def addLabelEntry(self,
n,
label='',
entry='',
show='',
frozen=False,
doGrid=True):
text = label + self.separator
l = Tkinter.Label(self,
text=text,
width=self.label_width,
anchor=self.label_anchor)
self.labels[n:n] = [l]
e = Entry(self,
text=entry,
show=show,
width=self.entry_width,
returnCallback=lambda n=n: self.returnCallback(n))
if (frozen):
e.config(bg='gray', state=Tkinter.DISABLED)
e.bind('<Button>', lambda event, e=e: e.focus())
else:
e.config(bg='white')
self.entries[n:n] = [e]
if (doGrid):
self.gridAll()
class MeccanoPopup(BasePopup):
def __init__(self, parent, project, *args, **kw):
self.alignMedium = None
self.chain = None
self.constraint = None
self.constraintSet = None
self.molSystem = None
self.project = project
self.run = None
self.shiftList = None
self.tensor = None
BasePopup.__init__(self, parent=parent, title='MECCANO', *args, **kw)
self.curateNotifiers(self.registerNotify)
def body(self, guiFrame):
guiFrame.grid_columnconfigure(0, weight=1)
guiFrame.grid_rowconfigure(0, weight=1)
options = ['Parameters','Restraints','Alignment Media & Tensors','About Meccano']
tabbedFrame = TabbedFrame(guiFrame, options=options)
tabbedFrame.grid(row=0, column=0, sticky='nsew')
frameA, frameB, frameC, frameD = tabbedFrame.frames
frameA.grid_columnconfigure(1, weight=1)
frameA.grid_rowconfigure(13, weight=1)
frameB.grid_columnconfigure(1, weight=1)
frameB.grid_rowconfigure(1, weight=1)
frameC.grid_columnconfigure(0, weight=1)
frameC.grid_rowconfigure(1, weight=1)
frameD.grid_columnconfigure(0, weight=1)
frameD.grid_rowconfigure(0, weight=1)
texts = ['Run MECCANO!']
commands = [self.runMeccano]
bottomButtons = createDismissHelpButtonList(guiFrame, texts=texts,
commands=commands, expands=True)
bottomButtons.grid(row=1, column=0, sticky='ew')
if not Meccano:
bottomButtons.buttons[0].disable()
# Parameters
row = 0
label = Label(frameA, text='Calculation Run:')
label.grid(row=row,column=0,sticky='w')
self.runPulldown = PulldownList(frameA, callback=self.selectRun)
self.runPulldown.grid(row=row,column=1,sticky='w')
row += 1
label = Label(frameA, text='Shift List (for CO):')
label.grid(row=row,column=0,sticky='w')
self.shiftListPulldown = PulldownList(frameA, callback=self.selectShiftList)
self.shiftListPulldown.grid(row=row,column=1,sticky='w')
row += 1
label = Label(frameA, text='Keep Copy of Used Shifts:')
label.grid(row=row,column=0,sticky='w')
self.toggleCopyShifts = CheckButton(frameA)
self.toggleCopyShifts.grid(row=row,column=1,sticky='w')
self.toggleCopyShifts.set(True)
row += 1
label = Label(frameA, text='Molecular System:')
label.grid(row=row,column=0,sticky='w')
self.molSystemPulldown = PulldownList(frameA, callback=self.selectMolSystem)
self.molSystemPulldown.grid(row=row,column=1,sticky='w')
row += 1
label = Label(frameA, text='Chain:')
label.grid(row=row,column=0,sticky='w')
self.chainPulldown = PulldownList(frameA, callback=self.selectChain)
self.chainPulldown.grid(row=row,column=1,sticky='w')
self.chainPulldown.bind('<Leave>', self.updateRunParams)
row += 1
label = Label(frameA, text='First Peptide Plane:')
label.grid(row=row,column=0,sticky='w')
self.firstResEntry = IntEntry(frameA, text=None, width=8)
self.firstResEntry.grid(row=row,column=1,sticky='w')
self.firstResEntry.bind('<Leave>', self.updateRunParams)
row += 1
label = Label(frameA, text='Last Peptide Plane:')
label.grid(row=row,column=0,sticky='w')
self.lastResEntry = IntEntry(frameA, text=None, width=8)
self.lastResEntry.grid(row=row,column=1,sticky='w')
self.lastResEntry.bind('<Leave>', self.updateRunParams)
row += 1
label = Label(frameA, text='Max Num Optimisation Steps:')
label.grid(row=row,column=0,sticky='w')
self.maxOptStepEntry = IntEntry(frameA, text=500, width=8)
self.maxOptStepEntry.grid(row=row,column=1,sticky='w')
self.maxOptStepEntry.bind('<Leave>', self.updateRunParams)
row += 1
label = Label(frameA, text='Num Optimisation Peptide Planes:')
label.grid(row=row,column=0,sticky='w')
self.numOptPlaneEntry = IntEntry(frameA, text=2, width=8)
self.numOptPlaneEntry.grid(row=row,column=1,sticky='w')
self.numOptPlaneEntry.bind('<Leave>', self.updateRunParams)
row += 1
label = Label(frameA, text='Min Num Optimisation Hits:')
label.grid(row=row,column=0,sticky='w')
self.numOptHitsEntry = IntEntry(frameA, text=5, width=8)
self.numOptHitsEntry.grid(row=row,column=1,sticky='w')
self.numOptHitsEntry.bind('<Leave>', self.updateRunParams)
row += 1
label = Label(frameA, text='File Name Prefix:')
label.grid(row=row,column=0,sticky='w')
self.pdbFileEntry = Entry(frameA, text='Meccano', width=8)
self.pdbFileEntry.grid(row=row,column=1,sticky='w')
self.pdbFileEntry.bind('<Leave>', self.updateRunParams)
row += 1
label = Label(frameA, text='Write Output File (.out):')
label.grid(row=row,column=0,sticky='w')
self.toggleWriteOutFile = CheckButton(frameA)
self.toggleWriteOutFile.grid(row=row,column=1,sticky='w')
self.toggleWriteOutFile.set(False)
self.toggleWriteOutFile.bind('<Leave>', self.updateRunParams)
row += 1
label = Label(frameA, text='Write PDB File (.pdb):')
label.grid(row=row,column=0,sticky='w')
self.toggleWritePdbFile = CheckButton(frameA)
self.toggleWritePdbFile.grid(row=row,column=1,sticky='w')
self.toggleWritePdbFile.set(True)
self.toggleWritePdbFile.bind('<Leave>', self.updateRunParams)
if not Meccano:
row += 1
label = Label(frameA, text='The Meccano executable is not available (it needs to be compiled)', fg='red')
label.grid(row=row,column=0,columnspan=2,sticky='w')
# Restraints
label = Label(frameB, text='Constraint Set:')
label.grid(row=0,column=0,sticky='w')
self.constraintSetPulldown = PulldownList(frameB, callback=self.selectConstraintSet)
self.constraintSetPulldown.grid(row=0,column=1,sticky='w')
self.alignMediumPulldown= PulldownList(self, callback=self.setAlignMedium)
headingList = ['#','List Type','Use?','Alignment\nMedium','Num\nRestraints']
editWidgets = [None,None,None,self.alignMediumPulldown,None]
editGetCallbacks = [None,None,self.toggleUseRestraints,self.getAlignMedium,None]
editSetCallbacks = [None,None,None,self.setAlignMedium,None]
self.restraintMatrix = ScrolledMatrix(frameB,
headingList=headingList,
editSetCallbacks=editSetCallbacks,
editGetCallbacks=editGetCallbacks,
editWidgets=editWidgets,
callback=None,
multiSelect=True)
self.restraintMatrix.grid(row=1,column=0,columnspan=2,sticky='nsew')
# Alignment Media
div = LabelDivider(frameC,text='Alignment Media')
div.grid(row=0,column=0,sticky='ew')
self.mediumNameEntry = Entry(self, returnCallback=self.setMediumName)
self.mediumDetailsEntry = Entry(self, returnCallback=self.setMediumDetails)
headingList = ['#','Name','Details','Static Tensor','Dynamic Tensor']
editWidgets = [None, self.mediumNameEntry, self.mediumDetailsEntry, None, None]
editGetCallbacks = [None, self.getMediumName, self.getMediumDetails, None, None]
editSetCallbacks = [None, self.setMediumName, self.setMediumDetails, None, None]
self.mediaMatrix = ScrolledMatrix(frameC,
headingList=headingList,
editSetCallbacks=editSetCallbacks,
editGetCallbacks=editGetCallbacks,
editWidgets=editWidgets,
callback=self.selectAlignMedium,
multiSelect=True)
self.mediaMatrix.grid(row=1,column=0,sticky='nsew')
texts = ['Add Alignment medium','Remove Alignment Medium']
commands = [self.addAlignMedium,self.removeAlignMedium]
buttonList = ButtonList(frameC, texts=texts, commands=commands, expands=True)
buttonList.grid(row=2,column=0,sticky='nsew')
self.editAxialEntry = FloatEntry(self, returnCallback=self.setAxial)
self.editRhombicEntry = FloatEntry(self, returnCallback=self.setRhombic)
self.editAlphaEulerEntry = FloatEntry(self, returnCallback=self.setEulerAlpha)
self.editBetaEulerEntry = FloatEntry(self, returnCallback=self.setEulerBeta)
self.editGammaEulerEntry = FloatEntry(self, returnCallback=self.setEulerGamma)
div = LabelDivider(frameC,text='Alignment Tensors')
div.grid(row=3,column=0,sticky='ew')
headingList = ['Type', u'Axial (\u03B6)',u'Rhombic (\u03B7)',
u'Euler \u03B1',u'Euler \u03B2',u'Euler \u03B3']
editWidgets = [None,self.editAxialEntry,
self.editRhombicEntry,self.editAlphaEulerEntry,
self.editBetaEulerEntry,self.editGammaEulerEntry]
editSetCallbacks = [None,self.setAxial,self.setRhombic,
self.setEulerAlpha,self.setEulerBeta,self.setEulerGamma]
editGetCallbacks = [None,self.getAxial,self.getRhombic,
self.getEulerAlpha,self.getEulerBeta,self.getEulerGamma]
self.tensorMatrix = ScrolledMatrix(frameC, maxRows=2,
headingList=headingList,
editSetCallbacks=editSetCallbacks,
editGetCallbacks=editGetCallbacks,
editWidgets=editWidgets,
callback=self.selectTensor,
multiSelect=True)
self.tensorMatrix.grid(row=4,column=0,sticky='nsew')
texts = ['Add Static Tensor','Add Dynamic Tensor','Remove Tensor']
commands = [self.addStaticTensor,self.addDynamicTensor,self.removeTensor]
buttonList = ButtonList(frameC,texts=texts, commands=commands, expands=True)
buttonList.grid(row=5,column=0,sticky='ew')
# About
label = Label(frameD, text='About Meccano...')
label.grid(row=0,column=0,sticky='w')
#
self.geometry('500x400')
self.updateShiftLists()
self.updateMolSystems()
self.updateResidueRanges()
self.updateConstraintSets()
self.updateAlignMedia()
self.updateRuns()
def close(self):
self.updateRunParams()
BasePopup.close(self)
def destroy(self):
self.updateRunParams()
self.curateNotifiers(self.unregisterNotify)
BasePopup.destroy(self)
def curateNotifiers(self, notifyFunc):
for func in ('__init__', 'delete'):
notifyFunc(self.updateConstraintSetsAfter, 'ccp.nmr.NmrConstraint.NmrConstraintStore', func)
for func in ('__init__', 'delete','setName','setConditionState'):
for clazz in ('ccp.nmr.NmrConstraint.CsaConstraintList',
'ccp.nmr.NmrConstraint.DihedralConstraintList',
'ccp.nmr.NmrConstraint.DistanceConstraintList',
'ccp.nmr.NmrConstraint.HBondConstraintList',
'ccp.nmr.NmrConstraint.JCouplingConstraintList',
'ccp.nmr.NmrConstraint.RdcConstraintList'):
notifyFunc(self.updateConstraintListsAfter, clazz, func)
for func in ('__init__', 'delete',):
for clazz in ('ccp.nmr.NmrConstraint.CsaConstraint',
'ccp.nmr.NmrConstraint.DihedralConstraint',
'ccp.nmr.NmrConstraint.DistanceConstraint',
'ccp.nmr.NmrConstraint.HBondConstraint',
'ccp.nmr.NmrConstraint.JCouplingConstraint',
'ccp.nmr.NmrConstraint.RdcConstraint'):
notifyFunc(self.updateConstraintsAfter, clazz, func)
for func in ('__init__', 'delete'):
notifyFunc(self.updateShiftListsAfter,'ccp.nmr.Nmr.ShiftList', func)
for func in ('__init__', 'delete'):
notifyFunc(self.updateMolSystemsAfter,'ccp.molecule.MolSystem.MolSystem', func)
for func in ('__init__', 'delete'):
notifyFunc(self.updateChainsAfter,'ccp.molecule.MolSystem.Chain', func)
for func in ('__init__', 'delete','setDynamicAlignment',
'setStaticAlignment','setName','setDetails'):
notifyFunc(self.updateAlignMediaAfter,'ccp.nmr.NmrConstraint.ConditionState', func)
def updateAlignMediaAfter(self, alignMedium):
if alignMedium.nmrConstraintStore is self.constraintSet:
self.after_idle(self.updateAlignMedia)
if alignMedium is self.alignMedium:
self.after_idle(self.updateTensors)
def updateConstraintSetsAfter(self, constraintSet):
self.after_idle(self.updateConstraintSets)
def updateShiftListsAfter(self, shiftList):
self.after_idle(self.updateShiftLists)
def updateMolSystemsAfter(self, molSystem):
self.after_idle(self.updateMolSystems)
def updateChainsAfter(self, chain):
self.after_idle(self.updateChains)
def updateConstraintsAfter(self, constraint):
if constraint.parent.parent is self.constraintSet:
self.after_idle(self.updateConstraintLists)
def updateConstraintListsAfter(self, constraintList):
if constraintList.parent is self.constraintSet:
self.after_idle(self.updateConstraintLists)
def runMeccano(self):
#
#
# Input checks first
#
#
warning = ''
if not self.molSystem:
warning += 'No molecular system selected\n'
if not self.chain:
warning += 'No chain selected\n'
if not self.constraintSet:
warning += 'No selected constraint set\n'
else:
constraintLists = [cl for cl in self.constraintSet.constraintLists if cl.useForMeccano]
if not constraintLists:
warning += 'No constraint lists selected for use\n'
first, last = self.updateResidueRanges()
if (last-first) < 2:
warning += 'Too few peptide planes selected\n'
if warning:
showWarning('Cannot run MECCANO','Encountered the following problems:\n' + warning)
return
if not self.run:
self.run = self.makeSimRun()
self.updateRunParams()
if self.toggleCopyShifts.get() and self.shiftList:
shiftList = self.run.findFirstOutputMeasurementList(className='ShiftList')
if not shiftList:
shiftList = self.project.currentNmrProject.newShiftList(name='Meccano Input')
self.run.setOutputMeasurementLists([shiftList,])
shiftDict = {}
for shift in shiftList.shifts:
shiftDict[shift.resonance] = shift
for shift in self.shiftList.shifts:
resonance = shift.resonance
resonanceSet = resonance.resonanceSet
if resonanceSet:
atom = resonanceSet.findFirstAtomSet().findFirstAtom()
if (atom.name == 'C') and (atom.residue.molResidue.molType == 'protein'):
shift2 = shiftDict.get(resonance)
if shift2:
shift2.value = shift.value
shift2.error = shift.error
else:
shiftList.newShift(resonance=resonance, value=shift.value, error=shift.error)
#
#
# Accumulate data from CCPN data model & GUI
#
#
# Sequence
residues = self.chain.sortedResidues()
residueDict = {}
seqData = []
for residue in residues:
molResidue = residue.molResidue
code1Letter = molResidue.chemComp.code1Letter
if not code1Letter:
msg = 'Encountered non-standard residue type: %s'
showWarning('Cannot run MECCANO', msg % residue.ccpCode)
return
seqCode = residue.seqCode
seqData.append((seqCode, code1Letter))
residueDict[seqCode] = residue.chemCompVar.chemComp.code3Letter
# Media, RDCs & Dihedrals
rdcLists = []
dihedralLists = []
for constraintList in constraintLists:
if constraintList.className == 'RdcConsraintList':
if constraintList.conditionState:
rdcLists.append(constraintList)
elif constraintList.className == 'DihedralConstraintList':
dihedralLists.append(dihedralLists)
f = PI_OVER_180
mediaData = []
for constraintList in rdcLists:
medium = constraintList.conditionState
dynamicTensor = medium.dynamicAlignment
staticTensor = medium.staticAlignment
if not (dynamicTensor or staticTensor):
continue
if dynamicTensor:
dynamicTensorData = ['Dynamic', dynamicTensor.aAxial, dynamicTensor.aRhombic,
f*dynamicTensor.alpha, f*dynamicTensor.beta, f*dynamicTensor.gamma]
if staticTensor:
staticTensorData = ['Static', staticTensor.aAxial, staticTensor.aRhombic,
f*staticTensor.alpha, f*staticTensor.beta, f*staticTensor.gamma]
if not dynamicTensor:
dynamicTensorData = staticTensorData
elif not staticTensor:
staticTensorData = dynamicTensorData
rdcData = []
for restraint in constraintList.constraints:
items = list(restraint.items)
if len(items) != 1:
continue
resonanceA, resonanceB = [fr.resonance for fr in items[0].resonances]
resonanceSetA = resonanceA.resonanceSet
if not resonanceSetA:
continue
resonanceSetB = resonanceB.resonanceSet
if not resonanceSetB:
continue
resNameA = getResonanceName(resonanceA)
resNameB = getResonanceName(resonanceB)
residueA = resonanceSetA.findFirstAtomSet().findFirstAtom().residue
residueB = resonanceSetB.findFirstAtomSet().findFirstAtom().residue
seqA = residueA.seqCode
seqB = residueB.seqCode
value = restraint.targetValue
error = restraint.error
if error is None:
key = [resNameA,resNameB]
key.sort()
sigma = DEFAULT_ERRORS.get(tuple(key), 1.0)
rdcData.append([seqA, resNameA, seqB, resNameB, value, error])
mediaData.append((dynamicTensorData,staticTensorData,rdcData))
oneTurn = 360.0
dihedralDict = {}
for constraintList in dihedralLists:
for restraint in constraintList.constraints:
items = list(restraint.items)
if len(items) != 1:
continue
item = items[0]
resonances = [fr.resonance for fr in item.resonances]
resonanceSets = [r.resonanceSet for r in resonances]
if None in resonanceSets:
continue
atoms = [rs.findFirstAtomSet().findFirstAtom() for rs in resonanceSets]
atomNames = [a.name for a in atoms]
if atomNames == PHI_ATOM_NAMES:
isPhi = True
elif atomNames == PSI_ATOM_NAMES:
isPhi = False
else:
continue
residue = atoms[2].residue
if residue.chain is not self.chain:
continue
if isPhi:
residuePrev = getLinkedResidue(residue, linkCode='prev')
if not residuePrev:
continue
atomC0 = residuePrev.findFirstAtom(name='C')
atomN = residue.findFirstAtom(name='N')
atomCa = residue.findFirstAtom(name='CA')
atomC = residue.findFirstAtom(name='C')
atoms2 = [atomC0, atomN, atomCa, atomC]
else:
residueNext = getLinkedResidue(residue, linkCode='next')
if not residueNext:
continue
atomN = residue.findFirstAtom(name='N')
atomCa = residue.findFirstAtom(name='CA')
atomC = residue.findFirstAtom(name='C')
atomN2 = residueNext.findFirstAtom(name='N')
atoms2 = [atomN, atomCa, atomC, atomN2]
if atoms != atoms2:
continue
value = item.targetValue
error = item.error
if error is None:
upper = item.upperLimit
lower = item.lowerLimit
if (upper is not None) and (lower is not None):
dUpper = angleDifference(value, lower, oneTurn)
dLower = angleDifference(upper, value, oneTurn)
error = max(dUpper, dLower)
elif lower is not None:
error = angleDifference(value, lower, oneTurn)
elif upper is not None:
error = angleDifference(upper, value, oneTurn)
else:
error = 30.0 # Arbitrary, but sensible for TALOS, DANGLE
seqCode = residue.seqCode
if not dihedralDict.has_key(seqCode):
dihedralDict[seqCode] = [None, None, None, None] # Phi, Psi, PhiErr, PsiErr
if isPhi:
dihedralDict[seqCode][0] = value
dihedralDict[seqCode][2] = error
else:
dihedralDict[seqCode][1] = value
dihedralDict[seqCode][3] = error
phipsiData = []
seqCodes = dihedralDict.keys()
seqCodes.sort()
for seqCode in seqCodes:
data = dihedralDict[seqCode]
if None not in data:
phi, psi, phiErr, psiErr = data
phipsiData.append((seqCode, phi, psi, phiErr, psiErr))
# User options
firstPPlaneFrag = self.firstResEntry.get() or 1
lastPPlaneFrag = self.lastResEntry.get() or 1
ppNbMin = self.numOptPlaneEntry.get() or 1
minValueBest = self.numOptHitsEntry.get() or 2
maxValueBest = self.maxOptStepEntry.get() or 5
strucData = Meccano.runFwd(firstPPlaneFrag, lastPPlaneFrag, ppNbMin,
minValueBest, maxValueBest, RAMACHANDRAN_DATABASE,
seqData, mediaData, phipsiData)
if strucData:
fileName = 'CcpnMeccanoPdb%f.pdb' % time.time()
fileObj = open(fileName, 'w')
ch = self.chain.pdbOneLetterCode.strip()
if not ch:
ch = self.chain.code[0].upper()
i = 1
for atomType, resNb, x, y, z in strucData:
resType = residueDict.get(resNb, '???')
line = PDB_FORMAT % ('ATOM',i,'%-3s' % atomType,'',resType,ch,resNb,'',x,y,z,1.0,1.0)
i += 1
fileObj.close()
ensemble = getStructureFromFile(self.molSystem, fileName)
if not self.toggleWritePdbFile.get():
os.unlink(fileName)
self.run.outputEnsemble = ensemble
self.run = None
self.updateRuns()
def getMediumName(self, alignMedium):
self.mediumNameEntry.set(alignMedium.name)
def getMediumDetails(self, alignMedium):
self.mediumDetailsEntry.set(alignMedium.details)
def setMediumName(self, event):
value = self.mediumNameEntry.get()
self.alignMedium.name = value or None
def setMediumDetails(self, event):
value = self.mediumDetailsEntry.get()
self.alignMedium.details = value or None
def setAlignMedium(self, alignMedium):
if self.constraintSet:
self.constraintSet.conditionState = alignMedium
def getAlignMedium(self, constraintList):
media = self.getAlignmentMedia()
names = [am.name for am in media]
if constraintList.conditionState in media:
index = media.index(constraintList.conditionState)
else:
index = 0
self.alignMediumPulldown.setup(names, media, index)
def toggleUseRestraints(self, constraintList):
bool = constraintList.useForMeccano
bool = not bool
if bool and (not constraintList.conditionState) \
and (constraintList.className == 'RdcConsraintList'):
msg = 'Cannot use RDC restraint list for Meccano '
msg += 'unless it is first associated with an amigment medium'
showWarning('Warning', msg, parent=self)
else:
constraintList.useForMeccano = bool
self.updateConstraintLists()
def addStaticTensor(self):
if self.alignMedium:
tensor = Implementation.SymmTracelessMatrix(aAxial=0.0,aRhombic=0.0,
alpha=0.0,beta=0.0,
gamma=0.0)
self.alignMedium.staticAlignment = tensor
self.updateAlignMediaAfter(self.alignMedium)
def addDynamicTensor(self):
if self.alignMedium:
tensor = Implementation.SymmTracelessMatrix(aAxial=0.0,aRhombic=0.0,
alpha=0.0,beta=0.0,
gamma=0.0)
self.alignMedium.dynamicAlignment = tensor
self.updateAlignMediaAfter(self.alignMedium)
def removeTensor(self):
if self.alignMedium and self.tensor:
if self.tensor is self.alignMedium.dynamicAlignment:
self.alignMedium.dynamicAlignment = None
elif self.tensor is self.alignMedium.staticAlignment:
self.alignMedium.staticAlignment = None
self.updateAlignMediaAfter(self.alignMedium)
def addAlignMedium(self):
if self.constraintSet:
medium = self.constraintSet.newConditionState()
medium.name = 'Align Medium %d' % medium.serial
def removeAlignMedium(self):
if self.alignMedium:
self.alignMedium.delete()
def updateTensor(self, aAxial=None, aRhombic=None, alpha=None, beta=None, gamma=None):
aAxial = aAxial or self.tensor.aAxial
aRhombic = aRhombic or self.tensor.aRhombic
alpha = alpha or self.tensor.alpha
beta = beta or self.tensor.beta
gamma = gamma or self.tensor.gamma
tensor = Implementation.SymmTracelessMatrix(aAxial=aAxial,
aRhombic=aRhombic,
alpha=alpha,beta=beta,
gamma=gamma)
if self.alignMedium:
if self.tensor is self.alignMedium.dynamicAlignment:
self.alignMedium.dynamicAlignment = tensor
elif self.tensor is self.alignMedium.staticAlignment:
self.alignMedium.staticAlignment = tensor
self.tensor = tensor
def setAxial(self, event):
value = self.editAxialEntry.get()
self.updateTensor(aAxial=value)
self.updateTensors()
def setRhombic(self, event):
value = self.editRhombicEntry.get()
self.updateTensor(aRhombic=value)
self.updateTensors()
def setEulerAlpha(self, event):
value = self.editAlphaEulerEntry.get()
self.updateTensor(alpha=value)
self.updateTensors()
def setEulerBeta(self, event):
value = self.editBetaEulerEntry.get()
self.updateTensor(beta=value)
self.updateTensors()
def setEulerGamma(self, event):
value = self.editGammaEulerEntry.get()
self.updateTensor(gamma=value)
self.updateTensors()
def getAxial(self, tensor):
value = tensor.aAxial
self.editAxialEntry.set(value)
def getRhombic(self, tensor):
value = tensor.aRhombic
self.editRhombicEntry.set(value)
def getEulerAlpha(self, tensor):
value = tensor.alpha
self.editAlphaEulerEntry.set(value)
def getEulerBeta(self, tensor):
value = tensor.beta
self.editBetaEulerEntry.set(value)
def getEulerGamma(self, tensor):
value = tensor.gamma
self.editGammaEulerEntry.set(value)
def selectTensor(self, tensor, row, col):
self.tensor = tensor
def selectAlignMedium(self, alignMedium, row, col):
self.alignMedium = alignMedium
self.updateTensors()
def getAlignmentMedia(self):
if self.constraintSet:
return self.constraintSet.sortedConditionStates()
else:
return []
def updateAlignMedia(self):
textMatrix = []
objectList = []
if self.constraintSet:
objectList = self.getAlignmentMedia()
for conditionState in objectList:
staticTensor = None
dyamicTensor = None
tensor = conditionState.dynamicAlignment
if tensor:
vals = (tensor.aAxial, tensor.aRhombic, tensor.alpha, tensor.beta, tensor.gamma)
dyamicTensor = u'\u03B6:%.3f \u03B7:%.3f \u03B1:%.3f \u03B2:%.3f \u03B3:%.3f ' % vals
tensor = conditionState.staticAlignment
if tensor:
vals = (tensor.aAxial, tensor.aRhombic, tensor.alpha, tensor.beta, tensor.gamma)
staticTensor = u'\u03B6:%.3f \u03B7:%.3f \u03B1:%.3f \u03B2:%.3f \u03B3:%.3f ' % vals
datum = [conditionState.serial,
conditionState.name,
conditionState.details,
dyamicTensor,
staticTensor]
textMatrix.append(datum)
if dyamicTensor or staticTensor:
if not self.alignMedium:
self.alignMedium = conditionState
self.mediaMatrix.update(textMatrix=textMatrix, objectList=objectList)
if self.alignMedium:
self.mediaMatrix.selectObject(self.alignMedium)
def updateTensors(self):
textMatrix = []
objectList = []
conditionState = self.alignMedium
if conditionState:
tensor = conditionState.dynamicAlignment
if tensor:
datum = ['Dynamic', tensor.aAxial, tensor.aRhombic,
tensor.alpha, tensor.beta, tensor.gamma]
textMatrix.append(datum)
objectList.append(tensor)
tensor = conditionState.staticAlignment
if tensor:
datum = ['Static', tensor.aAxial, tensor.aRhombic,
tensor.alpha, tensor.beta, tensor.gamma]
textMatrix.append(datum)
objectList.append(tensor)
self.tensorMatrix.update(textMatrix=textMatrix, objectList=objectList)
def getMolSystems(self):
molSystems = []
for molSystem in self.project.sortedMolSystems():
if molSystem.chains:
molSystems.append(molSystem)
return molSystems
def updateMolSystems(self, *notifyObj):
index = 0
names = []
molSystems = self.getMolSystems()
molSystem = self.molSystem
if molSystems:
if molSystem not in molSystems:
molSystem = molSystems[0]
index = molSystems.index(molSystem)
names = [ms.code for ms in molSystems]
else:
self.molSystem = None
if self.molSystem is not molSystem:
if self.run:
self.run.molSystem = molSystem
self.molSystem = molSystem
self.updateChains()
self.molSystemPulldown.setup(texts=names, objects=molSystems, index=index)
def selectMolSystem(self, molSystem):
if self.molSystem is not molSystem:
if self.run:
self.run.molSystem = molSystem
self.molSystem = molSystem
self.updateChains()
def updateChains(self, *notifyObj):
index = 0
names = []
chains = []
chain = self.chain
if self.molSystem:
chains = [c for c in self.molSystem.sortedChains() if c.residues]
if chains:
if chain not in chains:
chain = chains[0]
index = chains.index(chain)
names = [c.code for c in chains]
if chain is not self.chain:
self.chain = chain
self.updateResidueRanges()
self.chainPulldown.setup(texts=names, objects=chains, index=index)
def selectChain(self, chain):
if chain is not self.chain:
self.chain = chain
self.updateResidueRanges()
def updateResidueRanges(self):
first = self.firstResEntry.get()
last = self.lastResEntry.get()
if self.chain:
residues = self.chain.sortedResidues()
firstSeq = residues[0].seqCode
lastSeq = residues[-2].seqCode
if first < firstSeq:
first = firstSeq
if last == first:
last = lastSeq
elif last > lastSeq:
last = lastSeq
if first > last:
last, first = first, last
self.firstResEntry.set(first)
self.lastResEntry.set(last)
return first, last
def getConstraintSets(self):
constraintSets = []
nmrProject = self.project.currentNmrProject
for constraintSet in nmrProject.sortedNmrConstraintStores():
for constraintList in constraintSet.constraintLists:
if constraintList.className not in ('ChemShiftConstraintList','somethingElse'):
constraintSets.append(constraintSet)
break
return constraintSets
def updateConstraintSets(self, *notifyObj):
index = 0
names = []
constraintSets = self.getConstraintSets()
constraintSet = self.constraintSet
if constraintSets:
if constraintSet not in constraintSets:
constraintSet = constraintSets[0]
index = constraintSets.index(constraintSet)
names = ['%d' % cs.serial for cs in constraintSets]
if constraintSet is not self.constraintSet:
if self.run:
self.run.inputConstraintStore = constraintSet
self.constraintSet = constraintSet
self.updateConstraintLists()
self.constraintSetPulldown.setup(texts=names, objects=constraintSets, index=index)
def selectConstraintSet(self, constraintSet):
if self.constraintSet is not constraintSet:
if self.run:
self.run.inputConstraintStore = constraintSet
self.constraintSet = constraintSet
self.updateConstraintLists()
def getConstraintLists(self):
constraintLists = []
if self.constraintSet:
for constraintList in self.constraintSet.sortedConstraintLists():
if constraintList.className not in ('ChemShiftConstraintList','somethingElse'):
constraintLists.append(constraintList)
return constraintLists
def updateConstraintLists(self, *notifyObj):
textMatrix = []
objectList = self.getConstraintLists()
for constraintList in objectList:
if not hasattr(constraintList, 'useForMeccano'):
if constraintList.conditionState \
or (constraintList.className != 'RdcConstraintList'):
bool = True
else:
bool = False
constraintList.useForMeccano = bool
if constraintList.conditionState:
alignMedium = constraintList.conditionState.name
else:
alignMedium = None
datum = [constraintList.serial,
constraintList.className[:-14],
constraintList.useForMeccano and 'Yes' or 'No',
alignMedium,
len(constraintList.constraints)]
textMatrix.append(datum)
self.restraintMatrix.update(textMatrix=textMatrix, objectList=objectList)
def selectConstraint(self, obj, row, column):
if self.constraint is not obj:
self.constraint = obj
def getSimStore(self):
simStore = self.project.findFirstNmrSimStore(name='meccano')
if not simStore:
simStore = self.project.newNmrSimStore(name='meccano')
return simStore
def getRuns(self):
runs = [None, ]
if self.molSystem and self.constraintSet:
simStore = self.getSimStore()
runs += simStore.sortedRuns()
return runs
def updateRuns(self, *notifyObj):
index = 0
names = ['<New>']
runs = self.getRuns()
run = self.run
if runs:
if run not in runs:
run = runs[0]
index = runs.index(run)
names += [r.serial for r in runs if r]
if run is not self.run:
self.updateConstraintSets()
self.updateMolSystems()
self.updateShiftLists()
self.runPulldown.setup(names, runs, index)
def updateRunParams(self, event=None):
if self.run and self.molSystem and self.constraintSet:
simRun = self.run
simRun.inputConstraintStore = self.constraintSet
simRun.molSystem = self.molSystem
if self.shiftList:
simRun.setInputMeasurementLists([self.shiftList,])
simRun.newRunParameter(code='FirstPepPlane',id=1,
intValue=self.firstResEntry.get() or 0)
simRun.newRunParameter(code='LastPepPlane' ,id=1,
intValue=self.lastResEntry.get() or 0)
simRun.newRunParameter(code='MaxOptSteps', id=1,
intValue=self.maxOptStepEntry.get() or 0)
simRun.newRunParameter(code='NumOptPlanes', id=1,
intValue=self.numOptPlaneEntry.get() or 0)
simRun.newRunParameter(code='MinOptHits', id=1,
intValue=self.numOptHitsEntry.get() or 0)
def makeSimRun(self, template=None):
simStore = self.getSimStore()
if template:
molSystem = template.molSystem
constraintSet = template.inputConstraintStore
shiftList = template.findFirstInputMeasurementList(className='ShiftList')
protocol = template.annealProtocol
else:
molSystem = self.molSystem
constraintSet = self.constraintSet
shiftList = self.shiftList
protocol = self.annealProtocol
simRun = simStore.newRun(annealProtocol=protocol,
molSystem=molSystem,
inputConstraintStore=protocol)
if shiftList:
simRun.addInputMeasurementList(shiftList)
if template:
for param in template.runParameters:
simRun.newRunParameter(code=param.code,
id=param.id,
booleanValue=param.booleanValue,
floatValue=param.floatValue,
intValue=param.intValue,
textValue=param.textValue)
else:
if self.chain:
chainCode = self.chain.code
else:
chaincode = 'A'
simRun.newRunParameter(code='FirstPepPlane',id=1,
intValue=self.firstResEntry.get() or 0)
simRun.newRunParameter(code='LastPepPlane' ,id=1,
intValue=self.lastResEntry.get() or 0)
simRun.newRunParameter(code='MaxOptSteps', id=1,
intValue=self.maxOptStepEntry.get() or 0)
simRun.newRunParameter(code='NumOptPlanes', id=1,
intValue=self.numOptPlaneEntry.get() or 0)
simRun.newRunParameter(code='MinOptHits', id=1,
intValue=self.numOptHitsEntry.get() or 0)
simRun.newRunParameter(code='ChainCode', id=1,
textValue=chainCode)
return simRun
def selectRun(self, simRun):
if self.run is not simRun:
if simRun:
if simRun.outputEnsemble:
msg = 'Selected run has already been used to generate a structure.'
msg += 'A new run will be setup based on the selection.'
showWarning('Warning',msg)
simRun = self.makeSimRun(template=simRun)
molSystem = simRun.molSystem
constraintSet = simRun.inputConstraintStore
shiftList = simRun.findFirstInputMeasurementList(className='ShiftList')
if molSystem and (self.molSystem is not molSystem):
self.molSystem = molSystem
self.updateMolSystems()
if constraintSet and (self.constraintSet is not constraintSet):
self.constraintSet = constraintSet
self.updateConstraintSets()
if shiftList and (self.shiftList is not shiftList):
self.shiftList = shiftList
self.updateShiftLists()
firstPepPlane = simRun.findFirstrunParameter(code='FirstPepPlane')
lastPepPlane = simRun.findFirstrunParameter(code='LastPepPlane')
maxOptSteps = simRun.findFirstrunParameter(code='MaxOptSteps')
numOptPlanes = simRun.findFirstrunParameter(code='NumOptPlanes')
minOptHits = simRun.findFirstrunParameter(code='MinOptHits')
chainCode = simRun.findFirstrunParameter(code='ChainCode')
if firstPepPlane is not None:
self.firstResEntry.set(firstPepPlane.intValue or 0)
if lastPepPlane is not None:
self.lastResEntry.set(lastPepPlane.intValue or 0)
if maxOptSteps is not None:
self.maxOptStepEntry.set(maxOptSteps.intValue or 0)
if numOptPlanes is not None:
self.numOptPlaneEntry.set(numOptPlanes.intValue or 0)
if minOptHits is not None:
self.numOptHitsEntry.set(minOptHits.intValue or 0)
if chainCode is not None:
chainCode = chainCode.textValue or 'A'
if self.molSystem:
chain = self.molSystem.findFirsChain(code=chainCode)
if chain:
self.selectChain(chain)
self.run = simRun
def updateShiftLists(self, *notifyObj):
index = 0
names = []
nmrProject = self.project.currentNmrProject
shiftLists = nmrProject.findAllMeasurementLists(className='ShiftList')
shiftLists = [(sl.serial, sl) for sl in shiftLists]
shiftLists.sort()
shiftLists = [x[1] for x in shiftLists]
shiftList = self.shiftList
if shiftLists:
if shiftList not in shiftLists:
shiftList = shiftLists[0]
index = shiftLists.index(shiftList)
names = ['%d'% sl.serial for sl in shiftLists]
if shiftList is not self.shiftList:
if self.run:
self.run.setInputMeasurementLists([shiftList])
self.shiftListPulldown.setup(texts=names, objects=shiftLists, index=index)
def selectShiftList(self, shiftList):
if shiftList is not self.shiftList:
if self.run:
self.run.setInputMeasurementLists([shiftList])
self.shiftList = shiftList
class CingGui(BasePopup):
def __init__(self, parent, options, *args, **kw):
# Fill in below variable once run generates some results
self.haveResults = None
# store the options
self.options = options
BasePopup.__init__(self, parent=parent, title='CING Setup', **kw)
# self.setGeometry(850, 750, 50, 50)
self.project = None
# self.tk_strictMotif( True)
self.updateGui()
# end def __init__
def body(self, guiFrame):
row = 0
col =0
# frame = Frame( guiFrame )
# frame.grid(row=row, column=col, sticky='news')
self.menuBar = Menu( guiFrame)
self.menuBar.grid( row=row, column=col, sticky='ew')
#----------------------------------------------------------------------------------
# Project frame
#----------------------------------------------------------------------------------
# guiFrame.grid_columnconfigure(row, weight=1)
# frame = LabelFrame(guiFrame, text='Project', font=medFont)
row = +1
col =0
frame = LabelFrame(guiFrame, text='Project', **labelFrameAttributes )
print '>', frame.keys()
frame.grid(row=row, column=col, sticky='nsew' )
frame.grid_columnconfigure(2, weight=1)
# frame.grid_rowconfigure(0, weight=1)
srow = 0
self.projectOptions = ['old','new from PDB','new from CCPN','new from CYANA']
self.projOptionsSelect = RadioButtons(frame, selected_index=0, entries=self.projectOptions, direction='vertical',
select_callback=self.updateGui
)
self.projOptionsSelect.grid(row=srow,column=0,rowspan=len(self.projectOptions),columnspan=2, sticky='w')
if self.options.name:
text = self.options.name
else:
text=''
# end if
self.projEntry = Entry(frame, bd=1, text=text, returnCallback=self.updateGui)
self.projEntry.grid(row=srow,column=2,columnspan=2,sticky='ew')
# self.projEntry.bind('<Key>', self.updateGui)
self.projEntry.bind('<Leave>', self.updateGui)
projButton = Button(frame, bd=1,command=self.chooseOldProjectFile, text='browse')
projButton.grid(row=srow,column=3,sticky='ew')
srow += 1
self.pdbEntry = Entry(frame, bd=1, text='')
self.pdbEntry.grid(row=srow,column=2,sticky='ew')
self.pdbEntry.bind('<Leave>', self.updateGui)
pdbButton = Button(frame, bd=1,command=self.choosePdbFile, text='browse')
pdbButton.grid(row=srow,column=3,sticky='ew')
srow += 1
self.ccpnEntry = Entry(frame, bd=1, text='')
self.ccpnEntry.grid(row=srow,column=2,sticky='ew')
self.ccpnEntry.bind('<Leave>', self.updateGui)
ccpnButton = Button(frame, bd=1,command=self.chooseCcpnFile, text='browse')
ccpnButton.grid(row=srow,column=3,sticky='ew')
srow += 1
self.cyanaEntry = Entry(frame, bd=1, text='')
self.cyanaEntry.grid(row=srow,column=2,sticky='ew')
self.cyanaEntry.bind('<Leave>', self.updateGui)
cyanaButton = Button(frame, bd=1,command=self.chooseCyanaFile, text='browse')
cyanaButton.grid(row=srow,column=3,sticky='ew')
#Empty row
srow += 1
label = Label(frame, text='')
label.grid(row=srow,column=0,sticky='nw')
srow += 1
label = Label(frame, text='Project name:')
label.grid(row=srow,column=0,sticky='nw')
self.nameEntry = Entry(frame, bd=1, text='')
self.nameEntry.grid(row=srow,column=2,sticky='w')
#Empty row
srow += 1
label = Label(frame, text='')
label.grid(row=srow,column=0,sticky='nw')
srow += 1
self.openProjectButton = Button(frame, command=self.openProject, text='Open Project', **actionButtonAttributes )
self.openProjectButton.grid(row=srow,column=0, columnspan=4, sticky='ew')
#----------------------------------------------------------------------------------
# status
#----------------------------------------------------------------------------------
# guiFrame.grid_columnconfigure(1, weight=0)
srow = 0
frame = LabelFrame(guiFrame, text='Status', **labelFrameAttributes)
frame.grid( row=srow, column=1, sticky='wnes')
self.projectStatus = Text(frame, height=11, width=70, borderwidth=0, relief='flat')
self.projectStatus.grid(row=0, column=0, sticky='wen')
#Empty row
srow += 1
label = Label(frame, text='')
label.grid(row=srow,column=0,sticky='nw')
srow += 1
self.closeProjectButton = Button(frame, command=self.closeProject, text='Close Project', **actionButtonAttributes)
self.closeProjectButton.grid(row=srow,column=0, columnspan=4, sticky='ew')
#----------------------------------------------------------------------------------
# Validate frame
#----------------------------------------------------------------------------------
row +=1
col=0
frame = LabelFrame(guiFrame, text='Validate', **labelFrameAttributes)
# frame = LabelFrame(guiFrame, text='Validate', font=medFont)
frame.grid(row=row, column=col, sticky='nsew')
# frame.grid_columnconfigure(2, weight=1)
frame.grid_rowconfigure(0, weight=1)
srow = 0
# label = Label(frame, text='validation')
# label.grid(row=srow,column=0,sticky='nw')
#
# self.selectDoValidation = CheckButton(frame)
# self.selectDoValidation.grid(row=srow, column=1,sticky='nw' )
# self.selectDoValidation.set(True)
#
# srow += 1
# label = Label(frame, text='')
# label.grid(row=srow,column=0,sticky='nw')
#
# srow += 1
label = Label(frame, text='checks')
label.grid(row=srow,column=0,sticky='nw')
self.selectCheckAssign = CheckButton(frame)
self.selectCheckAssign.grid(row=srow, column=1,sticky='nw' )
self.selectCheckAssign.set(True)
label = Label(frame, text='assignments and shifts')
label.grid(row=srow,column=2,sticky='nw')
# srow += 1
# self.selectCheckQueen = CheckButton(frame)
# self.selectCheckQueen.grid(row=srow, column=4,sticky='nw' )
# self.selectCheckQueen.set(False)
# label = Label(frame, text='QUEEN')
# label.grid(row=srow,column=5,sticky='nw')
#
# queenButton = Button(frame, bd=1,command=None, text='setup')
# queenButton.grid(row=srow,column=6,sticky='ew')
srow += 1
self.selectCheckResraint = CheckButton(frame)
self.selectCheckResraint.grid(row=srow, column=1,sticky='nw' )
self.selectCheckResraint.set(True)
label = Label(frame, text='restraints')
label.grid(row=srow,column=2,sticky='nw')
srow += 1
self.selectCheckStructure = CheckButton(frame)
self.selectCheckStructure.grid(row=srow, column=1,sticky='nw' )
self.selectCheckStructure.set(True)
label = Label(frame, text='structural')
label.grid(row=srow,column=2,sticky='nw')
srow += 1
self.selectMakeHtml = CheckButton(frame)
self.selectMakeHtml.grid(row=srow, column=1,sticky='nw' )
self.selectMakeHtml.set(True)
label = Label(frame, text='generate HTML')
label.grid(row=srow,column=2,sticky='nw')
srow += 1
self.selectCheckScript = CheckButton(frame)
self.selectCheckScript.grid(row=srow, column=1,sticky='nw' )
self.selectCheckScript.set(False)
label = Label(frame, text='user script')
label.grid(row=srow,column=0,sticky='nw')
self.validScriptEntry = Entry(frame, bd=1, text='')
self.validScriptEntry.grid(row=srow,column=2,columnspan=3, sticky='ew')
scriptButton = Button(frame, bd=1,command=self.chooseValidScript, text='browse')
scriptButton.grid(row=srow,column=5,sticky='ew')
srow += 1
label = Label(frame, text='ranges')
label.grid(row=srow,column=0,sticky='nw')
self.rangesEntry = Entry( frame, text='' )
self.rangesEntry.grid( row=srow, column=2, columnspan=3, sticky='ew')
# self.validScriptEntry = Entry(frame, bd=1, text='')
# self.validScriptEntry.grid(row=srow,column=3,sticky='ew')
#
# scriptButton = Button(frame, bd=1,command=self.chooseValidScript, text='browse')
# scriptButton.grid(row=srow,column=4,sticky='ew')
srow += 1
texts = ['Run Validation','View Results','Setup QUEEN']
commands = [self.runCing, None, None]
buttonBar = ButtonList(frame, texts=texts, commands=commands,expands=True)
buttonBar.grid(row=srow, column=0, columnspan=6, sticky='ew')
for button in buttonBar.buttons:
button.config(**actionButtonAttributes)
# end for
self.runButton = buttonBar.buttons[0]
self.viewResultButton = buttonBar.buttons[1]
self.queenButton = buttonBar.buttons[2]
#----------------------------------------------------------------------------------
# Miscellaneous frame
#----------------------------------------------------------------------------------
row +=0
col=1
# frame = LabelFrame(guiFrame, text='Miscellaneous', font=medFont)
frame = LabelFrame(guiFrame, text='Miscellaneous', **labelFrameAttributes)
frame.grid(row=row, column=col, sticky='news')
frame.grid_columnconfigure(2, weight=1)
frame.grid_columnconfigure(4, weight=1,minsize=30)
frame.grid_rowconfigure(0, weight=1)
# Exports
srow = 0
label = Label(frame, text='export to')
label.grid(row=srow,column=0,sticky='nw')
self.selectExportXeasy = CheckButton(frame)
self.selectExportXeasy.grid(row=srow, column=1,sticky='nw' )
self.selectExportXeasy.set(True)
label = Label(frame, text='Xeasy, Sparky, TALOS, ...')
label.grid(row=srow,column=2,sticky='nw')
srow += 1
self.selectExportCcpn = CheckButton(frame)
self.selectExportCcpn.grid(row=srow, column=1,sticky='nw' )
self.selectExportCcpn.set(True)
label = Label(frame, text='CCPN')
label.grid(row=srow,column=2,sticky='nw')
srow += 1
self.selectExportQueen = CheckButton(frame)
self.selectExportQueen.grid(row=srow, column=1,sticky='nw' )
self.selectExportQueen.set(True)
label = Label(frame, text='QUEEN')
label.grid(row=srow,column=2,sticky='nw')
srow += 1
self.selectExportRefine = CheckButton(frame)
self.selectExportRefine.grid(row=srow, column=1,sticky='nw' )
self.selectExportRefine.set(True)
label = Label(frame, text='refine')
label.grid(row=srow,column=2,sticky='nw')
srow += 1
label = Label(frame, text='')
label.grid(row=srow,column=0,sticky='nw')
# User script
srow += 1
label = Label(frame, text='user script')
label.grid(row=srow,column=0,sticky='nw')
self.selectMiscScript = CheckButton(frame)
self.selectMiscScript.grid(row=srow, column=1,sticky='nw' )
self.selectMiscScript.set(False)
self.miscScriptEntry = Entry(frame, bd=1, text='')
self.miscScriptEntry.grid(row=srow,column=3,sticky='ew')
script2Button = Button(frame, bd=1,command=self.chooseMiscScript, text='browse')
script2Button.grid(row=srow,column=4,sticky='ew')
srow += 1
texts = ['Export','Run Script']
commands = [None, None]
buttonBar = ButtonList(frame, texts=texts, commands=commands,expands=True)
buttonBar.grid(row=srow, column=0, columnspan=5, sticky='ew')
for button in buttonBar.buttons:
button.config(**actionButtonAttributes)
# end for
self.exportButton = buttonBar.buttons[0]
self.scriptButton = buttonBar.buttons[1]
#----------------------------------------------------------------------------------
# Textarea
#----------------------------------------------------------------------------------
row +=1
guiFrame.grid_rowconfigure(row, weight=1)
self.outputTextBox = ScrolledText(guiFrame)
self.outputTextBox.grid(row=row, column=0, columnspan=2, sticky='nsew')
self.redirectConsole()
#----------------------------------------------------------------------------------
# Buttons
#----------------------------------------------------------------------------------
row +=1
col=0
texts = ['Quit', 'Help']
commands = [self.close, None]
self.buttonBar = ButtonList(guiFrame, texts=texts, commands=commands,expands=True)
self.buttonBar.grid(row=row, column=col, columnspan=2, sticky='ew')
# self.openProjectButton = self.buttonBar.buttons[0]
# self.closeProjectButton = self.buttonBar.buttons[1]
# self.runButton = self.buttonBar.buttons[0]
# self.viewResultButton = self.buttonBar.buttons[1]
for button in self.buttonBar.buttons:
button.config(**actionButtonAttributes)
# end for
# end def body
def getGuiOptions(self):
projectName = self.projEntry.get()
index = self.projOptionsSelect.getIndex()
if index > 0:
makeNewProject = True
projectImport = None
if index > 1:
i = index-2
format = ['PDB','CCPN','CYANA'][i]
file = [self.pdbEntry, self.ccpnEntry, self.cyanaEntry][i].get()
if not file:
showWarning('Failure','No %s file selected' % format)
return
# end if
projectImport = (format, file)
# end if
else:
# Chould also check that any old project file exists
makeNewProject = False
projectImport = None
# end if
doValidation = self.selectDoValidation.get()
checks = []
if doValidation:
if self.selectCheckAssign.get():
checks.append('assignments')
# end if
if self.selectCheckResraint.get():
checks.append('restraints')
# end if
if self.selectCheckStructure.get():
checks.append('structural')
# end if
if self.selectMakeHtml.get():
checks.append('HTML')
# end if
if self.selectCheckScript.get():
script = self.validScriptEntry.get()
if script:
checks.append( ('script',script) )
# end if
# end if
if self.selectCheckQueen.get():
checks.append('queen')
# end if
# end if
exports = []
if self.selectExportXeasy.get():
exports.append('Xeasy')
# end if
if self.selectExportCcpn.get():
exports.append('CCPN')
# end if
if self.selectExportQueen.get():
exports.append('QUEEN')
# end if
if self.selectExportRefine.get():
exports.append('refine')
# end if
miscScript = None
if self.selectMiscScript.get():
script = self.miscScriptEntry.get()
if script:
miscScript = script
# end if
# end if
return projectName, makeNewProject, projectImport, doValidation, checks, exports, miscScript
# end def getGuiOptions
def runCing(self):
options = self.getGuiOptions()
if options:
projectName, makeNewProject, projectImport, doValidation, checks, exports, miscScript = options
print 'Project name:', projectName
print 'Make new project?', makeNewProject
print 'Import source:', projectImport
print 'Do vailidation?', doValidation
print 'Validation checks:', ','.join(checks)
print 'Export to:', ','.join(exports)
print 'User script:', miscScript
# end if
# end def runCing
# else there was already an error message
def chooseOldProjectFile(self):
fileTypes = [ FileType('CING', ['project.xml']),
FileType('All', ['*'])
]
popup = FileSelectPopup(self, file_types = fileTypes,
title = 'Select CING project file', dismiss_text = 'Cancel',
selected_file_must_exist = True)
fileName = popup.getFile()
# dirName = popup.getDirectory()
if len(fileName) > 0:
# Put text into entry,name widgets
dummy,name = cing.Project.rootPath(fileName)
self.projEntry.configure(state='normal')
self.projEntry.set(fileName)
self.nameEntry.configure(state='normal')
self.nameEntry.set(name)
self.nameEntry.configure(state='disabled')
# choose the correct radiobutton
self.projOptionsSelect.setIndex(0)
self.updateGui()
# end if
#nd if
popup.destroy()
# end def chooseOldProjectFile
def choosePdbFile(self):
fileTypes = [ FileType('PDB', ['*.pdb']), FileType('All', ['*'])]
popup = FileSelectPopup(self, file_types = fileTypes,
title = 'PDB file', dismiss_text = 'Cancel',
selected_file_must_exist = True)
fileName = popup.getFile()
if len(fileName)>0:
# Put text into entry widget
self.pdbEntry.configure(state='normal')
self.pdbEntry.set(fileName)
# Put text into name widget
_dir,name,dummy = nTpath( fileName )
self.nameEntry.configure(state='normal')
self.nameEntry.set(name)
# choose the correct radiobutton
self.projOptionsSelect.setIndex(1)
self.updateGui()
#end if
popup.destroy()
# end def choosePdbFile
def chooseCcpnFile(self):
fileTypes = [ FileType('XML', ['*.xml']), FileType('All', ['*'])]
popup = FileSelectPopup(self, file_types = fileTypes,
title = 'CCPN project XML file', dismiss_text = 'Cancel',
selected_file_must_exist = True)
fileName = popup.getFile()
if len(fileName)>0:
self.pdbEntry.configure(state='normal')
self.pdbEntry.set(fileName)
self.projOptionsSelect.setIndex(1)
_dir,name,dummy = nTpath( fileName )
self.nameEntry.set(name)
#end if
self.ccpnEntry.set(fileName)
self.projOptionsSelect.setIndex(2)
popup.destroy()
# end def chooseCcpnFile
def chooseCyanaFile(self):
# Prepend default Cyana file extension below
fileTypes = [ FileType('All', ['*']), ]
popup = FileSelectPopup(self, file_types = fileTypes,
title = 'CYANA fproject file', dismiss_text = 'Cancel',
selected_file_must_exist = True)
fileName = popup.getFile()
self.cyanaEntry.set(fileName)
self.projOptionsSelect.setIndex(3)
popup.destroy()
# end def chooseCyanaFile
def chooseValidScript(self):
# Prepend default Cyana file extension below
fileTypes = [ FileType('All', ['*']), ]
popup = FileSelectPopup(self, file_types = fileTypes,
title = 'Script file', dismiss_text = 'Cancel',
selected_file_must_exist = True)
fileName = popup.getFile()
self.validScriptEntry.set(fileName)
popup.destroy()
# end def chooseValidScript
def chooseMiscScript(self):
# Prepend default Cyana file extension below
fileTypes = [ FileType('All', ['*']), ]
popup = FileSelectPopup(self, file_types = fileTypes,
title = 'Script file', dismiss_text = 'Cancel',
selected_file_must_exist = True)
fileName = popup.getFile()
self.miscScriptEntry.set(fileName)
popup.destroy()
# end def chooseMiscScript
def openProject(self ):
projOption = self.projOptionsSelect.get()
if projOption == self.projectOptions[0]:
self.openOldProject()
elif projOption == self.projectOptions[1]:
self.initPdb()
# end if
if self.project:
self.project.gui = self
# end if
self.updateGui()
#end def
def openOldProject(self ):
fName = self.projEntry.get()
if not os.path.exists( fName ):
nTerror('Error: file "%s" does not exist\n', fName)
#end if
if self.project:
self.closeProject()
# end if
self.project = cing.Project.open( name=fName, status='old', verbose=False )
#end def
def initPdb(self ):
fName = self.pdbEntry.get()
if not os.path.exists( fName ):
nTerror('Error: file "%s" does not exist\n', fName)
#end if
self.project = cing.Project.open( self.nameEntry.get(), status='new' )
self.project.initPDB( pdbFile=fName, convention = 'PDB' )
#end def
def closeProject(self):
if self.project:
self.project.close()
# end if
self.project = None
self.updateGui()
#end def
def updateGui(self, event=None):
projOption = self.projOptionsSelect.get()
buttons = self.buttonBar.buttons
# Disable entries
for e in [self.projEntry, self.pdbEntry, self.ccpnEntry, self.cyanaEntry, self.nameEntry]:
e.configure(state='disabled')
#end for
if projOption == self.projectOptions[0]:
# Enable entries
self.projEntry.configure(state='normal')
if (len(self.projEntry.get()) > 0):
self.openProjectButton.enable()
self.runButton.enable()
else:
self.openProjectButton.disable()
self.runButton.disable()
#end if
elif projOption == self.projectOptions[1]:
# Enable entries
self.pdbEntry.configure(state='normal')
self.nameEntry.configure(state='normal')
if (len(self.pdbEntry.get()) > 0 and len(self.nameEntry.get()) > 0):
buttons[0].enable()
buttons[1].enable()
else:
buttons[0].disable()
buttons[1].disable()
#end if
#end if
elif projOption == self.projectOptions[2]:
# Enable entries
self.ccpnEntry.configure(state='normal')
self.nameEntry.configure(state='normal')
if (len(self.ccpnEntry.get()) > 0 and len(self.nameEntry.get()) > 0):
buttons[0].enable()
buttons[1].enable()
else:
buttons[0].disable()
buttons[1].disable()
#end if
#end if
elif projOption == self.projectOptions[3]:
# Enable entries
self.cyanaEntry.configure(state='normal')
self.nameEntry.configure(state='normal')
if (len(self.cyanaEntry.get()) > 0 and len(self.nameEntry.get()) > 0):
buttons[0].enable()
buttons[1].enable()
else:
buttons[0].disable()
buttons[1].disable()
#end if
#end if
self.projectStatus.clear()
if not self.project:
self.projectStatus.setText('No open project')
self.closeProjectButton.setText('Close Project')
self.closeProjectButton.disable()
else:
self.projectStatus.setText(self.project.format())
self.closeProjectButton.enable()
self.closeProjectButton.setText(sprintf('Close Project "%s"', self.project.name))
#end if
#end def
def redirectConsole(self):
#pipe = TextPipe(self.inputTextBox.text_area)
#sys.stdin = pipe
pipe = TextPipe(self.outputTextBox.text_area)
sys.stdout = pipe
nTmessage.stream = pipe
# end def redirectConsole
# sys.stderr = pipe
def resetConsole(self):
#sys.stdin = stdin
nTmessage.stream = stdout
sys.stdout = stdout
sys.stderr = stderr
# end def resetConsole
def open(self):
self.redirectConsole()
BasePopup.open(self)
# end def open
def close(self):
geometry = self.getGeometry()
self.resetConsole()
BasePopup.close(self)
print 'close:',geometry
sys.exit(0) # remove later
# end def close
def destroy(self):
geometry = self.getGeometry()
self.resetConsole()
BasePopup.destroy(self)
print 'destroy:',geometry
sys.exit(0) # remove later
class CingGui(BasePopup):
def __init__(self, parent, options, *args, **kw):
# Fill in below variable once run generates some results
self.haveResults = None
# store the options
self.options = options
BasePopup.__init__(self, parent=parent, title='CING Setup', **kw)
# self.setGeometry(850, 750, 50, 50)
self.project = None
# self.tk_strictMotif( True)
self.updateGui()
# end def __init__
def body(self, guiFrame):
row = 0
col = 0
# frame = Frame( guiFrame )
# frame.grid(row=row, column=col, sticky='news')
self.menuBar = Menu(guiFrame)
self.menuBar.grid(row=row, column=col, sticky='ew')
#----------------------------------------------------------------------------------
# Project frame
#----------------------------------------------------------------------------------
# guiFrame.grid_columnconfigure(row, weight=1)
# frame = LabelFrame(guiFrame, text='Project', font=medFont)
row = +1
col = 0
frame = LabelFrame(guiFrame, text='Project', **labelFrameAttributes)
print '>', frame.keys()
frame.grid(row=row, column=col, sticky='nsew')
frame.grid_columnconfigure(2, weight=1)
# frame.grid_rowconfigure(0, weight=1)
srow = 0
self.projectOptions = [
'old', 'new from PDB', 'new from CCPN', 'new from CYANA'
]
self.projOptionsSelect = RadioButtons(frame,
selected_index=0,
entries=self.projectOptions,
direction='vertical',
select_callback=self.updateGui)
self.projOptionsSelect.grid(row=srow,
column=0,
rowspan=len(self.projectOptions),
columnspan=2,
sticky='w')
if self.options.name:
text = self.options.name
else:
text = ''
# end if
self.projEntry = Entry(frame,
bd=1,
text=text,
returnCallback=self.updateGui)
self.projEntry.grid(row=srow, column=2, columnspan=2, sticky='ew')
# self.projEntry.bind('<Key>', self.updateGui)
self.projEntry.bind('<Leave>', self.updateGui)
projButton = Button(frame,
bd=1,
command=self.chooseOldProjectFile,
text='browse')
projButton.grid(row=srow, column=3, sticky='ew')
srow += 1
self.pdbEntry = Entry(frame, bd=1, text='')
self.pdbEntry.grid(row=srow, column=2, sticky='ew')
self.pdbEntry.bind('<Leave>', self.updateGui)
pdbButton = Button(frame,
bd=1,
command=self.choosePdbFile,
text='browse')
pdbButton.grid(row=srow, column=3, sticky='ew')
srow += 1
self.ccpnEntry = Entry(frame, bd=1, text='')
self.ccpnEntry.grid(row=srow, column=2, sticky='ew')
self.ccpnEntry.bind('<Leave>', self.updateGui)
ccpnButton = Button(frame,
bd=1,
command=self.chooseCcpnFile,
text='browse')
ccpnButton.grid(row=srow, column=3, sticky='ew')
srow += 1
self.cyanaEntry = Entry(frame, bd=1, text='')
self.cyanaEntry.grid(row=srow, column=2, sticky='ew')
self.cyanaEntry.bind('<Leave>', self.updateGui)
cyanaButton = Button(frame,
bd=1,
command=self.chooseCyanaFile,
text='browse')
cyanaButton.grid(row=srow, column=3, sticky='ew')
#Empty row
srow += 1
label = Label(frame, text='')
label.grid(row=srow, column=0, sticky='nw')
srow += 1
label = Label(frame, text='Project name:')
label.grid(row=srow, column=0, sticky='nw')
self.nameEntry = Entry(frame, bd=1, text='')
self.nameEntry.grid(row=srow, column=2, sticky='w')
#Empty row
srow += 1
label = Label(frame, text='')
label.grid(row=srow, column=0, sticky='nw')
srow += 1
self.openProjectButton = Button(frame,
command=self.openProject,
text='Open Project',
**actionButtonAttributes)
self.openProjectButton.grid(row=srow,
column=0,
columnspan=4,
sticky='ew')
#----------------------------------------------------------------------------------
# status
#----------------------------------------------------------------------------------
# guiFrame.grid_columnconfigure(1, weight=0)
srow = 0
frame = LabelFrame(guiFrame, text='Status', **labelFrameAttributes)
frame.grid(row=srow, column=1, sticky='wnes')
self.projectStatus = Text(frame,
height=11,
width=70,
borderwidth=0,
relief='flat')
self.projectStatus.grid(row=0, column=0, sticky='wen')
#Empty row
srow += 1
label = Label(frame, text='')
label.grid(row=srow, column=0, sticky='nw')
srow += 1
self.closeProjectButton = Button(frame,
command=self.closeProject,
text='Close Project',
**actionButtonAttributes)
self.closeProjectButton.grid(row=srow,
column=0,
columnspan=4,
sticky='ew')
#----------------------------------------------------------------------------------
# Validate frame
#----------------------------------------------------------------------------------
row += 1
col = 0
frame = LabelFrame(guiFrame, text='Validate', **labelFrameAttributes)
# frame = LabelFrame(guiFrame, text='Validate', font=medFont)
frame.grid(row=row, column=col, sticky='nsew')
# frame.grid_columnconfigure(2, weight=1)
frame.grid_rowconfigure(0, weight=1)
srow = 0
# label = Label(frame, text='validation')
# label.grid(row=srow,column=0,sticky='nw')
#
# self.selectDoValidation = CheckButton(frame)
# self.selectDoValidation.grid(row=srow, column=1,sticky='nw' )
# self.selectDoValidation.set(True)
#
# srow += 1
# label = Label(frame, text='')
# label.grid(row=srow,column=0,sticky='nw')
#
# srow += 1
label = Label(frame, text='checks')
label.grid(row=srow, column=0, sticky='nw')
self.selectCheckAssign = CheckButton(frame)
self.selectCheckAssign.grid(row=srow, column=1, sticky='nw')
self.selectCheckAssign.set(True)
label = Label(frame, text='assignments and shifts')
label.grid(row=srow, column=2, sticky='nw')
# srow += 1
# self.selectCheckQueen = CheckButton(frame)
# self.selectCheckQueen.grid(row=srow, column=4,sticky='nw' )
# self.selectCheckQueen.set(False)
# label = Label(frame, text='QUEEN')
# label.grid(row=srow,column=5,sticky='nw')
#
# queenButton = Button(frame, bd=1,command=None, text='setup')
# queenButton.grid(row=srow,column=6,sticky='ew')
srow += 1
self.selectCheckResraint = CheckButton(frame)
self.selectCheckResraint.grid(row=srow, column=1, sticky='nw')
self.selectCheckResraint.set(True)
label = Label(frame, text='restraints')
label.grid(row=srow, column=2, sticky='nw')
srow += 1
self.selectCheckStructure = CheckButton(frame)
self.selectCheckStructure.grid(row=srow, column=1, sticky='nw')
self.selectCheckStructure.set(True)
label = Label(frame, text='structural')
label.grid(row=srow, column=2, sticky='nw')
srow += 1
self.selectMakeHtml = CheckButton(frame)
self.selectMakeHtml.grid(row=srow, column=1, sticky='nw')
self.selectMakeHtml.set(True)
label = Label(frame, text='generate HTML')
label.grid(row=srow, column=2, sticky='nw')
srow += 1
self.selectCheckScript = CheckButton(frame)
self.selectCheckScript.grid(row=srow, column=1, sticky='nw')
self.selectCheckScript.set(False)
label = Label(frame, text='user script')
label.grid(row=srow, column=0, sticky='nw')
self.validScriptEntry = Entry(frame, bd=1, text='')
self.validScriptEntry.grid(row=srow,
column=2,
columnspan=3,
sticky='ew')
scriptButton = Button(frame,
bd=1,
command=self.chooseValidScript,
text='browse')
scriptButton.grid(row=srow, column=5, sticky='ew')
srow += 1
label = Label(frame, text='ranges')
label.grid(row=srow, column=0, sticky='nw')
self.rangesEntry = Entry(frame, text='')
self.rangesEntry.grid(row=srow, column=2, columnspan=3, sticky='ew')
# self.validScriptEntry = Entry(frame, bd=1, text='')
# self.validScriptEntry.grid(row=srow,column=3,sticky='ew')
#
# scriptButton = Button(frame, bd=1,command=self.chooseValidScript, text='browse')
# scriptButton.grid(row=srow,column=4,sticky='ew')
srow += 1
texts = ['Run Validation', 'View Results', 'Setup QUEEN']
commands = [self.runCing, None, None]
buttonBar = ButtonList(frame,
texts=texts,
commands=commands,
expands=True)
buttonBar.grid(row=srow, column=0, columnspan=6, sticky='ew')
for button in buttonBar.buttons:
button.config(**actionButtonAttributes)
# end for
self.runButton = buttonBar.buttons[0]
self.viewResultButton = buttonBar.buttons[1]
self.queenButton = buttonBar.buttons[2]
#----------------------------------------------------------------------------------
# Miscellaneous frame
#----------------------------------------------------------------------------------
row += 0
col = 1
# frame = LabelFrame(guiFrame, text='Miscellaneous', font=medFont)
frame = LabelFrame(guiFrame,
text='Miscellaneous',
**labelFrameAttributes)
frame.grid(row=row, column=col, sticky='news')
frame.grid_columnconfigure(2, weight=1)
frame.grid_columnconfigure(4, weight=1, minsize=30)
frame.grid_rowconfigure(0, weight=1)
# Exports
srow = 0
label = Label(frame, text='export to')
label.grid(row=srow, column=0, sticky='nw')
self.selectExportXeasy = CheckButton(frame)
self.selectExportXeasy.grid(row=srow, column=1, sticky='nw')
self.selectExportXeasy.set(True)
label = Label(frame, text='Xeasy, Sparky, TALOS, ...')
label.grid(row=srow, column=2, sticky='nw')
srow += 1
self.selectExportCcpn = CheckButton(frame)
self.selectExportCcpn.grid(row=srow, column=1, sticky='nw')
self.selectExportCcpn.set(True)
label = Label(frame, text='CCPN')
label.grid(row=srow, column=2, sticky='nw')
srow += 1
self.selectExportQueen = CheckButton(frame)
self.selectExportQueen.grid(row=srow, column=1, sticky='nw')
self.selectExportQueen.set(True)
label = Label(frame, text='QUEEN')
label.grid(row=srow, column=2, sticky='nw')
srow += 1
self.selectExportRefine = CheckButton(frame)
self.selectExportRefine.grid(row=srow, column=1, sticky='nw')
self.selectExportRefine.set(True)
label = Label(frame, text='refine')
label.grid(row=srow, column=2, sticky='nw')
srow += 1
label = Label(frame, text='')
label.grid(row=srow, column=0, sticky='nw')
# User script
srow += 1
label = Label(frame, text='user script')
label.grid(row=srow, column=0, sticky='nw')
self.selectMiscScript = CheckButton(frame)
self.selectMiscScript.grid(row=srow, column=1, sticky='nw')
self.selectMiscScript.set(False)
self.miscScriptEntry = Entry(frame, bd=1, text='')
self.miscScriptEntry.grid(row=srow, column=3, sticky='ew')
script2Button = Button(frame,
bd=1,
command=self.chooseMiscScript,
text='browse')
script2Button.grid(row=srow, column=4, sticky='ew')
srow += 1
texts = ['Export', 'Run Script']
commands = [None, None]
buttonBar = ButtonList(frame,
texts=texts,
commands=commands,
expands=True)
buttonBar.grid(row=srow, column=0, columnspan=5, sticky='ew')
for button in buttonBar.buttons:
button.config(**actionButtonAttributes)
# end for
self.exportButton = buttonBar.buttons[0]
self.scriptButton = buttonBar.buttons[1]
#----------------------------------------------------------------------------------
# Textarea
#----------------------------------------------------------------------------------
row += 1
guiFrame.grid_rowconfigure(row, weight=1)
self.outputTextBox = ScrolledText(guiFrame)
self.outputTextBox.grid(row=row, column=0, columnspan=2, sticky='nsew')
self.redirectConsole()
#----------------------------------------------------------------------------------
# Buttons
#----------------------------------------------------------------------------------
row += 1
col = 0
texts = ['Quit', 'Help']
commands = [self.close, None]
self.buttonBar = ButtonList(guiFrame,
texts=texts,
commands=commands,
expands=True)
self.buttonBar.grid(row=row, column=col, columnspan=2, sticky='ew')
# self.openProjectButton = self.buttonBar.buttons[0]
# self.closeProjectButton = self.buttonBar.buttons[1]
# self.runButton = self.buttonBar.buttons[0]
# self.viewResultButton = self.buttonBar.buttons[1]
for button in self.buttonBar.buttons:
button.config(**actionButtonAttributes)
# end for
# end def body
def getGuiOptions(self):
projectName = self.projEntry.get()
index = self.projOptionsSelect.getIndex()
if index > 0:
makeNewProject = True
projectImport = None
if index > 1:
i = index - 2
format = ['PDB', 'CCPN', 'CYANA'][i]
file = [self.pdbEntry, self.ccpnEntry,
self.cyanaEntry][i].get()
if not file:
showWarning('Failure', 'No %s file selected' % format)
return
# end if
projectImport = (format, file)
# end if
else:
# Chould also check that any old project file exists
makeNewProject = False
projectImport = None
# end if
doValidation = self.selectDoValidation.get()
checks = []
if doValidation:
if self.selectCheckAssign.get():
checks.append('assignments')
# end if
if self.selectCheckResraint.get():
checks.append('restraints')
# end if
if self.selectCheckStructure.get():
checks.append('structural')
# end if
if self.selectMakeHtml.get():
checks.append('HTML')
# end if
if self.selectCheckScript.get():
script = self.validScriptEntry.get()
if script:
checks.append(('script', script))
# end if
# end if
if self.selectCheckQueen.get():
checks.append('queen')
# end if
# end if
exports = []
if self.selectExportXeasy.get():
exports.append('Xeasy')
# end if
if self.selectExportCcpn.get():
exports.append('CCPN')
# end if
if self.selectExportQueen.get():
exports.append('QUEEN')
# end if
if self.selectExportRefine.get():
exports.append('refine')
# end if
miscScript = None
if self.selectMiscScript.get():
script = self.miscScriptEntry.get()
if script:
miscScript = script
# end if
# end if
return projectName, makeNewProject, projectImport, doValidation, checks, exports, miscScript
# end def getGuiOptions
def runCing(self):
options = self.getGuiOptions()
if options:
projectName, makeNewProject, projectImport, doValidation, checks, exports, miscScript = options
print 'Project name:', projectName
print 'Make new project?', makeNewProject
print 'Import source:', projectImport
print 'Do vailidation?', doValidation
print 'Validation checks:', ','.join(checks)
print 'Export to:', ','.join(exports)
print 'User script:', miscScript
# end if
# end def runCing
# else there was already an error message
def chooseOldProjectFile(self):
fileTypes = [FileType('CING', ['project.xml']), FileType('All', ['*'])]
popup = FileSelectPopup(self,
file_types=fileTypes,
title='Select CING project file',
dismiss_text='Cancel',
selected_file_must_exist=True)
fileName = popup.getFile()
# dirName = popup.getDirectory()
if len(fileName) > 0:
# Put text into entry,name widgets
dummy, name = cing.Project.rootPath(fileName)
self.projEntry.configure(state='normal')
self.projEntry.set(fileName)
self.nameEntry.configure(state='normal')
self.nameEntry.set(name)
self.nameEntry.configure(state='disabled')
# choose the correct radiobutton
self.projOptionsSelect.setIndex(0)
self.updateGui()
# end if
#nd if
popup.destroy()
# end def chooseOldProjectFile
def choosePdbFile(self):
fileTypes = [FileType('PDB', ['*.pdb']), FileType('All', ['*'])]
popup = FileSelectPopup(self,
file_types=fileTypes,
title='PDB file',
dismiss_text='Cancel',
selected_file_must_exist=True)
fileName = popup.getFile()
if len(fileName) > 0:
# Put text into entry widget
self.pdbEntry.configure(state='normal')
self.pdbEntry.set(fileName)
# Put text into name widget
_dir, name, dummy = nTpath(fileName)
self.nameEntry.configure(state='normal')
self.nameEntry.set(name)
# choose the correct radiobutton
self.projOptionsSelect.setIndex(1)
self.updateGui()
#end if
popup.destroy()
# end def choosePdbFile
def chooseCcpnFile(self):
fileTypes = [FileType('XML', ['*.xml']), FileType('All', ['*'])]
popup = FileSelectPopup(self,
file_types=fileTypes,
title='CCPN project XML file',
dismiss_text='Cancel',
selected_file_must_exist=True)
fileName = popup.getFile()
if len(fileName) > 0:
self.pdbEntry.configure(state='normal')
self.pdbEntry.set(fileName)
self.projOptionsSelect.setIndex(1)
_dir, name, dummy = nTpath(fileName)
self.nameEntry.set(name)
#end if
self.ccpnEntry.set(fileName)
self.projOptionsSelect.setIndex(2)
popup.destroy()
# end def chooseCcpnFile
def chooseCyanaFile(self):
# Prepend default Cyana file extension below
fileTypes = [
FileType('All', ['*']),
]
popup = FileSelectPopup(self,
file_types=fileTypes,
title='CYANA fproject file',
dismiss_text='Cancel',
selected_file_must_exist=True)
fileName = popup.getFile()
self.cyanaEntry.set(fileName)
self.projOptionsSelect.setIndex(3)
popup.destroy()
# end def chooseCyanaFile
def chooseValidScript(self):
# Prepend default Cyana file extension below
fileTypes = [
FileType('All', ['*']),
]
popup = FileSelectPopup(self,
file_types=fileTypes,
title='Script file',
dismiss_text='Cancel',
selected_file_must_exist=True)
fileName = popup.getFile()
self.validScriptEntry.set(fileName)
popup.destroy()
# end def chooseValidScript
def chooseMiscScript(self):
# Prepend default Cyana file extension below
fileTypes = [
FileType('All', ['*']),
]
popup = FileSelectPopup(self,
file_types=fileTypes,
title='Script file',
dismiss_text='Cancel',
selected_file_must_exist=True)
fileName = popup.getFile()
self.miscScriptEntry.set(fileName)
popup.destroy()
# end def chooseMiscScript
def openProject(self):
projOption = self.projOptionsSelect.get()
if projOption == self.projectOptions[0]:
self.openOldProject()
elif projOption == self.projectOptions[1]:
self.initPdb()
# end if
if self.project:
self.project.gui = self
# end if
self.updateGui()
#end def
def openOldProject(self):
fName = self.projEntry.get()
if not os.path.exists(fName):
nTerror('Error: file "%s" does not exist\n', fName)
#end if
if self.project:
self.closeProject()
# end if
self.project = cing.Project.open(name=fName,
status='old',
verbose=False)
#end def
def initPdb(self):
fName = self.pdbEntry.get()
if not os.path.exists(fName):
nTerror('Error: file "%s" does not exist\n', fName)
#end if
self.project = cing.Project.open(self.nameEntry.get(), status='new')
self.project.initPDB(pdbFile=fName, convention='PDB')
#end def
def closeProject(self):
if self.project:
self.project.close()
# end if
self.project = None
self.updateGui()
#end def
def updateGui(self, event=None):
projOption = self.projOptionsSelect.get()
buttons = self.buttonBar.buttons
# Disable entries
for e in [
self.projEntry, self.pdbEntry, self.ccpnEntry, self.cyanaEntry,
self.nameEntry
]:
e.configure(state='disabled')
#end for
if projOption == self.projectOptions[0]:
# Enable entries
self.projEntry.configure(state='normal')
if (len(self.projEntry.get()) > 0):
self.openProjectButton.enable()
self.runButton.enable()
else:
self.openProjectButton.disable()
self.runButton.disable()
#end if
elif projOption == self.projectOptions[1]:
# Enable entries
self.pdbEntry.configure(state='normal')
self.nameEntry.configure(state='normal')
if (len(self.pdbEntry.get()) > 0
and len(self.nameEntry.get()) > 0):
buttons[0].enable()
buttons[1].enable()
else:
buttons[0].disable()
buttons[1].disable()
#end if
#end if
elif projOption == self.projectOptions[2]:
# Enable entries
self.ccpnEntry.configure(state='normal')
self.nameEntry.configure(state='normal')
if (len(self.ccpnEntry.get()) > 0
and len(self.nameEntry.get()) > 0):
buttons[0].enable()
buttons[1].enable()
else:
buttons[0].disable()
buttons[1].disable()
#end if
#end if
elif projOption == self.projectOptions[3]:
# Enable entries
self.cyanaEntry.configure(state='normal')
self.nameEntry.configure(state='normal')
if (len(self.cyanaEntry.get()) > 0
and len(self.nameEntry.get()) > 0):
buttons[0].enable()
buttons[1].enable()
else:
buttons[0].disable()
buttons[1].disable()
#end if
#end if
self.projectStatus.clear()
if not self.project:
self.projectStatus.setText('No open project')
self.closeProjectButton.setText('Close Project')
self.closeProjectButton.disable()
else:
self.projectStatus.setText(self.project.format())
self.closeProjectButton.enable()
self.closeProjectButton.setText(
sprintf('Close Project "%s"', self.project.name))
#end if
#end def
def redirectConsole(self):
#pipe = TextPipe(self.inputTextBox.text_area)
#sys.stdin = pipe
pipe = TextPipe(self.outputTextBox.text_area)
sys.stdout = pipe
nTmessage.stream = pipe
# end def redirectConsole
# sys.stderr = pipe
def resetConsole(self):
#sys.stdin = stdin
nTmessage.stream = stdout
sys.stdout = stdout
sys.stderr = stderr
# end def resetConsole
def open(self):
self.redirectConsole()
BasePopup.open(self)
# end def open
def close(self):
geometry = self.getGeometry()
self.resetConsole()
BasePopup.close(self)
print 'close:', geometry
sys.exit(0) # remove later
# end def close
def destroy(self):
geometry = self.getGeometry()
self.resetConsole()
BasePopup.destroy(self)
print 'destroy:', geometry
sys.exit(0) # remove later
class AriaRunFrame(NmrCalcRunFrame):
def __init__(self, parent, project, calcStore, *args, **kw):
NmrCalcRunFrame.__init__(self, parent, project, calcStore,
inputTypes=(PEAK_DATA, CONSTRAINT_DATA),
chainSelection=True, *args, **kw)
self.calcStore = calcStore
self.optPeakList = None
self.optConstraintList = None
frame = self.tabbedFrame.frames[1]
headingList = ['PeakList','Filter\nViolated?',
'Keep\nAssignments?','Shift List']
editWidgets = [None, None, None, None]
editGetCallbacks = [None, self.toggleFilterViol,
self.toggleKeepAssign, None]
editSetCallbacks = [None, None, None, None]
row = 0
subFrame = Frame(frame, grid=(row,0))
subFrame.expandGrid(0,1)
label = Label(subFrame, text='File Name Prefix:', grid=(0,0))
self.filePrefixEntry = Entry(subFrame, text='aria', grid=(0,1), sticky="ew")
self.filePrefixEntry.bind('<Leave>', self.updateEntryParams)
label = Label(subFrame, text='CNS Executable:', grid=(1,0))
self.cnsExeEntry = Entry(subFrame, text='', grid=(1,1), sticky="ew")
self.cnsExeEntry.bind('<Leave>', self.updateEntryParams)
button = Button(subFrame, text='Select File',bd=1,bg='#C0E0FF',
command=self.selectCnsExe, grid=(1,2))
label = Label(subFrame, text='Working Directory:', grid=(2,0))
self.workingDirEntry = Entry(subFrame, text='', grid=(2,1), sticky="ew")
self.workingDirEntry.bind('<Leave>', self.updateEntryParams)
button = Button(subFrame, text='Select File',bd=1,bg='#C0E0FF',
command=self.selectWorkingDir, grid=(2,2))
label = Label(subFrame, text='Temporary Directory:', grid=(3,0))
self.tempDirEntry = Entry(subFrame, text='', grid=(3,1), sticky="ew")
self.tempDirEntry.bind('<Leave>', self.updateEntryParams)
button = Button(subFrame, text='Select File',bd=1,bg='#C0E0FF',
command=self.selectTempDir, grid=(3,2))
row += 1
frame.expandGrid(row,0)
self.grid_rowconfigure(row, weight=1)
self.optPeakListMatrix = ScrolledMatrix(frame, headingList=headingList,
editSetCallbacks=editSetCallbacks,
editGetCallbacks=editGetCallbacks,
editWidgets=editWidgets,
multiSelect=True, grid=(row,0),
callback=self.selectOptPeakList)
row += 1
frame.expandGrid(row,0)
headingList = ['Constraint List',
'Name',
'Filter\nViolated?',
'Ambiguous\nProtocol?',]
editWidgets = [None, None, None, None]
editGetCallbacks = [None, None, self.toggleFilterViol, self.toggleAmbig]
editSetCallbacks = [None, None, None, None]
self.optConstraintMatrix = ScrolledMatrix(frame, headingList=headingList,
editSetCallbacks=editSetCallbacks,
editGetCallbacks=editGetCallbacks,
editWidgets=editWidgets,
multiSelect=True, grid=(row,0),
callback=self.selectConstraintList)
self.optConstraintMatrix.doEditMarkExtraRules = self.doEditMarkExtraRules
self.update(calcStore)
def update(self, calcStore=None):
NmrCalcRunFrame.update(self, calcStore)
self.updateSettings()
# Need to run NmrCalcRunFrame.update before
# this to get new self.run, self.project
if self.run:
repository = self.project.findFirstRepository(name='userData')
defaultDir = repository.url.path
filePrefix = getRunTextParameter(self.run, FILE_PREFIX) or self.project.name
cnsExe = getRunTextParameter(self.run, CNS_EXE) or '/usr/bin/cns'
workingDir = getRunTextParameter(self.run, WORKING_DIR) or defaultDir
tempDir = getRunTextParameter(self.run, TEMP_DIR) or defaultDir
self.filePrefixEntry.set(filePrefix)
self.cnsExeEntry.set(cnsExe)
self.workingDirEntry.set(workingDir)
self.tempDirEntry.set(tempDir)
self.updateEntryParams()
def updateEntryParams(self, event=None):
if self.run:
repository = self.project.findFirstRepository(name='userData')
defaultDir = repository.url.path
filePrefix = self.filePrefixEntry.get() or self.project.name
cnsExe = self.cnsExeEntry.get() or '/usr/bin/cns'
workingDir = self.workingDirEntry.get() or defaultDir
tempDir = self.tempDirEntry.get() or defaultDir
setRunParameter(self.run, FILE_PREFIX, filePrefix)
setRunParameter(self.run, CNS_EXE, cnsExe)
setRunParameter(self.run, WORKING_DIR, workingDir)
setRunParameter(self.run, TEMP_DIR, tempDir)
def selectCnsExe(self):
fileTypes = [ FileType("All", ["*"]), FileType("EXE", ["*.exe"]) ]
popup = FileSelectPopup(self, fileTypes)
file = popup.getFile()
if file:
self.cnsExeEntry.set( file )
popup.destroy()
self.updateEntryParams()
def selectWorkingDir(self):
popup = FileSelectPopup(self, show_file=False)
directory = popup.getDirectory()
if directory:
self.workingDirEntry.set( directory )
popup.destroy()
self.updateEntryParams()
def selectTempDir(self):
popup = FileSelectPopup(self, show_file=False)
directory = popup.getDirectory()
if directory:
self.tempDirEntry.set( directory )
popup.destroy()
self.updateEntryParams()
def getPeakLists(self):
# overwrites superclass
return getThroughSpacePeakLists(self.project)
def administerNotifiers(self, notifyFunc):
NmrCalcRunFrame.administerNotifiers(self, notifyFunc)
for func in ('__init__','delete','setName'):
#notifyFunc(self.updateSettings, 'ccp.nmr.NmrConstraint.AbstractConstraintList', func)
notifyFunc(self.updateSettings, 'ccp.nmr.NmrConstraint.DistanceConstraintList', func)
notifyFunc(self.updateSettings, 'ccp.nmr.NmrConstraint.DihedralConstraintList', func)
notifyFunc(self.updateSettings, 'ccp.nmr.NmrConstraint.HBondConstraintList', func)
def selectOptPeakList(self, obj, row, col):
self.optPeakList = obj
def selectConstraintList(self, obj, row, col):
self.optConstraintList = obj
def doEditMarkExtraRules(self, obj, row, col):
if col in (2,3):
cSet = obj.nmrConstraintStore
if cSet:
for cList in obj.constraintLists:
if cList.className[:-14] != 'Distance':
# i.e. ambig protocols and viol filtering
# is only for dist constraints, not dihedral etc
return False
return True
def toggleUseInCalc(self, dataObj):
toggleObjBooleanParameter(dataObj, USE_IN_CALC)
self.updateSettings()
def toggleFilterViol(self, dataObj):
toggleObjBooleanParameter(dataObj, FILTER_VIOL)
self.updateSettings()
def toggleKeepAssign(self, dataObj):
toggleObjBooleanParameter(dataObj, KEEP_ASSIGN)
self.updateSettings()
def toggleAmbig(self, dataObj):
toggleObjBooleanParameter(dataObj, AMBIG_PROTOCOL)
self.updateSettings()
def updateSettings(self, obj=None):
textMatrix = []
objectList = []
run = self.run
if run:
peakListsData = []
constraintData = []
molSystemData = None
for dataObj in run.sortedInputs():
className = dataObj.className
if className == 'PeakListData':
peakList = dataObj.peakList
if peakList:
peakListsData.append((dataObj, peakList))
elif className == 'MolSystemData':
molSystem = dataObj.molSystem
if molSystem:
molSystemData = (dataObj, molSystem)
elif className == 'ConstraintStoreData':
nmrConstraintStore = dataObj.nmrConstraintStore
if nmrConstraintStore:
constraintLists = dataObj.constraintLists or \
nmrConstraintStore.sortedConstraintLists()
# Chould be only one
for constraintList in constraintLists:
if constraintList is None:
# Prob happens when serial no longer exists
continue
constraintData.append((dataObj, constraintList))
for dataObj, peakList in peakListsData:
spectrum = peakList.dataSource
experiment = spectrum.experiment
filterViol = getObjBooleanParameter(dataObj, FILTER_VIOL)
keepAssign = getObjBooleanParameter(dataObj, KEEP_ASSIGN)
shiftList = peakList.dataSource.experiment.shiftList
if shiftList:
shiftListName = '%d:%s' % (shiftList.serial,shiftList.name)
else:
shiftListName = None
ident = '%s:%s:%d' % (experiment.name,spectrum.name,peakList.serial)
textMatrix.append([ident,
filterViol and 'Yes' or 'No',
keepAssign and 'Yes' or 'No',
shiftListName])
objectList.append(dataObj)
self.optPeakListMatrix.update(textMatrix=textMatrix,objectList=objectList)
textMatrix = []
objectList = []
for dataObj, constraintList in constraintData:
#useInCalc = getObjBooleanParameter(dataObj, USE_IN_CALC)
cSet = dataObj.constraintStoreSerial
cType = constraintList.className[:-14]
if cType == 'Distance':
filterViol = getObjBooleanParameter(dataObj, FILTER_VIOL)
ambigProtocol = getObjBooleanParameter(dataObj, AMBIG_PROTOCOL)
ambigProtocol = ambigProtocol and 'Yes' or 'No'
filterViol = filterViol and 'Yes' or 'No'
else:
ambigProtocol = None
filterViol = None
ident = '%s - %d:%d' % (cType, cSet, constraintList.serial)
textMatrix.append([ident,
constraintList.name,
filterViol,
ambigProtocol])
objectList.append(dataObj)
self.optConstraintMatrix.update(textMatrix=textMatrix,
objectList=objectList)
class EntryScale(Frame):
def __init__(self,
parent,
values,
initial_index=0,
orient=Tkinter.HORIZONTAL,
scale_length=200,
entry_width=5,
entry_format='%2.1f',
set_callback=None,
*args,
**kw):
assert len(values) > 0
self.entry_format = entry_format
self.values = tuple(values)
self.set_callback = set_callback
apply(Frame.__init__, (self, parent) + args, kw)
if (orient == Tkinter.HORIZONTAL):
self.grid_columnconfigure(1, weight=1)
sticky = Tkinter.EW
row = 0
col = 1
else:
self.grid_rowconfigure(1, weight=1)
sticky = Tkinter.NS
row = 1
col = 0
self.entry = Entry(self, width=entry_width)
self.entry.grid(row=0, column=0, sticky=sticky)
self.entry.bind('<KeyPress>', self.keyPress)
self.scale = Tkinter.Scale(self,
orient=orient,
length=scale_length,
from_=0,
to=len(values) - 1,
label='',
showvalue=0,
command=self.setCallback)
self.scale.grid(row=row, column=col, sticky=sticky)
self.set(initial_index)
def get(self):
return self.scale.get()
def getValue(self):
return self.values[self.get()]
def set(self, index):
assert index >= 0 and index < len(
self.values), 'index = %s, len(self.values) = %s' % (
index, len(self.values))
self.scale.set(index)
self.setEntry()
def setEntry(self):
index = self.get()
text = self.entry_format % self.values[index]
self.entry.set(text)
def setCallback(self, ignore):
self.setEntry()
if (self.set_callback):
self.set_callback(self.get())
def keyPress(self, event):
if (event.keysym == 'Return'):
text = self.entry.get()
try:
value = text.atof()
except:
return
min_index = 0
min_diff = abs(self.values[0] - value)
for i in range(1, len(self.values)):
diff = abs(self.values[i] - value)
if (diff < min_diff):
min_index = i
min_diff = diff
self.set(min_index)
class PalesFrame(Frame):
""" Frame for handling PALES calculation.
Note that the frame uses (or creates) an NmrCalcStore named 'PALES'
and linked to the current NmrProject.
"""
def __init__(self, parent, project, closeButton=False, *args, **kw):
self.parent = parent
self.project = project
self.nmrProject = (project.currentNmrProject
or project.newNmrProject(name='PALES'))
self.calcStore = None
self.run = None
self.inpStructure = None
self.inpConstraintList = None
self.workingDir = None
self.waiting = False
self.palesMode = None
self.resetCalcStore()
Frame.__init__(self, parent, *args, **kw)
self.expandGrid(0, 0)
options = ['Input Data', 'Extra Input', 'View Results']
tabbedFrame = TabbedFrame(self, options=options, grid=(0, 0))
frameA, frameX, frameB = tabbedFrame.frames
self.tabbedFrame = tabbedFrame
label = Label(tabbedFrame.sideFrame,
text='Run Number:',
grid=(0, 0),
sticky='e')
tipText = 'Selects which calculation job or "run" is currently being viewed or edited'
self.runPulldown = PulldownList(tabbedFrame.sideFrame,
callback=self.changeRun,
grid=(0, 1),
sticky='e',
tipText=tipText)
tipTexts = ['Delete the current calculation run settings']
texts = ['Delete Run']
commands = [self.deleteRun]
if closeButton:
ButtonListClass = UtilityButtonList
else:
ButtonListClass = ButtonList
runButtons = ButtonListClass(tabbedFrame.sideFrame,
texts=texts,
tipTexts=tipTexts,
commands=commands,
sticky='e',
grid=(0, 2))
# Input data
frameA.expandGrid(2, 1)
row = 0
label = Label(frameA, text='Pales mode:', grid=(row, 0), sticky='w')
self.palesModePulldown = PulldownList(frameA,
callback=self.changePalesMode,
grid=(row, 1))
tipTexts = [
'Make a setup for a new calculation run',
'Make a new calculation run by copying the current one',
]
texts = ['New Run', 'Copy Run']
commands = [self.newRun, self.copyRun]
if closeButton:
ButtonListClass = UtilityButtonList
else:
ButtonListClass = ButtonList
runButtons = ButtonList(frameA,
texts=texts,
tipTexts=tipTexts,
commands=commands,
sticky='e',
grid=(row, 2))
runButtons.buttons[0].config(bg='#B0FFB0')
row += 1
subframe1 = LabelFrame(frameA,
text='Description',
grid=(row, 0),
gridSpan=(1, 3))
subframe1.expandGrid(0, 1)
self.modeDescription = Label(subframe1, grid=(row, 0), sticky='w')
row += 1
# setup generic table headings, justification and widget getters/setters
self.inputMatrix = GenericDataMatrix(frameA, progParameters)
self.inputMatrix.grid(row=row, column=0, columnspan=3, sticky='nsew')
row += 1
label = Label(frameA, text='Comments:', grid=(row, 0))
self.detailsEntryIn = Entry(frameA,
grid=(row, 1),
gridSpan=(1, 2),
sticky="ew")
self.detailsEntryIn.bind('<Leave>', self.changeDetailsIn)
row += 1
button = Button(frameA,
text='Select working dir:',
bd=1,
command=self.selectWorkingDir,
grid=(row, 0),
sticky="ew")
self.workingDirEntry = Entry(frameA,
text='.',
grid=(row, 1),
gridSpan=(1, 2),
width=48,
sticky="ew",
bd=1)
row += 1
button = Button(frameA,
text='Execute Pales:',
bd=1,
command=self.executePales,
grid=(row, 0),
gridSpan=(1, 3),
sticky="new")
# Extra input
# setup generic table headings, justification and widget getters/setters
frameX.expandGrid(0, 0)
self.extraInputMatrix = GenericDataMatrix(frameX, progParameters)
self.extraInputMatrix.grid(row=0, column=0, sticky='nsew')
# View Results
frameB.expandGrid(7, 1)
row = 0
subframe1 = LabelFrame(frameB,
text='Command Options:',
grid=(row, 0),
gridSpan=(1, 4))
# gridSpan=(1,2))
subframe1.expandGrid(0, 1)
self.palesOptionsLabel = Label(subframe1, grid=(row, 0), sticky='w')
row += 1
div = LabelDivider(frameB, text='Data', grid=(row, 0), gridSpan=(1, 4))
row += 1
self.outputMatrix = GenericDataMatrix(frameB,
progParameters,
initialRows=4)
self.outputMatrix.grid(row=0, column=0, sticky='nsew')
self.outputMatrix.grid(row=row,
column=0,
columnspan=(4),
sticky='nsew')
row += 1
button = Button(frameB,
text='View Selected',
bd=1,
command=self.viewPalesData,
grid=(row, 0),
gridSpan=(1, 4),
sticky="ew")
row += 1
label = Label(frameB, text='Comments:', grid=(row, 0), sticky="w")
self.detailsEntry = Entry(frameB,
grid=(row, 1),
gridSpan=(1, 3),
sticky="ew")
self.detailsEntry.bind('<Leave>', self.changeDetails)
row += 1
subframe2 = LabelFrame(frameB,
text='Calculated Order Matrix:',
grid=(row, 0),
gridSpan=(1, 4))
#subframe2.grid_columnconfigure(5, weight=1)
subframe2.expandGrid(1, 5)
label = Label(subframe2, text='Daxial', grid=(0, 0), sticky='ew')
label = Label(subframe2, text='Drhombic', grid=(0, 1), sticky='ew')
label = Label(subframe2, text='Psi', grid=(0, 2), sticky='ew')
label = Label(subframe2, text='Phi', grid=(0, 3), sticky='ew')
label = Label(subframe2, text='Theta', grid=(0, 4), sticky='ew')
self.outputTensorLabels = ll = []
for ii in range(5):
label = Label(subframe2, text='<None>', grid=(1, ii), sticky='ew')
ll.append(label)
row += 1
div = LabelDivider(frameB,
text='Program Output',
grid=(row, 0),
gridSpan=(1, 4),
sticky='sew')
#textFrame1 = LabelFrame(frameB, text='Pales Output File', grid=(5,0),
# gridSpan=(1,6), sticky='nsew')
#textFrame1.expandGrid(0,0)
row += 1
self.palesOutputText = ScrolledText(frameB, xscroll=False)
self.palesOutputText.grid(row=row,
column=0,
columnspan=4,
sticky='nsew')
self.updateAfter()
self.administerNotifiers(self.parent.registerNotify)
def updatePalesOptions(self):
palesMode = self.palesMode
dd = palesModes.get(palesMode)
# NBNB TBD
def resetCalcStore(self, calcStore=None):
""" Reset self.calcStore if missing or deleted
"""
if calcStore is None or calcStore is self.calcStore:
nmrProject = self.nmrProject
calcStore = self.project.findFirstNmrCalcStore(
nmrProject=nmrProject, name='PALES')
if calcStore is None:
calcStore = self.project.newNmrCalcStore(
nmrProject=self.nmrProject, name='PALES')
if self.calcStore is not calcStore:
self.calcStore = calcStore
if self.run is not None:
self.run = None
self.updateAfter()
def selectWorkingDir(self):
popup = FileSelectPopup(self, show_file=False)
directory = popup.getDirectory()
if directory:
self.workingDirEntry.set(directory)
popup.destroy()
self.updateAfter()
def changeDetails(self, event):
if self.run:
value = self.detailsEntry.get().strip() or None
if value != self.run.details:
self.run.details = value
def changeDetailsIn(self, event):
if self.run:
value = self.detailsEntryIn.get().strip() or None
if value != self.run.details:
self.run.details = value
def updateDetails(self):
if self.run:
text = self.run.details
else:
text = ''
self.detailsEntry.set(text)
self.detailsEntryIn.set(text)
def changePalesMode(self, mode):
if mode and (mode is not self.palesMode):
run = self.run
if runIsEditable(run):
palesModeObj = run.findFirstRunParameter(name='Pales Mode')
if palesModeObj is None:
palesModeObj = run.newRunParameter(name='Pales Mode',
ioRole='input')
palesModeObj.textValue = mode
self.palesMode = mode
self.initialiseRun()
self.updateAfter()
def updatePalesModes(self, obj=None):
names = []
index = 0
modes = []
for tag in palesModeList:
modeInfo = palesModes[tag]
names.append(modeInfo['text'])
modes.append(tag)
if obj is not None:
mode = obj
else:
mode = self.palesMode
try:
index = modes.index(mode)
except ValueError:
index = 0
self.palesMode = modes[index]
self.palesModePulldown.setup(names, modes, index)
tag = modes[index]
self.modeDescription.set(palesModes[tag].get('info'))
def copyRun(self):
# TBD: Inputs only?
if self.run:
self.configure(cursor="watch")
run = copySubTree(self.run, self.calcStore)
run.status = 'provisional'
# remove output
for data in run.findAllData(ioRole='output'):
data.delete()
for parObj in run.findAllRunParameters(ioRole='output'):
parObj.delete()
self.run = run
self.updateAfter()
self.after_idle(lambda: self.configure(cursor=""))
def newRun(self):
if self.calcStore:
self.run = self.calcStore.newRun(status='provisional')
self.initialiseRun()
self.updateAfter()
def initialiseRun(self):
""" Create objects for known parameters
"""
print '### initialiseRun', self.run and runIsEditable(self.run)
run = self.run
if run is None or not runIsEditable(run):
return
# set up
tag = self.palesMode
modeData = palesModes[tag]
currentTags = set(modeData['fixedpar'] + modeData['mandatories'] +
modeData['optionals'])
# set palesMode if missing
self.updatePalesModes()
# remove parameters no longer needed
for obj in run.runParameters:
if obj.name not in currentTags:
obj.delete()
for obj in run.data:
if obj.name not in currentTags:
obj.delete()
self.inputMatrix.updateGeneric(run=run,
paramList=(modeData['fixedpar'] +
modeData['mandatories']))
self.extraInputMatrix.updateGeneric(run=run,
paramList=modeData['optionals'])
for ii, name in enumerate(modeData['fixedpar']):
value = modeData['fixedvalues'][ii]
code, parType, default, info = progParameters[name]
self.inputMatrix.setupRunObject(run,
name,
code,
parType,
default,
info,
value=value)
def getPalesOptions(self):
run = self.run
if run is None:
return
palesMode = self.palesMode
return 'NBNB TBD'
def changeRun(self, run):
print '### changeRun', self.run, run
if run and (run is not self.run):
self.run = run
self.updateAfter()
def deleteRun(self):
if self.run:
msg = 'Really delete calculation run %d?' % self.run.serial
if showOkCancel('Query', msg, parent=self):
self.run.delete()
self.run = None
self.updateAfter()
def updateRunsAfter(self, obj=None):
print '### updateRunsAfter', obj, self.waiting
if self.waiting:
return
else:
self.waiting = True
self.after_idle(self.updateRuns)
def updateRunDataAfter(self, obj=None):
print '### updateRunDataAfter', obj
if obj is None:
run = None
else:
run = obj.run
self.updateRunAfter(run=run)
def updateRunAfter(self, run=None):
""" update all if run is curent run, otherwise update run pulldown only
"""
print '### updateRunAfter', run, self.waiting
if self.waiting:
return
elif run is None:
return
elif run is self.run:
self.waiting = True
self.after_idle(self.update)
else:
self.waiting = True
self.after_idle(self.updateRuns)
def updateAfter(self, obj=None):
if self.waiting:
return
self.waiting = True
self.configure(cursor="watch")
self.after_idle(self.update)
def updateRuns(self, run=None):
""" Update run pulldown only
"""
print '### updateRuns', run
names = []
index = 0
runs = []
run = self.run
if self.calcStore is None or self.calcStore.isDeleted:
self.resetCalcStore()
runs = self.calcStore.sortedRuns()
if runs:
if run not in runs:
run = runs[-1]
index = runs.index(run)
names = []
for r in runs:
if runIsEditable(r):
names.append('%d' % r.serial)
else:
names.append('%d (uneditable)' % r.serial)
else:
run = None
if run is not self.run:
self.changeRun(run)
print '###', names, runs, index
self.runPulldown.setup(names, runs, index)
self.waiting = False
def update(self, obj=None):
print '### update', self.run
self.updateRuns(obj)
run = self.run
if run is None:
palesMode = self.palesMode = None
self.palesOptionsLabel.set('')
for label in self.outputTensorLabels:
label.set('<None>')
self.palesOutputText.setText()
else:
# Pales command NBNB TBD
#valueObj = run.findFirstRunParameter(code='command')
#if valueObj is None:
# self.palesCommandLabel.set('')
#else:
# self.palesCommandLabel.set(valueObj.textValue)
palesModeObj = run.findFirstRunParameter(ioRole='input',
name='Pales Mode')
if palesModeObj is None:
palesMode = None
else:
palesMode = palesModeObj.textValue
# Output orientation matrix
keywords = ('dAxialOut', 'dRhombicOut', 'psiOut', 'phiOut',
'thetaOut')
for ii, label in enumerate(self.outputTensorLabels):
keyword = keywords[ii]
valueObj = run.findFirstRunParameter(code=keyword,
ioRole='output')
if valueObj is None:
label.set('<None>')
else:
label.set(valueObj.floatValue)
# Pales output text
valueObj = run.findFirstRunParameter(ioRole='output',
name='Output Text')
if valueObj:
self.palesOutputText.setText(valueObj.textValue)
else:
self.palesOutputText.setText()
self.updatePalesModes(palesMode)
self.palesOptionsLabel.set(self.getPalesOptions())
#self.updateInputMatrix()
#self.updateExtraInputMatrix()
#self.updateOutputMatrix()
self.inputMatrix.updateGeneric()
self.extraInputMatrix.updateGeneric()
self.outputMatrix.updateGeneric()
self.updateDetails()
self.after_idle(lambda: self.configure(cursor=""))
self.waiting = False
def administerNotifiers(self, notifyFunc):
notifyFunc(self.updateRunsAfter, 'ccp.nmr.NmrCalc.NmrCalcStore',
'delete')
notifyFunc(self.updateRunsAfter, 'ccp.nmr.NmrCalc.Run', '__init__')
notifyFunc(self.updateRunAfter, 'ccp.nmr.NmrCalc.Run', 'delete')
notifyFunc(self.updateRunAfter, 'ccp.nmr.NmrCalc.Run', 'setDetails')
NC = 'ccp.nmr.NmrCalc.'
nmrCalcClasses = [
'RunParameter',
'EnergyTerm',
'ConstraintStoreData',
'ViolationListData',
'MolSystemData',
'MolResidueData',
'SpectrumData',
'PeakListData',
'SpinSystemData',
'StructureEnsembleData',
'ExternalData',
'FloatMatrixData',
'TensorData',
'MeasurementListData',
'DerivedListData',
]
for clazz in nmrCalcClasses:
notifyFunc(self.updateRunDataAfter, NC + clazz, '')
def destroy(self):
self.administerNotifiers(self.parent.unregisterNotify)
Frame.destroy(self)
def executePales(self):
# NBNB TBD
pass
def viewPalesData(self):
# NBNB TBD
valueObj = self.outputMatrix
if isinstance(valueObj, NmrCalc.ExternalData):
dataStore = valueObj.dataStore
if dataStore is not None:
wb = WebBrowser(self, name='PalesData')
wb.open(dataStore.fullPath)
elif isinstance(valueObj, NmrCalc.MeasurementListData):
mm = valueObj.measurementList
if mm is not None:
popup = self.parent.editMeasurementLists()
popup.tabbedFrame.select(1)
popup.setMeasurementList(mm)
elif isinstance(valueObj, NmrCalc.StructureEnsembleData):
models = valueObj.models
if len(models) == 1:
popup = self.parent.editStructures()
popup.tabbedFrame.select(3)
popup.changeModel(models[0])
popup.changeTab(3)
elif isinstance(valueObj, NmrCalc.ConstraintStoreData):
constraintLists = valueObj.constraintLists
if len(constraintLists) == 1:
popup = self.parent.browseConstraints()
popup.tabbedFrame.select(2)
popup.changeRestraintList(constraintLists[0])