class MainWidget(QWidget):
def __init__(self):
QWidget.__init__(self)
# define periodic table widget for element selection
self.periodicTableWidget = widgets.PeriodicTableDialog()
# initial molecule Zmatrix (can be empty)
# self.inp = []
self.inp = [['H'],
['O', 1, 0.9],
['O', 2, 1.4, 1, 105.],
['H', 3, 0.9, 2, 105., 1, 120.]]
self.atomList = []
self.highList = []
self.labelList = []
self.fast = False
# define & initialize ZMatModel that will contain Zmatrix data
self.ZMatModel = QStandardItemModel(len(self.inp), 7, self)
self.ZMatTable = QTableView(self)
self.ZMatTable.setModel(self.ZMatModel)
self.ZMatTable.setFixedWidth(325)
#self.ZMatTable.installEventFilter(self)
#self.ZMatModel.installEventFilter(self)
self.ZMatModel.setHorizontalHeaderLabels(['atom','','bond','','angle','','dihedral'])
for j, width in enumerate([40, 22, 65, 22, 65, 22, 65]):
self.ZMatTable.setColumnWidth(j, width)
# populate the ZMatModel
self.populateZMatModel()
#define Menu bar menus and their actions
self.menuBar = QMenuBar(self)
fileMenu = self.menuBar.addMenu('&File')
editMenu = self.menuBar.addMenu('&Edit')
viewMenu = self.menuBar.addMenu('&View')
measureMenu = self.menuBar.addMenu('&Measure')
helpMenu = self.menuBar.addMenu('&Help')
readZmatAction = QAction('&Read &ZMat', self)
readZmatAction.setShortcut('Ctrl+O')
readZmatAction.setStatusTip('Read Zmat from file')
readZmatAction.triggered.connect(self.readZmat)
fileMenu.addAction(readZmatAction)
readXYZAction = QAction('&Read &XYZ', self)
readXYZAction.setShortcut('Ctrl+Shift+O')
readXYZAction.setStatusTip('Read XYZ from file')
readXYZAction.triggered.connect(self.readXYZ)
fileMenu.addAction(readXYZAction)
readGaussianAction = QAction('&Read &Gaussian log', self)
readGaussianAction.setShortcut('Ctrl+G')
readGaussianAction.setStatusTip('Read Gaussian log file')
readGaussianAction.triggered.connect(self.readGaussian)
fileMenu.addAction(readGaussianAction)
writeZmatAction = QAction('&Write &ZMat', self)
writeZmatAction.setShortcut('Ctrl+S')
writeZmatAction.setStatusTip('Write Zmat to file')
writeZmatAction.triggered.connect(self.writeZmat)
fileMenu.addAction(writeZmatAction)
writeXYZAction = QAction('&Write &XYZ', self)
writeXYZAction.setShortcut('Ctrl+Shift+S')
writeXYZAction.setStatusTip('Write XYZ from file')
writeXYZAction.triggered.connect(self.writeXYZ)
fileMenu.addAction(writeXYZAction)
exitAction = QAction('&Exit', self)
exitAction.setShortcut('Ctrl+Q')
exitAction.setStatusTip('Exit application')
exitAction.triggered.connect(qApp.quit)
fileMenu.addAction(exitAction)
addRowAction = QAction('&Add &row', self)
addRowAction.setShortcut('Ctrl+R')
addRowAction.setStatusTip('Add row to ZMatrix')
addRowAction.triggered.connect(self.addRow)
editMenu.addAction(addRowAction)
deleteRowAction = QAction('&Delete &row', self)
deleteRowAction.setShortcut('Ctrl+Shift+R')
deleteRowAction.setStatusTip('Delete row from ZMatrix')
deleteRowAction.triggered.connect(self.deleteRow)
editMenu.addAction(deleteRowAction)
addAtomAction = QAction('&Add &atom', self)
addAtomAction.setShortcut('Ctrl+A')
addAtomAction.setStatusTip('Add atom to ZMatrix')
addAtomAction.triggered.connect(self.buildB)
editMenu.addAction(addAtomAction)
drawModeMenu = QMenu('Draw mode', self)
viewMenu.addMenu(drawModeMenu)
fastDrawAction = QAction('&Fast draw', self)
fastDrawAction.triggered.connect(self.fastDraw)
normalDrawAction = QAction('&Normal draw', self)
normalDrawAction.triggered.connect(self.normalDraw)
drawModeMenu.addAction(normalDrawAction)
drawModeMenu.addAction(fastDrawAction)
clearHighlightsAction = QAction('&Clear selection', self)
clearHighlightsAction.setShortcut('Ctrl+C')
clearHighlightsAction.setStatusTip('Clear highlighted atoms')
clearHighlightsAction.triggered.connect(self.clearHighlights)
viewMenu.addAction(clearHighlightsAction)
clearLabelsAction = QAction('&Clear labels', self)
clearLabelsAction.setShortcut('Ctrl+Alt+C')
clearLabelsAction.setStatusTip('Clear labels')
clearLabelsAction.triggered.connect(self.clearLabels)
viewMenu.addAction(clearLabelsAction)
clearUpdateViewAction = QAction('&Clear selection and labels', self)
clearUpdateViewAction.setShortcut('Ctrl+Shift+C')
clearUpdateViewAction.setStatusTip('Clear highlighted atoms and labels')
clearUpdateViewAction.triggered.connect(self.clearUpdateView)
viewMenu.addAction(clearUpdateViewAction)
self.showGaussAction = QAction('Show &Gaussian geometry optimization', self)
self.showGaussAction.setShortcut('Ctrl+G')
self.showGaussAction.setStatusTip('Show Gaussian geometry optimization plots for energy, force and displacement.')
self.showGaussAction.setEnabled(False)
self.showGaussAction.triggered.connect(self.showGauss)
viewMenu.addAction(self.showGaussAction)
self.showFreqAction = QAction('Show &IR frequency plot', self)
self.showFreqAction.setShortcut('Ctrl+I')
self.showFreqAction.setStatusTip('Show Gaussian calculated IR frequency plot.')
self.showFreqAction.setEnabled(False)
self.showFreqAction.triggered.connect(self.showFreq)
viewMenu.addAction(self.showFreqAction)
measureDistanceAction = QAction('&Measure &distance', self)
measureDistanceAction.setShortcut('Ctrl+D')
measureDistanceAction.setStatusTip('Measure distance between two atoms')
measureDistanceAction.triggered.connect(self.measureDistanceB)
measureMenu.addAction(measureDistanceAction)
measureAngleAction = QAction('&Measure &angle', self)
measureAngleAction.setShortcut('Ctrl+Shift+D')
measureAngleAction.setStatusTip('Measure angle between three atoms')
measureAngleAction.triggered.connect(self.measureAngleB)
measureMenu.addAction(measureAngleAction)
aboutAction = QAction('&About', self)
aboutAction.setStatusTip('About this program...')
aboutAction.triggered.connect(self.about)
helpMenu.addAction(aboutAction)
aboutQtAction = QAction('&About Qt', self)
aboutQtAction.setStatusTip('About Qt...')
aboutQtAction.triggered.connect(self.aboutQt)
helpMenu.addAction(aboutQtAction)
# define GL widget that displays the 3D molecule model
self.window = widgets.MyGLView()
self.window.installEventFilter(self)
self.window.setMinimumSize(500, 500)
#self.window.setBackgroundColor((50, 0, 10))
self.updateView()
self.gaussianPlot = GraphicsLayoutWidget()
self.gaussianPlot.resize(750, 250)
self.gaussianPlot.setWindowTitle('Gaussian geometry optimization')
#self.gaussianPlot.setAspectLocked(True)
#self.gaussianPlot.addLayout(rowspan=3, colspan=1)
self.FreqModel = QStandardItemModel(1, 3, self)
self.freqTable = QTableView(self)
self.freqTable.setModel(self.FreqModel)
self.freqTable.setMinimumWidth(240)
self.freqTable.installEventFilter(self)
self.FreqModel.installEventFilter(self)
self.FreqModel.setHorizontalHeaderLabels(['Frequency','IR Intensity','Raman Intensity'])
for j, width in enumerate([80, 80, 80]):
self.freqTable.setColumnWidth(j, width)
self.freqWidget = QWidget()
self.freqWidget.setWindowTitle('IR frequency plot & table')
self.freqWidget.resize(800, 400)
self.freqWidget.layout = QHBoxLayout(self.freqWidget)
self.freqWidget.layout.setSpacing(1)
self.freqWidget.layout.setContentsMargins(1, 1, 1, 1)
self.freqPlot = GraphicsLayoutWidget()
self.freqWidget.layout.addWidget(self.freqPlot)
self.freqWidget.layout.addWidget(self.freqTable)
self.freqTable.clicked.connect(self.freqCellClicked)
# define other application parts
self.statusBar = QStatusBar(self)
self.fileDialog = QFileDialog(self)
# define application layout
self.layout = QVBoxLayout(self)
self.layout.setSpacing(1)
self.layout.setContentsMargins(1, 1, 1, 1)
self.layout1 = QHBoxLayout()
self.layout1.setSpacing(1)
self.layout1.addWidget(self.ZMatTable)
self.layout1.addWidget(self.window)
self.layout.addWidget(self.menuBar)
self.layout.addLayout(self.layout1)
self.layout.addWidget(self.statusBar)
self.adjustSize()
self.setWindowTitle('Moldy')
iconPath = 'icon.png'
icon = QIcon(iconPath)
icon.addFile(iconPath, QSize(16, 16))
icon.addFile(iconPath, QSize(24, 24))
icon.addFile(iconPath, QSize(32, 32))
icon.addFile(iconPath, QSize(48, 48))
icon.addFile(iconPath, QSize(256, 256))
self.setWindowIcon(icon)
# start monitoring changes in the ZMatModel
self.ZMatModel.dataChanged.connect(self.clearUpdateView)
# run and show the application
def run(self):
self.show()
self.ZMatTable.clicked.connect(self.ZMatCellClicked)
qt_app.instance().aboutToQuit.connect(self.deleteGLwidget)
qt_app.exec_()
# fill the ZMatModel with initial data from 'self.inp'
def populateZMatModel(self):
self.ZMatModel.removeRows(0, self.ZMatModel.rowCount())
for i, row in enumerate(self.inp):
for j, cell in enumerate(row):
item = QStandardItem(str(cell))
self.ZMatModel.setItem(i, j, item)
# some cells should not be editable, they are disabled
for i in range(min(len(self.inp), 3)):
for j in range(2*i+1, 7):
self.ZMatModel.setItem(i, j, QStandardItem())
self.ZMatModel.item(i, j).setBackground(QColor(150,150,150))
self.ZMatModel.item(i, j).setFlags(Qt.ItemIsEnabled)
def populateFreqModel(self):
self.FreqModel.removeRows(0, self.FreqModel.rowCount())
for i, row in enumerate(zip(self.vibfreqs, self.vibirs, self.vibramans)):
for j, cell in enumerate(row):
item = QStandardItem(str(cell))
self.FreqModel.setItem(i, j, item)
# add a row to the bottom of the ZMatModel
def addRow(self):
# temporarily stop updating the GL window
self.ZMatModel.dataChanged.disconnect(self.clearUpdateView)
row = self.ZMatModel.rowCount()
self.ZMatModel.insertRow(row)
# some cells should not be editable
if row < 3:
for j in range(2*row+1, 7):
self.ZMatModel.setItem(row, j, QStandardItem())
self.ZMatModel.item(row, j).setBackground(QColor(150,150,150))
self.ZMatModel.item(row, j).setFlags(Qt.ItemIsEnabled)
# restart GL window updating
self.ZMatModel.dataChanged.connect(self.clearUpdateView)
self.statusBar.clearMessage()
self.statusBar.showMessage('Added 1 row.', 3000)
# delete the last row of the ZMatModel
def deleteRow(self):
xyz = [list(vi) for vi in list(v)]
atoms = [str(elements[e]) for e in elems]
oldLen = self.ZMatModel.rowCount()
idxs = sorted(set(idx.row() for idx in self.ZMatTable.selectedIndexes()), reverse=True)
newLen = oldLen - len(idxs)
if newLen == oldLen:
self.ZMatModel.removeRow(self.ZMatModel.rowCount()-1)
else:
self.ZMatModel.dataChanged.disconnect(self.clearUpdateView)
for idx in idxs:
self.ZMatModel.removeRow(idx)
if idx < 3:
for i in range(idx, min(3, newLen)):
for j in range(2*i+1, 7):
self.ZMatModel.setItem(i, j, QStandardItem())
self.ZMatModel.item(i, j).setBackground(QColor(150,150,150))
self.ZMatModel.item(i, j).setFlags(Qt.ItemIsEnabled)
if len(xyz) > idx:
xyz.pop(idx)
atoms.pop(idx)
self.inp = xyz2zmat(xyz, atoms)
self.populateZMatModel()
for i in reversed(self.highList):
self.window.removeItem(i[1])
self.highList = []
self.ZMatModel.dataChanged.connect(self.clearUpdateView)
self.updateView()
self.statusBar.clearMessage()
if idxs:
self.statusBar.showMessage('Deleted row(s): '+str([i+1 for i in idxs]), 3000)
else:
self.statusBar.showMessage('Deleted last row.', 3000)
# show the periodic table widget
def periodicTable(self):
self.statusBar.clearMessage()
self.statusBar.showMessage('Select element from periodic table.')
self.periodicTableWidget.exec_()
selection = self.periodicTableWidget.selection()
return selection
# import molecule with zmatrix coordinates
def readZmat(self):
self.ZMatModel.dataChanged.disconnect(self.clearUpdateView)
filename = self.fileDialog.getOpenFileName(self, 'Open file', expanduser('~'), '*.zmat;;*.*')
self.inp = []
self.populateZMatModel()
if filename:
with open(filename, 'r') as f:
next(f)
next(f)
for row in f:
self.inp.append(row.split())
f.close()
self.populateZMatModel()
self.ZMatModel.dataChanged.connect(self.clearUpdateView)
self.updateView()
self.statusBar.clearMessage()
self.statusBar.showMessage('Read molecule from '+filename+'.', 5000)
self.showGaussAction.setEnabled(False)
self.showFreqAction.setEnabled(False)
# import molecule with xyz coordinates
def readXYZ(self):
self.ZMatModel.dataChanged.disconnect(self.clearUpdateView)
filename = self.fileDialog.getOpenFileName(self, 'Open file', expanduser('~'), '*.xyz;;*.*')
xyz = []
elems = []
self.inp = []
self.populateZMatModel()
if filename:
with open(filename, 'r') as f:
next(f)
next(f)
for row in f:
rs = row.split()
if len(rs) == 4:
elems.append(rs[0])
xyz.append([float(f) for f in rs[1:]])
f.close()
self.inp = xyz2zmat(xyz, elems)
self.populateZMatModel()
#print(elems)
self.ZMatModel.dataChanged.connect(self.clearUpdateView)
self.updateView()
self.statusBar.clearMessage()
self.statusBar.showMessage('Read molecule from '+filename+'.', 5000)
self.showGaussAction.setEnabled(False)
self.showFreqAction.setEnabled(False)
# import Gaussian log file
def readGaussian(self):
global vsShifted
self.ZMatModel.dataChanged.disconnect(self.clearUpdateView)
filename = self.fileDialog.getOpenFileName(self, 'Open file', expanduser('~'), '*.log;;*.*')
if filename:
self.gaussianPlot.clear()
self.inp = []
self.populateZMatModel()
file = ccopen(filename)
data = file.parse().getattributes()
self.natom = data['natom']
self.atomnos = data['atomnos'].tolist()
self.atomsymbols = [ str(elements[e]) for e in self.atomnos ]
self.atomcoords = data['atomcoords'].tolist()
self.scfenergies = data['scfenergies'].tolist()
self.geovalues = data['geovalues'].T.tolist()
self.geotargets = data['geotargets'].tolist()
if 'vibfreqs' in data.keys():
self.vibfreqs = data['vibfreqs']
#print(self.vibfreqs)
self.vibirs = data['vibirs']
#print(self.vibirs)
#print(data.keys())
if 'vibramans' in data.keys():
self.vibramans = data['vibramans']
else:
self.vibramans = [''] * len(self.vibirs)
self.vibdisps = data['vibdisps']
#print(self.vibdisps)
self.inp = xyz2zmat(self.atomcoords[0], self.atomsymbols)
self.populateZMatModel()
titles = ['SCF Energies', 'RMS & Max Forces', 'RMS & Max Displacements']
for i in range(3):
self.gaussianPlot.addPlot(row=1, col=i+1)
plot = self.gaussianPlot.getItem(1, i+1)
plot.setTitle(title=titles[i])
if i == 0:
c = ['c']
x = [0]
y = [self.scfenergies]
else:
c = ['r', 'y']
x = [0, 0]
y = [self.geovalues[2*i-2], self.geovalues[2*i-1]]
targety = [self.geotargets[2*i-2], self.geotargets[2*i-1]]
plot.clear()
plot.maxData = plot.plot(y[0], symbol='o', symbolPen=c[0], symbolBrush=c[0], pen=c[0], symbolSize=5, pxMode=True, antialias=True, autoDownsample=False)
plot.highlight=plot.plot(x, [ yy[0] for yy in y ], symbol='o', symbolPen='w', symbolBrush=None, pen=None, symbolSize=15, pxMode=True, antialias=True, autoDownsample=False)
plot.maxData.sigPointsClicked.connect(self.gausclicked)
if i > 0:
for j in range(2):
plot.addLine(y=np.log10(targety[j]), pen=mkPen((255, 255*j, 0, int(255/2)), width=1))
plot.RMSData=plot.plot(y[1], symbol='o', symbolPen=c[1], symbolBrush=c[1], pen=c[1], symbolSize=5, pxMode=True, antialias=True, autoDownsample=False)
plot.RMSData.sigPointsClicked.connect(self.gausclicked)
plot.setLogMode(y=True)
self.showGauss()
self.updateView()
self.statusBar.clearMessage()
self.statusBar.showMessage('Read molecule from '+filename+'.', 5000)
self.ZMatModel.dataChanged.connect(self.clearUpdateView)
if self.natom:
self.showGaussAction.setEnabled(True)
if 'vibfreqs' in data.keys():
self.showFreqAction.setEnabled(True)
# populate the FreqModel
self.populateFreqModel()
self.freqPlot.clear()
irPlot = self.freqPlot.addPlot(row=1, col=1)
irPlot.clear()
minFreq = np.min(self.vibfreqs)
maxFreq = np.max(self.vibfreqs)
maxInt = np.max(self.vibirs)
x = np.sort(np.concatenate([np.linspace(minFreq-100, maxFreq+100, num=1000), self.vibfreqs]))
y = x*0
for f,i in zip(self.vibfreqs, self.vibirs):
y += lorentzv(x, f, 2*np.pi, i)
#xy = np.array([np.concatenate([x, np.array(self.vibfreqs)]), np.concatenate([y, np.array(self.vibirs)])]).T
#xysort = xy[xy[:,0].argsort()]
irPlot.maxData = irPlot.plot(x, y, antialias=True)
markers = ErrorBarItem(x=self.vibfreqs, y=self.vibirs, top=maxInt/30, bottom=None, pen='r')
irPlot.addItem(markers)
self.showFreq()
#self.vibdisps = np.append(self.vibdisps, [np.mean(self.vibdisps, axis=0)], axis=0)
maxt = 100
vsShifted = np.array([ [ vs + self.vibdisps[i]*np.sin(t*2*np.pi/maxt)/3 for t in range(maxt) ] for i in range(len(self.vibfreqs)) ])
else:
self.showFreqAction.setEnabled(False)
self.freqWidget.hide()
def showGauss(self):
self.gaussianPlot.show()
def showFreq(self):
self.freqWidget.show()
# export Zmatrix to csv
def writeZmat(self):
zm = model2list(self.ZMatModel)
filename = self.fileDialog.getSaveFileName(self, 'Save file', expanduser('~')+'/'+getFormula(list(list(zip(*zm))[0]))+'.zmat', '*.zmat;;*.*')
try:
filename
except NameError:
pass
else:
if filename:
writeOutput(zm, filename)
self.statusBar.clearMessage()
self.statusBar.showMessage('Wrote molecule to '+filename+'.', 5000)
# export XYZ coordinates to csv
def writeXYZ(self):
xyz = []
zm = model2list(self.ZMatModel)
for i in range(len(v)):
xyz.append(np.round(v[i], 7).tolist())
xyz[i][:0] = zm[i][0]
if len(v) > 0:
formula = getFormula(list(list(zip(*xyz))[0]))
else:
formula = 'moldy_output'
filename = self.fileDialog.getSaveFileName(self, 'Save file', expanduser('~')+'/'+formula+'.xyz', '*.xyz;;*.*')
try:
filename
except NameError:
pass
else:
if filename:
writeOutput(xyz, filename)
self.statusBar.clearMessage()
self.statusBar.showMessage('Wrote molecule to '+filename+'.', 5000)
# redraw the 3D molecule in GL widget
def updateView(self):
global r
global c
global v
global vs
global elems
global nelems
data = model2list(self.ZMatModel)
try:
# create a list with element coordinates
v = zmat2xyz(data)
except (AssertionError, IndexError, ZMError):
pass
else:
# clear the screen before redraw
for item in reversed(self.window.items):
self.window.removeItem(item)
# create a second coordinate list 'vs' that is centered in the GL view
self.atomList = []
if len(v) > 0:
shift = np.mean(v, axis=0)
vs = np.add(v, -shift)
elems = [ 1 + next((i for i, sublist in enumerate(colors) if row[0] in sublist), -1) for row in data ]
nelems = len(elems)
# define molecule radii and colors
r = []
c = []
for i in elems:
r.append(elements[i].covalent_radius)
c.append(colors[i-1][-1])
# draw atoms
for i in range(nelems):
addAtom(self.window, i, r, vs, c, fast=self.fast)
self.atomList.append([i, self.window.items[-1]])
#print(self.atomList)
# draw bonds where appropriate
combs = list(itertools.combinations(range(nelems), 2))
bonds = []
for i in combs:
bonds.append(addBond(self.window, i[0], i[1], r, vs, c, fast=self.fast))
if self.fast:
bondedAtoms = set(filter((None).__ne__, flatten(bonds)))
for i in set(range(nelems)) - bondedAtoms:
addUnbonded(self.window, i, vs, c)
self.atomList[i][1]=self.window.items[-1]
#print(self.atomList)
for i in self.highList:
self.window.addItem(i[1])
for i in self.labelList:
self.window.addItem(i)
if len(v) > 1:
maxDim = float('-inf')
for dim in v.T:
span = max(dim)-min(dim)
if span > maxDim:
maxDim = span
else: maxDim = 2
self.window.setCameraPosition(distance=maxDim*1.5+1)
global index
index = 0
def updateFreq(self):
global vsShifted, index, r, c
index += 1
index = index % len(vsShifted[0])
#print(index)
#print(vsShifted[index])
for item in reversed(self.window.items):
self.window.removeItem(item)
for i in range(nelems):
addAtom(self.window, i, r, vsShifted[self.freqIndex, index], c, fast=self.fast)
self.atomList.append([i, self.window.items[-1]])
combs = itertools.combinations(range(nelems), 2)
bonds = []
for i in combs:
bonds.append(addBond(self.window, i[0], i[1], r, vsShifted[self.freqIndex, index], c, fast=self.fast))
if self.fast:
bondedAtoms = set(filter((None).__ne__, flatten(bonds)))
for i in set(range(nelems)) - bondedAtoms:
addUnbonded(self.window, i, vsShifted[self.freqIndex, index], c)
self.atomList[i][1]=self.window.items[-1]
# detect mouse clicks in GL window and process them
def eventFilter(self, obj, event):
if obj == self.window:
if event.type() == event.MouseButtonPress:
itms = obj.itemsAt((event.pos().x()-2, event.pos().y()-2, 4, 4))
if len(itms):
self.highlight(obj, [itms[0]])
elif len(self.atomList) == 0:
self.build()
# also do the default click action
return super(MainWidget, self).eventFilter(obj, event)
def ZMatCellClicked(self):
idxs = sorted(set(idx.row() for idx in self.ZMatTable.selectedIndexes()), reverse=True)
itms = []
if self.highList:
highIdx = list(np.array(self.highList).T[0])
for idx in idxs:
if self.highList and idx in highIdx:
itms.append(self.highList[highIdx.index(idx)][1])
elif len(self.atomList) > idx:
itms.append(self.atomList[idx][1])
self.highlight(self.window, itms)
def freqCellClicked(self):
global vsShifted
self.timer = QTimer()
self.timer.setInterval(30)
self.timer.timeout.connect(self.updateFreq)
idxs = [ idx.row() for idx in self.freqTable.selectedIndexes() ]
if len(idxs) == 1:
self.freqIndex = idxs[0]
self.timer.stop()
self.timer.timeout.connect(self.updateFreq)
try:
self.ZMatModel.dataChanged.disconnect(self.clearUpdateView)
except TypeError:
pass
self.timer.start()
if len(idxs) != 1:
self.timer.stop()
self.freqTable.clearSelection()
self.timer.timeout.disconnect(self.updateFreq)
self.ZMatModel.dataChanged.connect(self.clearUpdateView)
self.clearUpdateView()
def gausclicked(self, item, point):
itemdata = item.scatter.data
points = [ row[7] for row in itemdata ]
idx = points.index(point[0])
for i in range(3):
if i == 0:
x = [idx]
y = [self.scfenergies[idx]]
else:
x = [idx, idx]
y = [self.geovalues[2*i-2][idx], self.geovalues[2*i-1][idx]]
plot = self.gaussianPlot.getItem(1, i+1)
plot.removeItem(plot.highlight)
plot.highlight=plot.plot(x, y, symbol='o', symbolPen='w', symbolBrush=None, pen=None, symbolSize=15, pxMode=True, antialias=True, autoDownsample=False)
self.ZMatModel.dataChanged.disconnect(self.clearUpdateView)
self.inp = []
self.populateZMatModel()
self.inp = xyz2zmat(self.atomcoords[min(idx, len(self.atomcoords)-1)], self.atomsymbols)
self.populateZMatModel()
self.ZMatModel.dataChanged.connect(self.clearUpdateView)
self.updateView()
def highlight(self, obj, itms):
for itm in itms:
idx = next((i for i, sublist in enumerate(self.atomList) if itm in sublist), -1)
#print(idx)
if idx != -1:
addAtom(obj, idx, r, vs, c, opt='highlight', fast=self.fast)
self.highList.append([idx, obj.items[-1]])
self.ZMatTable.selectRow(idx)
idx = next((i for i, sublist in enumerate(self.highList) if itm in sublist), -1)
if idx != -1:
obj.removeItem(self.highList[idx][1])
self.highList.pop(idx)
self.ZMatTable.clearSelection()
self.statusBar.clearMessage()
if len(self.highList) > 0:
idxs = np.asarray(self.highList).T[0]
selected = []
for i in idxs:
selected.append(str(i+1)+str(elements[elems[i]]))
self.statusBar.showMessage('Selected atoms: '+str(selected), 5000)
def buildB(self):
try:
nelems
except NameError:
self.build()
else:
if len(self.highList) <= min(nelems, 3):
diff = min(nelems, 3) - len(self.highList)
if diff != 0:
self.statusBar.clearMessage()
self.statusBar.showMessage('Please select '+str(diff)+' more atom(s).')
else:
self.build()
else:
self.statusBar.clearMessage()
self.statusBar.showMessage('Too many atoms selected.')
def build(self):
selection = self.periodicTable()
row = self.ZMatModel.rowCount()
self.addRow()
self.ZMatModel.dataChanged.disconnect(self.clearUpdateView)
newSymbol = selection[1]
newData = [newSymbol]
if len(self.highList) >= 1:
newBond = round(2.1*gmean([ elements[e].covalent_radius for e in [selection[0], elems[self.highList[0][0]]] ]), 4)
newData.append(self.highList[0][0]+1)
newData.append(newBond)
if len(self.highList) >= 2:
newAngle = 109.4712
newData.append(self.highList[1][0]+1)
newData.append(newAngle)
if len(self.highList) == 3:
newDihedral = 120.
newData.append(self.highList[2][0]+1)
newData.append(newDihedral)
for j, cell in enumerate(newData):
item = QStandardItem(str(cell))
self.ZMatModel.setItem(row, j, item)
self.highList = []
self.ZMatModel.dataChanged.connect(self.clearUpdateView)
self.updateView()
def measureDistanceB(self):
sel = len(self.highList)
if sel <= 2:
if sel < 2:
self.statusBar.clearMessage()
self.statusBar.showMessage('Please select '+str(2-sel)+' more atom(s).')
else:
self.measureDistance()
else:
self.statusBar.clearMessage()
self.statusBar.showMessage('Too many atoms selected.')
def measureDistance(self):
pts = []
for pt in self.highList:
pts.append(vs[pt[0]])
pts = np.array(pts)
self.clearHighlights()
line = gl.GLLinePlotItem(pos=pts, color=(0., 1., 0., 1.), width=3)
self.window.addItem(line)
self.labelList.append(line)
q = pts[1]-pts[0]
dist = round(np.sqrt(np.dot(q, q)), 4)
self.window.labelPos.append(np.mean(pts[0:2], axis=0))
self.window.labelText.append(str(dist))
self.statusBar.clearMessage()
self.statusBar.showMessage('Measured distance: '+str(dist)+' A.', 3000)
def measureAngleB(self):
sel = len(self.highList)
if sel <= 3:
if sel < 3:
self.statusBar.clearMessage()
self.statusBar.showMessage('Please select '+str(3-sel)+' more atom(s).')
else:
self.measureAngle()
else:
self.statusBar.clearMessage()
self.statusBar.showMessage('Too many atoms selected.')
def measureAngle(self):
pts = []
for pt in self.highList:
pts.append(vs[pt[0]])
pts = np.array(pts)
q = pts[1]-pts[0]
r = pts[2]-pts[0]
q_u = q / np.sqrt(np.dot(q, q))
r_u = r / np.sqrt(np.dot(r, r))
angle = round(degrees(acos(np.dot(q_u, r_u))), 1)
srange = np.array([slerp(q, r, t) for t in np.arange(0.0, 13/12, 1/12)])
self.clearHighlights()
for i in range(12):
mesh = gl.MeshData(np.array([[0,0,0],srange[i],srange[i+1]]))
tri = gl.GLMeshItem(meshdata=mesh, smooth=False, computeNormals=False, color=(0.3, 1., 0.3, 0.5), glOptions=('translucent'))
tri.translate(pts[0][0], pts[0][1], pts[0][2])
self.window.addItem(tri)
self.labelList.append(tri)
self.window.labelPos.append(slerp(q, r, 0.5)+pts[0])
self.window.labelText.append(str(angle))
self.statusBar.clearMessage()
self.statusBar.showMessage('Measured angle: '+str(angle)+'°', 3000)
def clearLabels(self):
self.window.labelPos = []
self.window.labelText = []
self.labelList = []
self.updateView()
def clearHighlights(self):
for item in reversed(self.highList):
self.window.removeItem(item[1])
self.highList = []
self.updateView()
def clearUpdateView(self):
self.window.labelPos = []
self.window.labelText = []
self.labelList = []
for item in reversed(self.highList):
self.window.removeItem(item[1])
self.highList = []
self.updateView()
#print(self.highList)
def fastDraw(self):
if not self.fast:
self.fast = True
self.updateView()
def normalDraw(self):
if self.fast:
self.fast = False
self.updateView()
def about(self):
QMessageBox.about(self, 'About moldy', 'moldy beta 15. 9. 2015')
def aboutQt(self):
QMessageBox.aboutQt(self, 'About Qt')
def deleteGLwidget(self):
self.window.setParent(None)
del self.window
class PluginObject(object):
tabName = 'Pass Phrase Finder'
maxVersion = '0.93.99'
#############################################################################
def __init__(self, main):
self.searchThread = None
self.passPhraseFinder = None
self.isSearchOver = False
def updateResults(resultStr):
self.resultStr += resultStr
def updateDisplay():
if len(self.resultStr) > 0:
self.resultsDisplay.append(self.resultStr)
self.resultStr = ''
self.resultsDisplay.moveCursor(QtGui.QTextCursor.End)
self.resultsDisplay.repaint()
if self.isSearchOver:
endSearch()
# Call this from another thread to end the search
def terminateSearch():
self.isSearchOver = True
# Call this from the main thread to end the search
def endSearch():
self.main.extraHeartbeatAlways.remove(updateDisplay)
self.searchButton.setEnabled(True)
self.stopButton.setEnabled(False)
# If the thread is still searching tell the pass phrase finder to stop
if self.passPhraseFinder and self.searchThread and not self.searchThread.isFinished():
self.passPhraseFinder.isStopped = True
def searchForPassphrase():
# Get the selected wallet from the main screen
wlt = self.getSelectedWlt()
if wlt and not wlt.watchingOnly and wlt.isLocked:
self.resultStr = ''
self.passPhraseFinder = PassPhraseFinder(wlt)
self.resultsDisplay.setText(QString(''))
self.main.extraHeartbeatAlways.append(updateDisplay)
if len(self.segOrdStrSet) > 0:
# From self.segOrdStrList, create a list of lists of indexes that describe the segment orderings to search
# In other words convert all of the strings in orderings list to lists of integers
segOrdIntListList = []
for ordStr in self.segOrdStrSet:
# The indexes provided by the users are 1 based, and the list indexes ought to be 0 based
segOrdIntListList.append([int(indexStr)-1 for indexStr in ordStr.split(',')])
self.searchThread = PyBackgroundThread(self.passPhraseFinder.searchForPassPhrase,
[segDef.getSegList() for segDef in self.segDefList],
segOrdIntListList,
updateResults,
terminateSearch )
# Reset the isSearchOver flag
self.isSearchOver = False
self.searchThread.start()
# Disable search button adn enabled stop button
self.stopButton.setEnabled(True)
self.searchButton.setEnabled(False)
else:
QMessageBox.warning(self.main, tr('Invalid'), tr("""
There are no valid segment combinations to search.
Please add at least one segment and ordering to search."""), QMessageBox.Ok)
else:
QMessageBox.warning(self.main, tr('Invalid'), tr("""
No valid wallet is selected. Please select a locked
non-watching-only from Available Wallets."""), QMessageBox.Ok)
def addKnownSegment():
dlgEnterSegment = DlgEnterSegment(main, main)
if dlgEnterSegment.exec_():
segmentText = str(dlgEnterSegment.editSegment.text())
if len(segmentText)>0:
self.segDefList.append(KnownSeg(segmentText))
self.segDefTableModel.updateSegList(self.segDefList)
def addUnknownCaseSegment():
dlgEnterSegment = DlgEnterSegment(main, main)
if dlgEnterSegment.exec_():
segmentText = str(dlgEnterSegment.editSegment.text())
if len(segmentText)>0:
self.segDefList.append(UnknownCaseSeg(segmentText))
self.segDefTableModel.updateSegList(self.segDefList)
def addUnknownOrderSegment():
dlgEnterSegment = DlgEnterSegment(main, main, isUnknownOrder=True)
if dlgEnterSegment.exec_():
segmentText = str(dlgEnterSegment.editSegment.text())
minLen = int(str(dlgEnterSegment.minSelector.currentText()))
maxLen = int(str(dlgEnterSegment.maxSelector.currentText()))
if len(segmentText)>0:
self.segDefList.append(UnknownSeg(segmentText, minLen, maxLen))
self.segDefTableModel.updateSegList(self.segDefList)
def addOrdering():
if len(self.segDefList) > 0:
dlgSpecifyOrdering = DlgSpecifyOrdering(main, main, len(self.segDefList))
if dlgSpecifyOrdering.exec_():
self.segOrdStrSet.add(str(dlgSpecifyOrdering.parseOrderingList()).strip('[]'))
self.updateOrderingListBox()
else:
QMessageBox.warning(self.main, tr('Not Ready'), tr("""
No segments have been entered. You must enter some segments before you can order them."""), QMessageBox.Ok)
self.main = main
self.segDefList = []
self.segOrdStrSet = set()
segmentHeader = QRichLabel(tr("""<b>Build segments for pass phrase search: </b>"""), doWrap=False)
self.knownButton = QPushButton("Add Known Segment")
self.unknownCaseButton = QPushButton("Add Unknown Case Segment")
self.unknownOrderButton = QPushButton("Add Unknown Order Segment")
self.main.connect(self.knownButton, SIGNAL('clicked()'), addKnownSegment)
self.main.connect(self.unknownCaseButton, SIGNAL('clicked()'), addUnknownCaseSegment)
self.main.connect(self.unknownOrderButton, SIGNAL('clicked()'), addUnknownOrderSegment)
topRow = makeHorizFrame([segmentHeader, self.knownButton, self.unknownCaseButton, self.unknownOrderButton, 'stretch'])
self.segDefTableModel = SegDefDisplayModel()
self.segDefTableView = QTableView()
self.segDefTableView.setModel(self.segDefTableModel)
self.segDefTableView.setSelectionBehavior(QTableView.SelectRows)
self.segDefTableView.setSelectionMode(QTableView.SingleSelection)
self.segDefTableView.verticalHeader().setDefaultSectionSize(20)
self.segDefTableView.verticalHeader().hide()
h = tightSizeNChar(self.segDefTableView, 1)[1]
self.segDefTableView.setMinimumHeight(2 * (1.3 * h))
self.segDefTableView.setMaximumHeight(10 * (1.3 * h))
initialColResize(self.segDefTableView, [.1, .2, .4, .1, .1, .1])
self.segDefTableView.customContextMenuRequested.connect(self.showSegContextMenu)
self.segDefTableView.setContextMenuPolicy(Qt.CustomContextMenu)
segmentOrderingsHeader = QRichLabel(tr("""<b>Specify orderings for pass phrase search: </b>"""), doWrap=False)
self.addOrderingButton = QPushButton("Add Ordering")
self.main.connect(self.addOrderingButton, SIGNAL('clicked()'), addOrdering)
orderingButtonPanel = makeHorizFrame([segmentOrderingsHeader, self.addOrderingButton, 'stretch'])
self.segOrdListBox = QListWidget()
self.segOrdListBox.customContextMenuRequested.connect(self.showOrdContextMenu)
self.segOrdListBox.setContextMenuPolicy(Qt.CustomContextMenu)
self.searchButton = QPushButton("Search")
self.main.connect(self.searchButton, SIGNAL('clicked()'), searchForPassphrase)
self.stopButton = QPushButton("Stop Searching")
self.stopButton.setEnabled(False)
self.main.connect(self.stopButton, SIGNAL('clicked()'), endSearch)
totalSearchLabel = QRichLabel(tr("""<b>Total Passphrase Tries To Search: </b>"""), doWrap=False)
self.totalSearchTriesDisplay = QLineEdit()
self.totalSearchTriesDisplay.setReadOnly(True)
self.totalSearchTriesDisplay.setText(QString('0'))
self.totalSearchTriesDisplay.setFont(GETFONT('Fixed'))
self.totalSearchTriesDisplay.setMinimumWidth(tightSizeNChar(self.totalSearchTriesDisplay, 6)[0])
self.totalSearchTriesDisplay.setMaximumWidth(tightSizeNChar(self.totalSearchTriesDisplay, 12)[0])
searchButtonPanel = makeHorizFrame([self.searchButton, self.stopButton, 'stretch', totalSearchLabel, self.totalSearchTriesDisplay])
self.resultsDisplay = QTextEdit()
self.resultsDisplay.setReadOnly(True)
self.resultsDisplay.setFont(GETFONT('Fixed'))
self.resultsDisplay.setMinimumHeight(100)
self.searchPanel = makeVertFrame([topRow, self.segDefTableView, orderingButtonPanel,
self.segOrdListBox, searchButtonPanel, self.resultsDisplay, 'stretch'])
# Now set the scrollarea widget to the layout
self.tabToDisplay = QScrollArea()
self.tabToDisplay.setWidgetResizable(True)
self.tabToDisplay.setWidget(self.searchPanel)
def getSelectedWlt(self):
wlt = None
selectedWltList = self.main.walletsView.selectedIndexes()
if len(selectedWltList)>0:
row = selectedWltList[0].row()
wltID = str(self.main.walletsView.model().index(row, WLTVIEWCOLS.ID).data().toString())
wlt = self.main.walletMap[wltID]
return wlt
def showSegContextMenu(self):
menu = QMenu(self.segDefTableView)
if len(self.segDefTableView.selectedIndexes())==0:
return
row = self.segDefTableView.selectedIndexes()[0].row()
deleteSegMenuItem = menu.addAction("Delete Segment")
action = menu.exec_(QCursor.pos())
if action == deleteSegMenuItem:
self.deleteSegRow(row)
def showOrdContextMenu(self):
menu = QMenu(self.segOrdListBox)
if len(self.segOrdListBox.selectedItems())==0:
return
item = self.segOrdListBox.currentItem()
deleteOrdMenuItem = menu.addAction("Delete Ordering")
action = menu.exec_(QCursor.pos())
if action == deleteOrdMenuItem:
self.deleteOrdItem(item)
def deleteSegRow(self, row):
self.segDefList.remove(self.segDefList[row])
self.segDefTableModel.updateSegList(self.segDefList)
self.segOrdStrSet.clear()
self.updateOrderingListBox()
def deleteOrdItem(self, ordItem):
ordText = str(ordItem.text())
self.segOrdStrSet.remove(ordText)
self.updateOrderingListBox()
def getTabToDisplay(self):
return self.tabToDisplay
def updateOrderingListBox(self):
self.segOrdListBox.clear()
segOrdList = list(self.segOrdStrSet)
segOrdList.sort()
totalTries = 0
for ordStr in segOrdList:
self.segOrdListBox.addItem(QListWidgetItem(ordStr))
totalTries += self.calculateTries(ordStr)
if totalTries > BILLION_INT:
self.totalSearchTriesDisplay.setText(OVER_BILLION_STR)
else:
self.totalSearchTriesDisplay.setText(str(totalTries))
def calculateTries(self, ordStr):
ordIntList = [int(indexStr) for indexStr in ordStr.split(',')]
totalTries = 1
# Multiply each of the totals of segment instance together.
for ordInt in ordIntList:
totalTries *= self.segDefList[ordInt-1].getSegListLen()
return totalTries
