### Encoding the integers

You could use a reversible encoding for your integers:

```
def int_str(val, keyspace):
""" Turn a positive integer into a string. """
assert val >= 0
out = ""
while val > 0:
val, digit = divmod(val, len(keyspace))
out += keyspace[digit]
return out[::-1]
def str_int(val, keyspace):
""" Turn a string into a positive integer. """
out = 0
for c in val:
out = out * len(keyspace) + keyspace.index(c)
return out
```

Quick testing code:

```
keyspace = "fw59eorpma2nvxb07liqt83_u6kgzs41-ycdjh" # Can be anything you like - this was just shuffled letters and numbers, but...
assert len(set(keyspace)) == len(keyspace) # each character must occur only once
def test(v):
s = int_str(v, keyspace)
w = str_int(s, keyspace)
print "OK? %r -- int_str(%d) = %r; str_int(%r) = %d" % (v == w, v, s, s, w)
test(1064463423090)
test(4319193500)
test(495689346389)
test(2496486533)
```

outputs

```
OK? True -- int_str(1064463423090) = 'antmgabi'; str_int('antmgabi') = 1064463423090
OK? True -- int_str(4319193500) = 'w7q0hm-'; str_int('w7q0hm-') = 4319193500
OK? True -- int_str(495689346389) = 'ev_dpe_d'; str_int('ev_dpe_d') = 495689346389
OK? True -- int_str(2496486533) = '1q2t4w'; str_int('1q2t4w') = 2496486533
```

### Obfuscating them and making them non-continuous

To make the IDs non-contiguous, you could, say, multiply the original value with some arbitrary value, add random "chaff" as the digits-to-be-discarded - with a simple modulus check in my example:

```
def chaffify(val, chaff_size = 150, chaff_modulus = 7):
""" Add chaff to the given positive integer.
chaff_size defines how large the chaffing value is; the larger it is, the larger (and more unwieldy) the resulting value will be.
chaff_modulus defines the modulus value for the chaff integer; the larger this is, the less chances there are for the chaff validation in dechaffify() to yield a false "okay".
"""
chaff = random.randint(0, chaff_size / chaff_modulus) * chaff_modulus
return val * chaff_size + chaff
def dechaffify(chaffy_val, chaff_size = 150, chaff_modulus = 7):
""" Dechaffs the given chaffed value. The chaff_size and chaff_modulus parameters must be the same as given to chaffify() for the dechaffification to succeed.
If the chaff value has been tampered with, then a ValueError will (probably - not necessarily) be raised. """
val, chaff = divmod(chaffy_val, chaff_size)
if chaff % chaff_modulus != 0:
raise ValueError("Invalid chaff in value")
return val
for x in xrange(1, 11):
chaffed = chaffify(x)
print x, chaffed, dechaffify(chaffed)
```

outputs (with randomness):

```
1 262 1
2 440 2
3 576 3
4 684 4
5 841 5
6 977 6
7 1197 7
8 1326 8
9 1364 9
10 1528 10
```

**EDIT:** On second thought, the randomness of the chaff may not be a good idea, as you lose the canonicality of each obfuscated ID -- this lacks the randomness but still has validation (changing one digit will likely invalidate the whole number if `chaff_val`

is Large Enough).

```
def chaffify2(val, chaff_val = 87953):
""" Add chaff to the given positive integer. """
return val * chaff_val
def dechaffify2(chaffy_val, chaff_val = 87953):
""" Dechaffs the given chaffed value. chaff_val must be the same as given to chaffify2(). If the value does not seem to be correctly chaffed, raises a ValueError. """
val, chaff = divmod(chaffy_val, chaff_val)
if chaff != 0:
raise ValueError("Invalid chaff in value")
return val
```

### Putting it all together

```
document_id = random.randint(0, 1000000)
url_fragment = int_str(chaffify(document_id))
print "URL for document %d: http://example.com/%s" % (document_id, url_fragment)
request_id = dechaffify(str_int(url_fragment))
print "Requested: Document %d" % request_id
```

outputs (with randomness)

```
URL for document 831274: http://example.com/w840pi
Requested: Document 831274
```