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public static ExpressionTree gpCrossover(ExpressionTree parentOne, int oneIndex,
  ExpressionTree parentTwo, int twoIndex)
  {
    ExpressionNode p1 = parentOne.findNode(oneIndex);   
    ExpressionTree newChildOne = parentOne.copyTree(p1);   
    ExpressionTree newParentOne = parentOne.copyTree(p1.prevNode);

    ExpressionNode p2 = parentTwo.findNode(twoIndex);
    ExpressionTree newChildTwo = parentTwo.copyTree(p2);
    ExpressionTree newParentTwo = parentTwo.copyTree(p2.prevNode);

    return newChildTwo;
  }

I am getting non-augmented return values here when using (newChildTwo), yet if I post my return as the raw call (parentTwo.copyTree(p2)), I get the correct response. I want to augment the tree children further yet my values won't store correctly, they store as the respective tree inputs (parentOne or parentTwo) even after the calls are set. Both children and parents remain the same trees that were used as input, the method calls all work fine, cud use some insight...

Here are the related methods:

public class ExpressionTree
{
  //stores user input
  String data;
  //root node
  protected ExpressionNode root;
  //int used for index counting
  protected int count;
  //arrary that stores r variable values 
  protected double[] rvalueArray = new double[10];

  //constructor with null root
  public ExpressionTree()
  { 
    root = null; 
  }

  //constructor with root
  public ExpressionTree(String item)
  { 
    root = new ExpressionNode(item); 
  }

  //creates tree with left and right branches
  public ExpressionTree(String data, ExpressionTree leftTree, ExpressionTree rightTree)
  {
    root = new ExpressionNode(data);

    if (leftTree!=null)
    {
      root.left = leftTree.root;
      root.left.prevNode=root;
    }
    else
      root.left = null;

    if (rightTree!=null)
    {
      root.right = rightTree.root;
      root.right.prevNode=root;
    }
    else
      root.right = null;
  }

  //creates a partial binary tree from tokenized string in-order prefix (written from user) 
  //counts the parenthesis to zero to form one half of a tree
  private ExpressionTree constructTree(StringTokenizer aTree)
  {   
    String nextInput="";
    String root="";
    ExpressionTree leftTree = null;
    ExpressionTree rightTree = null;

    //arraylist of function set
    ArrayList<String> functionSet = new ArrayList<String>();
    functionSet.add("+");
    functionSet.add("-");
    functionSet.add("*");
    functionSet.add("/");
    functionSet.add("sin");

    if (aTree.hasMoreTokens())
    {
        nextInput = aTree.nextToken();

        //loop that updates parenthesis count, if no parenthesis input loop will end
        while (nextInput.equals("("))
        {
          count++;
          //updates input
          nextInput = aTree.nextToken();
        }

      //finds initial left leaf
      leftTree = new ExpressionTree(nextInput);

      //loop that creates left side of tree
      while (count != 0 )
      {
        //updates input
        if (aTree.hasMoreTokens())
        {
          nextInput = aTree.nextToken();
        }

        //sets root
        if (functionSet.contains(nextInput))
        {
          root = nextInput;

          if (root.equals("sin"))
          {
            rightTree = null;
            leftTree = new ExpressionTree(root, leftTree, rightTree);
          }
        }

        //updates count or creates tree
        if (!(functionSet.contains(nextInput)))
        {
          if (nextInput.equals(")"))
          {
            count--;
          }
          else if (nextInput.equals("("))
          {
            count++;
            rightTree = constructTree(aTree);
            leftTree = new ExpressionTree(root, leftTree, rightTree);
          }
          else
          {
            rightTree = new ExpressionTree(nextInput); 
            leftTree = new ExpressionTree(root, leftTree, rightTree);
          }

        }
      }
      return leftTree;
    }
    else return null;
  }

  //uses constructTree method to create a full binary tree
  private ExpressionTree installTree(String stringTree)
   {
    StringTokenizer aTree = new StringTokenizer(stringTree); 

    //stores root and trees
    String rootString ="";
    ExpressionTree leftTree = null;
    ExpressionTree rightTree = null;
    ExpressionTree finalTree = null;

    if (aTree.hasMoreTokens())
    {
      leftTree = constructTree(aTree);

      //accounts for short trees and long trees (1 or multiple sets of parenthesis)
      if (aTree.hasMoreTokens())
      {
        rootString = aTree.nextToken();
        rightTree = constructTree(aTree);
        finalTree = new ExpressionTree(rootString, leftTree, rightTree);
      }
      else
      {
        finalTree = leftTree;
      }      
    }    
    //sets final tree  
    this.root = finalTree.root;
    return this;
  }

  //constructs a binary expressionTree
  public ExpressionTree constructTree(String stringTree)
  {  
    count=0;
    return installTree(stringTree);
  }

  //in order traversal of tree
  private String inOrder(ExpressionNode node)
  {    
    String message = "";

    if(node == null) 
    {
      return ""; // nothing     
    }

    if(node.left != null) // left first
    { 
      message = message + "(" + inOrder(node.left) + ")"; 
    }

    message = message + node.data; // root

    if(node.right != null) //right
    { 
      message = message + "(" + inOrder(node.right) + ")";
    }

    return message;
  }


   //overrides toString
  public String toString()
  {
    return inOrder(root);
  }
  //method that finds a certain node index in prefix
  private ExpressionNode findNode(ExpressionNode node, int index)
  {   

    if (node==null)
    { 
      return null;
    }

    if (count==index)
    {
      return node;
    }

    count++;
    ExpressionNode left = findNode(node.left, index);  
    ExpressionNode right = findNode(node.right, index); 

    if (left==null)
    {
      return right;
    }
    else
    {
      return left;
    }
  }

  //returns indexed node in prefix
  public ExpressionNode findNode(int index)
  {
    count=0;
    return findNode(root, index);
  }

  //method that copies tree at an index
  public ExpressionTree copyTree(ExpressionNode node)
  {
    String treeCopy = inOrder(node);    
    return constructTree(treeCopy);
  }
}

The first method listed is also found in this class (ExpressionTree)

share|improve this question
2  
There's no way we can diagnose the problem from the code you've posted. Please post a short but complete program. Note that you're not using anything you've done with parentOne as far as I can see. – Jon Skeet Dec 4 '11 at 8:31
    
Have you verified with a debugger that the contents of newChildTwo are what you expect immediately after setting it? In other words, before it even returns, does newChildTwo contain the result of parentTwo.copyTree(p2). Me thinks the real problem in your code is not in the snippet you've provided. – AHungerArtist Dec 4 '11 at 8:36
    
Appropriate name, btw. The spelling accentuates the meaning. – AHungerArtist Dec 4 '11 at 8:37
    
newChildTwo will return the entire parentTwo input tree even when set to parentTwo.copyTree(p2). Whereas the return of parentTwo.copyTree(p2) will return a partial tree at the specified index. so the copy process works it is just not storing it in newChildTwo for some reason... – idkWATimDOIN Dec 4 '11 at 8:59
    
Show where you actually call gpCrossover. – AHungerArtist Dec 4 '11 at 9:09

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