schrodinger.ui.qt.fp_selector_widget module¶

Widget for selecting fingerprint types.

Copyright Schrodinger LLC, All Rights Reserved.

class schrodinger.ui.qt.fp_selector_widget.FingerprintsModel(*args, _param_type=<object object>, **kwargs)¶

Bases: schrodinger.models.parameters.CompoundParam

Model used by fingerprints selector widget.

use_fp¶

fp_type¶

fp_typeChanged¶

pyqtSignal(*types, name: str = …, revision: int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

fp_typeReplaced¶

pyqtSignal(*types, name: str = …, revision: int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

use_fpChanged¶

pyqtSignal(*types, name: str = …, revision: int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

use_fpReplaced¶

pyqtSignal(*types, name: str = …, revision: int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

class schrodinger.ui.qt.fp_selector_widget.FingerprintsPopUp(parent)¶

Bases: schrodinger.ui.qt.pop_up_widgets.PopUp

The pop up window that shows available fingerprint types.

fingerprintChanged¶

pyqtSignal(*types, name: str = …, revision: int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

setup()¶: Subclass-specific initialization. Subclasses must implement this function.

getFingerprint()¶

Returns selected fingerprint type or None if no type is selected.

Returns: FP type
Return type: str or None

setFingerprint(fp_type)¶

Sets fingerprint type to be selected.

Parameters: fp_type (str) – FP type

class schrodinger.ui.qt.fp_selector_widget.FingerprintsSelectorWidget(*args, **kwargs)¶

Bases: schrodinger.models.mappers.MapperMixin, schrodinger.ui.qt.basewidgets.BaseWidget

A widget for selecting fingerprint types.

model_class¶: alias of schrodinger.ui.qt.fp_selector_widget.FingerprintsModel

ui_module = <module 'schrodinger.ui.qt.fp_selector_widget_ui' from '/scr/buildbot/savedbuilds/2024-2/NB/build-134/internal/lib/python3.11/site-packages/schrodinger/ui/qt/fp_selector_widget_ui.py'>¶

initSetUp()¶

Creates widget from ui and stores it ui_widget.

Suggested subclass use: create and initialize subwidgets, and connect signals.

defineMappings()¶

Override this in the subclass to define mappings. Should return a list of tuples [(<target>, <param>)]. Targets can be:

a basic widget, like QLineEdit or QComboBox

a custom object that inherits MapperMixin or TargetMixin

a TargetSpec instance

a slot

For common widgets, standard signals and getter/setter methods will be used, as defined in mappers._get_default_access_names().

For more fine-grained custom control, instantiate a TargetSpec object, which allows custom setters, getters, and signals to be specified.

Supplying a slot as the first element of the tuple is equivalent to providing TargetSpec(slot=my_slot).

Note that all target slots are triggered on setModel() as well as in response to the specified signal.

The param is an abstract param reference, e.g. MyModel.my_param.

Example:

def defineMappings(self):
    combo = self.style_combo
    return [(self.name_le, MyModel.name),
            (TargetSpec(combo,
                    getter=combo.currentText,
                    setter=combo.setCurrentText), MyModel.style),
            (self.coord_widget, MyModel.coord),
            (self._onASLTextChanged, MyModel.asl_text)]