# Base 62 conversion

How would you convert an integer to base 62 (like hexadecimal, but with these digits: '0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ').

I have been trying to find a good Python library for it, but they all seems to be occupied with converting strings. The Python base64 module only accepts strings and turns a single digit into four characters. I was looking for something akin to what URL shorteners use.

• Sounds like someone just found an open source project idea :) Let me know if you find anything or decide to create your own... Jul 13, 2009 at 14:24
• If you want to create short URLs, you might want to use the whole set of characters which don't need to be encoded: en.wikipedia.org/wiki/Percent-encoding#Types_of_URI_characters. That's 66 characters.
– l0b0
Jul 13, 2009 at 14:32
• I think I'll pass on the dot and the tilde, just to avoid user confusion, but the dash and the underscores should be worthwhile additions, thanks.
– mikl
Jul 13, 2009 at 14:45
• what about Base64? You might have better luck finding libraries for that. Jul 14, 2009 at 4:12
• This question has a number of applicable answers: stackoverflow.com/questions/561486/… Jul 14, 2009 at 4:14

There is no standard module for this, but I have written my own functions to achieve that.

``````BASE62 = "0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ"

def encode(num, alphabet):
"""Encode a positive number into Base X and return the string.

Arguments:
- `num`: The number to encode
- `alphabet`: The alphabet to use for encoding
"""
if num == 0:
return alphabet[0]
arr = []
arr_append = arr.append  # Extract bound-method for faster access.
base = len(alphabet)
while num:
num, rem = _divmod(num, base)
arr_append(alphabet[rem])
arr.reverse()
return ''.join(arr)

def decode(string, alphabet=BASE62):
"""Decode a Base X encoded string into the number

Arguments:
- `string`: The encoded string
- `alphabet`: The alphabet to use for decoding
"""
base = len(alphabet)
strlen = len(string)
num = 0

idx = 0
for char in string:
power = (strlen - (idx + 1))
num += alphabet.index(char) * (base ** power)
idx += 1

return num
``````

Notice the fact that you can give it any alphabet to use for encoding and decoding. If you leave the `alphabet` argument out, you are going to get the 62 character alphabet defined on the first line of code, and hence encoding/decoding to/from 62 base.

Hope this helps.

PS - For URL shorteners, I have found that it's better to leave out a few confusing characters like 0Ol1oI etc. Thus I use this alphabet for my URL shortening needs - `"23456789abcdefghijkmnpqrstuvwxyzABCDEFGHJKLMNPQRSTUVWXYZ"`

Have fun.

• +1: Nice! This can be extended with more URL-friendly characters to possibly save one character here and there. Characters I know are safe are: `\$-_.+!*'(),;/?:@&=` You can probably use some other characters too like `[]~` etc. Jul 13, 2009 at 14:32
• Naming bug: it's not base 62, since the alphabet is customizable. Sep 28, 2009 at 14:24
• For the decode, it's a better habit not to compute the powers (saves time, is shorter to write, but more importantly avoids off-by-one errors), thus: num=0; for char in string: num = num*base + alphabet.index(char) Sep 28, 2009 at 14:31
• @ShreevatsaR: any particular reason for using str.index() instead of a dictionary lookup? See my answer ... Oct 5, 2009 at 23:47
• Jonathan - Python can handle numbers of arbitrary length - there is no overflow: >>> 256 * (62 ** 100) 44402652562862911414971048359760030835982580330786570771137804709455598239929932673552190201125730101070867075377228748911717860448985185350731601887476350502973424822800696272224256L Feb 3, 2011 at 5:24

I once wrote a script to do this aswell, I think it's quite elegant :)

``````import string
# Remove the `_@` below for base62, now it has 64 characters
BASE_LIST = string.digits + string.letters + '_@'
BASE_DICT = dict((c, i) for i, c in enumerate(BASE_LIST))

def base_decode(string, reverse_base=BASE_DICT):
length = len(reverse_base)
ret = 0
for i, c in enumerate(string[::-1]):
ret += (length ** i) * reverse_base[c]

return ret

def base_encode(integer, base=BASE_LIST):
if integer == 0:
return base[0]

length = len(base)
ret = ''
while integer != 0:
ret = base[integer % length] + ret
integer /= length

return ret
``````

Example usage:

``````for i in range(100):
print i, base_decode(base_encode(i)), base_encode(i)
``````
• This version is considerably faster than the accepted solution from Baishampayan. I optimized further by computing length outside of the function. Testing results (100,000 iterations): version-WoLpH: .403 .399 .399 .398 .398 | version-Baishampayan: 1.783 1.785 1.782 1.788 1.784. This version is approximately 4x as fast. Apr 28, 2011 at 13:46
• if use `reversed(string)` more faster than slicing `string[::-1]` in the base_decode function. Jan 25, 2014 at 3:18
• Took me a long time to find this question. Never knew this was called base62 conversion. Nice answer.
– user4591756
Feb 5, 2016 at 9:49
• I had to change `integer /= length` to `integer //=length` to get the correct remainder Jul 27, 2020 at 0:29

The following decoder-maker works with any reasonable base, has a much tidier loop, and gives an explicit error message when it meets an invalid character.

``````def base_n_decoder(alphabet):
"""Return a decoder for a base-n encoded string
Argument:
- `alphabet`: The alphabet used for encoding
"""
base = len(alphabet)
char_value = dict(((c, v) for v, c in enumerate(alphabet)))
def f(string):
num = 0
try:
for char in string:
num = num * base + char_value[char]
except KeyError:
raise ValueError('Unexpected character %r' % char)
return num
return f

if __name__ == "__main__":
func = base_n_decoder('0123456789abcdef')
for test in ('0', 'f', '2020', 'ffff', 'abqdef'):
print test
print func(test)
``````
• While I would probably never use this, I had too give you a thumbs up for creativity. This code gave me a laugh. :) Jan 10, 2013 at 13:07
• @Sepero: What's so funny? It's serious robust industrial-strength software. No Micky-Mouse reversing with a `**` operator in the loop. Jan 15, 2013 at 11:32
• Calm yourself friend. You're right. I missed the true goodness of your inner loop due to it being buried within stuff that is unrelated to the question (wrapping, error checking, unit testing). Jan 15, 2013 at 18:26
• Looks good, but haven't you forgotten an "industrial-strength" encoder which takes an integer plus alphabet to produce a string? Jan 17, 2013 at 2:27
• Was the q in the last value intentional to show off the ValueError being raised? Aug 14, 2014 at 14:15

If you're looking for the highest efficiency (like django), you'll want something like the following. This code is a combination of efficient methods from Baishampayan Ghose and WoLpH and John Machin.

``````# Edit this list of characters as desired.
BASE_ALPH = tuple("0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz")
BASE_DICT = dict((c, v) for v, c in enumerate(BASE_ALPH))
BASE_LEN = len(BASE_ALPH)

def base_decode(string):
num = 0
for char in string:
num = num * BASE_LEN + BASE_DICT[char]
return num

def base_encode(num):
if not num:
return BASE_ALPH[0]

encoding = ""
while num:
num, rem = divmod(num, BASE_LEN)
encoding = BASE_ALPH[rem] + encoding
return encoding
``````

You may want to also calculate your dictionary in advance. (Note: Encoding with a string shows more efficiency than with a list, even with very long numbers.)

``````>>> timeit.timeit("for i in xrange(1000000): base.base_decode(base.base_encode(i))", setup="import base", number=1)
2.3302059173583984
``````

Encoded and decoded 1 million numbers in under 2.5 seconds. (2.2Ghz i7-2670QM)

• One does not necessarily need the `tuple()` around `BASE_ALPH` in the beginning. In Python every String is iterable. That feature is of course exploited by `enumerate()`. So the code gets even leaner :) Apr 18, 2013 at 16:05
• Hey origiNell, you're right that the tuple() isn't needed, but on my system, it makes the code run about 20% faster. Try testing it out without the tuple() and see what works best for you. Cheers :) Apr 24, 2013 at 7:20
• Interesting point. Makes total sense since tuples are more lightweight than strings. Thanks for the enlightenment :)! Apr 25, 2013 at 8:44
• @Sepero I further improved your version in terms of formatting, naming, tests and functionality (negative numbers are supported): pastebin.com/4uket7iu (you may update your answer with this) Aug 12, 2014 at 15:15
• @Joschua -- Your code at your URL didn't work for me. base_encode() seemed to only generate one encoded digit for the numbers I tested. May 26, 2015 at 4:03

If you use django framework, you can use django.utils.baseconv module.

``````>>> from django.utils import baseconv
>>> baseconv.base62.encode(1234567890)
1LY7VK
``````

In addition to base62, baseconv also defined base2/base16/base36/base56/base64.

If all you need is to generate a short ID (since you mention URL shorteners) rather than encode/decode something, this module might help:

https://github.com/stochastic-technologies/shortuuid/

• I am not sure that is appropriate for short URLs. A UUID is usually a very large number, so even base57 encoding it like he does is bound to be rather long for a short URL.
– mikl
Jan 11, 2011 at 14:55
• You can just cut as much as you want, collisions will still be unlikely as it's purely random, but won't be a unique id any more. Jan 21, 2011 at 23:09

You probably want base64, not base62. There's an URL-compatible version of it floating around, so the extra two filler characters shouldn't be a problem.

The process is fairly simple; consider that base64 represents 6 bits and a regular byte represents 8. Assign a value from 000000 to 111111 to each of the 64 characters chosen, and put the 4 values together to match a set of 3 base256 bytes. Repeat for each set of 3 bytes, padding at the end with your choice of padding character (0 is generally useful).

• The standard Python base64 encoding methods are not really suitable for short URLs, since it is optimized for encoding bytes (ie. strings/letters), and will produce longer outputs than just base-shifting the numerical value.
– mikl
Apr 2, 2010 at 15:34
• @mikl Of course, Python's base64 module may not be suitable for generating short URLs, but all of Python's encoding methods are really working on base-256 number sequences. bytes are really base-256 encoded "strings". Python 2.x treats strings as a sequence of bytes, whereas Python 3.x (which does the right thing) treats strings as Unicode. So b'foobar' is really only a fancy way of writing [102, 111, 111, 98, 97, 114] or [0x66,0x6f,0x6f,0x62,0x61,0x72] or b'\x66\x6f\x6f\x62\x61\x72' which unsurprisingly is the base-256 representation. Bytes are not strings or letters. Bytes are bytes. =) Aug 9, 2011 at 14:19
• @yesudeep: So, bytes are bytes…and what exactly is your point? Jan 17, 2013 at 1:29

There is now a python library for this.

I'm working on making a pip package for this.

I recommend you use my bases.py https://github.com/kamijoutouma/bases.py which was inspired by bases.js

``````from bases import Bases
bases = Bases()

bases.toBase16(200)                // => 'c8'
bases.toBase(200, 16)              // => 'c8'
bases.toBase62(99999)              // => 'q0T'
bases.toBase(200, 62)              // => 'q0T'
bases.toAlphabet(300, 'aAbBcC')    // => 'Abba'

bases.fromBase16('c8')               // => 200
bases.fromBase('c8', 16)             // => 200
bases.fromBase62('q0T')              // => 99999
bases.fromBase('q0T', 62)            // => 99999
bases.fromAlphabet('Abba', 'aAbBcC') // => 300
``````

refer to https://github.com/kamijoutouma/bases.py#known-basesalphabets for what bases are usable

eg

``````>>> import zbase62
>>> zbase62.b2a("abcd")
'1mZPsa'
``````
• Yeah, I looked at that earlier, but it converts strings, not numbers :)
– mikl
Jul 13, 2009 at 15:11

I have benefited greatly from others' posts here. I needed the python code originally for a Django project, but since then I have turned to node.js, so here's a javascript version of the code (the encoding part) that Baishampayan Ghose provided.

``````var ALPHABET = "0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ";

function base62_encode(n, alpha) {
var num = n || 0;
var alphabet = alpha || ALPHABET;

if (num == 0) return alphabet[0];
var arr = [];
var base = alphabet.length;

while(num) {
rem = num % base;
num = (num - rem)/base;
arr.push(alphabet.substring(rem,rem+1));
}

return arr.reverse().join('');
}

console.log(base62_encode(2390687438976, "123456789ABCDEFGHIJKLMNPQRSTUVWXYZ"));
``````

I hope the following snippet could help.

``````def num2sym(num, sym, join_symbol=''):
if num == 0:
return sym[0]
if num < 0 or type(num) not in (int, long):
raise ValueError('num must be positive integer')

l = len(sym)  # target number base
r = []
div = num
while div != 0: # base conversion
div, mod = divmod(div, l)
r.append(sym[mod])

return join_symbol.join([x for x in reversed(r)])
``````

``````number = 367891
alphabet = '0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ'
print num2sym(number, alphabet)  # will print '1xHJ'
``````

Obviously, you can specify another alphabet, consisting of lesser or greater number of symbols, then it will convert your number to the lesser or greater number base. For example, providing '01' as an alphabet will output string representing input number as binary.

You may shuffle the alphabet initially to have your unique representation of the numbers. It can be helpful if you're making URL shortener service.

• Not bad. You might want to use `if num < 0 or type(num) not in (int, long):`. Jun 25, 2013 at 15:28
• That's better, but it's a little more complicated because `long` doesn't exist in Py 3.x -- so one might want to use this answer. Jun 25, 2013 at 18:25
• Or use my own portable version: `isinstance(x, (type(1), type(2**32)))`. Jun 25, 2013 at 19:35

Here's my solution:

``````def base62(a):
baseit = (lambda a=a, b=62: (not a) and '0' or
baseit(a-a%b, b*62) + '0123456789abcdefghijklmnopqrstuvwxyz'
'ABCDEFGHIJKLMNOPQRSTUVWXYZ'[a%b%61 or -1*bool(a%b)])
return baseit()
``````

## explanation

In any base every number is equal to ` a1+a2*base**2+a3*base**3...` So the goal is to find all the `a`s.

For every `N=1,2,3...` the code isolates the `aN*base**N` by "moduloing" by `b` for `b=base**(N+1)` which slices all `a`s bigger than `N`, and slicing all the `a`s so that their serial is smaller than `N` by decreasing `a` everytime the function is called recursively by the current `aN*base**N`.

`Base%(base-1)==1` therefore `base**p%(base-1)==1` and therefore `q*base^p%(base-1)==q` with only one exception, when `q==base-1` which returns `0`. To fix that case it returns `0`. The function checks for `0` from the beginning.

In this sample there's only one multiplication (instead of a division) and some modulus operations, which are all relatively fast.

Personally I like the solution from Baishampayan, mostly because of stripping the confusing characters.

For completeness, and solution with better performance, this post shows a way to use the Python base64 module.

• As mentioned in my comment to Williham Totland, Pythons base64 is suboptimal for encoding numbers, since it is optimized for strings.
– mikl
Apr 2, 2010 at 15:37

I wrote this a while back and it's worked pretty well (negatives and all included)

``````def code(number,base):
try:
int(number),int(base)
except ValueError:
raise ValueError('code(number,base): number and base must be in base10')
else:
number,base = int(number),int(base)
if base < 2:
base = 2
if base > 62:
base = 62
numbers = [0,1,2,3,4,5,6,7,8,9,"a","b","c","d","e","f","g","h","i","j",
"k","l","m","n","o","p","q","r","s","t","u","v","w","x","y",
"z","A","B","C","D","E","F","G","H","I","J","K","L","M","N",
"O","P","Q","R","S","T","U","V","W","X","Y","Z"]
final = ""
loc = 0
if number < 0:
final = "-"
number = abs(number)
while base**loc <= number:
loc = loc + 1
for x in range(loc-1,-1,-1):
for y in range(base-1,-1,-1):
if y*(base**x) <= number:
final = "{}{}".format(final,numbers[y])
number = number - y*(base**x)
break
return final

def decode(number,base):
try:
int(base)
except ValueError:
raise ValueError('decode(value,base): base must be in base10')
else:
base = int(base)
number = str(number)
if base < 2:
base = 2
if base > 62:
base = 62
numbers = ["0","1","2","3","4","5","6","7","8","9","a","b","c","d","e","f",
"g","h","i","j","k","l","m","n","o","p","q","r","s","t","u","v",
"w","x","y","z","A","B","C","D","E","F","G","H","I","J","K","L",
"M","N","O","P","Q","R","S","T","U","V","W","X","Y","Z"]
final = 0
if number.startswith("-"):
neg = True
number = list(number)
del(number[0])
temp = number
number = ""
for x in temp:
number = "{}{}".format(number,x)
else:
neg = False
loc = len(number)-1
number = str(number)
for x in number:
if numbers.index(x) > base:
raise ValueError('{} is out of base{} range'.format(x,str(base)))
final = final+(numbers.index(x)*(base**loc))
loc = loc - 1
if neg:
return -final
else:
return final
``````

sorry about the length of it all

``````BASE_LIST = tuple("23456789ABCDEFGHJKLMNOPQRSTUVWXYZabcdefghjkmnpqrstuvwxyz")
BASE_DICT = dict((c, v) for v, c in enumerate(BASE_LIST))
BASE_LEN = len(BASE_LIST)

def nice_decode(str):
num = 0
for char in str[::-1]:
num = num * BASE_LEN + BASE_DICT[char]
return num

def nice_encode(num):
if not num:
return BASE_LIST[0]

encoding = ""
while num:
num, rem = divmod(num, BASE_LEN)
encoding += BASE_LIST[rem]
return encoding
``````
• This fixes the name of BASE_LIST and also reverses the string on decoding which was omitted in Spero's otherwise excellent answer Mar 29, 2013 at 0:51

Here is an recurive and iterative way to do that. The iterative one is a little faster depending on the count of execution.

``````def base62_encode_r(dec):
s = '0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ'
return s[dec] if dec < 62 else base62_encode_r(dec / 62) + s[dec % 62]
print base62_encode_r(2347878234)

def base62_encode_i(dec):
s = '0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ'
ret = ''
while dec > 0:
ret = s[dec % 62] + ret
dec /= 62
return ret
print base62_encode_i(2347878234)

def base62_decode_r(b62):
s = '0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ'
if len(b62) == 1:
return s.index(b62)
x = base62_decode_r(b62[:-1]) * 62 + s.index(b62[-1:]) % 62
return x
print base62_decode_r("2yTsnM")

def base62_decode_i(b62):
s = '0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ'
ret = 0
for i in xrange(len(b62)-1,-1,-1):
ret = ret + s.index(b62[i]) * (62**(len(b62)-i-1))
return ret
print base62_decode_i("2yTsnM")

if __name__ == '__main__':
import timeit
print(timeit.timeit(stmt="base62_encode_r(2347878234)", setup="from __main__ import base62_encode_r", number=100000))
print(timeit.timeit(stmt="base62_encode_i(2347878234)", setup="from __main__ import base62_encode_i", number=100000))
print(timeit.timeit(stmt="base62_decode_r('2yTsnM')", setup="from __main__ import base62_decode_r", number=100000))
print(timeit.timeit(stmt="base62_decode_i('2yTsnM')", setup="from __main__ import base62_decode_i", number=100000))

0.270266867033
0.260915645986
0.344734796766
0.311662500262
``````
• I really liked your recursive approach. My daughter, who was taking AP Comp Sci, had figured out this same solution for me to implement a "base25" (using 'ABCDEFHJKMNPQRTUVWXY34789') in C++. I went to convert it to Python and being a total newb with that language hit a few stumbling blocks -- which you elegantly solved in a single line of code! You even avoid a common issue with 0 translating to an empty string in alphabets that don't begin with 0-9. Great work! (I don't need negative numbers, but your approach was so good it might be nice to add that for future browsers) May 26, 2015 at 3:58

## Python `3.7.x`

I found a PhD's github for some algorithms when looking for an existing base62 script. It didn't work for the current max-version of Python 3 at this time so I went ahead and fixed where needed and did a little refactoring. I don't usually work with Python and have always used it ad-hoc so YMMV. All credit goes to Dr. Zhihua Lai. I just worked the kinks out for this version of Python.

### file `base62.py`

``````#modified from Dr. Zhihua Lai's original on GitHub
from math import floor
base = '0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ';
b = 62;
def toBase10(b62: str) -> int:
limit = len(b62)
res = 0
for i in range(limit):
res = b * res + base.find(b62[i])
return res
def toBase62(b10: int) -> str:
if b <= 0 or b > 62:
return 0
r = b10 % b
res = base[r];
q = floor(b10 / b)
while q:
r = q % b
q = floor(q / b)
res = base[int(r)] + res
return res
``````

### file `try_base62.py`

``````import base62
print("Base10 ==> Base62")
for i in range(999):
print(f'{i} => {base62.toBase62(i)}')
base62_samples = ["gud", "GA", "mE", "lo", "lz", "OMFGWTFLMFAOENCODING"]
print("Base62 ==> Base10")
for i in range(len(base62_samples)):
print(f'{base62_samples[i]} => {base62.toBase10(base62_samples[i])}')
``````

## output of `try_base62.py`

`Base10 ==> Base62`
`0 => 0`
`[...]`
`998 => g6`
`Base62 ==> Base10`
`gud => 63377`
`GA => 2640`
`mE => 1404`
`lo => 1326`
`lz => 1337`
`OMFGWTFLMFAOENCODING => 577002768656147353068189971419611424`

Since there was no licensing info in the repo I did submit a PR so the original author at least knows other people are using and modifying their code.

Simplest ever.

``````BASE62 = "0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ"
def encode_base62(num):
s = ""
while num>0:
num,r = divmod(num,62)
s = BASE62[r]+s
return s

def decode_base62(num):
x,s = 1,0
for i in range(len(num)-1,-1,-1):
s = int(BASE62.index(num[i])) *x + s
x*=62
return s

print(encode_base62(123))
print(decode_base62("1Z"))
``````

Sorry, I can't help you with a library here. I would prefer using base64 and just adding to extra characters to your choice -- if possible!

Then you can use the base64 module.

If this is really, really not possible:

You can do it yourself this way (this is pseudo-code):

``````base62vals = []
myBase = 62
while num > 0:
reminder = num % myBase
num = num / myBase
base62vals.insert(0, reminder)
``````

with simple recursion

``````"""
This module contains functions to transform a number to string and vice-versa
"""
BASE = "0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ"
LEN_BASE = len(BASE)

def encode(num):
"""
This function encodes the given number into alpha numeric string
"""

if num < LEN_BASE:
return BASE[num]

return BASE[num % LEN_BASE] + encode(num//LEN_BASE)

def decode_recursive(string, index):
"""
recursive util function for decode
"""

if not string or index >= len(string):
return 0

return (BASE.index(string[index]) * LEN_BASE ** index) + decode_recursive(string, index + 1)

def decode(string):
"""
This function decodes given string to number
"""

return decode_recursive(string, 0)

``````

Benchmarking answers that worked for Python3 (machine: i7-8565U):

``````"""
us per enc()+dec()  #  test

(4.477935791015625, 2, '3Tx16Db2JPSS4ZdQ4dp6oW')
(6.073190927505493, 5, '3Tx16Db2JPSS4ZdQ4dp6oW')
(9.051250696182251, 9, '3Tx16Db2JPSS4ZdQ4dp6oW')
(9.864609956741333, 6, '3Tx16Db2JOOqeo6GCGscmW')
(10.868197917938232, 1, '3Tx16Db2JPSS4ZdQ4dp6oW')
(11.018349647521973, 10, '3Tx16Db2JPSS4ZdQ4dp6oW')
(12.448230504989624, 4, '03Tx16Db2JPSS4ZdQ4dp6oW')
(13.016672611236572, 7, '3Tx16Db2JPSS4ZdQ4dp6oW')
(13.212724447250366, 8, '3Tx16Db2JPSS4ZdQ4dp6oW')
(24.119479656219482, 3, '3tX16dB2jpss4zDq4DP6Ow')
"""

from time import time

half = 2 ** 127
results = []

def bench(n, enc, dec):
start = time()
for i in range(half, half + 1_000_000):
dec(enc(i))
end = time()
results.append(tuple([end - start, n, enc(half + 1234134134134314)]))

BASE62 = "0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ"

def encode(num, alphabet=BASE62):
"""Encode a positive number into Base X and return the string.

Arguments:
- `num`: The number to encode
- `alphabet`: The alphabet to use for encoding
"""
if num == 0:
return alphabet[0]
arr = []
arr_append = arr.append  # Extract bound-method for faster access.
base = len(alphabet)
while num:
num, rem = _divmod(num, base)
arr_append(alphabet[rem])
arr.reverse()
return ''.join(arr)

def decode(string, alphabet=BASE62):
"""Decode a Base X encoded string into the number

Arguments:
- `string`: The encoded string
- `alphabet`: The alphabet to use for decoding
"""
base = len(alphabet)
strlen = len(string)
num = 0

idx = 0
for char in string:
power = (strlen - (idx + 1))
num += alphabet.index(char) * (base ** power)
idx += 1

return num

bench(1, encode, decode)
###########################################################################################################
# Remove the `_@` below for base62, now it has 64 characters
BASE_ALPH = tuple(BASE62)
BASE_LIST = BASE62
BASE_DICT = dict((c, v) for v, c in enumerate(BASE_ALPH))

###########################################################################################################
BASE_LEN = len(BASE_ALPH)

def decode(string):
num = 0
for char in string:
num = num * BASE_LEN + BASE_DICT[char]
return num

def encode(num):
if not num:
return BASE_ALPH[0]

encoding = ""
while num:
num, rem = divmod(num, BASE_LEN)
encoding = BASE_ALPH[rem] + encoding
return encoding

bench(2, encode, decode)

###########################################################################################################
from django.utils import baseconv

bench(3, baseconv.base62.encode, baseconv.base62.decode)

###########################################################################################################
def encode(a):
baseit = (lambda a=a, b=62: (not a) and '0' or
baseit(a - a % b, b * 62) + '0123456789abcdefghijklmnopqrstuvwxyz'
'ABCDEFGHIJKLMNOPQRSTUVWXYZ'[
a % b % 61 or -1 * bool(a % b)])
return baseit()

bench(4, encode, decode)

###########################################################################################################
def encode(num, sym=BASE62, join_symbol=''):
if num == 0:
return sym[0]

l = len(sym)  # target number base
r = []
div = num
while div != 0:  # base conversion
div, mod = divmod(div, l)
r.append(sym[mod])

return join_symbol.join([x for x in reversed(r)])

bench(5, encode, decode)

###########################################################################################################
from math import floor

base = '0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ';
b = 62;

def decode(b62: str) -> int:
limit = len(b62)
res = 0
for i in range(limit):
res = b * res + base.find(b62[i])
return res

def encode(b10: int) -> str:
if b <= 0 or b > 62:
return 0
r = b10 % b
res = base[r];
q = floor(b10 / b)
while q:
r = q % b
q = floor(q / b)
res = base[int(r)] + res
return res

bench(6, encode, decode)

###########################################################################################################
def encode(dec):
s = '0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ'
return s[dec] if dec < 62 else encode(dec // 62) + s[int(dec % 62)]

def decode(b62):
s = '0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ'
if len(b62) == 1:
return s.index(b62)
x = decode(b62[:-1]) * 62 + s.index(b62[-1:]) % 62
return x

bench(7, encode, decode)

def encode(dec):
s = '0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ'
ret = ''
while dec > 0:
ret = s[dec % 62] + ret
dec //= 62
return ret

def decode(b62):
s = '0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ'
ret = 0
for i in range(len(b62) - 1, -1, -1):
ret = ret + s.index(b62[i]) * (62 ** (len(b62) - i - 1))
return ret

bench(8, encode, decode)

###########################################################################################################

def encode(num):
s = ""
while num > 0:
num, r = divmod(num, 62)
s = BASE62[r] + s
return s

def decode(num):
x, s = 1, 0
for i in range(len(num) - 1, -1, -1):
s = int(BASE62.index(num[i])) * x + s
x *= 62
return s

bench(9, encode, decode)

###########################################################################################################

def encode(number: int, alphabet=BASE62, padding: int = 22) -> str:
l = len(alphabet)
res = []
while number > 0:
number, rem = divmod(number, l)
res.append(alphabet[rem])
if number == 0:
break

def decode(digits: str, lookup=BASE_DICT) -> int:
res = 0
last = len(digits) - 1
base = len(lookup)
for i, d in enumerate(digits):
res += lookup[d] * pow(base, last - i)
return res

bench(10, encode, decode)

###########################################################################################################

for row in sorted(results):
print(row)
``````
• Django's, which I hoped was optimized, is the worst one. Feb 27, 2021 at 20:37
• Numba should help despite adding a warming overhead, but it didn't work here in python 3.8.5 Feb 27, 2021 at 20:45

Original javascript version:

``````var hash = "", alphabet = "0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ", alphabetLength =
alphabet.length;
do {
hash = alphabet[input % alphabetLength] + hash;
input = parseInt(input / alphabetLength, 10);
} while (input);
``````

Source: https://hashids.org/

python:

``````def to_base62(number):
alphabet = "0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ"
alphabetLength = len(alphabet)
result = ""
while True:
result = alphabet[number % alphabetLength] + result
number = int(number / alphabetLength)
if number == 0:
break
return result

print to_base62(59*(62**2) + 60*(62) + 61)
# result: XYZ
``````