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How can I find out the number of Bytes a certain number takes up to store e.g. for \x00 - \xFF I'm looking to get 1 (Byte), \x100 - \xffff would give me 2 (Bytes) and so on... any clue?

Thank you Ron

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So, what's the right answer for -1? –  abarnert Jan 15 '13 at 1:52

5 Answers 5

up vote 4 down vote accepted

You can use simple math:

>>> from math import log
>>> def bytes_needed(n):
...     if n == 0:
...         return 1
...     return int(log(n, 256)) + 1
>>> bytes_needed(0x01)
>>> bytes_needed(0x100)
>>> bytes_needed(0x10000)
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Should probably have a test for 0 since log can't deal with that. –  kindall Jan 15 '13 at 1:45
Right, I'll add one. –  stranac Jan 15 '13 at 1:49
sorry if I haz the dumb, but why base 256? –  slashdottir Jun 2 '14 at 18:59

Unless you're dealing with an array.array or a numpy.array - the size always has object overhead. And since Python deals with BigInts naturally, it's really, really hard to tell...

>>> i = 5
>>> import sys
>>> sys.getsizeof(i)

So on a 64bit platform it requires 24 bytes to store what could be stored in 3 bits.

However, if you did,

>>> s = '\x05'
>>> sys.getsizeof(s)

So no, not really - you've got the memory-overhead of the definition of the object rather than raw storage...

If you then take:

>>> a = array.array('i', [3])
>>> a
array('i', [3])
>>> sys.getsizeof(a)
>>> a = array.array('i', [3, 4, 5])
>>> sys.getsizeof(a)

Then you get what would be called normal byte boundaries, etc.. etc... etc...

If you just want what "purely" should be stored - minus object overhead, then from 2.(6|7) you can use some_int.bit_length() (otherwise just bitshift it as other answers have shown) and then work from there

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By the way, with the number 5, on top of all the other stuff you're talking about, there's interning to deal with. That means some Python implementations might not store the full object for 5, but they would for, say, 5000. –  abarnert Jan 15 '13 at 1:55
@abarnert I realise that - but thanks for pointing it out for others –  Jon Clements Jan 15 '13 at 1:56
Yeah, I figured you already had enough on your plate with this answer; easier to just point it out in a comment than to try to explain it in full detail in the answer… –  abarnert Jan 15 '13 at 1:58
def byte_length(i):
    return (i.bit_length() + 7) // 8

Of course, as Jon Clements points out, this isn't the size of the actual PyIntObject, which has a PyObject header, and stores the value as a bignum in whatever way is easiest to deal with rather than most compact, and which you have to have at least one pointer (4 or 8 bytes) to on top of the actual object, and so on.

But this is the byte length of the number itself. It's almost certainly the most efficient answer, and probably also the easiest to read.

Or is ceil(bit.length() / 8.0) more readable?

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Gets an upvote from me - good answer Sir! –  Jon Clements Jan 15 '13 at 1:55
Whoever downvoted this, care to explain why? (Is it not obvious how byte length is related to bit length, or what the built-in bit_length method does, or something else?) –  abarnert Jan 15 '13 at 22:27

By using a simple biwise operation to move all the used bits over 1 byte each time you can see how many bytes are needed to store a number.

It's probably worth noting that while this method is very generic, it will not work on negative numbers and only looks at the binary of the variable without taking into account what it is stored in.

a = 256
i = 0

while(a > 0):
    a = a >> 8;
    i += 1;

print (i)

The program behaves as follows:

a is 0000 0001 0000 0000 in binary each run of the loop will shift this to the left by 8:

loop 1:
0000 0001 >> 0000 0000
0000 0001 > 0 (1 > 0)

loop 2:

0000 0000 >> 0000 0001
0000 0000 > 0 (0 > 0)

END 0 is not > 0

so there are 2 bytes needed to store the number.

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on python command prompt, you can use size of function

**$ import python 
$ import ctypes
$ ctypes.sizeof(ctypes.c_int)**
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