Word Ladder II

Write a C program to find all shortest transformation sequences from beginWord to endWord. A transformation sequence from word beginWord to word endWord using a dictionary wordList is a sequence of words beginWord -> s1 -> s2 -> ... -> sk where: Every adjacent pair of words differs by a single letter, every si for 1 <= i <= k is in wordList, and sk == endWord. Given two words, beginWord and endWord, and a dictionary wordList, return all the shortest transformation sequences from beginWord to endWord, or an empty list if no such sequence exists.

Example 1

      
Input: beginWord = "hit", endWord = "cog", wordList = ["hot","dot","dog","lot","log","cog"]
      
Output: [["hit","hot","dot","dog","cog"],["hit","hot","lot","log","cog"]]
      
Explanation: 
Start with "hit", can transform to "hot" (change 'i' to 'o'). 
From "hot", can go to "dot" or "lot" (change 'h' to 'd' or 'l'). 
From "dot" -> "dog" -> "cog" or from "lot" -> "log" -> "cog". 
Both paths have length 5, so both are shortest transformation sequences.
    

Example 2

      
Input: beginWord = "hit", endWord = "cog", wordList = ["hot","dot","dog","lot","log"]
      
Output: []
      
Explanation: 
Start with "hit", can transform to "hot". 
From "hot", can reach "dot", "lot". 
From "dot" can reach "dog", from "lot" can reach "log". 
Neither "dog" nor "log" can reach "cog" since "cog" is not in wordList. 
Therefore, no transformation sequence exists.
    

Constraints

      
1 ≤ beginWord.length ≤ 5
      
endWord.length == beginWord.length
      
1 ≤ wordList.length ≤ 500
      
wordList[i].length == beginWord.length
      
All words contain only lowercase English letters
      
Time Complexity: O(N * M * 26) where N is number of words, M is word length
      
Space Complexity: O(N * M)