二叉树遍历 发表于 2018-08-27 123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230231232233234235236237238239240241242243244245246247248249250251252253254255256257258259260261262263264265266267268269270271272273274275276277278279280281282283284import java.util.LinkedList;import java.util.Queue;import java.util.Stack;public class Tree<AnyType extends Comparable<? super AnyType>>{ private static class BinaryNode<AnyType> { BinaryNode(AnyType theElement) { this(theElement, null, null); } BinaryNode(AnyType theElement, BinaryNode<AnyType> lt, BinaryNode<AnyType> rt) { element = theElement; left = lt; right = rt; } AnyType element; BinaryNode<AnyType> left; BinaryNode<AnyType> right; } private BinaryNode<AnyType> root; public void insert(AnyType x) { root = insert(x, root); } public boolean isEmpty() { return root == null; } private BinaryNode<AnyType> insert(AnyType x, BinaryNode<AnyType> t) { if(t == null) { return new BinaryNode<>(x, null, null); } int compareResult = x.compareTo(t.element); if(compareResult < 0) { t.left = insert(x, t.left); } else if(compareResult > 0) { t.right = insert(x, t.right); } else { ; } return t; } /** * 前序遍历 * 递归 */ public void preOrder(BinaryNode<AnyType> Node) { if (Node != null) { System.out.print(Node.element + " "); preOrder(Node.left); preOrder(Node.right); } } /** * 中序遍历 * 递归 */ public void midOrder(BinaryNode<AnyType> Node) { if (Node != null) { midOrder(Node.left); System.out.print(Node.element + " "); midOrder(Node.right); } } /** * 后序遍历 * 递归 */ public void posOrder(BinaryNode<AnyType> Node) { if (Node != null) { posOrder(Node.left); posOrder(Node.right); System.out.print(Node.element + " "); } } /* * 层序遍历 * 递归 */ public void levelOrder(BinaryNode<AnyType> Node) { if (Node == null) { return; } int depth = depth(Node); for (int i = 1; i <= depth; i++) { levelOrder(Node, i); } } private void levelOrder(BinaryNode<AnyType> Node, int level) { if (Node == null || level < 1) { return; } if (level == 1) { System.out.print(Node.element + " "); return; } // 左子树 levelOrder(Node.left, level - 1); // 右子树 levelOrder(Node.right, level - 1); } public int depth(BinaryNode<AnyType> Node) { if (Node == null) { return 0; } int l = depth(Node.left); int r = depth(Node.right); if (l > r) { return l + 1; } else { return r + 1; } } /** * 前序遍历 * 非递归 */ public void preOrder1(BinaryNode<AnyType> Node) { Stack<BinaryNode> stack = new Stack<>(); while(Node != null || !stack.empty()) { while(Node != null) { System.out.print(Node.element + " "); stack.push(Node); Node = Node.left; } if(!stack.empty()) { Node = stack.pop(); Node = Node.right; } } } /** * 中序遍历 * 非递归 */ public void midOrder1(BinaryNode<AnyType> Node) { Stack<BinaryNode> stack = new Stack<>(); while(Node != null || !stack.empty()) { while (Node != null) { stack.push(Node); Node = Node.left; } if(!stack.empty()) { Node = stack.pop(); System.out.print(Node.element + " "); Node = Node.right; } } } /** * 后序遍历 * 非递归 */ public void posOrder1(BinaryNode<AnyType> Node) { Stack<BinaryNode> stack1 = new Stack<>(); Stack<Integer> stack2 = new Stack<>(); int i = 1; while(Node != null || !stack1.empty()) { while (Node != null) { stack1.push(Node); stack2.push(0); Node = Node.left; } while(!stack1.empty() && stack2.peek() == i) { stack2.pop(); System.out.print(stack1.pop().element + " "); } if(!stack1.empty()) { stack2.pop(); stack2.push(1); Node = stack1.peek(); Node = Node.right; } } } /* * 层序遍历 * 非递归 */ public void levelOrder1(BinaryNode<AnyType> Node) { if (Node == null) { return; } BinaryNode<AnyType> binaryNode; Queue<BinaryNode> queue = new LinkedList<>(); queue.add(Node); while (queue.size() != 0) { binaryNode = queue.poll(); System.out.print(binaryNode.element + " "); if (binaryNode.left != null) { queue.offer(binaryNode.left); } if (binaryNode.right != null) { queue.offer(binaryNode.right); } } } public static void main( String[] args ) { int[] input = {4, 2, 6, 1, 3, 5, 7, 8, 10}; Tree<Integer> tree = new Tree<>(); for(int i = 0; i < input.length; i++) { tree.insert(input[i]); } System.out.print("递归前序遍历 :"); tree.preOrder(tree.root); System.out.print("\n非递归前序遍历:"); tree.preOrder1(tree.root); System.out.print("\n递归中序遍历 :"); tree.midOrder(tree.root); System.out.print("\n非递归中序遍历 :"); tree.midOrder1(tree.root); System.out.print("\n递归后序遍历 :"); tree.posOrder(tree.root); System.out.print("\n非递归后序遍历 :"); tree.posOrder1(tree.root); System.out.print("\n递归层序遍历:"); tree.levelOrder(tree.root); System.out.print("\n非递归层序遍历 :"); tree.levelOrder1(tree.root); }}