: line += ' + ' else: line += ' - ' m = abs(m) line += '%.3f*%s '%(m,var) varMean = G2obj.fmtVarDescr(var) helptext += "\n" + line + " ("+ varMean + ")" helptext += '\n\nISODISTORT full name: '+str(fullname) return helptext if 'ISODISTORT' not in data: raise Exception,"Should not happen: 'ISODISTORT' not in data" if len(data.get('Histograms',[])) == 0: G2frame.ErrorDialog( 'No data', 'Sorry, this computation requires that a histogram first be added to the phase' ) return Histograms,Phases = G2frame.GetUsedHistogramsAndPhasesfromTree() # init for constraint # make a lookup table for constraints sub = G2gd.GetPatternTreeItemId(G2frame,G2frame.root,'Constraints') Constraints = G2frame.PatternTree.GetItemPyData(sub) constDict = {} for item in Constraints: if item.startswith('_'): continue for c in Constraints[item]: if c[-1] != 'f' or not c[-3]: continue constDict[c[-3]] = c ISO = data['ISODISTORT'] parmDict,varyList = G2frame.MakeLSParmDict() dlg = wx.Dialog(G2frame,wx.ID_ANY,'ISODISTORT mode values',#size=(630,400), style=wx.DEFAULT_DIALOG_STYLE|wx.RESIZE_BORDER) mainSizer = wx.BoxSizer(wx.VERTICAL) mainSizer.Add(wx.StaticText(dlg,wx.ID_ANY, 'ISODISTORT mode computation for cordinates in phase '+ str(data['General'].get('Name')))) aSizer = wx.BoxSizer(wx.HORIZONTAL) panel1 = wxscroll.ScrolledPanel( dlg, wx.ID_ANY,#size=(100,200), style = wx.TAB_TRAVERSAL|wx.SUNKEN_BORDER) subSizer1 = wx.FlexGridSizer(cols=2,hgap=5,vgap=2) panel2 = wxscroll.ScrolledPanel( dlg, wx.ID_ANY,#size=(100,200), style = wx.TAB_TRAVERSAL|wx.SUNKEN_BORDER) subSizer2 = wx.FlexGridSizer(cols=3,hgap=5,vgap=2) subSizer1.Add(wx.StaticText(panel1,wx.ID_ANY,'Parameter name ')) subSizer1.Add(wx.StaticText(panel1,wx.ID_ANY,' value'),0,wx.ALIGN_RIGHT) subSizer2.Add((-1,-1)) subSizer2.Add(wx.StaticText(panel2,wx.ID_ANY,'Mode name ')) subSizer2.Add(wx.StaticText(panel2,wx.ID_ANY,' value'),0,wx.ALIGN_RIGHT) if 'G2VarList' in ISO: deltaList = [] for gv,Ilbl in zip(ISO['G2VarList'],ISO['IsoVarList']): dvar = gv.varname() var = dvar.replace('::dA','::A') albl = Ilbl[:Ilbl.rfind('_')] v = Ilbl[Ilbl.rfind('_')+1:] pval = ISO['ParentStructure'][albl][['dx','dy','dz'].index(v)] if var in parmDict: cval = parmDict[var][0] else: dlg.EndModal(wx.ID_CANCEL) G2frame.ErrorDialog('Atom not found',"No value found for parameter "+str(var)) return deltaList.append(cval-pval) modeVals = np.inner(ISO['Var2ModeMatrix'],deltaList) for lbl,xyz,var,val,G2var in zip(ISO['IsoVarList'],deltaList, ISO['IsoModeList'],modeVals,ISO['G2ModeList']): if G2var in constDict: ch = G2G.HelpButton(panel2,fmtHelp(constDict[G2var],var)) subSizer2.Add(ch,0,wx.LEFT|wx.RIGHT|WACV|wx.ALIGN_CENTER,1) else: subSizer2.Add((-1,-1)) subSizer1.Add(wx.StaticText(panel1,wx.ID_ANY,str(lbl))) try: value = G2py3.FormatSigFigs(xyz) except TypeError: value = str(xyz) subSizer1.Add(wx.StaticText(panel1,wx.ID_ANY,value),0,wx.ALIGN_RIGHT) subSizer2.Add(wx.StaticText(panel2,wx.ID_ANY,str(var))) try: value = G2py3.FormatSigFigs(val) except TypeError: value = str(val) subSizer2.Add(wx.StaticText(panel2,wx.ID_ANY,value),0,wx.ALIGN_RIGHT) if 'G2OccVarList' in ISO: deltaList = [] for gv,Ilbl in zip(ISO['G2OccVarList'],ISO['OccVarList']): var = gv.varname() albl = Ilbl[:Ilbl.rfind('_')] #v = Ilbl[Ilbl.rfind('_')+1:] pval = ISO['BaseOcc'][albl] if var in parmDict: cval = parmDict[var][0] else: dlg.EndModal(wx.ID_CANCEL) G2frame.ErrorDialog('Atom not found',"No value found for parameter "+str(var)) return deltaList.append(cval-pval) modeVals = np.inner(ISO['Var2OccMatrix'],deltaList) for lbl,xyz,var,val,G2var in zip(ISO['OccVarList'],deltaList, ISO['OccModeList'],modeVals,ISO['G2OccModeList']): if G2var in constDict: ch = G2G.HelpButton(panel2,fmtHelp(constDict[G2var],var)) subSizer2.Add(ch,0,wx.LEFT|wx.RIGHT|WACV|wx.ALIGN_CENTER,1) else: subSizer2.Add((-1,-1)) subSizer1.Add(wx.StaticText(panel1,wx.ID_ANY,str(lbl))) try: value = G2py3.FormatSigFigs(xyz) except TypeError: value = str(xyz) subSizer1.Add(wx.StaticText(panel1,wx.ID_ANY,value),0,wx.ALIGN_RIGHT) #subSizer.Add((10,-1)) subSizer2.Add(wx.StaticText(panel2,wx.ID_ANY,str(var))) try: value = G2py3.FormatSigFigs(val) except TypeError: value = str(val) subSizer2.Add(wx.StaticText(panel2,wx.ID_ANY,value),0,wx.ALIGN_RIGHT) # finish up ScrolledPanel panel1.SetSizer(subSizer1) panel2.SetSizer(subSizer2) panel1.SetAutoLayout(1) panel1.SetupScrolling() panel2.SetAutoLayout(1) panel2.SetupScrolling() # Allow window to be enlarged but not made smaller dlg.SetSizer(mainSizer) w1,l1 = subSizer1.GetSize() w2,l2 = subSizer2.GetSize() panel1.SetMinSize((w1+10,200)) panel2.SetMinSize((w2+20,200)) aSizer.Add(panel1,1, wx.ALL|wx.EXPAND,1) aSizer.Add(panel2,2, wx.ALL|wx.EXPAND,1) mainSizer.Add(aSizer,1, wx.ALL|wx.EXPAND,1) # make OK button btnsizer = wx.BoxSizer(wx.HORIZONTAL) btn = wx.Button(dlg, wx.ID_CLOSE) btn.Bind(wx.EVT_BUTTON,_onClose) btnsizer.Add(btn) mainSizer.Add(btnsizer, 0, wx.ALIGN_CENTER|wx.ALL, 5) mainSizer.Fit(dlg) dlg.SetMinSize(dlg.GetSize()) dlg.ShowModal() dlg.Destroy() def OnReImport(event): generalData = data['General'] cx,ct,cs,cia = generalData['AtomPtrs'] reqrdr = G2frame.dataFrame.ReImportMenuId.get(event.GetId()) rdlist = G2frame.OnImportGeneric(reqrdr, G2frame.ImportPhaseReaderlist,'phase') if len(rdlist) == 0: return # rdlist is only expected to have one element rd = rdlist[0] G2frame.OnFileSave(event) # rd contains all info for a phase PhaseName = rd.Phase['General']['Name'] print 'Read phase '+str(PhaseName)+' from file '+str(G2frame.lastimport) atomData = data['Atoms'] atomNames = [] All = False for atom in atomData: atomNames.append(''.join(atom[:ct+1]).capitalize()) #eliminate spurious differences for atom in rd.Phase['Atoms']: try: idx = atomNames.index(''.join(atom[:ct+1]).capitalize()) #eliminate spurious differences atId = atom[cia+8] atomData[idx][:-1] = atom[:-1] atomData[idx][cia+8] = atId except ValueError: if All: atomData.append(atom) else: dlg = wx.MessageDialog(G2frame,'Some atoms not in List; do you want to append them all', \ 'Unknown atom '+atom[0],wx.YES_NO|wx.ICON_QUESTION) try: result = dlg.ShowModal() if result in [wx.ID_YES,]: All = True atomData.append(atom) else: print atom[:ct+1], 'not in Atom array; not updated' finally: dlg.Destroy() SetupGeneral() wx.CallAfter(FillAtomsGrid,Atoms) ################################################################################ #### Layer Data page ################################################################################ def UpdateLayerData(Scroll=0): laueChoice = ['-1','2/m(ab)','2/m(c)','mmm','-3','-3m','4/m','4/mmm', '6/m','6/mmm','unknown'] colLabels = ['Name','Type','x','y','z','frac','Uiso'] transLabels = ['Prob','Dx','Dy','Dz','refine','plot'] colTypes = [wg.GRID_VALUE_STRING,wg.GRID_VALUE_STRING,]+ \ 3*[wg.GRID_VALUE_FLOAT+':10,5',]+2*[wg.GRID_VALUE_FLOAT+':10,4',] #x,y,z,frac,Uiso transTypes = [wg.GRID_VALUE_FLOAT+':10,3',]+3*[wg.GRID_VALUE_FLOAT+':10,5',]+ \ [wg.GRID_VALUE_CHOICE+": ,P,Dx,Dy,Dz",wg.GRID_VALUE_BOOL,] plotDefaults = {'oldxy':[0.,0.],'Quaternion':[0.,0.,0.,1.],'cameraPos':30.,'viewDir':[0,0,1], 'viewPoint':[[0.,0.,0.],[]],} Indx = {} def SetCell(laue,cell): if laue in ['-3','-3m','6/m','6/mmm','4/m','4/mmm']: cell[4] = cell[5] = 90. cell[6] = 120. if laue in ['4/m','4/mmm']: cell[6] = 90. if ObjId == 0: cell[1] = cell[2] = value Obj.SetValue("%.5f"%(cell[1])) else: cell[3] = value Obj.SetValue("%.5f"%(cell[3])) elif laue in ['mmm']: cell[ObjId+1] = value cell[4] = cell[5] = cell[6] = 90. Obj.SetValue("%.5f"%(cell[ObjId+1])) elif laue in ['2/m','-1']: cell[4] = cell[5] = 90. if ObjId != 3: cell[ObjId+1] = value Obj.SetValue("%.5f"%(cell[ObjId+1])) else: cell[6] = value Obj.SetValue("%.3f"%(cell[6])) cell[7] = G2lat.calc_V(G2lat.cell2A(cell[1:7])) def OnLaue(event): Obj = event.GetEventObject() data['Layers']['Laue'] = Obj.GetValue() wx.CallAfter(UpdateLayerData) def OnToler(event): #used when Laue = unknown event.Skip() try: val = float(toler.GetValue()) except ValueError: val = Layers['Toler'] Layers['Toler'] = val toler.SetValue('%.3f'%(Layers['Toler'])) def OnSadpPlot(event): sadpPlot.SetValue(False) labels = Layers['Sadp']['Plane'] lmax = float(Layers['Sadp']['Lmax']) XY = 2*lmax*np.mgrid[0:256:256j,0:256:256j]/256.-lmax G2frame.Cmax = 1.0 G2plt.PlotXYZ(G2frame,XY,Layers['Sadp']['Img'].T,labelX=labels[:-1], labelY=labels[-1],newPlot=False,Title=Layers['Sadp']['Plane']) def OnSeqPlot(event): seqPlot.SetValue(False) resultXY,resultXY2,seqNames = Layers['seqResults'] pName = Layers['seqCodes'][0] G2plt.PlotXY(G2frame,resultXY,XY2=resultXY2,labelX=r'$\mathsf{2\theta}$', labelY='Intensity',newPlot=True,Title='Sequential simulations on '+pName, lines=False,names=seqNames) def CellSizer(): cellGUIlist = [ [['-3','-3m','6/m','6/mmm','4/m','4/mmm'],6,zip([" a = "," c = "],["%.5f","%.5f",],[True,True],[0,2])], [['mmm'],8,zip([" a = "," b = "," c = "],["%.5f","%.5f","%.5f"],[True,True,True],[0,1,2,])], [['2/m(ab)','2/m(c)','-1','axial','unknown'],10,zip([" a = "," b = "," c = "," gamma = "], ["%.5f","%.5f","%.5f","%.3f"],[True,True,True,True],[0,1,2,5])]] def OnCellRef(event): data['Layers']['Cell'][0] = cellRef.GetValue() def OnCellChange(event): event.Skip() laue = data['Layers']['Laue'] cell = data['Layers']['Cell'] Obj = event.GetEventObject() ObjId = cellList.index(Obj.GetId()) try: value = max(1.0,float(Obj.GetValue())) except ValueError: if ObjId < 3: #bad cell edge - reset value = controls[6+ObjId] else: #bad angle value = 90. if laue in ['-3','-3m','6/m','6/mmm','4/m','4/mmm']: cell[4] = cell[5] = 90. cell[6] = 120. if laue in ['4/m','4/mmm']: cell[6] = 90. if ObjId == 0: cell[1] = cell[2] = value Obj.SetValue("%.5f"%(cell[1])) else: cell[3] = value Obj.SetValue("%.5f"%(cell[3])) elif laue in ['mmm']: cell[ObjId+1] = value cell[4] = cell[5] = cell[6] = 90. Obj.SetValue("%.5f"%(cell[ObjId+1])) elif laue in ['2/m','-1']: cell[4] = cell[5] = 90. if ObjId != 3: cell[ObjId+1] = value Obj.SetValue("%.5f"%(cell[ObjId+1])) else: cell[6] = value Obj.SetValue("%.3f"%(cell[6])) cell[7] = G2lat.calc_V(G2lat.cell2A(cell[1:7])) volVal.SetLabel(' Vol = %.3f'%(cell[7])) cell = data['Layers']['Cell'] laue = data['Layers']['Laue'] for cellGUI in cellGUIlist: if laue in cellGUI[0]: useGUI = cellGUI cellSizer = wx.FlexGridSizer(0,useGUI[1]+1,5,5) cellRef = wx.CheckBox(layerData,-1,label='Refine unit cell:') cellSizer.Add(cellRef,0,WACV) cellRef.Bind(wx.EVT_CHECKBOX, OnCellRef) cellRef.SetValue(cell[0]) cellList = [] for txt,fmt,ifEdit,Id in useGUI[2]: cellSizer.Add(wx.StaticText(layerData,label=txt),0,WACV) cellVal = wx.TextCtrl(layerData,value=(fmt%(cell[Id+1])), style=wx.TE_PROCESS_ENTER) cellVal.Bind(wx.EVT_TEXT_ENTER,OnCellChange) cellVal.Bind(wx.EVT_KILL_FOCUS,OnCellChange) cellSizer.Add(cellVal,0,WACV) cellList.append(cellVal.GetId()) volVal = wx.StaticText(layerData,label=' Vol = %.3f'%(cell[7])) cellSizer.Add(volVal,0,WACV) return cellSizer def WidthSizer(): def OnWidthChange(event): event.Skip() Obj = event.GetEventObject() id = Indx[Obj] try: Layers['Width'][0][id] = max(0.005,min(1.0,float(Obj.GetValue()))) except ValueError: pass Obj.SetValue('%.3f'%(Layers['Width'][0][id])) def OnRefWidth(event): id = Indx[event.GetEventObject()] Layers['Width'][1][id] = not Layers['Width'][1][id] Labels = ['a','b'] widths = Layers['Width'][0] flags = Layers['Width'][1] widthSizer = wx.BoxSizer(wx.HORIZONTAL) for i in range(2): widthSizer.Add(wx.StaticText(layerData,label=u' layer width(%s) (<= 1\xb5m): '%(Labels[i])),0,WACV) widthVal = wx.TextCtrl(layerData,value='%.3f'%(widths[i]),style=wx.TE_PROCESS_ENTER) widthVal.Bind(wx.EVT_TEXT_ENTER,OnWidthChange) widthVal.Bind(wx.EVT_KILL_FOCUS,OnWidthChange) Indx[widthVal] = i widthSizer.Add(widthVal,0,WACV) widthRef = wx.CheckBox(layerData,label='Refine?') widthRef.SetValue(flags[i]) Indx[widthRef] = i widthRef.Bind(wx.EVT_CHECKBOX, OnRefWidth) widthSizer.Add(widthRef,0,WACV) return widthSizer def OnNewLayer(event): data['Layers']['Layers'].append({'Name':'Unk','SameAs':'','Symm':'None','Atoms':[]}) Trans = data['Layers']['Transitions'] if len(Trans): Trans.append([[0.,0.,0.,0.,'',False] for trans in Trans]) for trans in Trans: trans.append([0.,0.,0.,0.,'',False]) else: Trans = [[[1.,0.,0.,0.,'',False],],] data['Layers']['Transitions'] = Trans UpdateLayerData() def OnDeleteLast(event): del(data['Layers']['Layers'][-1]) del(data['Layers']['Transitions'][-1]) for trans in data['Layers']['Transitions']: del trans[-1] UpdateLayerData() def OnImportLayer(event): dlg = wx.FileDialog(G2frame, 'Choose GSAS-II project file', wildcard='GSAS-II project file (*.gpx)|*.gpx',style=wx.OPEN| wx.CHANGE_DIR) try: if dlg.ShowModal() == wx.ID_OK: GPXFile = dlg.GetPath() phaseNames = G2strIO.GetPhaseNames(GPXFile) else: return finally: dlg.Destroy() dlg = wx.SingleChoiceDialog(G2frame,'Phase to use for layer','Select',phaseNames) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelection() PhaseName = phaseNames[sel] else: return Phase = G2strIO.GetAllPhaseData(GPXFile,PhaseName) #need cell compatibility check here Layer = {'Name':Phase['General']['Name'],'SameAs':'','Symm':'None'} cx,ct,cs,cia = Phase['General']['AtomPtrs'] atoms = Phase['Atoms'] Atoms = [] for atom in atoms: x,y,z,f = atom[cx:cx+4] u = atom[cia+1] if not u: u = 0.01 Atoms.append([atom[ct-1],atom[ct],x,y,z,f,u]) if atom[ct] not in data['Layers']['AtInfo']: data['Layers']['AtInfo'][atom[ct]] = G2elem.GetAtomInfo(atom[ct]) Layer['Atoms'] = Atoms data['Layers']['Layers'].append(Layer) Trans = data['Layers']['Transitions'] if len(Trans): Trans.append([[0.,0.,0.,0.,'',False] for trans in Trans]) for trans in Trans: trans.append([0.,0.,0.,0.,'',False]) else: Trans = [[[1.,0.,0.,0.,'',False],],] data['Layers']['Transitions'] = Trans UpdateLayerData() def LayerSizer(il,Layer): def OnNameChange(event): event.Skip() Layer['Name'] = layerName.GetValue() UpdateLayerData() def OnAddAtom(event): Layer['Atoms'].append(['Unk','Unk',0.,0.,0.,1.,0.01]) UpdateLayerData() def OnSymm(event): Layer['Symm'] = symm.GetValue() def AtomTypeSelect(event): r,c = event.GetRow(),event.GetCol() if atomGrid.GetColLabelValue(c) == 'Type': PE = G2elemGUI.PickElement(G2frame) if PE.ShowModal() == wx.ID_OK: if PE.Elem != 'None': atType = PE.Elem.strip() Layer['Atoms'][r][c] = atType name = Layer['Atoms'][r][c] if len(name) in [2,4]: Layer['Atoms'][r][c-1] = name[:2]+'%d'%(r+1) else: Layer['Atoms'][r][c-1] = name[:1]+'%d'%(r+1) if atType not in data['Layers']['AtInfo']: data['Layers']['AtInfo'][atType] = G2elem.GetAtomInfo(atType) PE.Destroy() UpdateLayerData() else: event.Skip() def OnDrawLayer(event): drawLayer.SetValue(False) G2plt.PlotLayers(G2frame,Layers,[il,],plotDefaults) def OnSameAs(event): Layer['SameAs'] = sameas.GetValue() wx.CallAfter(UpdateLayerData) layerSizer = wx.BoxSizer(wx.VERTICAL) nameSizer = wx.BoxSizer(wx.HORIZONTAL) nameSizer.Add(wx.StaticText(layerData,label=' Layer name: '),0,WACV) layerName = wx.TextCtrl(layerData,value=Layer['Name'],style=wx.TE_PROCESS_ENTER) layerName.Bind(wx.EVT_TEXT_ENTER,OnNameChange) layerName.Bind(wx.EVT_KILL_FOCUS,OnNameChange) nameSizer.Add(layerName,0,WACV) if il: nameSizer.Add(wx.StaticText(layerData,label=' Same as: '),0,WACV) sameas = wx.ComboBox(layerData,value=Layer['SameAs'],choices=['',]+layerNames[:-1], style=wx.CB_READONLY|wx.CB_DROPDOWN) sameas.Bind(wx.EVT_COMBOBOX, OnSameAs) nameSizer.Add(sameas,0,WACV) if Layer['SameAs']: indx = layerNames.index(Layer['SameAs']) if indx < il: #previously used : same layer layerSizer.Add(nameSizer) return layerSizer nameSizer.Add(wx.StaticText(layerData,label=' Layer symmetry: '),0,WACV) symmChoice = ['-1','None'] symm = wx.ComboBox(layerData,value=Layer['Symm'],choices=symmChoice, style=wx.CB_READONLY|wx.CB_DROPDOWN) symm.Bind(wx.EVT_COMBOBOX,OnSymm) nameSizer.Add(symm,0,WACV) addAtom = wx.CheckBox(layerData,label=' Add atom? ') addAtom.Bind(wx.EVT_CHECKBOX, OnAddAtom) nameSizer.Add(addAtom,0,WACV) drawLayer = wx.CheckBox(layerData,label=' Draw layer? ') drawLayer.Bind(wx.EVT_CHECKBOX, OnDrawLayer) nameSizer.Add(drawLayer,0,WACV) layerSizer.Add(nameSizer) table = [] rowLabels = [] for i,atom in enumerate(Layer['Atoms']): table.append(atom) rowLabels.append(str(i)) atomTable = G2G.Table(table,rowLabels=rowLabels,colLabels=colLabels,types=colTypes) atomGrid = G2G.GSGrid(layerData) atomGrid.SetTable(atomTable,True) atomGrid.SetScrollRate(0,0) #get rid of automatic scroll bars for c in range(2,5): attr = wx.grid.GridCellAttr() attr.IncRef() #fix from Jim Hester attr.SetEditor(G2G.GridFractionEditor(atomGrid)) atomGrid.SetColAttr(c, attr) atomGrid.Bind(wg.EVT_GRID_CELL_LEFT_DCLICK, AtomTypeSelect) atomGrid.AutoSizeColumns(True) layerSizer.Add(atomGrid) return layerSizer def TransSizer(): def PlotSelect(event): Obj = event.GetEventObject() Yi = Indx[Obj.GetId()] Xi,c = event.GetRow(),event.GetCol() if Xi >= 0 and c == 5: #plot column G2plt.PlotLayers(G2frame,Layers,[Yi,Xi,],plotDefaults) else: Psum = 0. for Xi in range(len(transArray)): Psum += transArray[Xi][Xi][0] Psum /= len(transArray) totalFault.SetLabel(' Total fault density = %.3f'%(1.-Psum)) event.Skip() def OnNormProb(event): for Yi,Yname in enumerate(Names): Psum = 0. for Xi,Xname in enumerate(Names): Psum += transArray[Yi][Xi][0] if not Psum: transArray[Yi][0][0] = 1.0 Psum = 1.0 for Xi,Xname in enumerate(Names): transArray[Yi][Xi][0] /= Psum wx.CallAfter(UpdateLayerData) def OnSymProb(event): if symprob.GetValue(): Nx = len(Names)-1 Layers['SymTrans'] = True for Yi,Yname in enumerate(Names): for Xi,Xname in enumerate(Names): if transArray[Nx-Yi][Nx-Xi][0] != transArray[Yi][Xi][0]: Layers['SymTrans'] = False symprob.SetValue(False) wx.MessageBox('%s-%s not equal %s-%s'%(Yname,Xname,Xname,Yname), caption='Probability symmetry error',style=wx.ICON_EXCLAMATION) break else: Layers['SymTrans'] = False transSizer = wx.BoxSizer(wx.VERTICAL) transSizer.Add(wx.StaticText(layerData,label=' Layer-Layer transition probabilities: '),0,WACV) topSizer = wx.BoxSizer(wx.HORIZONTAL) normprob = wx.CheckBox(layerData,label=' Normalize probabilities?') normprob.Bind(wx.EVT_CHECKBOX,OnNormProb) topSizer.Add(normprob,0,WACV) symprob = wx.CheckBox(layerData,label=' Symmetric probabilities?') symprob.SetValue(Layers.get('SymTrans',False)) symprob.Bind(wx.EVT_CHECKBOX,OnSymProb) topSizer.Add(symprob,0,WACV) transSizer.Add(topSizer,0,WACV) Names = [layer['Name'] for layer in Layers['Layers']] transArray = Layers['Transitions'] layerData.transGrids = [] if not Names or not transArray: return transSizer diagSum = 0. for Yi,Yname in enumerate(Names): transSizer.Add(wx.StaticText(layerData,label=' From %s to:'%(Yname)),0,WACV) table = [] rowLabels = [] diagSum += transArray[Yi][Yi][0] for Xi,Xname in enumerate(Names): table.append(transArray[Yi][Xi]) rowLabels.append(Xname) if transArray[Yi][Xi][0] > 0.: Layers['allowedTrans'].append([str(Yi+1),str(Xi+1)]) transTable = G2G.Table(table,rowLabels=rowLabels,colLabels=transLabels,types=transTypes) transGrid = G2G.GSGrid(layerData) transGrid.SetTable(transTable,True) transGrid.SetScrollRate(0,0) #get rid of automatic scroll bars Indx[transGrid.GetId()] = Yi for c in range(0,4): attr = wx.grid.GridCellAttr() attr.IncRef() #fix from Jim Hester attr.SetEditor(G2G.GridFractionEditor(transGrid)) transGrid.SetColAttr(c, attr) transGrid.Bind(wg.EVT_GRID_CELL_LEFT_CLICK, PlotSelect) transGrid.AutoSizeColumns(True) transSizer.Add(transGrid) layerData.transGrids.append(transGrid) if len(transArray): diagSum /= len(transArray) totalFault = wx.StaticText(layerData, label=' Total fault density = %.3f'%(1.-diagSum)) transSizer.Add(totalFault,0,WACV) return transSizer def PlotSizer(): def OnPlotSeq(event): event.Skip() vals = plotSeq.GetValue().split() try: vals = [int(val)-1 for val in vals] if not all([0 <= val < len(Names) for val in vals]): raise ValueError except ValueError: plotSeq.SetValue('Error in string '+plotSeq.GetValue()) return G2plt.PlotLayers(G2frame,Layers,vals,plotDefaults) Names = [' %s: %d,'%(layer['Name'],iL+1) for iL,layer in enumerate(Layers['Layers'])] plotSizer = wx.BoxSizer(wx.VERTICAL) Str = ' Using sequence nos. from:' for name in Names: Str += name plotSizer.Add(wx.StaticText(layerData,label=Str[:-1]),0,WACV) lineSizer = wx.BoxSizer(wx.HORIZONTAL) lineSizer.Add(wx.StaticText(layerData,label=' Enter sequence of layers to plot:'),0,WACV) plotSeq = wx.TextCtrl(layerData,value = '',style=wx.TE_PROCESS_ENTER) plotSeq.Bind(wx.EVT_TEXT_ENTER,OnPlotSeq) plotSeq.Bind(wx.EVT_KILL_FOCUS,OnPlotSeq) lineSizer.Add(plotSeq,0,WACV) plotSizer.Add(lineSizer,0,WACV) return plotSizer def StackSizer(): stackChoice = ['recursive','explicit',] seqChoice = ['random','list',] def OnStackType(event): newType = stackType.GetValue() if newType == data['Layers']['Stacking'][0]: return data['Layers']['Stacking'][0] = newType if newType == 'recursive': data['Layers']['Stacking'][1] = 'infinite' else: #explicit data['Layers']['Stacking'][1] = 'random' data['Layers']['Stacking'][2] = '250' wx.CallAfter(UpdateLayerData) def OnSeqType(event): newType = seqType.GetValue() if newType == data['Layers']['Stacking'][1]: return data['Layers']['Stacking'][1] = newType if newType == 'random': data['Layers']['Stacking'][2] = '250' else: #List data['Layers']['Stacking'][2] = '' wx.CallAfter(UpdateLayerData) def OnNumLayers(event): event.Skip() val = numLayers.GetValue() if val == 'infinite': data['Layers']['Stacking'][1] = val else: try: if 0 < int(val) < 1023: data['Layers']['Stacking'][1] = val else: data['Layers']['Stacking'][1] = 'infinite' except ValueError: pass numLayers.SetValue(data['Layers']['Stacking'][1]) def OnNumRan(event): event.Skip() val = numRan.GetValue() try: if 0 > int(val) > 1022: raise ValueError else: data['Layers']['Stacking'][2] = val except ValueError: val = data['Layers']['Stacking'][2] numRan.SetValue(val) def OnStackList(event): event.Skip() stack = stackList.GetValue() stack = stack.replace('\n',' ').strip().strip('\n') nstar = stack.count('*') if nstar: try: newstack = '' Istar = 0 for star in range(nstar): Istar = stack.index('*',Istar+1) iB = stack[:Istar].rfind(' ') if iB == -1: mult = int(stack[:Istar]) else: mult = int(stack[iB:Istar]) pattern = stack[Istar+2:stack.index(')',Istar)]+' ' newstack += mult*pattern stack = newstack except ValueError: stack += ' Error in string' Slist = stack.split() if len(Slist) < 2: stack = 'Error in sequence - too short!' OKlist = [Slist[i:i+2] in Layers['allowedTrans'] for i in range(len(Slist[:-1]))] if all(OKlist): data['Layers']['Stacking'][2] = stack else: stack = 'Improbable sequence or bad string' stackList.SetValue(stack) stackSizer = wx.BoxSizer(wx.VERTICAL) stackSizer.Add(wx.StaticText(layerData,label=' Layer stacking parameters:'),0,WACV) if not Layers['Stacking']: Layers['Stacking'] = ['recursive','infinite',''] topLine = wx.BoxSizer(wx.HORIZONTAL) topLine.Add(wx.StaticText(layerData,label=' Stacking type: '),0,WACV) stackType = wx.ComboBox(layerData,value=Layers['Stacking'][0],choices=stackChoice, style=wx.CB_READONLY|wx.CB_DROPDOWN) stackType.Bind(wx.EVT_COMBOBOX,OnStackType) topLine.Add(stackType,0,WACV) if Layers['Stacking'][0] == 'recursive': topLine.Add(wx.StaticText(layerData,label=' number of layers (<1022 or "infinite"): '),0,WACV) numLayers = wx.TextCtrl(layerData,value=data['Layers']['Stacking'][1],style=wx.TE_PROCESS_ENTER) numLayers.Bind(wx.EVT_TEXT_ENTER,OnNumLayers) numLayers.Bind(wx.EVT_KILL_FOCUS,OnNumLayers) topLine.Add(numLayers,0,WACV) stackSizer.Add(topLine) elif Layers['Stacking'][0] == 'explicit': topLine.Add(wx.StaticText(layerData,label=' layer sequence: '),0,WACV) seqType = wx.ComboBox(layerData,value=data['Layers']['Stacking'][1],choices=seqChoice, style=wx.CB_READONLY|wx.CB_DROPDOWN) seqType.Bind(wx.EVT_COMBOBOX,OnSeqType) topLine.Add(seqType,0,WACV) if Layers['Stacking'][1] == 'list': stackSizer.Add(topLine,0,WACV) Names = [' %s: %d,'%(layer['Name'],iL+1) for iL,layer in enumerate(Layers['Layers'])] stackSizer.Add(wx.StaticText(layerData,label=' Explicit layer sequence; enter space delimited list of numbers:'),0,WACV) Str = ' Use sequence nos. from:' for name in Names: Str += name stackSizer.Add(wx.StaticText(layerData,label=Str[:-1]+' Repeat sequences can be used: e.g. 6*(1 2) '),0,WACV) stackSizer.Add(wx.StaticText(layerData,label=' Zero probability sequences not allowed'),0,WACV) stackList = wx.TextCtrl(layerData,value=Layers['Stacking'][2],size=(600,-1), style=wx.TE_MULTILINE|wx.TE_PROCESS_ENTER) stackList.Bind(wx.EVT_TEXT_ENTER,OnStackList) stackList.Bind(wx.EVT_KILL_FOCUS,OnStackList) stackSizer.Add(stackList,0,wx.ALL|wx.EXPAND|WACV,8) else: #random topLine.Add(wx.StaticText(layerData,label=' Length of random sequence: '),0,WACV) numRan = wx.TextCtrl(layerData,value=Layers['Stacking'][2],style=wx.TE_PROCESS_ENTER) numRan.Bind(wx.EVT_TEXT_ENTER,OnNumRan) numRan.Bind(wx.EVT_KILL_FOCUS,OnNumRan) topLine.Add(numRan,0,WACV) stackSizer.Add(topLine,0,WACV) return stackSizer Layers = data['Layers'] layerNames = [] Layers['allowedTrans'] = [] if len(Layers['Layers']): layerNames = [layer['Name'] for layer in Layers['Layers']] G2frame.dataFrame.SetStatusText('') layerData = G2frame.layerData if layerData.GetSizer(): layerData.GetSizer().Clear(True) mainSizer = wx.BoxSizer(wx.VERTICAL) topSizer = wx.BoxSizer(wx.VERTICAL) bottomSizer = wx.BoxSizer(wx.VERTICAL) headSizer = wx.BoxSizer(wx.HORIZONTAL) headSizer.Add(wx.StaticText(layerData,label=' Global layer description: '),0,WACV) if 'Sadp' in Layers: sadpPlot = wx.CheckBox(layerData,label=' Plot selected area diffraction?') sadpPlot.Bind(wx.EVT_CHECKBOX,OnSadpPlot) headSizer.Add(sadpPlot,0,WACV) if 'seqResults' in Layers: seqPlot = wx.CheckBox(layerData,label=' Plot sequential result?') seqPlot.Bind(wx.EVT_CHECKBOX,OnSeqPlot) headSizer.Add(seqPlot,0,WACV) topSizer.Add(headSizer) laueSizer = wx.BoxSizer(wx.HORIZONTAL) laueSizer.Add(wx.StaticText(layerData,label=' Diffraction Laue symmetry:'),0,WACV) laue = wx.ComboBox(layerData,value=Layers['Laue'],choices=laueChoice, style=wx.CB_READONLY|wx.CB_DROPDOWN) laue.Bind(wx.EVT_COMBOBOX,OnLaue) laueSizer.Add(laue,0,WACV) if Layers['Laue'] == 'unknown': laueSizer.Add(wx.StaticText(layerData,label=' Diffraction symmetry tolerance: '),0,WACV) toler = wx.TextCtrl(layerData,value='%.3f'%(Layers['Toler']),style=wx.TE_PROCESS_ENTER) toler.Bind(wx.EVT_TEXT_ENTER,OnToler) toler.Bind(wx.EVT_KILL_FOCUS,OnToler) laueSizer.Add(toler,0,WACV) topSizer.Add(laueSizer,0,WACV) topSizer.Add(wx.StaticText(layerData,label=' Reference unit cell for all layers:'),0,WACV) topSizer.Add(CellSizer(),0,WACV) topSizer.Add(WidthSizer()) topSizer.Add(wx.StaticText(layerData,label=' NB: stacking fault refinement currently not available'),0,WACV) G2G.HorizontalLine(topSizer,layerData) titleSizer = wx.BoxSizer(wx.HORIZONTAL) titleSizer.Add(wx.StaticText(layerData,label=' Layer descriptions: '),0,WACV) newLayer = wx.CheckBox(layerData,label=' Add new layer?') newLayer.Bind(wx.EVT_CHECKBOX, OnNewLayer) titleSizer.Add(newLayer,0,WACV) importLayer = wx.CheckBox(layerData,label=' Import new layer?') importLayer.Bind(wx.EVT_CHECKBOX, OnImportLayer) titleSizer.Add(importLayer,0,WACV) deleteLast = wx.CheckBox(layerData,label=' Delete last layer?') deleteLast.Bind(wx.EVT_CHECKBOX, OnDeleteLast) titleSizer.Add(deleteLast,0,WACV) topSizer.Add(titleSizer,0,WACV) for il,layer in enumerate(Layers['Layers']): topSizer.Add(LayerSizer(il,layer)) G2G.HorizontalLine(topSizer,layerData) mainSizer.Add(topSizer) bottomSizer.Add(TransSizer()) G2G.HorizontalLine(bottomSizer,layerData) bottomSizer.Add(PlotSizer(),0,WACV) G2G.HorizontalLine(bottomSizer,layerData) bottomSizer.Add(StackSizer()) mainSizer.Add(bottomSizer) SetPhaseWindow(G2frame.dataFrame,G2frame.layerData,mainSizer,Scroll) def OnCopyPhase(event): dlg = wx.FileDialog(G2frame, 'Choose GSAS-II project file', wildcard='GSAS-II project file (*.gpx)|*.gpx',style=wx.OPEN| wx.CHANGE_DIR) try: if dlg.ShowModal() == wx.ID_OK: GPXFile = dlg.GetPath() phaseNames = G2strIO.GetPhaseNames(GPXFile) else: return finally: dlg.Destroy() dlg = wx.SingleChoiceDialog(G2frame,'Phase to use for cell data','Select',phaseNames) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelection() PhaseName = phaseNames[sel] else: return General = G2strIO.GetAllPhaseData(GPXFile,PhaseName)['General'] data['Layers']['Cell'] = General['Cell'] wx.CallAfter(UpdateLayerData) def OnLoadDIFFaX(event): if len(data['Layers']['Layers']): dlg = wx.MessageDialog(G2frame,'Do you really want to replace the Layer data?','Load DIFFaX file', wx.YES_NO | wx.ICON_QUESTION) try: result = dlg.ShowModal() if result == wx.ID_NO: return finally: dlg.Destroy() dlg = wx.FileDialog(G2frame, 'Choose DIFFaX file name to read', '.', '', 'DIFFaX file (*.*)|*.*',style=wx.OPEN | wx.CHANGE_DIR) try: if dlg.ShowModal() == wx.ID_OK: DIFFaXfile = dlg.GetPath() data['Layers'] = G2IO.ReadDIFFaX(DIFFaXfile) finally: dlg.Destroy() wx.CallAfter(UpdateLayerData) def OnSimulate(event): debug = False #set True to run DIFFax to compare/debug (must be in bin) idebug = 0 if debug: idebug = 1 ctrls = '' dlg = G2gd.DIFFaXcontrols(G2frame,ctrls) if dlg.ShowModal() == wx.ID_OK: simCodes = dlg.GetSelection() else: return if 'PWDR' in simCodes[0]: #powder pattern data['Layers']['selInst'] = simCodes[1] UseList = [] for item in data['Histograms']: if 'PWDR' in item: UseList.append(item) if not UseList: wx.MessageBox('No PWDR data for this phase to simulate',caption='Data error',style=wx.ICON_EXCLAMATION) return dlg = wx.SingleChoiceDialog(G2frame,'Data to simulate','Select',UseList) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelection() HistName = UseList[sel] else: return dlg.Destroy() PWDR = data['Histograms'][HistName] G2frame.PatternId = G2gd.GetPatternTreeItemId(G2frame,G2frame.root,HistName) sample = G2frame.PatternTree.GetItemPyData(G2gd.GetPatternTreeItemId( G2frame,G2frame.PatternId, 'Sample Parameters')) scale = sample['Scale'][0] background = G2frame.PatternTree.GetItemPyData(G2gd.GetPatternTreeItemId( G2frame,G2frame.PatternId, 'Background')) limits = G2frame.PatternTree.GetItemPyData(G2gd.GetPatternTreeItemId( G2frame,G2frame.PatternId, 'Limits'))[1] inst = G2frame.PatternTree.GetItemPyData( G2gd.GetPatternTreeItemId(G2frame,G2frame.PatternId, 'Instrument Parameters'))[0] if 'T' in inst['Type'][0]: wx.MessageBox("Can't simulate neutron TOF patterns yet",caption='Data error',style=wx.ICON_EXCLAMATION) return profile = G2frame.PatternTree.GetItemPyData(G2frame.PatternId)[1] G2pwd.CalcStackingPWDR(data['Layers'],scale,background,limits,inst,profile,debug) if debug: ctrls = '0\n%d\n3\n'%(idebug) G2pwd.StackSim(data['Layers'],ctrls,scale,background,limits,inst,profile) test1 = np.copy(profile[3]) test1 = np.where(test1,test1,1.0) G2pwd.CalcStackingPWDR(data['Layers'],scale,background,limits,inst,profile,debug) test2 = np.copy(profile[3]) rat = test1-test2 XY = np.vstack((profile[0],rat)) G2plt.PlotXY(G2frame,[XY,],XY2=[],labelX=r'$\mathsf{2\theta}$', labelY='difference',newPlot=True,Title='DIFFaX vs GSASII',lines=True) # GSASIIpath.IPyBreak() G2plt.PlotPatterns(G2frame,plotType='PWDR') else: #selected area data['Layers']['Sadp'] = {} data['Layers']['Sadp']['Plane'] = simCodes[1] data['Layers']['Sadp']['Lmax'] = simCodes[2] if debug: planeChoice = ['h0l','0kl','hhl','h-hl',] lmaxChoice = [str(i+1) for i in range(6)] ctrls = '0\n%d\n4\n1\n%d\n%d\n16\n1\n1\n0\nend\n'% \ (idebug,planeChoice.index(simCodes[1])+1,lmaxChoice.index(simCodes[2])+1) G2pwd.StackSim(data['Layers'],ctrls) G2pwd.CalcStackingSADP(data['Layers'],debug) wx.MessageBox('Simulation finished',caption='Stacking fault simulation',style=wx.ICON_EXCLAMATION) wx.CallAfter(UpdateLayerData) def OnSeqSimulate(event): cellSel = ['cellA','cellB','cellC','cellG'] transSel = ['TransP','TransX','TransY','TransZ'] ctrls = '' cell = data['Layers']['Cell'] data['Layers']['seqResults'] = [] data['Layers']['seqCodes'] = [] Parms = G2pwd.GetStackParms(data['Layers']) dlg = G2gd.DIFFaXcontrols(G2frame,ctrls,Parms) if dlg.ShowModal() == wx.ID_OK: simCodes = dlg.GetSelection() else: return UseList = [] for item in data['Histograms']: if 'PWDR' in item: UseList.append(item) if not UseList: wx.MessageBox('No PWDR data for this phase to simulate',caption='Data error',style=wx.ICON_EXCLAMATION) return dlg = wx.SingleChoiceDialog(G2frame,'Data to simulate','Select',UseList) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelection() HistName = UseList[sel] else: return dlg.Destroy() PWDR = data['Histograms'][HistName] G2frame.PatternId = G2gd.GetPatternTreeItemId(G2frame,G2frame.root,HistName) sample = G2frame.PatternTree.GetItemPyData(G2gd.GetPatternTreeItemId( G2frame,G2frame.PatternId, 'Sample Parameters')) scale = sample['Scale'][0] background = G2frame.PatternTree.GetItemPyData(G2gd.GetPatternTreeItemId( G2frame,G2frame.PatternId, 'Background')) limits = G2frame.PatternTree.GetItemPyData(G2gd.GetPatternTreeItemId( G2frame,G2frame.PatternId, 'Limits'))[1] inst = G2frame.PatternTree.GetItemPyData( G2gd.GetPatternTreeItemId(G2frame,G2frame.PatternId, 'Instrument Parameters'))[0] if 'T' in inst['Type'][0]: wx.MessageBox("Can't simulate neutron TOF patterns yet",caption='Data error',style=wx.ICON_EXCLAMATION) return profile = np.copy(G2frame.PatternTree.GetItemPyData(G2frame.PatternId)[1]) resultXY2 = [] resultXY = [np.vstack((profile[0],profile[1])),] #observed data data['Layers']['selInst'] = simCodes[1] data['Layers']['seqCodes'] = simCodes[2:] Layers = copy.deepcopy(data['Layers']) pName = simCodes[2] BegFin = simCodes[3] nSteps = simCodes[4] laue = Layers['Laue'] dStep = (BegFin[1]-BegFin[0])/nSteps vals = np.linspace(BegFin[0],BegFin[1],nSteps+1,True) simNames = [] for val in vals: print ' Stacking simulation step for '+pName+' = %.5f'%(val) simNames.append('%.3f'%(val)) if 'cell' in pName: cellId = cellSel.index(pName) cell = Layers['Cell'] cell[cellId+1] = val if laue in ['-3','-3m','6/m','6/mmm','4/m','4/mmm']: cell[2] = cell[1] cell[7] = G2lat.calc_V(G2lat.cell2A(cell[1:7])) Layers['Cell'] = cell elif 'Trans' in pName: names = pName.split(';') transId = transSel.index(names[0]) iY = int(names[1]) iX = int(names[2]) Trans = Layers['Transitions'][iY] Nx = len(Trans)-1 if not transId: #i.e. probability osum = 1.-Trans[iX][0] nsum = 1.-val for i in range(Nx+1): if i != iX: Trans[i][0] *= (nsum/osum) Trans[iX][0] = val if Layers.get('SymTrans',False): Layers['Transitions'][Nx-iX][Nx-iY][0] = val for i in range(Nx+1): Layers['Transitions'][Nx-iY][Nx-i][0] = Layers['Transitions'][iY][i][0] print ' Transition matrix:' for trans in Layers['Transitions']: line = str([' %.3f'%(vals[0]) for vals in trans]) print line[1:-2].replace("'",'') else: Trans[iX][transId] = val G2pwd.CalcStackingPWDR(Layers,scale,background,limits,inst,profile,False) resultXY2.append([np.vstack((profile[0],profile[3])),][0]) data['Layers']['seqResults'] = [resultXY,resultXY2,simNames] wx.MessageBox('Sequential simulation finished',caption='Stacking fault simulation',style=wx.ICON_EXCLAMATION) wx.CallAfter(UpdateLayerData) ################################################################################ #### Wave Data page ################################################################################ def UpdateWavesData(Scroll=0): generalData = data['General'] cx,ct,cs,cia = generalData['AtomPtrs'] typeNames = {'Sfrac':' Site fraction','Spos':' Position','Sadp':' Thermal motion','Smag':' Magnetic moment'} numVals = {'Sfrac':2,'Spos':6,'Sadp':12,'Smag':6,'ZigZag':5,'Block':5} posNames = ['Xsin','Ysin','Zsin','Xcos','Ycos','Zcos','Tmin','Tmax','Xmax','Ymax','Zmax'] adpNames = ['U11sin','U22sin','U33sin','U12sin','U13sin','U23sin', 'U11cos','U22cos','U33cos','U12cos','U13cos','U23cos'] magNames = ['MXsin','MYsin','MZsin','MXcos','MYcos','MZcos'] fracNames = ['Fsin','Fcos','Fzero','Fwid'] waveTypes = ['Fourier','ZigZag','Block','Crenel/Fourier'] Labels = {'Spos':posNames,'Sfrac':fracNames,'Sadp':adpNames,'Smag':magNames} Indx = {} waveData = G2frame.waveData G2frame.dataFrame.SetStatusText('') generalData = data['General'] SGData = generalData['SGData'] SSGData = generalData['SSGData'] cx,ct,cs,cia = generalData['AtomPtrs'] atomData = data['Atoms'] Map = generalData['Map'] D4Map = generalData['4DmapData'] if waveData.GetSizer(): waveData.GetSizer().Clear(True) mainSizer = wx.BoxSizer(wx.VERTICAL) topSizer = wx.BoxSizer(wx.HORIZONTAL) topSizer.Add(wx.StaticText(waveData,label=' Incommensurate propagation wave data: Select atom to edit: '),0,WACV) atNames = [] for atm in atomData: atNames.append(atm[ct-1]) if not atNames: return if G2frame.atmSel not in atNames: G2frame.atmSel = atNames[0] def OnAtmSel(event): Obj = event.GetEventObject() G2frame.atmSel = Obj.GetValue() RepaintAtomInfo() def RepaintAtomInfo(Scroll=0): # mainSizer.Detach(G2frame.bottomSizer) G2frame.bottomSizer.Clear(True) G2frame.bottomSizer = ShowAtomInfo() mainSizer.Add(G2frame.bottomSizer) Indx = {} mainSizer.Layout() G2frame.dataFrame.Refresh() waveData.SetVirtualSize(mainSizer.GetMinSize()) waveData.Scroll(0,Scroll) G2frame.dataFrame.SendSizeEvent() def ShowAtomInfo(): def AtomSizer(atom): def OnWaveType(event): atom[-1]['SS1']['waveType'] = waveType.GetValue() atom[-1]['SS1']['Spos'] = [] RepaintAtomInfo(G2frame.waveData.GetScrollPos(wx.VERTICAL)) def OnShowWave(event): Obj = event.GetEventObject() atom = Indx[Obj.GetId()] Ax = Obj.GetValue() G2plt.ModulationPlot(G2frame,data,atom,Ax) atomSizer = wx.BoxSizer(wx.HORIZONTAL) atomSizer.Add(wx.StaticText(waveData,label= ' Modulation data for atom: %s Site sym: %s WaveType: '%(atom[0],atom[cs].strip())),0,WACV) waveType = wx.ComboBox(waveData,value=atom[-1]['SS1']['waveType'],choices=waveTypes, style=wx.CB_READONLY|wx.CB_DROPDOWN) waveType.Bind(wx.EVT_COMBOBOX,OnWaveType) atomSizer.Add(waveType,0,WACV) axchoice = ['x','y','z'] if len(D4Map['rho']): atomSizer.Add(wx.StaticText(waveData,label=' Show contour map for axis: '),0,WACV) mapSel = wx.ComboBox(waveData,value=' ',choices=axchoice, style=wx.CB_READONLY|wx.CB_DROPDOWN) mapSel.Bind(wx.EVT_COMBOBOX,OnShowWave) Indx[mapSel.GetId()] = atom atomSizer.Add(mapSel,0,WACV) return atomSizer def WaveSizer(iatm,waveType,waveBlk,Stype,typeName,Names): def OnAddWave(event): Obj = event.GetEventObject() iatm,item = Indx[Obj.GetId()] nt = numVals[Stype] if not len(atomData[iatm][-1]['SS1'][item]) and waveType in ['ZigZag','Block'] and Stype == 'Spos': nt = numVals[waveType] atomData[iatm][-1]['SS1'][item].append([[0.0 for i in range(nt)],False]) RepaintAtomInfo(G2frame.waveData.GetScrollPos(wx.VERTICAL)) def OnWaveVal(event): event.Skip() Obj = event.GetEventObject() iatm,item,iwave,ival = Indx[Obj.GetId()] try: val = float(Obj.GetValue()) if waveType in ['ZigZag','Block'] and Stype == 'Spos' and ival < 2 and not iwave: if ival == 1: #Tmax val = min(1.0,max(0.0,val)) elif ival == 0: #Tmin val = max(-1.,min(val,atomData[iatm][-1]['SS1'][item][iwave][0][1])) except ValueError: val = atomData[iatm][-1]['SS1'][item][iwave][0][ival] Obj.SetValue('%.5f'%val) atomData[iatm][-1]['SS1'][item][iwave][0][ival] = val def OnRefWave(event): Obj = event.GetEventObject() iatm,item,iwave = Indx[Obj.GetId()] atomData[iatm][-1]['SS1'][item][iwave][1] = not atomData[iatm][-1]['SS1'][item][iwave][1] def OnDelWave(event): Obj = event.GetEventObject() iatm,item,iwave = Indx[Obj.GetId()] del atomData[iatm][-1]['SS1'][item][iwave] RepaintAtomInfo(G2frame.waveData.GetScrollPos(wx.VERTICAL)) waveSizer = wx.BoxSizer(wx.VERTICAL) waveHead = wx.BoxSizer(wx.HORIZONTAL) waveHead.Add(wx.StaticText(waveData,label=typeName+' modulation parameters: '),0,WACV) waveAdd = wx.CheckBox(waveData,label='Add wave?') waveAdd.Bind(wx.EVT_CHECKBOX, OnAddWave) Indx[waveAdd.GetId()] = [iatm,Stype] waveHead.Add(waveAdd,0,WACV) waveSizer.Add(waveHead) if len(waveBlk): nx = 0 for iwave,wave in enumerate(waveBlk): if not iwave: if waveType in ['ZigZag','Block']: nx = 1 CSI = G2spc.GetSSfxuinel(waveType,1,xyz,SGData,SSGData) else: CSI = G2spc.GetSSfxuinel('Fourier',iwave+1-nx,xyz,SGData,SSGData) waveName = 'Fourier' if Stype == 'Sfrac': if 'Crenel' in waveType and not iwave: waveName = 'Crenel' names = Names[2:] else: names = Names[:2] Waves = wx.FlexGridSizer(0,4,5,5) elif Stype == 'Spos': if waveType in ['ZigZag','Block'] and not iwave: names = Names[6:] Waves = wx.FlexGridSizer(0,7,5,5) waveName = waveType else: names = Names[:6] Waves = wx.FlexGridSizer(0,8,5,5) else: names = Names Waves = wx.FlexGridSizer(0,8,5,5) waveSizer.Add(wx.StaticText(waveData,label=' %s parameters: %s'%(waveName,str(names).rstrip(']').lstrip('[').replace("'",''))),0,WACV) for ival,val in enumerate(wave[0]): if np.any(CSI[Stype][0][ival]): waveVal = wx.TextCtrl(waveData,value='%.5f'%(val),style=wx.TE_PROCESS_ENTER) waveVal.Bind(wx.EVT_TEXT_ENTER,OnWaveVal) waveVal.Bind(wx.EVT_KILL_FOCUS,OnWaveVal) Indx[waveVal.GetId()] = [iatm,Stype,iwave,ival] else: waveVal = wx.TextCtrl(waveData,value='%.5f'%(val),style=wx.TE_READONLY) waveVal.SetBackgroundColour(VERY_LIGHT_GREY) Waves.Add(waveVal,0,WACV) if len(wave[0]) > 6 and ival == 5: Waves.Add((5,5),0) Waves.Add((5,5),0) waveRef = wx.CheckBox(waveData,label='Refine?') waveRef.SetValue(wave[1]) Indx[waveRef.GetId()] = [iatm,Stype,iwave] waveRef.Bind(wx.EVT_CHECKBOX, OnRefWave) Waves.Add(waveRef,0,WACV) if iwave < len(waveBlk)-1: Waves.Add((5,5),0) else: waveDel = wx.CheckBox(waveData,label='Delete?') Indx[waveDel.GetId()] = [iatm,Stype,iwave] waveDel.Bind(wx.EVT_CHECKBOX, OnDelWave) Waves.Add(waveDel,0,WACV) waveSizer.Add(Waves) return waveSizer iatm = atNames.index(G2frame.atmSel) atm = atomData[iatm] xyz = atm[cx:cx+3] uij = atm[cia+2:cia+8] atomSizer = wx.BoxSizer(wx.VERTICAL) G2G.HorizontalLine(atomSizer,waveData) atomSizer.Add(AtomSizer(atm)) for Stype in ['Sfrac','Spos','Sadp','Smag']: if atm[cia] != 'A' and Stype == 'Sadp': #Uiso can't have modulations! (why not?) continue if generalData['Type'] != 'magnetic' and Stype == 'Smag': break atomSizer.Add(WaveSizer(iatm,atm[-1]['SS1']['waveType'],atm[-1]['SS1'][Stype],Stype,typeNames[Stype],Labels[Stype])) return atomSizer atms = wx.ComboBox(waveData,value=G2frame.atmSel,choices=atNames, style=wx.CB_READONLY|wx.CB_DROPDOWN) atms.Bind(wx.EVT_COMBOBOX,OnAtmSel) topSizer.Add(atms,0,WACV) mainSizer.Add(topSizer,0,WACV) G2frame.bottomSizer = ShowAtomInfo() mainSizer.Add(G2frame.bottomSizer) SetPhaseWindow(G2frame.dataFrame,G2frame.waveData,mainSizer,Scroll) def OnWaveVary(event): generalData = data['General'] cx,ct,cs,cia = generalData['AtomPtrs'] atomData = data['Atoms'] atNames = [] names = ['Sfrac','Spos','Sadp','Smag'] flags = dict(zip(names,[[],[],[],[]])) for atom in atomData: atNames.append(atom[ct-1]) waves = atom[-1]['SS1'] for name in names: if waves[name]: flags[name].append(True) else: flags[name].append(False) dlg = G2G.FlagSetDialog(G2frame,'Wave refinement flags',['Atom',]+names,atNames,flags) try: if dlg.ShowModal() == wx.ID_OK: flags = dlg.GetSelection() for ia,atom in enumerate(atomData): for name in names: for wave in atom[-1]['SS1'][name]: wave[1] = flags[name][ia] finally: dlg.Destroy() UpdateWavesData() ################################################################################ #### Structure drawing GUI stuff ################################################################################ def SetupDrawingData(): generalData = data['General'] Amat,Bmat = G2lat.cell2AB(generalData['Cell'][1:7]) atomData = data['Atoms'] AA3letter = ['ALA','ARG','ASN','ASP','CYS','GLN','GLU','GLY','HIS','ILE', 'LEU','LYS','MET','PHE','PRO','SER','THR','TRP','TYR','VAL','MSE','HOH','WAT','UNK'] AA1letter = ['A','R','N','D','C','Q','E','G','H','I', 'L','K','M','F','P','S','T','W','Y','V','M',' ',' ',' '] defaultDrawing = {'Atoms':[],'viewPoint':[[0.5,0.5,0.5],[]],'showHydrogen':True, 'backColor':[0,0,0],'depthFog':False,'Zclip':50.0,'cameraPos':50.,'Zstep':0.5, 'radiusFactor':0.85,'contourLevel':1.,'bondRadius':0.1,'ballScale':0.33, 'vdwScale':0.67,'ellipseProb':50,'sizeH':0.50,'unitCellBox':True, 'showABC':True,'selectedAtoms':[],'Atoms':[],'oldxy':[], 'bondList':{},'viewDir':[1,0,0]} V0 = np.array([0,0,1]) V = np.inner(Amat,V0) V /= np.sqrt(np.sum(V**2)) A = np.arccos(np.sum(V*V0)) defaultDrawing['Quaternion'] = G2mth.AV2Q(A,[0,1,0]) try: drawingData = data['Drawing'] except KeyError: data['Drawing'] = {} drawingData = data['Drawing'] if not drawingData: #fill with defaults if empty drawingData = defaultDrawing.copy() if 'Zstep' not in drawingData: drawingData['Zstep'] = 0.5 if 'contourLevel' not in drawingData: drawingData['contourLevel'] = 1. if 'viewDir' not in drawingData: drawingData['viewDir'] = [0,0,1] if 'Quaternion' not in drawingData: drawingData['Quaternion'] = G2mth.AV2Q(2*np.pi,np.inner(Amat,[0,0,1])) if 'showRigidBodies' not in drawingData: drawingData['showRigidBodies'] = True cx,ct,cs,ci = [0,0,0,0] if generalData['Type'] in ['nuclear','faulted',]: cx,ct,cs,ci = [2,1,6,17] #x, type, style & index elif generalData['Type'] == 'macromolecular': cx,ct,cs,ci = [5,4,9,20] #x, type, style & index elif generalData['Type'] == 'magnetic': cx,ct,cs,ci = [2,1,9,20] #x, type, style & index drawingData['atomPtrs'] = [cx,ct,cs,ci] if not drawingData.get('Atoms'): for atom in atomData: DrawAtomAdd(drawingData,atom) data['Drawing'] = drawingData def DrawAtomAdd(drawingData,atom): drawingData['Atoms'].append(MakeDrawAtom(atom)) def OnRestraint(event): indx = drawAtoms.GetSelectedRows() restData = G2frame.PatternTree.GetItemPyData( G2gd.GetPatternTreeItemId(G2frame,G2frame.root,'Restraints')) drawingData = data['Drawing'] generalData = data['General'] Amat,Bmat = G2lat.cell2AB(generalData['Cell'][1:7]) cx,ct,cs,ci = drawingData['atomPtrs'] atomData = drawingData['Atoms'] atNames = [] atXYZ = [] atSymOp = [] atIndx = [] for item in indx: atXYZ.append(np.array(atomData[item][cx:cx+3])) atSymOp.append(atomData[item][cs-1]) atIndx.append(atomData[item][ci]) if event.GetId() == G2gd.wxID_DRAWRESTRBOND and len(indx) == 2: try: bondData = restData[PhaseName]['Bond'] except KeyError: bondData = {'wtFactor':1.0,'Bonds':[],'Use':True} restData[PhaseName] = {} restData[PhaseName]['Bond'] = bondData dist = G2mth.getRestDist(atXYZ,Amat) bondData['Bonds'].append([atIndx,atSymOp,1.54,0.01]) elif event.GetId() == G2gd.wxID_DRAWRESTRANGLE and len(indx) == 3: try: angleData = restData[PhaseName]['Angle'] except KeyError: angleData = {'wtFactor':1.0,'Angles':[],'Use':True} restData[PhaseName] = {} restData[PhaseName]['Angle'] = angleData angle = G2mth.getRestAngle(atXYZ,Amat) angleData['Angles'].append([atIndx,atSymOp,109.5,1.0]) elif event.GetId() == G2gd.wxID_DRAWRESTRPLANE and len(indx) > 3: try: planeData = restData[PhaseName]['Plane'] except KeyError: planeData = {'wtFactor':1.0,'Planes':[],'Use':True} restData[PhaseName] = {} restData[PhaseName]['Plane'] = planeData plane = G2mth.getRestPlane(atXYZ,Amat) planeData['Planes'].append([atIndx,atSymOp,0.0,0.01]) elif event.GetId() == G2gd.wxID_DRAWRESTRCHIRAL and len(indx) == 4: try: chiralData = restData[PhaseName]['Chiral'] except KeyError: chiralData = {'wtFactor':1.0,'Volumes':[],'Use':True} restData[PhaseName] = {} restData[PhaseName]['Chiral'] = chiralData volume = G2mth.getRestChiral(atXYZ,Amat) chiralData['Volumes'].append([atIndx,atSymOp,2.5,0.1]) else: print '**** ERROR wrong number of atoms selected for this restraint' return G2frame.PatternTree.SetItemPyData( G2gd.GetPatternTreeItemId(G2frame,G2frame.root,'Restraints'),restData) def OnDefineRB(event): indx = drawAtoms.GetSelectedRows() indx.sort() RBData = G2frame.PatternTree.GetItemPyData( G2gd.GetPatternTreeItemId(G2frame,G2frame.root,'Rigid bodies')) drawingData = data['Drawing'] generalData = data['General'] Amat,Bmat = G2lat.cell2AB(generalData['Cell'][1:7]) cx,ct,cs,ci = drawingData['atomPtrs'] atomData = drawingData['Atoms'] rbXYZ = [] rbType = [] atNames = [] AtInfo = RBData['Residue']['AtInfo'] for i,item in enumerate(indx): rbtype = atomData[item][ct] atNames.append(rbtype+str(i)) rbType.append(rbtype) if rbtype not in AtInfo: Info = G2elem.GetAtomInfo(rbtype) AtInfo[rbtype] = [Info['Drad'],Info['Color']] rbXYZ.append(np.inner(np.array(atomData[item][cx:cx+3]),Amat)) rbXYZ = np.array(rbXYZ) rbXYZ -= rbXYZ[0] rbId = ran.randint(0,sys.maxint) rbName = 'UNKRB' dlg = wx.TextEntryDialog(G2frame,'Enter the name for the new rigid body', 'Edit rigid body name',rbName ,style=wx.OK) if dlg.ShowModal() == wx.ID_OK: rbName = dlg.GetValue() dlg.Destroy() RBData['Residue'][rbId] = {'RBname':rbName,'rbXYZ':rbXYZ,'rbTypes':rbType, 'atNames':atNames,'rbRef':[0,1,2,False],'rbSeq':[],'SelSeq':[0,0],'useCount':0} RBData['RBIds']['Residue'].append(rbId) G2frame.dataFrame.SetStatusText('New rigid body UNKRB added to set of Residue rigid bodies') ################################################################################ ##### Atom draw routines ################################################################################ def UpdateDrawAtoms(atomStyle=''): def RefreshAtomGrid(event): def SetChoice(name,c,n=0): choice = [] for r in range(len(atomData)): if n: srchStr = str(atomData[r][c][:n]) else: srchStr = str(atomData[r][c]) if srchStr not in choice: if n: choice.append(str(atomData[r][c][:n])) else: choice.append(str(atomData[r][c])) choice.sort() dlg = wx.MultiChoiceDialog(G2frame,'Select',name,choice) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelections() parms = [] for x in sel: parms.append(choice[x]) noSkip = False drawAtoms.ClearSelection() drawingData['selectedAtoms'] = [] for row in range(len(atomData)): test = atomData[row][c] if n: test = test[:n] if test in parms: drawAtoms.SelectRow(row,True) drawingData['selectedAtoms'].append(row) G2plt.PlotStructure(G2frame,data) dlg.Destroy() r,c = event.GetRow(),event.GetCol() if r < 0 and c < 0: for row in range(drawAtoms.GetNumberRows()): drawingData['selectedAtoms'].append(row) drawAtoms.SelectRow(row,True) elif r < 0: #dclick on col label sel = -1 Parms = False noSkip = True if drawAtoms.GetColLabelValue(c) == 'Style': dlg = wx.SingleChoiceDialog(G2frame,'Select','Atom drawing style',styleChoice) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelection() parms = styleChoice[sel] for r in range(len(atomData)): atomData[r][c] = parms drawAtoms.SetCellValue(r,c,parms) FindBondsDraw(data) G2plt.PlotStructure(G2frame,data) dlg.Destroy() elif drawAtoms.GetColLabelValue(c) == 'Label': dlg = wx.SingleChoiceDialog(G2frame,'Select','Atom labelling style',labelChoice) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelection() parms = labelChoice[sel] for r in range(len(atomData)): atomData[r][c] = parms drawAtoms.SetCellValue(r,c,parms) dlg.Destroy() elif drawAtoms.GetColLabelValue(c) == 'Color': dlg = wx.ColourDialog(G2frame) if dlg.ShowModal() == wx.ID_OK: color = dlg.GetColourData().GetColour() attr = wg.GridCellAttr() #needs to be here - gets lost if outside loop! attr.SetReadOnly(True) attr.SetBackgroundColour(color) for r in range(len(atomData)): atomData[r][c] = color drawingData['Atoms'][r][c] = color drawAtoms.SetAttr(r,c,attr) UpdateDrawAtoms() dlg.Destroy() elif drawAtoms.GetColLabelValue(c) == 'Residue': SetChoice('Residue',c,3) elif drawAtoms.GetColLabelValue(c) == '1-letter': SetChoice('1-letter',c,1) elif drawAtoms.GetColLabelValue(c) == 'Chain': SetChoice('Chain',c) elif drawAtoms.GetColLabelValue(c) == 'Name': SetChoice('Name',c) elif drawAtoms.GetColLabelValue(c) == 'Sym Op': SetChoice('Name',c) elif drawAtoms.GetColLabelValue(c) == 'Type': SetChoice('Type',c) elif drawAtoms.GetColLabelValue(c) in ['x','y','z','I/A']: drawAtoms.ClearSelection() else: if drawAtoms.GetColLabelValue(c) in ['Style','Label']: atomData[r][c] = drawAtoms.GetCellValue(r,c) FindBondsDraw(data) elif drawAtoms.GetColLabelValue(c) == 'Color': dlg = wx.ColourDialog(G2frame) if dlg.ShowModal() == wx.ID_OK: color = dlg.GetColourData().GetColour() attr = wg.GridCellAttr() #needs to be here - gets lost if outside loop! attr.SetReadOnly(True) attr.SetBackgroundColour(color) atomData[r][c] = color drawingData['Atoms'][r][c] = color drawAtoms.SetAttr(i,cs+2,attr) dlg.Destroy() UpdateDrawAtoms() G2plt.PlotStructure(G2frame,data) def RowSelect(event): r,c = event.GetRow(),event.GetCol() if r < 0 and c < 0: if drawAtoms.IsSelection(): drawAtoms.ClearSelection() elif c < 0: #only row clicks if event.ControlDown(): if r in drawAtoms.GetSelectedRows(): drawAtoms.DeselectRow(r) else: drawAtoms.SelectRow(r,True) elif event.ShiftDown(): indxs = drawAtoms.GetSelectedRows() drawAtoms.ClearSelection() ibeg = 0 if indxs: ibeg = indxs[-1] for row in range(ibeg,r+1): drawAtoms.SelectRow(row,True) else: drawAtoms.ClearSelection() drawAtoms.SelectRow(r,True) drawingData['selectedAtoms'] = [] drawingData['selectedAtoms'] = drawAtoms.GetSelectedRows() G2plt.PlotStructure(G2frame,data) # UpdateDrawAtoms executable code starts here G2frame.dataFrame.SetStatusText('') generalData = data['General'] SetupDrawingData() drawingData = data['Drawing'] cx,ct,cs,ci = drawingData['atomPtrs'] atomData = drawingData['Atoms'] if atomStyle: for atom in atomData: atom[cs] = atomStyle Types = [wg.GRID_VALUE_STRING,wg.GRID_VALUE_STRING,]+3*[wg.GRID_VALUE_FLOAT+':10,5',]+ \ [wg.GRID_VALUE_STRING,wg.GRID_VALUE_CHOICE+": ,lines,vdW balls,sticks,balls & sticks,ellipsoids,polyhedra", wg.GRID_VALUE_CHOICE+": ,type,name,number",wg.GRID_VALUE_STRING,wg.GRID_VALUE_STRING,] styleChoice = [' ','lines','vdW balls','sticks','balls & sticks','ellipsoids','polyhedra'] labelChoice = [' ','type','name','number'] colLabels = ['Name','Type','x','y','z','Sym Op','Style','Label','Color','I/A'] if generalData['Type'] == 'macromolecular': colLabels = ['Residue','1-letter','Chain'] + colLabels Types = 3*[wg.GRID_VALUE_STRING,]+Types Types[8] = wg.GRID_VALUE_CHOICE+": ,lines,vdW balls,sticks,balls & sticks,ellipsoids,backbone,ribbons,schematic" styleChoice = [' ','lines','vdW balls','sticks','balls & sticks','ellipsoids','backbone','ribbons','schematic'] labelChoice = [' ','type','name','number','residue','1-letter','chain'] Types[9] = wg.GRID_VALUE_CHOICE+": ,type,name,number,residue,1-letter,chain" elif generalData['Type'] == 'magnetic': colLabels = colLabels[:5]+['Mx','My','Mz']+colLabels[5:] Types = Types[:5]+3*[wg.GRID_VALUE_FLOAT+':10,4',]+Types[5:] table = [] rowLabels = [] for i,atom in enumerate(drawingData['Atoms']): table.append(atom[:colLabels.index('I/A')+1]) rowLabels.append(str(i)) G2frame.atomTable = G2G.Table(table,rowLabels=rowLabels,colLabels=colLabels,types=Types) drawAtoms.SetTable(G2frame.atomTable, True) drawAtoms.SetMargins(0,0) drawAtoms.AutoSizeColumns(True) drawAtoms.SetColSize(colLabels.index('Style'),80) drawAtoms.SetColSize(colLabels.index('Color'),50) drawAtoms.Bind(wg.EVT_GRID_CELL_CHANGE, RefreshAtomGrid) drawAtoms.Bind(wg.EVT_GRID_LABEL_LEFT_DCLICK, RefreshAtomGrid) drawAtoms.Bind(wg.EVT_GRID_CELL_LEFT_DCLICK, RefreshAtomGrid) drawAtoms.Bind(wg.EVT_GRID_LABEL_LEFT_CLICK, RowSelect) for i,atom in enumerate(drawingData['Atoms']): attr = wg.GridCellAttr() #needs to be here - gets lost if outside loop! attr.SetReadOnly(True) attr.SetBackgroundColour(atom[cs+2]) drawAtoms.SetAttr(i,cs+2,attr) drawAtoms.SetCellValue(i,cs+2,'') indx = drawingData['selectedAtoms'] if indx: for r in range(len(atomData)): if r in indx: drawAtoms.SelectRow(r) for c in range(len(colLabels)): attr = wg.GridCellAttr() #needs to be here - gets lost if outside loop! attr.SetReadOnly(True) attr.SetBackgroundColour(VERY_LIGHT_GREY) if colLabels[c] not in ['Style','Label','Color']: drawAtoms.SetColAttr(c,attr) G2frame.dataFrame.setSizePosLeft([600,300]) FindBondsDraw(data) drawAtoms.ClearSelection() # G2plt.PlotStructure(G2frame,data) def DrawAtomStyle(event): indx = drawAtoms.GetSelectedRows() if indx: generalData = data['General'] atomData = data['Drawing']['Atoms'] cx,ct,cs,ci = data['Drawing']['atomPtrs'] styleChoice = [' ','lines','vdW balls','sticks','balls & sticks','ellipsoids','polyhedra'] if generalData['Type'] == 'macromolecular': styleChoice = [' ','lines','vdW balls','sticks','balls & sticks','ellipsoids', 'backbone','ribbons','schematic'] dlg = wx.SingleChoiceDialog(G2frame,'Select','Atom drawing style',styleChoice) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelection() parms = styleChoice[sel] for r in indx: atomData[r][cs] = parms drawAtoms.SetCellValue(r,cs,parms) dlg.Destroy() FindBondsDraw(data) drawAtoms.ClearSelection() G2plt.PlotStructure(G2frame,data) def DrawAtomLabel(event): indx = drawAtoms.GetSelectedRows() if indx: generalData = data['General'] atomData = data['Drawing']['Atoms'] cx,ct,cs,ci = data['Drawing']['atomPtrs'] styleChoice = [' ','type','name','number'] if generalData['Type'] == 'macromolecular': styleChoice = [' ','type','name','number','residue','1-letter','chain'] dlg = wx.SingleChoiceDialog(G2frame,'Select','Atom label style',styleChoice) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelection() parms = styleChoice[sel] for r in indx: atomData[r][cs+1] = parms drawAtoms.SetCellValue(r,cs+1,parms) dlg.Destroy() drawAtoms.ClearSelection() G2plt.PlotStructure(G2frame,data) def DrawAtomColor(event): indx = drawAtoms.GetSelectedRows() if indx: if len(indx) > 1: G2frame.dataFrame.SetStatusText('Select Custom Color, change color, Add to Custom Colors, then OK') else: G2frame.dataFrame.SetStatusText('Change color, Add to Custom Colors, then OK') generalData = data['General'] atomData = data['Drawing']['Atoms'] cx,ct,cs,ci = data['Drawing']['atomPtrs'] atmColors = [] atmTypes = [] for r in indx: if atomData[r][cs+2] not in atmColors: atmColors.append(atomData[r][cs+2]) atmTypes.append(atomData[r][ct]) if len(atmColors) > 16: break colors = wx.ColourData() colors.SetChooseFull(True) dlg = wx.ColourDialog(G2frame) if dlg.ShowModal() == wx.ID_OK: for i in range(len(atmColors)): atmColors[i] = dlg.GetColourData().GetColour() colorDict = dict(zip(atmTypes,atmColors)) for r in indx: color = colorDict[atomData[r][ct]] atomData[r][cs+2] = color attr = wg.GridCellAttr() #needs to be here - gets lost if outside loop! attr.SetBackgroundColour(color) drawAtoms.SetAttr(r,cs+2,attr) data['Drawing']['Atoms'][r][cs+2] = color drawAtoms.ClearSelection() dlg.Destroy() G2frame.dataFrame.SetStatusText('') G2plt.PlotStructure(G2frame,data) def ResetAtomColors(event): generalData = data['General'] atomData = data['Drawing']['Atoms'] cx,ct,cs,ci = data['Drawing']['atomPtrs'] for atom in atomData: atNum = generalData['AtomTypes'].index(atom[ct]) atom[cs+2] = list(generalData['Color'][atNum]) UpdateDrawAtoms() drawAtoms.ClearSelection() G2plt.PlotStructure(G2frame,data) def SetViewPoint(event): indx = drawAtoms.GetSelectedRows() if indx: atomData = data['Drawing']['Atoms'] cx = data['Drawing']['atomPtrs'][0] data['Drawing']['viewPoint'] = [atomData[indx[0]][cx:cx+3],[indx[0],0]] drawAtoms.ClearSelection() #do I really want to do this? G2plt.PlotStructure(G2frame,data) def noDuplicate(xyz,atomData): #be careful where this is used - it's slow cx = data['Drawing']['atomPtrs'][0] if True in [np.allclose(np.array(xyz),np.array(atom[cx:cx+3]),atol=0.0002) for atom in atomData]: return False else: return True def AddSymEquiv(event): indx = drawAtoms.GetSelectedRows() indx.sort() if indx: colLabels = [drawAtoms.GetColLabelValue(c) for c in range(drawAtoms.GetNumberCols())] cx = colLabels.index('x') cuia = colLabels.index('I/A') cuij = cuia+2 atomData = data['Drawing']['Atoms'] generalData = data['General'] SGData = generalData['SGData'] dlg = G2gd.SymOpDialog(G2frame,SGData,False,True) try: if dlg.ShowModal() == wx.ID_OK: Inv,Cent,Opr,Cell,New,Force = dlg.GetSelection() Cell = np.array(Cell) cent = SGData['SGCen'][Cent] M,T = SGData['SGOps'][Opr] for ind in indx: XYZ = np.array(atomData[ind][cx:cx+3]) XYZ = np.inner(M,XYZ)+T if Inv: XYZ = -XYZ XYZ = XYZ+cent+Cell if Force: XYZ %= 1. #G2spc.MoveToUnitCell(XYZ) if noDuplicate(XYZ,atomData): atom = copy.copy(atomData[ind]) atom[cx:cx+3] = XYZ atomOp = atom[cx+3] newOp = str(((Opr+1)+100*Cent)*(1-2*Inv))+'+'+ \ str(int(Cell[0]))+','+str(int(Cell[1]))+','+str(int(Cell[2])) atom[cx+3] = G2spc.StringOpsProd(atomOp,newOp,SGData) if atom[cuia] == 'A': Uij = atom[cuij:cuij+6] Uij = G2spc.U2Uij(np.inner(np.inner(M,G2spc.Uij2U(Uij)),M)) atom[cuij:cuij+6] = Uij atomData.append(atom[:cuij+9]) #not SS stuff finally: dlg.Destroy() UpdateDrawAtoms() drawAtoms.ClearSelection() G2plt.PlotStructure(G2frame,data) def AddSphere(event): generalData = data['General'] Amat,Bmat = G2lat.cell2AB(generalData['Cell'][1:7]) atomData = data['Drawing']['Atoms'] numAtoms = len(atomData) cx,ct,cs,ci = data['Drawing']['atomPtrs'] cuij = cs+5 generalData = data['General'] SGData = generalData['SGData'] cellArray = G2lat.CellBlock(1) indx = drawAtoms.GetSelectedRows() indx.sort() dlg = G2gd.SphereEnclosure(G2frame,data['General'],data['Drawing'],indx) try: if dlg.ShowModal() == wx.ID_OK: centers,radius,targets = dlg.GetSelection() for orig in centers: xyzA = np.array(orig) for atomB in atomData[:numAtoms]: if atomB[ct] not in targets: continue xyzB = np.array(atomB[cx:cx+3]) Uij = atomB[cuij:cuij+6] # GSASIIpath.IPyBreak() result = G2spc.GenAtom(xyzB,SGData,False,Uij,True) for item in result: atom = copy.copy(atomB) atom[cx:cx+3] = item[0] atom[cx+3] = str(item[2])+'+' atom[cuij:cuij+6] = item[1] for xyz in cellArray+np.array(atom[cx:cx+3]): dist = np.sqrt(np.sum(np.inner(Amat,xyz-xyzA)**2)) if 0 < dist <= radius: if noDuplicate(xyz,atomData): C = xyz-atom[cx:cx+3]+item[3] newAtom = atom[:] newAtom[cx:cx+3] = xyz newAtom[cx+3] += str(int(round(C[0])))+','+str(int(round(C[1])))+','+str(int(round(C[2]))) atomData.append(newAtom) finally: dlg.Destroy() UpdateDrawAtoms() drawAtoms.ClearSelection() G2plt.PlotStructure(G2frame,data) def TransformSymEquiv(event): indx = drawAtoms.GetSelectedRows() indx.sort() if indx: atomData = data['Drawing']['Atoms'] colLabels = [drawAtoms.GetColLabelValue(c) for c in range(drawAtoms.GetNumberCols())] cx = colLabels.index('x') cuia = colLabels.index('I/A') cuij = cuia+2 atomData = data['Drawing']['Atoms'] generalData = data['General'] SGData = generalData['SGData'] dlg = G2gd.SymOpDialog(G2frame,SGData,False,True) try: if dlg.ShowModal() == wx.ID_OK: Inv,Cent,Opr,Cell,New,Force = dlg.GetSelection() Cell = np.array(Cell) cent = SGData['SGCen'][Cent] M,T = SGData['SGOps'][Opr] for ind in indx: XYZ = np.array(atomData[ind][cx:cx+3]) XYZ = np.inner(M,XYZ)+T if Inv: XYZ = -XYZ XYZ = XYZ+cent+Cell if Force: XYZ,cell = G2spc.MoveToUnitCell(XYZ) Cell += cell atom = atomData[ind] atom[cx:cx+3] = XYZ atomOp = atom[cx+3] newOp = str(((Opr+1)+100*Cent)*(1-2*Inv))+'+'+ \ str(int(Cell[0]))+','+str(int(Cell[1]))+','+str(int(Cell[2])) atom[cx+3] = G2spc.StringOpsProd(atomOp,newOp,SGData) if atom[cuia] == 'A': Uij = atom[cuij:cuij+6] U = G2spc.Uij2U(Uij) U = np.inner(np.inner(M,U),M) Uij = G2spc.U2Uij(U) atom[cuij:cuij+6] = Uij data['Drawing']['Atoms'] = atomData finally: dlg.Destroy() UpdateDrawAtoms() drawAtoms.ClearSelection() G2plt.PlotStructure(G2frame,data) def FillCoordSphere(event): generalData = data['General'] Amat,Bmat = G2lat.cell2AB(generalData['Cell'][1:7]) radii = generalData['BondRadii'] atomTypes = generalData['AtomTypes'] try: indH = atomTypes.index('H') radii[indH] = 0.5 except: pass indx = drawAtoms.GetSelectedRows() if indx: indx.sort() atomData = data['Drawing']['Atoms'] numAtoms = len(atomData) cx,ct,cs,ci = data['Drawing']['atomPtrs'] cij = ci+2 generalData = data['General'] SGData = generalData['SGData'] cellArray = G2lat.CellBlock(1) wx.BeginBusyCursor() try: for ind in indx: atomA = atomData[ind] xyzA = np.array(atomA[cx:cx+3]) indA = atomTypes.index(atomA[ct]) for atomB in atomData[:numAtoms]: indB = atomTypes.index(atomB[ct]) sumR = radii[indA]+radii[indB] xyzB = np.array(atomB[cx:cx+3]) for xyz in cellArray+xyzB: dist = np.sqrt(np.sum(np.inner(Amat,xyz-xyzA)**2)) if 0 < dist <= data['Drawing']['radiusFactor']*sumR: if noDuplicate(xyz,atomData): oprB = atomB[cx+3] C = xyz-xyzB newOp = '1+'+str(int(round(C[0])))+','+str(int(round(C[1])))+','+str(int(round(C[2]))) newAtom = atomB[:] newAtom[cx:cx+3] = xyz newAtom[cx+3] = G2spc.StringOpsProd(oprB,newOp,SGData) atomData.append(newAtom[:cij+9]) #not SS stuff finally: wx.EndBusyCursor() data['Drawing']['Atoms'] = atomData UpdateDrawAtoms() drawAtoms.ClearSelection() G2plt.PlotStructure(G2frame,data) def FillUnitCell(event): indx = drawAtoms.GetSelectedRows() indx.sort() if indx: atomData = data['Drawing']['Atoms'] colLabels = [drawAtoms.GetColLabelValue(c) for c in range(drawAtoms.GetNumberCols())] cx = colLabels.index('x') cuia = colLabels.index('I/A') cuij = cuia+2 generalData = data['General'] SGData = generalData['SGData'] wx.BeginBusyCursor() try: for ind in indx: atom = atomData[ind] XYZ = np.array(atom[cx:cx+3]) if atom[cuia] == 'A': Uij = atom[cuij:cuij+6] result = G2spc.GenAtom(XYZ,SGData,False,Uij,True) for item in result: atom = copy.copy(atomData[ind]) atom[cx:cx+3] = item[0] atom[cx+3] = str(item[2])+'+' \ +str(item[3][0])+','+str(item[3][1])+','+str(item[3][2]) atom[cuij:cuij+6] = item[1] Opp = G2spc.Opposite(item[0]) for key in Opp: if noDuplicate(Opp[key],atomData): unit = np.array(eval(key))*1.-item[3] cell = '%d+%d,%d,%d'%(item[2],unit[0],unit[1],unit[2]) atom[cx:cx+3] = Opp[key] atom[cx+3] = cell atomData.append(atom[:cuij+9]) #not SS stuff else: result = G2spc.GenAtom(XYZ,SGData,False,Move=True) for item in result: atom = copy.copy(atomData[ind]) atom[cx:cx+3] = item[0] atom[cx+3] = str(item[1])+'+' \ +str(item[2][0])+','+str(item[2][1])+','+str(item[2][2]) Opp = G2spc.Opposite(item[0]) for key in Opp: if noDuplicate(Opp[key],atomData): unit = np.array(eval(key))*1.-item[2] cell = '%d+%d,%d,%d'%(item[1],unit[0],unit[1],unit[2]) atom[cx:cx+3] = Opp[key] atom[cx+3] = cell atomData.append(atom[:cuij+9]) #not SS stuff data['Drawing']['Atoms'] = atomData finally: wx.EndBusyCursor() UpdateDrawAtoms() drawAtoms.ClearSelection() G2plt.PlotStructure(G2frame,data) def DrawAtomsDelete(event): indx = drawAtoms.GetSelectedRows() indx.sort() if indx: atomData = data['Drawing']['Atoms'] indx.reverse() for ind in indx: del atomData[ind] UpdateDrawAtoms() drawAtoms.ClearSelection() G2plt.PlotStructure(G2frame,data) event.StopPropagation() def OnReloadDrawAtoms(event): atomData = data['Atoms'] cx,ct,cs,ci = data['General']['AtomPtrs'] for atom in atomData: ID = atom[ci+8] DrawAtomsReplaceByID(data['Drawing'],ci+8,atom,ID) UpdateDrawAtoms() drawAtoms.ClearSelection() G2plt.PlotStructure(G2frame,data) event.StopPropagation() def DrawAtomsDeleteByIDs(IDs): atomData = data['Drawing']['Atoms'] cx,ct,cs,ci = data['General']['AtomPtrs'] loc = ci+8 indx = G2mth.FindAtomIndexByIDs(atomData,loc,IDs) indx.reverse() for ind in indx: del atomData[ind] def ChangeDrawAtomsByIDs(colName,IDs,value): atomData = data['Drawing']['Atoms'] cx,ct,cs,ci = data['Drawing']['atomPtrs'] if colName == 'Name': col = ct-1 elif colName == 'Type': col = ct elif colName == 'I/A': col = cs indx = G2mth.FindAtomIndexByIDs(atomData,ci+8,IDs) for ind in indx: atomData[ind][col] = value def OnDrawPlane(event): indx = drawAtoms.GetSelectedRows() if len(indx) < 4: print '**** ERROR - need 4+ atoms for plane calculation' return PlaneData = {} drawingData = data['Drawing'] atomData = drawingData['Atoms'] colLabels = [drawAtoms.GetColLabelValue(c) for c in range(drawAtoms.GetNumberCols())] cx = colLabels.index('x') cn = colLabels.index('Name') xyz = [] for i,atom in enumerate(atomData): if i in indx: xyz.append([i,]+atom[cn:cn+2]+atom[cx:cx+3]) generalData = data['General'] PlaneData['Name'] = generalData['Name'] PlaneData['Atoms'] = xyz PlaneData['Cell'] = generalData['Cell'][1:] #+ volume G2stMn.BestPlane(PlaneData) def OnDrawDistVP(event): # distance to view point indx = drawAtoms.GetSelectedRows() if not indx: print '***** ERROR - no atoms selected' return generalData = data['General'] Amat,Bmat = G2lat.cell2AB(generalData['Cell'][1:7]) drawingData = data['Drawing'] viewPt = np.array(drawingData['viewPoint'][0]) print ' Distance from view point at %.3f %.3f %.3f to:'%(viewPt[0],viewPt[1],viewPt[2]) atomDData = drawingData['Atoms'] colLabels = [drawAtoms.GetColLabelValue(c) for c in range(drawAtoms.GetNumberCols())] cx = colLabels.index('x') cn = colLabels.index('Name') for i in indx: atom = atomDData[i] Dx = np.array(atom[cx:cx+3])-viewPt dist = np.sqrt(np.sum(np.inner(Amat,Dx)**2,axis=0)) print 'Atom: %8s (%12s) distance = %.3f'%(atom[cn],atom[cx+3],dist) def OnDrawDAT(event): #distance, angle, torsion indx = drawAtoms.GetSelectedRows() if len(indx) not in [2,3,4]: print '**** ERROR - wrong number of atoms for distance, angle or torsion calculation' return DATData = {} ocx,oct,ocs,cia = data['General']['AtomPtrs'] drawingData = data['Drawing'] atomData = data['Atoms'] atomDData = drawingData['Atoms'] colLabels = [drawAtoms.GetColLabelValue(c) for c in range(drawAtoms.GetNumberCols())] cx = colLabels.index('x') cn = colLabels.index('Name') cid = colLabels.index('I/A')+8 xyz = [] Oxyz = [] DATData['Natoms'] = len(indx) for i in indx: atom = atomDData[i] xyz.append([i,]+atom[cn:cn+2]+atom[cx:cx+4]) #also gets Sym Op id = G2mth.FindAtomIndexByIDs(atomData,cid,[atom[cid],],False)[0] Oxyz.append([id,]+atomData[id][cx+1:cx+4]) DATData['Datoms'] = xyz DATData['Oatoms'] = Oxyz generalData = data['General'] DATData['Name'] = generalData['Name'] DATData['SGData'] = generalData['SGData'] DATData['Cell'] = generalData['Cell'][1:] #+ volume if 'pId' in data: DATData['pId'] = data['pId'] DATData['covData'] = G2frame.PatternTree.GetItemPyData(G2gd.GetPatternTreeItemId(G2frame,G2frame.root, 'Covariance')) G2stMn.DisAglTor(DATData) ################################################################################ #### Draw Options page ################################################################################ def UpdateDrawOptions(): import copy import wx.lib.colourselect as wcs def SlopSizer(): def OnCameraPos(event): drawingData['cameraPos'] = cameraPos.GetValue() cameraPosTxt.SetLabel(' Camera Distance: '+'%.2f'%(drawingData['cameraPos'])) ZclipTxt.SetLabel(' Z clipping: '+'%.2fA'%(drawingData['Zclip']*drawingData['cameraPos']/100.)) G2plt.PlotStructure(G2frame,data) def OnZclip(event): drawingData['Zclip'] = Zclip.GetValue() ZclipTxt.SetLabel(' Z clipping: '+'%.2fA'%(drawingData['Zclip']*drawingData['cameraPos']/100.)) G2plt.PlotStructure(G2frame,data) def OnZstep(event): event.Skip() try: step = float(Zstep.GetValue()) if not (0.01 <= step <= 1.0): raise ValueError except ValueError: step = drawingData['Zstep'] drawingData['Zstep'] = step Zstep.SetValue('%.2fA'%(drawingData['Zstep'])) def OnMoveZ(event): move = MoveZ.GetValue()*drawingData['Zstep'] MoveZ.SetValue(0) VP = np.inner(Amat,np.array(drawingData['viewPoint'][0])) VD = np.inner(Amat,np.array(drawingData['viewDir'])) VD /= np.sqrt(np.sum(VD**2)) VP += move*VD VP = np.inner(Bmat,VP) drawingData['viewPoint'][0] = VP panel = drawOptions.GetChildren() names = [child.GetName() for child in panel] panel[names.index('viewPoint')].SetValue('%.3f %.3f %.3f'%(VP[0],VP[1],VP[2])) G2plt.PlotStructure(G2frame,data) def OnVdWScale(event): drawingData['vdwScale'] = vdwScale.GetValue()/100. vdwScaleTxt.SetLabel(' van der Waals scale: '+'%.2f'%(drawingData['vdwScale'])) G2plt.PlotStructure(G2frame,data) def OnEllipseProb(event): drawingData['ellipseProb'] = ellipseProb.GetValue() ellipseProbTxt.SetLabel(' Ellipsoid probability: '+'%d%%'%(drawingData['ellipseProb'])) G2plt.PlotStructure(G2frame,data) def OnBallScale(event): drawingData['ballScale'] = ballScale.GetValue()/100. ballScaleTxt.SetLabel(' Ball scale: '+'%.2f'%(drawingData['ballScale'])) G2plt.PlotStructure(G2frame,data) def OnBondRadius(event): drawingData['bondRadius'] = bondRadius.GetValue()/100. bondRadiusTxt.SetLabel(' Bond radius, A: '+'%.2f'%(drawingData['bondRadius'])) G2plt.PlotStructure(G2frame,data) def OnContourLevel(event): drawingData['contourLevel'] = contourLevel.GetValue()/100. contourLevelTxt.SetLabel(' Contour level: '+'%.2f'%(drawingData['contourLevel']*generalData['Map']['rhoMax'])) G2plt.PlotStructure(G2frame,data) def OnMapSize(event): drawingData['mapSize'] = mapSize.GetValue()/10. mapSizeTxt.SetLabel(' Map radius, A: '+'%.1f'%(drawingData['mapSize'])) G2plt.PlotStructure(G2frame,data) slopSizer = wx.BoxSizer(wx.HORIZONTAL) slideSizer = wx.FlexGridSizer(0,2) slideSizer.AddGrowableCol(1,1) cameraPosTxt = wx.StaticText(drawOptions,-1, ' Camera Distance: '+'%.2f'%(drawingData['cameraPos']),name='cameraPos') G2frame.dataDisplay.cameraPosTxt = cameraPosTxt slideSizer.Add(cameraPosTxt,0,WACV) cameraPos = wx.Slider(drawOptions,style=wx.SL_HORIZONTAL,value=drawingData['cameraPos'],name='cameraSlider') cameraPos.SetRange(10,500) cameraPos.Bind(wx.EVT_SLIDER, OnCameraPos) G2frame.dataDisplay.cameraSlider = cameraPos slideSizer.Add(cameraPos,1,wx.EXPAND|wx.RIGHT) ZclipTxt = wx.StaticText(drawOptions,-1,' Z clipping: '+'%.2fA'%(drawingData['Zclip']*drawingData['cameraPos']/100.)) slideSizer.Add(ZclipTxt,0,WACV) Zclip = wx.Slider(drawOptions,style=wx.SL_HORIZONTAL,value=drawingData['Zclip']) Zclip.SetRange(1,99) Zclip.Bind(wx.EVT_SLIDER, OnZclip) slideSizer.Add(Zclip,1,wx.EXPAND|wx.RIGHT) ZstepSizer = wx.BoxSizer(wx.HORIZONTAL) ZstepSizer.Add(wx.StaticText(drawOptions,-1,' Z step:'),0,WACV) Zstep = wx.TextCtrl(drawOptions,value='%.2f'%(drawingData['Zstep']), style=wx.TE_PROCESS_ENTER) Zstep.Bind(wx.EVT_TEXT_ENTER,OnZstep) Zstep.Bind(wx.EVT_KILL_FOCUS,OnZstep) ZstepSizer.Add(Zstep,0,WACV) slideSizer.Add(ZstepSizer) MoveSizer = wx.BoxSizer(wx.HORIZONTAL) MoveSizer.Add(wx.StaticText(drawOptions,-1,' Press to step:'),0,WACV) MoveZ = wx.SpinButton(drawOptions,style=wx.SP_HORIZONTAL,size=wx.Size(100,20)) MoveZ.SetValue(0) MoveZ.SetRange(-1,1) MoveZ.Bind(wx.EVT_SPIN, OnMoveZ) MoveSizer.Add(MoveZ) slideSizer.Add(MoveSizer,1,wx.EXPAND|wx.RIGHT) vdwScaleTxt = wx.StaticText(drawOptions,-1,' van der Waals scale: '+'%.2f'%(drawingData['vdwScale'])) slideSizer.Add(vdwScaleTxt,0,WACV) vdwScale = wx.Slider(drawOptions,style=wx.SL_HORIZONTAL,value=int(100*drawingData['vdwScale'])) vdwScale.Bind(wx.EVT_SLIDER, OnVdWScale) slideSizer.Add(vdwScale,1,wx.EXPAND|wx.RIGHT) ellipseProbTxt = wx.StaticText(drawOptions,-1,' Ellipsoid probability: '+'%d%%'%(drawingData['ellipseProb'])) slideSizer.Add(ellipseProbTxt,0,WACV) ellipseProb = wx.Slider(drawOptions,style=wx.SL_HORIZONTAL,value=drawingData['ellipseProb']) ellipseProb.SetRange(1,99) ellipseProb.Bind(wx.EVT_SLIDER, OnEllipseProb) slideSizer.Add(ellipseProb,1,wx.EXPAND|wx.RIGHT) ballScaleTxt = wx.StaticText(drawOptions,-1,' Ball scale: '+'%.2f'%(drawingData['ballScale'])) slideSizer.Add(ballScaleTxt,0,WACV) ballScale = wx.Slider(drawOptions,style=wx.SL_HORIZONTAL,value=int(100*drawingData['ballScale'])) ballScale.Bind(wx.EVT_SLIDER, OnBallScale) slideSizer.Add(ballScale,1,wx.EXPAND|wx.RIGHT) bondRadiusTxt = wx.StaticText(drawOptions,-1,' Bond radius, A: '+'%.2f'%(drawingData['bondRadius'])) slideSizer.Add(bondRadiusTxt,0,WACV) bondRadius = wx.Slider(drawOptions,style=wx.SL_HORIZONTAL,value=int(100*drawingData['bondRadius'])) bondRadius.SetRange(1,25) bondRadius.Bind(wx.EVT_SLIDER, OnBondRadius) slideSizer.Add(bondRadius,1,wx.EXPAND|wx.RIGHT) if generalData['Map']['rhoMax']: contourLevelTxt = wx.StaticText(drawOptions,-1,' Contour level: '+'%.2f'%(drawingData['contourLevel']*generalData['Map']['rhoMax'])) slideSizer.Add(contourLevelTxt,0,WACV) contourLevel = wx.Slider(drawOptions,style=wx.SL_HORIZONTAL,value=int(100*drawingData['contourLevel'])) contourLevel.SetRange(1,100) contourLevel.Bind(wx.EVT_SLIDER, OnContourLevel) slideSizer.Add(contourLevel,1,wx.EXPAND|wx.RIGHT) mapSizeTxt = wx.StaticText(drawOptions,-1,' Map radius, A: '+'%.1f'%(drawingData['mapSize'])) slideSizer.Add(mapSizeTxt,0,WACV) mapSize = wx.Slider(drawOptions,style=wx.SL_HORIZONTAL,value=int(10*drawingData['mapSize'])) mapSize.SetRange(1,100) mapSize.Bind(wx.EVT_SLIDER, OnMapSize) slideSizer.Add(mapSize,1,wx.EXPAND|wx.RIGHT) slopSizer.Add(slideSizer,1,wx.EXPAND|wx.RIGHT) slopSizer.Add((10,5),0) slopSizer.SetMinSize(wx.Size(350,10)) return slopSizer def ShowSizer(): def OnBackColor(event): drawingData['backColor'] = event.GetValue() G2plt.PlotStructure(G2frame,data) def OnShowABC(event): drawingData['showABC'] = showABC.GetValue() G2plt.PlotStructure(G2frame,data) def OnShowUnitCell(event): drawingData['unitCellBox'] = unitCellBox.GetValue() G2plt.PlotStructure(G2frame,data) def OnShowHyd(event): drawingData['showHydrogen'] = showHydrogen.GetValue() FindBondsDraw(data) G2plt.PlotStructure(G2frame,data) def OnShowRB(event): drawingData['showRigidBodies'] = showRB.GetValue() FindBondsDraw(data) G2plt.PlotStructure(G2frame,data) def OnViewPoint(event): event.Skip() Obj = event.GetEventObject() viewPt = Obj.GetValue().split() try: VP = [float(viewPt[i]) for i in range(3)] except (ValueError,IndexError): VP = drawingData['viewPoint'][0] Obj.SetValue('%.3f %.3f %.3f'%(VP[0],VP[1],VP[2])) drawingData['viewPoint'][0] = VP G2plt.PlotStructure(G2frame,data) def OnViewDir(event): event.Skip() Obj = event.GetEventObject() viewDir = Obj.GetValue().split() try: Amat,Bmat = G2lat.cell2AB(generalData['Cell'][1:7]) VD = np.array([float(viewDir[i]) for i in range(3)]) VC = np.inner(Amat,VD) VC /= np.sqrt(np.sum(VC**2)) V = np.array(drawingData['viewDir']) VB = np.inner(Amat,V) VB /= np.sqrt(np.sum(VB**2)) VX = np.cross(VC,VB) A = acosd(max((2.-np.sum((VB-VC)**2))/2.,-1.)) QV = G2mth.AVdeg2Q(A,VX) Q = drawingData['Quaternion'] drawingData['Quaternion'] = G2mth.prodQQ(Q,QV) except (ValueError,IndexError): VD = drawingData['viewDir'] Obj.SetValue('%.3f %.3f %.3f'%(VD[0],VD[1],VD[2])) drawingData['viewDir'] = VD G2plt.PlotStructure(G2frame,data) showSizer = wx.BoxSizer(wx.VERTICAL) lineSizer = wx.BoxSizer(wx.HORIZONTAL) lineSizer.Add(wx.StaticText(drawOptions,-1,' Background color:'),0,WACV) backColor = wcs.ColourSelect(drawOptions, -1,colour=drawingData['backColor'],size=wx.Size(25,25)) backColor.Bind(wcs.EVT_COLOURSELECT, OnBackColor) lineSizer.Add(backColor,0,WACV) lineSizer.Add(wx.StaticText(drawOptions,-1,' View Dir.:'),0,WACV) VD = drawingData['viewDir'] viewDir = wx.TextCtrl(drawOptions,value='%.3f %.3f %.3f'%(VD[0],VD[1],VD[2]), style=wx.TE_PROCESS_ENTER,size=wx.Size(140,20),name='viewDir') viewDir.Bind(wx.EVT_TEXT_ENTER,OnViewDir) viewDir.Bind(wx.EVT_KILL_FOCUS,OnViewDir) G2frame.dataDisplay.viewDir = viewDir lineSizer.Add(viewDir,0,WACV) showSizer.Add(lineSizer) showSizer.Add((0,5),0) lineSizer = wx.BoxSizer(wx.HORIZONTAL) showABC = wx.CheckBox(drawOptions,-1,label=' Show view point?') showABC.Bind(wx.EVT_CHECKBOX, OnShowABC) showABC.SetValue(drawingData['showABC']) lineSizer.Add(showABC,0,WACV) lineSizer.Add(wx.StaticText(drawOptions,-1,' View Point:'),0,WACV) VP = drawingData['viewPoint'][0] viewPoint = wx.TextCtrl(drawOptions,value='%.3f %.3f %.3f'%(VP[0],VP[1],VP[2]), style=wx.TE_PROCESS_ENTER,size=wx.Size(140,20),name='viewPoint') G2frame.dataDisplay.viewPoint = viewPoint viewPoint.Bind(wx.EVT_TEXT_ENTER,OnViewPoint) viewPoint.Bind(wx.EVT_KILL_FOCUS,OnViewPoint) lineSizer.Add(viewPoint,0,WACV) showSizer.Add(lineSizer) showSizer.Add((0,5),0) line2Sizer = wx.BoxSizer(wx.HORIZONTAL) unitCellBox = wx.CheckBox(drawOptions,-1,label=' Show unit cell?') unitCellBox.Bind(wx.EVT_CHECKBOX, OnShowUnitCell) unitCellBox.SetValue(drawingData['unitCellBox']) line2Sizer.Add(unitCellBox,0,WACV) showHydrogen = wx.CheckBox(drawOptions,-1,label=' Show hydrogens?') showHydrogen.Bind(wx.EVT_CHECKBOX, OnShowHyd) showHydrogen.SetValue(drawingData['showHydrogen']) line2Sizer.Add(showHydrogen,0,WACV) showRB = wx.CheckBox(drawOptions,-1,label=' Show rigid Bodies?') showRB.Bind(wx.EVT_CHECKBOX, OnShowRB) showRB.SetValue(drawingData['showRigidBodies']) line2Sizer.Add(showRB,0,WACV) showSizer.Add(line2Sizer) return showSizer def RadSizer(): def OnSizeHatoms(event): event.Skip() try: value = max(0.1,min(1.2,float(sizeH.GetValue()))) except ValueError: value = 0.5 drawingData['sizeH'] = value sizeH.SetValue("%.2f"%(value)) G2plt.PlotStructure(G2frame,data) def OnRadFactor(event): event.Skip() try: value = max(0.1,min(1.2,float(radFactor.GetValue()))) except ValueError: value = 0.85 drawingData['radiusFactor'] = value radFactor.SetValue("%.2f"%(value)) FindBondsDraw(data) G2plt.PlotStructure(G2frame,data) radSizer = wx.BoxSizer(wx.HORIZONTAL) radSizer.Add(wx.StaticText(drawOptions,-1,' Hydrogen radius, A: '),0,WACV) sizeH = wx.TextCtrl(drawOptions,-1,value='%.2f'%(drawingData['sizeH']),size=wx.Size(60,20),style=wx.TE_PROCESS_ENTER) sizeH.Bind(wx.EVT_TEXT_ENTER,OnSizeHatoms) sizeH.Bind(wx.EVT_KILL_FOCUS,OnSizeHatoms) radSizer.Add(sizeH,0,WACV) radSizer.Add(wx.StaticText(drawOptions,-1,' Bond search factor: '),0,WACV) radFactor = wx.TextCtrl(drawOptions,value='%.2f'%(drawingData['radiusFactor']),size=wx.Size(60,20),style=wx.TE_PROCESS_ENTER) radFactor.Bind(wx.EVT_TEXT_ENTER,OnRadFactor) radFactor.Bind(wx.EVT_KILL_FOCUS,OnRadFactor) radSizer.Add(radFactor,0,WACV) return radSizer # UpdateDrawOptions exectable code starts here generalData = data['General'] Amat,Bmat = G2lat.cell2AB(generalData['Cell'][1:7]) SetupDrawingData() drawingData = data['Drawing'] if generalData['Type'] in ['nuclear','faulted',]: pickChoice = ['Atoms','Bonds','Torsions','Planes'] elif generalData['Type'] == 'macromolecular': pickChoice = ['Atoms','Residues','Chains','Bonds','Torsions','Planes','phi/psi'] G2frame.dataFrame.SetStatusText('') if drawOptions.GetSizer(): drawOptions.GetSizer().Clear(True) mainSizer = wx.BoxSizer(wx.VERTICAL) mainSizer.Add((5,5),0) mainSizer.Add(wx.StaticText(drawOptions,-1,' Drawing controls:'),0,WACV) mainSizer.Add((5,5),0) mainSizer.Add(SlopSizer(),0) mainSizer.Add((5,5),0) mainSizer.Add(ShowSizer(),0,) mainSizer.Add((5,5),0) mainSizer.Add(RadSizer(),0,) SetPhaseWindow(G2frame.dataFrame,drawOptions,mainSizer) ################################################################################ #### Texture routines ################################################################################ def UpdateTexture(): def SetSHCoef(): cofNames = G2lat.GenSHCoeff(SGData['SGLaue'],SamSym[textureData['Model']],textureData['Order']) newSHCoef = dict(zip(cofNames,np.zeros(len(cofNames)))) SHCoeff = textureData['SH Coeff'][1] for cofName in SHCoeff: if cofName in cofNames: newSHCoef[cofName] = SHCoeff[cofName] return newSHCoef def OnShOrder(event): Obj = event.GetEventObject() textureData['Order'] = int(Obj.GetValue()) textureData['SH Coeff'][1] = SetSHCoef() wx.CallLater(100,UpdateTexture) wx.CallAfter(G2plt.PlotTexture,G2frame,data) def OnShModel(event): Obj = event.GetEventObject() textureData['Model'] = Obj.GetValue() textureData['SH Coeff'][1] = SetSHCoef() wx.CallLater(100,UpdateTexture) wx.CallAfter(G2plt.PlotTexture,G2frame,data) def OnSHRefine(event): Obj = event.GetEventObject() textureData['SH Coeff'][0] = Obj.GetValue() def OnSHShow(event): Obj = event.GetEventObject() textureData['SHShow'] = Obj.GetValue() wx.CallLater(100,UpdateTexture) def OnProjSel(event): Obj = event.GetEventObject() G2frame.Projection = Obj.GetValue() wx.CallAfter(G2plt.PlotTexture,G2frame,data) def OnColorSel(event): Obj = event.GetEventObject() G2frame.ContourColor = Obj.GetValue() wx.CallAfter(G2plt.PlotTexture,G2frame,data) def OnAngRef(event): Obj = event.GetEventObject() textureData[angIndx[Obj.GetId()]][0] = Obj.GetValue() def OnAngValue(event): event.Skip() Obj = event.GetEventObject() try: value = float(Obj.GetValue()) except ValueError: value = textureData[valIndx[Obj.GetId()]][1] Obj.SetValue('%8.2f'%(value)) textureData[valIndx[Obj.GetId()]][1] = value def OnODFValue(event): event.Skip() Obj = event.GetEventObject() try: value = float(Obj.GetValue()) except ValueError: value = textureData['SH Coeff'][1][ODFIndx[Obj.GetId()]] Obj.SetValue('%8.3f'%(value)) textureData['SH Coeff'][1][ODFIndx[Obj.GetId()]] = value wx.CallAfter(G2plt.PlotTexture,G2frame,data) def OnPfType(event): Obj = event.GetEventObject() textureData['PlotType'] = Obj.GetValue() wx.CallLater(100,UpdateTexture) wx.CallAfter(G2plt.PlotTexture,G2frame,data) def OnPFValue(event): event.Skip() Obj = event.GetEventObject() Saxis = Obj.GetValue().split() if textureData['PlotType'] in ['Pole figure','Axial pole distribution','3D pole distribution']: try: hkl = [int(Saxis[i]) for i in range(3)] except (ValueError,IndexError): hkl = textureData['PFhkl'] if not np.any(np.array(hkl)): #can't be all zeros! hkl = textureData['PFhkl'] Obj.SetValue('%d %d %d'%(hkl[0],hkl[1],hkl[2])) textureData['PFhkl'] = hkl else: try: xyz = [float(Saxis[i]) for i in range(3)] except (ValueError,IndexError): xyz = textureData['PFxyz'] if not np.any(np.array(xyz)): #can't be all zeros! xyz = textureData['PFxyz'] Obj.SetValue('%3.1f %3.1f %3.1f'%(xyz[0],xyz[1],xyz[2])) textureData['PFxyz'] = xyz wx.CallAfter(G2plt.PlotTexture,G2frame,data) def OnpopLA(event): pfName = PhaseName cell = generalData['Cell'][1:7] PH = np.array(textureData['PFhkl']) phi,beta = G2lat.CrsAng(PH,cell,SGData) SHCoef = textureData['SH Coeff'][1] ODFln = G2lat.Flnh(True,SHCoef,phi,beta,SGData) pfName = PhaseName+'%d%d%d.gpf'%(PH[0],PH[1],PH[2]) pth = G2G.GetExportPath(G2frame) dlg = wx.FileDialog(G2frame, 'Choose popLA pole figure file name', pth, pfName, 'popLA file (*.gpf)|*.gpf',wx.FD_SAVE|wx.FD_OVERWRITE_PROMPT) try: if dlg.ShowModal() == wx.ID_OK: pfFile = dlg.GetPath() finally: dlg.Destroy() print 'popLA save '+pfFile if pfFile: pf = open(pfFile,'w') pf.write(PhaseName+'\n') str = ' %d%d%d 5.0 90.0 5.0360.0 1 1 2 1 3 100 1'%(PH[0],PH[1],PH[2]) pf.write(str+'\n') Psi,Gam = np.mgrid[0:19,0:72] Psi = Psi.flatten()*5. Gam = Gam.flatten()*5. Z = np.array(G2lat.polfcal(ODFln,SamSym[textureData['Model']],Psi,Gam)*100.,dtype='int') Z = np.where(Z>0,Z,0) Z = np.where(Z<9999,Z,9999) for i in range(76): iBeg = i*18 iFin = iBeg+18 np.savetxt(pf,Z[iBeg:iFin],fmt='%4d',newline='') pf.write('\n') pf.close() print ' popLA %d %d %d pole figure saved to %s'%(PH[0],PH[1],PH[2],pfFile) def OnCSV(event): pfName = PhaseName pfFile = '' cell = generalData['Cell'][1:7] if 'Inverse' in textureData['PlotType']: SHCoef = textureData['SH Coeff'][1] PX = np.array(textureData['PFxyz']) gam = atan2d(PX[0],PX[1]) xy = np.sqrt(PX[0]**2+PX[1]**2) xyz = np.sqrt(PX[0]**2+PX[1]**2+PX[2]**2) psi = asind(xy/xyz) IODFln = G2lat.Glnh(True,SHCoef,psi,gam,SamSym[textureData['Model']]) pfName = PhaseName+'%d%d%dIPF.csv'%(int(PX[0]),int(PX[1]),int(PX[2])) pth = G2G.GetExportPath(G2frame) dlg = wx.FileDialog(G2frame, 'Choose CSV inverse pole figure file name', pth, pfName, 'CSV file (*.csv)|*.csv',wx.FD_SAVE|wx.FD_OVERWRITE_PROMPT) else: PH = np.array(textureData['PFhkl']) phi,beta = G2lat.CrsAng(PH,cell,SGData) SHCoef = textureData['SH Coeff'][1] ODFln = G2lat.Flnh(True,SHCoef,phi,beta,SGData) pfName = PhaseName+'%d%d%dPF.csv'%(PH[0],PH[1],PH[2]) pth = G2G.GetExportPath(G2frame) dlg = wx.FileDialog(G2frame, 'Choose CSV pole figure file name', pth, pfName, 'CSV file (*.csv)|*.csv',wx.FD_SAVE|wx.FD_OVERWRITE_PROMPT) try: if dlg.ShowModal() == wx.ID_OK: pfFile = dlg.GetPath() print 'CSV save '+pfFile finally: dlg.Destroy() if pfFile: pf = open(pfFile,'w') pf.write('"%s"\n'%(PhaseName)) if 'Inverse' in textureData['PlotType']: pf.write('" %s %d %d %d inverse pole figure"\n'%(PhaseName,int(PX[0]),int(PX[1]),int(PX[2]))) P,R = np.mgrid[0:19,0:72] pf.write('"phi/beta",') np.savetxt(pf,np.linspace(0.,90.,19,True),fmt='%10.4f,',newline='') pf.write('\n') P = P.flatten()*5. R = R.flatten()*5. Z = G2lat.invpolfcal(IODFln,SGData,P,R) Z = np.reshape(Z,(19,72)).T for i,row in enumerate(Z): pf.write('%8d, '%(i*5)) np.savetxt(pf,row,fmt='%10.4f,',newline='') pf.write('\n') pf.close() print ' %s %d %d %d inverse pole figure saved to %s'%(PhaseName,int(PX[0]),int(PX[1]),int(PX[2]),pfFile) else: pf.write('" %s %d %d %d pole figure"\n'%(PhaseName,PH[0],PH[1],PH[2])) Psi,Gam = np.mgrid[0:19,0:72] pf.write('"psi/gam",') np.savetxt(pf,np.linspace(0.,90.,19,True),fmt='%10.4f,',newline='') pf.write('\n') Psi = Psi.flatten()*5. Gam = Gam.flatten()*5. Z = np.array(G2lat.polfcal(ODFln,SamSym[textureData['Model']],Psi,Gam)) Z = np.reshape(Z,(19,72)).T for i,row in enumerate(Z): pf.write('%8d, '%(i*5)) np.savetxt(pf,row,fmt='%10.4f,',newline='') pf.write('\n') pf.close() print ' %s %d %d %d pole figure saved to %s'%(PhaseName,PH[0],PH[1],PH[2],pfFile) def SHPenalty(Penalty): def OnHKLList(event): event.Skip() dlg = G2G.G2MultiChoiceDialog(G2frame, 'Select penalty hkls', 'Penalty hkls',hkls,filterBox=False) try: if dlg.ShowModal() == wx.ID_OK: Penalty[0] = [hkls[i] for i in dlg.GetSelections()] if not Penalty[0]: Penalty[0] = ['',] else: return finally: dlg.Destroy() wx.CallLater(100,UpdateTexture) def OnshToler(event): event.Skip() try: value = float(shToler.GetValue()) Penalty[1] = value except ValueError: pass shToler.SetValue('%.2f'%(Penalty[1])) A = G2lat.cell2A(generalData['Cell'][1:7]) hkls = G2lat.GenPfHKLs(10,SGData,A) shPenalty = wx.BoxSizer(wx.HORIZONTAL) shPenalty.Add(wx.StaticText(Texture,wx.ID_ANY,' Negative MRD penalty list: '),0,WACV) shPenalty.Add(wx.ComboBox(Texture,value=Penalty[0][0],choices=Penalty[0], style=wx.CB_DROPDOWN|wx.CB_READONLY),0,WACV) hklList = wx.Button(Texture,label='Select penalty hkls') hklList.Bind(wx.EVT_BUTTON,OnHKLList) shPenalty.Add(hklList,0,WACV) shPenalty.Add(wx.StaticText(Texture,wx.ID_ANY,' Zero MRD tolerance: '),0,WACV) shToler = wx.TextCtrl(Texture,wx.ID_ANY,'%.2f'%(Penalty[1]),style=wx.TE_PROCESS_ENTER) shToler.Bind(wx.EVT_TEXT_ENTER,OnshToler) shToler.Bind(wx.EVT_KILL_FOCUS,OnshToler) shPenalty.Add(shToler,0,WACV) return shPenalty # UpdateTexture executable starts here #Texture.DestroyChildren() # bad, deletes scrollbars on Mac! if Texture.GetSizer(): Texture.GetSizer().Clear(True) G2frame.dataFrame.SetStatusText('') generalData = data['General'] SGData = generalData['SGData'] try: textureData = generalData['SH Texture'] except KeyError: #fix old files! textureData = generalData['SH Texture'] = {'Order':0,'Model':'cylindrical', 'Sample omega':[False,0.0],'Sample chi':[False,0.0],'Sample phi':[False,0.0], 'SH Coeff':[False,{}],'SHShow':False,'PFhkl':[0,0,1], 'PFxyz':[0,0,1.],'PlotType':'Pole figure'} if 'SHShow' not in textureData: #another fix textureData.update({'SHShow':False,'PFhkl':[0,0,1],'PFxyz':[0,0,1.],'PlotType':'Pole figure'}) try: #another fix! x = textureData['PlotType'] except KeyError: textureData.update({'PFxyz':[0,0,1.],'PlotType':'Pole figure'}) if 'Penalty' not in textureData: textureData['Penalty'] = [['',],0.1,False,1.0] shModels = ['cylindrical','none','shear - 2/m','rolling - mmm'] SamSym = dict(zip(shModels,['0','-1','2/m','mmm'])) shAngles = ['omega','chi','phi'] if Texture.GetSizer(): Texture.GetSizer().Clear(True) mainSizer = wx.BoxSizer(wx.VERTICAL) titleSizer = wx.BoxSizer(wx.HORIZONTAL) titleSizer.Add(wx.StaticText(Texture,-1,' Spherical harmonics texture data for '+PhaseName+':'),0,WACV) titleSizer.Add(wx.StaticText(Texture,-1, ' Texture Index J = %7.3f'%(G2lat.textureIndex(textureData['SH Coeff'][1]))), 0,WACV) mainSizer.Add(titleSizer,0) mainSizer.Add((0,5),0) shSizer = wx.FlexGridSizer(0,6,5,5) shSizer.Add(wx.StaticText(Texture,-1,' Texture model: '),0,WACV) shModel = wx.ComboBox(Texture,-1,value=textureData['Model'],choices=shModels, style=wx.CB_READONLY|wx.CB_DROPDOWN) shModel.Bind(wx.EVT_COMBOBOX,OnShModel) shSizer.Add(shModel,0,WACV) shSizer.Add(wx.StaticText(Texture,-1,' Harmonic order: '),0,WACV) shOrder = wx.ComboBox(Texture,-1,value=str(textureData['Order']),choices=[str(2*i) for i in range(18)], style=wx.CB_READONLY|wx.CB_DROPDOWN) shOrder.Bind(wx.EVT_COMBOBOX,OnShOrder) shSizer.Add(shOrder,0,WACV) shRef = wx.CheckBox(Texture,-1,label=' Refine texture?') shRef.SetValue(textureData['SH Coeff'][0]) shRef.Bind(wx.EVT_CHECKBOX, OnSHRefine) shSizer.Add(shRef,0,WACV) shShow = wx.CheckBox(Texture,-1,label=' Show coeff.?') shShow.SetValue(textureData['SHShow']) shShow.Bind(wx.EVT_CHECKBOX, OnSHShow) shSizer.Add(shShow,0,WACV) mainSizer.Add(shSizer,0,0) mainSizer.Add((0,5),0) PTSizer = wx.FlexGridSizer(0,5,5,5) PTSizer.Add(wx.StaticText(Texture,-1,' Texture plot type: '),0,WACV) choices = ['Axial pole distribution','Pole figure','Inverse pole figure','3D pole distribution'] pfType = wx.ComboBox(Texture,-1,value=str(textureData['PlotType']),choices=choices, style=wx.CB_READONLY|wx.CB_DROPDOWN) pfType.Bind(wx.EVT_COMBOBOX,OnPfType) PTSizer.Add(pfType,0,WACV) if 'Axial' not in textureData['PlotType'] and '3D' not in textureData['PlotType']: PTSizer.Add(wx.StaticText(Texture,-1,' Projection type: '),0,WACV) projSel = wx.ComboBox(Texture,-1,value=G2frame.Projection,choices=['equal area','stereographic'], style=wx.CB_READONLY|wx.CB_DROPDOWN) projSel.Bind(wx.EVT_COMBOBOX,OnProjSel) PTSizer.Add(projSel,0,WACV) PTSizer.Add((0,5),0) if textureData['PlotType'] in ['Pole figure','Axial pole distribution','3D pole distribution']: PTSizer.Add(wx.StaticText(Texture,-1,' Pole figure HKL: '),0,WACV) PH = textureData['PFhkl'] pfVal = wx.TextCtrl(Texture,-1,'%d %d %d'%(PH[0],PH[1],PH[2]),style=wx.TE_PROCESS_ENTER) else: PTSizer.Add(wx.StaticText(Texture,-1,' Inverse pole figure XYZ: '),0,WACV) PX = textureData['PFxyz'] pfVal = wx.TextCtrl(Texture,-1,'%3.1f %3.1f %3.1f'%(PX[0],PX[1],PX[2]),style=wx.TE_PROCESS_ENTER) pfVal.Bind(wx.EVT_TEXT_ENTER,OnPFValue) pfVal.Bind(wx.EVT_KILL_FOCUS,OnPFValue) PTSizer.Add(pfVal,0,WACV) if 'Axial' not in textureData['PlotType'] and '3D' not in textureData['PlotType']: PTSizer.Add(wx.StaticText(Texture,-1,' Color scheme'),0,WACV) choice = [m for m in mpl.cm.datad.keys() if not m.endswith("_r")] choice.sort() colorSel = wx.ComboBox(Texture,-1,value=G2frame.ContourColor,choices=choice, style=wx.CB_READONLY|wx.CB_DROPDOWN) colorSel.Bind(wx.EVT_COMBOBOX,OnColorSel) PTSizer.Add(colorSel,0,WACV) if 'figure' in textureData['PlotType']: popLA = wx.Button(Texture,-1,"Make CSV file") popLA.Bind(wx.EVT_BUTTON, OnCSV) PTSizer.Add(popLA,0,WACV) mainSizer.Add(PTSizer,0,WACV) mainSizer.Add((0,5),0) if textureData['SHShow']: mainSizer.Add(wx.StaticText(Texture,-1,' Spherical harmonic coefficients: '),0,WACV) mainSizer.Add((0,5),0) ODFSizer = wx.FlexGridSizer(0,8,2,2) ODFIndx = {} ODFkeys = textureData['SH Coeff'][1].keys() ODFkeys.sort() for item in ODFkeys: ODFSizer.Add(wx.StaticText(Texture,-1,item),0,WACV) ODFval = wx.TextCtrl(Texture,wx.ID_ANY,'%8.3f'%(textureData['SH Coeff'][1][item]),style=wx.TE_PROCESS_ENTER) ODFIndx[ODFval.GetId()] = item ODFval.Bind(wx.EVT_TEXT_ENTER,OnODFValue) ODFval.Bind(wx.EVT_KILL_FOCUS,OnODFValue) ODFSizer.Add(ODFval,0,WACV) mainSizer.Add(ODFSizer,0,WACV) mainSizer.Add((0,5),0) mainSizer.Add((0,5),0) mainSizer.Add(wx.StaticText(Texture,-1,' Sample orientation angle zeros: '),0,WACV) mainSizer.Add((0,5),0) angSizer = wx.BoxSizer(wx.HORIZONTAL) angIndx = {} valIndx = {} for item in ['Sample omega','Sample chi','Sample phi']: angRef = wx.CheckBox(Texture,-1,label=item+': ') angRef.SetValue(textureData[item][0]) angIndx[angRef.GetId()] = item angRef.Bind(wx.EVT_CHECKBOX, OnAngRef) angSizer.Add(angRef,0,WACV) angVal = wx.TextCtrl(Texture,wx.ID_ANY,'%8.2f'%(textureData[item][1]),style=wx.TE_PROCESS_ENTER) valIndx[angVal.GetId()] = item angVal.Bind(wx.EVT_TEXT_ENTER,OnAngValue) angVal.Bind(wx.EVT_KILL_FOCUS,OnAngValue) angSizer.Add(angVal,0,WACV|wx.LEFT,5) mainSizer.Add(angSizer,0,WACV|wx.LEFT,5) # mainSizer.Add(SHPenalty(textureData['Penalty']),0,WACV|wx.LEFT,5) for future SetPhaseWindow(G2frame.dataFrame,Texture,mainSizer) ################################################################################ ##### DData routines - GUI stuff in GSASIIddataGUI.py ################################################################################ def OnHklfAdd(event): UseList = data['Histograms'] keyList = UseList.keys() TextList = [] if not G2frame.PatternTree.GetCount(): return item, cookie = G2frame.PatternTree.GetFirstChild(G2frame.root) while item: name = G2frame.PatternTree.GetItemText(item) if name not in keyList and 'HKLF' in name: TextList.append(name) item, cookie = G2frame.PatternTree.GetNextChild(G2frame.root, cookie) dlg = G2G.G2MultiChoiceDialog(G2frame, 'Select reflection sets to use', 'Use data',TextList) try: if dlg.ShowModal() == wx.ID_OK: result = dlg.GetSelections() else: return finally: dlg.Destroy() # get the histograms used in other phases phaseRIdList,usedHistograms = G2frame.GetPhaseInfofromTree() usedHKLFhists = [] # used single-crystal histograms for p in usedHistograms: for h in usedHistograms[p]: if h.startswith('HKLF ') and h not in usedHKLFhists: usedHKLFhists.append(h) # check that selected single crystal histograms are not already in use! for i in result: used = [TextList[i] for i in result if TextList[i] in usedHKLFhists] if used: msg = 'The following single crystal histogram(s) are already in use' for i in used: msg += '\n '+str(i) msg += '\nAre you sure you want to add them to this phase? ' msg += 'Associating a single crystal dataset to >1 histogram is usually an error, ' msg += 'so No is suggested here.' if G2frame.ErrorDialog('Likely error',msg,G2frame,wtype=wx.YES_NO) != wx.ID_YES: return wx.BeginBusyCursor() for i in result: histoName = TextList[i] Id = G2gd.GetPatternTreeItemId(G2frame,G2frame.root,histoName) refDict,reflData = G2frame.PatternTree.GetItemPyData(Id) UseList[histoName] = {'Histogram':histoName,'Show':False,'Scale':[1.0,True], 'Babinet':{'BabA':[0.0,False],'BabU':[0.0,False]}, 'Extinction':['Lorentzian','None', {'Tbar':0.1,'Cos2TM':0.955,'Eg':[1.e-7,False],'Es':[1.e-7,False],'Ep':[1.e-7,False]},], 'Flack':[0.0,False],'Twins':[[np.array([[1,0,0],[0,1,0],[0,0,1]]),[1.0,False,0]],]} if 'TwMax' in reflData: #nonmerohedral twins present UseList[histoName]['Twins'] = [] for iT in range(reflData['TwMax'][0]+1): if iT in reflData['TwMax'][1]: UseList[histoName]['Twins'].append([False,0.0]) else: UseList[histoName]['Twins'].append([np.array([[1,0,0],[0,1,0],[0,0,1]]),[1.0,False,reflData['TwMax'][0]]]) else: #no nonmerohedral twins UseList[histoName]['Twins'] = [[np.array([[1,0,0],[0,1,0],[0,0,1]]),[1.0,False,0]],] UpdateHKLFdata(histoName) data['Histograms'] = UseList wx.CallAfter(G2ddG.UpdateDData,G2frame,DData,data) wx.EndBusyCursor() def OnDataUse(event): UseList = data['Histograms'] hist = G2frame.hist useDict = {} keyList = G2frame.GetHistogramNames(hist[:4]) if UseList: dlg = G2G.G2MultiChoiceDialog(G2frame.dataFrame, 'Use histograms', 'Use which histograms?',keyList) try: if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelections() for id,item in enumerate(keyList): if id in sel: UseList[item]['Use'] = True else: UseList[item]['Use'] = False finally: dlg.Destroy() wx.CallAfter(G2ddG.UpdateDData,G2frame,DData,data) def UpdateHKLFdata(histoName): generalData = data['General'] Id = G2gd.GetPatternTreeItemId(G2frame,G2frame.root,histoName) refDict,reflData = G2frame.PatternTree.GetItemPyData(Id) SGData = generalData['SGData'] Cell = generalData['Cell'][1:7] G,g = G2lat.cell2Gmat(Cell) for iref,ref in enumerate(reflData['RefList']): H = list(ref[:3]) ref[4] = np.sqrt(1./G2lat.calc_rDsq2(H,G)) iabsnt,ref[3],Uniq,phi = G2spc.GenHKLf(H,SGData) def OnDataCopy(event): UseList = data['Histograms'] hist = G2frame.hist keyList = G2frame.GetHistogramNames(hist[:4]) sourceDict = UseList[hist] if 'HKLF' in sourceDict['Histogram']: copyNames = ['Scale','Extinction','Babinet','Flack','Twins'] else: #PWDR copyNames = ['Scale','Pref.Ori.','Size','Mustrain','HStrain','Extinction','Babinet'] copyDict = {} for name in copyNames: copyDict[name] = copy.deepcopy(sourceDict[name]) #force copy if UseList: dlg = G2G.G2MultiChoiceDialog(G2frame.dataFrame, 'Copy parameters', 'Copy parameters to which histograms?',keyList) try: if dlg.ShowModal() == wx.ID_OK: for sel in dlg.GetSelections(): UseList[keyList[sel]].update(copy.deepcopy(copyDict)) finally: dlg.Destroy() def OnDataCopyFlags(event): UseList = data['Histograms'] hist = G2frame.hist sourceDict = UseList[hist] copyDict = {} if 'HKLF' in sourceDict['Histogram']: copyNames = ['Scale','Extinction','Babinet','Flack','Twins'] else: #PWDR copyNames = ['Scale','Pref.Ori.','Size','Mustrain','HStrain','Extinction','Babinet'] babNames = ['BabA','BabU'] for name in copyNames: if name in ['Scale','Extinction','HStrain','Flack','Twins']: if name == 'Extinction' and 'HKLF' in sourceDict['Histogram']: copyDict[name] = {name:[sourceDict[name][:2]]} for item in ['Eg','Es','Ep']: copyDict[name][item] = sourceDict[name][2][item][1] elif name == 'Twins': copyDict[name] = sourceDict[name][0][1][1] else: copyDict[name] = sourceDict[name][1] elif name in ['Size','Mustrain']: copyDict[name] = [sourceDict[name][0],sourceDict[name][2],sourceDict[name][4]] elif name == 'Pref.Ori.': copyDict[name] = [sourceDict[name][0],sourceDict[name][2]] if sourceDict[name][0] == 'SH': SHterms = sourceDict[name][5] SHflags = {} for item in SHterms: SHflags[item] = SHterms[item] copyDict[name].append(SHflags) elif name == 'Babinet': copyDict[name] = {} for bab in babNames: copyDict[name][bab] = sourceDict[name][bab][1] keyList = G2frame.GetHistogramNames(hist[:4]) if UseList: dlg = G2G.G2MultiChoiceDialog(G2frame.dataFrame, 'Copy parameters', 'Copy parameters to which histograms?', keyList) try: if dlg.ShowModal() == wx.ID_OK: for sel in dlg.GetSelections(): item = keyList[sel] UseList[item] for name in copyNames: if name in ['Scale','Extinction','HStrain','Flack','Twins']: if name == 'Extinction' and 'HKLF' in sourceDict['Histogram']: UseList[item][name][:2] = copy.deepcopy(sourceDict[name][:2]) for itm in ['Eg','Es','Ep']: UseList[item][name][2][itm][1] = copy.deepcopy(copyDict[name][itm]) elif name == 'Twins': UseList[item]['Twins'][0][1][1] = copyDict['Twins'] else: UseList[item][name][1] = copy.deepcopy(copyDict[name]) elif name in ['Size','Mustrain']: UseList[item][name][0] = copy.deepcopy(copyDict[name][0]) UseList[item][name][2] = copy.deepcopy(copyDict[name][1]) UseList[item][name][4] = copy.deepcopy(copyDict[name][2]) elif name == 'Pref.Ori.': UseList[item][name][0] = copy.deepcopy(copyDict[name][0]) UseList[item][name][2] = copy.deepcopy(copyDict[name][1]) if sourceDict[name][0] == 'SH': SHflags = copy.deepcopy(copyDict[name][2]) SHterms = copy.deepcopy(sourceDict[name][5]) UseList[item][name][6] = copy.deepcopy(sourceDict[name][6]) UseList[item][name][7] = copy.deepcopy(sourceDict[name][7]) elif name == 'Babinet': for bab in babNames: UseList[item][name][bab][1] = copy.deepcopy(copyDict[name][bab]) finally: dlg.Destroy() def OnSelDataCopy(event): UseList = data['Histograms'] hist = G2frame.hist keyList = G2frame.GetHistogramNames(hist[:4]) sourceDict = UseList[hist] copyDict = {} if 'HKLF' in sourceDict['Histogram']: copyNames = ['Scale','Extinction','Babinet','Flack','Twins'] else: #PWDR copyNames = ['Scale','Pref.Ori.','Size','Mustrain','HStrain','Extinction','Babinet'] dlg = G2G.G2MultiChoiceDialog(G2frame.dataFrame,'Select which parameters to copy', 'Select phase data parameters', copyNames) selectedItems = [] try: if dlg.ShowModal() == wx.ID_OK: selectedItems = [copyNames[i] for i in dlg.GetSelections()] finally: dlg.Destroy() if not selectedItems: return # nothing to copy copyDict = {} for parm in selectedItems: copyDict[parm] = copy.deepcopy(sourceDict[parm]) if UseList: dlg = G2G.G2MultiChoiceDialog(G2frame.dataFrame, 'Copy parameters', 'Copy parameters to which histograms?',keyList) try: if dlg.ShowModal() == wx.ID_OK: for sel in dlg.GetSelections(): UseList[keyList[sel]].update(copy.deepcopy(copyDict)) finally: dlg.Destroy() def OnPwdrAdd(event): generalData = data['General'] SGData = generalData['SGData'] UseList = data['Histograms'] newList = [] NShkl = len(G2spc.MustrainNames(SGData)) NDij = len(G2spc.HStrainNames(SGData)) keyList = UseList.keys() TextList = [] if G2frame.PatternTree.GetCount(): item, cookie = G2frame.PatternTree.GetFirstChild(G2frame.root) while item: name = G2frame.PatternTree.GetItemText(item) if name not in keyList and 'PWDR' in name: TextList.append(name) item, cookie = G2frame.PatternTree.GetNextChild(G2frame.root, cookie) dlg = G2G.G2MultiChoiceDialog(G2frame, 'Select reflection sets to use', 'Use data',TextList) try: if dlg.ShowModal() == wx.ID_OK: result = dlg.GetSelections() for i in result: newList.append(TextList[i]) if 'All PWDR' in newList: newList = TextList[1:] for histoName in newList: Id = G2gd.GetPatternTreeItemId(G2frame,G2frame.root,histoName) UseList[histoName] = {'Histogram':histoName,'Show':False, 'Scale':[1.0,False],'Pref.Ori.':['MD',1.0,False,[0,0,1],0,{},['',],0.1], 'Size':['isotropic',[1.,1.,1.],[False,False,False],[0,0,1], [1.,1.,1.,0.,0.,0.],6*[False,]], 'Mustrain':['isotropic',[1000.0,1000.0,1.0],[False,False,False],[0,0,1], NShkl*[0.01,],NShkl*[False,]], 'HStrain':[NDij*[0.0,],NDij*[False,]], 'Extinction':[0.0,False],'Babinet':{'BabA':[0.0,False],'BabU':[0.0,False]}} refList = G2frame.PatternTree.GetItemPyData(G2gd.GetPatternTreeItemId(G2frame,Id,'Reflection Lists')) refList[generalData['Name']] = {} data['Histograms'] = UseList wx.CallAfter(G2ddG.UpdateDData,G2frame,DData,data) finally: dlg.Destroy() def OnDataDelete(event): UseList = data['Histograms'] keyList = ['All',]+UseList.keys() keyList.sort() DelList = [] if UseList: DelList = [] dlg = wx.MultiChoiceDialog(G2frame, 'Which histogram to delete from this phase?', 'Delete histogram', keyList, wx.CHOICEDLG_STYLE) try: if dlg.ShowModal() == wx.ID_OK: result = dlg.GetSelections() for i in result: DelList.append(keyList[i]) if 'All' in DelList: DelList = keyList[1:] for i in DelList: del UseList[i] data['Histograms'] = UseList wx.CallAfter(G2ddG.UpdateDData,G2frame,DData,data) finally: dlg.Destroy() ################################################################################ ##### Rigid bodies ################################################################################ def FillRigidBodyGrid(refresh=True): '''Fill the Rigid Body Phase information tab page. Note that the page is a ScrolledWindow, not a Grid ''' def OnThermSel(event): #needs to be seen by VecRbSizer! Obj = event.GetEventObject() RBObj = Indx[Obj.GetId()] val = Obj.GetValue() Ttype = 'A' if val == 'Uiso': Ttype = 'I' RBObj['ThermalMotion'][0] = 'Uiso' elif val == 'T': RBObj['ThermalMotion'][0] = 'T' elif val == 'TL': RBObj['ThermalMotion'][0] = 'TL' elif val == 'TLS': RBObj['ThermalMotion'][0] = 'TLS' wx.CallAfter(FillRigidBodyGrid,True) if val != 'None': cia = data['General']['AtomPtrs'][3] for i,id in enumerate(RBObj['Ids']): data['Atoms'][AtLookUp[id]][cia] = Ttype G2plt.PlotStructure(G2frame,data) def ThermDataSizer(RBObj,rbType): def OnThermval(event): event.Skip() Obj = event.GetEventObject() item = Indx[Obj.GetId()] try: val = float(Obj.GetValue()) RBObj['ThermalMotion'][1][item] = val except ValueError: pass Obj.SetValue('%8.4f'%(RBObj['ThermalMotion'][1][item])) Cart = G2mth.UpdateRBXYZ(Bmat,RBObj,RBData,rbType)[1] Uout = G2mth.UpdateRBUIJ(Bmat,Cart,RBObj) cia = data['General']['AtomPtrs'][3] for i,id in enumerate(RBObj['Ids']): if Uout[i][0] == 'I': data['Atoms'][AtLookUp[id]][cia+1] = Uout[i][1] else: data['Atoms'][AtLookUp[id]][cia+2:cia+8] = Uout[i][2:8] G2plt.PlotStructure(G2frame,data) def OnTLSRef(event): Obj = event.GetEventObject() item = Indx[Obj.GetId()] RBObj['ThermalMotion'][2][item] = Obj.GetValue() thermSizer = wx.FlexGridSizer(0,9,5,5) model = RBObj['ThermalMotion'] if model[0] == 'Uiso': names = ['Uiso',] elif 'T' in model[0]: names = ['T11','T22','T33','T12','T13','T23'] if 'L' in model[0]: names += ['L11','L22','L33','L12','L13','L23'] if 'S' in model[0]: names += ['S12','S13','S21','S23','S31','S32','SAA','SBB'] for i,name in enumerate(names): thermSizer.Add(wx.StaticText(RigidBodies,-1,name+': '),0,WACV) thermVal = wx.TextCtrl(RigidBodies,-1,value='%8.4f'%(model[1][i]), style=wx.TE_PROCESS_ENTER) thermVal.Bind(wx.EVT_TEXT_ENTER,OnThermval) thermVal.Bind(wx.EVT_KILL_FOCUS,OnThermval) Indx[thermVal.GetId()] = i thermSizer.Add(thermVal) Tcheck = wx.CheckBox(RigidBodies,-1,'Refine?') Tcheck.Bind(wx.EVT_CHECKBOX,OnTLSRef) Tcheck.SetValue(model[2][i]) Indx[Tcheck.GetId()] = i thermSizer.Add(Tcheck,0,WACV) return thermSizer def LocationSizer(RBObj,rbType): def OnOrigRef(event): RBObj['Orig'][1] = Ocheck.GetValue() def OnOrienRef(event): RBObj['Orient'][1] = Qcheck.GetValue() def OnOrigX(event): event.Skip() Obj = event.GetEventObject() item = Indx[Obj.GetId()] try: val = float(Obj.GetValue()) RBObj['Orig'][0][item] = val Obj.SetValue('%8.5f'%(val)) newXYZ = G2mth.UpdateRBXYZ(Bmat,RBObj,RBData,rbType)[0] for i,id in enumerate(RBObj['Ids']): data['Atoms'][AtLookUp[id]][cx:cx+3] = newXYZ[i] data['Drawing']['Atoms'] = [] UpdateDrawAtoms(atomStyle) G2plt.PlotStructure(G2frame,data) except ValueError: pass def OnOrien(event): event.Skip() Obj = event.GetEventObject() item = Indx[Obj.GetId()] A,V = G2mth.Q2AVdeg(RBObj['Orient'][0]) V = np.inner(Bmat,V) try: val = float(Obj.GetValue()) if item: V[item-1] = val else: A = val Obj.SetValue('%8.5f'%(val)) V = np.inner(Amat,V) Q = G2mth.AVdeg2Q(A,V) if not any(Q): raise ValueError RBObj['Orient'][0] = Q newXYZ = G2mth.UpdateRBXYZ(Bmat,RBObj,RBData,rbType)[0] for i,id in enumerate(RBObj['Ids']): data['Atoms'][AtLookUp[id]][cx:cx+3] = newXYZ[i] data['Drawing']['Atoms'] = [] UpdateDrawAtoms(atomStyle) G2plt.PlotStructure(G2frame,data) except ValueError: pass topSizer = wx.FlexGridSizer(0,6,5,5) Orig = RBObj['Orig'][0] Orien,OrienV = G2mth.Q2AVdeg(RBObj['Orient'][0]) Orien = [Orien,] Orien.extend(OrienV/nl.norm(OrienV)) topSizer.Add(wx.StaticText(RigidBodies,-1,'Origin x,y,z:'),0,WACV) for ix,x in enumerate(Orig): origX = wx.TextCtrl(RigidBodies,-1,value='%8.5f'%(x),style=wx.TE_PROCESS_ENTER) origX.Bind(wx.EVT_TEXT_ENTER,OnOrigX) origX.Bind(wx.EVT_KILL_FOCUS,OnOrigX) Indx[origX.GetId()] = ix topSizer.Add(origX,0,WACV) topSizer.Add((5,0),) Ocheck = wx.CheckBox(RigidBodies,-1,'Refine?') Ocheck.Bind(wx.EVT_CHECKBOX,OnOrigRef) Ocheck.SetValue(RBObj['Orig'][1]) topSizer.Add(Ocheck,0,WACV) topSizer.Add(wx.StaticText(RigidBodies,-1,'Rotation angle, vector:'),0,WACV) for ix,x in enumerate(Orien): orien = wx.TextCtrl(RigidBodies,-1,value='%8.4f'%(x),style=wx.TE_PROCESS_ENTER) orien.Bind(wx.EVT_TEXT_ENTER,OnOrien) orien.Bind(wx.EVT_KILL_FOCUS,OnOrien) Indx[orien.GetId()] = ix topSizer.Add(orien,0,WACV) Qcheck = wx.ComboBox(RigidBodies,-1,value='',choices=[' ','A','AV'], style=wx.CB_READONLY|wx.CB_DROPDOWN) Qcheck.Bind(wx.EVT_COMBOBOX,OnOrienRef) Qcheck.SetValue(RBObj['Orient'][1]) topSizer.Add(Qcheck) return topSizer def ResrbSizer(RBObj): G2frame.dataFrame.SetStatusText('NB: Rotation vector is in crystallographic space') def OnTorsionRef(event): Obj = event.GetEventObject() item = Indx[Obj.GetId()] RBObj['Torsions'][item][1] = Obj.GetValue() def OnTorsion(event): event.Skip() Obj = event.GetEventObject() item = Indx[Obj.GetId()] try: val = float(Obj.GetValue()) RBObj['Torsions'][item][0] = val newXYZ = G2mth.UpdateRBXYZ(Bmat,RBObj,RBData,'Residue')[0] for i,id in enumerate(RBObj['Ids']): data['Atoms'][AtLookUp[id]][cx:cx+3] = newXYZ[i] except ValueError: pass Obj.SetValue("%10.3f"%(RBObj['Torsions'][item][0])) data['Drawing']['Atoms'] = [] UpdateDrawAtoms(atomStyle) drawAtoms.ClearSelection() G2plt.PlotStructure(G2frame,data) def OnDelResRB(event): Obj = event.GetEventObject() RBId = Indx[Obj.GetId()] RBData['Residue'][RBId]['useCount'] -= 1 RBObjs = data['RBModels']['Residue'] for rbObj in RBObjs: if RBId == rbObj['RBId']: data['RBModels']['Residue'].remove(rbObj) G2plt.PlotStructure(G2frame,data) wx.CallAfter(FillRigidBodyGrid,True) resrbSizer = wx.BoxSizer(wx.VERTICAL) resrbSizer.Add(wx.StaticText(RigidBodies,-1,120*'-')) topLine = wx.BoxSizer(wx.HORIZONTAL) topLine.Add(wx.StaticText(RigidBodies,-1, 'Name: '+RBObj['RBname']+RBObj['numChain']+' '),0,WACV) rbId = RBObj['RBId'] delRB = wx.CheckBox(RigidBodies,-1,'Delete?') delRB.Bind(wx.EVT_CHECKBOX,OnDelResRB) Indx[delRB.GetId()] = rbId topLine.Add(delRB,0,WACV) resrbSizer.Add(topLine) resrbSizer.Add(LocationSizer(RBObj,'Residue')) resrbSizer.Add(wx.StaticText(RigidBodies,-1,'Torsions:'),0,WACV) torSizer = wx.FlexGridSizer(0,6,5,5) for itors,tors in enumerate(RBObj['Torsions']): torSizer.Add(wx.StaticText(RigidBodies,-1,'Torsion '+'%d'%(itors)),0,WACV) torsTxt = wx.TextCtrl(RigidBodies,-1,value='%.3f'%(tors[0]),style=wx.TE_PROCESS_ENTER) torsTxt.Bind(wx.EVT_TEXT_ENTER,OnTorsion) torsTxt.Bind(wx.EVT_KILL_FOCUS,OnTorsion) Indx[torsTxt.GetId()] = itors torSizer.Add(torsTxt) torCheck = wx.CheckBox(RigidBodies,-1,'Refine?') torCheck.Bind(wx.EVT_CHECKBOX,OnTorsionRef) torCheck.SetValue(tors[1]) Indx[torCheck.GetId()] = itors torSizer.Add(torCheck,0,WACV) resrbSizer.Add(torSizer) tchoice = ['None','Uiso','T','TL','TLS'] thermSizer = wx.BoxSizer(wx.HORIZONTAL) thermSizer.Add(wx.StaticText(RigidBodies,-1,'Rigid body thermal motion model: '),0,WACV) thermSel = wx.ComboBox(RigidBodies,-1,value=RBObj['ThermalMotion'][0],choices=tchoice, style=wx.CB_READONLY|wx.CB_DROPDOWN) Indx[thermSel.GetId()] = RBObj thermSel.Bind(wx.EVT_COMBOBOX,OnThermSel) thermSizer.Add(thermSel,0,WACV) thermSizer.Add(wx.StaticText(RigidBodies,-1,' Units: T A^2, L deg^2, S deg-A'),0,WACV) resrbSizer.Add(thermSizer) if RBObj['ThermalMotion'][0] != 'None': resrbSizer.Add(ThermDataSizer(RBObj,'Residue')) return resrbSizer def VecrbSizer(RBObj): G2frame.dataFrame.SetStatusText('NB: Rotation vector is in crystallographic space') def OnDelVecRB(event): Obj = event.GetEventObject() RBId = Indx[Obj.GetId()] RBData['Vector'][RBId]['useCount'] -= 1 RBObjs = data['RBModels']['Vector'] for rbObj in RBObjs: if RBId == rbObj['RBId']: data['RBModels']['Vector'].remove(rbObj) G2plt.PlotStructure(G2frame,data) wx.CallAfter(FillRigidBodyGrid,True) vecrbSizer = wx.BoxSizer(wx.VERTICAL) vecrbSizer.Add(wx.StaticText(RigidBodies,-1,120*'-')) topLine = wx.BoxSizer(wx.HORIZONTAL) topLine.Add(wx.StaticText(RigidBodies,-1, 'Name: '+RBObj['RBname']+' '),0,WACV) rbId = RBObj['RBId'] delRB = wx.CheckBox(RigidBodies,-1,'Delete?') delRB.Bind(wx.EVT_CHECKBOX,OnDelVecRB) Indx[delRB.GetId()] = rbId topLine.Add(delRB,0,WACV) vecrbSizer.Add(topLine) vecrbSizer.Add(LocationSizer(RBObj,'Vector')) tchoice = ['None','Uiso','T','TL','TLS'] thermSizer = wx.BoxSizer(wx.HORIZONTAL) thermSizer.Add(wx.StaticText(RigidBodies,-1,'Rigid body thermal motion model: '),0,WACV) thermSel = wx.ComboBox(RigidBodies,-1,value=RBObj['ThermalMotion'][0],choices=tchoice, style=wx.CB_READONLY|wx.CB_DROPDOWN) Indx[thermSel.GetId()] = RBObj thermSel.Bind(wx.EVT_COMBOBOX,OnThermSel) thermSizer.Add(thermSel,0,WACV) thermSizer.Add(wx.StaticText(RigidBodies,-1,' Units: T A^2, L deg^2, S deg-A'),0,WACV) vecrbSizer.Add(thermSizer) if RBObj['ThermalMotion'][0] != 'None': vecrbSizer.Add(ThermDataSizer(RBObj,'Vector')) return vecrbSizer # FillRigidBodyGrid executable code starts here if refresh: #RigidBodies.DestroyChildren() # bad, deletes scrollbars on Mac! if RigidBodies.GetSizer(): RigidBodies.GetSizer().Clear(True) general = data['General'] cx,ct,cs,cia = general['AtomPtrs'] AtLookUp = G2mth.FillAtomLookUp(data['Atoms'],cia+8) Amat,Bmat = G2lat.cell2AB(general['Cell'][1:7]) Id = G2gd.GetPatternTreeItemId(G2frame,G2frame.root,'Rigid bodies') if not Id: return RBData = G2frame.PatternTree.GetItemPyData(Id) Indx = {} atomStyle = 'balls & sticks' if 'macro' in general['Type']: atomStyle = 'sticks' G2frame.dataFrame.SetStatusText('') mainSizer = wx.BoxSizer(wx.VERTICAL) if not data['RBModels']: mainSizer.Add((5,5),0) mainSizer.Add(wx.StaticText(RigidBodies,-1,'No rigid body models:'),0,WACV) mainSizer.Add((5,5),0) if 'Residue' in data['RBModels']: mainSizer.Add((5,5),0) mainSizer.Add(wx.StaticText(RigidBodies,-1,'Residue rigid bodies:'),0,WACV) mainSizer.Add((5,5),0) for RBObj in data['RBModels']['Residue']: mainSizer.Add(ResrbSizer(RBObj)) if 'Vector' in data['RBModels']: mainSizer.Add((5,5),0) mainSizer.Add(wx.StaticText(RigidBodies,-1,'Vector rigid bodies:'),0,WACV) mainSizer.Add((5,5),0) for RBObj in data['RBModels']['Vector']: mainSizer.Add(VecrbSizer(RBObj)) SetPhaseWindow(G2frame.dataFrame,RigidBodies,mainSizer) def OnRBCopyParms(event): RBObjs = [] for rbType in ['Vector','Residue']: RBObjs += data['RBModels'].get(rbType,[]) if not len(RBObjs): print '**** ERROR - no rigid bodies defined ****' return if len(RBObjs) == 1: print '**** INFO - only one rigid body defined; nothing to copy to ****' return Source = [] sourceRB = {} for RBObj in RBObjs: Source.append(RBObj['RBname']) dlg = wx.SingleChoiceDialog(G2frame,'Select source','Copy rigid body parameters',Source) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelection() name = Source[sel] for item in ['Orig','Orient','ThermalMotion']: sourceRB.update({item:RBObjs[sel][item],}) dlg.Destroy() if not sourceRB: return dlg = wx.MultiChoiceDialog(G2frame,'Select targets','Copy rigid body parameters',Source) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelections() for x in sel: RBObjs[x].update(copy.copy(sourceRB)) G2plt.PlotStructure(G2frame,data) wx.CallAfter(FillRigidBodyGrid(True)) def OnRBAssign(event): G2frame.dataFrame.SetStatusText('') RBData = G2frame.PatternTree.GetItemPyData( G2gd.GetPatternTreeItemId(G2frame,G2frame.root,'Rigid bodies')) rbNames = {} for rbVec in RBData['Vector']: if rbVec != 'AtInfo': rbNames[RBData['Vector'][rbVec]['RBname']] =['Vector',rbVec] for rbRes in RBData['Residue']: if rbRes != 'AtInfo': rbNames[RBData['Residue'][rbRes]['RBname']] = ['Residue',rbRes] if not rbNames: print '**** ERROR - no rigid bodies defined ****' return general = data['General'] Amat,Bmat = G2lat.cell2AB(general['Cell'][1:7]) cx,ct = general['AtomPtrs'][:2] atomData = data['Atoms'] Indx = {} atInd = [-1,-1,-1] data['testRBObj'] = {} def Draw(): def OnOk(event): rbType = data['testRBObj']['rbType'] RBObjs = data['RBModels'].get(rbType,[]) rbObj = data['testRBObj']['rbObj'] rbId = rbObj['RBId'] newXYZ = G2mth.UpdateRBXYZ(Bmat,rbObj,RBData,rbType)[0] Ids = [] dmax = 0.0 oldXYZ = G2mth.getAtomXYZ(atomData,cx) for xyz in newXYZ: dist = G2mth.GetXYZDist(xyz,oldXYZ,Amat) dmax = max(dmax,np.min(dist)) id = np.argmin(dist) Ids.append(atomData[id][-1]) atomData[id][cx:cx+3] = xyz if dmax > 1.0: print '**** WARNING - some atoms not found or misidentified ****' print '**** check torsion angles & try again ****' OkBtn.SetLabel('Not Ready') OkBtn.Enable(False) return rbObj['Ids'] = Ids rbObj['ThermalMotion'] = ['None',[0. for i in range(21)],[False for i in range(21)]] #type,values,flags rbObj['RBname'] += ':'+str(RBData[rbType][rbId]['useCount']) RBObjs.append(rbObj) data['RBModels'][rbType] = RBObjs RBData[rbType][rbId]['useCount'] += 1 del data['testRBObj'] G2plt.PlotStructure(G2frame,data) FillRigidBodyGrid(True) def OnCancel(event): del data['testRBObj'] FillRigidBodyGrid(True) def OnRBSel(event): selection = rbSel.GetValue() rbType,rbId = rbNames[selection] data['testRBObj']['rbAtTypes'] = RBData[rbType][rbId]['rbTypes'] data['testRBObj']['AtInfo'] = RBData[rbType]['AtInfo'] data['testRBObj']['rbType'] = rbType data['testRBObj']['rbData'] = RBData data['testRBObj']['Sizers'] = {} rbRef = RBData[rbType][rbId]['rbRef'] data['testRBObj']['rbRef'] = rbRef refType = [] refName = [] for ref in rbRef[:3]: reftype = data['testRBObj']['rbAtTypes'][ref] refType.append(reftype) refName.append(reftype+' '+str(rbRef[0])) atNames,AtNames = fillAtNames(refType,atomData,ct) data['testRBObj']['atNames'] = atNames data['testRBObj']['AtNames'] = AtNames data['testRBObj']['rbObj'] = {'Orig':[[0,0,0],False], 'Orient':[[0.,0.,0.,1.],' '],'Ids':[],'RBId':rbId,'Torsions':[], 'numChain':'','RBname':RBData[rbType][rbId]['RBname']} data['testRBObj']['torAtms'] = [] for item in RBData[rbType][rbId].get('rbSeq',[]): data['testRBObj']['rbObj']['Torsions'].append([item[2],False]) data['testRBObj']['torAtms'].append([-1,-1,-1]) Draw() def fillAtNames(refType,atomData,ct): atNames = [{},{},{}] AtNames = {} for iatm,atom in enumerate(atomData): AtNames[atom[ct-1]] = iatm for i,reftype in enumerate(refType): if atom[ct] == reftype: atNames[i][atom[ct-1]] = iatm return atNames,AtNames def OnAtOrigPick(event): Obj = event.GetEventObject() item = Indx[Obj.GetId()] atName = Obj.GetValue() rbType = data['testRBObj']['rbType'] atInd[0] = atNames[item][atName] if 'Vector' in rbType: rbObj = data['testRBObj']['rbObj'] rbId = rbObj['RBId'] rbRef = data['testRBObj']['rbRef'] rbXYZ = -RBData[rbType][rbId]['rbXYZ'] nref = atNames[item][atName] Oxyz = np.inner(Bmat,np.array(rbXYZ[rbRef[0]])) Nxyz = np.array(atomData[nref][cx:cx+3]) Orig = Nxyz-Oxyz data['testRBObj']['rbObj']['Orig'][0] = Orig else: Orig = atomData[atNames[item][atName]][cx:cx+3] data['testRBObj']['rbObj']['Orig'][0] = Orig for x,item in zip(Orig,Xsizers): item.SetLabel('%10.5f'%(x)) G2plt.PlotStructure(G2frame,data) def OnAtQPick(event): Obj = event.GetEventObject() item = Indx[Obj.GetId()] atName = Obj.GetValue() atInd[item] = atNames[item][atName] if any([x<0 for x in atInd]): return OkBtn.SetLabel('OK') OkBtn.Enable(True) rbType = data['testRBObj']['rbType'] rbObj = data['testRBObj']['rbObj'] rbId = rbObj['RBId'] rbRef = data['testRBObj']['rbRef'] rbXYZ = RBData[rbType][rbId]['rbXYZ'] rbOrig = rbXYZ[rbRef[0]] VAR = rbXYZ[rbRef[1]]-rbOrig VBR = rbXYZ[rbRef[2]]-rbOrig if rbType == 'Vector': Orig = np.array(atomData[atInd[0]][cx:cx+3]) else: Orig = np.array(data['testRBObj']['rbObj']['Orig'][0]) VAC = np.inner(Amat,np.array(atomData[atInd[1]][cx:cx+3])-Orig) VBC = np.inner(Amat,np.array(atomData[atInd[2]][cx:cx+3])-Orig) VCC = np.cross(VAR,VAC) QuatA = G2mth.makeQuat(VAR,VAC,VCC)[0] VAR = G2mth.prodQVQ(QuatA,VAR) VBR = G2mth.prodQVQ(QuatA,VBR) QuatB = G2mth.makeQuat(VBR,VBC,VAR)[0] QuatC = G2mth.prodQQ(QuatB,QuatA) data['testRBObj']['rbObj']['Orient'] = [QuatC,' '] for x,item in zip(QuatC,Osizers): item.SetLabel('%10.4f'%(x)) if rbType == 'Vector': Oxyz = np.inner(Bmat,G2mth.prodQVQ(QuatC,rbOrig)) Nxyz = np.array(atomData[atInd[0]][cx:cx+3]) Orig = Nxyz-Oxyz data['testRBObj']['rbObj']['Orig'][0] = Orig for x,item in zip(Orig,Xsizers): item.SetLabel('%10.5f'%(x)) G2plt.PlotStructure(G2frame,data) def OnTorAngle(event): event.Skip() OkBtn.SetLabel('OK') OkBtn.Enable(True) Obj = event.GetEventObject() [tor,torSlide] = Indx[Obj.GetId()] Tors = data['testRBObj']['rbObj']['Torsions'][tor] try: value = float(Obj.GetValue()) except ValueError: value = Tors[0] Tors[0] = value Obj.SetValue('%8.3f'%(value)) torSlide.SetValue(int(value*10)) G2plt.PlotStructure(G2frame,data) def OnTorSlide(event): OkBtn.SetLabel('OK') OkBtn.Enable(True) Obj = event.GetEventObject() tor,ang = Indx[Obj.GetId()] Tors = data['testRBObj']['rbObj']['Torsions'][tor] val = float(Obj.GetValue())/10. Tors[0] = val ang.SetValue('%8.3f'%(val)) G2plt.PlotStructure(G2frame,data) if len(data['testRBObj']): G2plt.PlotStructure(G2frame,data) #RigidBodies.DestroyChildren() # bad, deletes scrollbars on Mac! if RigidBodies.GetSizer(): RigidBodies.GetSizer().Clear(True) mainSizer = wx.BoxSizer(wx.VERTICAL) mainSizer.Add((5,5),0) if data['testRBObj']: Xsizers = [] Osizers = [] rbObj = data['testRBObj']['rbObj'] rbName = rbObj['RBname'] rbId = rbObj['RBId'] Orig = rbObj['Orig'][0] Orien = rbObj['Orient'][0] rbRef = data['testRBObj']['rbRef'] Torsions = rbObj['Torsions'] refName = [] for ref in rbRef: refName.append(data['testRBObj']['rbAtTypes'][ref]+str(ref)) atNames = data['testRBObj']['atNames'] mainSizer.Add(wx.StaticText(RigidBodies,-1,'Locate rigid body : '+rbName), 0,WACV) mainSizer.Add((5,5),0) OriSizer = wx.FlexGridSizer(0,5,5,5) OriSizer.Add(wx.StaticText(RigidBodies,-1,'Origin x,y,z: '),0,WACV) for ix,x in enumerate(Orig): origX = wx.StaticText(RigidBodies,-1,'%10.5f'%(x)) OriSizer.Add(origX,0,WACV) Xsizers.append(origX) OriSizer.Add((5,0),) if len(atomData): choice = atNames[0].keys() choice.sort() data['testRBObj']['Sizers']['Xsizers'] = Xsizers OriSizer.Add(wx.StaticText(RigidBodies,-1,'Orientation quaternion: '),0,WACV) for ix,x in enumerate(Orien): orien = wx.StaticText(RigidBodies,-1,'%10.4f'%(x)) OriSizer.Add(orien,0,WACV) Osizers.append(orien) data['testRBObj']['Sizers']['Osizers'] = Osizers mainSizer.Add(OriSizer) mainSizer.Add((5,5),0) RefSizer = wx.FlexGridSizer(0,7,5,5) if len(atomData): RefSizer.Add(wx.StaticText(RigidBodies,-1,'Location setting: Select match to'),0,WACV) for i in [0,1,2]: choice = ['',]+atNames[i].keys() choice.sort() RefSizer.Add(wx.StaticText(RigidBodies,-1,' '+refName[i]+': '),0,WACV) atPick = wx.ComboBox(RigidBodies,-1,value='', choices=choice[1:],style=wx.CB_READONLY|wx.CB_DROPDOWN) if i: atPick.Bind(wx.EVT_COMBOBOX, OnAtQPick) else: atPick.Bind(wx.EVT_COMBOBOX, OnAtOrigPick) Indx[atPick.GetId()] = i RefSizer.Add(atPick,0,WACV) mainSizer.Add(RefSizer) mainSizer.Add((5,5),0) if Torsions: AtNames = data['testRBObj']['AtNames'] rbAtTypes = data['testRBObj']['rbAtTypes'] rbSeq = RBData['Residue'][rbId]['rbSeq'] TorSizer = wx.FlexGridSizer(0,4) TorSizer.AddGrowableCol(1,1) for t,[torsion,seq] in enumerate(zip(Torsions,rbSeq)): torName = '' for item in [seq[0],seq[1],seq[3][0]]: torName += data['testRBObj']['rbAtTypes'][item]+str(item)+' ' TorSizer.Add(wx.StaticText(RigidBodies,-1,'Side chain torsion for rb seq: '+torName),0,WACV) torSlide = wx.Slider(RigidBodies,style=wx.SL_HORIZONTAL) torSlide.SetRange(0,3600) torSlide.SetValue(int(torsion[0]*10.)) torSlide.Bind(wx.EVT_SLIDER, OnTorSlide) TorSizer.Add(torSlide,1,wx.EXPAND|wx.RIGHT) TorSizer.Add(wx.StaticText(RigidBodies,-1,' Angle: '),0,WACV) ang = wx.TextCtrl(RigidBodies,-1,value='%8.3f'%(torsion[0]),style=wx.TE_PROCESS_ENTER) ang.Bind(wx.EVT_TEXT_ENTER,OnTorAngle) ang.Bind(wx.EVT_KILL_FOCUS,OnTorAngle) Indx[torSlide.GetId()] = [t,ang] Indx[ang.GetId()] = [t,torSlide] TorSizer.Add(ang,0,WACV) mainSizer.Add(TorSizer,1,wx.EXPAND|wx.RIGHT) else: mainSizer.Add(wx.StaticText(RigidBodies,-1,'No side chain torsions'),0,WACV) else: mainSizer.Add(wx.StaticText(RigidBodies,-1,'Assign rigid body:'),0,WACV) mainSizer.Add((5,5),0) topSizer = wx.BoxSizer(wx.HORIZONTAL) topSizer.Add(wx.StaticText(RigidBodies,-1,'Select rigid body model'),0,WACV) rbSel = wx.ComboBox(RigidBodies,-1,value='',choices=rbNames.keys(), style=wx.CB_READONLY|wx.CB_DROPDOWN) rbSel.Bind(wx.EVT_COMBOBOX, OnRBSel) topSizer.Add((5,5),0) topSizer.Add(rbSel,0,WACV) mainSizer.Add(topSizer) OkBtn = wx.Button(RigidBodies,-1,"Not ready") OkBtn.Bind(wx.EVT_BUTTON, OnOk) OkBtn.Enable(False) CancelBtn = wx.Button(RigidBodies,-1,'Cancel') CancelBtn.Bind(wx.EVT_BUTTON, OnCancel) btnSizer = wx.BoxSizer(wx.HORIZONTAL) btnSizer.Add((20,20),1) btnSizer.Add(OkBtn) btnSizer.Add(CancelBtn) btnSizer.Add((20,20),1) mainSizer.Add(btnSizer,0,wx.EXPAND|wx.BOTTOM|wx.TOP, 10) SetPhaseWindow(G2frame.dataFrame,RigidBodies,mainSizer) Draw() def OnAutoFindResRB(event): RBData = G2frame.PatternTree.GetItemPyData( G2gd.GetPatternTreeItemId(G2frame,G2frame.root,'Rigid bodies')) rbKeys = RBData['Residue'].keys() rbKeys.remove('AtInfo') if not len(rbKeys): print '**** ERROR - no residue rigid bodies are defined ****' return RBNames = [RBData['Residue'][k]['RBname'] for k in rbKeys] RBIds = dict(zip(RBNames,rbKeys)) general = data['General'] cx,ct,cs,cia = general['AtomPtrs'] Amat,Bmat = G2lat.cell2AB(general['Cell'][1:7]) Atoms = data['Atoms'] AtLookUp = G2mth.FillAtomLookUp(Atoms,cia+8) if 'macro' not in general['Type']: print '**** ERROR - this phase is not a macromolecule ****' return if not len(Atoms): print '**** ERROR - this phase has no atoms ****' return RBObjs = [] cx,ct = general['AtomPtrs'][:2] iatm = 0 wx.BeginBusyCursor() try: while iatm < len(Atoms): atom = Atoms[iatm] res = atom[1].strip() numChain = ' %s %s'%(atom[0],atom[2]) if res not in RBIds or atom[ct-1] == 'OXT': iatm += 1 continue #skip for OXT, water molecules, etc. rbRes = RBData['Residue'][RBIds[res]] rbRef = rbRes['rbRef'] VAR = rbRes['rbXYZ'][rbRef[1]]-rbRes['rbXYZ'][rbRef[0]] VBR = rbRes['rbXYZ'][rbRef[2]]-rbRes['rbXYZ'][rbRef[0]] rbObj = {'RBname':rbRes['RBname']+':'+str(rbRes['useCount']),'numChain':numChain} rbAtoms = [] rbIds = [] for iratm in range(len(rbRes['atNames'])): rbAtoms.append(np.array(Atoms[iatm][cx:cx+3])) rbIds.append(Atoms[iatm][20]) iatm += 1 #puts this at beginning of next residue? Orig = rbAtoms[rbRef[0]] rbObj['RBId'] = RBIds[res] rbObj['Ids'] = rbIds rbObj['Orig'] = [Orig,False] # print ' residue '+rbRes['RBname']+str(atom[0]).strip()+ \ # ' origin at: ','%.5f %.5f %.5f'%(Orig[0],Orig[1],Orig[2]) VAC = np.inner(Amat,rbAtoms[rbRef[1]]-Orig) VBC = np.inner(Amat,rbAtoms[rbRef[2]]-Orig) VCC = np.cross(VAR,VAC) QuatA = G2mth.makeQuat(VAR,VAC,VCC)[0] VAR = G2mth.prodQVQ(QuatA,VAR) VBR = G2mth.prodQVQ(QuatA,VBR) QuatB = G2mth.makeQuat(VBR,VBC,VAR)[0] QuatC = G2mth.prodQQ(QuatB,QuatA) rbObj['Orient'] = [QuatC,' '] rbObj['ThermalMotion'] = ['None',[0. for i in range(21)],[False for i in range(21)]] #type,values,flags SXYZ = [] TXYZ = [] rbObj['Torsions'] = [] for i,xyz in enumerate(rbRes['rbXYZ']): SXYZ.append(G2mth.prodQVQ(QuatC,xyz)) TXYZ.append(np.inner(Amat,rbAtoms[i]-Orig)) for Oatm,Patm,x,Riders in rbRes['rbSeq']: VBR = SXYZ[Oatm]-SXYZ[Patm] VAR = SXYZ[Riders[0]]-SXYZ[Patm] VAC = TXYZ[Riders[0]]-TXYZ[Patm] QuatA,D = G2mth.makeQuat(VAR,VAC,VBR) ang = 180.*D/np.pi rbObj['Torsions'].append([ang,False]) for ride in Riders: SXYZ[ride] = G2mth.prodQVQ(QuatA,SXYZ[ride]-SXYZ[Patm])+SXYZ[Patm] rbRes['useCount'] += 1 RBObjs.append(rbObj) data['RBModels']['Residue'] = RBObjs for RBObj in RBObjs: newXYZ = G2mth.UpdateRBXYZ(Bmat,RBObj,RBData,'Residue')[0] for i,id in enumerate(RBObj['Ids']): data['Atoms'][AtLookUp[id]][cx:cx+3] = newXYZ[i] finally: wx.EndBusyCursor() wx.CallAfter(FillRigidBodyGrid,True) def OnRBRemoveAll(event): data['RBModels']['Residue'] = [] data['RBModels']['Vector'] = [] RBData = G2frame.PatternTree.GetItemPyData( G2gd.GetPatternTreeItemId(G2frame,G2frame.root,'Rigid bodies')) for RBType in ['Vector','Residue']: for rbId in RBData[RBType]: RBData[RBType][rbId]['useCount'] = 0 FillRigidBodyGrid(True) def OnGlobalResRBTherm(event): RBObjs = data['RBModels']['Residue'] names = ['None','Uiso','T','TL','TLS'] cia = data['General']['AtomPtrs'][3] AtLookUp = G2mth.FillAtomLookUp(data['Atoms'],cia+8) dlg = wx.SingleChoiceDialog(G2frame,'Select','Residue thermal motion model',names) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelection() parm = names[sel] Ttype = 'A' if parm == 'Uiso': Ttype = 'I' for rbObj in RBObjs: rbObj['ThermalMotion'][0] = parm if parm != 'None': for i,id in enumerate(rbObj['Ids']): data['Atoms'][AtLookUp[id]][cia] = Ttype dlg.Destroy() wx.CallAfter(FillRigidBodyGrid,True) def OnGlobalResRBRef(event): RBObjs = data['RBModels']['Residue'] names = ['Origin','Orient. angle','Full Orient.'] nTor = 0 for rbObj in RBObjs: nTor = max(nTor,len(rbObj['Torsions'])) names += ['Torsion '+str(i) for i in range(nTor)] if np.any([rbObj['ThermalMotion'][0] == 'Uiso' for rbObj in RBObjs]): names += ['Uiso',] if np.any([rbObj['ThermalMotion'][0] == 'TLS' for rbObj in RBObjs]): names += ['Tii','Tij','Lii','Lij','Sij'] elif np.any([rbObj['ThermalMotion'][0] == 'TL' for rbObj in RBObjs]): names += ['Tii','Tij','Lii','Lij'] elif np.any([rbObj['ThermalMotion'][0] == 'T' for rbObj in RBObjs]): names += ['Tii','Tij'] dlg = wx.MultiChoiceDialog(G2frame,'Select','Refinement controls',names) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelections() parms = [] for x in sel: parms.append(names[x]) wx.BeginBusyCursor() try: for rbObj in RBObjs: if 'Origin' in parms: rbObj['Orig'][1] = True else: rbObj['Orig'][1] = False if 'Full Orient.' in parms: rbObj['Orient'][1] = 'AV' elif 'Orient. angle' in parms: rbObj['Orient'][1] = 'A' else: rbObj['Orient'][1] = ' ' for i in range(len(rbObj['Torsions'])): if 'Torsion '+str(i) in parms: rbObj['Torsions'][i][1] = True else: rbObj['Torsions'][i][1] = False if rbObj['ThermalMotion'][0] == 'Uiso': if 'Uiso' in parms: rbObj['ThermalMotion'][2][0] = True else: rbObj['ThermalMotion'][2][0] = False elif 'T' in rbObj['ThermalMotion'][0]: if 'Tii' in parms: rbObj['ThermalMotion'][2][0:2] = [True,True,True] else: rbObj['ThermalMotion'][2][0:2] = [False,False,False] if 'Tij' in parms: rbObj['ThermalMotion'][2][3:6] = [True,True,True] else: rbObj['ThermalMotion'][2][3:6] = [False,False,False] elif 'L' in rbObj['ThermalMotion'][0]: if 'Lii' in parms: rbObj['ThermalMotion'][2][6:9] = [True,True,True] else: rbObj['ThermalMotion'][2][6:9] = [False,False,False] if 'Lij' in parms: rbObj['ThermalMotion'][2][9:12] = [True,True,True] else: rbObj['ThermalMotion'][2][9:12] = [False,False,False] elif 'S' in rbObj['ThermalMotion'][0]: if 'Sij' in parms: rbObj['ThermalMotion'][2][12:20] = [True,True,True,True,True,True,True,True] else: rbObj['ThermalMotion'][2][12:20] = [False,False,False,False,False,False,False,False] finally: wx.EndBusyCursor() FillRigidBodyGrid() ################################################################################ ##### MC/SA routines ################################################################################ def UpdateMCSA(Scroll=0): Indx = {} def OnPosRef(event): Obj = event.GetEventObject() model,item,ix = Indx[Obj.GetId()] model[item][1][ix] = Obj.GetValue() def OnPosVal(event): event.Skip() Obj = event.GetEventObject() model,item,ix = Indx[Obj.GetId()] try: model[item][0][ix] = float(Obj.GetValue()) except ValueError: pass Obj.SetValue("%.4f"%(model[item][0][ix])) G2plt.PlotStructure(G2frame,data) def OnPosRange(event): event.Skip() Obj = event.GetEventObject() model,item,ix = Indx[Obj.GetId()] Range = Obj.GetValue().split() try: rmin,rmax = [float(Range[i]) for i in range(2)] if rmin >= rmax: raise ValueError except (ValueError,IndexError): rmin,rmax = model[item][2][ix] model[item][2][ix] = [rmin,rmax] Obj.SetValue('%.3f %.3f'%(rmin,rmax)) def atomSizer(model): atomsizer = wx.FlexGridSizer(0,7,5,5) atomsizer.Add(wx.StaticText(G2frame.MCSA,-1,' Atom: '+model['name']+': '),0,WACV) for ix,item in enumerate(['x','y','z']): posRef = wx.CheckBox(G2frame.MCSA,-1,label=item+': ') posRef.SetValue(model['Pos'][1][ix]) posRef.Bind(wx.EVT_CHECKBOX,OnPosRef) Indx[posRef.GetId()] = [model,'Pos',ix] atomsizer.Add(posRef,0,WACV) posVal = wx.TextCtrl(G2frame.MCSA,-1,'%.4f'%(model['Pos'][0][ix]),style=wx.TE_PROCESS_ENTER) posVal.Bind(wx.EVT_TEXT_ENTER,OnPosVal) posVal.Bind(wx.EVT_KILL_FOCUS,OnPosVal) Indx[posVal.GetId()] = [model,'Pos',ix] atomsizer.Add(posVal,0,WACV) atomsizer.Add((5,5),0) for ix,item in enumerate(['x','y','z']): atomsizer.Add(wx.StaticText(G2frame.MCSA,-1,' Range: '),0,WACV) rmin,rmax = model['Pos'][2][ix] posRange = wx.TextCtrl(G2frame.MCSA,-1,'%.3f %.3f'%(rmin,rmax),style=wx.TE_PROCESS_ENTER) Indx[posRange.GetId()] = [model,'Pos',ix] posRange.Bind(wx.EVT_TEXT_ENTER,OnPosRange) posRange.Bind(wx.EVT_KILL_FOCUS,OnPosRange) atomsizer.Add(posRange,0,WACV) return atomsizer def rbSizer(model): def OnOrVar(event): Obj = event.GetEventObject() model = Indx[Obj.GetId()] model['Ovar'] = Obj.GetValue() def OnOriVal(event): event.Skip() Obj = event.GetEventObject() model,ix,ObjA,ObjV = Indx[Obj.GetId()] A = model['Ori'][0][0] V = model['Ori'][0][1:] if ix: Anew = A Vec = ObjV.GetValue().split() try: Vnew = [float(Vec[i]) for i in range(3)] except ValueError: Vnew = V else: Vnew = V try: Anew = float(ObjA.GetValue()) if not Anew: #==0.0! Anew = 360. except ValueError: Anew = A Q = G2mth.AVdeg2Q(Anew,Vnew) A,V = G2mth.Q2AVdeg(Q) model['Ori'][0][0] = A model['Ori'][0][1:] = V if ix: ObjV.SetValue('%.3f %.3f %.3f'%(V[0],V[1],V[2])) else: ObjA.SetValue('%.5f'%(A)) ObjV.SetValue('%.3f %.3f %.3f'%(V[0],V[1],V[2])) G2plt.PlotStructure(G2frame,data) # UpdateMCSA() def OnMolCent(event): Obj = event.GetEventObject() model = Indx[Obj.GetId()] model['MolCent'][1] = Obj.GetValue() if model['MolCent'][1]: G2mth.SetMolCent(model,RBData) G2plt.PlotStructure(G2frame,data) rbsizer = wx.BoxSizer(wx.VERTICAL) rbsizer1 = wx.FlexGridSizer(0,7,5,5) rbsizer1.Add(wx.StaticText(G2frame.MCSA,-1,model['Type']+': '+model['name']+': '),0,WACV) for ix,item in enumerate(['x','y','z']): posRef = wx.CheckBox(G2frame.MCSA,-1,label=item+': ') posRef.SetValue(model['Pos'][1][ix]) posRef.Bind(wx.EVT_CHECKBOX,OnPosRef) Indx[posRef.GetId()] = [model,'Pos',ix] rbsizer1.Add(posRef,0,WACV) posVal = wx.TextCtrl(G2frame.MCSA,-1,'%.4f'%(model['Pos'][0][ix]),style=wx.TE_PROCESS_ENTER) posVal.Bind(wx.EVT_TEXT_ENTER,OnPosVal) posVal.Bind(wx.EVT_KILL_FOCUS,OnPosVal) Indx[posVal.GetId()] = [model,'Pos',ix] rbsizer1.Add(posVal,0,WACV) molcent = wx.CheckBox(G2frame.MCSA,-1,label=' Use mol. center? ') molcent.SetValue(model['MolCent'][1]) molcent.Bind(wx.EVT_CHECKBOX,OnMolCent) Indx[molcent.GetId()] = model rbsizer1.Add(molcent,0,WACV) for ix,item in enumerate(['x','y','z']): rbsizer1.Add(wx.StaticText(G2frame.MCSA,-1,' Range: '),0,WACV) rmin,rmax = model['Pos'][2][ix] posRange = wx.TextCtrl(G2frame.MCSA,-1,'%.3f %.3f'%(rmin,rmax),style=wx.TE_PROCESS_ENTER) Indx[posRange.GetId()] = [model,'Pos',ix] posRange.Bind(wx.EVT_TEXT_ENTER,OnPosRange) posRange.Bind(wx.EVT_KILL_FOCUS,OnPosRange) rbsizer1.Add(posRange,0,WACV) rbsizer2 = wx.FlexGridSizer(0,6,5,5) Ori = model['Ori'][0] rbsizer2.Add(wx.StaticText(G2frame.MCSA,-1,'Oa: '),0,WACV) angVal = wx.TextCtrl(G2frame.MCSA,-1,'%.5f'%(Ori[0]),style=wx.TE_PROCESS_ENTER) angVal.Bind(wx.EVT_TEXT_ENTER,OnOriVal) angVal.Bind(wx.EVT_KILL_FOCUS,OnOriVal) rbsizer2.Add(angVal,0,WACV) rbsizer2.Add(wx.StaticText(G2frame.MCSA,-1,'Oi,Oj,Ok: '),0,WACV) vecVal = wx.TextCtrl(G2frame.MCSA,-1,'%.3f %.3f %.3f'%(Ori[1],Ori[2],Ori[3]),style=wx.TE_PROCESS_ENTER) vecVal.Bind(wx.EVT_TEXT_ENTER,OnOriVal) vecVal.Bind(wx.EVT_KILL_FOCUS,OnOriVal) Indx[angVal.GetId()] = [model,0,angVal,vecVal] Indx[vecVal.GetId()] = [model,1,angVal,vecVal] rbsizer2.Add(vecVal,0,WACV) rbsizer2.Add(wx.StaticText(G2frame.MCSA,-1,' Vary? '),0,WACV) choice = [' ','A','AV'] orvar = wx.ComboBox(G2frame.MCSA,-1,value=model['Ovar'],choices=choice, style=wx.CB_READONLY|wx.CB_DROPDOWN) orvar.Bind(wx.EVT_COMBOBOX, OnOrVar) Indx[orvar.GetId()] = model rbsizer2.Add(orvar,0,WACV) rbsizer2.Add(wx.StaticText(G2frame.MCSA,-1,' Range: Oa: '),0,WACV) Rge = model['Ori'][2] angRange = wx.TextCtrl(G2frame.MCSA,-1,'%.3f %.3f'%(Rge[0][0],Rge[0][1]),style=wx.TE_PROCESS_ENTER) Indx[angRange.GetId()] = [model,'Ori',0] angRange.Bind(wx.EVT_TEXT_ENTER,OnPosRange) angRange.Bind(wx.EVT_KILL_FOCUS,OnPosRange) rbsizer2.Add(angRange,0,WACV) rbsizer2.Add(wx.StaticText(G2frame.MCSA,-1,'Oi,Oj,Ok: '),0,WACV) for io,item in enumerate(['Oi','Oj','Ok']): rmin,rmax = Rge[io+1] vecRange = wx.TextCtrl(G2frame.MCSA,-1,'%.3f %.3f '%(rmin,rmax),style=wx.TE_PROCESS_ENTER) Indx[vecRange.GetId()] = [model,'Ori',io+1] vecRange.Bind(wx.EVT_TEXT_ENTER,OnPosRange) vecRange.Bind(wx.EVT_KILL_FOCUS,OnPosRange) rbsizer2.Add(vecRange,0,WACV) rbsizer.Add(rbsizer1) rbsizer.Add(rbsizer2) if model['Type'] == 'Residue': atNames = RBData['Residue'][model['RBId']]['atNames'] rbsizer.Add(wx.StaticText(G2frame.MCSA,-1,'Torsions:'),0,WACV) rbsizer3 = wx.FlexGridSizer(0,8,5,5) for it,tor in enumerate(model['Tor'][0]): iBeg,iFin = RBData['Residue'][model['RBId']]['rbSeq'][it][:2] name = atNames[iBeg]+'-'+atNames[iFin] torRef = wx.CheckBox(G2frame.MCSA,-1,label=' %s: '%(name)) torRef.SetValue(model['Tor'][1][it]) torRef.Bind(wx.EVT_CHECKBOX,OnPosRef) Indx[torRef.GetId()] = [model,'Tor',it] rbsizer3.Add(torRef,0,WACV) torVal = wx.TextCtrl(G2frame.MCSA,-1,'%.4f'%(tor),style=wx.TE_PROCESS_ENTER) torVal.Bind(wx.EVT_TEXT_ENTER,OnPosVal) torVal.Bind(wx.EVT_KILL_FOCUS,OnPosVal) Indx[torVal.GetId()] = [model,'Tor',it] rbsizer3.Add(torVal,0,WACV) rbsizer3.Add(wx.StaticText(G2frame.MCSA,-1,' Range: '),0,WACV) rmin,rmax = model['Tor'][2][it] torRange = wx.TextCtrl(G2frame.MCSA,-1,'%.3f %.3f'%(rmin,rmax),style=wx.TE_PROCESS_ENTER) Indx[torRange.GetId()] = [model,'Tor',it] torRange.Bind(wx.EVT_TEXT_ENTER,OnPosRange) torRange.Bind(wx.EVT_KILL_FOCUS,OnPosRange) rbsizer3.Add(torRange,0,WACV) rbsizer.Add(rbsizer3) return rbsizer def MDSizer(POData): def OnPORef(event): POData['Coef'][1] = poRef.GetValue() def OnPOVal(event): event.Skip() try: mdVal = float(poVal.GetValue()) if mdVal > 0: POData['Coef'][0] = mdVal except ValueError: pass poVal.SetValue("%.3f"%(POData['Coef'][0])) def OnPORange(event): event.Skip() Range = poRange.GetValue().split() try: rmin,rmax = [float(Range[i]) for i in range(2)] if 0. < rmin < rmax: pass else: raise ValueError except (ValueError,IndexError): rmin,rmax = POData['Coef'][2] POData['Coef'][2] = [rmin,rmax] poRange.SetValue('%.3f %.3f'%(rmin,rmax)) def OnPOAxis(event): event.Skip() Saxis = poAxis.GetValue().split() try: hkl = [int(Saxis[i]) for i in range(3)] except (ValueError,IndexError): hkl = POData['axis'] if not np.any(np.array(hkl)): hkl = POData['axis'] POData['axis'] = hkl h,k,l = hkl poAxis.SetValue('%3d %3d %3d'%(h,k,l)) poSizer = wx.BoxSizer(wx.HORIZONTAL) poRef = wx.CheckBox(G2frame.MCSA,-1,label=' March-Dollase ratio: ') poRef.SetValue(POData['Coef'][1]) poRef.Bind(wx.EVT_CHECKBOX,OnPORef) poSizer.Add(poRef,0,WACV) poVal = wx.TextCtrl(G2frame.MCSA,-1,'%.3f'%(POData['Coef'][0]),style=wx.TE_PROCESS_ENTER) poVal.Bind(wx.EVT_TEXT_ENTER,OnPOVal) poVal.Bind(wx.EVT_KILL_FOCUS,OnPOVal) poSizer.Add(poVal,0,WACV) poSizer.Add(wx.StaticText(G2frame.MCSA,-1,' Range: '),0,WACV) rmin,rmax = POData['Coef'][2] poRange = wx.TextCtrl(G2frame.MCSA,-1,'%.3f %.3f'%(rmin,rmax),style=wx.TE_PROCESS_ENTER) poRange.Bind(wx.EVT_TEXT_ENTER,OnPORange) poRange.Bind(wx.EVT_KILL_FOCUS,OnPORange) poSizer.Add(poRange,0,WACV) poSizer.Add(wx.StaticText(G2frame.MCSA,-1,' Unique axis, H K L: '),0,WACV) h,k,l = POData['axis'] poAxis = wx.TextCtrl(G2frame.MCSA,-1,'%3d %3d %3d'%(h,k,l),style=wx.TE_PROCESS_ENTER) poAxis.Bind(wx.EVT_TEXT_ENTER,OnPOAxis) poAxis.Bind(wx.EVT_KILL_FOCUS,OnPOAxis) poSizer.Add(poAxis,0,WACV) return poSizer def ResultsSizer(Results): def OnCellChange(event): r,c = event.GetRow(),event.GetCol() if c == 0: for row in range(resultsGrid.GetNumberRows()): resultsTable.SetValue(row,c,False) Results[row][0] = False result = Results[r] Models = data['MCSA']['Models'] SetSolution(result,Models) Results[r][0] = True resultsTable.SetValue(r,0,True) G2plt.PlotStructure(G2frame,data) wx.CallAfter(UpdateMCSA,G2frame.MCSA.GetScrollPos(wx.VERTICAL)) resultsGrid.ForceRefresh() elif c == 1: if Results[r][1]: Results[r][1] = False else: Results[r][1] = True resultsTable.SetValue(r,c,Results[r][1]) resultsGrid.ForceRefresh() resultsSizer = wx.BoxSizer(wx.VERTICAL) maxVary = 0 resultVals = [] for result in Results: maxVary = max(maxVary,len(result[-1])) resultVals.append(result[:-1]) rowLabels = [] for i in range(len(Results)): rowLabels.append(str(i)) colLabels = ['Select','Keep','Residual','Tmin',] for item in result[-1]: colLabels.append(item) #from last result from for loop above Types = [wg.GRID_VALUE_BOOL,wg.GRID_VALUE_BOOL,wg.GRID_VALUE_FLOAT+':10,4', wg.GRID_VALUE_FLOAT+':10,4',]+maxVary*[wg.GRID_VALUE_FLOAT+':10,5',] resultsTable = G2G.Table(resultVals,rowLabels=rowLabels,colLabels=colLabels,types=Types) resultsGrid = G2G.GSGrid(G2frame.MCSA) resultsGrid.SetTable(resultsTable, True) resultsGrid.Bind(wg.EVT_GRID_CELL_LEFT_CLICK, OnCellChange) resultsGrid.AutoSizeColumns(True) for r in range(resultsGrid.GetNumberRows()): for c in range(resultsGrid.GetNumberCols()): if c in [0,1]: resultsGrid.SetReadOnly(r,c,isReadOnly=False) else: resultsGrid.SetCellStyle(r,c,VERY_LIGHT_GREY,True) resultsSizer.Add(resultsGrid) return resultsSizer # UpdateMCSA executable code starts here #G2frame.MCSA.DestroyChildren() # bad, deletes scrollbars on Mac! if G2frame.MCSA.GetSizer(): G2frame.MCSA.GetSizer().Clear(True) if not data['Drawing']: #if new drawing - no drawing data! SetupDrawingData() general = data['General'] Amat,Bmat = G2lat.cell2AB(general['Cell'][1:7]) Id = G2gd.GetPatternTreeItemId(G2frame,G2frame.root,'Rigid bodies') if not Id: return RBData = G2frame.PatternTree.GetItemPyData(Id) Indx = {} atomStyle = 'balls & sticks' if 'macro' in general['Type']: atomStyle = 'sticks' G2frame.dataFrame.SetStatusText('') mainSizer = wx.BoxSizer(wx.VERTICAL) if not data['MCSA']['Models']: mainSizer.Add((5,5),0) mainSizer.Add(wx.StaticText(G2frame.MCSA,-1,'No MC/SA models:'),0,WACV) mainSizer.Add((5,5),0) else: mainSizer.Add((5,5),0) mainSizer.Add(wx.StaticText(G2frame.MCSA,-1,'MC/SA models:'),0,WACV) mainSizer.Add((5,5),0) for model in data['MCSA']['Models']: Xsize = 500 if model['Type'] == 'MD': mainSizer.Add(MDSizer(model)) elif model['Type'] == 'Atom': Asizer = atomSizer(model) mainSizer.Add(Asizer) Xsize = max(Asizer.GetMinSize()[0],Xsize) else: Rsizer = rbSizer(model) mainSizer.Add(Rsizer) Xsize = max(Rsizer.GetMinSize()[0],Xsize) G2G.HorizontalLine(mainSizer,G2frame.MCSA) if not data['MCSA']['Results']: mainSizer.Add((5,5),0) mainSizer.Add(wx.StaticText(G2frame.MCSA,-1,'No MC/SA results:'),0,WACV) mainSizer.Add((5,5),0) else: mainSizer.Add((5,5),0) mainSizer.Add(wx.StaticText(G2frame.MCSA,-1,'MC/SA results:'),0,WACV) mainSizer.Add((5,5),0) Results = data['MCSA']['Results'] mainSizer.Add(ResultsSizer(Results)) SetPhaseWindow(G2frame.dataFrame,G2frame.MCSA,mainSizer) Size = G2frame.MCSA.GetSize() Size[0] = Xsize+40 G2frame.dataFrame.SetSize(Size) G2frame.MCSA.Scroll(0,Scroll) def SetSolution(result,Models): for key,val in zip(result[-1],result[4:-1]): vals = key.split(':') nObj,name = int(vals[0]),vals[1] if 'A' in name: ind = ['Ax','Ay','Az'].index(name) Models[nObj]['Pos'][0][ind] = val elif 'Q' in name: ind = ['Qa','Qi','Qj','Qk'].index(name) Models[nObj]['Ori'][0][ind] = val elif 'P' in name: ind = ['Px','Py','Pz'].index(name) Models[nObj]['Pos'][0][ind] = val elif 'T' in name: tnum = int(name.split('Tor')[1]) Models[nObj]['Tor'][0][tnum] = val else: #March Dollase Models[0]['Coef'][0] = val def OnRunMultiMCSA(event): RunMCSA('multi') def OnRunSingleMCSA(event): RunMCSA('single') def RunMCSA(process): generalData = data['General'] mcsaControls = generalData['MCSA controls'] reflName = mcsaControls['Data source'] phaseName = generalData['Name'] MCSAdata = data['MCSA'] saveResult = [] for result in MCSAdata['Results']: if result[1]: #keep? saveResult.append(result) MCSAdata['Results'] = saveResult covData = {} if 'PWDR' in reflName: PatternId = G2gd.GetPatternTreeItemId(G2frame,G2frame.root, reflName) reflSets = G2frame.PatternTree.GetItemPyData(G2gd.GetPatternTreeItemId(G2frame,PatternId,'Reflection Lists')) try: #patch for old reflection data reflData = reflSets[phaseName]['RefList'] except TypeError: reflData = reflSets[phaseName] reflType = 'PWDR' elif 'HKLF' in reflName: PatternId = G2gd.GetPatternTreeItemId(G2frame,G2frame.root, reflName) try: reflData = G2frame.PatternTree.GetItemPyData(PatternId)[1]['RefList'] except TypeError: reflData = G2frame.PatternTree.GetItemPyData(PatternId)[1] reflType = 'HKLF' elif reflName == 'Pawley reflections': reflData = data['Pawley ref'] covData = G2frame.PatternTree.GetItemPyData(G2gd.GetPatternTreeItemId(G2frame,G2frame.root, 'Covariance')) reflType = 'Pawley' else: print '**** ERROR - No data defined for MC/SA run' return print 'MC/SA run:' print 'Reflection type:',reflType,' Total No. reflections: ',len(reflData) RBdata = G2frame.PatternTree.GetItemPyData( G2gd.GetPatternTreeItemId(G2frame,G2frame.root,'Rigid bodies')) MCSAmodels = MCSAdata['Models'] if not len(MCSAmodels): print '**** ERROR - no models defined for MC/SA run****' return time1 = time.time() if process == 'single': pgbar = wx.ProgressDialog('MC/SA','Residual Rcf =',101.0, style = wx.PD_ELAPSED_TIME|wx.PD_AUTO_HIDE|wx.PD_CAN_ABORT) screenSize = wx.ClientDisplayRect() Size = pgbar.GetSize() if 50 < Size[0] < 500: # sanity check on size, since this fails w/Win & wx3.0 pgbar.SetSize((int(Size[0]*1.2),Size[1])) # increase size a bit along x pgbar.SetPosition(wx.Point(screenSize[2]-Size[0]-305,screenSize[1]+5)) else: pgbar = None try: tsf = 0. nCyc = mcsaControls['Cycles'] if process == 'single': for i in range(nCyc): pgbar.SetTitle('MC/SA run '+str(i+1)+' of '+str(nCyc)) Result,tsum = G2mth.mcsaSearch(data,RBdata,reflType,reflData,covData,pgbar) MCSAdata['Results'].append(Result) print ' MC/SA run completed: %d residual: %.3f%% SFcalc time: %.2fs'%(i,100*Result[2],tsum) tsf += tsum print ' Structure factor time: %.2f'%(tsf) else: MCSAdata['Results'] = G2mth.MPmcsaSearch(nCyc,data,RBdata,reflType,reflData,covData) print ' MC/SA run time: %.2f'%(time.time()-time1) finally: if process == 'single': pgbar.Destroy() MCSAdata['Results'] = G2mth.sortArray(MCSAdata['Results'],2,reverse=False) MCSAdata['Results'][0][0] = True SetSolution(MCSAdata['Results'][0],data['MCSA']['Models']) G2frame.dataDisplay.SetFocus() Page = G2frame.dataDisplay.FindPage('MC/SA') G2frame.dataDisplay.SetSelection(Page) G2plt.PlotStructure(G2frame,data) wx.CallAfter(UpdateMCSA) def OnMCSAaddAtom(event): dlg = G2elemGUI.PickElement(G2frame) if dlg.ShowModal() == wx.ID_OK: El = dlg.Elem.strip() Info = G2elem.GetAtomInfo(El) dlg.Destroy() atom = {'Type':'Atom','atType':El,'Pos':[[0.,0.,0.], [False,False,False],[[0.,1.],[0.,1.],[0.,1.]]], 'name':El+'('+str(len(data['MCSA']['Models']))+')'} data['MCSA']['Models'].append(atom) data['MCSA']['AtInfo'][El] = [Info['Drad'],Info['Color']] G2plt.PlotStructure(G2frame,data) UpdateMCSA() def OnMCSAaddRB(event): rbData = G2frame.PatternTree.GetItemPyData( G2gd.GetPatternTreeItemId(G2frame,G2frame.root,'Rigid bodies')) rbNames = {} for rbVec in rbData['Vector']: if rbVec != 'AtInfo': rbNames[rbData['Vector'][rbVec]['RBname']] = ['Vector',rbVec] for rbRes in rbData['Residue']: if rbRes != 'AtInfo': rbNames[rbData['Residue'][rbRes]['RBname']] = ['Residue',rbRes] if not rbNames: print '**** ERROR - no rigid bodies defined ****' return dlg = wx.SingleChoiceDialog(G2frame.dataFrame,'Select','Rigid body',rbNames.keys()) if dlg.ShowModal() == wx.ID_OK: sel = dlg.GetSelection() rbname = rbNames.keys()[sel] rbType,rbId = rbNames[rbname] RB = rbData[rbType][rbId] body = {'name':RB['RBname']+'('+str(len(data['MCSA']['Models']))+')','RBId':rbId,'Type':rbType, 'Pos':[[0.,0.,0.],[False,False,False],[[0.,1.],[0.,1.],[0.,1.]]],'Ovar':'','MolCent':[[0.,0.,0.],False], 'Ori':[[180.,0.,0.,1.],[False,False,False,False],[[0.,360.],[-1.,1.],[-1.,1.],[-1.,1.]]]} if rbType == 'Residue': body['Tor'] = [[],[],[]] for i,tor in enumerate(RB['rbSeq']): body['Tor'][0].append(0.0) body['Tor'][1].append(False) body['Tor'][2].append([0.,360.]) data['MCSA']['Models'].append(body) data['MCSA']['rbData'] = rbData data['MCSA']['AtInfo'].update(rbData[rbType]['AtInfo']) G2plt.PlotStructure(G2frame,data) UpdateMCSA() def OnMCSAclear(event): data['MCSA'] = {'Models':[{'Type':'MD','Coef':[1.0,False,[.8,1.2],],'axis':[0,0,1]}],'Results':[],'AtInfo':{}} G2plt.PlotStructure(G2frame,data) UpdateMCSA() def OnMCSAmove(event): general = data['General'] Amat,Bmat = G2lat.cell2AB(general['Cell'][1:7]) xyz,aTypes = G2mth.UpdateMCSAxyz(Bmat,data['MCSA']) for iat,atype in enumerate(aTypes): x,y,z = xyz[iat] AtomAdd(x,y,z,atype,Name=atype+'(%d)'%(iat+1)) G2plt.PlotStructure(G2frame,data) def OnClearResults(event): data['MCSA']['Results'] = [] UpdateMCSA() ################################################################################ ##### Pawley routines ################################################################################ def FillPawleyReflectionsGrid(): def KeyEditPawleyGrid(event): colList = G2frame.PawleyRefl.GetSelectedCols() rowList = G2frame.PawleyRefl.GetSelectedRows() PawleyPeaks = data['Pawley ref'] if event.GetKeyCode() == wx.WXK_RETURN: event.Skip(True) elif event.GetKeyCode() == wx.WXK_CONTROL: event.Skip(True) elif event.GetKeyCode() == wx.WXK_SHIFT: event.Skip(True) elif colList: G2frame.PawleyRefl.ClearSelection() key = event.GetKeyCode() for col in colList: if PawleyTable.GetTypeName(0,col) == wg.GRID_VALUE_BOOL: if key == 89: #'Y' for row in range(PawleyTable.GetNumberRows()): PawleyPeaks[row][col]=True elif key == 78: #'N' for row in range(PawleyTable.GetNumberRows()): PawleyPeaks[row][col]=False FillPawleyReflectionsGrid() elif rowList: if event.GetKeyCode() == wx.WXK_DELETE: rowList.reverse() for row in rowList: del(PawleyPeaks[row]) FillPawleyReflectionsGrid() # FillPawleyReflectionsGrid executable starts here G2frame.dataFrame.SetStatusText('To delete a Pawley reflection: select row & press Delete') generalData = data['General'] if 'Pawley ref' in data: PawleyPeaks = data['Pawley ref'] rowLabels = [] for i in range(len(PawleyPeaks)): rowLabels.append(str(i)) if generalData['Modulated']: colLabels = ['h','k','l','m','mul','d','refine','Fsq(hkl)','sig(Fsq)'] Types = 5*[wg.GRID_VALUE_LONG,]+[wg.GRID_VALUE_FLOAT+':10,4',wg.GRID_VALUE_BOOL,]+ \ 2*[wg.GRID_VALUE_FLOAT+':10,2',] pos = [6,7] else: colLabels = ['h','k','l','mul','d','refine','Fsq(hkl)','sig(Fsq)'] Types = 4*[wg.GRID_VALUE_LONG,]+[wg.GRID_VALUE_FLOAT+':10,4',wg.GRID_VALUE_BOOL,]+ \ 2*[wg.GRID_VALUE_FLOAT+':10,2',] pos = [5,6] PawleyTable = G2G.Table(PawleyPeaks,rowLabels=rowLabels,colLabels=colLabels,types=Types) G2frame.PawleyRefl.SetTable(PawleyTable, True) G2frame.PawleyRefl.Bind(wx.EVT_KEY_DOWN, KeyEditPawleyGrid) for r in range(G2frame.PawleyRefl.GetNumberRows()): for c in range(G2frame.PawleyRefl.GetNumberCols()): if c in pos: G2frame.PawleyRefl.SetReadOnly(r,c,isReadOnly=False) else: G2frame.PawleyRefl.SetCellStyle(r,c,VERY_LIGHT_GREY,True) G2frame.PawleyRefl.SetMargins(0,0) G2frame.PawleyRefl.AutoSizeColumns(False) G2frame.dataFrame.setSizePosLeft([450,300]) def OnPawleyLoad(event): generalData = data['General'] histograms = data['Histograms'].keys() cell = generalData['Cell'][1:7] A = G2lat.cell2A(cell) SGData = generalData['SGData'] dmin = generalData['Pawley dmin'] for hist in histograms: if 'PWDR' in hist[:4]: Id = G2gd.GetPatternTreeItemId(G2frame,G2frame.root,hist) inst = G2frame.PatternTree.GetItemPyData(G2gd.GetPatternTreeItemId( G2frame,Id, 'Instrument Parameters'))[0] limits = G2frame.PatternTree.GetItemPyData(G2gd.GetPatternTreeItemId(G2frame,Id, 'Limits')) Tmin = G2lat.Dsp2pos(inst,dmin) if 'T' in inst['Type'][0]: limits[1][0] = max(limits[0][0],Tmin) else: limits[1][1] = min(limits[0][1],Tmin) PawleyPeaks = [] HKLd = np.array(G2lat.GenHLaue(dmin,SGData,A)) if generalData['Modulated']: Vec,x,maxH = generalData['SuperVec'] SSGData = G2spc.SSpcGroup(SGData,generalData['SuperSg'])[1] wx.BeginBusyCursor() try: HKLd = G2lat.GenSSHLaue(dmin,SGData,SSGData,Vec,maxH,A) for h,k,l,m,d in HKLd: ext,mul = G2spc.GenHKLf([h,k,l],SGData)[:2] if m or not ext: mul *= 2 #for powder multiplicity PawleyPeaks.append([h,k,l,m,mul,d,False,100.0,1.0]) PawleyPeaks = G2mth.sortArray(PawleyPeaks,5,reverse=True) finally: wx.EndBusyCursor() else: wx.BeginBusyCursor() try: for h,k,l,d in HKLd: ext,mul = G2spc.GenHKLf([h,k,l],SGData)[:2] if not ext: mul *= 2 #for powder multiplicity PawleyPeaks.append([h,k,l,mul,d,False,100.0,1.0]) PawleyPeaks = G2mth.sortArray(PawleyPeaks,4,reverse=True) finally: wx.EndBusyCursor() data['Pawley ref'] = PawleyPeaks FillPawleyReflectionsGrid() def OnPawleyEstimate(event): #Algorithm thanks to James Hester try: Refs = data['Pawley ref'] Histograms = data['Histograms'] except KeyError: G2frame.ErrorDialog('Pawley estimate','No histograms defined for this phase') return Vst = 1.0/data['General']['Cell'][7] #Get volume generalData = data['General'] im = 0 if generalData['Modulated']: im = 1 HistoNames = filter(lambda a:Histograms[a]['Use']==True,Histograms.keys()) PatternId = G2gd.GetPatternTreeItemId(G2frame,G2frame.root,HistoNames[0]) xdata = G2frame.PatternTree.GetItemPyData(PatternId)[1] Inst = G2frame.PatternTree.GetItemPyData(G2gd.GetPatternTreeItemId(G2frame,PatternId,'Instrument Parameters'))[0] Sample = G2frame.PatternTree.GetItemPyData(G2gd.GetPatternTreeItemId(G2frame,PatternId,'Sample Parameters')) wave = G2mth.getWave(Inst) posCorr = Inst['Zero'][1] const = 9.e-2/(np.pi*Sample['Gonio. radius']) #shifts in microns gconst = 2.35482 # sqrt(8 ln 2) wx.BeginBusyCursor() try: for ref in Refs: pos = 2.0*asind(wave/(2.0*ref[4+im])) if 'Bragg' in Sample['Type']: pos -= const*(4.*Sample['Shift'][0]*cosd(pos/2.0)+ \ Sample['Transparency'][0]*sind(pos)*100.0) #trans(=1/mueff) in cm else: #Debye-Scherrer - simple but maybe not right pos -= const*(Sample['DisplaceX'][0]*cosd(pos)+Sample['DisplaceY'][0]*sind(pos)) indx = np.searchsorted(xdata[0],pos) try: FWHM = max(0.001,G2pwd.getFWHM(pos,Inst)) # We want to estimate Pawley F^2 as a drop-in replacement for F^2 calculated by the structural # routines, which use Icorr * F^2 * peak profile, where peak profile has an area of 1. So # we multiply the observed peak height by sqrt(8 ln 2)/(FWHM*sqrt(pi)) to determine the value of Icorr*F^2 # then divide by Icorr to get F^2. ref[6+im] = (xdata[1][indx]-xdata[4][indx])*gconst/(FWHM*np.sqrt(np.pi)) #Area of Gaussian is height * FWHM * sqrt(pi) Lorenz = 1./(2.*sind(xdata[0][indx]/2.)**2*cosd(xdata[0][indx]/2.)) #Lorentz correction pola = 1.0 if 'X' in Inst['Type']: pola,dIdPola = G2pwd.Polarization(Inst['Polariz.'][1],xdata[0][indx],Inst['Azimuth'][1]) else: pola = 1.0 # Include histo scale and volume in calculation ref[6+im] /= (Sample['Scale'][0] * Vst * Lorenz * pola * ref[3+im]) except IndexError: pass finally: wx.EndBusyCursor() FillPawleyReflectionsGrid() def OnPawleyUpdate(event): '''This is the place for any reflection modification trick Patterson squared, leBail extraction, etc. ''' try: Refs = data['Pawley ref'] Histograms = data['Histograms'] except KeyError: G2frame.ErrorDialog('Pawley update','No histograms defined for this phase') return HistoNames = Histograms.keys() PatternId = G2gd.GetPatternTreeItemId(G2frame,G2frame.root,HistoNames[0]) refData = G2frame.PatternTree.GetItemPyData(G2gd.GetPatternTreeItemId(G2frame, \ PatternId,'Reflection Lists'))[PhaseName]['RefList'] im = 0 if data['General']['Modulated']: im = 1 Inv = data['General']['SGData']['SGInv'] mult = 0.5 if Inv: mult = 0.3 wx.BeginBusyCursor() try: for iref,ref in enumerate(Refs): try: if ref[6+im] < 0.: ref[6+im] *= -mult refData[iref][8+im] *= -mult refData[iref][9+im] *= -mult ref[5+im] = False ref[7+im] = 1.0 except IndexError: print 'skipped',ref pass finally: wx.EndBusyCursor() wx.CallAfter(FillPawleyReflectionsGrid) ################################################################################ ##### Fourier routines ################################################################################ def FillMapPeaksGrid(): def RowSelect(event): r,c = event.GetRow(),event.GetCol() if r < 0 and c < 0: if MapPeaks.IsSelection(): MapPeaks.ClearSelection() else: for row in range(MapPeaks.GetNumberRows()): MapPeaks.SelectRow(row,True) elif c < 0: #only row clicks if event.ControlDown(): if r in MapPeaks.GetSelectedRows(): MapPeaks.DeselectRow(r) else: MapPeaks.SelectRow(r,True) elif event.ShiftDown(): indxs = MapPeaks.GetSelectedRows() MapPeaks.ClearSelection() ibeg = 0 if indxs: ibeg = indxs[-1] for row in range(ibeg,r+1): MapPeaks.SelectRow(row,True) else: MapPeaks.ClearSelection() MapPeaks.SelectRow(r,True) elif r < 0: #a column pick mapPeaks = data['Map Peaks'] c = event.GetCol() if colLabels[c] == 'mag': #big to small order mapPeaks = G2mth.sortArray(mapPeaks,c,reverse=True) elif colLabels[c] in ['x','y','z','dzero','dcent']: #small to big mapPeaks = G2mth.sortArray(mapPeaks,c) else: return data['Map Peaks'] = mapPeaks wx.CallAfter(FillMapPeaksGrid) G2plt.PlotStructure(G2frame,data) G2frame.dataFrame.setSizePosLeft([500,300]) G2frame.dataFrame.SetStatusText('') if 'Map Peaks' in data: G2frame.dataFrame.SetStatusText('Double click any column heading to sort') mapPeaks = data['Map Peaks'] rowLabels = [] for i in range(len(mapPeaks)): rowLabels.append(str(i)) colLabels = ['mag','x','y','z','dzero','dcent'] Types = 6*[wg.GRID_VALUE_FLOAT+':10,4',] G2frame.MapPeaksTable = G2G.Table(mapPeaks,rowLabels=rowLabels,colLabels=colLabels,types=Types) MapPeaks.SetTable(G2frame.MapPeaksTable, True) MapPeaks.Bind(wg.EVT_GRID_LABEL_LEFT_CLICK, RowSelect) for r in range(MapPeaks.GetNumberRows()): for c in range(MapPeaks.GetNumberCols()): MapPeaks.SetCellStyle(r,c,VERY_LIGHT_GREY,True) MapPeaks.SetMargins(0,0) MapPeaks.AutoSizeColumns(False) def OnPeaksMove(event): if 'Map Peaks' in data: mapPeaks = np.array(data['Map Peaks']) peakMax = np.max(mapPeaks.T[0]) Ind = MapPeaks.GetSelectedRows() for ind in Ind: mag,x,y,z = mapPeaks[ind][:4] AtomAdd(x,y,z,'H',Name='M '+'%d'%(int(100*mag/peakMax))) G2plt.PlotStructure(G2frame,data) def OnPeaksClear(event): data['Map Peaks'] = [] FillMapPeaksGrid() G2plt.PlotStructure(G2frame,data) def OnPeaksDelete(event): if 'Map Peaks' in data: mapPeaks = data['Map Peaks'] Ind = MapPeaks.GetSelectedRows() Ind.sort() Ind.reverse() for ind in Ind: mapPeaks = np.delete(mapPeaks,ind,0) data['Map Peaks'] = mapPeaks FillMapPeaksGrid() G2plt.PlotStructure(G2frame,data) def OnPeaksEquiv(event): if 'Map Peaks' in data: mapPeaks = data['Map Peaks'] Ind = MapPeaks.GetSelectedRows() if Ind: wx.BeginBusyCursor() try: Ind = G2mth.PeaksEquiv(data,Ind) for r in range(MapPeaks.GetNumberRows()): if r in Ind: MapPeaks.SelectRow(r,addToSelected=True) else: MapPeaks.DeselectRow(r) finally: wx.EndBusyCursor() G2plt.PlotStructure(G2frame,data) def OnShowBonds(event): generalData = data['General'] if generalData['Map'].get('Show bonds',False): generalData['Map']['Show bonds'] = False G2frame.dataFrame.MapPeaksEdit.SetLabel(G2gd.wxID_SHOWBONDS,'Show bonds') else: generalData['Map']['Show bonds'] = True G2frame.dataFrame.MapPeaksEdit.SetLabel(G2gd.wxID_SHOWBONDS,'Hide bonds') FillMapPeaksGrid() G2plt.PlotStructure(G2frame,data) def OnPeaksUnique(event): if 'Map Peaks' in data: mapPeaks = data['Map Peaks'] Ind = MapPeaks.GetSelectedRows() if Ind: wx.BeginBusyCursor() try: Ind = G2mth.PeaksUnique(data,Ind) print ' No. unique peaks: ',len(Ind), \ ' Unique peak fraction: %.3f'%(float(len(Ind))/len(mapPeaks)) for r in range(MapPeaks.GetNumberRows()): if r in Ind: MapPeaks.SelectRow(r,addToSelected=True) else: MapPeaks.DeselectRow(r) finally: wx.EndBusyCursor() G2plt.PlotStructure(G2frame,data) def OnPeaksViewPoint(event): # set view point indx = MapPeaks.GetSelectedRows() if not indx: G2frame.ErrorDialog('Set viewpoint','No peaks selected') return mapPeaks = data['Map Peaks'] drawingData = data['Drawing'] drawingData['viewPoint'][0] = mapPeaks[indx[0]][1:4] G2plt.PlotStructure(G2frame,data) def OnPeaksDistVP(event): # distance to view point indx = MapPeaks.GetSelectedRows() if not indx: G2frame.ErrorDialog('Peak distance','No peaks selected') return generalData = data['General'] Amat,Bmat = G2lat.cell2AB(generalData['Cell'][1:7]) mapPeaks = data['Map Peaks'] drawingData = data['Drawing'] viewPt = np.array(drawingData['viewPoint'][0]) print ' Distance from view point at %.3f %.3f %.3f to:'%(viewPt[0],viewPt[1],viewPt[2]) colLabels = [MapPeaks.GetColLabelValue(c) for c in range(MapPeaks.GetNumberCols())] cx = colLabels.index('x') cm = colLabels.index('mag') for i in indx: peak = mapPeaks[i] Dx = np.array(peak[cx:cx+3])-viewPt dist = np.sqrt(np.sum(np.inner(Amat,Dx)**2,axis=0)) print 'Peak: %5d mag= %8.2f distance = %.3f'%(i,peak[cm],dist) def OnPeaksDA(event): #distance, angle indx = MapPeaks.GetSelectedRows() if len(indx) not in [2,3]: G2frame.ErrorDialog('Peak distance/angle','Wrong number of atoms for distance or angle calculation') return generalData = data['General'] Amat,Bmat = G2lat.cell2AB(generalData['Cell'][1:7]) mapPeaks = data['Map Peaks'] xyz = [] for i in indx: xyz.append(mapPeaks[i][1:4]) if len(indx) == 2: print ' distance for atoms %s = %.3f'%(str(indx),G2mth.getRestDist(xyz,Amat)) else: print ' angle for atoms %s = %.2f'%(str(indx),G2mth.getRestAngle(xyz,Amat)) def OnFourierMaps(event): generalData = data['General'] mapData = generalData['Map'] reflNames = mapData['RefList'] if not generalData['Map']['MapType']: G2frame.ErrorDialog('Fourier map error','Fourier map type not defined') return if not len(reflNames): G2frame.ErrorDialog('Fourier map error','No reflections defined for Fourier map') return phaseName = generalData['Name'] ReflData = GetReflData(G2frame,phaseName,reflNames) if ReflData == None: return if 'Omit' in mapData['MapType']: pgbar = wx.ProgressDialog('Omit map','Blocks done',65, style = wx.PD_ELAPSED_TIME|wx.PD_AUTO_HIDE) mapData.update(G2mth.OmitMap(data,ReflData,pgbar)) pgbar.Destroy() else: if generalData['Modulated']: dim = '4D ' G2mth.Fourier4DMap(data,ReflData) else: dim = '3D ' G2mth.FourierMap(data,ReflData) mapData['Flip'] = False mapSig = np.std(mapData['rho']) if not data['Drawing']: #if new drawing - no drawing data! SetupDrawingData() data['Drawing']['contourLevel'] = 1. data['Drawing']['mapSize'] = 10. print dim+mapData['MapType']+' computed: rhomax = %.3f rhomin = %.3f sigma = %.3f'%(np.max(mapData['rho']),np.min(mapData['rho']),mapSig) UpdateDrawAtoms() G2plt.PlotStructure(G2frame,data) def OnFourClear(event): generalData = data['General'] generalData['Map'] = mapDefault.copy() G2plt.PlotStructure(G2frame,data) # map printing for testing purposes def printRho(SGLaue,rho,rhoMax): dim = len(rho.shape) if dim == 2: ix,jy = rho.shape for j in range(jy): line = '' if SGLaue in ['3','3m1','31m','6/m','6/mmm']: line += (jy-j)*' ' for i in range(ix): r = int(100*rho[i,j]/rhoMax) line += '%4d'%(r) print line+'\n' else: ix,jy,kz = rho.shape for k in range(kz): print 'k = ',k for j in range(jy): line = '' if SGLaue in ['3','3m1','31m','6/m','6/mmm']: line += (jy-j)*' ' for i in range(ix): r = int(100*rho[i,j,k]/rhoMax) line += '%4d'%(r) print line+'\n' ## keep this def OnSearchMaps(event): print ' Begin fourier map search - can take some time' time0 = time.time() generalData = data['General'] drawingData = data['Drawing'] mapData = generalData['Map'] if len(mapData['rho']): wx.BeginBusyCursor() try: peaks,mags,dzeros,dcents = G2mth.SearchMap(generalData,drawingData) if 'N' in mapData['Type']: #look for negatives in neutron maps npeaks,nmags,ndzeros,ndcents = G2mth.SearchMap(generalData,drawingData,Neg=True) peaks = np.concatenate((peaks,npeaks)) mags = np.concatenate((mags,nmags)) dzeros = np.concatenate((dzeros,ndzeros)) dcents = np.concatenate((dcents,ndcents)) finally: wx.EndBusyCursor() if len(peaks): mapPeaks = np.concatenate((mags,peaks,dzeros,dcents),axis=1) data['Map Peaks'] = G2mth.sortArray(mapPeaks,0,reverse=True) print ' Map search finished, time = %.2fs'%(time.time()-time0) print ' No.peaks found:',len(peaks) Page = G2frame.dataDisplay.FindPage('Map peaks') G2frame.dataDisplay.SetSelection(Page) wx.CallAfter(FillMapPeaksGrid) UpdateDrawAtoms() else: print 'No map available' def On4DChargeFlip(event): generalData = data['General'] mapData = generalData['Map'] map4DData = generalData['4DmapData'] flipData = generalData['Flip'] reflNames = flipData['RefList'] if not len(reflNames): G2frame.ErrorDialog('Charge flip error','No reflections defined for charge flipping') return phaseName = generalData['Name'] ReflData = GetReflData(G2frame,phaseName,reflNames) if ReflData == None: return pgbar = wx.ProgressDialog('Charge flipping','Residual Rcf =',101.0, style = wx.PD_ELAPSED_TIME|wx.PD_AUTO_HIDE|wx.PD_CAN_ABORT) screenSize = wx.ClientDisplayRect() Size = pgbar.GetSize() if 50 < Size[0] < 500: # sanity check on size, since this fails w/Win & wx3.0 pgbar.SetSize((int(Size[0]*1.2),Size[1])) # increase size a bit along x pgbar.SetPosition(wx.Point(screenSize[2]-Size[0]-305,screenSize[1]+5)) try: newMap,new4Dmap = G2mth.SSChargeFlip(data,ReflData,pgbar) finally: pgbar.Destroy() mapData.update(newMap) map4DData.update(new4Dmap) mapData['Flip'] = True mapSig = np.std(mapData['rho']) if not data['Drawing']: #if new drawing - no drawing data! SetupDrawingData() data['Drawing']['contourLevel'] = 1. data['Drawing']['mapSize'] = 10. print ' 4D Charge flip map computed: rhomax = %.3f rhomin = %.3f sigma = %.3f'%(np.max(mapData['rho']),np.min(mapData['rho']),mapSig) if mapData['Rcf'] < 99.: OnSearchMaps(event) #does a plot structure at end else: print 'Bad charge flip map - no peak search done' def OnChargeFlip(event): generalData = data['General'] mapData = generalData['Map'] flipData = generalData['Flip'] reflNames = flipData['RefList'] if not len(reflNames): G2frame.ErrorDialog('Charge flip error','No reflections defined for charge flipping') return phaseName = generalData['Name'] ReflData = GetReflData(G2frame,phaseName,reflNames) if ReflData == None: return pgbar = wx.ProgressDialog('Charge flipping','Residual Rcf =',101.0, style = wx.PD_ELAPSED_TIME|wx.PD_AUTO_HIDE|wx.PD_CAN_ABORT) screenSize = wx.ClientDisplayRect() Size = pgbar.GetSize() testNames = ['%3d%3d%3d'%(h,k,l) for h,k,l in flipData['testHKL']] if 50 < Size[0] < 500: # sanity check on size, since this fails w/Win & wx3.0 pgbar.SetSize((int(Size[0]*1.2),Size[1])) # increase size a bit along x pgbar.SetPosition(wx.Point(screenSize[2]-Size[0]-305,screenSize[1]+5)) try: result = G2mth.ChargeFlip(data,ReflData,pgbar) mapData.update(result[0]) X = range(len(result[1])) Y = 180.*np.array(result[1]).T/np.pi XY = [[X,y] for y in Y] XY = np.array(XY).reshape((5,2,-1)) G2plt.PlotXY(G2frame,XY,labelX='charge flip cycle',labelY='phase, deg',newPlot=True, Title='Test HKL phases',lines=True,names=testNames) finally: pgbar.Destroy() mapData['Flip'] = True mapSig = np.std(mapData['rho']) if not data['Drawing']: #if new drawing - no drawing data! SetupDrawingData() data['Drawing']['contourLevel'] = 1. data['Drawing']['mapSize'] = 10. print ' Charge flip map computed: rhomax = %.3f rhomin = %.3f sigma = %.3f'%(np.max(mapData['rho']),np.min(mapData['rho']),mapSig) if mapData['Rcf'] < 99.: OnSearchMaps(event) #does a plot structure at end else: print 'Bad charge flip map - no peak search done' def OnTextureRefine(event): General = data['General'] phaseName = General['Name'] Histograms = data['Histograms'] keyList = G2frame.GetHistogramNames('PWDR') histNames = [] refData = {} Gangls = {} for name in keyList: if 'PWDR' in name: im = 0 it = 0 histNames.append(name) Id = G2gd.GetPatternTreeItemId(G2frame,G2frame.root,name) Inst = G2frame.PatternTree.GetItemPyData(G2gd.GetPatternTreeItemId(G2frame,Id,'Instrument Parameters')) Sample = G2frame.PatternTree.GetItemPyData(G2gd.GetPatternTreeItemId(G2frame,Id,'Sample Parameters')) Gangls[name] = copy.copy([Sample[item] for item in['Phi','Chi','Omega','Azimuth']]) RefDict = G2frame.PatternTree.GetItemPyData(G2gd.GetPatternTreeItemId(G2frame,Id,'Reflection Lists'))[phaseName] Refs = RefDict['RefList'].T #np.array! if RefDict['Super']: im = 1 #(3+1) offset for m if 'T' in RefDict['Type']: it = 3 #TOF offset for alp, bet, wave tth = np.ones_like(Refs[0])*Inst[0]['2-theta'][0] refData[name] = np.column_stack((Refs[0],Refs[1],Refs[2],tth,Refs[8+im],Refs[12+im+it],np.zeros_like(Refs[0]))) else: # xray - typical caked 2D image data refData[name] = np.column_stack((Refs[0],Refs[1],Refs[2],Refs[5+im],Refs[8+im],Refs[12+im+it],np.zeros_like(Refs[0]))) pgbar = wx.ProgressDialog('Texture fit','Residual = %5.2f'%(101.0),101.0, style = wx.PD_ELAPSED_TIME|wx.PD_AUTO_HIDE) Error = G2mth.FitTexture(General,Gangls,refData,keyList,pgbar) pgbar.Destroy() if Error: wx.MessageBox(Error,caption='Fit Texture Error',style=wx.ICON_EXCLAMATION) # x = [] # y = [] XY = [] for hist in keyList: x = refData[hist].T[5].T y = refData[hist].T[6].T xy = [x,y] XY.append(np.array(xy)) XY = np.array(XY) G2plt.PlotXY(G2frame,XY,XY2=[],labelX='POobs',labelY='POcalc',newPlot=False,Title='Texture fit error') UpdateTexture() G2plt.PlotTexture(G2frame,data,Start=False) def OnTextureClear(event): print 'clear texture? - does nothing' def FillSelectPageMenu(TabSelectionIdDict, menuBar): '''Fill "Select tab" menu with menu items for each tab and assign bindings to the menu ietm to switch between phase tabs ''' def OnSelectPage(event): 'Called when an item is selected from the Select page menu' # lookup the menu item that called us and get its text tabname = TabSelectionIdDict.get(event.GetId()) if not tabname: print 'Warning: menu item not in dict! id=',event.GetId() return # find the matching tab for PageNum in range(G2frame.dataDisplay.GetPageCount()): if tabname == G2frame.dataDisplay.GetPageText(PageNum): G2frame.dataDisplay.SetSelection(PageNum) return else: print "Warning: tab "+tabname+" was not found" mid = menuBar.FindMenu('Select tab') menu = menuBar.GetMenu(mid) for ipage,page in enumerate(Pages): if menu.FindItem(page) < 0: # is tab already in menu? Id = wx.NewId() TabSelectionIdDict[Id] = page menu.Append(id=Id,kind=wx.ITEM_NORMAL,text=page) G2frame.Bind(wx.EVT_MENU, OnSelectPage, id=Id) def OnPageChanged(event): '''This is called every time that a Notebook tab button is pressed on a Phase data item window ''' for page in G2frame.dataDisplay.gridList: # clear out all grids, forcing edits in progress to complete page.ClearGrid() wx.Frame.Unbind(G2frame.dataFrame,wx.EVT_SIZE) # ignore size events during this routine page = event.GetSelection() ChangePage(page) def ChangePage(page): text = G2frame.dataDisplay.GetPageText(page) G2frame.dataDisplayPhaseText = text if text == 'General': G2gd.SetDataMenuBar(G2frame,G2frame.dataFrame.DataGeneral) UpdateGeneral() elif text == 'Data': G2gd.SetDataMenuBar(G2frame,G2frame.dataFrame.DataMenu) G2ddG.UpdateDData(G2frame,DData,data) wx.CallAfter(G2plt.PlotSizeStrainPO,G2frame,data,hist='',Start=True) elif text == 'Atoms': G2gd.SetDataMenuBar(G2frame,G2frame.dataFrame.AtomsMenu) FillAtomsGrid(Atoms) elif text == 'Layers': G2gd.SetDataMenuBar(G2frame,G2frame.dataFrame.LayerData) UpdateLayerData() elif text == 'Wave Data' and data['General']['Modulated']: G2gd.SetDataMenuBar(G2frame,G2frame.dataFrame.WavesData) UpdateWavesData() wx.CallAfter(G2plt.PlotStructure,G2frame,data,firstCall=True) elif text == 'Draw Options': G2gd.SetDataMenuBar(G2frame,G2frame.dataFrame.DataDrawOptions) UpdateDrawOptions() wx.CallAfter(G2plt.PlotStructure,G2frame,data,firstCall=True) elif text == 'Draw Atoms': G2gd.SetDataMenuBar(G2frame,G2frame.dataFrame.DrawAtomsMenu) UpdateDrawAtoms() wx.CallAfter(G2plt.PlotStructure,G2frame,data,firstCall=True) elif text == 'RB Models': G2gd.SetDataMenuBar(G2frame,G2frame.dataFrame.RigidBodiesMenu) FillRigidBodyGrid() elif text == 'Map peaks': G2gd.SetDataMenuBar(G2frame,G2frame.dataFrame.MapPeaksMenu) FillMapPeaksGrid() wx.CallAfter(G2plt.PlotStructure,G2frame,data,firstCall=True) elif text == 'MC/SA': G2gd.SetDataMenuBar(G2frame,G2frame.dataFrame.MCSAMenu) UpdateMCSA() wx.CallAfter(G2plt.PlotStructure,G2frame,data,firstCall=True) elif text == 'Texture': G2gd.SetDataMenuBar(G2frame,G2frame.dataFrame.TextureMenu) UpdateTexture() wx.CallAfter(G2plt.PlotTexture,G2frame,data,Start=True) elif text == 'Pawley reflections': G2gd.SetDataMenuBar(G2frame,G2frame.dataFrame.PawleyMenu) FillPawleyReflectionsGrid() else: G2gd.SetDataMenuBar(G2frame) def FillMenus(): '''Create the Select tab menus and bind to all menu items ''' # General FillSelectPageMenu(TabSelectionIdDict, G2frame.dataFrame.DataGeneral) G2frame.dataFrame.Bind(wx.EVT_MENU, OnFourierMaps, id=G2gd.wxID_FOURCALC) G2frame.dataFrame.Bind(wx.EVT_MENU, OnSearchMaps, id=G2gd.wxID_FOURSEARCH) G2frame.dataFrame.Bind(wx.EVT_MENU, OnChargeFlip, id=G2gd.wxID_CHARGEFLIP) G2frame.dataFrame.Bind(wx.EVT_MENU, On4DChargeFlip, id=G2gd.wxID_4DCHARGEFLIP) G2frame.dataFrame.Bind(wx.EVT_MENU, OnFourClear, id=G2gd.wxID_FOURCLEAR) G2frame.dataFrame.Bind(wx.EVT_MENU, OnRunSingleMCSA, id=G2gd.wxID_SINGLEMCSA) G2frame.dataFrame.Bind(wx.EVT_MENU, OnRunMultiMCSA, id=G2gd.wxID_MULTIMCSA) G2frame.dataFrame.Bind(wx.EVT_MENU, OnTransform, id=G2gd.wxID_TRANSFORMSTRUCTURE) # Data FillSelectPageMenu(TabSelectionIdDict, G2frame.dataFrame.DataMenu) G2frame.dataFrame.Bind(wx.EVT_MENU, OnDataUse, id=G2gd.wxID_DATAUSE) G2frame.dataFrame.Bind(wx.EVT_MENU, OnDataCopy, id=G2gd.wxID_DATACOPY) G2frame.dataFrame.Bind(wx.EVT_MENU, OnDataCopyFlags, id=G2gd.wxID_DATACOPYFLAGS) G2frame.dataFrame.Bind(wx.EVT_MENU, OnSelDataCopy, id=G2gd.wxID_DATASELCOPY) G2frame.dataFrame.Bind(wx.EVT_MENU, OnPwdrAdd, id=G2gd.wxID_PWDRADD) G2frame.dataFrame.Bind(wx.EVT_MENU, OnHklfAdd, id=G2gd.wxID_HKLFADD) G2frame.dataFrame.Bind(wx.EVT_MENU, OnDataDelete, id=G2gd.wxID_DATADELETE) # Atoms FillSelectPageMenu(TabSelectionIdDict, G2frame.dataFrame.AtomsMenu) G2frame.dataFrame.Bind(wx.EVT_MENU, OnAtomAdd, id=G2gd.wxID_ATOMSEDITADD) G2frame.dataFrame.Bind(wx.EVT_MENU, OnAtomViewAdd, id=G2gd.wxID_ATOMSVIEWADD) G2frame.dataFrame.Bind(wx.EVT_MENU, OnAtomInsert, id=G2gd.wxID_ATOMSEDITINSERT) G2frame.dataFrame.Bind(wx.EVT_MENU, OnAtomViewInsert, id=G2gd.wxID_ATOMVIEWINSERT) G2frame.dataFrame.Bind(wx.EVT_MENU, OnHydAtomAdd, id=G2gd.wxID_ADDHATOM) G2frame.dataFrame.Bind(wx.EVT_MENU, OnHydAtomUpdate, id=G2gd.wxID_UPDATEHATOM) G2frame.dataFrame.Bind(wx.EVT_MENU, OnAtomMove, id=G2gd.wxID_ATOMMOVE) G2frame.dataFrame.Bind(wx.EVT_MENU, AtomDelete, id=G2gd.wxID_ATOMSEDITDELETE) G2frame.dataFrame.Bind(wx.EVT_MENU, AtomRefine, id=G2gd.wxID_ATOMSREFINE) G2frame.dataFrame.Bind(wx.EVT_MENU, AtomModify, id=G2gd.wxID_ATOMSMODIFY) G2frame.dataFrame.Bind(wx.EVT_MENU, AtomTransform, id=G2gd.wxID_ATOMSTRANSFORM) # G2frame.dataFrame.Bind(wx.EVT_MENU, AtomRotate, id=G2gd.wxID_ATOMSROTATE) G2frame.dataFrame.Bind(wx.EVT_MENU, MakeMolecule, id=G2gd.wxID_MAKEMOLECULE) G2frame.dataFrame.Bind(wx.EVT_MENU, OnReloadDrawAtoms, id=G2gd.wxID_RELOADDRAWATOMS) G2frame.dataFrame.Bind(wx.EVT_MENU, OnDistAngle, id=G2gd.wxID_ATOMSDISAGL) G2frame.dataFrame.Bind(wx.EVT_MENU, OnDistAnglePrt, id=G2gd.wxID_ATOMSPDISAGL) G2frame.dataFrame.Bind(wx.EVT_MENU, OnIsoDistortCalc, id=G2gd.wxID_ISODISP) if 'HydIds' in data['General']: G2frame.dataFrame.AtomEdit.Enable(G2gd.wxID_UPDATEHATOM,True) else: G2frame.dataFrame.AtomEdit.Enable(G2gd.wxID_UPDATEHATOM,False) for id in G2frame.dataFrame.ReImportMenuId: #loop over submenu items G2frame.dataFrame.Bind(wx.EVT_MENU, OnReImport, id=id) # Wave Data if data['General']['Modulated']: FillSelectPageMenu(TabSelectionIdDict, G2frame.dataFrame.WavesData) G2frame.dataFrame.Bind(wx.EVT_MENU, OnWaveVary, id=G2gd.wxID_WAVEVARY) # Stacking faults FillSelectPageMenu(TabSelectionIdDict, G2frame.dataFrame.LayerData) G2frame.dataFrame.Bind(wx.EVT_MENU, OnCopyPhase, id=G2gd.wxID_COPYPHASE) G2frame.dataFrame.Bind(wx.EVT_MENU, OnLoadDIFFaX, id=G2gd.wxID_LOADDIFFAX) G2frame.dataFrame.Bind(wx.EVT_MENU, OnSimulate, id=G2gd.wxID_LAYERSIMULATE) G2frame.dataFrame.Bind(wx.EVT_MENU, OnSeqSimulate, id=G2gd.wxID_SEQUENCESIMULATE) # Draw Options FillSelectPageMenu(TabSelectionIdDict, G2frame.dataFrame.DataDrawOptions) # Draw Atoms FillSelectPageMenu(TabSelectionIdDict, G2frame.dataFrame.DrawAtomsMenu) G2frame.dataFrame.Bind(wx.EVT_MENU, DrawAtomStyle, id=G2gd.wxID_DRAWATOMSTYLE) G2frame.dataFrame.Bind(wx.EVT_MENU, DrawAtomLabel, id=G2gd.wxID_DRAWATOMLABEL) G2frame.dataFrame.Bind(wx.EVT_MENU, DrawAtomColor, id=G2gd.wxID_DRAWATOMCOLOR) G2frame.dataFrame.Bind(wx.EVT_MENU, ResetAtomColors, id=G2gd.wxID_DRAWATOMRESETCOLOR) G2frame.dataFrame.Bind(wx.EVT_MENU, SetViewPoint, id=G2gd.wxID_DRAWVIEWPOINT) G2frame.dataFrame.Bind(wx.EVT_MENU, AddSymEquiv, id=G2gd.wxID_DRAWADDEQUIV) G2frame.dataFrame.Bind(wx.EVT_MENU, AddSphere, id=G2gd.wxID_DRAWADDSPHERE) G2frame.dataFrame.Bind(wx.EVT_MENU, TransformSymEquiv, id=G2gd.wxID_DRAWTRANSFORM) G2frame.dataFrame.Bind(wx.EVT_MENU, FillCoordSphere, id=G2gd.wxID_DRAWFILLCOORD) G2frame.dataFrame.Bind(wx.EVT_MENU, FillUnitCell, id=G2gd.wxID_DRAWFILLCELL) G2frame.dataFrame.Bind(wx.EVT_MENU, DrawAtomsDelete, id=G2gd.wxID_DRAWDELETE) G2frame.dataFrame.Bind(wx.EVT_MENU, OnDrawDistVP, id=G2gd.wxID_DRAWDISTVP) G2frame.dataFrame.Bind(wx.EVT_MENU, OnDrawDAT, id=G2gd.wxID_DRAWDISAGLTOR) G2frame.dataFrame.Bind(wx.EVT_MENU, OnDrawPlane, id=G2gd.wxID_DRAWPLANE) G2frame.dataFrame.Bind(wx.EVT_MENU, OnRestraint, id=G2gd.wxID_DRAWRESTRBOND) G2frame.dataFrame.Bind(wx.EVT_MENU, OnRestraint, id=G2gd.wxID_DRAWRESTRANGLE) G2frame.dataFrame.Bind(wx.EVT_MENU, OnRestraint, id=G2gd.wxID_DRAWRESTRPLANE) G2frame.dataFrame.Bind(wx.EVT_MENU, OnRestraint, id=G2gd.wxID_DRAWRESTRCHIRAL) G2frame.dataFrame.Bind(wx.EVT_MENU, OnDefineRB, id=G2gd.wxID_DRAWDEFINERB) # RB Models FillSelectPageMenu(TabSelectionIdDict, G2frame.dataFrame.RigidBodiesMenu) G2frame.dataFrame.Bind(wx.EVT_MENU, OnAutoFindResRB, id=G2gd.wxID_AUTOFINDRESRB) G2frame.dataFrame.Bind(wx.EVT_MENU, OnRBAssign, id=G2gd.wxID_ASSIGNATMS2RB) G2frame.dataFrame.Bind(wx.EVT_MENU, OnRBCopyParms, id=G2gd.wxID_COPYRBPARMS) G2frame.dataFrame.Bind(wx.EVT_MENU, OnGlobalResRBTherm, id=G2gd.wxID_GLOBALTHERM) G2frame.dataFrame.Bind(wx.EVT_MENU, OnGlobalResRBRef, id=G2gd.wxID_GLOBALRESREFINE) G2frame.dataFrame.Bind(wx.EVT_MENU, OnRBRemoveAll, id=G2gd.wxID_RBREMOVEALL) # Map peaks FillSelectPageMenu(TabSelectionIdDict, G2frame.dataFrame.MapPeaksMenu) G2frame.dataFrame.Bind(wx.EVT_MENU, OnPeaksMove, id=G2gd.wxID_PEAKSMOVE) G2frame.dataFrame.Bind(wx.EVT_MENU, OnPeaksViewPoint, id=G2gd.wxID_PEAKSVIEWPT) G2frame.dataFrame.Bind(wx.EVT_MENU, OnPeaksDistVP, id=G2gd.wxID_PEAKSDISTVP) G2frame.dataFrame.Bind(wx.EVT_MENU, OnPeaksDA, id=G2gd.wxID_PEAKSDA) G2frame.dataFrame.Bind(wx.EVT_MENU, OnShowBonds, id=G2gd.wxID_SHOWBONDS) G2frame.dataFrame.Bind(wx.EVT_MENU, OnPeaksEquiv, id=G2gd.wxID_FINDEQVPEAKS) G2frame.dataFrame.Bind(wx.EVT_MENU, OnPeaksUnique, id=G2gd.wxID_PEAKSUNIQUE) G2frame.dataFrame.Bind(wx.EVT_MENU, OnPeaksDelete, id=G2gd.wxID_PEAKSDELETE) G2frame.dataFrame.Bind(wx.EVT_MENU, OnPeaksClear, id=G2gd.wxID_PEAKSCLEAR) # MC/SA FillSelectPageMenu(TabSelectionIdDict, G2frame.dataFrame.MCSAMenu) G2frame.dataFrame.Bind(wx.EVT_MENU, OnMCSAaddAtom, id=G2gd.wxID_ADDMCSAATOM) G2frame.dataFrame.Bind(wx.EVT_MENU, OnMCSAaddRB, id=G2gd.wxID_ADDMCSARB) G2frame.dataFrame.Bind(wx.EVT_MENU, OnMCSAclear, id=G2gd.wxID_CLEARMCSARB) G2frame.dataFrame.Bind(wx.EVT_MENU, OnMCSAmove, id=G2gd.wxID_MOVEMCSA) G2frame.dataFrame.Bind(wx.EVT_MENU, OnClearResults, id=G2gd.wxID_MCSACLEARRESULTS) # Texture FillSelectPageMenu(TabSelectionIdDict, G2frame.dataFrame.TextureMenu) G2frame.dataFrame.Bind(wx.EVT_MENU, OnTextureRefine, id=G2gd.wxID_REFINETEXTURE) # G2frame.dataFrame.Bind(wx.EVT_MENU, OnTextureClear, id=G2gd.wxID_CLEARTEXTURE) # Pawley reflections FillSelectPageMenu(TabSelectionIdDict, G2frame.dataFrame.PawleyMenu) G2frame.dataFrame.Bind(wx.EVT_MENU, OnPawleyLoad, id=G2gd.wxID_PAWLEYLOAD) G2frame.dataFrame.Bind(wx.EVT_MENU, OnPawleyEstimate, id=G2gd.wxID_PAWLEYESTIMATE) G2frame.dataFrame.Bind(wx.EVT_MENU, OnPawleyUpdate, id=G2gd.wxID_PAWLEYUPDATE) # UpdatePhaseData execution starts here #patch if 'RBModels' not in data: data['RBModels'] = {} if 'MCSA' not in data: data['MCSA'] = {'Models':[{'Type':'MD','Coef':[1.0,False,[.8,1.2],],'axis':[0,0,1]}],'Results':[],'AtInfo':{}} #if isinstance(data['MCSA']['Results'],dict): if 'dict' in str(type(data['MCSA']['Results'])): data['MCSA']['Results'] = [] if 'Modulated' not in data['General']: data['General']['Modulated'] = False if 'modulated' in data['General']['Type']: data['General']['Modulated'] = True data['General']['Type'] = 'nuclear' #end patch global rbAtmDict rbAtmDict = {} if G2frame.dataDisplay: G2frame.dataDisplay.Destroy() PhaseName = G2frame.PatternTree.GetItemText(Item) G2gd.SetDataMenuBar(G2frame) G2frame.dataFrame.SetLabel('Phase Data for '+PhaseName) G2frame.dataFrame.CreateStatusBar() G2frame.dataDisplay = G2G.GSNoteBook(parent=G2frame.dataFrame,size=G2frame.dataFrame.GetClientSize()) G2frame.dataDisplay.gridList = [] # list of all grids in notebook Pages = [] wx.Frame.Unbind(G2frame.dataFrame,wx.EVT_SIZE) # ignore size events during this routine G2frame.dataDisplay.gridList = [] General = wx.ScrolledWindow(G2frame.dataDisplay) G2frame.dataDisplay.AddPage(General,'General') Pages.append('General') DData = wx.ScrolledWindow(G2frame.dataDisplay) G2frame.dataDisplay.AddPage(DData,'Data') Pages.append('Data') Atoms = G2G.GSGrid(G2frame.dataDisplay) G2frame.dataDisplay.gridList.append(Atoms) G2frame.dataDisplay.AddPage(Atoms,'Atoms') Pages.append('Atoms') if data['General']['Modulated']: G2frame.waveData = wx.ScrolledWindow(G2frame.dataDisplay) G2frame.dataDisplay.AddPage(G2frame.waveData,'Wave Data') Pages.append('Wave Data') if data['General']['Type'] == 'faulted': G2frame.layerData = wx.ScrolledWindow(G2frame.dataDisplay) G2frame.dataDisplay.AddPage(G2frame.layerData,'Layers') Pages.append('Layers') drawOptions = wx.ScrolledWindow(G2frame.dataDisplay) G2frame.dataDisplay.AddPage(drawOptions,'Draw Options') Pages.append('Draw Options') drawAtoms = G2G.GSGrid(G2frame.dataDisplay) G2frame.dataDisplay.gridList.append(drawAtoms) G2frame.dataDisplay.AddPage(drawAtoms,'Draw Atoms') Pages.append('Draw Atoms') if data['General']['Type'] not in ['faulted',] and not data['General']['Modulated']: RigidBodies = wx.ScrolledWindow(G2frame.dataDisplay) G2frame.dataDisplay.AddPage(RigidBodies,'RB Models') Pages.append('RB Models') MapPeaks = G2G.GSGrid(G2frame.dataDisplay) G2frame.dataDisplay.gridList.append(MapPeaks) G2frame.dataDisplay.AddPage(MapPeaks,'Map peaks') Pages.append('Map peaks') if data['General']['Type'] not in ['faulted',] and not data['General']['Modulated']: G2frame.MCSA = wx.ScrolledWindow(G2frame.dataDisplay) G2frame.dataDisplay.AddPage(G2frame.MCSA,'MC/SA') Pages.append('MC/SA') Texture = wx.ScrolledWindow(G2frame.dataDisplay) G2frame.dataDisplay.AddPage(Texture,'Texture') Pages.append('Texture') G2frame.PawleyRefl = G2G.GSGrid(G2frame.dataDisplay) G2frame.dataDisplay.gridList.append(G2frame.PawleyRefl) G2frame.dataDisplay.AddPage(G2frame.PawleyRefl,'Pawley reflections') Pages.append('Pawley reflections') G2frame.dataFrame.AtomCompute.ISOcalc.Enable('ISODISTORT' in data) G2frame.dataDisplay.Bind(wx.aui.EVT_AUINOTEBOOK_PAGE_CHANGED, OnPageChanged) FillMenus() if oldPage is None or oldPage == 0: ChangePage(0) elif oldPage: SetupGeneral() # not sure why one might need this when moving from phase to phase; but does not hurt G2frame.dataDisplay.SetSelection(oldPage)