I use python 2.6

>>> hex(-199703103)

>>> hex(199703103)

Positive and negative value are the same?

When I use calc, the value is FFFFFFFFF418C5C1.

4 Answers 4


Python's integers can grow arbitrarily large. In order to compute the raw two's-complement the way you want it, you would need to specify the desired bit width. Your example shows -199703103 in 64-bit two's complement, but it just as well could have been 32-bit or 128-bit, resulting in a different number of 0xf's at the start.

hex() doesn't do that. I suggest the following as an alternative:

def tohex(val, nbits):
  return hex((val + (1 << nbits)) % (1 << nbits))

print tohex(-199703103, 64)
print tohex(199703103, 64)

This prints out:

  • 2
    Could you please explain what is going on when you're adding (1<<64)? Why does that need to be done?
    – jathanism
    Oct 19, 2011 at 14:43
  • 4
    @jathanism, the value (1<<64) is one larger than will fit in a 64-bit integer. Adding it to a negative number will turn it positive, as long as the negative number fits in 64 bits. If the original number was positive, the % will undo the effect of the addition. Oct 19, 2011 at 16:08
  • 1
    I believe there is a bug in this implementation: tohex(-129,8) returns 0x7f, which is impossible since a 8-bit signed integer can only store numbers from (-1)* (2 ^7)= -128 to 2^7 - 1 = 127. Therefore the function should check if val is within this range before returns, if it is not, raise an exception (or something). This can make the code more robust, i think :) Aug 31, 2016 at 11:14

Because Python integers are arbitrarily large, you have to mask the values to limit conversion to the number of bits you want for your 2s complement representation.

>>> hex(-199703103 & (2**32-1)) # 32-bit
>>> hex(-199703103 & (2**64-1)) # 64-bit

Python displays the simple case of hex(-199703103) as a negative hex value (-0xbe73a3f) because the 2s complement representation would have an infinite number of Fs in front of it for an arbitrary precision number. The mask value (2**32-1 == 0xFFFFFFFF) limits this:

&                             FFFFFFFF
  • Although concise, isn't the raising to a power costly compared with bit manipulation?
    – swdev
    Jan 7, 2015 at 22:19
  • 3
    @swdev, py -m timeit "2**32-1" -> 0.0235 usec per loop, py -m timeit "2<<32-1" -> 0.0235 usec per loop. Don't assume. Always measure if you care :) Most likely the Python byte compiler generates the same load constant. Jan 8, 2015 at 3:05
  • oops, make that (1<<32)-1...but you get the idea...Also easier to make mistakes. And I checked with the dis module and Python just generates a constant. Jan 8, 2015 at 3:10
  • Also you could, inlieu of 2**32-1 just use the constant 0xFFFFFFFF for 32-bit and 0xFFFFFFFFFFFFFFFF for 64-bit if you are that concerned about timing. Or mask_32bit=(2**32-1) so that you don't have to do the calculation each time, just once. Jun 17, 2016 at 16:43
  • 1
    @busfault per comment above speed is no different. Python calculates the constant once when generating byte code. No need to "optimize". Jun 18, 2016 at 4:35

Adding to Marks answer, if you want a different output format, use

'{:X}'.format(-199703103 & (2**32-1))

For those who want leading zeros for positive numbers, try this:

val = 42
nbits = 16
'{:04X}'.format(val & ((1 << nbits)-1))

enter image description here

Thanks @tm1, for the inspiration!

  • '{:0{}X}'.format(val & ((1 << nbits)-1), int((nbits+3)/4)) will set the width correct.
    – karelv
    Oct 25, 2021 at 22:25

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