4

I want to spit out a list of palindromes until a certain letter I give.

It's about this part:

def pyramid_palindrome(last_letter):
    for letter in range(97,last_letter):
        last_letter = last_letter - (last_letter-1)
        print call_first_part_palindrome(last_letter)
        print call_second_part_palindrome(last_letter)

What I'd want is, to do this:

a
aba
abcba
abcdcba
abcdedcba
abcdefedbca
abcdefgfedcba
abcdefghgfedcba
....

I am thinking like this:

"I will give the last letter as an input, and it will keep iterating the palindrome until the last letter is being checked."

The problem is that I can't manage to spit out the palindromes one by one, ascending it just like a pyramid. Can someone point me in the right direction?

Am I right when I say I need to use a for loop in the first function?

This is my full code:

def pyramid_palindrome(last_letter):
    for letter in range(97,last_letter):
        last_letter = last_letter - (last_letter-1)
        print call_first_part_palindrome(last_letter)
        print call_second_part_palindrome(last_letter)

def call_first_part_palindrome(last_letter):

    letters_a_to_y = ""             

    for letter in range(97,last_letter):
        letters_a_to_y += chr(letter) 

    return(letters_a_to_y)

def call_second_part_palindrome(last_letter): 

    letters_y_to_a = ""

    for letter in range(last_letter,96,-1): 
        letters_y_to_a += chr(letter)

    return(letters_y_to_a)

pyramid_palindrome(112)

I think I am close, but can't make the finishing touch.

1
  • 3
    last_letter = last_letter - (last_letter-1). This is equivalent to last_letter = 1, right?
    – S. de Melo
    Nov 18, 2016 at 10:51

3 Answers 3

3

Your this entire logic could be simplified using string slicing along with string.ascii_lower as:

import string
alphs = string.ascii_lowercase   # returns string of lower case characters
last_letter = 'f'

for i in range(len(alphs)):
    print alphs[:i]+alphs[i::-1]
    if alphs[i] == last_letter:  # break the loop when `last_letter` is found
        break

which will generate output as:

a
aba
abcba
abcdcba
abcdedcba
abcdefedcba    

Edit: If you do not want to import string, you may get the string of lowercase characters via using:

alphs = ''.join(chr(i) for i in range(97,123))
6
  • Thanks mate, but I'd prefer it doing it with a for loop. Can you help me with that? I am trying to use as less import functions as possible.
    – Siyah
    Nov 18, 2016 at 10:36
  • 1
    The problem of your proposal is that it does not stop in a desired letter, as in the OP is asked
    – Jalo
    Nov 18, 2016 at 10:36
  • If you substitute string.ascii_lowercase by range (97, last_letter) you don't need to import string
    – Jalo
    Nov 18, 2016 at 10:39
  • 1
    Editted the answer to do it without importing string. But still, doing string.ascii_lower is better than creating the string explicitly. Also, updated code to consider last_letter Nov 18, 2016 at 10:44
  • 1
    try print alphs[:i] + alphs[i::-1]
    – furas
    Nov 18, 2016 at 10:44
1

Your problem was when calling your two palindrome functions and on how you were changing the value for last_letter-

I tried to modify your code as little as possible:

def pyramid_palindrome(last_letter):
    for letter in range(97,last_letter):
        print(call_first_part_palindrome(letter) + call_second_part_palindrome(letter-2))

And this remains the same:

def call_first_part_palindrome(last_letter):

    letters_a_to_y = ""             

    for letter in range(97,last_letter):
        letters_a_to_y += chr(letter) 

    return(letters_a_to_y)

def call_second_part_palindrome(last_letter): 

    letters_y_to_a = ""

    for letter in range(last_letter,96,-1): 
        letters_y_to_a += chr(letter)

    return(letters_y_to_a)

pyramid_palindrome(112)

Which outputs:

a
aba
abcba
abcdcba
abcdedcba
abcdefedcba
abcdefgfedcba
abcdefghgfedcba
abcdefghihgfedcba
abcdefghijihgfedcba
abcdefghijkjihgfedcba
abcdefghijklkjihgfedcba
abcdefghijklmlkjihgfedcba
abcdefghijklmnmlkjihgfedcba
2
  • 1
    Genius! Thanks man, I see what I did wrong there now. Thank you a bunch!
    – Siyah
    Nov 18, 2016 at 10:58
  • Anyway @Siyah this is not the best way to acomplish this task. The other answers provide much more efficient solutions Nov 18, 2016 at 11:39
1

Your code is more complicated than it needs to be, and does unnecessary work generating each string of letters from scratch.

I'm not sure why you don't want to import the letter string from the string module, but you can easily generate the string of letters once and then slice it to get the substrings required to build each palindrome. The code below works on Python 2 or 3.

def pyramid_palindrome(last_letter):
    letters = ''.join([chr(i) for i in range(97, last_letter)])
    for i in range(last_letter - 97):
        print(letters[:i] + letters[i::-1])

pyramid_palindrome(102)

output

a
aba
abcba
abcdcba
abcdedcba

Alternatively, keep letters as a list and use .join on the sliced lists:

def pyramid_palindrome(last_letter):
    letters = [chr(i) for i in range(97, last_letter)]
    for i in range(last_letter - 97):
        print(''.join(letters[:i] + letters[i::-1]))

It's theoretically faster to add two lists than two strings, although there are optimizations in CPython for small strings so you may not notice the difference unless the strings are longer than 1000 or so. OTOH, calling .join once on letters is probably better than calling it for each palindrome.


Here's a minor variation of the first version. We save all the palindromes into a list of strings. Then the caller can join that list of strings into one string and print it with one print call.

def pyramid_palindrome(last_letter):
    letters = [chr(i) for i in range(97, last_letter)]
    return [''.join(letters[:i] + letters[i::-1])
        for i in range(last_letter - 97)]

print('\n'.join(pyramid_palindrome(102)))

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