Here's an example of @Inspired's method with n as the first three letters of the alphabet and r = 3:

```
alphabet = [ 'a', 'b', 'c' ]
def symbolic_increment( symbol, alphabet ):
## increment our "symbolic" number by 1
symbol = list(symbol)
## we reverse the symbol to maintain the convention of having the LSD on the "right"
symbol.reverse()
place = 0;
while place < len(symbol):
if (alphabet.index(symbol[place])+1) < len(alphabet):
symbol[place] = alphabet[alphabet.index(symbol[place])+1]
break
else:
symbol[place] = alphabet[0];
place+=1
symbol.reverse()
return ''.join(symbol)
permutations=[]
r=3
start_symbol = alphabet[0] * (r)
temp_symbol = alphabet[0] * (r)
while 1:
## keep incrementing the "symbolic number" until we get back to where we started
permutations.append(temp_symbol)
temp_symbol = symbolic_increment( temp_symbol, alphabet)
if( temp_symbol == start_symbol ): break
```

You can also probably do it with itertools:

```
from itertools import product
r=3
for i in xrange(r-1):
if (i==0):
permutations = list(product(alphabet, alphabet))
else:
permutations = list(product(permutations, alphabet))
permutations = [ ''.join(item) for item in permutations ]
```