用于展示二叉树的图形化小工具(Graph for displaying a binary tree)
树状打印一棵二叉树(Print a binary tree like a real tree)
比如输入一棵二叉搜索树(For exampe, if you input a binary search tree):
[381, 12, 410, 9, 40, 394, 540, 35, 190, 476, 760, 146, 445, 600, 800]
就会输出(Output):
public final class BinaryTrees {
// 打印一棵二叉树
public static void print (BinaryTreeInfo tree );
public static void print (BinaryTreeInfo tree , PrintStyle style );
// 打印一棵二叉树(打印完自动换行)
public static void println (BinaryTreeInfo tree );
public static void println (BinaryTreeInfo tree , PrintStyle style );
// 获得一棵二叉树的打印字符串
public static String printString (BinaryTreeInfo tree );
public static String printString (BinaryTreeInfo tree , PrintStyle style );
// 可选的打印样式
public enum PrintStyle {
LEVEL_ORDER ,
INORDER
}
}
先实现BinaryTreeInfo 的相关操作(Implements BinaryTreeInfo)
根节点是谁?(Who is the root node?)
如何查找左节点?(How to get the left child?)
如何查找右节点?(How to get the right child?)
如何打印单个节点?(How to print a node?)
/**
* BinarySearchTree是你自己编写的二叉树类
* BinarySearchTree is a binary tree class that is created by yourself.
*/
public class BinarySearchTree <E > implements BinaryTreeInfo {
/**这里省略了大量代码,只贴出了脉络代码**/
/** only show some main code **/
private Node <E > root ;
private static class Node <E > {
E element ;
Node <E > left ;
Node <E > right ;
}
/********** BinaryTreeInfo **********/
@ Override
public Object root () {
// 根节点是谁?
// who is the root node?
return root ;
}
@ Override
public Object left (Object node ) {
// 如何查找左节点?
// how to get the left child of the node?
return ((Node )node ).left ;
}
@ Override
public Object right (Object node ) {
// 如何查找右节点?
// how to get the right child of the node?
return ((Node )node ).right ;
}
@ Override
public Object string (Object node ) {
// 如何打印单个节点?
// how to print the node?
return ((Node )node ).element ;
}
/********** BinaryTreeInfo **********/
}// 随机生成的一棵二叉搜索树(random generation)
BinarySearchTree <Integer > bst = ...;
// PrintStyle.LEVEL_ORDER(层序打印)
BinaryTrees .println (bst );
// PrintStyle.INORDER(中序打印)
BinaryTrees .println (bst , PrintStyle .INORDER );
也可以生成字符串写入文件(Write to file)
Files .writeToFile ("F:/test/bst.txt" , BinaryTrees .printString (bst ));
甚至你还都不用定义二叉树类(Even you don't need to create a binary tree class)
BinaryTrees .println (new BinaryTreeInfo () {
@ Override
public Object root () {
return 8 ;
}
@ Override
public Object left (Object node ) {
if (node .equals (8 )) return 3 ;
if (node .equals (3 )) return 1 ;
if (node .equals (6 )) return 4 ;
if (node .equals (14 )) return 13 ;
return null ;
}
@ Override
public Object right (Object node ) {
if (node .equals (8 )) return 10 ;
if (node .equals (10 )) return 14 ;
if (node .equals (3 )) return 6 ;
if (node .equals (6 )) return 7 ;
return null ;
}
@ Override
public Object string (Object node ) {
return node ;
}
});
BinaryTrees .println (new BinaryTreeInfo () {
@ Override
public Object root () {
return "Life" ;
}
@ Override
public Object left (Object node ) {
if (node .equals ("Life" )) return "Animal" ;
if (node .equals ("Person" )) return "Man" ;
if (node .equals ("Animal" )) return "Cat" ;
if (node .equals ("Dog" )) return "Teddy" ;
return null ;
}
@ Override
public Object right (Object node ) {
if (node .equals ("Life" )) return "Person" ;
if (node .equals ("Person" )) return "Woman" ;
if (node .equals ("Animal" )) return "Dog" ;
if (node .equals ("Dog" )) return "SingleDog" ;
return null ;
}
@ Override
public Object string (Object node ) {
return node ;
}
});
public class BinaryHeap <E > implements BinaryTreeInfo {
private int size ;
private E [] elements ;
@ Override
public Object root () {
return 0 ;
}
@ Override
public Object left (Object node ) {
int index = ((int )node << 1 ) + 1 ;
return index >= size ? null : index ;
}
@ Override
public Object right (Object node ) {
int index = ((int )node << 1 ) + 2 ;
return index >= size ? null : index ;
}
@ Override
public Object string (Object node ) {
return elements [(int )node ];
}
}
BinaryHeap <Integer > heap = new BinaryHeap <>();
for (int i = 0 ; i < 10 ; i ++) {
heap .add ((int )(Math .random () * 100 ));
}
BinaryTrees .println (heap );
@interface MJBSTNode : NSObject {
@public
id _element;
MJBSTNode *_left;
MJBSTNode *_right;
}
@end
@interface MJBinarySearchTree : NSObject <MJBinaryTreeInfo>
@end
@interface MJBinarySearchTree () {
MJBSTNode *_root;
}
@end
@implementation MJBinarySearchTree
#pragma mark - MJBinaryTreeInfo
- (id )left : (MJBSTNode *)node {
return node->_left ;
}
- (id )right : (MJBSTNode *)node {
return node->_right ;
}
- (id )string : (MJBSTNode *)node {
return node->_element ;
}
- (id )root {
return _root;
}
@end [MJBinaryTrees println: bst];
[MJBinaryTrees println: bst style: MJPrintStyleLevelOrder];
[MJBinaryTrees println: bst style: MJPrintStyleInorder];
NSString *str = [MJBinaryTrees printString: bst];
NSString *file = @" /Users/mj/Desktop/bst.txt" writeToFile: file atomically: YES encoding: NSUTF8StringEncoding error: nil ]; 
