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In Java, I can encode a BigInteger as:

java.math.BigInteger bi = new java.math.BigInteger("65537L");
String encoded = Base64.encodeBytes(bi.toByteArray(), Base64.ENCODE|Base64.DONT_GUNZIP);

// result: 65537L encodes as "AQAB" in Base64

byte[] decoded = Base64.decode(encoded, Base64.DECODE|Base64.DONT_GUNZIP);
java.math.BigInteger back = new java.math.BigInteger(decoded);

In C#:

System.Numerics.BigInteger bi = new System.Numerics.BigInteger("65537L");
string encoded = Convert.ToBase64(bi);
byte[] decoded = Convert.FromBase64String(encoded);
System.Numerics.BigInteger back = new System.Numerics.BigInteger(decoded);

How can I encode long integers in Python as Base64-encoded strings? What I've tried so far produces results different from implementations in other languages (so far I've tried in Java and C#), particularly it produces longer-length Base64-encoded strings.

import struct
encoded = struct.pack('I', (1<<16)+1).encode('base64')[:-1]
# produces a longer string, 'AQABAA==' instead of the expected 'AQAB'

When using this Python code to produce a Base64-encoded string, the resulting decoded integer in Java (for example) produces instead 16777472 in place of the expected 65537. Firstly, what am I missing?

Secondly, I have to figure out by hand what is the length format to use in struct.pack; and if I'm trying to encode a long number (greater than (1<<64)-1) the 'Q' format specification is too short to hold the representation. Does that mean that I have to do the representation by hand, or is there an undocumented format specifier for the struct.pack function? (I'm not compelled to use struct, but at first glance it seemed to do what I needed.)

share|improve this question
im assuming that it has something to do with padding the python output is padded while C# and java is not padded – Saddam Abu Ghaida Feb 8 '13 at 1:26
@SaddamAbuGhaida Yes, the binary representation of struct.pack has trailing \x00 characters which yield the extra padding. Does that mean that I have to trim the extra padding manually? – jbatista Feb 8 '13 at 1:29
yes you need to strip it – Saddam Abu Ghaida Feb 8 '13 at 1:30
you have your << the wrong way round – John La Rooy Feb 8 '13 at 1:59
Try looking at the numbers in hex: hex(16777472) is 0x1000100, while hex(65537) is 0x10001. Does that help you figure out what's going on? – abarnert Feb 8 '13 at 2:09
up vote 4 down vote accepted

The struct module:

… performs conversions between Python values and C structs represented as Python strings.

Because C doesn't have infinite-length integers, there's no functionality for packing them.

But it's very easy to write yourself. For example:

def pack_bigint(i):
    b = bytearray()
    while i:
        b.append(i & 0xFF)
        i >>= 8
    return b


def pack_bigint(i):
    bl = (i.bit_length() + 7) // 8
    fmt = '<{}B'.format(bl)
    # ...

And so on.

And of course you'll want an unpack function, like jbatista's from the comments:

def unpack_bigint(b):
    b = bytearray(b) # in case you're passing in a bytes/str
    return sum((1 << (bi*8)) * bb for (bi, bb) in enumerate(b))
share|improve this answer
Thanks! With your first example, I'm able to do something such as: bi = bytes(pack_bigint(i)); b64bi = base64.standard_b64encode(bi); – jbatista Feb 8 '13 at 11:05
@jbatista: Doesn't base64.standard_b64encode work directly on bytearray, so you don't need the bytes conversion? Or is that only in 3.x? – abarnert Feb 8 '13 at 11:12
I've tried in Python 2.6.6. base64.standard_b64encode doesn't work with a bytearray (it produces a TypeError), but it works if I previously surround with a bytes() around the returning bytearray. – jbatista Feb 8 '13 at 11:13
To complement your answer: def unpack_bigint(b): n=0L; for bi,bb in enumerate(b): n+=(1<<(bi*8))*ord(bb); return n; – jbatista Feb 8 '13 at 12:47
@jbatista: Yeah, I probably should have given one pack and one unpack, instead of 1-1/2 packs… I'll add yours to the answer. But you might as well use bytearray again, so you don't need the ord on each character. (If you have huge bigints, this might be wasteful—but then the OP is already converting the bytearray from pack into a bytes.) – abarnert Feb 11 '13 at 18:12

Check out this page on converting integer to base64.

import base64
import struct

def encode(n):
    data = struct.pack('<Q', n).rstrip('\x00')
    if len(data)==0:
        data = '\x00'
    s = base64.urlsafe_b64encode(data).rstrip('=')
    return s

def decode(s):
    data = base64.urlsafe_b64decode(s + '==')
    n = struct.unpack('<Q', data + '\x00'* (8-len(data)) )
    return n[0]
share|improve this answer
This doesn't work for numbers larger than 1<<63, which the OP specifically asked for. – abarnert Feb 8 '13 at 2:11
+1 for answering the other half of the problem, however. – abarnert Feb 8 '13 at 2:18
The code doesn't work as-is. However, if you change 'x00' to '\x00' it works. I think the blog software processed away his backslashes. Those are supposed to be constants for char 0. You could also put chr(0) there. – steveha Feb 8 '13 at 2:37
Edited, thanks! – msc Feb 8 '13 at 2:48
@msc Gah! I didn't know about rstrip. Thanks. – jbatista Feb 8 '13 at 12:20

Here is something that may help. Instead of using struct.pack() I am building a string of bytes to encode and then calling the BASE64 encode on that. I didn't write the decode, but clearly the decode can recover an identical string of bytes and a loop could recover the original value. I don't know if you need fixed-size integers (like always 128-bit) and I don't know if you need Big Endian so I left the decoder for you.

Also, encode64() and decode64() are from @msc's answer, but modified to work.

import base64
import struct

def encode64(n):
  data = struct.pack('<Q', n).rstrip('\x00')
  if len(data)==0:
    data = '\x00'
  s = base64.urlsafe_b64encode(data).rstrip('=')
  return s

def decode64(s):
  data = base64.urlsafe_b64decode(s + '==')
  n = struct.unpack('<Q', data + '\x00'* (8-len(data)) )
  return n[0]

def encode(n, big_endian=False):
    lst = []
    while True:
        n, lsb = divmod(n, 0x100)
        if not n:
    if big_endian:
        # I have not tested Big Endian mode, and it may need to have
        # some initial zero bytes prepended; like, if the integer is
        # supposed to be a 128-bit integer, and you encode a 1, you
        # would need this to have 15 leading zero bytes.
        initial_zero_bytes = '\x00' * 2
        data = initial_zero_bytes + ''.join(reversed(lst))
        data = ''.join(lst)
    s = base64.urlsafe_b64encode(data).rstrip('=')
    return s

print encode(1234567890098765432112345678900987654321)
share|improve this answer

This is a bit late, but I figured I'd throw my hat in the ring:

def inttob64(n):                                                              
    Given an integer returns the base64 encoded version of it (no trailing ==)
    parts = []                                                                
    while n:                                                                  
        parts.insert(0,n & limit)                                             
        n >>= 32                                                              
    data = struct.pack('>' + 'L'*len(parts),*parts)                           
    s = base64.urlsafe_b64encode(data).rstrip('=')                            
    return s                                                                  

def b64toint(s):                                                              
    Given a string with a base64 encoded value, return the integer representation
    of it                                                                     
    data = base64.urlsafe_b64decode(s + '==')                                 
    n = 0                                                                     
    while data:                                                               
        n <<= 32                                                              
        (toor,) = struct.unpack('>L',data[:4])                                
        n |= toor & 0xffffffff                                                
        data = data[4:]                                                       
    return n

These functions turn an arbitrary-sized long number to/from a big-endian base64 representation.

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