8

I want to be able to access the sign bit of a number in python. I can do something like n >> 31 in C since int is represented as 32 bits.

I can't make use of the conditional operator and > <.

2
8

in python 3 integers don't have a fixed size, and aren't represented using the internal CPU representation (which allows to handle very large numbers without trouble).

So the best way is

signbit = 1 if n < 0 else 0

or

signbit = int(n < 0)

EDIT: if you cannot use < or > (which is ludicrious but so be it) you could use the fact that a-b will be positive if a is greater than b, so you could do

abs(a-b) == a-b

that doesn't use < or > (at least in the text, because abs uses it you can trust me)

0
3

I would argue that in Python there is not really a concept of a sign bit. As far as the programmer is concerned, an int is just a type with certain behavior. You don't get access to the low-level representation. Even bin(-3) returns a "negative" binary representation: '-0b11'

However, there are ways to get the sign or the bigger if two integers without comparisons. The following approach abuses floating point math to avoid comparisons.

def sign(a):
    try:
        return (1 - int(a / (a**2)**0.5)) // 2
    except ZeroDivisionError:
        return 0

def return_bigger(a, b):
    s = sign(b - a)
    return a * s + b * (1 - s)


assert sign(-33) == 1
assert sign(33) == 0    

assert return_bigger(10, 15) == 15
assert return_bigger(25, 3) == 25
assert return_bigger(42, 42) == 42
  • (a**2)**0.5 could be replaced with abs but I bet internally this is implemented with a comparison.
  • The try/except is not needed if you don't care about 0 or equal integers (or there may be another horrible math workaround).
  • Finally, I'd like to point out that I have absolutely no idea why on earth anybody would want to implement something like that, except for the hell of it.
2
  • You are right. No one would want to do something like this. I am learning algorithms from a book called Cracking the coding interview. This book is based on Java. I am practicing with python. The question was more suitable for Jave. – Praveen Singh Yadav Jul 15 '17 at 6:23
  • @PraveenSinghYadav What I wanted to say is that my approach of replacing comparisons with floating point operations is very weird. Your question - doing something under certain restrictions - makes perfect sense. – kazemakase Jul 15 '17 at 14:12
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The reason why right-shifting the sign bit to produce 1 or 0 doesn't work in Python is that, conceptually, the bit representation of a negative integer is padded with an infinite number of 1 bits to the left (just like a non-negative number is regarded as padded with an infinite number of 0 bits). But the operation n >> 31 does work (given that n is in the range of signed 32-bit numbers) in the sense that it places the sign bit (or if you prefer, one of the left-padding bits) in the lowest bit position. You just need to get rid of the rest of the left-padding bits, which you can do with a bitwise and operation like this:

n >> 31 & 1

Or you can make use of the fact that all one bits is how −1 is represented, and simply negate the result:

-(n >> 31)

Alternatively, you can cut off all but the lowest 32 1 bits before you do the shift, like this:

(n & 0xffffffff) >> 31

This is all under the assumption that you are working with numbers that fit into a signed 32-bit int. If n might need a 64 bit representation, shift by 63 places instead of 31, and if it's just 16 bits numbers, shifting by 15 places suffices (and, if you use the (n & 0xffffffff) >> 31 variant, adjust the number of fs accordingly).

On machine code level, and-ing/negating and shifting is potentially much more efficient than using comparison. The former is just a couple of machine instructions, while the latter would usually boil down to a branch. Not only does branching take more machine instructions, but also have a bad influence on the pipelining and out-of-order execution of modern CPUs. Python execution takes place with some distance to machine code execution, and therefore it's more difficult to say anything about the performance impact in Python. It may depend on the context – as it would in machine code – and therefore also be difficult to test generally. (Caveat: I don't know much about how low-level execution happens in CPython, or in Python in general. For someone who does, this might not be so difficult to answer.)

If you don't know how big n is (in Python, an integer is not required to fit into any specific number of bits), you can use bit_length() to find out. This will work for integers of any size:

-(n >> n.bit_length())

The bit_length() operation might boil down to a single machine instruction, or it might actually need a loop to find the result, depending on the implementation and the underlying machine architecture, and in the latter case, this should be noticeably more costly than using a constant

Final remark: n >> 31 is actually not guaranteed to work like you assume in C, because the C language leaves it undefined whether >> does logical right shift (like you assume) or arithmetic shift right (like Python does). In some languages, Java for instance, you can guarantee logical shift right with the >>> operator, and arithmetic shift right with >>.

0

How about this?

def is_negative(num, places):
    return not long(num * 10**places) & 0xFFFFFFFF == long(num * 10**places)

Not efficient, but not using < or > definitely restricts you to weirdness. Note that zero will evaluate as positive.

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