Updated Min, Max and Find functions to use stacks

C#/Datastructures/BinaryTree/Tree.cs

@@ -1,4 +1,5 @@
 using C_.Datastructures.BinaryTree;
+using C_.Datastructures.Stack;
 using System;
 
 namespace C_.Datastructures.BinaryTree
@@ -47,51 +48,60 @@ namespace C_.Datastructures.BinaryTree
             return;
         }
 
-        public TreeNode<T>? Find(T value)
+        private Stack<TreeNode<T>>? Find(T value)
         {//Return true if the item can be found within the tree
             if (Root == default || Root.Value!.Equals(default))
                 return default;
 
             TreeNode<T>? current = Root;
 
-            while (current != default)
+            Stack<TreeNode<T>>? stack = Stack<TreeNode<T>>.Create(Root);
+
+            while (stack.Peek() != default)
             {
                 //Compare value at node to see if we are looking for the root item
-                if (current.Value!.Equals(value))
-                    return current;
+                if (stack.Peek()!.Value!.Equals(value))
+                    return stack;
 
-                current = Traverse(value, current);
+                stack.Push(Traverse(value, stack.Peek()));
             }
             return default;
         }
 
-        public TreeNode<T>? Min(TreeNode<T>? node)
-        {//Returns the Minimum node from a given subtree
+        private Stack<TreeNode<T>>? Min(TreeNode<T>? node)
+        {//Returns a Stack with the value on top being the minimum of the subtree
+            
             if(node == default)
                 return default;
 
+            //Stack to store and be able to get the parent values
+            Stack<TreeNode<T>> stack = Stack<TreeNode<T>>.Create(node);
+
             while(true){
-                if (node!.Left == default)
-                    return node;
+                if (stack.Peek()!.Left == default)
+                    return stack;
 
-                node = node.Left;
+                stack.Push(stack.Peek()!.Left);
             }
         }
 
-        public TreeNode<T>? Max(TreeNode<T>? node)
-        {//Returns the Minimum node from a given subtree
+        private Stack<TreeNode<T>>? Max(TreeNode<T>? node)
+        {///Returns a Stack with the value on top being the maximum of the subtree
             if(node == default)
                 return default;
 
+            //Stack to store and be able to get the parent values
+            Stack<TreeNode<T>> stack = Stack<TreeNode<T>>.Create(node);
+
             while(true){
-                if (node!.Right == default)
-                    return node;
+                if (stack.Peek()!.Right == default)
+                    return stack;
 
-                node = node.Right;
+                stack.Push(stack.Peek()!.Right);
             }
         }
 
-        private TreeNode<T>? Traverse(T value, TreeNode<T> node)
+        private TreeNode<T>? Traverse(T value, TreeNode<T>? node)
         {//T is comparable so use methods to determine which way to traverse
             if(node == default)
                 return default;