# How to implement C-like unsigned int 32 in Python with no external dependencies?

I need a class that would keep all the Python's functionality of int class, but make sure its results are within 32-bit integers, just like in C programming language. The type has to be "poisonous" - performing an operation on int and this type should result in returning this type. As suggested in one of the answers to my other question, I used to use numpy.uint32 for this purpose, but it feels too silly to add such a big dependency just for a single, relatively simple, type. How do I achieve that? Here are my attempts so far:

MODULO = 7  # will be 2**32 later on

class u32:
def __init__(self, num = 0, base = None):
print(num)
if base is None:
self.int = int(num) % MODULO
else:
self.int = int(num, base) % MODULO
def __coerce__(self, x):
return None
def __str__(self):
return "<u32 instance at 0x%x, int=%d>" % (id(self), self.int)
def __getattr__(self, x):
r = getattr(self.int, x)
if callable(r):
def f(*args, **kwargs):
ret = r(*args, **kwargs) % MODULO
print("x=%s, args=%s, kwargs=%s, ret=%s" % (x, args, kwargs, ret))
if x not in ['__str__', '__repr__']:
return u32(ret)
return r(*args, **kwargs)
return f
return r

u = u32(4)
print("u/2")
a = u * 2
assert(isinstance(a, u32))

print("\n2/u")
a = 2 * u
assert(isinstance(a, u32))

print("\nu+u")
"""
Traceback (most recent call last):
File "u32.py", line 44, in <module>
a = u + u
File "u32.py", line 18, in f
ret = r(*args, **kwargs) % MODULO
TypeError: unsupported operand type(s) for %: 'NotImplementedType' and 'int'
"""
a = u + u
assert(isinstance(a, u32))

-
Is the necessity out of memory storage or compatibility ? –  tk. Oct 26 '13 at 19:46
Compatibility. I need to be able to copy some formulas from C to Python and they rely on the overflow behavior. –  d33tah Oct 26 '13 at 19:48
Other than "silliness", why not using numpy? Fine work has already been done, for you to enjoy. –  shx2 Oct 26 '13 at 19:49
I'd rather keep C-compiled code to minimum, so I'd prefer to keep this type in pure Python. Also, I'm interested in how would that look like. –  d33tah Oct 26 '13 at 19:50
Did you consider using ctypes ? –  rotoglup Oct 26 '13 at 22:45

## 1 Answer

The obviously correct method is going to be to write all the special methods (which can be a pain).

Otherwise, try this for your __getattr__

def __getattr__(self, x):
r = getattr(self.int, x)
if callable(r):
def f(*args, **kwargs):
if args and isinstance(args[0], u32):
args = (args[0].int, ) + args[1:]
ret = r(*args, **kwargs)
if ret is NotImplemented:
return ret
if x in ['__str__', '__repr__', '__cmp__', '__index__']:
return ret
ret %= MODULO
return u32(ret)
return f
return r


As Martijn notes, this only works for old-style classes. See his answer for a method that works with new-style classes.

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I already tried the version without % MODULO. Has the same problem. –  d33tah Oct 26 '13 at 19:51
@d33tah: Okay, try this one. –  Ethan Furman Oct 26 '13 at 20:05
self.int = int(num) % MODULO TypeError: int() argument must be a string or a number, not 'tuple' –  d33tah Oct 26 '13 at 20:17
@d33tah: Do you still have the __coerce__ method in place? Which operations gives that error? –  Ethan Furman Oct 26 '13 at 20:23
struct.unpack() returns a tuple. ;) –  Ethan Furman Oct 26 '13 at 20:47