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It's time for me to write your grandmother her first Java word search program. But instead of having her do all the work by looking for words within the letter grid, a recursive function 4WaySearch does it for her!

The only problem is:

I am finding it hard to conceptualize a recursive algorithm that builds every possible letter combination when starting at once place in the grid.

Here's code I already have written that I deem a big step in the right direction:

* This is the method that calls itself repeatedly to wander it's way
* through the grid using a 4 way pattern,
* creating every possibly letter combination and checking it against a
* dictionary. If the word is found in the dictionary, it gets added to a
* collection of found words.
* Here an example of a 3x3 grid with the valid words of RATZ and BRATZ, but
* the word CATZ isn't valid. (the C is not tangent to the A).
* @param row Current row position of cursor
* @param col Current column position of cursor
private void 4WaySearch(int row, int col) {

    // is cursor outside grid boundaries?
    if (row < 0 || row > ROWS - 1 || col < 0 || col > COLS - 1)

    GridEntry<Character> entry = getGridEntry(row, col);

    // has it been visited?
    if (entry.hasBreadCrumb())

    // build current word
    currentWord += entry.getElement(); // returns character

    // if dictionay has the word add to found words list
    if (dictionary.contains(currentWord))

    // add a mark to know we visited

    4WaySearch(row, col + 1);   // check right
    4WaySearch(row + 1, col);   // check bottom
    4WaySearch(row, col - 1);   // check left
    4WaySearch(row - 1, col);   // check top

    // unmark visited

    // strip last character
    if (currentWord.length() != 0)
        currentWord = currentWord.substring(
        (currentWord.length() > 1) ? 
            currentWord.length() - 1 : 

In my head, I visualize the search algorithm just like a recursive tree traveral algorithm, but each node (entry in this case) has 4 children (tangent entrys), and the leaf nodes are the boundaries of the grid.

Also, the location of the cursor upon initial entry into the function is determined by a simple for loop psuedocoded here:

for (int r = 0; r < ROWS; r++)
  for (int c = 0; r < COLS; c++)
  end for;
end for;

I have been thinking about this for a while now, and trying different approaches... but I still cant seem to wrap my mind around it and make it work. Can someone show me the light? (For the sake of me and your grandmother! :D)

share|improve this question
Is this a homework question? – ewok Oct 26 '11 at 18:51
Why do you want to do this recursively, homework? – Kevin Oct 26 '11 at 18:51
You say CATZ isn't valid, but why can't you start with the C on the bottom row? Then it seems to be valid. – Mark Byers Oct 26 '11 at 18:53
@Kevin Yes, it must be done recursively. – snnth Oct 26 '11 at 18:57
@MarkByers: my mistake, ignore that bottom C. replace it with.... O – snnth Oct 26 '11 at 18:58
up vote 0 down vote accepted

What I would do is build a Tree structure. Where a Node is defined like so

public class Node {
    private String data;
    private int row,col;
    private Node parent;
    public Node(Node parent,int row,int col) {
        this.parent = parent;
        this.col = col;
        this.row = row;
    public boolean hasParent(int row, int col) {
        Node current = this;
        while((current=current.parent)!=null) {
            if(current.row == row && current.col==col)
                return true;
        return false;

    public String toString() {
        Node current = this;
        StringBuffer sb = new StringBuffer();
        do {
        }while((current = current.parent)!=null);
        return sb.reverse().toString();

Each time you have a new starting place you want to create a new root node for the tree

for (int r = 0; r < ROWS; r++)
  for (int c = 0; r < COLS; c++)
    4WaySearch(new Node(null,r,c);   //it is the root and has no parent
  end for;
end for;

And then you want to build the tree as you go

private void FourWaySearch(Node c) {
    if (c.row < 0 || c.row > ROWS - 1 || c.col < 0 || c.col > COLS - 1 || c.hasParent(c.row,c.col))
    else {   = grid[c.row][c.col];  //get the string value from the word search grid
        FourWaySearch(new Node(c,c.row-1,c.col));
        FourWaySearch(new Node(c,c.row,c.col-1));
        FourWaySearch(new Node(c,c.row+1,c.col));
        FourWaySearch(new Node(c,c.row,c.col+1));

This might not be the best way to do it but to me it seems simple and easy to follow.

share|improve this answer
I actually have most of the program implemented like that. But instead of using your version nodes, we were provided with something similar that we have to use: Entry. Entry's don't know about "children" (if you may) entry's right next to them, they only know what character is in themself. But the class that implements the 4WaySearch method also has a method that grabs the entry at any position on the grid: getGridEntry. I can get all that stuff to work just fine... I just don't think we BOTH are recursively going through the grid (search top entry, then left, bottom, right) the correct way. – snnth Oct 27 '11 at 16:40
That is the correct way to traverse all of the entries. You are essential traversing a tree ( but where each entry has 4 children. – Danny Oct 27 '11 at 16:55
YES. So my original implementation was correct then. I just wasn't sure of the concept behind it. Thank you for clearing that up for me! – snnth Oct 27 '11 at 22:58

So what you need to do is first establish the grid. In this instance you have elected for 3x3 . What you need is a way to keep track of all the valid points on the grid, might I recommend an object called Point that takes two ints as its constructor. The next thing you need is a class that is composed of a Point and a char, this will enable us to see what letter is available at each Point .

Now that we have our data structure in place we need to keep track of valid moves for the game. For instance if I am at position 3,3 (the bottom right corner, or 2,2 if you are zero based) I would need to realize that the only valid moves I have are up or left. The way to determine this is to keep a Set of Points that tell me all the places I have visited, this will enable the recursive algorithm to terminate.

Some pseudocode for the recursion that may help

share|improve this answer

I think a tree is the way to go, but not in the way other answers seem to be using it. What I would do would be to build a parse tree of the words you're looking for (from the dictionary) -- each letter is a node, with 26 possible children, one for each letter of the alphabet (check for null children before recursing), and a flag saying whether it's a complete word. Check each direction, see if you can move in that direction, and move accordingly.

I was going to say that the hard part would be building the tree and it shouldn't be done recursively, but I just had another thought. The best way to build the tree is also recursive.

This is obviously just an overview, but hopefully enough to give you a start. If you get stuck again, comment and I'll see if I can push you more in the right direction.

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