# Shortest Path in a Trie

For a Data Structures project, I must find the shortest path between two words like "cat" and "dog but i'm only allowed to change one letter at a time. I'm trying to do it by implementing a trie, and can't seem to be able to implement a shortest path search.

cat -> cot -> cog -> dog

All the words will be of the same length and I am populating them from a dictionary file. We must move from word to word. So the word in between must be a valid word.

I think it's not really possible using a trie, but anyone have any knowledge?

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Note that the shortest past in the kind of trie you usually construct from a dictionary is not a good metric for similarity! E.g., "pear" and "bear" are quite similar, but will require going up all the way to the root and down again in a standard trie. –  us2012 Mar 8 '13 at 17:38

You want to use a VP-Tree and the algorithm is called Levenshtein distance A C implementation can be found here, the code is far too long to post as an answer:
C VP-Tree

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A better data structure for this kind of problem is graph. It's called word ladder and you can look it up here: http://en.wikipedia.org/wiki/Word_ladder.

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What you are seeking for is a simple BFS. Each word is a graph vertex, but there is even no need to build the graph, you can solve it using array of words:

``````words = {"cat", "dog", "dot", "cot"}
mark = {0, 0, 0, 0}
distance = {0, 0, 0, 0}
queue Q
start_word_index = 0; // words[0] -> "cat"
destination_word_index = 1; // words[1] -> "dog"
Q.push(start_word_index)
while(Q is not empty) {
word_index = Q.pop()
for each `words[j]` {
if (difference between `words[word_index]` and `words[j]` is only 1 character) AND
(`mark[j]` is not 1) {
mark[j] = 1
Q.push(j)
distance[j] = distance[word_index] + 1
}
}
}

if mark[destination_word_index] is 0 {
print "Not reachable"
} else {
print "Distance is ", distance[destination_word_index]
}
``````
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