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python allows conversions from string to integer using any base in the range [2,36] using:


im looking for an elegant inverse function that takes an integer and a base and returns a string

for example

>>> str_base(224,15)

i have the following solution:

def digit_to_char(digit):
    if digit < 10: return chr(ord('0') + digit)
    else: return chr(ord('a') + digit - 10)

def str_base(number,base):
    if number < 0:
        return '-' + str_base(-number,base)
        (d,m) = divmod(number,base)
        if d:
            return str_base(d,base) + digit_to_char(m)
            return digit_to_char(m)

note: digit_to_char() works for bases <= 169 arbitrarily using ascii characters after 'z' as digits for bases above 36

is there a python builtin, library function, or a more elegant inverse function of int(string,base) ?

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7 Answers 7

up vote 4 down vote accepted

This thread has some example implementations.

Actually I think your solution looks rather nice, it's even recursive which is somehow pleasing here.

I'd still simplify it to remove the else, but that's probably a personal style thing. I think if foo: return is very clear, and doesn't need an else after it to make it clear it's a separate branch.

def digit_to_char(digit):
    if digit < 10:
        return str(digit)
    return chr(ord('a') + digit - 10)

def str_base(number,base):
    if number < 0:
        return '-' + str_base(-number, base)
    (d, m) = divmod(number, base)
    if d > 0:
        return str_base(d, base) + digit_to_char(m)
    return digit_to_char(m)

I simplified the 0-9 case in digit_to_char(), I think str() is clearer than the chr(ord()) construct. To maximize the symmetry with the >= 10 case an ord() could be factored out, but I didn't bother since it would add a line and brevity felt better. :)

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That's helpful, but many of these have bugs, and it would be better if you posted one or two directly in your answer in case the other site's message gets deleted. –  Jason S Feb 5 '14 at 20:59

Maybe this shouldn't be an answer, but it could be helpful for some: the built-in format function does convert numbers to string in a few bases:

>>> format(255, 'b') # base 2
>>> format(255, 'd') # base 10
>>> format(255, 'o') # base 8
>>> format(255, 'x') # base 16
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review this.

def int2str(num, base=16, sbl=None):
    if not sbl:
        sbl = '0123456789abcdefghijklmnopqrstuvwxyz'
    if len(sbl) < 2:
        raise ValueError, 'size of symbols should be >= 2'
    if base < 2 or base > len(sbl):
        raise ValueError, 'base must be in range 2-%d' % (len(sbl))

    neg = False
    if num < 0:
        neg = True
        num = -num

    num, rem = divmod(num, base)
    ret = ''
    while num:
        ret = sbl[rem] + ret
        num, rem = divmod(num, base)
    ret = ('-' if neg else '') + sbl[rem] + ret

    return ret
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A little googling brings this. One of the comments talks about Python builtin functions:

int(x [,base]) converts x to an integer
long(x [,base]) converts x to a long integer
float(x) converts x to a floating-point number
complex(real [,imag]) creates a complex number
chr(x) converts an integer to a character
unichr(x) converts an integer to a Unicode character
ord(c) converts a character to its integer value
hex(x) converts an integer to a hexadecimal string
oct(x) converts an integer to an octal string

But none of them seems right. I guess you just need to code your own function. There is sample code in the link.

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oct(x) works... –  Byron Coetsee Jan 27 at 8:48

digit_to_char could be implemented like this:

def digit_to_char(digit):
    return (string.digits + string.lowercase)[digit]
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If you use Numpy, there is numpy.base_repr.

You can read the code under numpy/core/numeric.py. Short and elegant

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The above answers are really nice. It helped me a lot to prototype an algortithm I had to implement in C

I'd like to come up with a little change (I used) to convert decimal to a base of symbolspace

I also ignored negativ values just for shortness and the fact that's mathematical incorrect --> other rules for modular arithmetics --> other math if you use binary, oct or hex --> diff in unsigned & signed values

def str_base(number, base):
   (d,m) = divmod(number,len(base))
   if d > 0:
      return str_base(d,base)+base[m]
   return base[m]

that lead's to following output

>>> str_base(13,'01')
>>> str_base(255,'01')
>>> str_base(255,'01234567')
>>> str_base(255,'0123456789')
>>> str_base(255,'0123456789abcdef')
>>> str_base(1399871903,'_helowrd')

if you want to padd with the propper zero symbol you can use

symbol_space = 'abcdest'

>>> str_base(734,symbol_space).rjust(0,symbol_space[0])
>>> str_base(734,symbol_space).rjust(6,symbol_space[0])
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