I would like to represent a value as a 64bit signed long
, such that values larger than (2**63)-1 are represented as negative, however Python long
has infinite precision. Is there a 'quick' way for me to achieve this?
问题:
回答1:
You could use ctypes.c_longlong
:
>>> from ctypes import c_longlong as ll
>>> ll(2 ** 63 - 1)
c_longlong(9223372036854775807L)
>>> ll(2 ** 63)
c_longlong(-9223372036854775808L)
>>> ll(2 ** 63).value
-9223372036854775808L
This is really only an option if you know for sure that a signed long long
will be 64 bits wide on the target machine(s).
Edit: jorendorff's idea of defining a class for 64 bit numbers is appealing. Ideally you want to minimize the number of explicit class creations.
Using c_longlong
, you could do something like this (note: Python 3.x only!):
from ctypes import c_longlong
class ll(int):
def __new__(cls, n):
return int.__new__(cls, c_longlong(n).value)
def __add__(self, other):
return ll(super().__add__(other))
def __radd__(self, other):
return ll(other.__add__(self))
def __sub__(self, other):
return ll(super().__sub__(other))
def __rsub__(self, other):
return ll(other.__sub__(self))
...
In this way the result of ll(2 ** 63) - 1
will indeed be 9223372036854775807
. This construction may result in a performance penalty though, so depending on what you want to do exactly, defining a class such as the above may not be worth it. When in doubt, use timeit
.
回答2:
Can you use numpy? It has an int64 type that does exactly what you want.
In [1]: import numpy
In [2]: numpy.int64(2**63-1)
Out[2]: 9223372036854775807
In [3]: numpy.int64(2**63-1)+1
Out[3]: -9223372036854775808
It's transparent to users, unlike the ctypes example, and it's coded in C so it'll be faster than rolling your own class in Python. Numpy may be bigger than the other solutions, but if you're doing numerical analysis, you will appreciate having it.
回答3:
The quickest thing is probably to truncate the result to 64 bits yourself:
def to_int64(n):
n = n & ((1 << 64) - 1)
if n > (1 << 63) - 1:
n -= 1 << 64
return n
You can of course define your own numeric type that automatically does this every time you do any sort of arithmetic operation:
class Int64:
def __init__(self, n):
if isinstance(n, Int64):
n = n.val
self.val = to_int64(n)
def __add__(self, other):
return Int64(self.val + other)
def __radd__(self, other):
return Int64(other + self.val)
def __sub__(self, other):
return Int64(self.val - other)
...
but that is not particularly "quick" to implement.
回答4:
Have a look at the ctypes module, it is used to call foreign DLLs/libraries from python. There a some data types that correspond to C types, for example
class c_longlong