Let's say I made an integer wrapper class in Python, like Java has. Most of the methods would be pretty trivial. But the __ eq __ overload (the equality test) poses a fun puzzle: consider the following method
def __eq__( self, other ): return self.value == int(other)
- The Integer Wrapper has one field, "value," which is an integer
- The method __ trunc __ returns the field "value" so that int( Integer(x) ) = x
- The constructor for Integer truncates "value" to an integer; Integer(3.1)=Integer(3)
Rules for the Method
- Integer(x) == Integer(x) must return true for all integers x
- Integer(x) == x must return true for all integers x
- Integer(x) == Integer(y) must return false for all inegers (x,y) such that x != y
- Integer(x) == y must return false for all x != y
My beautiful method can be susceptible to the very last test. Consider
Integer(1) == 1.1
Will return true.
How can we implement an Integer class under the stated constraints - something that seems trivial, with the stated fairly straight-forward definition of equality?
Note: you might find it bothersome that I claim Integer(1.1) == Integer(1) is a valid result. I'll admit it has some silliness to it, but I have control over how the constructor handles non-integer parameters; I could throw an exception if I wanted claiming unsafe cast. I don't have any control over the fourth case, in which someone asks if my integer equals a primitive of the same value.
Edit Per request, here's enough code for the class that I think the conditions I've set forth are satisfied:
class Integer: """ An integer wrapper class. Provides support for using integers as objects. There are subtelties and pitfalls, however. """ def __init__( self, val = 0 ): """ Constructs a new integer with a certain value """ self.val = int(val) def __trunc__( self ): """ Truncates the internal value """ return int(self.val) def __eq__( self, other ): """ Returns true if the object ahs the same value as this object """ return self.val == int(other)