I'm using an object-oriented approach with inheritance to solve a problem, and I'm wondering how to apply 'Duck Typing' principles to this problem.
I have a class
BoxOfShapes which would be instantiated with a list of
import numpy as np class Shape(object): def __init__(self,area): self.area = area; def dimStr(self): return 'area: %s' % str(self.area) def __repr__(self): return '%s, %s' % (self.__class__.__name__, self.dimStr()) + ';' class Circle(Shape): def __init__(self,radius): self.radius = radius def dimStr(self): return 'radius %s' % str(self.radius) class Rectangle(Shape): def __init__(self, width, height): self.width = width self.height = height def dimStr(self): return '%s x %s' % (str(self.width), str(self.height)) class Square(Rectangle): def __init__(self, side): self.width = side self.height = side class BoxOfShapes(object): def __init__(self, elements): self.elements = elements def __repr__(self): pass listOfShapes = [Rectangle(10,13),Rectangle(9,5),Circle(12),Circle(8),Circle(36),Square(10)] myBox = BoxOfShapes(listOfShapes) print myBox
So lets look at the
__repr__() method of
BoxOfShapes. From what I understand, a duck-typing implementation would be something like,
def __repr__(self): return str(self.elements)
because this says 'I don't care what elements I have as long as they implement
__repr__(). The output of this is
>>> print myBox [Rectangle, 10 x 13;, Rectangle, 9 x 5;, Circle, radius 12;, Circle, radius 8;, Circle, radius 36;, Square, 10 x 10;]
Lets say I want a more human-readable output from
BoxOfShapes - I know all the shapes are of certain types, so it would be nice to categorize, them like so:
def __repr__(self): circles = [ el.dimStr() for el in self.elements if isinstance(el, Circle)] squares = [ el.dimStr() for el in self.elements if isinstance(el, Square)] rectangles = [el.dimStr() for el in self.elements if (isinstance(el, Rectangle) and not isinstance(el, Square)) ] return 'Box of Shapes; Circles: %s, Squares: %s, Rectangles: %s;' % ( str(circles), str(squares), str(rectangles))
The output of this is,
>>> print myBox Box of Shapes; Circles: ['radius 12', 'radius 8', 'radius 36'], Squares: ['10 x 10'], Rectangles: ['10 x 13', '9 x 5'];
which is easier to read, but I am no longer using duck-typing and now I have to change my definition of
BoxOfShapes any time I think up a new kind of shape.
My question is (how) would one apply duck-typing in this kind of scenario?