It is possible to compute the index in the requested way without building a list of all possible strings, but it is a bit involved to do this. Here is an implementation of an efficient method to do this:

```
import itertools
import string
letters = string.ascii_lowercase
def _reference(max_len=4):
"""A reference implementation of the desired index operation."""
a = []
for k in range(max_len + 1):
for comb in itertools.combinations(letters, k):
a.append("".join(comb))
return a.index
def choose(n, k):
"""The binomial coefficient "n choose k"."""
if k < 0:
return 0
result = 1
for i in range(k):
result *= n - i
result //= i + 1
return result
def index(s):
"""An efficient implementation of the index operation."""
n = len(s)
choices = len(letters)
result = 0
for i, c in enumerate(s):
new_choices = len(letters) - letters.index(c)
result += choose(choices, n - i) - choose(new_choices, n - i)
choices = new_choices - 1
for i in range(n):
result += choose(len(letters), i)
return result
test_strings =[
"a", "j", "ab", "az", "jw", "yz", "abc", "abhors", "almost",
"begins", "bijoux", "biopsy", "chimps", "chinos", "chintz"]
ref_index = _reference(max(map(len, test_strings)))
for s in test_strings:
print "{0:8}{1:8}{2:8}".format(s, index(s), ref_index(s))
```

This script compares the output of the efficient function with a brute force implementation, and the output is

```
a 1 1
j 10 10
ab 27 27
az 51 51
jw 228 228
yz 351 351
abc 352 352
abhors 91047 91047
almost 133902 133902
begins 154337 154337
bijoux 171130 171130
biopsy 172655 172655
chimps 201678 201678
chinos 201734 201734
chintz 201781 201781
```

`"z"`

and`"aa"`

? It seems both should give 26. Is this correct? – Sven Marnach Mar 21 '12 at 15:03