16

I'm seeing some weird behavior when trying to convert a string to a class I wrote that extends int. Here's a simple program that demonstrates my problem:

class MyInt(int):
    pass

toInt = '123456789123456789123456789'

print "\nConverting to int..."
print type(int(toInt))

print "\nConverting to MyInt..."
print type(MyInt(toInt))

Since MyInt is empty, I expected that it would behave exactly like an int. Instead, here's the output I got from the program above:

Converting to int...
<type 'long'>

Converting to MyInt...
Traceback (most recent call last):
  File "int.py", line 9, in <module>
    print type(MyInt(toInt))
OverflowError: long int too large to convert to int

The string can't convert to a MyInt! What about the way I wrote MyInt causes it to behave differently than its base class? In this case, there seems to be some kind of maximum on MyInt; are there other properties that get implicitly imposed like this when a built-in class is extended in Python? And, finally, is there a way to change MyInt so that it doesn't have this maximum anymore?

8
  • 3
    Have you considered inheriting from long instead of int?
    – Jordan
    May 23 '12 at 17:38
  • 2
    Use Python 3 or derive from long. Why are you deriving from an int, anyway? Composition will probably be better for whatever you're doing. May 23 '12 at 17:38
  • 3
    While I agree with these comments from a practical perspective, I am also curious why the sample code is behaving like that. What is it about int() that is creating a long and why is that not being inherited? May 23 '12 at 17:41
  • 1
    This behavior isn't blocking any work I'm doing. I'm mainly just curious about why it's happening. It's something we stumbled on while trying different design options.
    – dshapiro
    May 23 '12 at 17:43
  • 2
    int, I believe, is both a function and a type and when you call it as int(some) value the behavior is defined by the __int__ property of the class that is being passed in, the strings __int__ function likely returns a long if needed. the second version with MyInt is calling the int constructor and passing in the first argument which is then trying to convert it explicitly to only an int May 23 '12 at 17:58
13

The secret is all in the __new__() method:

>>> class MyInt(int): pass
>>> MyInt.__new__ == int.__new__
True
>>> MyInt.__new__(MyInt, '123456789101234567890')
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
OverflowError: Python int too large to convert to C long
>>> MyInt.__new__(int, '123456789101234567890')
123456789101234567890L

Basically when you instantiate a class the very first thing that happens (before __init__(self, *args)) is that __new__(cls, *args) is called. It is passed the class object as its first argument. The __new__ method for int (which is inherited by MyInt) only performs the conversion to long if the class it is passed is int. I assume this is to avoid messing up subclasses, since converted MyInt to long would remove all the special functionality you added.

You should use long as your base class if you want integers bigger than int can handle.

1

Hopefully, this session with the interpreter will provide some insight as to what is happening:

>>> i = 1
>>> print type(i), i
<type 'int'> 1
>>> i = int((i << 31) - 1)
>>> print type(i), i
<type 'int'> 2147483647
>>> i += 1
>>> print type(i), i
<type 'long'> 2147483648
>>> 

Your class is not inheriting this behavior because Python probably treats int objects as a special case.

1
  • 2
    The OP's example shows that the extended class is not inheriting this behavior, I think that's what is most peculiar about it. May 23 '12 at 22:46

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