最近在看《算法》这本书，正好看到一个计算表达式的问题，于是就打算写一下，也正好熟悉一下Java集合框架的使用，大致测试了一下，没啥问题。

import java.util.*;

/*

 *

 * 用来计算表达式

 * for example: 1+2*3*(4+3*1)-3*1+2+3/1;

 * (1+2*2-2*1*3*(1-1))*(1-2+3*(4+0));

 * 注意点：

 * 2.输入的表达书不能还有空格,括号必须匹配

 * 基本思想：

 * 1.建立操作数栈以及操作符栈

 * 2.先去括号，每次遇到')'时，就退栈，直到遇到'('

 * 3.然后处理括号中的表达式，先处理优先级高的，即*、/

 * 4.处理好高优先级操作符之后，就处理+、-这种操作符

 * 5.对以上的运算结果入栈，继续，处理完所有的(、)之后

 * 6.然后再次求一般的表达式即可

 */

public class CalExpression {

	private Stack<Double > vals = new Stack<Double >();

	private Stack<Character > ops = new Stack<Character >();

	public static void main(String[] args) {

		CalExpression obj = new CalExpression();

		obj.input();

	}

	public void input() {

		Scanner in =  new Scanner(System.in);

		while (in.hasNext()) {

			pushStack(in.next());

		}

	}

	public boolean check(char ch) {

		if (ch == '(' || ch == ')' || ch == '+' || ch == '-'

				|| ch == '*' || ch == '/') {

			return true;

		}

		return false;

	}

	public void pushStack(String str) {

		//匹配非数字，将(、)、+、-、*、/作为分隔符

		String[] strNum = str.split("[^0-9]"); 

		Queue<Double > que = new LinkedList<Double >();

		for (int i = 0; i < strNum.length; ++i) {

			if (!strNum[i].equals("")) {

				que.offer(Double.parseDouble(strNum[i]));

			}

		}

		boolean flag = false;

		for (int i = 0; i < str.length(); ++i) {

			if (check(str.charAt(i))) {

				//匹配到右括号，需要计算括号中的内容

				if (str.charAt(i) == ')') {

					Deque<Character > ops_tmp = new LinkedList<Character >();

					while (!ops.isEmpty() && ops.peek() != '(') {

						ops_tmp.offerFirst(ops.pop());

					}

					//'('退栈

					ops.pop();

					calExpress(ops_tmp);

				} else {

					ops.push(str.charAt(i));

				}

				flag = false;

			} else if (!flag) {

				vals.push(que.poll());

				flag = true;

			}

		}

		double value = getValue(vals.iterator(), ops.iterator());

		System.out.println(value);

		vals.clear();

		ops.clear();

	}

	public void calExpress(Deque<Character > deq_ops) {

		//操作数数目=操作符数目+1

		int numCount = deq_ops.size() + 1;

		Deque<Double > deq_num = new LinkedList<Double >();

		while (numCount > 0 && !vals.isEmpty()) {

			deq_num.offerFirst(vals.pop());

			numCount--;

		}

		double value = getValue(deq_num.iterator(), deq_ops.iterator());

		vals.push(value);

	}

	public double getValue(Iterator it_num, Iterator it_ops) {

		Deque<Double > vals = new LinkedList<Double >();

		Deque<Character > ops = new LinkedList<Character >();

		vals.offer((double)it_num.next());

		while (it_num.hasNext()) {

			char ch = (char)it_ops.next();

			if (ch == '+' || ch == '-') {

				vals.offer((double)it_num.next());

				ops.offer(ch);

			} else if (ch == '*' || ch == '/') {

				double num = vals.pollLast();

				if (ch == '*') {

					vals.offer(num * (double)it_num.next());

				} else {

					vals.offer(num / (double)it_num.next());

				}

			}

		}

		double value = vals.pollFirst();

		while (!vals.isEmpty() && !ops.isEmpty()) {

			if ((char)ops.pollFirst() == '+') {

				value += vals.pollFirst();

			} else {

				value -= vals.pollFirst();

			}

		}

		return value;

	}

}