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I'm new to Python from the Java world.

I have written a Python class called "Instance" with 3 properties(attribute, value, and class). I want to override the "eq" method & also the "hash" method, I'm using the "attribute" & "value" properties used for object comparison. I instantiated two objects with the same values, however they return as not equal.

Code is below , Class Instance:

'''Class of type Instance'''
class Instance(object):
    __attribute = None; 
    __value = None;
    __classification = None; 
    #constructor 
    def __init__(self,attribute,value,classification):
        self.attribute = attribute;
        self.value = value;
        self.classification = classification;
    #setters & getters 
    def setAttribute(self,attribute):
        self.attribute = attribute
    def setValue(self,value):
        self.value = value
    def setClassification(self,classification):
        self.classification = classification

    def getAttribute(self):
        return self.Attribute;
    def getValue(self):
        return self.Value
    def getClassification(self):
        return self.Classification

    def __eq__(self, other):
    #if self & other are the same instance & attribute & value equal
        return isinstance(self,other) and (self.attribute == other.attribute) and (self.value  == other.value)

    def __hash__(self):
        return hash(self.attribute, self.value)

I'm instantiating in , another Python module called Testing:

if __name__ == '__main__':
    pass

from Instance import *

instance1 = Instance('sameValue', 1,'Iris-setosa')
instance2 = Instance('sameValue', 1,'Iris-setosa')

if (instance1 is instance2):
    print "equals"
else:
    print "not equals"

The program returns: not equals.

share|improve this question
1  
A few side notes: Double-underscore attribute names are almost always a mistake. Class attributes with very similar names to instance attributes are a recipe for confusion. Attribute names are case-sensitive; you can't assign to self.value but then return self.Value. Finally, the stray semicolons and extra parens left over from C make your code harder to read. –  abarnert Jul 12 '13 at 23:37
    
One more: Having a module named Instance with a class named Instance is confusing, especially if you're going to do from Instance import *. (Yes, datetime.datetime and Queue.Queue in the stdlib do that… but they also confuse people all the time, and one of them was fixed in 3.0.) –  abarnert Jul 12 '13 at 23:40
3  
And one last one: There's almost never a good reason to write setValue and getValue methods. Just let your callers use your value attribute. The reason Java and C++ style recommend getters and setters is for futureproofing—so you can later change your implementation without breaking your interface. But in Python, that's not an issue; if you need to change the implementation, just use @property to keep the same interface. The fact that more than half the lines of code in your class, and 3 of the 4 bugs, are in the getters and setters is exactly why you shouldn't use them. –  abarnert Jul 12 '13 at 23:42

1 Answer 1

up vote 5 down vote accepted

Your first problem is isinstance(self, other) isn't asking whether self and other are both instances of compatible types, or whether they're the same instance (as your comment says), it's asking whether self is an instance of the type other. Since other isn't even a type, the answer is always false.

You probably wanted isinstance(self, type(other)). Or maybe something more complicated, like isinstance(self, type(other)) or isinstance(other, type(self)).

Or maybe you don't really want this at all; even for equality testing, duck typing is often a good idea. If other has the same attributes as self, and also hashes to the same value, is that good enough? The answer may be no… but you definitely should ask the question.


Your second problem is a misunderstanding of is:

if (instance1 is instance2):
    print "equals"
else:
    print "not equals"

The whole point of is is that it's asking whether these are the same object, not whether these two (possibly distinct) objects are equal to each other. For example:

>>> a = []
>>> b = []
>>> a == b
True
>>> a is b
False

They're both empty lists, so they're equal to each other, but they're two different empty lists, which is why you can do this:

>>> a.append(0)
>>> b
[]

And the same is true with your class. Each Instance that you create is going to be a different, separate instance—even if they're all equal.

The __eq__ method that you define customized the == operator. There is no way to customize the is operator.

share|improve this answer
    
Thanks @abarnert for catching the errors & bad style, just trying to learn Python quickly for this data mining project I have in a few months. –  Aryan Naim Jul 13 '13 at 2:44
    
Thanks for the explanation of "is" versus "==" , thought they were the same, Python growing pains –  Aryan Naim Jul 13 '13 at 2:53
    
@AryanNaim: It's worth reading two different blog posts called "Python Is Not Java" (google and you should find them both). If you're asking "How do I write this Java in Python?" you're going to write bad code; Python is a very bad Java substitute, but a very good very different language. –  abarnert Jul 15 '13 at 18:17

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