def body(self, master):
master.grid_rowconfigure(0, weight=1)
master.grid_columnconfigure(0, weight=1)
self.table = ObjectTable(master, self.metaclass)
self.table.grid(row=0, column=0, sticky=Tkinter.NSEW)
if (self.onlyShow):
texts = ['Close']
commands = [self.close]
else:
texts = ['Ok', 'Cancel']
commands = [self.ok, self.close]
self.buttons = ButtonList(master,
texts=texts,
commands=commands,
direction=Tkinter.HORIZONTAL,
expands=True)
self.buttons.grid(row=1, column=0, sticky=Tkinter.EW)
self.selected = None
self.setObjects()
self.doRegisters()
def body(self, guiParent):
self.geometry('600x300')
guiParent.grid_columnconfigure(1, weight=1)
url = ''
if self.server:
url = self.server.url
label = Label(guiParent, text='Server location: %s' % url)
label.grid(row=0, column=0, sticky='w', columnspan=2)
label = Label(guiParent,
text='Installation root: %s%s' %
(self.installRoot, os.sep))
label.grid(row=1, column=0, sticky='w', columnspan=2)
editWidgets = [None] * 5
editGetCallbacks = [None, self.toggleSelected, None, None, None]
editSetCallbacks = [None] * 5
guiParent.grid_rowconfigure(2, weight=1)
headingList = [
'File', 'Install?', 'Date', 'Relative Path', 'Priority', 'Comments'
]
self.scrolledMatrix = ScrolledMatrix(guiParent,
headingList=headingList,
highlightType=0,
editWidgets=editWidgets,
callback=self.selectCell,
editGetCallbacks=editGetCallbacks,
editSetCallbacks=editSetCallbacks)
self.scrolledMatrix.grid(row=2, column=0, columnspan=2, sticky='nsew')
if self.exitOnClose:
txt = 'Quit'
cmd = sys.exit
else:
txt = 'Close'
cmd = self.close
texts = ['Refresh List', 'Select All', 'Install Selected', txt]
commands = [self.updateFiles, self.selectAll, self.install, cmd]
self.buttonList = ButtonList(guiParent,
texts=texts,
commands=commands,
expands=True)
self.buttonList.grid(row=3, column=0, columnspan=2, sticky='ew')
if self.server:
for fileUpdate in self.server.fileUpdates:
fileUpdate.isSelected = False
#self.update()
# need self.updateFiles, not just self.update
# because otherwise the 2.0.5 to 2.0.6 upgrades do not work
# (self.server not set on first pass so need call to updateFiles here)
self.updateFiles()
def drawButtons(self, okText='OK', cancelText='Cancel'):
texts = [okText, cancelText]
commands = [self.ok, self.cancel]
buttonList = ButtonList(self, texts=texts, commands=commands)
buttonList.buttons[0].config(default=Tkinter.ACTIVE)
buttonList.pack()
class SaveLoadTab(object):
"""The tab that lets the user FileSelect
a file to open or to save.
"""
def __init__(self, parent, frame):
"""Init. args: parent: the guiElement that this
tab is part of.
frame: the frame this part of the
GUI lives in.
"""
self.guiParent = parent
self.frame = frame
self.project = parent.project
self.nmrProject = parent.nmrProject
self.loadAndSaveButtons = None
self.fileselectionBox = None
self.body()
def body(self):
"""Setting up the body of this view."""
frame = self.frame
file_types = [FileType("pyc", ["*.pyc"])]
self.fileselectionBox = FileSelect(frame, multiSelect=False, file_types=file_types)
self.fileselectionBox.grid(row=0, column=0, columnspan=6, sticky="nsew")
texts = ["Load", "Save"]
commands = [self.loadDataFromPyc, self.saveDataToPyc]
self.loadAndSaveButtons = ButtonList(frame, commands=commands, texts=texts)
self.loadAndSaveButtons.grid(row=1, column=0, sticky="nsew")
frame.grid_rowconfigure(0, weight=1)
frame.grid_columnconfigure(0, weight=1)
def saveDataToPyc(self):
"""Save the data to the selected file."""
if self.guiParent.connector.results:
fileName = self.fileselectionBox.getFile()
self.guiParent.connector.saveDataToPyc(fileName)
self.fileselectionBox.updateFileList()
else:
string = """There are no results to save, """ """the algorithm has not run yet."""
showWarning("No Results to Save", string, parent=self.guiParent)
def loadDataFromPyc(self):
"""Load the data from the selected file."""
fileName = self.fileselectionBox.getFile()
self.guiParent.connector.loadDataFromPyc(fileName)
self.guiParent.resultsTab.update()
def body(self, guiParent):
row = 0
self.graph = ScrolledGraph(guiParent)
self.graph.grid(row=row, column=0, sticky='NSEW')
row += 1
texts = ['Draw graph', 'Goodbye']
commands = [self.draw, self.destroy]
buttons = ButtonList(guiParent, texts=texts, commands=commands)
buttons.grid(row=row, column=0, sticky='NSEW')
def __init__(self,
parent,
width=70,
height=20,
xscroll=False,
yscroll=True,
*args,
**kw):
apply(Frame.__init__, (self, parent) + args, kw)
self.grid_columnconfigure(1, weight=1)
row = 0
texts = ('back', 'forward', 'load')
commands = (self.prevUrl, self.nextUrl, self.loadUrl)
self.buttons = ButtonList(self, texts=texts, commands=commands)
self.buttons.grid(row=row, column=0)
self.url_entry = Entry(self, returnCallback=self.loadUrl)
self.url_entry.grid(row=row, column=1, columnspan=2, sticky=Tkinter.EW)
row = row + 1
frame = Frame(self)
frame.grid(row=row, column=0, columnspan=3, sticky=Tkinter.W)
self.createFindFrame(frame)
row = row + 1
self.grid_rowconfigure(row, weight=1)
self.help_text = ScrolledHtml(self,
width=width,
height=height,
xscroll=xscroll,
yscroll=yscroll,
startUrlCallback=self.startOpenUrl,
endUrlCallback=self.endOpenUrl,
enterLinkCallback=self.setLinkLabel,
leaveLinkCallback=self.setLinkLabel)
self.help_text.grid(row=row,
column=0,
columnspan=3,
sticky=Tkinter.NSEW)
row = row + 1
self.link_label = Label(self)
self.link_label.grid(row=row, column=0, columnspan=2, sticky=Tkinter.W)
button = memops.gui.Util.createDismissButton(self,
dismiss_cmd=self.close)
button.grid(row=row, column=2)
self.urls = []
self.current = -1
self.updateUrlList = True
self.setButtonState()
def body(self, guiFrame):
'''Describes where all the GUI element are.'''
self.geometry('400x500')
guiFrame.expandGrid(0, 0)
tableFrame = Frame(guiFrame)
tableFrame.grid(
row=0,
column=0,
sticky='nsew',
)
tableFrame.expandGrid(0, 0)
buttonFrame = Frame(guiFrame)
buttonFrame.grid(
row=1,
column=0,
sticky='nsew',
)
headingList = ['Spinsystem Number', 'Assignment', 'Residue Type Probs']
self.table = ScrolledMatrix(tableFrame,
headingList=headingList,
callback=self.updateSpinSystemSelection,
multiSelect=True)
self.table.grid(row=0, column=0, sticky='nsew')
texts = ['Add Prob']
commands = [self.addProb]
self.AddProbButton = ButtonList(buttonFrame,
commands=commands,
texts=texts)
self.AddProbButton.grid(row=0, column=0, sticky='nsew')
texts = ['Remove Prob']
commands = [self.removeProb]
self.AddProbButton = ButtonList(buttonFrame,
commands=commands,
texts=texts)
self.AddProbButton.grid(row=0, column=2, sticky='nsew')
selectCcpCodes = sorted(self.chemCompDict.keys())
tipText = 'select ccpCode'
self.selectCcpCodePulldown = PulldownList(buttonFrame,
texts=selectCcpCodes,
grid=(0, 1),
tipText=tipText)
selectCcpCodes = ['All Residue Types']
tipText = 'select ccpCode'
self.selectCcpCodeRemovePulldown = PulldownList(buttonFrame,
texts=selectCcpCodes,
index=0,
grid=(0, 3),
tipText=tipText)
self.updateTable()
def body(self, guiFrame):
self.geometry('700x400')
guiFrame.grid_columnconfigure(0, weight=1)
guiFrame.grid_rowconfigure(0, weight=1)
interfaceGroups, interfaceGroupDict = self.getInterfaceGroups()
if len(interfaceGroups) > 1:
mainFrame = TabbedFrame(guiFrame,
options=interfaceGroups,
grid=(0, 0))
frames = mainFrame.frames
else:
mainFrame = Frame(guiFrame, grid=(0, 0))
frames = [mainFrame]
for n, interfaceGroup in enumerate(interfaceGroups):
frame = frames[n]
interfaceObjects = interfaceGroupDict[interfaceGroup]
for interfaceObject in interfaceObjects:
self.makeInterfaceWidget(frame, interfaceObject)
texts = ('Ok', 'Cancel')
commands = (self.setupRun, self.cancelRun)
buttonList = ButtonList(guiFrame,
texts=texts,
commands=commands,
grid=(1, 0))
def body(self, guiFrame):
ProgressBar.body(self, guiFrame)
guiFrame.expandGrid(2,3)
self.stepLabel = Label(guiFrame, text='Best step: ', grid=(0,3))
frame = LabelFrame(guiFrame, text='Best mappings', grid=(1,0), gridSpan=(1,4))
row = 0
for i in range(self.ensembleSize):
label = Label(frame, text='', pady=0, font='Courier 10',
borderwidth=0, grid=(row,0), sticky='ew')
self.labels.append(label)
row +=1
guiFrame.grid_rowconfigure(2, weight=1)
self.graph = ScrolledGraph(guiFrame, width=450, height=300,
graphType='scatter', title='Typing Scores',
xLabel='Spin System', yLabel='Score',
grid=(2,0), gridSpan=(1,4))
self.buttonList = ButtonList(guiFrame, texts=['Close',], commands=[self.done],
grid=(3,0), gridSpan=(1,4))
self.buttonList.buttons[0].disable()
def body(self, guiFrame):
guiFrame.grid_rowconfigure(0, weight=1)
guiFrame.grid_columnconfigure(1, weight=1)
row = 0
if self.message:
label = Label(guiFrame,
text=self.message,
gridSpan=(1, 2),
grid=(row, 0))
row += 1
if self.label:
label = Label(guiFrame, text=self.label, grid=(row, 0))
self.itemMenu = PulldownList(guiFrame,
texts=self.entries,
objects=self.entries,
index=self.default,
grid=(row, 1))
row += 1
texts = [self.select_text, 'Cancel']
commands = [self.ok, self.cancel]
buttons = ButtonList(guiFrame,
texts=texts,
commands=commands,
gridSpan=(1, 2),
grid=(row, 0))
def __init__(self, guiParent, basePopup):
# Base popup required to handle notification of data model changes
# e.g. new peak lists, so that the GUI can update to the latest
# state
self.basePopup = basePopup
self.guiParent = guiParent
self.basePopup.frameShortcuts['Workflow'] = self
#self.registerNotify=basePopup.registerNotify
#self.unregisterNotify=basePopup.unregisterNotify
Frame.__init__(self, guiParent)
self.grid_rowconfigure(0, weight=0)
self.grid_rowconfigure(1, weight=0, minsize=100)
self.grid_rowconfigure(2, weight=1)
self.grid_rowconfigure(3, weight=0, minsize=30)
self.grid_columnconfigure(0, weight=0)
self.grid_columnconfigure(1, weight=1)
self.grid_columnconfigure(2, weight=0)
# build up the body.
self.lcA = LinkChart(self, background='#8080B0', height=110)
self.lcB = LinkChart(self, background='#8080B0')
lcButtonOpts=['Load','Save','Clear','New Protocol']
lcButtonCmds=[self.tmpCall,self.tmpCall,self.tmpCall,self.tmpCall]
self.lcButtons = ButtonList(self, lcButtonOpts, lcButtonCmds)
# hack for now. This should come from db of meta-tasks
self.expts=['Test1','Test2','ARIA','CING','ISD']
# needs custom version
self.filter = FilterFrame(self, self.basePopup, text='Filter')
# no bean udnerneath for now so mock up nodes
self.wfTree = Tree(self, width=35)
wfButtonOpts=['Load','Save']
wfButtonCmds=[self.tmpCall,self.tmpCall]
self.wfButtons = ButtonList(self, wfButtonOpts, wfButtonCmds)
self.drawFrame()
def createHelpButtonList(parent, texts = None, commands = None,
direction=Tkinter.HORIZONTAL,
help_text = '',
help_msg = '', help_url = '',
buttonBorderwidth=True, expands=True,
webBrowser = None,
*args, **kw):
if (texts is None):
texts = []
if (commands is None):
commands = []
if not help_text:
help_text = ''
texts = list(texts) + [help_text]
popup = getPopup(parent)
if not webBrowser:
webBrowser = WebBrowser(popup.top, popup=popup)
if (help_url):
help_cmd = lambda url=help_url: webBrowser.open(url)
else:
help_cmd = lambda top=popup.top, message=help_msg: memops.gui.HelpPopup.showHelpText(top, message, popup=popup)
if (type(commands) is types.DictType):
commands = commands.copy()
commands[help_text] = help_cmd
else:
commands = list(commands) + [help_cmd]
button_list = ButtonList(parent, texts=texts, commands=commands, buttonBorderwidth=buttonBorderwidth,
expands=expands, direction=direction, *args, **kw)
if not help_text:
button_list.helpIcon = Tkinter.PhotoImage(file=os.path.join(gfxDir,'help.gif'))
button_list.buttons[-1].config(image=button_list.helpIcon)
return button_list
def body(self, guiFrame):
'''Describes where all the GUI element are.'''
self.geometry('400x500')
guiFrame.expandGrid(0, 0)
tableFrame = Frame(guiFrame)
tableFrame.grid(row=0, column=0, sticky='nsew', )
tableFrame.expandGrid(0, 0)
buttonFrame = Frame(guiFrame)
buttonFrame.grid(row=1, column=0, sticky='nsew', )
headingList = ['Spinsystem Number', 'Assignment', 'Residue Type Probs']
self.table = ScrolledMatrix(tableFrame, headingList=headingList,
callback=self.updateSpinSystemSelection,
multiSelect=True)
self.table.grid(row=0, column=0, sticky='nsew')
texts = ['Add Prob']
commands = [self.addProb]
self.AddProbButton = ButtonList(buttonFrame, commands=commands,
texts=texts)
self.AddProbButton.grid(row=0, column=0, sticky='nsew')
texts = ['Remove Prob']
commands = [self.removeProb]
self.AddProbButton = ButtonList(buttonFrame, commands=commands,
texts=texts)
self.AddProbButton.grid(row=0, column=2, sticky='nsew')
selectCcpCodes = sorted(self.chemCompDict.keys())
tipText = 'select ccpCode'
self.selectCcpCodePulldown = PulldownList(buttonFrame,
texts=selectCcpCodes,
grid=(0, 1),
tipText=tipText)
selectCcpCodes = ['All Residue Types']
tipText = 'select ccpCode'
self.selectCcpCodeRemovePulldown = PulldownList(buttonFrame,
texts=selectCcpCodes,
index=0,
grid=(0, 3),
tipText=tipText)
self.updateTable()
def body(self, guiFrame):
guiFrame.grid_rowconfigure(0, weight=1)
guiFrame.grid_columnconfigure(0, weight=1)
row = 0
frame = LabelFrame(guiFrame, text='Matched Peak Groups')
frame.grid_rowconfigure(0, weight=1)
frame.grid_columnconfigure(0, weight=1)
frame.grid(row=row, sticky='nsew')
headingList, tipTexts = self.getHeadingList()
self.scrolledMatrix = ScrolledMatrix(frame, initialRows=15, multiSelect=True,
headingList=headingList, tipTexts=tipTexts,
grid=(0,0), gridSpan=(1,3))
tipTexts = ['Remove the selected peak groups from the table',
'Show 1D positional ruler lines for the selected groups',
'Remove any ruler lines previously added for peak group',
'Display selected peak groups within strips of selected window']
texts = ['Remove\nGroups','Show\nRulers',
'Delete\nRulers','Display Groups\nIn Strips']
commands = [self.removeGroups,self.addRulers,
self.removeRulers,self.stripGroups]
self.buttons = ButtonList(frame, texts=texts, commands=commands, tipTexts=tipTexts)
self.buttons.grid(row=1, column=0, sticky='ew')
tipText = 'Selects the spectrum window in which to display strips & ruler lines'
label = Label(frame, text='Target window:', grid=(1,1))
self.windowPulldown = PulldownList(frame, callback=None,
grid=(1,2), tipText=tipText)
row+= 1
bottomButtons = UtilityButtonList(guiFrame, helpUrl=self.help_url, expands=True, doClone=False)
bottomButtons.grid(row = row, sticky = 'ew')
self.update()
for func in ('__init__', 'delete', 'setName'):
self.registerNotify(self.updateWindowsAfter, 'ccpnmr.Analysis.SpectrumWindow', func)
def createBottomButtons(self, parent):
if (self.editMode):
texts = []
commands = []
if (self.metaclass.parentRole):
texts.extend(['Parent', 'Siblings'])
commands.extend([self.gotoParent, self.showSiblings])
if (self.metaclass.parentRole.otherClass.parentRole):
texts.extend(['All'])
commands.extend([self.showAll])
texts.extend(['Delete', 'Close'])
commands.extend([self.deleteObject, self.close])
else:
texts = ['Create', 'Cancel']
commands = [self.createObject, self.close]
bottom_buttons = ButtonList(parent,
texts=texts,
commands=commands,
direction=Tkinter.HORIZONTAL,
expands=True)
bottom_buttons.grid(row=2, column=0, columnspan=2, sticky=Tkinter.EW)
def body(self):
'''Setting up the body of this view.'''
frame = self.frame
file_types = [FileType('pyc', ['*.pyc'])]
self.fileselectionBox = FileSelect(frame,
multiSelect=False,
file_types=file_types)
self.fileselectionBox.grid(row=0,
column=0,
columnspan=6,
sticky='nsew')
texts = ['Load', 'Save']
commands = [self.loadDataFromPyc, self.saveDataToPyc]
self.loadAndSaveButtons = ButtonList(frame,
commands=commands,
texts=texts)
self.loadAndSaveButtons.grid(row=1, column=0, sticky='nsew')
frame.grid_rowconfigure(0, weight=1)
frame.grid_columnconfigure(0, weight=1)
def body(self):
"""Setting up the body of this view."""
frame = self.frame
file_types = [FileType("pyc", ["*.pyc"])]
self.fileselectionBox = FileSelect(frame, multiSelect=False, file_types=file_types)
self.fileselectionBox.grid(row=0, column=0, columnspan=6, sticky="nsew")
texts = ["Load", "Save"]
commands = [self.loadDataFromPyc, self.saveDataToPyc]
self.loadAndSaveButtons = ButtonList(frame, commands=commands, texts=texts)
self.loadAndSaveButtons.grid(row=1, column=0, sticky="nsew")
frame.grid_rowconfigure(0, weight=1)
frame.grid_columnconfigure(0, weight=1)
def body(self):
'''Describes the body of this tab. It consists
out of a number of radio buttons, check buttons
and number entries that allow the user to
indicate which assignments should be transferred.
'''
# self.frame.expandColumn(0)
self.frame.expandGrid(8, 0)
self.frame.expandGrid(8, 1)
typeOfAssignmentFrame = LabelFrame(
self.frame, text='type of assignment')
typeOfAssignmentFrame.grid(row=0, column=0, sticky='nesw')
# typeOfAssignmentFrame.expandGrid(0,5)
peakSelectionFrame = LabelFrame(
self.frame, text='which peaks to assign')
peakSelectionFrame.grid(row=0, column=1, sticky='nesw', rowspan=2)
spinSystemSelectionFrame = LabelFrame(self.frame,
text='Which spin-systems to use')
spinSystemSelectionFrame.grid(row=2, column=0, sticky='nesw')
tipText = 'What to do when a residue has already a spin system assigned to it.'
assignedResidueFrame = LabelFrame(self.frame,
text='if residue already has spin-system',
tipText=tipText)
assignedResidueFrame.grid(row=2, column=1, sticky='nesw')
spectrumSelectionFrame = LabelFrame(self.frame, text='spectra')
spectrumSelectionFrame.grid(row=1, column=0, sticky='nesw')
row = 0
Label(typeOfAssignmentFrame,
text='Resonances to Peak Dimensions',
grid=(row, 0))
self.peaksCheckButton = CheckButton(typeOfAssignmentFrame,
selected=True,
grid=(row, 1))
row += 1
Label(typeOfAssignmentFrame,
text='SpinSystems to Residues',
grid=(row, 0))
self.residuesCheckButton = CheckButton(
typeOfAssignmentFrame, selected=True, grid=(row, 1))
row = 0
Label(peakSelectionFrame, text='Intra-Residual', grid=(row, 0))
self.intraCheckButton = CheckButton(
peakSelectionFrame, selected=True, grid=(row, 1))
row += 1
Label(peakSelectionFrame, text='Sequential', grid=(row, 0))
self.sequentialCheckButton = CheckButton(
peakSelectionFrame, selected=True, grid=(row, 1))
row += 1
Label(peakSelectionFrame,
text='Do not assign diagonal peaks',
grid=(row, 0))
self.noDiagonalCheckButton = CheckButton(
peakSelectionFrame, selected=True, grid=(row, 1))
entries = ['Only assigned spin systems',
'All that have a score of at least: ',
'User Defined',
'Solution number:']
tipTexts = ['Only assign resonances of spin systems that already have a sequential assignment for the assignment of peak dimensions. Spin system to residue assignment is not relevant in this case.',
'Assign all spin systems that have a score of at least a given percentage. 50% or lower is not possible, because than spin systems might have to be assigned to more than 1 residue, which is impossible.',
"As defined in the lower row of buttons in the 'results' tab.",
'One of the single solutions of the annealing.']
self.spinSystemTypeSelect = RadioButtons(spinSystemSelectionFrame,
entries=entries, grid=(0, 0),
select_callback=None,
direction=VERTICAL,
gridSpan=(4, 1),
tipTexts=tipTexts)
tipText = 'The minimal amount of colabelling the different nuclei should have in order to still give rise to a peak.'
self.minScoreEntry = FloatEntry(spinSystemSelectionFrame,
grid=(1, 1), width=7,
text=str(self.minScore),
returnCallback=self.changeMinScore,
tipText=tipText)
self.minScoreEntry.bind('<Leave>', self.changeMinScore, '+')
self.solutionNumberEntry = IntEntry(spinSystemSelectionFrame,
grid=(3, 1), width=7, text=1,
returnCallback=self.solutionUpdate,
tipText=tipText)
self.solutionNumberEntry.bind('<Leave>', self.solutionUpdate, '+')
#self.solutionPullDown = PulldownList(spinSystemSelectionFrame, None, grid=(3,1), sticky='w')
entries = ['all spectra', 'only:']
tipTexts = ['Assign peaks in all the spectra that where selected before the annealing ran.',
'Only assign peaks in one particular spectrum. You can of course repeat this multiple times for different spectra.']
self.spectrumSelect = RadioButtons(spectrumSelectionFrame,
entries=entries,
grid=(0, 0),
select_callback=None,
direction=VERTICAL,
gridSpan=(2, 1), tipTexts=tipTexts)
self.spectraPullDown = PulldownList(spectrumSelectionFrame,
self.changeSpectrum,
grid=(1, 1), sticky='w')
entries = ['skip this residue',
'de-assign old spin system from residue',
'assign, but never merge',
'warn to merge']
tipTexts = ["Don't assign the new spin system to the residue. The residue is not skipped when the old spin system does not contain any resonances",
"De-assign old spin system from residue, unless the old spin system is a spin system without any resonances.",
"Don't merge any spin systems, merging can be performed later if nescesary in the Resonance --> SpinSystems window.",
"Ask to merge individually for each spin system, this might result in clicking on a lot of popups."]
self.assignedResidueStrategySelect = RadioButtons(assignedResidueFrame,
entries=entries,
grid=(0, 0),
select_callback=None,
direction=VERTICAL,
gridSpan=(2, 1),
tipTexts=tipTexts)
texts = ['Transfer Assignments']
commands = [self.transferAssignments]
self.transferButton = ButtonList(
self.frame, commands=commands, texts=texts)
self.transferButton.grid(row=5, column=0, sticky='nsew', columnspan=2)
def body(self, guiFrame):
self.geometry('600x350')
guiFrame.expandGrid(0, 0)
tipTexts = ['', '', '', '']
options = [
'Find Parameters', 'Spectrum Widths', 'Diagonal Exclusions',
'Region Peak Find'
]
tabbedFrame = TabbedFrame(guiFrame, options=options, grid=(0, 0))
frameA, frameB, frameC, frameD = tabbedFrame.frames
self.tabbedFrame = tabbedFrame
# Find Params
frameA.expandGrid(2, 0)
row = 0
label = LabelFrame(frameA,
text='Extrema to search for:',
grid=(row, 0),
gridSpan=(1, 2))
label.expandGrid(0, 1)
entries = ['positive and negative', 'positive only', 'negative only']
tipTexts = [
'Sets whether peak picking within spectra find intensity maxima, minima or both maxima and minima',
]
self.extrema_buttons = RadioButtons(label,
entries=entries,
select_callback=self.apply,
direction='horizontal',
grid=(0, 0),
tipTexts=tipTexts)
row += 1
label = LabelFrame(frameA,
text='Nearby points to check:',
grid=(row, 0),
gridSpan=(1, 2))
label.expandGrid(None, 1)
entries = ['+-1 in at most one dim', '+-1 allowed in any dim']
tipTexts = [
'Sets how permissive the peak picking in when searching for intensity extrema; by adding extra points to the selected search region',
]
self.adjacent_buttons = RadioButtons(label,
entries=entries,
select_callback=self.apply,
direction='horizontal',
grid=(0, 0),
tipTexts=tipTexts)
row += 1
labelFrame = LabelFrame(frameA,
text='Other parameters:',
grid=(row, 0),
gridSpan=(1, 2))
labelFrame.expandGrid(5, 2)
frow = 0
label = Label(labelFrame,
text='Scale relative to contour levels:',
grid=(frow, 0),
sticky='e')
tipText = 'Threshold above which peaks are picked, relative to the lowest displayed contour; 1.0 means picking exactly what is visible'
self.scale_entry = FloatEntry(labelFrame,
grid=(frow, 1),
tipText=tipText,
returnCallback=self.apply,
width=10)
self.scale_entry.bind('<Leave>', self.apply, '+')
frow += 1
label = Label(labelFrame,
text='Exclusion buffer around peaks (in points):',
grid=(frow, 0),
sticky='e')
tipText = 'The size of the no-pick region, in data points, around existing picked peaks; eliminates duplicate picking'
self.buffer_entry = IntEntry(labelFrame,
returnCallback=self.apply,
grid=(frow, 1),
width=10,
tipText=tipText)
self.buffer_entry.bind('<Leave>', self.apply, '+')
frow += 1
label = Label(labelFrame,
text='Extra thickness in orthogonal dims (in points):',
grid=(frow, 0),
sticky='e')
tipText = 'Sets whether to consider any additional planes (Z dimension) when calculating peak volume integrals'
self.thickness_entry = IntEntry(labelFrame,
returnCallback=self.apply,
width=10,
grid=(frow, 1),
tipText=tipText)
self.thickness_entry.bind('<Leave>', self.apply, '+')
frow += 1
label = Label(labelFrame,
text='Minimum drop factor (0.0-1.0):',
grid=(frow, 0),
sticky='e')
tipText = ''
self.drop_entry = FloatEntry(labelFrame,
returnCallback=self.apply,
width=10,
grid=(frow, 1),
tipText=tipText)
self.drop_entry.bind('<Leave>', self.apply, '+')
frow += 1
label = Label(labelFrame,
text='Volume method:',
grid=(frow, 0),
sticky='e')
tipText = 'Selects which method to use to calculate peak volume integrals when peaks are picked; box sizes are specified in "Spectrum Widths"'
self.method_menu = PulldownList(labelFrame,
texts=PeakBasic.PEAK_VOLUME_METHODS,
grid=(frow, 1),
callback=self.apply,
tipText=tipText)
# Spectrum widths
frameB.expandGrid(1, 1)
label = Label(frameB, text='Spectrum: ')
label.grid(row=0, column=0, sticky='e')
tipText = 'The spectrum which determines the widths being shown'
self.expt_spectrum = PulldownList(frameB,
tipText=tipText,
callback=self.setSpectrumProperties)
self.expt_spectrum.grid(row=0, column=1, sticky='w')
self.editLinewidthEntry = FloatEntry(self,
text='',
returnCallback=self.setLinewidth,
width=10)
self.editBoxwidthEntry = FloatEntry(self,
text='',
returnCallback=self.setBoxwidth,
width=10)
tipTexts = [
'The number of the spectrum dimension to which the settings apply',
'The nuclear isotope measures in the spectrum dimension',
'The smallest value for the linewidth of a peak for it to be picked',
'The size of the spectrum region to perform the volume integral over'
]
headingList = [
'Dimension', 'Isotope', 'Minimum Linewidth (Hz)', 'Boxwidth'
]
editSetCallbacks = [None, None, self.setLinewidth, self.setBoxwidth]
editGetCallbacks = [None, None, self.getLinewidth, self.getBoxwidth]
editWidgets = [
None, None, self.editLinewidthEntry, self.editBoxwidthEntry
]
self.spectrumMatrix = ScrolledMatrix(frameB,
initialRows=6,
editSetCallbacks=editSetCallbacks,
editGetCallbacks=editGetCallbacks,
editWidgets=editWidgets,
headingList=headingList,
callback=self.selectCell,
tipTexts=tipTexts)
self.spectrumMatrix.grid(row=1, column=0, columnspan=2, sticky='nsew')
# Diagonal Exclusions
frameC.expandGrid(0, 0)
tipTexts = [
'The isotope as measures on the axis of a spectrum window',
'The distance from the homonuclear diagonal line within which no peak picking can occur'
]
self.exclusionEntry = FloatEntry(self,
text='',
returnCallback=self.setExclusion,
width=10)
headingList = ['Isotope', 'Diagonal Exclusion (ppm)']
editSetCallbacks = [None, self.setExclusion]
editGetCallbacks = [None, self.getExclusion]
editWidgets = [None, self.exclusionEntry]
self.isotopeMatrix = ScrolledMatrix(frameC,
editSetCallbacks=editSetCallbacks,
editGetCallbacks=editGetCallbacks,
editWidgets=editWidgets,
headingList=headingList,
grid=(0, 0),
tipTexts=tipTexts)
# Region peak find
self.regionFindPeakList = None
self.regionCondition = None
self.regionConditions = []
self.regionCol = 1
row = 0
label = Label(frameD, text='Peak List: ', grid=(0, 0))
tipText = 'Selects which peak list to perform region-wide peak picking for'
self.regionPeakListPulldown = PulldownList(
frameD,
callback=self.changeRegionPeakList,
grid=(0, 1),
tipText=tipText)
row += 1
frameD.expandGrid(row, 1)
self.regionEntry = FloatEntry(self,
text='',
returnCallback=self.setRegion,
width=10)
self.conditionMenu = PulldownList(self,
texts=('include', 'exclude'),
callback=self.setCondition)
tipTexts = [
'Whether to include or exclude the states region from region-wide peak picking',
]
headingList = ['Condition']
editSetCallbacks = [None]
editGetCallbacks = [None]
editWidgets = [self.conditionMenu]
self.regionFindMatrix = ScrolledMatrix(
frameD,
headingList=headingList,
callback=self.selectRegionCell,
editWidgets=editWidgets,
editGetCallbacks=editGetCallbacks,
editSetCallbacks=editSetCallbacks,
grid=(row, 0),
gridSpan=(1, 2))
row += 1
tipTexts = [
'Sets the currently selected region row to cover the whole spectrum',
'Add a new region row, which may them be set for exclusion or inclusion when peak picking large areas',
'Remove the selected region specification',
'Go to the panel for setting the parameters that control how peaks extrema are picked',
'Using the stated regions and parameters, perform region-wide peak picking'
]
texts = [
'Whole Region', 'Add Region', 'Delete Region', 'Adjust Params',
'Find Peaks!'
]
commands = [
self.wholeRegion, self.addCondition, self.deleteCondition,
self.adjustParams, self.regionFindPeaks
]
buttons = ButtonList(frameD,
texts=texts,
commands=commands,
grid=(row, 0),
gridSpan=(1, 2),
tipTexts=tipTexts)
buttons.buttons[4].config(bg='#B0FFB0')
utilButtons = UtilityButtonList(tabbedFrame.sideFrame,
grid=(0, 0),
helpUrl=self.help_url,
sticky='e')
self.dataDim = None
self.setParamsEntries()
self.updateSpectrum()
self.setIsotopeProperties()
self.updateRegionPeakLists()
self.administerNotifiers(self.registerNotify)
class UpdatePopup(BasePopup, UpdateAgent):
def __init__(self,
parent,
serverLocation=UPDATE_SERVER_LOCATION,
serverDirectory=UPDATE_DIRECTORY,
dataFile=UPDATE_DATABASE_FILE,
exitOnClose=False):
self.exitOnClose = exitOnClose
UpdateAgent.__init__(self,
serverLocation,
serverDirectory,
dataFile,
isStandAlone=exitOnClose)
self.fileUpdate = None
if exitOnClose:
quitFunc = sys.exit
else:
quitFunc = None
BasePopup.__init__(self,
parent=parent,
title='CcpNmr Software Updates',
quitFunc=quitFunc)
def body(self, guiParent):
self.geometry('600x300')
guiParent.grid_columnconfigure(1, weight=1)
url = ''
if self.server:
url = self.server.url
label = Label(guiParent, text='Server location: %s' % url)
label.grid(row=0, column=0, sticky='w', columnspan=2)
label = Label(guiParent,
text='Installation root: %s%s' %
(self.installRoot, os.sep))
label.grid(row=1, column=0, sticky='w', columnspan=2)
editWidgets = [None] * 5
editGetCallbacks = [None, self.toggleSelected, None, None, None]
editSetCallbacks = [None] * 5
guiParent.grid_rowconfigure(2, weight=1)
headingList = [
'File', 'Install?', 'Date', 'Relative Path', 'Priority', 'Comments'
]
self.scrolledMatrix = ScrolledMatrix(guiParent,
headingList=headingList,
highlightType=0,
editWidgets=editWidgets,
callback=self.selectCell,
editGetCallbacks=editGetCallbacks,
editSetCallbacks=editSetCallbacks)
self.scrolledMatrix.grid(row=2, column=0, columnspan=2, sticky='nsew')
if self.exitOnClose:
txt = 'Quit'
cmd = sys.exit
else:
txt = 'Close'
cmd = self.close
texts = ['Refresh List', 'Select All', 'Install Selected', txt]
commands = [self.updateFiles, self.selectAll, self.install, cmd]
self.buttonList = ButtonList(guiParent,
texts=texts,
commands=commands,
expands=True)
self.buttonList.grid(row=3, column=0, columnspan=2, sticky='ew')
if self.server:
for fileUpdate in self.server.fileUpdates:
fileUpdate.isSelected = False
#self.update()
# need self.updateFiles, not just self.update
# because otherwise the 2.0.5 to 2.0.6 upgrades do not work
# (self.server not set on first pass so need call to updateFiles here)
self.updateFiles()
def toggleSelected(self, fileUpdate):
boolean = fileUpdate.isSelected
fileUpdate.isSelected = not boolean
self.update()
def install(self):
if self.server:
self.installUpdates()
self.updateFiles()
def selectAll(self):
if self.server:
for fileUpdate in self.scrolledMatrix.objectList:
fileUpdate.isSelected = True
self.update()
def selectCell(self, object, row, col):
self.fileUpdate = object
def updateButtons(self):
buttons = self.buttonList.buttons
if self.server:
selected = False
if self.server and self.server.fileUpdates:
for fileUpdate in self.scrolledMatrix.objectList:
if fileUpdate.isSelected:
selected = True
break
buttons[1].enable()
else:
buttons[1].disable()
if selected:
buttons[2].enable()
buttons[2].config(bg='#A0FFA0')
else:
buttons[2].disable()
buttons[2].config(bg=buttons[1].cget('bg'))
else:
for button in buttons[:-1]:
button.disable()
def updateFiles(self):
if self.server:
if not self.server.fileUpdates:
self.server.getFileUpdates()
for fileUpdate in self.server.fileUpdates:
fileUpdate.isSelected = False
self.update()
def update(self):
self.updateButtons()
self.fileUpdate = None
textMatrix = []
objectList = []
colorMatrix = []
if self.server:
for fileUpdate in self.server.fileUpdates:
if fileUpdate.getIsUpToDate():
continue
color = [None, '#A04040', None, None, None]
yesNo = 'No'
if fileUpdate.isSelected:
color = [None, '#A0FFA0', None, None, None]
yesNo = 'Yes'
datum = []
datum.append(fileUpdate.fileName)
datum.append(yesNo)
datum.append(fileUpdate.date)
datum.append(fileUpdate.filePath + os.sep)
datum.append(fileUpdate.priority)
datum.append(fileUpdate.details)
colorMatrix.append(color)
textMatrix.append(datum)
objectList.append(fileUpdate)
self.scrolledMatrix.update(textMatrix=textMatrix,
objectList=objectList,
colorMatrix=colorMatrix)
def body(self, guiFrame):
guiFrame.grid_columnconfigure(2, weight=1)
row = 0
label = Label(guiFrame, text='Template window: ', grid=(row, 0))
tipText = 'Selects which window to use as the basis for making a new spectrum window; sets the axis types accordingly'
self.window_list = PulldownList(guiFrame,
grid=(row, 1),
callback=self.setAxisTypes,
tipText=tipText)
frame = LabelFrame(guiFrame,
text='Strips',
grid=(row, 2),
gridSpan=(2, 1))
buttons = UtilityButtonList(guiFrame,
doClone=False,
helpUrl=self.help_url,
grid=(row, 3))
row += 1
label = Label(guiFrame, text='New window name: ', grid=(row, 0))
tipText = 'A short name to identify the spectrum window, which will appear in the graphical interface'
self.nameEntry = Entry(guiFrame,
width=16,
grid=(row, 1),
tipText=tipText)
row += 1
label = Label(frame, text='Columns: ', grid=(0, 0))
tipText = 'The number of vertical strips/dividers to initially make in the spectrum window'
self.cols_menu = PulldownList(frame,
objects=STRIP_NUMS,
grid=(0, 1),
texts=[str(x) for x in STRIP_NUMS],
tipText=tipText)
label = Label(frame, text='Rows: ', grid=(0, 2))
tipText = 'The number of horizontal strips/dividers to initially make in the spectrum window'
self.rows_menu = PulldownList(frame,
objects=STRIP_NUMS,
grid=(0, 3),
texts=[str(x) for x in STRIP_NUMS],
tipText=tipText)
row += 1
div = LabelDivider(guiFrame,
text='Axes',
grid=(row, 0),
gridSpan=(1, 4))
row += 1
self.axis_lists = {}
frame = Frame(guiFrame, grid=(row, 0), gridSpan=(1, 4))
col = 0
self.axisTypes = {}
self.axisTypesIncludeNone = {}
for label in AXIS_LABELS:
self.axisTypes[label] = None
w = Label(frame, text=' ' + label)
w.grid(row=0, column=col, sticky='w')
col += 1
if label in ('x', 'y'):
includeNone = False
tipText = 'Sets the kind of measurement (typically ppm for a given isotope) that will be used along the window %s axis' % label
else:
includeNone = True
tipText = 'Where required, sets the kind of measurement (typically ppm for a given isotope) that will be used along the window %s axis' % label
self.axisTypesIncludeNone[label] = includeNone
getAxisTypes = lambda label=label: self.getAxisTypes(label)
callback = lambda axisType, label=label: self.changedAxisType(
label, axisType)
self.axis_lists[label] = PulldownList(frame,
callback=callback,
tipText=tipText)
self.axis_lists[label].grid(row=0, column=col, sticky='w')
col += 1
frame.grid_columnconfigure(col, weight=1)
row += 1
div = LabelDivider(guiFrame,
text='Viewed Spectra',
grid=(row, 0),
gridSpan=(1, 4))
row += 1
guiFrame.grid_rowconfigure(row, weight=1)
editWidgets = [None, None, None, None]
editGetCallbacks = [None, self.toggleVisible, self.toggleToolbar, None]
editSetCallbacks = [None, None, None, None]
tipTexts = [
'The "experiment:spectrum" name for the spectrum that may be viewed in the new window, given the axis selections',
'Sets whether the spectrum contours will be visible in the new window',
'Sets whether the spectrum appears at all in the window; if not in the toolbar it cannot be displayed',
'The number of peak lists the spectrum contains'
]
headingList = ['Spectrum', 'Visible?', 'In Toolbar?', 'Peak Lists']
self.scrolledMatrix = ScrolledMatrix(guiFrame,
headingList=headingList,
editWidgets=editWidgets,
editGetCallbacks=editGetCallbacks,
editSetCallbacks=editSetCallbacks,
multiSelect=True,
grid=(row, 0),
gridSpan=(1, 4),
tipTexts=tipTexts)
row += 1
tipTexts = [
'Creates a new spectrum window with the specified parameters',
'Sets the contours of the selected spectra to be visible when the new window is made',
'Sets the contours of the selected spectra to not be displayed when the new window is made',
'Sets the selected spectra as absent from the window toolbar, and thus not displayable at all'
]
texts = [
'Create Window!', 'Selected\nVisible', 'Selected\nNot Visible',
'Selected\nNot In Toolbar'
]
commands = [
self.ok, self.setSelectedDisplay, self.setSelectedHide,
self.setSelectedAbsent
]
buttonList = ButtonList(guiFrame,
texts=texts,
grid=(row, 0),
commands=commands,
gridSpan=(1, 4),
tipTexts=tipTexts)
buttonList.buttons[0].config(bg='#B0FFB0')
self.updateAxisTypes()
self.updateWindow()
self.updateWindowName()
self.administerNotifiers(self.registerNotify)
self.updateAfter()
def __init__(self, parent, application, *args, **kw):
project = application.project
simStore = project.findFirstNmrSimStore(application=APP_NAME) or \
project.newNmrSimStore(application=APP_NAME, name=APP_NAME)
self.application = application
self.residue = None
self.structure = None
self.serverCredentials = None
self.iCingBaseUrl = DEFAULT_URL
self.resultsUrl = None
self.chain = None
self.nmrProject = application.nmrProject
self.serverDone = False
NmrSimRunFrame.__init__(self, parent, project, simStore, *args, **kw)
# # # # # # New Structure Frame # # # # #
self.structureFrame.grid_forget()
tab = self.tabbedFrame.frames[0]
frame = Frame(tab, grid=(1,0))
frame.expandGrid(2,1)
div = LabelDivider(frame, text='Structures', grid=(0,0), gridSpan=(1,2))
label = Label(frame, text='Ensemble: ', grid=(1,0))
self.structurePulldown = PulldownList(frame, callback=self.changeStructure, grid=(1,1))
headingList = ['Model','Use']
editWidgets = [None,None]
editGetCallbacks = [None,self.toggleModel]
editSetCallbacks = [None,None,]
self.modelTable = ScrolledMatrix(frame, grid=(2,0), gridSpan=(1,2),
callback=self.selectStructModel,
editWidgets=editWidgets,
editGetCallbacks=editGetCallbacks,
editSetCallbacks=editSetCallbacks,
headingList=headingList)
texts = ['Activate Selected','Inactivate Selected']
commands = [self.activateModels, self.disableModels]
buttons = ButtonList(frame, texts=texts, commands=commands, grid=(3,0), gridSpan=(1,2))
# # # # # # Submission frame # # # # # #
tab = self.tabbedFrame.frames[1]
tab.expandGrid(1,0)
frame = LabelFrame(tab, text='Server Job Submission', grid=(0,0))
frame.expandGrid(None,2)
srow = 0
label = Label(frame, text='iCing URL:', grid=(srow, 0))
urls = [DEFAULT_URL,]
self.iCingBaseUrlPulldown = PulldownList(frame, texts=urls, objects=urls, index=0, grid=(srow,1))
srow +=1
label = Label(frame, text='Results File:', grid=(srow, 0))
self.resultFileEntry = Entry(frame, bd=1, text='', grid=(srow,1), width=50)
self.setZipFileName()
button = Button(frame, text='Choose File', bd=1, sticky='ew',
command=self.chooseZipFile, grid=(srow, 2))
srow +=1
label = Label(frame, text='Results URL:', grid=(srow, 0))
self.resultUrlEntry = Entry(frame, bd=1, text='', grid=(srow,1), width=50)
button = Button(frame, text='View Results HTML', bd=1, sticky='ew',
command=self.viewHtmlResults, grid=(srow, 2))
srow +=1
texts = ['Submit Project!', 'Check Run Status',
'Purge Server Result', 'Download Results']
commands = [self.runCingServer, self.checkStatus,
self.purgeCingServer, self.downloadResults]
self.buttonBar = ButtonList(frame, texts=texts, commands=commands,
grid=(srow, 0), gridSpan=(1,3))
for button in self.buttonBar.buttons[:1]:
button.config(bg=CING_BLUE)
# # # # # # Residue frame # # # # # #
frame = LabelFrame(tab, text='Residue Options', grid=(1,0))
frame.expandGrid(1,1)
label = Label(frame, text='Chain: ')
label.grid(row=0,column=0,sticky='w')
self.chainPulldown = PulldownList(frame, callback=self.changeChain)
self.chainPulldown.grid(row=0,column=1,sticky='w')
headingList = ['#','Residue','Linking','Decriptor','Use?']
editWidgets = [None,None,None,None,None]
editGetCallbacks = [None,None,None,None,self.toggleResidue]
editSetCallbacks = [None,None,None,None,None,]
self.residueMatrix = ScrolledMatrix(frame,
headingList=headingList,
multiSelect=True,
editWidgets=editWidgets,
editGetCallbacks=editGetCallbacks,
editSetCallbacks=editSetCallbacks,
callback=self.selectResidue)
self.residueMatrix.grid(row=1, column=0, columnspan=2, sticky = 'nsew')
texts = ['Activate Selected','Inactivate Selected']
commands = [self.activateResidues, self.deactivateResidues]
self.resButtons = ButtonList(frame, texts=texts, commands=commands,)
self.resButtons.grid(row=2, column=0, columnspan=2, sticky='ew')
"""
# # # # # # Validate frame # # # # # #
frame = LabelFrame(tab, text='Validation Options', grid=(2,0))
frame.expandGrid(None,2)
srow = 0
self.selectCheckAssign = CheckButton(frame)
self.selectCheckAssign.grid(row=srow, column=0,sticky='nw' )
self.selectCheckAssign.set(True)
label = Label(frame, text='Assignments and shifts')
label.grid(row=srow,column=1,sticky='nw')
srow += 1
self.selectCheckResraint = CheckButton(frame)
self.selectCheckResraint.grid(row=srow, column=0,sticky='nw' )
self.selectCheckResraint.set(True)
label = Label(frame, text='Restraints')
label.grid(row=srow,column=1,sticky='nw')
srow += 1
self.selectCheckQueen = CheckButton(frame)
self.selectCheckQueen.grid(row=srow, column=0,sticky='nw' )
self.selectCheckQueen.set(False)
label = Label(frame, text='QUEEN')
label.grid(row=srow,column=1,sticky='nw')
srow += 1
self.selectCheckScript = CheckButton(frame)
self.selectCheckScript.grid(row=srow, column=0,sticky='nw' )
self.selectCheckScript.set(False)
label = Label(frame, text='User Python script\n(overriding option)')
label.grid(row=srow,column=1,sticky='nw')
self.validScriptEntry = Entry(frame, bd=1, text='')
self.validScriptEntry.grid(row=srow,column=2,sticky='ew')
scriptButton = Button(frame, bd=1,
command=self.chooseValidScript,
text='Browse')
scriptButton.grid(row=srow,column=3,sticky='ew')
"""
# # # # # # # # # #
self.update(simStore)
self.administerNotifiers(application.registerNotify)
def __init__(self,
parent,
file_types=None,
directory=None,
single_callback=None,
double_callback=None,
select_dir_callback=None,
change_dir_callback=None,
should_change_dir_callback=None,
prompt=None,
show_file=True,
file='',
multiSelect=False,
default_dir=None,
getRowColor=None,
getExtraCell=None,
extraHeadings=None,
extraJustifies=None,
displayExtra=True,
manualFileFilter=False,
extraTipTexts=None,
*args,
**kw):
if file_types is None:
file_types = [FileType("All", ["*"])]
if manualFileFilter:
self.manualFilter = FileType("Manual")
file_types.append(self.manualFilter)
else:
self.manualFilter = None
if directory is None:
directory = normalisePath(os.getcwd())
if extraHeadings is None:
extraHeadings = ()
else:
extraHeadings = tuple(extraHeadings)
if extraJustifies is None:
extraJustifies = ()
else:
extraJustifies = tuple(extraJustifies)
if extraHeadings or extraJustifies:
assert len(extraHeadings) == len(extraJustifies)
assert getExtraCell
self.extraHeadings = extraHeadings
self.extraJustifies = extraJustifies
self.extraTipTexts = extraTipTexts or []
self.displayExtra = displayExtra
Frame.__init__(self, parent, *args, **kw)
self.file_types = file_types
self.fileType = file_types[0]
self.single_callback = single_callback
self.double_callback = double_callback
self.select_dir_callback = select_dir_callback
self.change_dir_callback = change_dir_callback
self.should_change_dir_callback = should_change_dir_callback
self.show_file = show_file
self.directory = None
self.historyBack = []
self.historyFwd = []
self.determineDir(directory)
self.default_dir = default_dir
self.getRowColor = getRowColor
self.getExtraCell = getExtraCell
self.grid_columnconfigure(0, weight=1)
row = 0
if prompt:
label = Label(self, text=prompt, grid=(row, 0))
row += 1
self.grid_rowconfigure(row, weight=1)
if show_file:
headings = ('Name', 'Size', 'Date')
justifies = ('left', 'right', 'right')
tipTexts = [
'Name of file, directory or link', 'Size of file in bytes',
'Date of last modification'
]
else:
headings = ('Directory', )
justifies = ('left', )
tipTexts = ['Name of directory']
self.normalHeadings = headings
self.normalJustifies = justifies
self.normalTipTexts = tipTexts
headings = headings + extraHeadings
justifies = justifies + extraJustifies
tipTexts += [None] * len(extraHeadings)
self.fileList = ScrolledMatrix(self,
headingList=headings,
justifyList=justifies,
initialRows=10,
callback=self.singleCallback,
doubleCallback=self.doubleCallback,
tipTexts=tipTexts,
multiSelect=multiSelect,
grid=(row, 0))
row += 1
tipTexts = [
'Go to previous location in history',
'Go forward in location history', 'Go up one directory level',
'Go to root directory', 'Go to home directory',
'Make a new directory', 'Refresh directory listing'
]
texts = ['Back', 'Forward', 'Up', 'Top', 'Home', 'New', 'Refresh']
commands = [
self.backDir, self.fwdDir, self.upDir, self.topDir, self.homeDir,
self.createDir, self.updateFileList
]
if self.default_dir:
texts.append('Default')
commands.append(self.setDefaultDir)
tipTexts.append('Set the current directory as the default')
self.icons = []
for name in ICON_NAMES:
icon = Tkinter.PhotoImage(
file=os.path.join(GFX_DIR, name + '.gif'))
self.icons.append(icon)
self.buttons = ButtonList(self,
texts=texts,
commands=commands,
images=self.icons,
grid=(row, 0),
tipTexts=tipTexts)
if show_file:
row += 1
self.file_entry = LabeledEntry(self,
label='File name',
label_width=10,
entry_width=40,
returnCallback=self.setSelectedFile)
self.file_entry.grid(row=row, column=0, sticky=Tkinter.EW)
else:
self.file_entry = None
row += 1
self.directory_entry = LabeledEntry(self,
label='Directory',
entry=directory,
label_width=10,
entry_width=40,
returnCallback=self.entryDir)
self.directory_entry.grid(row=row, column=0, sticky=Tkinter.EW)
row += 1
subFrame = Frame(self, grid=(row, 0))
subFrame.expandGrid(None, 6)
if show_file:
label = Label(subFrame, text='File type:', grid=(0, 0))
type_labels = self.determineTypeLabels()
self.fileType_menu = PulldownList(
subFrame,
callback=self.typeCallback,
texts=type_labels,
objects=self.file_types,
grid=(0, 1),
tipText='Restrict listed files to selected suffix')
label = Label(subFrame, text=' Show hidden:', grid=(0, 2))
self.hidden_checkbutton = CheckButton(
subFrame,
text='',
selected=False,
callback=self.updateFileList,
grid=(0, 3),
tipText='Show hidden files beginning with "." etc.')
label = Label(subFrame, text='Dir path:', grid=(0, 4))
self.pathMenu = PulldownList(
subFrame,
callback=self.dirCallback,
objects=range(len(self.dirs)),
texts=self.dirs,
index=len(self.dirs) - 1,
indent=' ',
prefix=dirsep,
grid=(0, 5),
tipText='Directory navigation to current location')
if show_file and self.manualFilter is not None:
row += 1
self.manual_filter_entry = LabeledEntry(
self,
label='Manual Select',
entry=defaultFilter,
label_width=13,
entry_width=40,
returnCallback=self.entryFilter,
tipText=
'Path specification with wildcards to select multiple files')
self.manual_filter_entry.grid(row=row, column=0, sticky=Tkinter.EW)
self.updateFileList()
self.updateButtons()
if file:
self.setFile(file)
def body(self, guiFrame):
self.geometry('700x700')
guiFrame.expandGrid(0,0)
options = ['Peak Lists & Settings','Peak Intensity Comparison']
tabbedFrame = TabbedFrame(guiFrame, options=options, callback=self.changeTab)
tabbedFrame.grid(row=0, column=0, sticky='nsew')
self.tabbedFrame = tabbedFrame
frameA, frameB = tabbedFrame.frames
row = 0
frameA.grid_columnconfigure(1, weight=1)
frameA.grid_columnconfigure(3, weight=1)
frameA.grid_columnconfigure(5, weight=1)
frameA.grid_rowconfigure(5, weight=1)
tipText = 'Number of reference peaks (no saturation)'
self.peaksALabel = Label(frameA, text='Number of Ref Peaks: ', tipText=tipText)
self.peaksALabel.grid(row=1,column=0,columnspan=2,sticky='w')
tipText = 'Number of NOE saturation peaks'
self.peaksBLabel = Label(frameA, text='Number of Sat Peaks: ', tipText=tipText)
self.peaksBLabel.grid(row=1,column=2,columnspan=2,sticky='w')
tipText = 'Number of peaks in assigned list'
self.peaksCLabel = Label(frameA, text='Number of Assign Peaks: ', tipText=tipText)
self.peaksCLabel.grid(row=1,column=4,columnspan=2,sticky='w')
tipText = 'Selects which peak list is considered the NOE intensity reference (no saturation)'
specALabel = Label(frameA, text='Ref Peak List: ')
specALabel.grid(row=0,column=0,sticky='w')
self.specAPulldown = PulldownList(frameA, callback=self.setRefPeakList, tipText=tipText)
self.specAPulldown.grid(row=0,column=1,sticky='w')
tipText = 'Selects which peak list is considered as NOE saturated.'
specBLabel = Label(frameA, text='Sat Peak List: ')
specBLabel.grid(row=0,column=2,sticky='w')
self.specBPulldown = PulldownList(frameA, callback=self.setSatPeakList, tipText=tipText)
self.specBPulldown.grid(row=0,column=3,sticky='w')
tipText = 'Selects a peak list with assignments to use as a positional reference'
specCLabel = Label(frameA, text='Assignment Peak List: ')
specCLabel.grid(row=0,column=4,sticky='w')
self.specCPulldown = PulldownList(frameA, callback=self.setAssignPeakList, tipText=tipText)
self.specCPulldown.grid(row=0,column=5,sticky='w')
frame0a = Frame(frameA)
frame0a.grid(row=2,column=0,columnspan=6,sticky='nsew')
frame0a.grid_columnconfigure(9, weight=1)
tipText = '1H ppm tolerance for matching assigned peaks to reference & NOE saturation peaks'
tolHLabel = Label(frame0a, text='Tolerances: 1H')
tolHLabel.grid(row=0,column=0,sticky='w')
self.tolHEntry = FloatEntry(frame0a,text='0.02', width=6, tipText=tipText)
self.tolHEntry .grid(row=0,column=1,sticky='w')
tipText = '15N ppm tolerance for matching assigned peaks to reference & NOE saturation peaks'
tolNLabel = Label(frame0a, text=' 15N')
tolNLabel .grid(row=0,column=2,sticky='w')
self.tolNEntry = FloatEntry(frame0a,text='0.1', width=6, tipText=tipText)
self.tolNEntry .grid(row=0,column=3,sticky='w')
tipText = 'Whether to peak new peaks in reference & NOE saturated lists (at assignment locations)'
label = Label(frame0a, text=' Pick new peaks?', grid=(0,4))
self.pickPeaksSelect = CheckButton(frame0a, tipText=tipText,
grid=(0,5), selected=True)
tipText = 'Whether to assign peaks in the peaks in the reference & NOE saturation lists, if not already assigned'
label = Label(frame0a, text=' Assign peaks?')
label.grid(row=0,column=6,sticky='w')
self.assignSelect = CheckButton(frame0a, tipText=tipText)
self.assignSelect.set(1)
self.assignSelect.grid(row=0,column=7,sticky='w')
tipText = 'Whether to consider peak height or volume in the heteronuclear NOE calculation'
intensLabel = Label(frame0a, text=' Intensity Type:')
intensLabel .grid(row=0,column=8,sticky='w')
self.intensPulldown = PulldownList(frame0a, texts=['height','volume'],
callback=self.setIntensityType,
tipText=tipText)
self.intensPulldown.grid(row=0,column=9,sticky='w')
divider = LabelDivider(frameA, text='Peaks', grid=(3,0),
gridSpan=(1,6))
tipTexts = ['Show the selected intensity reference peaks in the below table',
'Show the selected NOE saturation peaks in the below table',
'Show the selected assigned peak list in the below table',
'Show the displayed peaks in a separate peak table, where assignments etc. may be adjusted']
texts = ['Show Ref Peaks','Show Sat Peaks',
'Show Assign Peaks', 'Separate Peak Table']
commands = [self.viewRefPeakList, self.viewSatPeakList,
self.viewAssignPeakList, self.viewSeparatePeakTable]
self.viewPeaksButtons = ButtonList(frameA, expands=True, tipTexts=tipTexts,
texts=texts, commands=commands)
self.viewPeaksButtons.grid(row=4,column=0,columnspan=6,sticky='nsew')
self.peakTable = PeakTableFrame(frameA, self.guiParent, grid=(5,0),
gridSpan=(1,6))
self.peakTable.bottomButtons1.grid_forget()
self.peakTable.bottomButtons2.grid_forget()
#self.peakTable.topFrame.grid_forget()
self.peakTable.topFrame.grid(row=2, column=0, sticky='ew')
# Next tab
frameB.expandGrid(0,0)
tipTexts = ['Row number',
'Assignment annotation for NOE saturation peak',
'Assignment annotation for reference peak (no saturation)',
'1H chemical shift of NOE saturation peak',
'1H chemical shift of reference peak',
'15N chemical shift of NOE saturation peak',
'15N chemical shift of reference peak',
'The separation between compared peaks: square root of the sum of ppm differences squared',
'The intensity if the NOE saturation peak',
'The intensity of the reference peak (no saturation)',
'Ratio of peak intensities: saturated over reference',
'Residue(s) for reference peak']
colHeadings = ['#','Sat Peak','Ref Peak','1H shift A',
'1H shift B','15N shift A','15N shift B',
'Closeness\nScore','Intensity A','Intensity B',
'Intensity\nRatio','Residue']
self.scrolledMatrix = ScrolledMatrix(frameB, multiSelect=True,
headingList=colHeadings,
callback=self.selectCell,
tipTexts=tipTexts,
grid=(0,0),
deleteFunc=self.removePair)
tipTexts = ['Force a manual update of the table; pair-up NOE saturation and reference peaks according to assigned peak positions',
'Remove the selected rows of peak pairs',
'Show peaks corresponding to the selected row in a table',
'Save the Heteronuclear NOE values in the CCPN project as a data list']
texts = ['Refresh Table','Remove Pairs',
'Show Peak Pair','Create Hetero NOE List']
commands = [self.matchPeaks,self.removePair,
self.showPeakPair,self.makeNoeList]
self.pairButtons = ButtonList(frameB, tipTexts=tipTexts, grid=(1,0),
texts=texts, commands=commands)
bottomButtons = UtilityButtonList(tabbedFrame.sideFrame, helpUrl=self.help_url)
bottomButtons.grid(row=0, column=0, sticky='e')
self.updatePulldowns()
self.updateAfter()
self.administerNotifiers(self.registerNotify)
class CingFrame(NmrSimRunFrame):
def __init__(self, parent, application, *args, **kw):
project = application.project
simStore = project.findFirstNmrSimStore(application=APP_NAME) or \
project.newNmrSimStore(application=APP_NAME, name=APP_NAME)
self.application = application
self.residue = None
self.structure = None
self.serverCredentials = None
self.iCingBaseUrl = DEFAULT_URL
self.resultsUrl = None
self.chain = None
self.nmrProject = application.nmrProject
self.serverDone = False
NmrSimRunFrame.__init__(self, parent, project, simStore, *args, **kw)
# # # # # # New Structure Frame # # # # #
self.structureFrame.grid_forget()
tab = self.tabbedFrame.frames[0]
frame = Frame(tab, grid=(1,0))
frame.expandGrid(2,1)
div = LabelDivider(frame, text='Structures', grid=(0,0), gridSpan=(1,2))
label = Label(frame, text='Ensemble: ', grid=(1,0))
self.structurePulldown = PulldownList(frame, callback=self.changeStructure, grid=(1,1))
headingList = ['Model','Use']
editWidgets = [None,None]
editGetCallbacks = [None,self.toggleModel]
editSetCallbacks = [None,None,]
self.modelTable = ScrolledMatrix(frame, grid=(2,0), gridSpan=(1,2),
callback=self.selectStructModel,
editWidgets=editWidgets,
editGetCallbacks=editGetCallbacks,
editSetCallbacks=editSetCallbacks,
headingList=headingList)
texts = ['Activate Selected','Inactivate Selected']
commands = [self.activateModels, self.disableModels]
buttons = ButtonList(frame, texts=texts, commands=commands, grid=(3,0), gridSpan=(1,2))
# # # # # # Submission frame # # # # # #
tab = self.tabbedFrame.frames[1]
tab.expandGrid(1,0)
frame = LabelFrame(tab, text='Server Job Submission', grid=(0,0))
frame.expandGrid(None,2)
srow = 0
label = Label(frame, text='iCing URL:', grid=(srow, 0))
urls = [DEFAULT_URL,]
self.iCingBaseUrlPulldown = PulldownList(frame, texts=urls, objects=urls, index=0, grid=(srow,1))
srow +=1
label = Label(frame, text='Results File:', grid=(srow, 0))
self.resultFileEntry = Entry(frame, bd=1, text='', grid=(srow,1), width=50)
self.setZipFileName()
button = Button(frame, text='Choose File', bd=1, sticky='ew',
command=self.chooseZipFile, grid=(srow, 2))
srow +=1
label = Label(frame, text='Results URL:', grid=(srow, 0))
self.resultUrlEntry = Entry(frame, bd=1, text='', grid=(srow,1), width=50)
button = Button(frame, text='View Results HTML', bd=1, sticky='ew',
command=self.viewHtmlResults, grid=(srow, 2))
srow +=1
texts = ['Submit Project!', 'Check Run Status',
'Purge Server Result', 'Download Results']
commands = [self.runCingServer, self.checkStatus,
self.purgeCingServer, self.downloadResults]
self.buttonBar = ButtonList(frame, texts=texts, commands=commands,
grid=(srow, 0), gridSpan=(1,3))
for button in self.buttonBar.buttons[:1]:
button.config(bg=CING_BLUE)
# # # # # # Residue frame # # # # # #
frame = LabelFrame(tab, text='Residue Options', grid=(1,0))
frame.expandGrid(1,1)
label = Label(frame, text='Chain: ')
label.grid(row=0,column=0,sticky='w')
self.chainPulldown = PulldownList(frame, callback=self.changeChain)
self.chainPulldown.grid(row=0,column=1,sticky='w')
headingList = ['#','Residue','Linking','Decriptor','Use?']
editWidgets = [None,None,None,None,None]
editGetCallbacks = [None,None,None,None,self.toggleResidue]
editSetCallbacks = [None,None,None,None,None,]
self.residueMatrix = ScrolledMatrix(frame,
headingList=headingList,
multiSelect=True,
editWidgets=editWidgets,
editGetCallbacks=editGetCallbacks,
editSetCallbacks=editSetCallbacks,
callback=self.selectResidue)
self.residueMatrix.grid(row=1, column=0, columnspan=2, sticky = 'nsew')
texts = ['Activate Selected','Inactivate Selected']
commands = [self.activateResidues, self.deactivateResidues]
self.resButtons = ButtonList(frame, texts=texts, commands=commands,)
self.resButtons.grid(row=2, column=0, columnspan=2, sticky='ew')
"""
# # # # # # Validate frame # # # # # #
frame = LabelFrame(tab, text='Validation Options', grid=(2,0))
frame.expandGrid(None,2)
srow = 0
self.selectCheckAssign = CheckButton(frame)
self.selectCheckAssign.grid(row=srow, column=0,sticky='nw' )
self.selectCheckAssign.set(True)
label = Label(frame, text='Assignments and shifts')
label.grid(row=srow,column=1,sticky='nw')
srow += 1
self.selectCheckResraint = CheckButton(frame)
self.selectCheckResraint.grid(row=srow, column=0,sticky='nw' )
self.selectCheckResraint.set(True)
label = Label(frame, text='Restraints')
label.grid(row=srow,column=1,sticky='nw')
srow += 1
self.selectCheckQueen = CheckButton(frame)
self.selectCheckQueen.grid(row=srow, column=0,sticky='nw' )
self.selectCheckQueen.set(False)
label = Label(frame, text='QUEEN')
label.grid(row=srow,column=1,sticky='nw')
srow += 1
self.selectCheckScript = CheckButton(frame)
self.selectCheckScript.grid(row=srow, column=0,sticky='nw' )
self.selectCheckScript.set(False)
label = Label(frame, text='User Python script\n(overriding option)')
label.grid(row=srow,column=1,sticky='nw')
self.validScriptEntry = Entry(frame, bd=1, text='')
self.validScriptEntry.grid(row=srow,column=2,sticky='ew')
scriptButton = Button(frame, bd=1,
command=self.chooseValidScript,
text='Browse')
scriptButton.grid(row=srow,column=3,sticky='ew')
"""
# # # # # # # # # #
self.update(simStore)
self.administerNotifiers(application.registerNotify)
def downloadResults(self):
if not self.run:
msg = 'No current iCing run'
showWarning('Failure', msg, parent=self)
return
credentials = self.serverCredentials
if not credentials:
msg = 'No current iCing server job'
showWarning('Failure', msg, parent=self)
return
fileName = self.resultFileEntry.get()
if not fileName:
msg = 'No save file specified'
showWarning('Failure', msg, parent=self)
return
if os.path.exists(fileName):
msg = 'File %s already exists. Overwite?' % fileName
if not showOkCancel('Query', msg, parent=self):
return
url = self.iCingBaseUrl
iCingUrl = self.getServerUrl(url)
logText = iCingRobot.iCingFetch(credentials, url, iCingUrl, fileName)
print logText
msg = 'Results saved to file %s\n' % fileName
msg += 'Purge results from iCing server?'
if showYesNo('Query',msg, parent=self):
self.purgeCingServer()
def getServerUrl(self, baseUrl):
iCingUrl = os.path.join(baseUrl, 'icing/serv/iCingServlet')
return iCingUrl
def viewHtmlResults(self):
resultsUrl = self.resultsUrl
if not resultsUrl:
msg = 'No current iCing results URL'
showWarning('Failure', msg, parent=self)
return
webBrowser = WebBrowser(self.application, popup=self.application)
webBrowser.open(self.resultsUrl)
def runCingServer(self):
if not self.project:
return
run = self.run
if not run:
msg = 'No CING run setup'
showWarning('Failure', msg, parent=self)
return
structure = self.structure
if not structure:
msg = 'No structure ensemble selected'
showWarning('Failure', msg, parent=self)
return
ensembleText = getModelsString(run)
if not ensembleText:
msg = 'No structural models selected from ensemble'
showWarning('Failure', msg, parent=self)
return
residueText = getResiduesString(structure)
if not residueText:
msg = 'No active residues selected in structure'
showWarning('Failure', msg, parent=self)
return
url = self.iCingBaseUrlPulldown.getObject()
url.strip()
if not url:
msg = 'No iCing server URL specified'
showWarning('Failure', msg, parent=self)
self.iCingBaseUrl = None
return
msg = 'Submit job now? You will be informed when the job is done.'
if not showOkCancel('Confirm', msg, parent=self):
return
self.iCingBaseUrl = url
iCingUrl = self.getServerUrl(url)
self.serverCredentials, results, tarFileName = iCingRobot.iCingSetup(self.project, userId='ccpnAp', url=iCingUrl)
if not results:
# Message already issued on failure
self.serverCredentials = None
self.resultsUrl = None
self.update()
return
else:
credentials = self.serverCredentials
os.unlink(tarFileName)
entryId = iCingRobot.iCingProjectName(credentials, iCingUrl).get(iCingRobot.RESPONSE_RESULT)
baseUrl, htmlUrl, logUrl, zipUrl = iCingRobot.getResultUrls(credentials, entryId, url)
self.resultsUrl = htmlUrl
# Save server data in this run for persistence
setRunParameter(run, iCingRobot.FORM_USER_ID, self.serverCredentials[0][1])
setRunParameter(run, iCingRobot.FORM_ACCESS_KEY, self.serverCredentials[1][1])
setRunParameter(run, ICING_BASE_URL, url)
setRunParameter(run, HTML_RESULTS_URL, htmlUrl)
self.update()
run.inputStructures = structure.sortedModels()
# select residues from the structure's chain
#iCingRobot.iCingResidueSelection(credentials, iCingUrl, residueText)
# Select models from ensemble
#iCingRobot.iCingEnsembleSelection(credentials, iCingUrl, ensembleText)
# Start the actual run
self.serverDone = False
iCingRobot.iCingRun(credentials, iCingUrl)
# Fetch server progress occasionally, report when done
# this function will call itself again and again
self.after(CHECK_INTERVAL, self.timedCheckStatus)
self.update()
def timedCheckStatus(self):
if not self.serverCredentials:
return
if self.serverDone:
return
status = iCingRobot.iCingStatus(self.serverCredentials, self.getServerUrl(self.iCingBaseUrl))
if not status:
#something broke, already warned
return
result = status.get(iCingRobot.RESPONSE_RESULT)
if result == iCingRobot.RESPONSE_DONE:
self.serverDone = True
msg = 'CING run is complete!'
showInfo('Completion', msg, parent=self)
return
self.after(CHECK_INTERVAL, self.timedCheckStatus)
def checkStatus(self):
if not self.serverCredentials:
return
status = iCingRobot.iCingStatus(self.serverCredentials, self.getServerUrl(self.iCingBaseUrl))
if not status:
#something broke, already warned
return
result = status.get(iCingRobot.RESPONSE_RESULT)
if result == iCingRobot.RESPONSE_DONE:
msg = 'CING run is complete!'
showInfo('Completion', msg, parent=self)
self.serverDone = True
return
else:
msg = 'CING job is not done.'
showInfo('Processing', msg, parent=self)
self.serverDone = False
return
def purgeCingServer(self):
if not self.project:
return
if not self.run:
msg = 'No CING run setup'
showWarning('Failure', msg, parent=self)
return
if not self.serverCredentials:
msg = 'No current iCing server job'
showWarning('Failure', msg, parent=self)
return
url = self.iCingBaseUrl
results = iCingRobot.iCingPurge(self.serverCredentials, self.getServerUrl(url))
if results:
showInfo('Info','iCing server results cleared')
self.serverCredentials = None
self.iCingBaseUrl = None
self.serverDone = False
deleteRunParameter(self.run, iCingRobot.FORM_USER_ID)
deleteRunParameter(self.run, iCingRobot.FORM_ACCESS_KEY)
deleteRunParameter(self.run, HTML_RESULTS_URL)
else:
showInfo('Info','Purge failed')
self.update()
def chooseZipFile(self):
fileTypes = [ FileType('Zip', ['*.zip']), ]
popup = FileSelectPopup(self, file_types=fileTypes, file=self.resultFileEntry.get(),
title='Results zip file location', dismiss_text='Cancel',
selected_file_must_exist=False)
fileName = popup.getFile()
if fileName:
self.resultFileEntry.set(fileName)
popup.destroy()
def setZipFileName(self):
zipFile = '%s_CING_report.zip' % self.project.name
self.resultFileEntry.set(zipFile)
def selectStructModel(self, model, row, col):
self.model = model
def selectResidue(self, residue, row, col):
self.residue = residue
def deactivateResidues(self):
for residue in self.residueMatrix.currentObjects:
residue.useInCing = False
self.updateResidues()
def activateResidues(self):
for residue in self.residueMatrix.currentObjects:
residue.useInCing = True
self.updateResidues()
def activateModels(self):
if self.run:
for model in self.modelTable.currentObjects:
if model not in self.run.inputStructures:
self.run.addInputStructure(model)
self.updateModels()
def disableModels(self):
if self.run:
for model in self.modelTable.currentObjects:
if model in self.run.inputStructures:
self.run.removeInputStructure(model)
self.updateModels()
def toggleModel(self, *opt):
if self.model and self.run:
if self.model in self.run.inputStructures:
self.run.removeInputStructure(self.model)
else:
self.run.addInputStructure(self.model)
self.updateModels()
def toggleResidue(self, *opt):
if self.residue:
self.residue.useInCing = not self.residue.useInCing
self.updateResidues()
def updateResidues(self):
if self.residue and (self.residue.topObject is not self.structure):
self.residue = None
textMatrix = []
objectList = []
colorMatrix = []
if self.chain:
chainCode = self.chain.code
for residue in self.chain.sortedResidues():
msResidue = residue.residue
if not hasattr(residue, 'useInCing'):
residue.useInCing = True
if residue.useInCing:
colors = [None, None, None, None, CING_BLUE]
use = 'Yes'
else:
colors = [None, None, None, None, None]
use = 'No'
datum = [residue.seqCode,
msResidue.ccpCode,
msResidue.linking,
msResidue.descriptor,
use,]
textMatrix.append(datum)
objectList.append(residue)
colorMatrix.append(colors)
self.residueMatrix.update(objectList=objectList,
textMatrix=textMatrix,
colorMatrix=colorMatrix)
def updateChains(self):
index = 0
names = []
chains = []
chain = self.chain
if self.structure:
chains = self.structure.sortedCoordChains()
names = [chain.code for chain in chains]
if chains:
if chain not in chains:
chain = chains[0]
index = chains.index(chain)
self.changeChain(chain)
self.chainPulldown.setup(names, chains, index)
def updateStructures(self):
index = 0
names = []
structures = []
structure = self.structure
if self.run:
model = self.run.findFirstInputStructure()
if model:
structure = model.structureEnsemble
structures0 = [(s.ensembleId, s) for s in self.project.structureEnsembles]
structures0.sort()
for eId, structure in structures0:
name = '%s:%s' % (structure.molSystem.code, eId)
structures.append(structure)
names.append(name)
if structures:
if structure not in structures:
structure = structures[-1]
index = structures.index(structure)
self.changeStructure(structure)
self.structurePulldown.setup(names, structures, index)
def updateModels(self):
textMatrix = []
objectList = []
colorMatrix = []
if self.structure and self.run:
used = self.run.inputStructures
for model in self.structure.sortedModels():
if model in used:
colors = [None, CING_BLUE]
use = 'Yes'
else:
colors = [None, None]
use = 'No'
datum = [model.serial,use]
textMatrix.append(datum)
objectList.append(model)
colorMatrix.append(colors)
self.modelTable.update(objectList=objectList,
textMatrix=textMatrix,
colorMatrix=colorMatrix)
def changeStructure(self, structure):
if self.project and (self.structure is not structure):
self.project.currentEstructureEnsemble = structure
self.structure = structure
if self.run:
self.run.inputStructures = structure.sortedModels()
self.updateModels()
self.updateChains()
def changeChain(self, chain):
if self.project and (self.chain is not chain):
self.chain = chain
self.updateResidues()
def chooseValidScript(self):
# Prepend default Cyana file extension below
fileTypes = [ FileType('Python', ['*.py']), ]
popup = FileSelectPopup(self, file_types = fileTypes,
title='Python file', dismiss_text='Cancel',
selected_file_must_exist = True)
fileName = popup.getFile()
self.validScriptEntry.set(fileName)
popup.destroy()
def updateAll(self, project=None):
if project:
self.project = project
self.nmrProject = project.currentNmrProject
simStore = project.findFirstNmrSimStore(application='CING') or \
project.newNmrSimStore(application='CING', name='CING')
else:
simStore = None
if not self.project:
return
self.setZipFileName()
if not self.project.currentNmrProject:
name = self.project.name
self.nmrProject = self.project.newNmrProject(name=name)
else:
self.nmrProject = self.project.currentNmrProject
self.update(simStore)
def update(self, simStore=None):
NmrSimRunFrame.update(self, simStore)
run = self.run
urls = [DEFAULT_URL,]
index = 0
if run:
userId = getRunParameter(run, iCingRobot.FORM_USER_ID)
accessKey = getRunParameter(run, iCingRobot.FORM_ACCESS_KEY)
if userId and accessKey:
self.serverCredentials = [(iCingRobot.FORM_USER_ID, userId),
(iCingRobot.FORM_ACCESS_KEY, accessKey)]
url = getRunParameter(run, ICING_BASE_URL)
if url:
htmlUrl = getRunParameter(run, HTML_RESULTS_URL)
self.iCingBaseUrl = url
self.resultsUrl = htmlUrl # May be None
self.resultUrlEntry.set(self.resultsUrl)
if self.iCingBaseUrl and self.iCingBaseUrl not in urls:
index = len(urls)
urls.append(self.iCingBaseUrl)
self.iCingBaseUrlPulldown.setup(urls, urls, index)
self.updateButtons()
self.updateStructures()
self.updateModels()
self.updateChains()
def updateButtons(self, event=None):
buttons = self.buttonBar.buttons
if self.project and self.run:
buttons[0].enable()
if self.resultsUrl and self.serverCredentials:
buttons[1].enable()
buttons[2].enable()
buttons[3].enable()
else:
buttons[1].disable()
buttons[2].disable()
buttons[3].disable()
else:
buttons[0].disable()
buttons[1].disable()
buttons[2].disable()
buttons[3].disable()
def body(self, mainFrame):
mainFrame.grid_columnconfigure(1, weight=1, minsize=100)
mainFrame.config(borderwidth=5, relief='solid')
row = 0
label = Label(mainFrame, text="Frame (with sub-widgets):")
label.grid(row=row, column=0, sticky=Tkinter.E)
frame = Frame(mainFrame, relief='raised', border=2, background='#8080D0')
# Frame expands East-West
frame.grid(row=row, column=1, sticky=Tkinter.EW)
# Last column expands => Widgets pusted to the West
frame.grid_columnconfigure(3, weight=1)
# Label is within the sub frame
label = Label(frame, text='label ')
label.grid(row=0, column=0, sticky=Tkinter.W)
entry = Entry(frame, text='Entry', returnCallback=self.showWarning)
entry.grid(row=0, column=1, sticky=Tkinter.W)
self.check = CheckButton(frame, text='Checkbutton', selected=True, callback=self.updateObjects)
self.check.grid(row=0, column=2, sticky=Tkinter.W)
# stick a button to the East wall
button = Button(frame, text='Button', command=self.pressButton)
button.grid(row=0, column=3, sticky=Tkinter.E)
row += 1
label = Label(mainFrame, text="Text:")
label.grid(row=row, column=0, sticky=Tkinter.E)
self.textWindow = Text(mainFrame, text='Initial Text\n', width=60, height=5)
self.textWindow.grid(row=row, column=1, sticky=Tkinter.NSEW)
row += 1
label = Label(mainFrame, text="CheckButtons:")
label.grid(row=row, column=0, sticky=Tkinter.E)
entries = ['Alpha','Beta','Gamma','Delta']
selected = entries[2:]
self.checkButtons = CheckButtons(mainFrame, entries, selected=selected,select_callback=self.changedCheckButtons)
self.checkButtons.grid(row=row, column=1, sticky=Tkinter.W)
row += 1
label = Label(mainFrame, text="PartitionedSelector:")
label.grid(row=row, column=0, sticky=Tkinter.E)
labels = ['Bool','Int','Float','String']
objects = [type(0),type(1),type(1.0),type('a')]
selected = [type('a')]
self.partitionedSelector= PartitionedSelector(mainFrame, labels=labels,
objects=objects,
colors = ['red','yellow','green','#000080'],
callback=self.toggleSelector,selected=selected)
self.partitionedSelector.grid(row=row, column=1, sticky=Tkinter.EW)
row += 1
label = Label(mainFrame, text="PulldownMenu")
label.grid(row=row, column=0, sticky=Tkinter.E)
entries = ['Frodo','Pipin','Merry','Sam','Bill','Gandalf','Strider','Gimli','Legolas']
self.pulldownMenu = PulldownMenu(mainFrame, callback=self.selectPulldown,
entries=entries, selected_index=2,
do_initial_callback=False)
self.pulldownMenu.grid(row=row, column=1, sticky=Tkinter.W)
row += 1
label = Label(mainFrame, text="RadioButtons in a\nScrolledFrame.frame:")
label.grid(row=row, column=0, sticky=Tkinter.EW)
frame = ScrolledFrame(mainFrame, yscroll = False, doExtraConfig = True, width=100)
frame.grid(row=row, column=1, sticky=Tkinter.EW)
frame.grid_columnconfigure(0, weight=1)
self.radioButtons = RadioButtons(frame.frame, entries=entries,
select_callback=self.checkRadioButtons,
selected_index=1, relief='groove')
self.radioButtons.grid(row=0, column=0, sticky=Tkinter.W)
row += 1
label = Label(mainFrame, text="LabelFrame with\nToggleLabels inside:")
label.grid(row=row, column=0, sticky=Tkinter.E)
labelFrame = LabelFrame(mainFrame, text='Frame Title')
labelFrame.grid(row=row, column=1, sticky=Tkinter.NSEW)
labelFrame.grid_rowconfigure(0, weight=1)
labelFrame.grid_columnconfigure(3, weight=1)
self.toggleLabel1 = ToggleLabel(labelFrame, text='ScrolledMatrix', callback=self.toggleFrame1)
self.toggleLabel1.grid(row=0, column=0, sticky=Tkinter.W)
self.toggleLabel1.arrowOn()
self.toggleLabel2 = ToggleLabel(labelFrame, text='ScrolledGraph', callback=self.toggleFrame2)
self.toggleLabel2.grid(row=0, column=1, sticky=Tkinter.W)
self.toggleLabel3 = ToggleLabel(labelFrame, text='ScrolledCanvas', callback=self.toggleFrame3)
self.toggleLabel3.grid(row=0, column=2, sticky=Tkinter.W)
row += 1
mainFrame.grid_rowconfigure(row, weight=1)
label = Label(mainFrame, text="changing/shrinking frames:")
label.grid(row=row, column=0, sticky=Tkinter.E)
self.toggleRow = row
self.toggleFrame = Frame(mainFrame)
self.toggleFrame.grid(row=row, column=1, sticky=Tkinter.NSEW)
self.toggleFrame.grid_rowconfigure(0, weight=1)
self.toggleFrame.grid_columnconfigure(0, weight=1)
# option 1
self.intEntry = IntEntry(self, returnCallback = self.setNumber, width=8)
self.multiWidget = MultiWidget(self, Entry, options=None,
values=None, callback=self.setKeywords,
minRows=3, maxRows=5)
editWidgets = [None, None, self.intEntry, self.multiWidget]
editGetCallbacks = [None, None, self.getNumber, self.getKeywords]
editSetCallbacks = [None, None, self.setNumber, self.setKeywords]
headingList = ['Name','Color','Number','Keywords']
self.scrolledMatrix = ScrolledMatrix(self.toggleFrame, headingList=headingList,
editSetCallbacks=editSetCallbacks,
editGetCallbacks=editGetCallbacks,
editWidgets=editWidgets,
callback=self.selectObject,
multiSelect=False)
self.scrolledMatrix.grid(row=0, column=0, sticky=Tkinter.NSEW)
# option 2
self.scrolledGraph = ScrolledGraph(self.toggleFrame, width=400,
height=300, symbolSize=5,
symbols=['square','circle'],
dataColors=['#000080','#800000'],
lineWidths=[0,1] )
self.scrolledGraph.setZoom(1.3)
dataSet1 = [[0,0],[1,1],[2,4],[3,9],[4,16],[5,25]]
dataSet2 = [[0,0],[1,3],[2,6],[3,9],[4,12],[5,15]]
self.scrolledGraph.update(dataSets=[dataSet1,dataSet2],
xLabel = 'X axis label',
yLabel = 'Y axis label',
title = 'Main Title')
self.scrolledGraph.draw()
# option 3
self.scrolledCanvas = ScrolledCanvas(self.toggleFrame,relief = 'groove', borderwidth = 2, resizeCallback=None)
canvas = self.scrolledCanvas.canvas
font = 'Helvetica 10'
box = canvas.create_rectangle(10,10,150,200, outline='grey', fill='grey90')
line = canvas.create_line(0,0,200,200,fill='#800000', width=2)
text = canvas.create_text(120,50, text='Text', font=font, fill='black')
circle = canvas.create_oval(30,30,50,50,outline='#008000',fill='#404040',width=3)
row += 1
label = Label(mainFrame, text="FloatEntry:")
label.grid(row=row, column=0, sticky=Tkinter.E)
self.floatEntry = FloatEntry(mainFrame, text=3.14159265, returnCallback=self.floatEntryReturn)
self.floatEntry.grid(row=row, column=1, sticky=Tkinter.W)
row += 1
label = Label(mainFrame, text="Scale:")
label.grid(row=row, column=0, sticky=Tkinter.E)
self.scale = Scale(mainFrame, from_=10, to=90, value=50, orient=Tkinter.HORIZONTAL)
self.scale.grid(row=row, column=1, sticky=Tkinter.W)
row += 1
label = Label(mainFrame, text="Value Ramp:")
label.grid(row=row, column=0, sticky=Tkinter.E)
self.valueRamp = ValueRamp(mainFrame, self.valueRampCallback, speed = 1.5, delay = 50)
self.valueRamp.grid(row=row, column=1, sticky=Tkinter.W)
row += 1
label = Label(mainFrame, text="ButtonList:")
label.grid(row=row, column=0, sticky=Tkinter.E)
texts = ['Select File','Close','Quit']
commands = [self.selectFile, self.close, self.quit]
bottomButtons = ButtonList(mainFrame, texts=texts, commands=commands, expands=True)
bottomButtons.grid(row=row, column=1, sticky=Tkinter.EW)
self.protocol('WM_DELETE_WINDOW', self.quit)
class SaveLoadTab(object):
'''The tab that lets the user FileSelect
a file to open or to save.
'''
def __init__(self, parent, frame):
'''Init. args: parent: the guiElement that this
tab is part of.
frame: the frame this part of the
GUI lives in.
'''
self.guiParent = parent
self.frame = frame
self.project = parent.project
self.nmrProject = parent.nmrProject
self.loadAndSaveButtons = None
self.fileselectionBox = None
self.body()
def body(self):
'''Setting up the body of this view.'''
frame = self.frame
file_types = [FileType('pyc', ['*.pyc'])]
self.fileselectionBox = FileSelect(frame,
multiSelect=False,
file_types=file_types)
self.fileselectionBox.grid(row=0,
column=0,
columnspan=6,
sticky='nsew')
texts = ['Load', 'Save']
commands = [self.loadDataFromPyc, self.saveDataToPyc]
self.loadAndSaveButtons = ButtonList(frame,
commands=commands,
texts=texts)
self.loadAndSaveButtons.grid(row=1, column=0, sticky='nsew')
frame.grid_rowconfigure(0, weight=1)
frame.grid_columnconfigure(0, weight=1)
def saveDataToPyc(self):
'''Save the data to the selected file.'''
if self.guiParent.connector.results:
fileName = self.fileselectionBox.getFile()
self.guiParent.connector.saveDataToPyc(fileName)
self.fileselectionBox.updateFileList()
else:
string = ('''There are no results to save, '''
'''the algorithm has not run yet.''')
showWarning('No Results to Save', string, parent=self.guiParent)
def loadDataFromPyc(self):
'''Load the data from the selected file.'''
fileName = self.fileselectionBox.getFile()
self.guiParent.connector.loadDataFromPyc(fileName)
self.guiParent.resultsTab.update()
def __init__(self, parent, project, path = None,
molTypeEntries = None, chemCompEntries = None,
selectedChemComps = None, selectLinking = None,
*args, **kw):
Frame.__init__(self, parent, *args, **kw)
self.project = project
self.molTypeEntries = molTypeEntries
self.chemCompEntries = chemCompEntries
self.selectLinking = selectLinking
if (not path):
path = getDataPath()
self.path = path
# Check if all chemComps available locally
self.path_allChemComps = getChemCompArchiveDataDir()
if not os.path.exists(self.path_allChemComps):
self.path_allChemComps = None
self.chemCompInfoDict = {}
self.chemCompInfoList = []
self.chemCompDownload = False
self.chem_comps_shown = {}
for entry in chemCompList:
self.chemCompClasses[entry] = getattr(ccp.api.molecule.ChemComp, entry)
self.grid_columnconfigure(0, weight=1)
row = 0
if (molTypeEntries is None):
headerText = "Show residues (select molecular type(s)):"
else:
headerText = "Show %s residues:" % (str(molTypeEntries))
#
#
# TODO TODO: HERE need to do some niftier stuff for displaying!
#
#
headerTextWidget = Label(self, text = headerText)
headerTextWidget.grid(row=row, column=0, sticky=Tkinter.W)
row = row + 1
if (molTypeEntries is None):
self.mol_type_buttons = CheckButtons(self, entries=molTypeList,
select_callback=self.updateTables)
self.mol_type_buttons.grid(row=row, column=0, sticky=Tkinter.EW)
row = row + 1
else:
self.mol_type_buttons = None
#
# The chemComps to display...
#
self.showLocalText = 'Show local'
self.showWebText = 'Show available via web'
self.display_buttons = CheckButtons(self, entries=[self.showLocalText,self.showWebText],
select_callback=self.updateTables,
selected = [self.showLocalText])
self.display_buttons.grid(row=row, column=0, sticky=Tkinter.EW)
row = row + 1
self.grid_rowconfigure(row, weight=2)
headings = ('number', 'show details', 'molType', 'ccpCode', 'code1Letter', 'cifCode', 'name')
editWidgets = 7 * [ None ]
editGetCallbacks = [ None, self.toggleShow, None, None, None, None, None ]
editSetCallbacks = 7 * [ None ]
self.chem_comp_table = ScrolledMatrix(self, headingList=headings,
editWidgets=editWidgets,
editGetCallbacks=editGetCallbacks,
editSetCallbacks=editSetCallbacks)
self.chem_comp_table.grid(row=row, column=0, sticky=Tkinter.NSEW)
row = row + 1
texts = [ 'Show all in details window', 'Clear details window' ]
commands = [ self.showAll, self.showNone ]
buttons = ButtonList(self, texts=texts, commands=commands)
buttons.grid(row=row, column=0, sticky=Tkinter.EW)
row = row + 1
separator = Separator(self,height = 3)
separator.setColor('black', bgColor = 'black')
separator.grid(row=row, column=0, sticky=Tkinter.EW)
row = row + 1
headerTextWidget = Label(self, text = "Select the residue variant:")
headerTextWidget.grid(row=row, column=0, sticky=Tkinter.W)
row = row + 1
if (chemCompEntries is None):
self.chem_comp_buttons = CheckButtons(self, entries=chemCompList,
selected=('ChemComp',),
select_callback=self.updateChemCompVarTable)
self.chem_comp_buttons.grid(row=row, column=0, sticky=Tkinter.EW)
row = row + 1
else:
self.chem_comp_buttons = None
self.grid_rowconfigure(row, weight=1)
headings = ('number', 'molType', 'ccpCode', 'linking', 'descriptor', 'molecularMass', 'formula', 'nonStereoSmiles', 'stereoSmiles')
self.chem_comp_var_table = ScrolledMatrix(self, headingList=headings)
self.chem_comp_var_table.grid(row=row, column=0, sticky=Tkinter.NSEW)
self.chem_comp_var_headings = headings[1:]
if selectedChemComps:
for chemComp in selectedChemComps:
key = (chemComp.molType, chemComp.ccpCode)
self.chem_comps_shown[key] = 1
self.updateTables()
class AssignMentTransferTab(object):
'''the tab in the GUI where assignments
can be transferred in bulk to the ccpn analysis
project. A difference is made between two types
of assignments:
1) spin systems to residues, which also
implies resonanceSets to atomSets.
2) resonances to peak dimensions.
The user is able to configure which assignments
should be transferred to the project.
Attributes:
guiParent: gui object this tab is part of.
frame: the frame in which this element lives.
dataModel(src.cython.malandro.DataModel): dataModel
object describing the assignment proposed by
the algorithm.
selectedSolution (int): The index of the solution/run
that is used asa the template to make the assignments.
resonanceToDimension (bool): True if resonances should
be assigned to peak dimensions. False if not.
spinSystemToResidue (bool): True if spin system to
residue assignment should be carried out.
minScore (float): The minimal score of a spin system
assignment to a residue to be allowed
to transfer this assignment to the project
intra (bool): True if intra-residual peaks should be
assigned.
sequential (bool): True if sequential peaks should be
assigned.
noDiagonal (bool): If True, purely diagonal peaks are
ignored during the transfer of assignments.
allSpectra (bool): If True, all spectra will be assigned.
If False, one specified spectrum will be assigned.
spectrum (src.cython.malandro.Spectrum): The spectrum
that should be assigned.
'''
def __init__(self, parent, frame):
'''Init. args: parent: the guiElement that this
tab is part of.
frame: the frame this part of the
GUI lives in.
'''
self.guiParent = parent
self.frame = frame
# Buttons and fields,
# will be set in body():
self.peaksCheckButton = None
self.residuesCheckButton = None
self.intraCheckButton = None
self.sequentialCheckButton = None
self.noDiagonalCheckButton = None
self.spinSystemTypeSelect = None
self.minScoreEntry = None
self.solutionNumberEntry = None
self.spectrumSelect = None
self.spectraPullDown = None
self.assignedResidueStrategySelect = None
self.transferButton = None
# Settings that determine how assignments
# are transferred to the analysis project:
self.minScore = 80.0
self.dataModel = None
self.spectrum = None
self.selectedSolution = 1
self.body()
self.resonanceToDimension = True
self.spinSystemToResidue = True
self.intra = True
self.sequential = True
self.noDiagonal = True
self.allSpectra = True
self.spinSystemType = 0
self.strategy = 0
def body(self):
'''Describes the body of this tab. It consists
out of a number of radio buttons, check buttons
and number entries that allow the user to
indicate which assignments should be transferred.
'''
# self.frame.expandColumn(0)
self.frame.expandGrid(8, 0)
self.frame.expandGrid(8, 1)
typeOfAssignmentFrame = LabelFrame(
self.frame, text='type of assignment')
typeOfAssignmentFrame.grid(row=0, column=0, sticky='nesw')
# typeOfAssignmentFrame.expandGrid(0,5)
peakSelectionFrame = LabelFrame(
self.frame, text='which peaks to assign')
peakSelectionFrame.grid(row=0, column=1, sticky='nesw', rowspan=2)
spinSystemSelectionFrame = LabelFrame(self.frame,
text='Which spin-systems to use')
spinSystemSelectionFrame.grid(row=2, column=0, sticky='nesw')
tipText = 'What to do when a residue has already a spin system assigned to it.'
assignedResidueFrame = LabelFrame(self.frame,
text='if residue already has spin-system',
tipText=tipText)
assignedResidueFrame.grid(row=2, column=1, sticky='nesw')
spectrumSelectionFrame = LabelFrame(self.frame, text='spectra')
spectrumSelectionFrame.grid(row=1, column=0, sticky='nesw')
row = 0
Label(typeOfAssignmentFrame,
text='Resonances to Peak Dimensions',
grid=(row, 0))
self.peaksCheckButton = CheckButton(typeOfAssignmentFrame,
selected=True,
grid=(row, 1))
row += 1
Label(typeOfAssignmentFrame,
text='SpinSystems to Residues',
grid=(row, 0))
self.residuesCheckButton = CheckButton(
typeOfAssignmentFrame, selected=True, grid=(row, 1))
row = 0
Label(peakSelectionFrame, text='Intra-Residual', grid=(row, 0))
self.intraCheckButton = CheckButton(
peakSelectionFrame, selected=True, grid=(row, 1))
row += 1
Label(peakSelectionFrame, text='Sequential', grid=(row, 0))
self.sequentialCheckButton = CheckButton(
peakSelectionFrame, selected=True, grid=(row, 1))
row += 1
Label(peakSelectionFrame,
text='Do not assign diagonal peaks',
grid=(row, 0))
self.noDiagonalCheckButton = CheckButton(
peakSelectionFrame, selected=True, grid=(row, 1))
entries = ['Only assigned spin systems',
'All that have a score of at least: ',
'User Defined',
'Solution number:']
tipTexts = ['Only assign resonances of spin systems that already have a sequential assignment for the assignment of peak dimensions. Spin system to residue assignment is not relevant in this case.',
'Assign all spin systems that have a score of at least a given percentage. 50% or lower is not possible, because than spin systems might have to be assigned to more than 1 residue, which is impossible.',
"As defined in the lower row of buttons in the 'results' tab.",
'One of the single solutions of the annealing.']
self.spinSystemTypeSelect = RadioButtons(spinSystemSelectionFrame,
entries=entries, grid=(0, 0),
select_callback=None,
direction=VERTICAL,
gridSpan=(4, 1),
tipTexts=tipTexts)
tipText = 'The minimal amount of colabelling the different nuclei should have in order to still give rise to a peak.'
self.minScoreEntry = FloatEntry(spinSystemSelectionFrame,
grid=(1, 1), width=7,
text=str(self.minScore),
returnCallback=self.changeMinScore,
tipText=tipText)
self.minScoreEntry.bind('<Leave>', self.changeMinScore, '+')
self.solutionNumberEntry = IntEntry(spinSystemSelectionFrame,
grid=(3, 1), width=7, text=1,
returnCallback=self.solutionUpdate,
tipText=tipText)
self.solutionNumberEntry.bind('<Leave>', self.solutionUpdate, '+')
#self.solutionPullDown = PulldownList(spinSystemSelectionFrame, None, grid=(3,1), sticky='w')
entries = ['all spectra', 'only:']
tipTexts = ['Assign peaks in all the spectra that where selected before the annealing ran.',
'Only assign peaks in one particular spectrum. You can of course repeat this multiple times for different spectra.']
self.spectrumSelect = RadioButtons(spectrumSelectionFrame,
entries=entries,
grid=(0, 0),
select_callback=None,
direction=VERTICAL,
gridSpan=(2, 1), tipTexts=tipTexts)
self.spectraPullDown = PulldownList(spectrumSelectionFrame,
self.changeSpectrum,
grid=(1, 1), sticky='w')
entries = ['skip this residue',
'de-assign old spin system from residue',
'assign, but never merge',
'warn to merge']
tipTexts = ["Don't assign the new spin system to the residue. The residue is not skipped when the old spin system does not contain any resonances",
"De-assign old spin system from residue, unless the old spin system is a spin system without any resonances.",
"Don't merge any spin systems, merging can be performed later if nescesary in the Resonance --> SpinSystems window.",
"Ask to merge individually for each spin system, this might result in clicking on a lot of popups."]
self.assignedResidueStrategySelect = RadioButtons(assignedResidueFrame,
entries=entries,
grid=(0, 0),
select_callback=None,
direction=VERTICAL,
gridSpan=(2, 1),
tipTexts=tipTexts)
texts = ['Transfer Assignments']
commands = [self.transferAssignments]
self.transferButton = ButtonList(
self.frame, commands=commands, texts=texts)
self.transferButton.grid(row=5, column=0, sticky='nsew', columnspan=2)
def update(self):
'''Update the nescesary elements in the
tab. Is called when the algorithm
has produced possible assignments.
The only thing that has to be updated
in practice in this tab is the pulldown
with spectra.
'''
self.dataModel = self.guiParent.connector.results
self.updateSpectra()
def setDataModel(self, dataModel):
'''Here the dataModel, which is the dataModel
containing the suggested assignments body
the algorithm, can be set.
'''
self.dataModel = dataModel
self.update()
def updateSpectra(self, *opt):
'''Updates the spectra shown in the spectra
pulldown. These are only the spectra that
were used by the algorithm. All other spectra
in the project are not relevant since for those
no simulated peaks have been matched to real
peaks.
'''
if not self.dataModel:
return
spectrum = self.spectrum
spectra = self.dataModel.getSpectra()
if spectra:
names = [spectrum.name for spectrum in spectra]
index = 0
if self.spectrum not in spectra:
self.spectrum = spectra[0]
else:
index = spectra.index(self.spectrum)
self.spectraPullDown.setup(names, spectra, index)
def changeSpectrum(self, spectrum):
'''Select a spectum to be assigned.'''
self.spectrum = spectrum
def solutionUpdate(self, event=None, value=None):
'''Select a solution. A solution is a
one to one mapping of spin systems
to residues produced by one run of
the algorithm.
args: event: event object, this is
one of the values the number
entry calls his callback
function with.
value: the index of the solution/run.
'''
if not self.dataModel:
return
Nsolutions = len(self.dataModel.chain.residues[0].solutions)
if value is None:
value = self.solutionNumberEntry.get()
if value == self.selectedSolution:
return
else:
self.selectedSolution = value
if value < 1:
self.solutionNumberEntry.set(1)
self.selectedSolution = 1
elif value > Nsolutions:
self.selectedSolution = Nsolutions
self.solutionNumberEntry.set(self.selectedSolution)
else:
self.solutionNumberEntry.set(self.selectedSolution)
def fetchOptions(self):
'''Fetches user set options from the gui in
one go and stores them in their corresponding
instance variables.
'''
self.resonanceToDimension = self.peaksCheckButton.get()
self.spinSystemToResidue = self.residuesCheckButton.get()
self.intra = self.intraCheckButton.get()
self.sequential = self.sequentialCheckButton.get()
self.noDiagonal = self.noDiagonalCheckButton.get()
self.spinSystemType = self.spinSystemTypeSelect.getIndex()
self.strategy = ['skip', 'remove', 'noMerge', None][
self.assignedResidueStrategySelect.getIndex()]
self.allSpectra = [True, False][self.spectrumSelect.getIndex()]
def changeMinScore(self, event=None):
'''Set the minimal score for which a spin system
to residue assignment gets transferred to the
ccpn analysis project.
'''
newMinScore = self.minScoreEntry.get()
if self.minScore != newMinScore:
if newMinScore <= 50.0:
self.minScore = 51.0
self.minScoreEntry.set(51.0)
elif newMinScore > 100.0:
self.minScore = 100.0
self.minScoreEntry.set(100.0)
else:
self.minScore = newMinScore
def transferAssignments(self):
'''Transfer assignments to project depending
on the settings from the GUI.
'''
self.fetchOptions()
if not self.dataModel or (not self.resonanceToDimension and not self.spinSystemToResidue):
return
strategy = self.strategy
lookupSpinSystem = [self.getAssignedSpinSystem,
self.getBestScoringSpinSystem,
self.getUserDefinedSpinSystem,
self.getSelectedSolutionSpinSystem][self.spinSystemType]
residues = self.dataModel.chain.residues
spinSystemSequence = [lookupSpinSystem(res) for res in residues]
ccpnSpinSystems = []
ccpnResidues = []
# if self.spinSystemType == 0 it means that it for sure already
# assigned like this
if self.spinSystemToResidue and not self.spinSystemType == 0:
for spinSys, res in zip(spinSystemSequence, residues):
if spinSys and res:
ccpnSpinSystems.append(spinSys.getCcpnResonanceGroup())
ccpnResidues.append(res.getCcpnResidue())
assignSpinSystemstoResidues(ccpnSpinSystems,
ccpnResidues,
strategy=strategy,
guiParent=self.guiParent)
if self.resonanceToDimension:
allSpectra = self.allSpectra
if self.intra:
for residue, spinSystem in zip(residues, spinSystemSequence):
if not spinSystem:
continue
intraLink = residue.getIntraLink(spinSystem)
for pl in intraLink.getPeakLinks():
peak = pl.getPeak()
if not allSpectra and peak.getSpectrum() is not self.spectrum:
continue
if not peak:
continue
resonances = pl.getResonances()
if self.noDiagonal and len(set(resonances)) < len(resonances):
continue
for resonance, dimension in zip(resonances, peak.getDimensions()):
ccpnResonance = resonance.getCcpnResonance()
ccpnDimension = dimension.getCcpnDimension()
assignResToDim(ccpnDimension, ccpnResonance)
if self.sequential:
for residue, spinSystemA, spinSystemB in zip(residues,
spinSystemSequence,
spinSystemSequence[1:]):
if not spinSystemA or not spinSystemB:
continue
link = residue.getLink(spinSystemA, spinSystemB)
for pl in link.getPeakLinks():
peak = pl.getPeak()
if not allSpectra and peak.getSpectrum() is not self.spectrum:
continue
if not peak:
continue
resonances = pl.getResonances()
if self.noDiagonal and len(set(resonances)) < len(resonances):
continue
for resonance, dimension in zip(resonances, peak.getDimensions()):
ccpnResonance = resonance.getCcpnResonance()
ccpnDimension = dimension.getCcpnDimension()
assignResToDim(ccpnDimension, ccpnResonance)
self.guiParent.resultsTab.update()
def getAssignedSpinSystem(self, residue):
'''Get the spinSystem that is assigned in the project
to a residue.
args: residue (src.cython.malandro.Residue)
return: spinSystem (src.cython.malandro.SpinSystem)
'''
ccpCode = residue.ccpCode
seqCode = residue.getSeqCode()
spinSystems = self.dataModel.getSpinSystems()[ccpCode]
ccpnResidue = residue.getCcpnResidue()
if ccpnResidue:
assignedResonanceGroups = ccpnResidue.getResonanceGroups()
if len(assignedResonanceGroups) > 1:
print 'There is more than one spin system assigned to residue %s, did not know which one to use to assign peaks. Therefor this residue is skipped.' % (seqCode)
return
assignedResonanceGroup = ccpnResidue.findFirstResonanceGroup()
if assignedResonanceGroup:
for spinSystem in spinSystems:
if spinSystem.getSerial() == assignedResonanceGroup.serial:
# Just checking to make sure, analysis project could
# have changed
if not self.skipResidue(residue, spinSystem):
return spinSystem
def getBestScoringSpinSystem(self, residue):
'''Get the spinSystem that scores the highest,
i.e. is assigned in most of the runs to the
given residue.
args: residue (src.cython.malandro.Residue)
return: spinSystem (src.cython.malandro.SpinSystem)
'''
solutions = residue.solutions
weigth = 1.0 / len(solutions)
score, bestSpinSystem = max([(solutions.count(solution) * weigth * 100.0, solution) for solution in solutions])
if score >= self.minScore and not bestSpinSystem.getIsJoker() and not self.skipResidue(residue, bestSpinSystem):
return bestSpinSystem
return None
def getUserDefinedSpinSystem(self, residue):
'''Get the spinSystem that is defined by the user
(probably in the resultsTab) as the correct
assignment of the given residue.
args: residue (src.cython.malandro.Residue)
return: spinSystem (src.cython.malandro.SpinSystem)
'''
userDefinedSpinSystem = residue.userDefinedSolution
if userDefinedSpinSystem and not userDefinedSpinSystem.getIsJoker() and not self.skipResidue(residue, userDefinedSpinSystem):
return userDefinedSpinSystem
return None
def getSelectedSolutionSpinSystem(self, residue):
'''I a solution corresponding to one specific run
of the algorithm is defined, return which spinSystem
in that run got assigned to the given residue.
args: residue (src.cython.malandro.Residue)
return: spinSystem (src.cython.malandro.SpinSystem)
'''
solutions = residue.solutions
spinSystem = solutions[self.selectedSolution - 1]
if not spinSystem.getIsJoker() and not self.skipResidue(residue, spinSystem):
return spinSystem
return None
def skipResidue(self, residue, spinSystem):
'''One strategy is to skip all residues that
already have a spin system assignment.
If that is the case determine whether to
skip the given residue.
args: residue (src.cython.malandro.Residue)
spinSystem (src.cython.malandro.SpinSystem)
return: boolean, True if residue should be skipped.
'''
if self.strategy == 0:
assignedGroups = residue.getCcpnResidue().getResonanceGroups()
assignedSerials = set([spinSys.serial for spinSys in assignedGroups])
if assignedSerials and spinSystem.getSerial() not in assignedSerials:
return True
return False
def body(self, guiFrame):
self.geometry("500x500")
self.nameEntry = Entry(self, text='', returnCallback=self.setName, width=12)
self.detailsEntry = Entry(self, text='', returnCallback=self.setDetails, width=16)
self.valueEntry = FloatEntry(self, text='', returnCallback=self.setValue, width=10)
self.errorEntry = FloatEntry(self, text='', returnCallback=self.setError, width=8)
self.conditionNamesPulldown = PulldownList(self, callback=self.setConditionName,
texts=self.getConditionNames())
self.unitPulldown = PulldownList(self, callback=self.setUnit,
texts=self.getUnits())
self.experimentPulldown = PulldownList(self, callback=self.setExperiment)
guiFrame.grid_columnconfigure(0, weight=1)
row = 0
frame = Frame(guiFrame, grid=(row, 0))
frame.expandGrid(None,0)
div = LabelDivider(frame, text='Current Series', grid=(0, 0))
utilButtons = UtilityButtonList(frame, helpUrl=self.help_url, grid=(0,1))
row += 1
frame0 = Frame(guiFrame, grid=(row, 0))
frame0.expandGrid(0,0)
tipTexts = ['The serial number of the experiment series, but left blank if the series as actually a pseudo-nD experiment (with a sampled non-frequency axis)',
'The name of the experiment series, which may be a single pseudo-nD experiment',
'The number of separate experiments (and hence spectra) present in the series',
'The kind of quantity that varies for different experiments/planes within the NMR series, e.g. delay time, temperature, ligand concentration etc.',
'The number of separate points, each with a separate experiment/plane and parameter value, in the series']
headingList = ['#','Name','Experiments','Parameter\nVaried','Num\nPoints']
editWidgets = [None, self.nameEntry, None, self.conditionNamesPulldown, None]
editGetCallbacks = [None, self.getName, None, self.getConditionName, None]
editSetCallbacks = [None, self.setName, None, self.setConditionName, None]
self.seriesMatrix = ScrolledMatrix(frame0, tipTexts=tipTexts,
editSetCallbacks=editSetCallbacks,
editGetCallbacks=editGetCallbacks,
editWidgets=editWidgets,
headingList=headingList,
callback=self.selectExpSeries,
deleteFunc=self.deleteExpSeries,
grid=(0,0), gridSpan=(None, 3))
tipTexts = ['Make a new, blank NMR series specification in the CCPN project',
'Delete the selected NMR series from the project, although any component experiments remain. Note you cannot delete pseudo-nD series; delete the actual experiment instead',
'Colour the spectrum contours for each experiment in the selected series (not pseudo-nD) using a specified scheme']
texts = ['Add Series','Delete Series',
'Auto Colour Spectra']
commands = [self.addExpSeries,self.deleteExpSeries,
self.autoColorSpectra]
self.seriesButtons = ButtonList(frame0, texts=texts, commands=commands,
grid=(1,0), tipTexts=tipTexts)
label = Label(frame0, text='Scheme:', grid=(1,1))
tipText = 'Selects which colour scheme to apply to the contours of (separate) experiments within an NMR series'
self.colorSchemePulldown = PulldownList(frame0, grid=(1,2), tipText=tipText)
row += 1
div = LabelDivider(guiFrame, text='Experimental Parameters & Conditions', grid=(row, 0))
row += 1
guiFrame.grid_rowconfigure(row, weight=1)
frame1 = Frame(guiFrame, grid=(row, 0))
frame1.expandGrid(0,0)
tipTexts = ['The kind of experimental parameter that is being used to define the NMR series',
'The experiment that corresponds to the specified parameter value; can be edited from an arbitrary initial experiment',
'The numeric value of the parameter (condition) that relates to the experiment or point in the NMR series',
'The estimated error in value of the condition',
'The measurement unit in which the value of the condition is represented']
headingList = ['Parameter','Experiment','Value','Error','Unit']
editWidgets = [None,self.experimentPulldown,self.valueEntry,self.errorEntry, self.unitPulldown]
editGetCallbacks = [None,self.getExperiment, self.getValue, self.getError, self.getUnit]
editSetCallbacks = [None,self.setExperiment, self.setValue, self.setError, self.setUnit]
self.conditionPointsMatrix = ScrolledMatrix(frame1, grid=(0,0), tipTexts=tipTexts,
editSetCallbacks=editSetCallbacks,
editGetCallbacks=editGetCallbacks,
editWidgets=editWidgets,
headingList=headingList,
callback=self.selectConditionPoint,
deleteFunc=self.deleteConditionPoint)
self.conditionPointsMatrix.doEditMarkExtraRules = self.conditionTableShow
tipTexts = ['Add a new point to the NMR series with an associated parameter value and experiment',
'Remove the selected point from the series, including any associated parameter value',
'For appropriate kinds of NMR series, set or unset a point as representing the plane to use as a reference']
texts = ['Add Series Point','Delete Series Point','Set/Unset Ref Plane']
commands = [self.addConditionPoint,self.deleteConditionPoint,self.setSampledReferencePlane]
self.conditionPointsButtons = ButtonList(frame1, texts=texts, commands=commands,
tipTexts=tipTexts, grid=(1,0))
self.updateAfter()
self.updateColorSchemes()
self.administerNotifiers(self.registerNotify)
class editResidueTypePopup(BasePopup):
'''
The main popup that is shown when the macro is loaded.
'''
def __init__(self, parent, *args, **kw):
self.font = 'Helvetica 10'
self.sFont = 'Helvetica %d'
self.project = parent.project
self.guiParent = parent
self.chemCompDict = {}
self.createChemCompDict()
self.waiting = False
BasePopup.__init__(self, parent,
title="Residue Type Probabilities", **kw)
def open(self):
self.updateAfter()
BasePopup.open(self)
def body(self, guiFrame):
'''Describes where all the GUI element are.'''
self.geometry('400x500')
guiFrame.expandGrid(0, 0)
tableFrame = Frame(guiFrame)
tableFrame.grid(row=0, column=0, sticky='nsew', )
tableFrame.expandGrid(0, 0)
buttonFrame = Frame(guiFrame)
buttonFrame.grid(row=1, column=0, sticky='nsew', )
headingList = ['Spinsystem Number', 'Assignment', 'Residue Type Probs']
self.table = ScrolledMatrix(tableFrame, headingList=headingList,
callback=self.updateSpinSystemSelection,
multiSelect=True)
self.table.grid(row=0, column=0, sticky='nsew')
texts = ['Add Prob']
commands = [self.addProb]
self.AddProbButton = ButtonList(buttonFrame, commands=commands,
texts=texts)
self.AddProbButton.grid(row=0, column=0, sticky='nsew')
texts = ['Remove Prob']
commands = [self.removeProb]
self.AddProbButton = ButtonList(buttonFrame, commands=commands,
texts=texts)
self.AddProbButton.grid(row=0, column=2, sticky='nsew')
selectCcpCodes = sorted(self.chemCompDict.keys())
tipText = 'select ccpCode'
self.selectCcpCodePulldown = PulldownList(buttonFrame,
texts=selectCcpCodes,
grid=(0, 1),
tipText=tipText)
selectCcpCodes = ['All Residue Types']
tipText = 'select ccpCode'
self.selectCcpCodeRemovePulldown = PulldownList(buttonFrame,
texts=selectCcpCodes,
index=0,
grid=(0, 3),
tipText=tipText)
self.updateTable()
def updateSpinSystemSelection(self, obj, row, col):
'''Called after selectin a row in the table.'''
self.updateRemoveCcpCodePullDown()
def updateRemoveCcpCodePullDown(self):
'''Updates the pulldown showing all current residueTypeProbs
for a resonanceGroup that can be removed.
'''
removeCcpCodes = []
for spinSystem in self.table.currentObjects:
removeCcpCodes.extend([typeProp.possibility.ccpCode for typeProp in spinSystem.getResidueTypeProbs()])
removeCcpCodes = ['All Residue Types'] + list(set(removeCcpCodes))
self.selectCcpCodeRemovePulldown.setup(texts=removeCcpCodes,
objects=removeCcpCodes,
index=0)
def getSpinSystems(self):
'''Get resonanceGroups (spin systems) in the project.'''
return self.nmrProject.resonanceGroups
def addProb(self):
'''Add the residue type selected in the selectCcpCodePulldown
as an residueTypeProb.
'''
ccpCode = self.selectCcpCodePulldown.object
for spinSystem in self.table.currentObjects:
if ccpCode not in [typeProp.possibility.ccpCode for typeProp in spinSystem.getResidueTypeProbs()]:
chemComp = self.chemCompDict.get(ccpCode)
spinSystem.newResidueTypeProb(possibility=chemComp)
self.updateTable()
self.updateRemoveCcpCodePullDown()
def removeProb(self):
'''Removes the residueTypeProb selected in the
selectCcpCodeRemovePulldown from the selected resonanceGroup.
'''
ccpCode = self.selectCcpCodeRemovePulldown.object
for spinSystem in self.table.currentObjects:
residueTypeProbs = spinSystem.getResidueTypeProbs()
for typeProb in residueTypeProbs:
if ccpCode == 'All Residue Types' or ccpCode == typeProb.possibility.ccpCode:
typeProb.delete()
self.updateTable()
self.updateRemoveCcpCodePullDown()
def createChemCompDict(self):
'''Make a list of all amino acid types present in any of the
molecular chains present in the project.
'''
chains = self.getChains()
for chain in chains:
for residue in chain.sortedResidues():
if residue.ccpCode not in self.chemCompDict:
self.chemCompDict[residue.ccpCode] = residue.chemCompVar.chemComp
def getChains(self):
'''Get all molecular chains stored in the project.'''
chains = []
if self.project:
for molSystem in self.project.sortedMolSystems():
for chain in molSystem.sortedChains():
if chain.residues:
chains.append(chain)
return chains
def updateTable(self):
'''Update the whole table.'''
objectList = []
data = []
for spinSystem in self.getSpinSystems():
objectList.append(spinSystem)
residueTypeProbs = spinSystem.getResidueTypeProbs()
spinSystemInfo = self.getStringDescriptionOfSpinSystem(spinSystem)
probString = ''
for typeProp in residueTypeProbs:
probString += typeProp.possibility.ccpCode + ' '
data.append([spinSystem.serial, spinSystemInfo, probString])
self.table.update(objectList=objectList, textMatrix=data)
def getStringDescriptionOfSpinSystem(self, spinsys):
'''Get a simple identifier for the assignment status of a
resonanceGroup.
'''
spinSystemInfo = ''
if spinsys.residue:
spinSystemInfo += str(spinsys.residue.seqCode) + ' ' + spinsys.residue.ccpCode
elif spinsys.residueProbs:
for residueProb in spinsys.residueProbs:
res = residueProb.possibility
spinSystemInfo += '{} {}? /'.format(res.seqCode, res.ccpCode)
spinSystemInfo = spinSystemInfo[:-1]
elif spinsys.ccpCode:
spinSystemInfo += spinsys.ccpCode
return spinSystemInfo
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)
def __init__(self,
parent,
initial_list=None,
width=60,
height=5,
xscroll=True,
yscroll=True,
addDeleteButtons=False,
selectmode=Tkinter.BROWSE,
exportselection=0,
select_callback=None,
double_callback=None,
list_background='white',
*args,
**kw):
if (initial_list is None):
initial_list = []
apply(Frame.__init__, (self, parent) + args, kw)
self.selectmode = selectmode
self.grid_rowconfigure(0, weight=1)
self.grid_columnconfigure(0, weight=1)
listbox = Tkinter.Listbox(self,
width=width,
height=height,
background=list_background,
selectmode=selectmode,
exportselection=exportselection)
listbox.grid(row=0, column=0, sticky=Tkinter.NSEW)
if (xscroll):
xscrollbar = Tkinter.Scrollbar(self, orient=Tkinter.HORIZONTAL)
xscrollbar.config(command=listbox.xview)
listbox.config(xscrollcommand=xscrollbar.set)
xscrollbar.grid(row=1, column=0, sticky=Tkinter.EW)
if (yscroll):
yscrollbar = Tkinter.Scrollbar(self, orient=Tkinter.VERTICAL)
yscrollbar.config(command=listbox.yview)
listbox.config(yscrollcommand=yscrollbar.set)
yscrollbar.grid(row=0, column=1, sticky=Tkinter.NS)
if addDeleteButtons:
texts = ['Add item', 'Delete selected']
commands = [self.addItem, self.deleteItems]
buttons = ButtonList(self, texts=texts, commands=commands)
buttons.grid(row=1, columnspan=2, sticky=Tkinter.EW)
# bind frame, not listbox, because listbox with focus has
# activation which means in particular that get underlining
self.bind('<Enter>', self.enterCallback)
self.bind('<KeyPress>', self.keypressCallback)
self.listbox = listbox
self.setItems(initial_list)
self.setSelectCallback(select_callback)
self.setDoubleCallback(double_callback)
self.size = self.listbox.size # otherwise get Frame size called
class HelpFrame(Frame):
def __init__(self,
parent,
width=70,
height=20,
xscroll=False,
yscroll=True,
*args,
**kw):
apply(Frame.__init__, (self, parent) + args, kw)
self.grid_columnconfigure(1, weight=1)
row = 0
texts = ('back', 'forward', 'load')
commands = (self.prevUrl, self.nextUrl, self.loadUrl)
self.buttons = ButtonList(self, texts=texts, commands=commands)
self.buttons.grid(row=row, column=0)
self.url_entry = Entry(self, returnCallback=self.loadUrl)
self.url_entry.grid(row=row, column=1, columnspan=2, sticky=Tkinter.EW)
row = row + 1
frame = Frame(self)
frame.grid(row=row, column=0, columnspan=3, sticky=Tkinter.W)
self.createFindFrame(frame)
row = row + 1
self.grid_rowconfigure(row, weight=1)
self.help_text = ScrolledHtml(self,
width=width,
height=height,
xscroll=xscroll,
yscroll=yscroll,
startUrlCallback=self.startOpenUrl,
endUrlCallback=self.endOpenUrl,
enterLinkCallback=self.setLinkLabel,
leaveLinkCallback=self.setLinkLabel)
self.help_text.grid(row=row,
column=0,
columnspan=3,
sticky=Tkinter.NSEW)
row = row + 1
self.link_label = Label(self)
self.link_label.grid(row=row, column=0, columnspan=2, sticky=Tkinter.W)
button = memops.gui.Util.createDismissButton(self,
dismiss_cmd=self.close)
button.grid(row=row, column=2)
self.urls = []
self.current = -1
self.updateUrlList = True
self.setButtonState()
def close(self):
if (self.popup):
if (self.popup.modal):
self.popup.do_grab()
popup = self.parent
while (not hasattr(popup, 'top')):
popup = popup.parent
popup.close()
def createFindFrame(self, master):
frame = Frame(master)
frame.grid(row=0, column=0, sticky=Tkinter.W)
arrow = ToggleArrow(frame, callback=self.toggleFindFrame)
arrow.grid(row=0, column=0)
button = Button(frame, text='find:', command=self.findPhrase)
button.grid(row=0, column=1)
self.find_entry = Entry(frame,
width=20,
returnCallback=self.findPhrase)
self.find_entry.grid(row=0, column=2)
self.find_frame = frame = Frame(master)
entries = ('search forwards', 'search backwards')
self.direction_buttons = PulldownMenu(frame, entries=entries)
self.direction_buttons.grid(row=0, column=0, sticky=Tkinter.W, padx=5)
self.forwards_entries = entries = ('wrap search', 'stop at end')
self.backwards_entries = ('wrap search', 'stop at beginning')
self.wrap_buttons = PulldownMenu(frame, entries=entries)
self.wrap_buttons.grid(row=0, column=1, sticky=Tkinter.W, padx=5)
self.direction_buttons.callback = self.setWrapText
entries = ('case insensitive', 'case sensitive')
self.case_buttons = PulldownMenu(frame, entries=entries)
self.case_buttons.grid(row=0, column=2, sticky=Tkinter.W, padx=5)
entries = ('literal search', 'regex search')
self.pattern_buttons = PulldownMenu(frame, entries=entries)
self.pattern_buttons.grid(row=0, column=3, sticky=Tkinter.W, padx=5)
self.countVar = Tkinter.IntVar()
def setWrapText(self, entry_ind, entry):
if (entry_ind == 0):
entries = self.forwards_entries
else:
entries = self.backwards_entries
self.wrap_buttons.replace(
entries, selected_index=self.wrap_buttons.getSelectedIndex())
def findPhrase(self, *extra):
phrase = self.find_entry.get()
if (not phrase):
showError('No find phrase', 'Enter phrase in entry box.')
return
if (self.direction_buttons.getSelectedIndex() == 0):
forwards = 1
backwards = 0
else:
forwards = 0
backwards = 1
if (self.case_buttons.getSelectedIndex() == 0):
nocase = 1
else:
nocase = 0
if (self.pattern_buttons.getSelectedIndex() == 0):
exact = 1
regexp = 0
else:
exact = 0
regexp = 1
start = self.help_text.tag_nextrange(Tkinter.SEL, '1.0')
if (start):
start = start[0]
if (forwards):
start = '%s+1c' % start
else:
start = '%s-1c' % start
else:
start = Tkinter.CURRENT
if (self.wrap_buttons.getSelectedIndex() == 0):
match = self.help_text.search(phrase,
start,
count=self.countVar,
forwards=forwards,
backwards=backwards,
nocase=nocase,
exact=exact,
regexp=regexp)
elif (forwards):
match = self.help_text.search(phrase,
start,
count=self.countVar,
forwards=forwards,
backwards=backwards,
nocase=nocase,
exact=exact,
regexp=regexp,
stopindex=Tkinter.END)
else:
match = self.help_text.search(phrase,
start,
count=self.countVar,
forwards=forwards,
backwards=backwards,
nocase=nocase,
exact=exact,
regexp=regexp,
stopindex='1.0')
if (match):
self.help_text.see(match)
self.help_text.setSelection(
match, '%s+%dc' % (match, self.countVar.get()))
self.help_text.tag_config(Tkinter.SEL, background='gray70')
else:
showInfo('No match', 'No match found for phrase.')
def toggleFindFrame(self, isClosed):
if (isClosed):
self.find_frame.grid_forget()
else:
self.find_frame.grid(row=1, column=0, sticky=Tkinter.W)
def setButtonState(self):
n = len(self.urls)
if ((n >= 2) and (self.current > 0)):
state = Tkinter.NORMAL
else:
state = Tkinter.DISABLED
self.buttons.buttons[0].config(state=state)
if ((n >= 2) and (self.current < (n - 1))):
state = Tkinter.NORMAL
else:
state = Tkinter.DISABLED
self.buttons.buttons[1].config(state=state)
def setLinkLabel(self, url=''):
self.link_label.set(url)
def loadUrl(self, *extra):
url = self.url_entry.get()
if (url):
if (url.find(':') == -1):
if (url[:2] != '//'):
url = '//' + url
url = 'http:' + url
self.showUrl(url, forceLoad=True)
def newUrl(self, url):
self.current = self.current + 1
self.urls[self.current:] = [[url, 0.0]]
self.setButtonState()
#print 'newUrl', self.current, self.urls
def prevUrl(self):
if (self.current > 0): # True if called via button
(url, offset) = self.urls[self.current - 1]
self.updateUrlList = False
self.showUrl(url, offset=offset, allowModifyPath=False)
self.updateUrlList = True
self.current = self.current - 1
self.setButtonState()
#print 'prevUrl', self.current, self.urls
def nextUrl(self):
if (self.current < (len(self.urls) - 1)): # True if called via button
(url, offset) = self.urls[self.current + 1]
self.updateUrlList = False
self.showUrl(url, offset=offset, allowModifyPath=False)
self.updateUrlList = True
self.current = self.current + 1
self.setButtonState()
#print 'nextUrl', self.current, self.urls
def showText(self, message, popup=None):
self.popup = popup
if (popup):
self.parent.modal = popup.modal
self.help_text.setState(Tkinter.NORMAL) # so that can add text
self.help_text.clear() # clear existing text
self.help_text.append(message)
self.help_text.setState(Tkinter.DISABLED) # make text read-only
self.open()
def startOpenUrl(self, yview):
if (self.urls):
self.urls[self.current][1] = yview[0]
def endOpenUrl(self, url):
#print 'endOpenUrl', url, self.updateUrlList
self.url_entry.set(url)
if (self.updateUrlList):
self.newUrl(url)
self.setLinkLabel()
self.open()
def showUrl(self,
url,
offset=None,
forceLoad=False,
allowModifyPath=True,
popup=None):
self.popup = popup
if (popup):
self.parent.modal = popup.modal
self.help_text.openUrl(url,
forceLoad=forceLoad,
allowModifyPath=allowModifyPath)
if (offset is not None):
self.help_text.yview(Tkinter.MOVETO, str(offset))
class CalcHeteroNoePopup(BasePopup):
"""
**Calculate Heteronuclear NOE Values From Peak Intensities**
The purpose of this popup window is to calculate the heteronuclear NOE for
amide resonances based upon a comparison of the peak intensities in spectra
that derive from an NOE saturated experiment and an unsaturated (reference)
experiment. The basic idea of this tool is that three peak lists are chosen,
two of which are for heteronuclear NOE experiments (H,N axes); unsaturated
reference and saturated, and one which is the source of assignments and peak
locations. This last "Assignment" peak list may be the same as one of the NOE
peak lists, but may also be entirely separate.
The "Assignment" peak list is used to specify which peak assignments and
locations should be used for the calculation of the heteronuclear NOE values,
and thus can be used to specify only a subset of the resonances for
measurement. For example, it is common to copy an HQSC peak list for use as
the "Assignment" peak list but remove overlapped and NH2 peaks so that the NOE
values are only calculated for separated backbone amides. The calculation
process involves taking each of these assigned peaks and finding peaks with
the same assignment in the NOE peak lists, or if that fails finding peaks with
a similar position (within the stated tolerances); new peaks may be picked if
the "Pick new peaks?" option is set.
The first "Peak Lists & Settings" tab allows the user to choose the peak lists
and various options that will be used in the peak-finding and NOE calculation.
The "Peaks" table allows the peaks from each of the three peak list selections
to be displayed when one of the "Show" buttons is clicked. The [Separate Peak
Table] function allows these peaks to be displayed in the main, separate `Peak
Lists`_ table, which has many more peak manipulation options. The options
below the table may be used to locate selected peaks within the spectrum
window displays.
The second "Peak Intensity Comparison" tab is where the heteronuclear NOE
values are actually calculated. Assuming that two NOE experiment peak lists
have been chosen and that some of their peaks match the assigned peak
positions then the peak intensities are extracted and NOE values automatically
calculated when the tab is opened. Although, a refresh of the table can be
forced with [Find Matching Peaks] at the bottom
If pairs of NOE saturated and reference peaks are found then the actual
heteronuclear NOE value is displayed as the "Intensity Ratio" in the last,
rightmost, column of the table. To store these values as a NOE measurement
list; so that the data can be saved in the CCPN project without need for
recalculation, the [Create Hetero NOE List] function can be used. The results
are then available to view at any time via the `Measurement Lists`_ table.
**Caveats & Tips**
Erroneous peak intensity comparisons may be removed with the [Remove Pairs]
function, but its is common to curate the "Assign" peak list first and
avoid tidying afterwards.
The "Closeness score" can be used to find peak positions where the compared
NOE peaks are unexpectedly far from one another.
.. _`Peak Lists`: EditPeakListsPopup.html
.. _`Measurement Lists`: EditMeasurementListsPopup.html
"""
def __init__(self, parent, *args, **kw):
self.guiParent = parent
self.peakPairs = []
self.intensityType = 'height'
self.selectedPair = None
self.assignPeakList = None
self.refPeakList = None
self.satPeakList = None
self.displayPeakList = None
self.waiting = 0
BasePopup.__init__(self, parent, title="Data Analysis : Heteronuclear NOE", **kw)
def body(self, guiFrame):
self.geometry('700x700')
guiFrame.expandGrid(0,0)
options = ['Peak Lists & Settings','Peak Intensity Comparison']
tabbedFrame = TabbedFrame(guiFrame, options=options, callback=self.changeTab)
tabbedFrame.grid(row=0, column=0, sticky='nsew')
self.tabbedFrame = tabbedFrame
frameA, frameB = tabbedFrame.frames
row = 0
frameA.grid_columnconfigure(1, weight=1)
frameA.grid_columnconfigure(3, weight=1)
frameA.grid_columnconfigure(5, weight=1)
frameA.grid_rowconfigure(5, weight=1)
tipText = 'Number of reference peaks (no saturation)'
self.peaksALabel = Label(frameA, text='Number of Ref Peaks: ', tipText=tipText)
self.peaksALabel.grid(row=1,column=0,columnspan=2,sticky='w')
tipText = 'Number of NOE saturation peaks'
self.peaksBLabel = Label(frameA, text='Number of Sat Peaks: ', tipText=tipText)
self.peaksBLabel.grid(row=1,column=2,columnspan=2,sticky='w')
tipText = 'Number of peaks in assigned list'
self.peaksCLabel = Label(frameA, text='Number of Assign Peaks: ', tipText=tipText)
self.peaksCLabel.grid(row=1,column=4,columnspan=2,sticky='w')
tipText = 'Selects which peak list is considered the NOE intensity reference (no saturation)'
specALabel = Label(frameA, text='Ref Peak List: ')
specALabel.grid(row=0,column=0,sticky='w')
self.specAPulldown = PulldownList(frameA, callback=self.setRefPeakList, tipText=tipText)
self.specAPulldown.grid(row=0,column=1,sticky='w')
tipText = 'Selects which peak list is considered as NOE saturated.'
specBLabel = Label(frameA, text='Sat Peak List: ')
specBLabel.grid(row=0,column=2,sticky='w')
self.specBPulldown = PulldownList(frameA, callback=self.setSatPeakList, tipText=tipText)
self.specBPulldown.grid(row=0,column=3,sticky='w')
tipText = 'Selects a peak list with assignments to use as a positional reference'
specCLabel = Label(frameA, text='Assignment Peak List: ')
specCLabel.grid(row=0,column=4,sticky='w')
self.specCPulldown = PulldownList(frameA, callback=self.setAssignPeakList, tipText=tipText)
self.specCPulldown.grid(row=0,column=5,sticky='w')
frame0a = Frame(frameA)
frame0a.grid(row=2,column=0,columnspan=6,sticky='nsew')
frame0a.grid_columnconfigure(9, weight=1)
tipText = '1H ppm tolerance for matching assigned peaks to reference & NOE saturation peaks'
tolHLabel = Label(frame0a, text='Tolerances: 1H')
tolHLabel.grid(row=0,column=0,sticky='w')
self.tolHEntry = FloatEntry(frame0a,text='0.02', width=6, tipText=tipText)
self.tolHEntry .grid(row=0,column=1,sticky='w')
tipText = '15N ppm tolerance for matching assigned peaks to reference & NOE saturation peaks'
tolNLabel = Label(frame0a, text=' 15N')
tolNLabel .grid(row=0,column=2,sticky='w')
self.tolNEntry = FloatEntry(frame0a,text='0.1', width=6, tipText=tipText)
self.tolNEntry .grid(row=0,column=3,sticky='w')
tipText = 'Whether to peak new peaks in reference & NOE saturated lists (at assignment locations)'
label = Label(frame0a, text=' Pick new peaks?', grid=(0,4))
self.pickPeaksSelect = CheckButton(frame0a, tipText=tipText,
grid=(0,5), selected=True)
tipText = 'Whether to assign peaks in the peaks in the reference & NOE saturation lists, if not already assigned'
label = Label(frame0a, text=' Assign peaks?')
label.grid(row=0,column=6,sticky='w')
self.assignSelect = CheckButton(frame0a, tipText=tipText)
self.assignSelect.set(1)
self.assignSelect.grid(row=0,column=7,sticky='w')
tipText = 'Whether to consider peak height or volume in the heteronuclear NOE calculation'
intensLabel = Label(frame0a, text=' Intensity Type:')
intensLabel .grid(row=0,column=8,sticky='w')
self.intensPulldown = PulldownList(frame0a, texts=['height','volume'],
callback=self.setIntensityType,
tipText=tipText)
self.intensPulldown.grid(row=0,column=9,sticky='w')
divider = LabelDivider(frameA, text='Peaks', grid=(3,0),
gridSpan=(1,6))
tipTexts = ['Show the selected intensity reference peaks in the below table',
'Show the selected NOE saturation peaks in the below table',
'Show the selected assigned peak list in the below table',
'Show the displayed peaks in a separate peak table, where assignments etc. may be adjusted']
texts = ['Show Ref Peaks','Show Sat Peaks',
'Show Assign Peaks', 'Separate Peak Table']
commands = [self.viewRefPeakList, self.viewSatPeakList,
self.viewAssignPeakList, self.viewSeparatePeakTable]
self.viewPeaksButtons = ButtonList(frameA, expands=True, tipTexts=tipTexts,
texts=texts, commands=commands)
self.viewPeaksButtons.grid(row=4,column=0,columnspan=6,sticky='nsew')
self.peakTable = PeakTableFrame(frameA, self.guiParent, grid=(5,0),
gridSpan=(1,6))
self.peakTable.bottomButtons1.grid_forget()
self.peakTable.bottomButtons2.grid_forget()
#self.peakTable.topFrame.grid_forget()
self.peakTable.topFrame.grid(row=2, column=0, sticky='ew')
# Next tab
frameB.expandGrid(0,0)
tipTexts = ['Row number',
'Assignment annotation for NOE saturation peak',
'Assignment annotation for reference peak (no saturation)',
'1H chemical shift of NOE saturation peak',
'1H chemical shift of reference peak',
'15N chemical shift of NOE saturation peak',
'15N chemical shift of reference peak',
'The separation between compared peaks: square root of the sum of ppm differences squared',
'The intensity if the NOE saturation peak',
'The intensity of the reference peak (no saturation)',
'Ratio of peak intensities: saturated over reference',
'Residue(s) for reference peak']
colHeadings = ['#','Sat Peak','Ref Peak','1H shift A',
'1H shift B','15N shift A','15N shift B',
'Closeness\nScore','Intensity A','Intensity B',
'Intensity\nRatio','Residue']
self.scrolledMatrix = ScrolledMatrix(frameB, multiSelect=True,
headingList=colHeadings,
callback=self.selectCell,
tipTexts=tipTexts,
grid=(0,0),
deleteFunc=self.removePair)
tipTexts = ['Force a manual update of the table; pair-up NOE saturation and reference peaks according to assigned peak positions',
'Remove the selected rows of peak pairs',
'Show peaks corresponding to the selected row in a table',
'Save the Heteronuclear NOE values in the CCPN project as a data list']
texts = ['Refresh Table','Remove Pairs',
'Show Peak Pair','Create Hetero NOE List']
commands = [self.matchPeaks,self.removePair,
self.showPeakPair,self.makeNoeList]
self.pairButtons = ButtonList(frameB, tipTexts=tipTexts, grid=(1,0),
texts=texts, commands=commands)
bottomButtons = UtilityButtonList(tabbedFrame.sideFrame, helpUrl=self.help_url)
bottomButtons.grid(row=0, column=0, sticky='e')
self.updatePulldowns()
self.updateAfter()
self.administerNotifiers(self.registerNotify)
def administerNotifiers(self, notifyFunc):
for func in ('__init__', 'delete','setName'):
for clazz in ('ccp.nmr.Nmr.DataSource', 'ccp.nmr.Nmr.Experiment',):
notifyFunc(self.updatePulldowns, clazz, func)
for func in ('__init__', 'delete'):
notifyFunc(self.updatePulldowns,'ccp.nmr.Nmr.PeakList', func)
for func in ('__init__', 'delete','setAnnotation','setFigOfMerit'):
notifyFunc(self.updatePeaks, 'ccp.nmr.Nmr.Peak', func)
for func in ('setAnnotation','setPosition','setNumAliasing'):
notifyFunc(self.updatePeakChild, 'ccp.nmr.Nmr.PeakDim', func)
for func in ('__init__', 'delete', 'setValue'):
notifyFunc(self.updatePeakChild, 'ccp.nmr.Nmr.PeakIntensity', func)
def changeTab(self, index):
if index == 1:
self.matchPeaks()
def open(self):
self.updatePulldowns()
self.updateAfter()
BasePopup.open(self)
def destroy(self):
self.administerNotifiers(self.unregisterNotify)
BasePopup.destroy(self)
def updatePulldowns(self, *obj):
index0 = 0
index1 = 0
index2 = 0
names, peakLists = self.getPeakLists()
if names:
if self.refPeakList not in peakLists:
self.refPeakList = peakLists[0]
if self.satPeakList not in peakLists:
self.satPeakList = peakLists[0]
if self.assignPeakList not in peakLists:
self.assignPeakList = peakLists[0]
index0 = peakLists.index(self.refPeakList)
index1 = peakLists.index(self.satPeakList)
index2 = peakLists.index(self.assignPeakList)
self.specAPulldown.setup(names, peakLists, index0)
self.specBPulldown.setup(names, peakLists, index1)
self.specCPulldown.setup(names, peakLists, index2)
def updatePeakChild(self,peakChild):
if self.waiting:
return
self.updatePeaks(peakChild.peak)
def updatePeaks(self, peak):
if self.waiting:
return
if peak.peakList in (self.refPeakList,self.satPeakList,self.assignPeakList):
if peak.isDeleted and (peak.peakList in (self.refPeakList,self.satPeakList) ):
for peaks in self.peakPairs:
if peak in peaks:
self.peakPairs.remove(peaks)
if self.selectedPair is peaks:
self.selectedPair = None
self.updateAfter()
return
self.updateAfter()
def setIntensityType(self, intensityType):
self.intensityType = intensityType
self.updateAfter()
def viewRefPeakList(self):
if self.refPeakList:
self.updatePeakTable(self.refPeakList)
def viewSatPeakList(self):
if self.satPeakList:
self.updatePeakTable(self.satPeakList)
def viewAssignPeakList(self):
if self.assignPeakList:
self.updatePeakTable(self.assignPeakList)
def viewSeparatePeakTable(self):
if self.displayPeakList:
self.guiParent.editPeakList(peakList=self.displayPeakList)
def setRefPeakList(self, refPeakList):
if self.displayPeakList is self.refPeakList:
self.updatePeakTable(refPeakList)
self.refPeakList = refPeakList
self.updateViewButtons()
self.updateAfter()
def setSatPeakList(self, satPeakList):
if self.displayPeakList is self.satPeakList:
self.updatePeakTable(satPeakList)
self.satPeakList = satPeakList
self.updateViewButtons()
self.updateAfter()
def setAssignPeakList(self, assignPeakList):
if self.displayPeakList is self.assignPeakList:
self.updatePeakTable(assignPeakList)
self.assignPeakList = assignPeakList
self.updateViewButtons()
self.updateAfter()
def getPeakListName(self, peakList):
if peakList:
spectrum = peakList.dataSource
experiment = spectrum.experiment
name = '%s:%s:%d' % (experiment.name, spectrum.name, peakList.serial)
else:
name = '<None>'
return name
def getPeakLists(self):
names = []
peakLists = []
for experiment in self.nmrProject.sortedExperiments():
for dataSource in experiment.sortedDataSources():
if dataSource.numDim == 2:
dimsN = findSpectrumDimsByIsotope(dataSource,'15N')
dimsH = findSpectrumDimsByIsotope(dataSource,'1H')
if len(dimsN) == 1 and len(dimsH) == 1:
for peakList in dataSource.sortedPeakLists():
name = self.getPeakListName(peakList)
names.append( name )
peakLists.append(peakList)
return names, peakLists
def showPeakPair(self):
if self.selectedPair:
self.guiParent.viewPeaks(self.selectedPair)
def selectCell(self, object, row, col):
self.selectedPair = object
if self.selectedPair:
self.pairButtons.buttons[1].enable()
self.pairButtons.buttons[2].enable()
else:
self.pairButtons.buttons[1].disable()
self.pairButtons.buttons[2].disable()
def removePair(self, *event):
pairs = self.scrolledMatrix.currentObjects
if pairs:
for pair in pairs:
self.peakPairs.remove(pair)
self.selectedPair = None
self.updateAfter()
def matchPeaks(self):
# assign relative to reference
if self.assignPeakList and self.assignPeakList.peaks and self.refPeakList and self.satPeakList:
tolH = float( self.tolHEntry.get() )
tolN = float( self.tolNEntry.get() )
pickNewPeaks = self.pickPeaksSelect.get()
doAssign = self.assignSelect.get()
dimH = findSpectrumDimsByIsotope(self.assignPeakList.dataSource,'1H' )[0]
dimHA = findSpectrumDimsByIsotope(self.refPeakList.dataSource,'1H' )[0]
dimHB = findSpectrumDimsByIsotope(self.satPeakList.dataSource,'1H' )[0]
dimN = 1-dimH
dimNA = 1-dimHA
dimNB = 1-dimHB
tolerancesA = [0,0]
tolerancesA[dimHA] = tolH
tolerancesA[dimNA] = tolN
tolerancesB = [0,0]
tolerancesB[dimHB] = tolH
tolerancesB[dimNB] = tolN
self.peakPairs = matchHnoePeaks(self.assignPeakList,self.refPeakList,
self.satPeakList,tolerancesA,tolerancesB,
pickNewPeaks,doAssign)
self.updateAfter()
def makeNoeList(self):
if self.refPeakList is self.satPeakList:
showWarning('Same Peak List',
'Ref Peak List and Sat Peak List cannot be the same',
parent=self)
return
if self.peakPairs:
s1 = self.refPeakList.dataSource
s2 = self.satPeakList.dataSource
noiseRef = getSpectrumNoise(s1)
noiseSat = getSpectrumNoise(s2)
es = '%s-%s' % (s1.experiment.name,s2.experiment.name)
if len(es) > 50:
es = 'Expt(%d)-Expt(%d)' % (s1.experiment.serial,s2.experiment.serial)
noeList = self.nmrProject.newNoeList(unit='None',name='Hetero NOE list for %s' % es)
noeList.setExperiments([s1.experiment,])
if s1.experiment is not s2.experiment:
noeList.addExperiment( s2.experiment )
# TBD: sf, noeValueType, refValue, refDescription
resonancePairsSeen = set()
for (peakA,peakB) in self.peakPairs: # peakA is sat
intensA = getPeakIntensity(peakA,self.intensityType)
intensB = getPeakIntensity(peakB,self.intensityType)
value = float(intensA)/intensB
error = abs(value) * sqrt((noiseSat/intensA)**2 + (noiseRef/intensB)**2)
resonances = tuple(self.getPeakResonances(peakA))
frozenResonances = frozenset(resonances)
if len(resonances) < 2:
pl = peakA.peakList
sp = pl.dataSource
msg = 'Skipping %s:%s:%d peak %d it has too few resonances assigned'
data = (sp.experiment.name, sp.name, pl.serial, peakA.serial)
showWarning('Warning',msg % data, parent=self)
elif len(resonances) > 2:
pl = peakA.peakList
sp = pl.dataSource
resonanceText = ' '.join([makeResonanceGuiName(r) for r in resonances])
msg = 'Skipping %s:%s:%d peak %d it has too many resonances assigned (%s)'
data = (sp.experiment.name, sp.name, pl.serial, peakA.serial, resonanceText)
showWarning('Warning', msg % data, parent=self)
elif frozenResonances not in resonancePairsSeen:
resonancePairsSeen.add(frozenResonances)
noeList.newNoe(value=value,resonances=resonances,peaks=[peakA,peakB],error=error)
else:
resonanceText = ' '.join([makeResonanceGuiName(r) for r in resonances])
msg = 'Skipping duplicate entry for resonances %s' % resonanceText
showWarning('Warning', msg, parent=self)
self.parent.editMeasurements(measurementList=noeList)
def getPeakResonances(self,peak):
resonances = []
for peakDim in peak.sortedPeakDims():
for contrib in peakDim.sortedPeakDimContribs():
resonances.append(contrib.resonance)
return resonances
def updateAfter(self, *opt):
if self.waiting:
return
else:
self.waiting = True
self.after_idle(self.update)
def updateViewButtons(self):
if self.refPeakList:
self.viewPeaksButtons.buttons[0].enable()
else:
self.viewPeaksButtons.buttons[0].disable()
if self.satPeakList:
self.viewPeaksButtons.buttons[1].enable()
else:
self.viewPeaksButtons.buttons[1].disable()
if self.assignPeakList:
self.viewPeaksButtons.buttons[2].enable()
else:
self.viewPeaksButtons.buttons[2].disable()
def updatePeakTable(self, peakList):
if peakList is not self.displayPeakList:
self.displayPeakList = peakList
self.peakTable.update(peaks=peakList.sortedPeaks())
def update(self):
if self.refPeakList:
self.peaksALabel.set( 'Number of Ref Peaks: %d' % len(self.refPeakList.peaks) )
else:
self.peaksALabel.set( 'Number of Ref Peaks: %d' % 0 )
if self.satPeakList:
self.peaksBLabel.set( 'Number of Sat Peaks: %d' % len(self.satPeakList.peaks) )
else:
self.peaksBLabel.set( 'Number of Sat Peaks: %d' % 0 )
if self.assignPeakList:
self.peaksCLabel.set( 'Number of Assign Peaks: %d' % len(self.assignPeakList.peaks) )
else:
self.peaksCLabel.set( 'Number of Assign Peaks: %d' % 0 )
if self.refPeakList and self.satPeakList and self.assignPeakList:
if self.refPeakList is self.satPeakList:
self.pairButtons.buttons[0].disable()
else:
self.pairButtons.buttons[0].enable()
else:
self.pairButtons.buttons[0].disable()
if self.selectedPair:
self.pairButtons.buttons[1].enable()
self.pairButtons.buttons[2].enable()
else:
self.pairButtons.buttons[1].disable()
self.pairButtons.buttons[2].disable()
if self.peakPairs:
self.pairButtons.buttons[3].enable()
dsA = self.peakPairs[0][0].peakList.dataSource
dsB = self.peakPairs[0][1].peakList.dataSource
dimHA = findSpectrumDimsByIsotope(dsA,'1H')[0]
dimHB = findSpectrumDimsByIsotope(dsB,'1H')[0]
dimNA = findSpectrumDimsByIsotope(dsA,'15N')[0]
dimNB = findSpectrumDimsByIsotope(dsB,'15N')[0]
else:
self.pairButtons.buttons[3].disable()
objectList = []
textMatrix = []
i = 0
for (peakA,peakB) in self.peakPairs:
i += 1
peakDimsA = peakA.sortedPeakDims()
peakDimsB = peakB.sortedPeakDims()
ppm0 = peakDimsA[dimHA].value
ppm1 = peakDimsB[dimHB].value
ppm2 = peakDimsA[dimNA].value
ppm3 = peakDimsB[dimNB].value
d0 = abs(ppm0-ppm1)
d1 = abs(ppm2-ppm3)
intensA = getPeakIntensity(peakA,self.intensityType)
intensB = getPeakIntensity(peakB,self.intensityType)
datum = []
datum.append( i )
datum.append( getPeakAnnotation(peakA, doPeakDims=False) )
datum.append( getPeakAnnotation(peakB, doPeakDims=False) )
datum.append( ppm0 )
datum.append( ppm1 )
datum.append( ppm2 )
datum.append( ppm3 )
datum.append( sqrt((d0*d0)+(d1*d1)) )
datum.append( intensA )
datum.append( intensB )
if intensB:
datum.append( float(intensA)/intensB )
else:
datum.append( None )
seqCodes = ','.join(['%s' % seqCode for seqCode in getPeakSeqCodes(peakB)])
datum.append(seqCodes)
objectList.append( (peakA,peakB) )
textMatrix.append( datum )
if not objectList:
textMatrix.append([])
self.scrolledMatrix.update(objectList=objectList, textMatrix=textMatrix)
self.waiting = False
def __init__(self, guiParent, ccpnProject=None, **kw):
self.guiParent = guiParent
self.project = ccpnProject
self.spectrum = None
self.peakMode = 0
if ccpnProject:
self.nmrProject = ccpnProject.currentNmrProject
else:
self.nmrProject = None
Frame.__init__(self, guiParent, **kw)
self.expandGrid(0,0)
options = ['Peak Picking',] #,'About Auremol' 'NOE assignment','Homology Modelling',]
self.tabbedFrame = TabbedFrame(self, options=options)
self.tabbedFrame.grid(row=0,column=0,sticky='nsew')
frameA = self.tabbedFrame.frames[0]
#frameC.grid_columnconfigure(0, weight=1)
#frameC.grid_rowconfigure(0, weight=1)
#frameD.grid_columnconfigure(0, weight=1)
#frameD.grid_rowconfigure(0, weight=1)
#
# Frame A
#
frameA.expandGrid(2,0)
frameA.expandGrid(3,0)
frameA.expandGrid(4,0)
frameA.expandGrid(5,0)
frame = Frame(frameA, grid=(0,0))
frame.expandGrid(0,4)
label = Label(frame, text='Spectrum:', grid=(0,0))
self.spectrumPulldown = PulldownList(frame, self.changeSpectrum, grid=(0,1))
label = Label(frame, text=' Use Peak Sign:', grid=(0,2))
self.peakModePulldown = PulldownList(frame, self.changePeakMode, texts=PEAK_MODES,
objects=[0,1,2], grid=(0,3))
frame = Frame(frameA, grid=(1,0))
frame.expandGrid(0,4)
label = Label(frame, text='Integration Depth (Relative to max):', grid=(1,0))
self.segLevelEntry = FloatEntry(frame, text=0.1, grid=(1,1), width=8)
label = Label(frame, text='Threshold (Threshold only):', grid=(1,3))
self.thresholdEntry = IntEntry(frame, text=100000, grid=(1,4), width=8)
label = Label(frame, text='Keep Peaks (Adaptive only):', grid=(1,5))
self.keepPeakEntry = IntEntry(frame, text=4000, grid=(1,6), width=8)
texts = ['Threshold\nPeak Pick','Adaptive\nPeak Pick']
commands = [self.pickThreshold, self.pickAdaptive]
self.buttons = ButtonList(frameA, texts=texts, commands=commands,
grid=(2,0), sticky='NSEW')
frame = Frame(frameA, grid=(3,0))
frame.expandGrid(0,0)
frame = Frame(frameA, grid=(4,0))
frame.expandGrid(0,0)
frame = Frame(frameA, grid=(5,0))
frame.expandGrid(0,0)
#
# About
"""
frameB.expandGrid(4,0)
label = Label(frameB, text='References', font='Helvetica 12 bold')
label.grid(row=0, column=0, sticky='w')
text =
* Gronwald W, Brunner K, Kirchhofer R, Nasser A, Trenner J, Ganslmeier B,
Riepl H, Ried A, Scheiber J, Elsner R, Neidig K-P, Kalbitzer HR
AUREMOL, a New Program for the Automated Structure Elucidation of Biological Macromolecules
Bruker Reports 2004; 154/155: 11-14
* Ried A, Gronwald W, Trenner JM, Brunner K, Neidig KP, Kalbitzer HR
Improved simulation of NOESY spectra by RELAX-JT2 including effects of J-coupling,
transverse relaxation and chemical shift anisotrophy
J Biomol NMR. 2004 Oct;30(2):121-31
* Gronwald W, Moussa S, Elsner R, Jung A, Ganslmeier B, Trenner J, Kremer W, Neidig KP, Kalbitzer HR
Automated assignment of NOESY NMR spectra using a knowledge based method (KNOWNOE)
J Biomol NMR. 2002 Aug;23(4):271-87
* Gronwald W, Kirchhofer R, Gorler A, Kremer W, Ganslmeier B, Neidig KP, Kalbitzer HR
RFAC, a program for automated NMR R-factor estimation
J Biomol NMR. 2000 Jun;17(2):137-51
label = Label(frameB, text=text)
label.grid(row=1, column=0, sticky='w')
"""
#
# Frame C
#
#
# Frame D
#
self.updateAll()
class ObjectTablePopup(BasePopup):
def __init__(self, parent, root, metaclass, onlyShow=False, *args, **kw):
self.root = root
self.metaclass = metaclass
self.onlyShow = onlyShow
BasePopup.__init__(self,
parent,
title='Browser for %s objects' % metaclass.name,
location='+50+50',
*args,
**kw)
def body(self, master):
master.grid_rowconfigure(0, weight=1)
master.grid_columnconfigure(0, weight=1)
self.table = ObjectTable(master, self.metaclass)
self.table.grid(row=0, column=0, sticky=Tkinter.NSEW)
if (self.onlyShow):
texts = ['Close']
commands = [self.close]
else:
texts = ['Ok', 'Cancel']
commands = [self.ok, self.close]
self.buttons = ButtonList(master,
texts=texts,
commands=commands,
direction=Tkinter.HORIZONTAL,
expands=True)
self.buttons.grid(row=1, column=0, sticky=Tkinter.EW)
self.selected = None
self.setObjects()
self.doRegisters()
def doRegisters(self):
# do not need '' since dealing with keys
#for func in ('', '__init__', 'delete'):
for func in ('__init__', 'delete'):
self.registerNotify(self.setObjects,
self.metaclass.qualifiedName(), func)
# unregisters dealt with by BasePopup
def apply(self):
selected = self.table.currentObject
if (not selected):
showError('No selection', "No object selected", parent=self)
return False
self.selected = selected
return True
def setObjects(self, *extra):
objects = getAllObjects(self.root, self.metaclass)
self.table.setObjects(objects)
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 WorkflowFrame(Frame):
def __init__(self, guiParent, basePopup):
# Base popup required to handle notification of data model changes
# e.g. new peak lists, so that the GUI can update to the latest
# state
self.basePopup = basePopup
self.guiParent = guiParent
self.basePopup.frameShortcuts['Workflow'] = self
#self.registerNotify=basePopup.registerNotify
#self.unregisterNotify=basePopup.unregisterNotify
Frame.__init__(self, guiParent)
self.grid_rowconfigure(0, weight=0)
self.grid_rowconfigure(1, weight=0, minsize=100)
self.grid_rowconfigure(2, weight=1)
self.grid_rowconfigure(3, weight=0, minsize=30)
self.grid_columnconfigure(0, weight=0)
self.grid_columnconfigure(1, weight=1)
self.grid_columnconfigure(2, weight=0)
# build up the body.
self.lcA = LinkChart(self, background='#8080B0', height=110)
self.lcB = LinkChart(self, background='#8080B0')
lcButtonOpts=['Load','Save','Clear','New Protocol']
lcButtonCmds=[self.tmpCall,self.tmpCall,self.tmpCall,self.tmpCall]
self.lcButtons = ButtonList(self, lcButtonOpts, lcButtonCmds)
# hack for now. This should come from db of meta-tasks
self.expts=['Test1','Test2','ARIA','CING','ISD']
# needs custom version
self.filter = FilterFrame(self, self.basePopup, text='Filter')
# no bean udnerneath for now so mock up nodes
self.wfTree = Tree(self, width=35)
wfButtonOpts=['Load','Save']
wfButtonCmds=[self.tmpCall,self.tmpCall]
self.wfButtons = ButtonList(self, wfButtonOpts, wfButtonCmds)
self.drawFrame()
def drawFrame(self):
# hack the WF Tree for now. just get is looking OK
texts=['JMCI WF 1','JMCI WF 2']
icons=[]
parents=[]
callbacks=[]
objects=['JMCI WF 1','JMCI WF 2']
for text in texts:
icons.append('list-add')
callbacks.append(None)
parents.append(None)
self.wfTree.update(parents, objects, texts, icons, callbacks)
self.lcA.grid(row=1, column=1, padx=5, pady=5, sticky='new')
self.lcB.grid(row=2, column=1, padx=5, pady=5, sticky='nsew')
self.lcButtons.grid(row=3, column=1, padx=5, pady=5, sticky='ew')
self.filter.grid(row=1, column=2, sticky='new')
self.wfTree.grid(row=2, column=2, padx=5, pady=5, sticky='nsew')
self.wfButtons.grid(row=3, column=2, padx=5, pady=5, sticky='ew')
self.nodes = []
x = 0
for expt in self.expts:
node = PrototypeNode(self.lcA, title=expt, width=38,
updateFunc=None, resizeable=False, shape='SQUARE',
coords=(50+x*90, 50), object=None)
x += 1
self.lcA.draw()
self.lcB.draw()
def tmpCall(self):
pass
def administerNotifiers(self, notifyFunc):
for func in ('__init__','delete','setName'):
notifyFunc(self.updateAllAfter, 'ccp.nmr.Nmr.Experiment', func)
notifyFunc(self.updateAllAfter, 'ccp.nmr.Nmr.DataSource', func)
def updateAllAfter(self, obj):
self.after_idle(self.updateAll)
def updateAll(self, project=None):
if project:
self.project = project
self.nmrProject = project.currentNmrProject
if not self.nmrProject:
self.nmrProject = project.newNmrProject(name=project.name)
if not self.project:
return
def quit(self):
self.guiParent.parent.destroy()
def destroy(self):
self.administerNotifiers(self.basePopup.unregisterNotify)
Frame.destroy(self)
def body(self, guiFrame):
self.geometry('600x350')
project = self.project
analysisProject = self.analysisProject
guiFrame.grid_columnconfigure(1, weight=1)
row = 0
frame = Frame(guiFrame, grid=(0,0))
label = Label(frame, text=' Window:', grid=(0,0))
self.windowPulldown = PulldownList(frame, grid=(0,1),
tipText='The window that will be printed out',
callback=self.selectWindow)
tipTexts = ['For the window pulldown, show all of the spectrum windows in the current project, irrespective of the active group',
'For the window pulldown, show only spectrum windows that are in the currently active window group']
self.whichWindows = RadioButtons(frame, grid=(0,2),
entries=ACTIVE_OPTIONS, tipTexts=tipTexts,
select_callback=self.updateWindows)
texts = [ 'Save Print File' ]
tipTexts = [ 'Save the printout to the specified file' ]
commands = [ self.saveFile ]
buttons = UtilityButtonList(guiFrame, helpUrl=self.help_url, grid=(row,2),
commands=commands, texts=texts, tipTexts=tipTexts)
self.buttons = buttons
buttons.buttons[0].config(bg='#B0FFB0')
row += 1
guiFrame.grid_rowconfigure(row, weight=1)
options = ['Options', 'Spectra', 'Peak Lists', 'Region']
tipTexts = ['Optional settings for spectra', 'Optional settings for peak lists', 'Optional settings for the region']
tabbedFrame = TabbedFrame(guiFrame, options=options, tipTexts=tipTexts)
tabbedFrame.grid(row=row, column=0, columnspan=3, sticky='nsew')
self.tabbedFrame = tabbedFrame
optionFrame, spectrumFrame, peakListFrame, regionFrame = tabbedFrame.frames
optionFrame.expandGrid(0, 0)
getOption = lambda key, defaultValue: PrintBasic.getPrintOption(analysisProject, key, defaultValue)
setOption = lambda key, value: PrintBasic.setPrintOption(analysisProject, key, value)
self.printFrame = PrintFrame(optionFrame, getOption=getOption,
grid=(0,0), gridSpan=(1,1),
setOption=setOption, haveTicks=True,
doOutlineBox=False)
spectrumFrame.expandGrid(0, 0)
frame = Frame(spectrumFrame, grid=(0,0), gridSpan=(1,1))
frame.expandGrid(1,0)
self.overrideSpectrum = CheckButton(frame,
text='Use below settings when printing',
tipText='Use below settings when printing instead of the window values',
grid=(0,0), sticky='w')
tipText = 'Change the settings of the selected spectra back to their window values'
button = Button(frame, text='Reset Selected', tipText=tipText,
command=self.resetSelected, grid=(0,1), sticky='e')
self.posColorPulldown = PulldownList(self, callback=self.setPosColor)
self.negColorPulldown = PulldownList(self, callback=self.setNegColor)
headings = ['Spectrum', 'Pos. Contours\nDrawn', 'Neg. Contours\nDrawn', 'Positive\nColours', 'Negative\nColours']
tipTexts = ['Spectrum in window', 'Whether the positive contours should be drawn', 'Whether the negative contours should be drawn',
'Colour scheme for positive contours (can be a single colour)', 'Colour scheme for negative contours (can be a single colour)']
editWidgets = [ None, None, None, self.posColorPulldown, self.negColorPulldown]
editGetCallbacks = [ None, self.togglePos, self.toggleNeg, self.getPosColor, self.getNegColor]
editSetCallbacks = [ None, None, None, self.setPosColor, self.setNegColor]
self.spectrumTable = ScrolledMatrix(frame, headingList=headings,
tipTexts=tipTexts,
multiSelect=True,
editWidgets=editWidgets,
editGetCallbacks=editGetCallbacks,
editSetCallbacks=editSetCallbacks,
grid=(1,0), gridSpan=(1,2))
peakListFrame.expandGrid(0, 0)
frame = Frame(peakListFrame, grid=(0,0), gridSpan=(1,3))
frame.expandGrid(1,0)
self.overridePeakList = CheckButton(frame,
text='Use below settings when printing',
tipText='Use below settings when printing instead of the window values',
grid=(0,0))
tipText = 'Change the settings of the selected peak lists back to their window values'
button = Button(frame, text='Reset Selected', tipText=tipText,
command=self.resetSelected, grid=(0,1), sticky='e')
colors = Color.standardColors
self.peakColorPulldown = PulldownList(self, callback=self.setPeakColor,
texts=[c.name for c in colors],
objects=[c.hex for c in colors],
colors=[c.hex for c in colors])
headings = [ 'Peak List', 'Symbols Drawn', 'Peak Font', 'Peak Colour']
self.fontMenu = FontList(self, mode='Print', extraTexts=[no_peak_text])
editWidgets = [ None, None, self.fontMenu, self.peakColorPulldown]
editGetCallbacks = [ None, self.togglePeaks, self.getPeakFont, self.getPeakColor ]
editSetCallbacks = [ None, None, self.setPeakFont, self.setPeakColor ]
self.peakListTable = ScrolledMatrix(frame, headingList=headings,
multiSelect=True,
editWidgets=editWidgets,
editGetCallbacks=editGetCallbacks,
editSetCallbacks=editSetCallbacks,
grid=(1,0), gridSpan=(1,2))
regionFrame.expandGrid(0, 0)
frame = Frame(regionFrame, grid=(0,0), gridSpan=(1,3))
frame.expandGrid(3,0)
tipText = 'Use the specified override region when printing rather than the window values'
self.overrideButton = CheckButton(frame, text='Use override region when printing',
tipText=tipText,
callback=self.toggledOverride, grid=(0,0))
tipTexts = ('Use min and max to specify override region', 'Use center and width to specify override region')
self.use_entry = USE_ENTRIES[0]
self.useButtons = RadioButtons(frame, entries=USE_ENTRIES,
tipTexts=tipTexts,
select_callback=self.changedUseEntry,
grid=(1,0))
texts = ('Set Region from Window', 'Set Center from Window', 'Set Width from Window')
tipTexts = ('Set the override region to be the current window region',
'Set the center of the override region to be the center of the current window region',
'Set the width of the override region to be the width of the current window region')
commands = (self.setRegionFromWindow, self.setCenterFromWindow, self.setWidthFromWindow)
self.setRegionButton = ButtonList(frame, texts=texts,
tipTexts=tipTexts,
commands=commands, grid=(2,0))
self.minRegionWidget = FloatEntry(self, returnCallback=self.setMinRegion, width=10)
self.maxRegionWidget = FloatEntry(self, returnCallback=self.setMaxRegion, width=10)
headings = MIN_MAX_HEADINGS
editWidgets = [ None, None, self.minRegionWidget, self.maxRegionWidget ]
editGetCallbacks = [ None, None, self.getMinRegion, self.getMaxRegion ]
editSetCallbacks = [ None, None, self.setMinRegion, self.setMaxRegion ]
self.regionTable = RegionScrolledMatrix(frame, headingList=headings,
editWidgets=editWidgets,
editGetCallbacks=editGetCallbacks,
editSetCallbacks=editSetCallbacks,
grid=(3,0))
self.updateWindows()
self.updateAfter()
self.administerNotifiers(self.registerNotify)