I need to write a function to find previous/next leaf node that meet special condition from any node in a singly rooted tree. (in the parent first order)

The API would be something like this:

```
Node findNextLeafNode(Node currentNode, Condition condition);
Node findPretLeafNode(Node currentNode, Condition condition);
```

where `currentNode`

is any node in a tree, and `Node`

is defined as:

```
interface Node{
/** @return the Node's parent or null if Node is root */
Node getParent();
/** @return true if node is root */
boolean isRoot();
/** @return non-null array of child nodes (zero length for leaf nodes) */
Node[] getChildren();
/** @return the number of child nodes. If node is leaf, value is 0 */
int getChildCount();
}
```

And the `Condition`

interface defines the semantics of checking a constraint against a given `Node`

.

```
interface Condition{
/** @return true if provided node meets the condition */
boolean check(Node node);
}
```

My question:

Is there an existing library or algorithm for such a common scenario? I am open to either stack based or recursive algorithms. Pseudocode, links to open source libraries, or if you care to share you own code, would be appreciated.

(If not, I need to spend time to invent the same wheel again and paste it here later for sharing.)

Thanks.

-----------------------------write a method to getNext()........

```
// currentNode must be descendant of root
public static Node getNextNode(Node currentNode, Node root)
{
// 1. if is has child, next is its first child
if (currentNode.getChildSize() > 0) {
return currentNode.getChildren()[0];
}
// 2. if it has no child, check if its is the last child of his parent
else {
// if it is root and has no children, return null
if (currentNode == root) {
return null;
}
// else should have parent which is or under root;
Node parent = currentNode.getParent();
int index = getIndex(currentNode);
if (!isLastofParent(currentNode)) {
// ----a. if not last, next is his parent's next
return currentNode.getParent().getChildren()[index + 1];
}
else {
// ----b. if it is the last one, return its parent's next right if there is. while until root
Node tmp = parent;
while (tmp != root) {
int parentIndex = getIndex(tmp);
if (!isLastofParent(tmp)) {
return tmp.getParent().getChildren()[parentIndex + 1];
}
tmp = tmp.getParent();
}
}
}
return null;
}
private static boolean isLastofParent(Node node)
{
if (getIndex(node) == node.getParent().getChildSize() - 1) {
return true;
}
return false;
}
private static int getIndex(Node currentNode)
{
Node parent = currentNode.getParent();
for (int i = 0; i < parent.getChildSize(); i++) {
if (parent.getChildren()[i] == currentNode) {
return i;
}
}
//TODO: error condition handling, will not happen if tree not change
return -1;
}
```

------------------------a full search is much easier............

```
public static Node getNextFailNode(Node currentNode, Node root, Condition condition)
{
boolean foundCurrentNode = false;
Stack<Node> stack = new Stack<Node>();
stack.push(root);
while (!stack.isEmpty()) {
Node tmp = stack.pop();
System.out.println("-popup---------" +tmp+ " ");
if (foundCurrentNode && checkCondition(tmp, condition)) {
return tmp;
}
if (tmp == currentNode) {
foundCurrentNode = true;
}
if (tmp.getChildSize() > 0) {
for (int i = tmp.getChildSize() - 1; i >= 0; i--) {
stack.push(tmp.getChildren()[i]);
}
}
}
return null;
}
```