schrodinger.protein.properties module¶

class schrodinger.protein.properties.PropertySource(value)¶

Bases: schrodinger.models.jsonable.JsonableEnum

An enumeration.

Residue = 1¶

Sequence = 2¶

Structure = 3¶

class schrodinger.protein.properties.PropertyType(value)¶

Bases: schrodinger.models.jsonable.JsonableEnum

An enumeration.

Descriptor = 1¶

StructureProperty = 2¶

schrodinger.protein.properties.get_prop_name_to_display_name_map()¶

class schrodinger.protein.properties.SequenceProperty(*args, _param_type=<object object>, **kwargs)¶

Bases: schrodinger.models.parameters.CompoundParam

visible: bool¶

Base class for all Param classes. A Param is a descriptor for storing data, which means that a single Param instance will manage the data values for multiple instances of the class that owns it. Example:

class Coord(CompoundParam):
    x: int
    y: int

An instance of the Coord class can be created normally, and Params can be accessed as normal attributes:

coord = Coord()
coord.x = 4

When a Param value is set, the valueChanged signal is emitted. Params can be serialized and deserialized to and from JSON. Params can also be nested:

class Atom(CompoundParam):
    coord: Coord
    element: str

property_name: str¶

Base class for all Param classes. A Param is a descriptor for storing data, which means that a single Param instance will manage the data values for multiple instances of the class that owns it. Example:

class Coord(CompoundParam):
    x: int
    y: int

An instance of the Coord class can be created normally, and Params can be accessed as normal attributes:

coord = Coord()
coord.x = 4

When a Param value is set, the valueChanged signal is emitted. Params can be serialized and deserialized to and from JSON. Params can also be nested:

class Atom(CompoundParam):
    coord: Coord
    element: str

property_source: schrodinger.protein.properties.PropertySource¶

property_type: schrodinger.protein.properties.PropertyType¶

description: str¶

Base class for all Param classes. A Param is a descriptor for storing data, which means that a single Param instance will manage the data values for multiple instances of the class that owns it. Example:

class Coord(CompoundParam):
    x: int
    y: int

An instance of the Coord class can be created normally, and Params can be accessed as normal attributes:

coord = Coord()
coord.x = 4

When a Param value is set, the valueChanged signal is emitted. Params can be serialized and deserialized to and from JSON. Params can also be nested:

class Atom(CompoundParam):
    coord: Coord
    element: str

display_name: str¶

Base class for all Param classes. A Param is a descriptor for storing data, which means that a single Param instance will manage the data values for multiple instances of the class that owns it. Example:

class Coord(CompoundParam):
    x: int
    y: int

An instance of the Coord class can be created normally, and Params can be accessed as normal attributes:

coord = Coord()
coord.x = 4

When a Param value is set, the valueChanged signal is emitted. Params can be serialized and deserialized to and from JSON. Params can also be nested:

class Atom(CompoundParam):
    coord: Coord
    element: str

__init__(*args, **kwargs)¶

classmethod adapter_50002(json_dict)¶: In 50002 we split the property_source param into two separate property_type and property_source params

DataClass¶

This class can be used to declare a public attribute on a CompoundParam. Declared public attributes can be used without error.

Example usage:

class Coord(CompoundParam):
    x: int
    y: int
    note = NonParamAttribute()

coord = Coord()
coord.note = "hello" # No error

Descriptor = 1¶

Residue = 1¶

Sequence = 2¶

Structure = 3¶

StructureProperty = 2¶

classmethod addSubParam(name, param, update_owner=True)¶

blockSignals(self, b: bool) → bool¶

block_signal_propagation()¶

childEvent(self, a0: QChildEvent)¶

children(self) → List[QObject]¶

classmethod configureParam()¶: Override this class method to set up the abstract param class (e.g. setParamReference on child params.)

connectNotify(self, signal: QMetaMethod)¶

customEvent(self, a0: QEvent)¶

classmethod defaultValue()¶

Returns the default value for this abstract param:

default_atom = Atom.defaultValue()
assert Atom.coord.x == 0

deleteLater(self)¶

descriptionChanged¶

descriptionReplaced¶

destroyed¶: destroyed(self, object: typing.Optional[QObject] = None) [signal]

disconnect(a0: QMetaObject.Connection) → bool¶
disconnect(self) → None

disconnectNotify(self, signal: QMetaMethod)¶

display_nameChanged¶

display_nameReplaced¶

dumpObjectInfo(self)¶

dumpObjectTree(self)¶

dynamicPropertyNames(self) → List[QByteArray]¶

event(self, a0: QEvent) → bool¶

eventFilter(self, a0: QObject, a1: QEvent) → bool¶

findChild(self, type: type, name: str = '', options: Qt.FindChildOption = Qt.FindChildrenRecursively) → QObject¶
findChild(self, types: Tuple, name: str = '', options: Qt.FindChildOption = Qt.FindChildrenRecursively) → QObject

findChildren(self, type: type, name: str = '', options: Qt.FindChildOption = Qt.FindChildrenRecursively) → List[QObject]¶
findChildren(self, types: Tuple, name: str = '', options: Qt.FindChildOption = Qt.FindChildrenRecursively) → List[QObject]
findChildren(self, type: type, re: QRegularExpression, options: Qt.FindChildOption = Qt.FindChildrenRecursively) → List[QObject]
findChildren(self, types: Tuple, re: QRegularExpression, options: Qt.FindChildOption = Qt.FindChildrenRecursively) → List[QObject]

classmethod fromJson(json_obj)¶

A factory method which constructs a new object from a given dict loaded from a json string or file.

Parameters: json_obj (dict) – A json-loaded dictionary to create an object from.
Returns: An instance of this class.
Return type: cls

classmethod fromJsonImplementation(json_dict)¶: Sets the value of this compound param value object from a JSON dict.

Warning

This should never be called directly.

getAbstractParam()¶: Return the corresponding abstract param for this instance.

classmethod getJsonBlacklist()¶

Override to customize what params are serialized.

Implementations should return a list of abstract params that should be omitted from serialization.

..NOTE: Returned abstract params must be direct child params of cls, e.g. cls.name, not cls.coord.x.

classmethod getParamSignal(obj, signal_type='Changed')¶

classmethod getParamValue(obj)¶

Enables access to a param value on a compound param via an abstract param reference:

a = Atom()
assert Atom.coord.x.getParamValue(a) == 0 # ints default to 0
a.coord.x = 3
assert Atom.coord.x.getParamValue(a) == 3

Parameters: param (CompoundParam) – The owner param to get a param value from

classmethod getSubParam(name)¶

Get the value of a subparam using the string name:

c = Coord()
assert c.getSubParam('x') == 0

Note

Using the string name to access params is generally discouraged, but can be useful for serializing/deserializing param data.

Parameters: name (str) – The name of the subparam to get the value for.

classmethod getSubParams()¶: Return a dictionary mapping subparam names to their values.

getTypeHint()¶

get_version()¶: Method to get the version of a particular object. Defaults to the current version of mmshare. This class can be overridden for custom versioning behavior.

inherits(self, classname: str) → bool¶

initAbstract()¶

initConcrete()¶: Override to customize initialization of concrete params.

initializeValue()¶: Override to dynamically set up the default value of the param. Useful for default values that are determined at runtime. This is called any time the param is reset.

installEventFilter(self, a0: QObject)¶

classmethod isAbstract()¶: Whether the param is an “abstract” param.

isDefault()¶: Whether the current value of this instance matches the default value.

isSignalConnected(self, signal: QMetaMethod) → bool¶

isWidgetType(self) → bool¶

isWindowType(self) → bool¶

killTimer(self, id: int)¶

metaObject(self) → QMetaObject¶

moveToThread(self, thread: QThread)¶

objectName(self) → str¶

objectNameChanged¶: objectNameChanged(self, objectName: str) [signal]

classmethod owner()¶

Get the owner of the param:

# Can be called on an abstract param:
assert Coord.x.owner() == Coord

# ...or on an instance of a CompoundParam
a = Atom()
assert a.coord.owner() == a

classmethod ownerChain()¶

Returns a list of param owners starting from the toplevel param and ending with self. Examples:

foo.bar.atom.coord.ownerChain() will return [foo, bar, atom, coord] where every item is a concrete param.

Foo.bar.atom.coord.x.ownerChain() will return [Foo, Foo.bar, Foo.atom.coord, Foo.atom.coord.x] where every item is an abstract params.

classmethod paramName()¶

Get the name of the param:

# Can be called on an abstract param:
print(Coord.x.paramName()) # 'x'

# ...or on an instance of a CompoundParam
a = Atom()
a.coord.paramName() # 'coord'

parent(self) → QObject¶

property(self, name: str) → Any¶

property_nameChanged¶

property_nameReplaced¶

property_sourceChanged¶

property_sourceReplaced¶

property_typeChanged¶

property_typeReplaced¶

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, signal: PYQT_SIGNAL) → int¶

removeEventFilter(self, a0: QObject)¶

reset(*abstract_params)¶

Resets this compound param to its default value:

class Line(CompoundParam):
    start = Coord(x=1, y=2)
    end = Coord(x=4, y=5)
line = Line()
line.start.x = line.end.x = 10
assert line.start.x == line.end.x == 10
line.reset()
assert line.start.x == 1
assert line.end.x == 4

Any number of abstract params may be passed in to perform a partial reset of only the specified params:

line.start.x = line.end.x = 10
line.reset(Line.start.x)  # resets just start.x
assert line.start.x == 1
assert line.end.x == 10

line.reset(Line.end)      # resets the entire end point
assert line.end.x == 4

line.start.y = line.end.y = 10
line.reset(Line.start.y, Line.end.y)  # resets the y-coord of both
assert line.start.y == 2
assert line.end.y == 5

sender(self) → QObject¶

senderSignalIndex(self) → int¶

setObjectName(self, name: str)¶

classmethod setParamValue(obj, value)¶

Set the value of a param on an object by specifying the instance and the value:

# Setting the param value of a basic param
a = Atom()
Atom.coord.x.setParamValue(a, 5)
assert a.coord.x == 5

# setParamValue can also be used to set the value of CompoundParams
c = Coord()
c.x = 10
atom.coord.setParamValue(a, c)
assert atom.coord.x == 10

Parameters

param – The owner param to set a subparam value of.
value – The value to set the subparam value to.

setParent(self, a0: QObject)¶

setProperty(self, name: str, value: Any) → bool¶

classmethod setReference(param1, param2)¶

Call this class method from configureParam to indicate that two params should be kept in sync. The initial values will start with the default value of param1. Example:

class Square(CompoundParam):
    width: float = 5
    height: float = 10

    @classmethod
    def configureParam(cls):
        super().configureParam()
        cls.setReference(cls.width, cls.height)

square = Square()
assert square.width == square.height == 5 # Default value of width
                                          # takes priority
square.height = 7
assert square.width == square.height == 7
square.width = 6
assert square.width == square.height == 6

Parameters

param1 – The first abstract param to keep synced
param2 – The second abstract param. After instantiation, this param will take on the value of param1.

setValue(value=None, **kwargs)¶

Set the value of this CompoundParam to match value.

Parameters

value – The value to set this CompoundParam to. It should be the same type as this CompoundParam.
kwargs – For internal use only.

signalsBlocked(self) → bool¶

skip_eq_check()¶

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

staticMetaObject = <PyQt6.QtCore.QMetaObject object>¶

thread(self) → QThread¶

timerEvent(self, a0: QTimerEvent)¶

toDict()¶

Return a dictionary version of this CompoundParam. The returned dictionary is fully nested and contains no CompoundParam instances

a = Atom()
a_dict = a.toDict()
assert a_dict['coord']['x'] == 0
assert a_dict['coord'] == {'x':0, 'y':0}

toJson(_mark_version=True)¶

Create and returns a data structure made up of jsonable items.

Return type: An instance of one the classes from NATIVE_JSON_DATATYPES

toJsonImplementation()¶: Returns a JSON representation of this value object.

Warning

This should never be called directly.

tr(sourceText: str, disambiguation: typing.Optional[str] = None, n: int = - 1) → str¶

valueChanged¶

visibleChanged¶

visibleReplaced¶

schrodinger.protein.properties.get_CA_atom_props(aln)¶

Get the CA atom properties of each structured residues in the alignment.

Parameters: aln (schrodinger.protein.alignment.BaseAlignment) – The alignment to use.
Returns: list of sequence property object.
Return type: List[properties.SequenceProperty]