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If lv stores a long value, and the machine is 32 bits, the following code:

iv = int(lv & 0xffffffff)

results an iv of type long, instead of the machine's int.

How can I get the (signed) int value in this case?

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import ctypes

number = lv & 0xFFFFFFFF

signed_number = ctypes.c_long(number).value
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You're working in a high-level scripting language; by nature, the native data types of the system you're running on aren't visible. You can't cast to a native signed int with code like this.

If you know that you want the value converted to a 32-bit signed integer--regardless of the platform--you can just do the conversion with the simple math:

if(iv & 0x80000000):
    iv = -0x100000000 + iv
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That is not accurate: all the calculations that fit into the machine's word are done in that level. For example, ~1 == -2. So I'm looking for a way to force the result into type int (which is not what int() does, apparently). – Paul Oyster Sep 4 '09 at 19:27
~1 == -2 in Python on all systems. If that's not the case on the native system, then a Python implementation must emulate it. (See docs.python.org/reference/…) The only time the native word size can leak into Python is when the size of int is greater than 32-bits, which means you make the transtion from int to long later. – Glenn Maynard Sep 4 '09 at 21:13
You can't force Python to convert a long to an int when the value doesn't fit in an int; you can't write Python code as if you're in C. If you want to convert the unsigned 32-bit int value 0xFFFFFFFF to the signed two's-complement 32-bit integer represented by the same bit string, then I've given you the code. Otherwise, I'm not sure what you're trying to do. – Glenn Maynard Sep 4 '09 at 21:14
This is ugly and is probably not terribly efficient (though it's probably more efficient than the struct way)... – SamB Jul 11 '10 at 0:25
SamB: For the question (as I interpreted it--the OP never did the courtesy of responding), it's as clean and straightforward as this sort of conversion gets. It's much cleaner and more obvious than struct. Of course, it should still be tucked away in a function and documented. – Glenn Maynard Jul 11 '10 at 11:47

You may use struct library to convert values like that. It's ugly, but works:

from struct import pack, unpack
signed = unpack('l', pack('L', lv & 0xffffffff))[0]
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This works on 32-bit machines and fails on 64-bit – nailxx Feb 18 '10 at 14:49
This can be made portable if you use one of the order/size/alignment chars. For example, use '=l' and '=L' as the format strings. – SamB Jul 11 '10 at 0:28

Can I suggest this:

def getSignedNumber(number, bitLength):
    mask = (2 ** bitLength) - 1
    if number & (1 << (bitLength - 1)):
        return number | ~mask
        return number & mask

print iv, '->', getSignedNumber(iv, 32)
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A quick and dirty solution (x is never greater than 32-bit in my case).

if x > 0x7fffffff:
    x = x - 4294967296
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Essentially, the problem is to sign extend from 32 bits to... an infinite number of bits, because Python has arbitrarily large integers. Normally, sign extension is done automatically by CPU instructions when casting, so it's interesting that this is harder in Python than it would be in, say, C.

By playing around, I found something similar to BreizhGatch's function, but that doesn't require a conditional statement. n & 0x80000000 extracts the 32-bit sign bit; then, the - keeps the same 32-bit representation but sign-extends it; finally, the extended sign bits are set on n.

def toSigned32(n):
    n = n & 0xffffffff
    return n | (-(n & 0x80000000))

Bit Twiddling Hacks suggests another solution that perhaps works more generally. n ^ 0x80000000 flips the 32-bit sign bit; then - 0x80000000 will sign-extend the opposite bit. Another way to think about it is that initially, negative numbers are above positive numbers (separated by 0x80000000); the ^ swaps their positions; then the - shifts negative numbers to below 0.

def toSigned32(n):
    n = n & 0xffffffff
    return (n ^ 0x80000000) - 0x80000000
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