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You probably do not want real base64 encoding for this - it will add padding etc, potentially even resulting in larger strings than hex would for small numbers. If there's no need to interoperate with anything else, just use your own encoding. Eg. here's a function that will encode to any base (note the digits are actually stored least-significant first to avoid extra reverse() calls:

def make_encoder(baseString):
    size = len(baseString)
    d = dict((ch, i) for (i, ch) in enumerate(baseString)) # Map from char -> value
    if len(d) != size:
        raise Exception("Duplicate characters in encoding string")

    def encode(x):
        if x==0: return baseString[0]  # Only needed if don't want '' for 0
        l=[]
        size = len(baseString)
        while x>0:
            l.append(baseString[x % size])
            x //= size
        return ''.join(l)

    def decode(s):
        return sum(d[ch] * size**i for (i,ch) in enumerate(s))

    return encode, decode

# Base 64 version:
encode,decode = make_encoder("ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/")

assert decode(encode(435346456456)) == 435346456456

This has the advantage that you can use whatever base you want, just by adding appropriate characters to the encoder's base string.

Note that the gains for larger bases are not going to be that big however. base 64 will only reduce the size to 2/3rds of base 16 (6 bits/char instead of 4). Each doubling only adds one more bit per character. Unless you've a real need to compact things, just using hex will probably be the simplest and fastest option.
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You probably do not want real base64 encoding for this - it will add padding etc, potentially even resulting in larger strings than hex would for small numbers. If there's no need to interoperate with anything else, just use your own encoding. Eg. here's a function that will encode to any base (note the digits are actually stored least-significant first to avoid extra reverse() calls:

def make_encoder(baseString):
    size = len(baseString)
    d = dict((ch, i) for (i, ch) in enumerate(baseString)) # Map from char -> value
    if len(d) != size:
        raise Exception("Duplicate characters in encoding string")

    def encode(x):
        if x==0: return baseString[0]  # Only needed if don't want '' for 0
        l=[]
        size = len(baseString)
        while x>0:
            l.append(baseString[x % size])
            x //= size
        return ''.join(l)

    def decode(s):
        return sum(d[ch] * size**i for (i,ch) in enumerate(s))

    return encode, decode

# Base 64 version:
encode,decode = make_encoder("ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/")

assert decode(encode(435346456456)) == 435346456456

This has the advantage that you can use whatever base you want, just by adding appropriate characters to the encoder's base string.

Note that the gains for larger bases are not going to be that big however. base 64 will only reduce the size to 2/3rds of base 16 (6 bits/char instead of 4). Each doubling only adds one more bit per character. Unless you've a real need to compact things, just using hex will probably be the simplest and fastest option.
show/hide this revision's text 1

You probably do not want real base64 encoding for this - it will add padding etc, potentially even resulting in larger strings than hex would for small numbers. If there's no need to interoperate with anything else, just use your own encoding. Eg. here's a function that will encode to any base (note the digits are actually stored least-significant first to avoid extra reverse() calls:

def make_encoder(baseString):
    size = len(baseString)
    d = dict((ch, i) for (i, ch) in enumerate(baseString)) # Map from char -> value
    if len(d) != size:
        raise Exception("Duplicate characters in encoding string")

    def encode(x):
        if x==0: return baseString[0]  # Only needed if don't want '' for 0
        l=[]
        size = len(baseString)
        while x>0:
            l.append(baseString[x % size])
            x //= size
        return ''.join(l)

    def decode(s):
        return sum(d[ch] * size**i for (i,ch) in enumerate(s))

    return encode, decode

# Base 64 version:
encode,decode = make_encoder("ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/")

assert decode(encode(435346456456)) == 435346456456

This has the advantage that you can use whatever base you want, just by adding appropriate characters to the encoder's base string.