schrodinger.application.matsci.smartsutilsgui module

GUI elements for working with SMARTS patterns

Copyright Schrodinger, LLC. All rights reserved.

class schrodinger.application.matsci.smartsutilsgui.SMARTSNameValidator

Bases: PyQt5.QtGui.QValidator

Ensures that the line edit contains only valid SMARTS name characters

validate(value, position)

See PyQt documentation for arguments and return values

Acceptable = 2

Intermediate = 1

Invalid = 0

class State

Bases: int

__init__(*args, **kwargs)

Initialize self. See help(type(self)) for accurate signature.

blockSignals(self, bool) → bool

changed

changed(self) [signal]

childEvent(self, QChildEvent)

children(self) → List[QObject]

connectNotify(self, QMetaMethod)

customEvent(self, QEvent)

deleteLater(self)

destroyed

destroyed(self, object: QObject = None) [signal]

disconnect(self)

disconnectNotify(self, QMetaMethod)

dumpObjectInfo(self)

dumpObjectTree(self)

dynamicPropertyNames(self) → List[QByteArray]

event(self, QEvent) → bool

eventFilter(self, QObject, QEvent) → bool

findChild(self, type, name: str = '', options: Union[Qt.FindChildOptions, Qt.FindChildOption] = Qt.FindChildrenRecursively) → QObject

findChild(self, Tuple, name: str = ‘’, options: Union[Qt.FindChildOptions, Qt.FindChildOption] = Qt.FindChildrenRecursively) -> QObject

findChildren(self, type, name: str = '', options: Union[Qt.FindChildOptions, Qt.FindChildOption] = Qt.FindChildrenRecursively) → List[QObject]

findChildren(self, Tuple, name: str = ‘’, options: Union[Qt.FindChildOptions, Qt.FindChildOption] = Qt.FindChildrenRecursively) -> List[QObject] findChildren(self, type, QRegExp, options: Union[Qt.FindChildOptions, Qt.FindChildOption] = Qt.FindChildrenRecursively) -> List[QObject] findChildren(self, Tuple, QRegExp, options: Union[Qt.FindChildOptions, Qt.FindChildOption] = Qt.FindChildrenRecursively) -> List[QObject] findChildren(self, type, QRegularExpression, options: Union[Qt.FindChildOptions, Qt.FindChildOption] = Qt.FindChildrenRecursively) -> List[QObject] findChildren(self, Tuple, QRegularExpression, options: Union[Qt.FindChildOptions, Qt.FindChildOption] = Qt.FindChildrenRecursively) -> List[QObject]

fixup(self, str) → str

inherits(self, str) → bool

installEventFilter(self, QObject)

isSignalConnected(self, QMetaMethod) → bool

isWidgetType(self) → bool

isWindowType(self) → bool

killTimer(self, int)

locale(self) → QLocale

metaObject(self) → QMetaObject

moveToThread(self, QThread)

objectName(self) → str

objectNameChanged

objectNameChanged(self, str) [signal]

parent(self) → QObject

property(self, str) → Any

pyqtConfigure(...)

Each keyword argument is either the name of a Qt property or a Qt signal. For properties the property is set to the given value which should be of an appropriate type. For signals the signal is connected to the given value which should be a callable.

receivers(self, PYQT_SIGNAL) → int

removeEventFilter(self, QObject)

sender(self) → QObject

senderSignalIndex(self) → int

setLocale(self, QLocale)

setObjectName(self, str)

setParent(self, QObject)

setProperty(self, str, Any) → bool

signalsBlocked(self) → bool

startTimer(self, int, timerType: Qt.TimerType = Qt.CoarseTimer) → int

staticMetaObject = <PyQt5.QtCore.QMetaObject object>

thread(self) → QThread

timerEvent(self, QTimerEvent)

tr(self, str, disambiguation: str = None, n: int = - 1) → str

schrodinger.application.matsci.smartsutilsgui.getSMARTSFromWS(maestro, warning, smart_edit, canvas_api=False, fall_back=False, check_connectivity=True, allow_intermolecular=False)

Get the SMARTS pattern for the selected atoms in the workspace and insert it into the SMARTS entry

Parameters

• maestro (schrodinger.maestro.maestro) – maestro provides structure and selected atom index

• warning (function) – prints warning message

• smart_edit (schrodinger.ui.qt.swidgets.SMARTSEdit) – setText() sets the name of the smart pattern in GUI

• canvas_api (bool) – whether to use analyze.generate_smarts or analyze.generate_smarts_canvas

• fall_back (bool) – whether to fall back on using analyze.generate_smarts if analyze.generate_smarts_canvas fails, used only if canvas_api is True

• check_connectivity (bool) – If True, check for whether the atoms given are connected and raise a ValueError if they are not. SMARTS generation will give bogus results for unconnected atoms.

• allow_intermolecular (bool) – if check_connectivity is False this controls whether matches must be intramolecular or allowed to be intermolecular