发现了大学时候写的计算器小程序，还有个图形界面，能够图形化展示表达式语法树，哈哈;)

只有200行Java代码，不但能够计算加减乘除，还能够匹配小括号~

代码点评：

从朴素的界面配色到简单易懂错误提示，无不体现了“用户体验”至上的设计理念；代码异常处理全面合理、滴水不漏，代码缩进优雅大方，变量命名直观易懂；再结合长度适中简单明了的注释，程序整体给人一种清新脱俗之感。背后不难看出作者对学习的热爱以及对设计的苛求，工匠精神可见一斑，真可谓是大学数据结构学以致用的典范！

关于数据结构的干货，可参考博主的《深入理解Java集合框架》系列文章，一定不让你失望。

实现算法参考严蔚敏的《数据结构（C语言版）》第三章“栈和队列”，3.2.5节“表达式求值”。

import java.awt.BorderLayout;

import java.awt.Color;

import java.awt.Graphics;

import java.awt.Point;

import java.awt.TextField;

import java.awt.event.KeyAdapter;

import java.awt.event.KeyEvent;

import java.util.Stack;

import javax.swing.JFrame;

/**

 * 图形界面的计算器程序，只能计算加减乘除，

 * 算式中可以有小括号。数字可以是小数

 */

public class CalcGUI extends JFrame{

	private static final long serialVersionUID = 1L;

	private TreeNode resultTree;

	private String textFieldString;

	private boolean calcSuccess = true;

	private char ops[][] = {

			{'>', '>', '<', '<', '<', '>', '>'},

			{'>', '>', '<', '<', '<', '>', '>'},

			{'>', '>', '>', '>', '<', '>', '>'},

			{'>', '>', '>', '>', '<', '>', '>'},

			{'<', '<', '<', '<', '<', '=', 'E'},

			{'E', 'E', 'E', 'E', 'E', 'E', 'E'},

			{'<', '<', '<', '<', '<', 'E', '='},

	};

	Stack<TreeNode> nodesStack = new Stack<TreeNode>();

	Stack<Character> opsStack = new Stack<Character>();

	public static void main(String[] args) {

		CalcGUI gui = new CalcGUI();

		gui.userGUI();

	}

	public void userGUI(){

		this.setLayout(new BorderLayout());

		TextField tf = new TextField("请输入表达式，按Enter开始计算~", 40);

		tf.selectAll();

		tf.getText();

		tf.addKeyListener(new KeyAdapter(){

			public void keyPressed(KeyEvent e){

				if(e.getKeyCode() == KeyEvent.VK_ENTER){

					textFieldString = ((TextField)e.getComponent()).getText();

					calcSuccess = true;

					resultTree = null;

					try{

						resultTree = calc(textFieldString + "#");

					}catch(Exception e1){

						calcSuccess = false;

					}

					CalcGUI.this.repaint();

				}

			}

		});

		this.add(tf, BorderLayout.NORTH);

		this.setSize(500, 500);

		this.setTitle("calc GUI");

		this.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);

		this.setResizable(true);

		this.setVisible(true);

	}

	private int levelHeight = 60;

	private int diameter  = 25;

	public void paint(Graphics g){

		super.paint(g);

		if(calcSuccess){

			if(resultTree != null){

				g.drawString("计算结果为：" + resultTree.value, 10, 80);

				int rootBeginX = this.getWidth() / 2;

				int rootBeginY = 100;

				Point p = new Point(rootBeginX, rootBeginY);

				drawTree(g, resultTree, p, this.getWidth() / 2 - 20, p);

			}

		}else{

			g.setColor(Color.RED);

			g.drawString("表达式语法有误！", 10, 80);

		}

	}

	private void drawCircle(Graphics g, Point p, int r){

		g.drawOval(p.x - r, p.y - r, r * 2, r * 2);

	}

	private void drawTree(Graphics g, TreeNode node, Point pme, int width, Point pfather){

		if(node == null) return;

//		System.out.println("in drawTree, node.value=" + node.value + ",node.op=" + node.op);

		g.setColor(Color.GREEN);

		this.drawCircle(g, pme, diameter / 2);

		g.drawLine(pme.x, pme.y, pfather.x, pfather.y);

		if(node.op != 'E'){

			g.setColor(Color.BLACK);

			g.drawString(String.valueOf(node.op), pme.x, pme.y);

		}else{

			g.setColor(Color.BLACK);

			g.drawString(String.valueOf(node.value), pme.x - diameter / 2, pme.y);

		}

		drawTree(g, node.lft, new Point(pme.x - width / 2, pme.y + levelHeight), width / 2, pme);

		drawTree(g, node.rt, new Point(pme.x + width / 2, pme.y + levelHeight), width / 2, pme);

	}

	public TreeNode calc(String inStr) throws Exception{

		opsStack.push('#');

		StringBuilder buf = new StringBuilder();

		int i = 0;

		while(i < inStr.length()){

			if(Character.isDigit(inStr.charAt(i)) || inStr.charAt(i) == '.'){// number

				buf.delete(0, buf.length());

				while(i < inStr.length() &&

						(Character.isDigit(inStr.charAt(i)) || inStr.charAt(i) == '.'))

					buf.append(inStr.charAt(i++));

				Double number = Double.parseDouble(buf.toString());

				nodesStack.push(new TreeNode(number));

			}else if(inStr.charAt(i) == ' '){

				i++;

				continue;

			}else{// operation

				char op = inStr.charAt(i);

				int subNew = getSub(op);

				boolean goOn = true;

				while(goOn){

					if(opsStack.isEmpty())

						throw new Exception("运算符太少！");

					char opFormer = opsStack.peek();

					int subFormer = getSub(opFormer);

					switch(ops[subFormer][subNew]){

					case '=':

						goOn = false;

						opsStack.pop();

						break;

					case '<':

						goOn = false;

						opsStack.push(op);

						break;

					case '>':

						goOn = true;

						TreeNode n1 = nodesStack.pop();

						TreeNode n0 = nodesStack.pop();

						double rs = doOperate(n0.value, n1.value, opFormer);

						nodesStack.push(new TreeNode(rs, opFormer, n0, n1));

						opsStack.pop();

						break;

					default:

						throw new Exception("没有匹配的操作符：" + op);

					}

				}

				i++;

			}

		}

		return nodesStack.pop();

	}

	private double doOperate(double n0, double n1, char op) throws Exception{

		switch(op){

		case '+': return n0 + n1;

		case '-': return n0 - n1;

		case '*': return n0 * n1;

		case '/': return n0 / n1;

		default: throw new Exception("非法操作符：" + op);

		}

	}

	private int getSub(char c){

		switch(c){

			case '+': return 0;

			case '-': return 1;

			case '*': return 2;

			case '/': return 3;

			case '(': return 4;

			case ')': return 5;

			case '#': return 6;

			default : return -1;

		}

	}

}

class TreeNode{

	public double value;

	public char op = 'E';

	public TreeNode lft;

	public TreeNode rt;

	public TreeNode(double value){

		this.value = value;

	}

	public TreeNode(double value, char op, TreeNode lft, TreeNode rt){

		this.value = value;

		this.op = op;

		this.lft = lft;

		this.rt = rt;

	}

	StringBuilder buf = new StringBuilder();

	public String toString(){

		out(this);

		return buf.toString();

	}

	private void out(TreeNode node){

		if(node == null) return;

		out(node.lft);

		if(node.op != 'E')

			buf.append(node.op);

		else

			buf.append(node.value);

		out(node.rt);

	}

}