逆波兰表达式解数学运算 感谢作者 http://blog.csdn.net/liuyuxusuixiang/article/details/25289715
public class TCalculator { Dictionary<char, int> priorities = null; const string operators = "+-*/%^"; public TCalculator() { priorities = new Dictionary<char, int>(); priorities.Add('#', -1); priorities.Add('+', 0); priorities.Add('-', 0); priorities.Add('*', 1); priorities.Add('/', 1); priorities.Add('%', 1); priorities.Add('^', 2); } double Compute(double leftNum, double rightNum, char op) { switch (op) { case '+': return leftNum + rightNum; case '-': return leftNum - rightNum; case '*': return leftNum * rightNum; case '/': return leftNum / rightNum; case '%': return leftNum % rightNum; case '^': return Math.Pow(leftNum, rightNum); default: return 0; } } bool IsOperator(char op) { return operators.IndexOf(op) >= 0; } bool IsLeftAssoc(char op) { return op == '+' || op == '-' || op == '*' || op == '/' || op == '%'; } Queue<object> PreOrderToPostOrder(string expression) { var result = new Queue<object>(); var operatorStack = new Stack<char>(); operatorStack.Push('#'); char top, cur, tempChar; string tempNum; if (expression[0] == '-') expression = '0' + expression; for (int i = 0, j; i < expression.Length; ) { cur = expression[i++]; top = operatorStack.Peek(); if (cur == '(') { operatorStack.Push(cur); } else { if (IsOperator(cur)) { while (IsOperator(top) && ((IsLeftAssoc(cur) && priorities[cur] <= priorities[top])) || (!IsLeftAssoc(cur) && priorities[cur] < priorities[top])) { result.Enqueue(operatorStack.Pop()); top = operatorStack.Peek(); } operatorStack.Push(cur); } else if (cur == ')') { while (operatorStack.Count > 0 && (tempChar = operatorStack.Pop()) != '(') { result.Enqueue(tempChar); } } else { tempNum = "" + cur; j = i; while (j < expression.Length && (expression[j] == '.' || (expression[j] >= '0' && expression[j] <= '9'))) { tempNum += expression[j++]; } i = j; result.Enqueue(tempNum); } } } while (operatorStack.Count > 0) { cur = operatorStack.Pop(); if (cur == '#') continue; if (operatorStack.Count > 0) { top = operatorStack.Peek(); } result.Enqueue(cur); } return result; } public double Calucate(string expression) { try { var rpn = PreOrderToPostOrder(expression); var operandStack = new Stack<double>(); double left, right; object cur; while (rpn.Count > 0) { cur = rpn.Dequeue(); if (cur is char) { right = operandStack.Pop(); left = operandStack.Pop(); operandStack.Push(Compute(left, right, (char)cur)); } else { operandStack.Push(double.Parse(cur.ToString())); } } return operandStack.Pop(); } catch { throw new Exception("表达式格式不正确!"); } }
class MainClass { public static void Main (string[] args) { Console.WriteLine((new TCalculator()).Calucate("1+2+3+4").ToString()); Console.WriteLine((new TCalculator()).Calucate("1+1%3+4").ToString()); Console.WriteLine((new TCalculator()).Calucate("1+1-3+4").ToString()); Console.WriteLine((new TCalculator()).Calucate("0").ToString()); Console.WriteLine((new TCalculator()).Calucate("2-1+3").ToString()); Console.WriteLine((new TCalculator()).Calucate("2-(1+3)").ToString()); Console.WriteLine((new TCalculator()).Calucate("11-(15+30)").ToString()); Console.ReadKey(); } }