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The objective is to convert an array like a3b5c2 to aaabbbbbcc in-place. I have a solution:

  • Assuming that the array is of infinite size,
  • I parse the array from the end.
  • look for a number (say n)
  • depending on how many digits I get, I look for the next character.
  • When I get it, I move the elements from current position through end of array by n-1 positions.
  • Fill the open positions with the encountered character.

The complexity of this solution will be O(n^2). Is there a solution with complexity less than O(n^2)?

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There is an O(n) answer. –  Bailey S Nov 20 '12 at 21:56
array is of infinite size If array size is infinite, how do you start from the end? :) –  Blue Moon Nov 20 '12 at 21:56
If you have an array of infinite size, maybe that computer is pretty valuable! –  Bailey S Nov 20 '12 at 21:57
@KingsIndian I meant that you don't need to worry about the size! This works equally well if you parse from the beginning too! –  Vaishak Suresh Nov 20 '12 at 21:57

1 Answer 1

up vote 3 down vote accepted

If you parse the array once, you can know where the last element will be by summing all the numerical values.

Parse it once and find its final size.

Once you do that, start filling it from the "end" (from where its final value will be): 2 times c, then 5 times b...

This is a O(n) in-place solution.


As srbh.kmr said in comments, this won't work if the array has a series of badly-placed characters repeated only one time. For instance, if we have the array a1b1c1d1e7, the answer above will erase the last letters.

The only number that causes issues is 1, and we can treat it in O(n):

Before treating the array as explained above, eliminate those ones. Starting from the beginning, parse the array and each time a 1 is found, erase it and move the remaining letters forward (not the whole remaining array, just the next characters). If several 1s are found in the array, the hole between the first and second parts of the array will get bigger. For the example array above, the steps look like this:

// First parse gives length = 1+1+1+1+7

// Repair ones
a b1c1d1e7
ab 1c1d1e7
ab  c1d1e7
abc  1d1e7
abc   d1e7
abcd   1e7
abcd    e7
abcde    7

Then, apply the algorithm above. If no number is found after a character, just copy the character to its position at the end of the array:

// Fill final array
abcde7    x
          ^ 11th position
abcde     e
abcde    ee
abcde   eee
abcde  eeee
abcde eeeee
abcdeeeeeee  // Here we overwrite the first "e"
abcdeeeeeee  // Then we see there are lone letters (4 times), so we leave them.
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We could possibly be overwriting the information. Consider: a1b7c2 Am I missing something here ? –  srbhkmr Nov 20 '12 at 22:01
I am assuming that when you say start filling from the end, you also mean that I parse from the current array's end. –  Vaishak Suresh Nov 20 '12 at 22:03
@srbh.kmr Nice point. In your example it works, but it's out if luck! We can imagine something like a1b1c1d1e7 and that would be problematic... It's the 1s that cause this. I'm thinking about it... –  alestanis Nov 20 '12 at 22:05
@VaishakSuresh For the counting you can parse in any way. For the filling, yes, you have to start from the last letters of course. –  alestanis Nov 20 '12 at 22:05
@VaishakSuresh That's what I did, I just illustrated each step, a step being one letter changes. –  alestanis Nov 20 '12 at 22:29

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