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I have a graph which will be fed using an external source. So far, a rough structure is something like this:

TreeGraph, shown this way to fit . In there, the red lines represent siblings of the node, which might be dependency but not a parenthood itself. It might or might not exist.

Currently, I have this code for each node:



    public class TreeNode {    
        private int id;
        private int container; 
        private int status;
        private int value;  
        private boolean visited;
        private String node_name;       
        private ArrayList children = new ArrayList();
        private ArrayList siblings = new ArrayList();
        private ArrayList parents = new ArrayList();

        public TreeNode()
        {
            this.id = 0;
            this.status = 0;
            this.visited = false;
            this.node_name="";
        }
        //Getters and setters below.    
        //parents/siblings/children are added through addParent(treeNode);
    }


Then, I have this code to set the values:



    public class TreeSetter {

        public static void main(String[] args) {

            TreeNode A = new TreeNode();        
            TreeNode B = new TreeNode();
            TreeNode C = new TreeNode();
            TreeNode D = new TreeNode();        
            TreeNode E = new TreeNode();
            TreeNode F = new TreeNode();
            TreeNode G = new TreeNode();
            TreeNode H = new TreeNode();

            A.setId(1);
            A.setNode_name("A");
            A.setStatus(1);
            A.addParent(null);

            B.setId(2);
            B.setNode_name("B");
            B.setStatus(1);
            B.addParent(A);
            A.addChildren(B);

            C.setId(3);
            C.setNode_name("C");
            C.setStatus(1);
            C.addParent(A);
            A.addChildren(C);

            D.setId(4);
            D.setNode_name("D");
            D.setStatus(1);
            D.addParent(A);
            A.addChildren(D);

            E.setId(5);
            E.setNode_name("E");
            E.setStatus(1);
            E.addParent(B);
            E.addParent(C);
            E.addParent(D);
            B.addChildren(E);
            C.addChildren(E);
            D.addChildren(E);
            E.addSiblings(F);
            E.addSiblings(G);
            E.addSiblings(H);       

            F.setId(6);
            F.setNode_name("F");
            F.setStatus(1);
            F.addParent(B);
            F.addParent(C);
            F.addParent(D);
            B.addChildren(F);
            C.addChildren(F);
            D.addChildren(F);
            F.addSiblings(E);
            F.addSiblings(G);
            F.addSiblings(H);

            G.setId(7);
            G.setNode_name("G");
            G.setStatus(1);
            G.addParent(B);
            G.addParent(C);
            G.addParent(D);
            B.addChildren(G);
            C.addChildren(G);
            D.addChildren(G);
            G.addSiblings(E);
            G.addSiblings(F);
            G.addSiblings(H);

            H.setId(8);
            H.setNode_name("H");
            H.setStatus(1);
            H.addParent(B);
            H.addParent(C);
            H.addParent(D);
            B.addChildren(H);
            C.addChildren(H);
            D.addChildren(H);
            H.addSiblings(E);
            H.addSiblings(F);
            H.addSiblings(G);
            //Set all other nodes

            //Set all node values.  
        }    
    }


So, what I need is, let's say that given H, I need to know:

  • What is the value from H -> I -> L (H+I+L)
  • Who will be affected if H changes. H -> B,C,D -> A
  • What are the dependencies of H? F, G, E.

Given this, my troubles are:

  • How do I create the tree dynamically? For example, let's say that instead of 12 nodes, you have 1000. Using my code, I will need a lot of lines just to set the values and relations because I am creating every single object by hand. Should I use reflection, factory paradigm to create the 1000 objects?

  • How do I walk the tree? For example, given D, move D->H->I->L (and so on). I know recursion would be the easiest and cleanest way to do it, but I don't know how to implement it :(

share|improve this question
    
The siblings form three groups by red-linking, and for each groups G1, G2, all the items of G1 are black-linked to all the items of G2. I think that it's superfluous to addParent/Children/Siblings explicitly. I'd rather have a list for each group. –  ignis Oct 30 '12 at 20:39
    
@Ignis So basically what you're saying is that instead of linking every single object by level, I should create a new list every time that a new level occurrs? –  StrayChild01 Oct 30 '12 at 20:44
1  
Yes, it would save you lots of lines to write (and save your program a O(n^2) computation). –  ignis Oct 30 '12 at 20:51
1  
You can find a tutorial on recursion here. toves.org/books/java/ch18-recurex/index.html –  Tinman Oct 30 '12 at 20:55
    
... Keep in mind that recursion could kill your stack if there are too many levels. And that any recursive algorithm can be rewritten in iterative form. –  ignis Oct 30 '12 at 20:57

2 Answers 2

up vote 1 down vote accepted

How do I create the tree dynamically:

public class Tree {

    private class Node {
        public int value;
        public List<Node> = new children ArrayList<Node>();
        public List<Node> = new parents ArrayList<Node>();
        public static final INFINITY = Integer.MAX_VALUE;

        public void addChild(Node n) {
            children.add(n);
        }

        public void addParent(Node n) {
            parents.add(n);
        }

        public int getValue() {return value;}

        //What is the value from H -> I -> L (H+I+L):
        int getValueToNode(Node Destination, HashSet<Node> s) {
           int minValue = INFINITY;
           int value = 0;

           if(s.contains(this)) return INFINITY; //we already checked this
           s.add(this);
           if(this.equals(Destination)) return Destination.value();

           for(int i = 0; i < children.size(); i++) {
               Node c = children.get(i);
               int value = c.getValueToNode(Destination);
               if (value != Integer.MAX_VALUE && value < minValue) {
                   minValue = value + this.getValue();
               }
           }

           for(int i = 0; i < parents.size(); i++) {
               Node p = parents.get(i);
               value = p.getValueToNode(Destination);
               if (value != Integer.MAX_VALUE && value < minValue) {
                   minValue = value + this.getValue();
               }
           }
           return minValue;
        }

        //Who will be affected if H changes. H -> B,C,D -> A
        public int getDependency(ArrayList<Node> affected) {
          for(int i = 0; i < children.size(); i++) {
               Node c = children.get(i);
               affected.add(c);
           }

           for(int i = 0; i < parents.size(); i++) {
               Node p = parents.get(i);
               affected.add(p);
           }
        }

        //What are the dependencies of H? F, G, E.
        List<Node> getDependency() {
           List<Node> dependency = new ArrayList<Node>();
           for(int i = 0; i < parents.size(); i++) {
               Node p = parents.get(i);
               for(int j= 0 ; j < p.children.size(); j++) {
                   Node c = p.children.get(i);
                   if(!c.equals(this)) dependency.add(c);
               }
           }
           return dependency;
        }
    }

    //data here.
    private Map<String, Node> mapping = new HashMap<String, Node>();

    public connectParentToChild(String parent, String child) {
        Node p = getNode(parent);
        Node c = getNode(child);
        p.addChild(c);
        c.addParent(p);
    }

    public int getValue(String first, String second) {
        a = getNode(first);
        b = getNode(second);
        HashSet<Node> s = new HashSet<Node>();
        return a.getValueToNode(b, s);
    }

    private Node getNode(String s) {
        if(!mapping.containsKey(s)) {
           mapping.put(s, new Node(...));
        }
        return mapping.get(s);
    }

    //members here.
}

This is a simple way to dynamically add nodes.

public static void main(String[] args) {
    Tree t;
    t.connectParentToChild("A", "D");
    t.connectParentToChild("A", "B");
    t.connectParentToChild("A", "C");
    t.connectParentToChild("B", "C");
    t.connectParentToChild("B", "H");
    t.connectParentToChild("B", "F");
    t.connectParentToChild("B", "E");
    //Set all other nodes
    t.getValue("H", "L");
}
share|improve this answer
    
I like your answer, it is very clear. I have a question, though: If I expose the node with something like getNodeByS(String s){ return this.mapping.get(s); } so I can set the values for each node, I'll be searching a lot of times, right? –  StrayChild01 Oct 31 '12 at 15:40
    
Nevermind, I put the inner Node class outside, created an overcharged constructor and call it. –  StrayChild01 Oct 31 '12 at 15:54
    
@StrayChild01 I made updates based on what I understand. I just have one question what is a dependencies of H mean? –  andre Oct 31 '12 at 21:41
    
Dependencies are the siblings. About walking the tree, I have something like this: ` public Node walkTree(Map<Integer, Node> tree, String s) { Node currentNode = new Node(); currentNode = tree.get(s); if (currentNode.connections.size() <= 1) { return currentNode.connections.get(0); } else { tempNode = currentNode.connections.get(0); currentNode.connections.remove(0); return walkTree(tree, currentNode.get); } } ` But it doesn't work :( –  StrayChild01 Oct 31 '12 at 21:56
    
@StrayChild01 I updated it to include getDependency. What does it mean to walk the tree? I don't understand from the code you posted above. –  andre Nov 1 '12 at 13:20
public void printWholeNode(Node root) {
    if (root.getChildren().size() == 0) {
        if (root.visited == false) {
            System.out.println(root.name);
            root.visited = true;
        }
        return ;
    } else {
        System.out.println(root.name);
        root.visited = true;
        for (Node childNode : root.getChildren()) {
            printWholeNode(childNode);
        }
    }
}
share|improve this answer

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