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A word is grouped if, for each letter in the word, all occurrences of that letter form exactly one consecutive sequence. In other words, no two equal letters are separated by one or more letters that are different.

Given a vector<string> return the number of grouped words.

For example :

{"ab", "aa", "aca", "ba", "bb"}

return 4.

Here, "aca" is not a grouped word.

My quick and dirty solution :

int howMany(vector <string> words) {
  int ans = 0;
  for (int i = 0; i < words.size(); i++) {
       bool grouped = true;
  for (int j = 0; j < words[i].size()-1; j++)
      if (words[i][j] != words[i][j+1])
         for (int k = j+1; k < words[i].size(); k++)
           if (words[i][j] == words[i][k])
              grouped = false;
           if (grouped) ans++;
   return ans;

I want a better algorithm for the same problem.

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@ Justin & R Samuel Klatchko : OOPs typo !Fixed. –  whacko__Cracko Feb 11 '10 at 19:59
One easy thing that could really speed up your algorithm is putting in a break after grouped = false; You would also need to check if grouped is false and break again to get out of the outer loop which adds a little overhead. However, this would stop checking if a word is grouped right when it is found to not be grouped which could really speed it up. –  Justin Peel Feb 11 '10 at 20:14
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7 Answers

up vote 1 down vote accepted

Just considering one word, here is an O(n log n) destructive algorithm:

std::string::iterator unq_end = std::unique( word.begin(), word.end() );
std::sort( word.begin(), unq_end );
return std::unique( word.begin(), unq_end ) == unq_end;

Edit: The first call to unique reduces runs of consecutive letters to single letters. The call to sort groups identical letters together. The second call to unique checks whether sort formed any new groups of consecutive letters. If it did, then the word must not be grouped.

Advantage over the others posted is that it doesn't require storage — although that's not much of an advantage.

Here's a simple version of the alternative algo, also requiring only O(1) storage (and yes, also tested):

if ( word.empty() ) return true;
bitset<CHAR_MAX+1> symbols;
for ( string::const_iterator it = word.begin() + 1; it != word.end(); ++ it ) {
    if ( it[0] == it[-1] ) continue;
    if ( symbols[ it[0] ] ) return false;
    symbols[ it[-1] ] = true;
return ! symbols[ * word.rbegin() ];

Note that you would need minor modifications to work with characters outside ASCII. bitset comes from the header <bitset>.

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That will not work.Did you checked ? –  whacko__Cracko Feb 11 '10 at 20:06
Yes, I just did and it does work. What is the problem with it? –  Potatoswatter Feb 11 '10 at 20:11
I considered word as vector<string> –  whacko__Cracko Feb 11 '10 at 20:15
No, this is only for one word, so word is a string –  Justin Peel Feb 11 '10 at 20:17
Lovely, I like your solution :) –  whacko__Cracko Feb 11 '10 at 20:20
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Try the following :

bool isGrouped( string const& str )
  set<char> foundCharacters;
  char currentCharacter='\0';

  for( int i = 0 ; i < str.size() ; ++i )
    char c = str[i];
    if( c != currentCharacter )
      if( foundCharacters.insert(c).second )
        currentCharacter = c;
        return false;
  return true;
share|improve this answer
@ Benoît : Nice one ! –  whacko__Cracko Feb 11 '10 at 20:17
+1. Just my 2 cents: you're looking up each character twice (one in find and another one in insert). There's an overload of insert that can be used to avoid that (the overload that returns a pair<iterator,bool> –  Manuel Feb 11 '10 at 20:23
@Manuel : thanks for the tip. I updated my answer to use insert efficiently. –  Benoît Feb 11 '10 at 20:43
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You could use a Set of some kind (preferable one with O(1) insertion and lookup times).

Each time you encounter a character that differs from the previous one, check if the set contains it. If it does, your match fails. If it doesn't, add it to the set and carry on.

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Yes that will work,my initial thoughts is like this. –  whacko__Cracko Feb 11 '10 at 20:09
@Anon. I guess we had the same idea... –  Benoît Feb 11 '10 at 20:15
I suppose a set with O(1) insertion and lookup would be also known as array (for char which has a really limited range) - or a bitset as in Potatoswatter's answer. –  UncleBens Feb 11 '10 at 23:03
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This might work in two loops per word:

1) Loop over the word counting the number of distinct symbols that appear. (This will require extra storage at most equal to the length of the string - probably some sort of hash.)

2) Loop over the word counting the number of times symbol n is different from symbol n+1.

If those two values aren't different by exactly one, the word is not grouped.

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My solution also uses two loops per word. –  whacko__Cracko Feb 11 '10 at 20:03
and there should be one more distinct symbol than number of times n is different from symbol n+1. You can use a set to find the number of distinct symbols. –  Justin Peel Feb 11 '10 at 20:04
That's quite true. The loops in your algorithm are nested, though, where these aren't (though there may be an implicit nested loop in the creation of the list of distinct symbols). –  Bill Carey Feb 11 '10 at 20:07
This is O(n), while the asker's solution is O(n^2). –  Anon. Feb 11 '10 at 20:07
@ Bill Carey : Yes,there may be an implicit nested loop in the creation of the list of distinct symbols. –  whacko__Cracko Feb 11 '10 at 20:12
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Here's a way with two loops per word, except one of the loops isn't up until the word length, but up until the alphabet size. Worst case is O(N*L*s), where N = number of words, L = length of words, s = alphabet size:

for each word wrd:
  for each character c in the alphabet:
    for each letter i in wrd:
      let poz = last position of character c in wrd. initially poz = -1
      if ( poz == -1 && c == wrd[i] )
         poz = i;
      else if ( c == wrd[i] && poz != i - 1 )
         // definitely not grouped, as it's separated by at least one letter from the prev sequence
  // grouped if the above else condition never executed

basically, checks if every letter in the alphabet either doesn't exist or it appears in only one substring of that letters.

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We can do better: O(N(L + s^2)) if we keep this information for each word: first[i] = first occurrence of character i in the current word, last[i] = last occurrence of character i in the current word. These can be found with one traversal of the word. Now, for each character c, check if there is a character c' != c such that first[c] < first[c'] < last[c]. If found, the word is not grouped. –  IVlad Feb 11 '10 at 20:26
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    public static Boolean isGrouped( String input )
        char[] c = input.ToCharArray();
        int pointer = 0;
        while ( pointer < c.Length - 1 )
            char current = c[pointer];
            char next = c[++ pointer];
            if (   next != current && 
                 ( next + 1 ) != current && 
                 ( next - 1 ) == current 
               ) return false; 
        return true;

(C# but the principal applies)

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Here is a multi-line, verbose, regexp to match failures:

    (?:         # Non capturing group of ...
      (\S)\1*   # One or more of any non space character (capured).
    (?!         # Then a position without
      \1        # ... the captured character
    ).+         # ... at least once.
    \1          # Followed by the captured character.

Or smaller:


I am just presuming that C++ has a regexp implementation that is up to it, it does work in Python and should work in Perl and Ruby too.

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