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I came across the following problem while preparing for an exam:

Imagine an alphabet of words. Example:

a ==> 1
b ==> 2
c ==> 3
z ==> 26
ab ==> 27
ac ==> 28
az ==> 51
bc ==> 52
and so on.

The sequence of characters needs to be in ascending order only (i.e. 'ab' is valid but 'ba' is not).

Question: Given any word, print its index if valid and 0 if not.

Input Output
ab 27
ba 0
aez 441 

Any pointers on how to solve this would be appreciated.

share|improve this question
Did you try anything? What didn't work? You need to ask a specific question. – Carl Norum Jul 16 '13 at 17:27
@hivert: aa is not in "ascending order". – Nemo Jul 16 '13 at 17:32
I don't think you want an algorithm. I think you want a formula. – Bigtoes Jul 16 '13 at 17:34
@Geobits Probably, though if that's the case, the OP probably would benefit to see how the formula was derived. – Dennis Meng Jul 16 '13 at 17:37
Duplicate: stackoverflow.com/questions/17495167/… – enderx1x Jul 16 '13 at 20:15
up vote 7 down vote accepted

Let me give you a few hints:

  • Can you find a formula for the number of such words of a given length k ?
  • Now fix a length k, and a letter l. How many word of length k starting with l are they ?

Hint: Pascal triangle. If you need some more hint, http://en.wikipedia.org/wiki/Combinadic can help. If you need some implementation, you can get inspiration from the rank function defined in (Python language) https://github.com/sagemath/sagelib/blob/master/sage/combinat/choose_nk.py

share|improve this answer
You mean, like, count the ways to choose k letters out of 26? And so on? :-) – Nemo Jul 16 '13 at 17:50
This seems interesting. Let me scratch my head on this. :D – Karan Kalra Jul 16 '13 at 17:51
For k=1, there would be 26 such words. For k=2, there would be (25+24+...+1+0) such words. For k=3, there would be ((24+23+...+1) + (23+22+...+1) + (22+21+...+1) + ... + (2+1) + (1)) such words. This somewhat seems Dynamic Programming to me. :S – Karan Kalra Jul 16 '13 at 18:09
Yes ! If you want to compute the full association table, this is closely related to computing pascal triangle by some kind of Dynamic Programming algorithm. – hivert Jul 16 '13 at 18:13
  1. make sure the input is letters only. Fail if not.
  2. Setup a loop based on the string length minus 1.
  3. "Subtract" the value of the first letter in the string from the next. If the value is zero or positive, you are done as the string is non-ascending so return 0.
  4. Repeat by moving up the string one letter at a time checking the next letter.
  5. If you get to the end, it is an ascending order string.

To be fair, I have not mentioned an algorithm on how to calculate the index value, just the exit case. But it gives you a start in the right direction and calculating the index will follow the same framework.

More Info:

Start counting upwards on first letter. When you hit 'z', reset to next valid string and keep counting -> "aa" fails don't count it. Add to next which here is "ab". Once you hit "az", try "ba" - fail, keep adding letters until you get a valid string "bc" and start counting again. It's like an odometer that counts upwards.

Dang slow, but it should work as it is what you do manually to get the answer.

BTW, there is a much more elegant solution hinted at by @hivert that would be nearly instant to calculate...

share|improve this answer
I think you are skipping the hard part of the question. – Nemo Jul 16 '13 at 17:44
I'm trying to leave as much meat on the bone as possible for OP. I wasn't sure how much "help" he was looking for at first, so I gave just a small framework hint to start. I can (try to?) add more later if needed. It could always be done as a brute force if needed pretty simply. Just count up and when you hit the end of the alphabet, "adjust" :) – Michael Dorgan Jul 16 '13 at 17:46
@MichaelDorgan: I was able to come up with something similar to discard the invalid sequences. Generating the output for a valid string is what is troubling me. :) – Karan Kalra Jul 16 '13 at 17:48
There is a mathematical solution hinted at by @hivert – Nemo Jul 16 '13 at 17:49
Got it - Ok, I'll add a brute force approach real quick then. Others can handle a more elegant solution such as the answer from below ;) – Michael Dorgan Jul 16 '13 at 17:49

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