Chemical Data Processing Library Python API - Version 1.1.1
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Public Member Functions | |
None | __init__ (float alpha=0.95, float beta=0.05) |
Initializes the ShapeTverskyScore instance. More... | |
None | __init__ (ShapeTverskyScore score) |
Initializes a copy of the ShapeTverskyScore instance score. More... | |
int | getObjectID () |
Returns the numeric identifier (ID) of the wrapped C++ class instance. More... | |
ShapeTverskyScore | assign (ShapeTverskyScore score) |
Replaces the current state of self with a copy of the state of the ShapeTverskyScore instance score. More... | |
float | __call__ (AlignmentResult res) |
Properties | |
objectID = property(getObjectID) | |
None CDPL.Shape.ShapeTverskyScore.__init__ | ( | float | alpha = 0.95 , |
float | beta = 0.05 |
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) |
Initializes the ShapeTverskyScore instance.
alpha | |
beta |
None CDPL.Shape.ShapeTverskyScore.__init__ | ( | ShapeTverskyScore | score | ) |
Initializes a copy of the ShapeTverskyScore instance score.
score | The ShapeTverskyScore instance to copy. |
int CDPL.Shape.ShapeTverskyScore.getObjectID | ( | ) |
Returns the numeric identifier (ID) of the wrapped C++ class instance.
Different Python ShapeTverskyScore instances may reference the same underlying C++ class instance. The commonly used Python expression a is not b
thus cannot tell reliably whether the two ShapeTverskyScore instances a and b reference different C++ objects. The numeric identifier returned by this method allows to correctly implement such an identity test via the simple expression a.getObjectID() != b.getObjectID()
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ShapeTverskyScore CDPL.Shape.ShapeTverskyScore.assign | ( | ShapeTverskyScore | score | ) |
Replaces the current state of self with a copy of the state of the ShapeTverskyScore instance score.
score | The ShapeTverskyScore instance to copy. |
float CDPL.Shape.ShapeTverskyScore.__call__ | ( | AlignmentResult | res | ) |
res |