# List all possible permutations of string with maximum repeated characters

I need to produce all possible 10 character strings made up of the letters 'ABCDE'. However, strings containing 3 or more consecutive occurrences of the same letter are considered invalid. Is there a fast way to do so?

My current code is as follows:

``````import itertools as it
import re
def check_pattern(possible_string):
reg=re.compile(r'(\w).*\1{3,}')
if reg.match(possible_string):
return False
else:
return True

st='ABCDE'

for x in it.product(st, repeat=10):
out=''.join(x)
if check_pattern(out):
print(out)
``````

Is there a more optimized way of doing it?

• I wouldn't worry too much about your approach, strings containing 3 or more consecutive equal letters are less than 5% of all possible strings. Oct 22 at 1:34
• Although it may be less than 5% of all possible strings, it still takes a while before anything is generated. The above starts generating the following: AAAAAAAAAA AAAAAAAAAB AAAAAAAAAC AAAAAAAAAD AAAAAAAAAE AAAAAAAABA ...... so on and so forth. It would take some time before a valid string is seen. Oct 22 at 1:39
• what does "it takes a while" mean ... its pretty fast on my machine(1.6s) ... using pandas it actually took over 2s Oct 22 at 1:59

Your code is buggy, for example this string `AAABAABAAB` shouldn't work, but it does.

Here's a generator that does what you're looking for:

``````def generate(alphabet, length=10, max_repeat=2):
if length == 0:
yield ''
return

for c in alphabet:
for gen in generate(alphabet, length - 1, max_repeat):
if gen[:max_repeat] == c * max_repeat:
continue
yield c + gen

for s in generate('ABCDE'):
print(s)
``````

This approach is not a lot different than your original: generate all the products and only print the ones that don't have repeats. However, it uses `itertools.filterfalse()` with a defined function `has_repeats` to check whether each product has a character repeated more than the allowable number of times:

``````import itertools as it

def has_repeats(product_str, max_repeat=2):
"""Check if product_str has no character repeated more than some number of times."""

window = []
for i in product_str:
if window == []:
window.append(i)
elif i == window[-1]:
window.append(i)
if len(window) > max_repeat:
return True
else:
window = [i]

return False

def products_no_repeats(input, length=10, max_repeat=2):
return it.filterfalse(lambda x: has_repeats(x, max_repeat), it.product(input, repeat=length))

input = 'ABCDE'

for p in products_no_repeats(input):
print(''.join(p))
``````

We can compare this to @Francisco's answer by summing up the number of generated strings and timing how long that took in seconds:

``````import time
t0 = time.time()
def generate(alphabet, length=10, max_repeat=2):
if length == 0:
yield ''
return

for c in alphabet:
for gen in generate(alphabet, length - 1, max_repeat):
if gen[:max_repeat] == c * max_repeat:
continue
yield c + gen

input = 'ABCDE'
num_generated = sum(1 for _ in generate('ABCDE'))
t1 = time.time()
print(num_generated, t1-t0)
``````

Prints: `7348480 19.735414266586304`

The code above, timed:

``````import itertools as it
import time

t0 = time.time()

def has_repeats(product_str, max_repeat=2):
"""Check if product_str has no character repeated more than some number of times."""

window = []
for i in product_str:
if window == []:
window.append(i)
elif i == window[-1]:
window.append(i)
if len(window) > max_repeat:
return True
else:
window = [i]

return False

def products_no_repeats(input, length=10, max_repeat=2):
return it.filterfalse(lambda x: has_repeats(x, max_repeat), it.product(input, repeat=length))

input = 'ABCDE'
num_products = sum(1 for _ in products_no_repeats(input))
t1 = time.time()
print(num_products, t1-t0)
``````

Prints `7348480 11.044001817703247`