expresscalculate

时间:2021-03-08 11:51:33
expresscalculate

//本程序接受任意含有+、-、*、/和()的数值表达式,数值允许带小数,输入以#结束。如:((2.4+3.5)*2-(2+3.5)/2)*(2+3)#

#include <stdio.h>

#include "G:\express\mystack.h"

char piror[7][7]={'>','>','<','<','<','>','>',

                  '>','>','<','<','<','>','>',

			      '>','>','>','>','<','>','>',

			      '>','>','>','>','<','>','>',

			      '<','<','<','<','<','=','f',

			      '>','>','>','>','f','>','>',

			      '<','<','<','<','<','f','='};

//保存算符优先矩阵

int chartoint(char ch)//将运算符变成数组(算符优先矩阵)下标

{

	switch(ch)

	{

		case '+':return 0;

		case '-':return 1;

		case '*':return 2;

		case '/':return 3;

		case '(':return 4;

		case ')':return 5;

		case '#':return 6;

	}

}

int numchar(char ch)//判断是否为数字符号

{

	if (ch>='0' && ch<='9')

		return 1;

	else return 0;

}

int isoptr(char ch)//判断是否为合法的运算符号

{

	switch(ch)

	{

		case '+':

		case '-':

		case '*':

		case '/':

		case '(':

		case ')':

		case '#':return 1;

		default :return 0;

	}

}

float operate(float n1,char ch,float n2)//对操作数按运算符进行运算

{

	switch(ch)

	{

		case '+':return n1+n2;

		case '-':return n1-n2;

		case '*':return n1*n2;

		case '/':return n1/n2;

	}

}

main()

{

   char str[80];

   gets(str);

   int i=0;

   int number1,exp10;

   char ch1,ch2,curroptr1;

   float number,number2,n1,n2,n3,curroptr,ch3;

   sqstack optr,opnd;

   initstack(optr);push(optr,'#');

   initstack(opnd);

   while(str[i]!='\0')

   {

	  if(numchar(str[i]))

	  {

	   number1=0;

	   while(numchar(str[i]))

	   {

		   number1=number1*10+(str[i]-'0');

		   i++;

	   }

	   //已经读取了一个整数

       if (str[i]=='.')

	   {

		   i++;

		   number2=0.0;exp10=10;

	       while(numchar(str[i]))

		   {

			   number2=number2+((str[i]-'0')*1.0)/exp10;

			   exp10=exp10*10;

			   i++;

			   printf("number2_____decimal part=%f\n",number2);

		   }

		   number=number1+number2;

		   printf("number_float=%f\n",number);// 将实数压入堆栈

		   push(opnd,number);

	   }

       else

	   {

		   push(opnd,number1);// 将整数压入堆栈

		   printf("number_____int=%d\n",number1);

	   }

	  }

       else if(!isoptr(str[i]))

	   {

		   printf("express error---1!\n");

		   exit(0);

	   }

	   else

	   {

       ch1=(char)gettop(optr);

	   ch2=str[i];

	   printf("ch1=%c,ch2=%c\n",ch1,ch2);

	   if(piror[chartoint(ch1)][chartoint(ch2)]=='>')

	   {

		while(piror[chartoint(ch1)][chartoint(ch2)]=='>')

		{

			pop(opnd,n2);

		     pop(opnd,n1);

			 pop(optr,curroptr);

             curroptr1=(char)curroptr;

             printf("\n---%f %c %f=====%f\n",n1,curroptr1,n2,operate(n1,curroptr1,n2));

             push(opnd,operate(n1,curroptr1,n2));

             ch1=(char)gettop(optr);

		}

	   }

	   if(piror[chartoint(ch1)][chartoint(ch2)]=='<') push(optr,ch2);

	   if(piror[chartoint(ch1)][chartoint(ch2)]=='=') pop(optr,ch3);

	   if(piror[chartoint(ch1)][chartoint(ch2)]=='f')

			 {

		        printf("express error---2!\n");

		        exit(0);

			 }

      i++;

   }

   }

   pop(opnd,n3);

   printf("\nresult=%f\n",n3);

}

  

#include <stdlib.h>

#include <stdio.h>

#define stackinitsize 50

#define stackincrement 8

typedef float elemtype;

typedef struct{

  elemtype *base;

  elemtype *top;

  int stacksize;

}sqstack;

int  initstack(sqstack &s)

  {s.base=(elemtype * ) malloc(stackinitsize*sizeof(int));

   s.top=s.base;

   s.stacksize=stackinitsize;

   return 1;

   }

int push(sqstack &s,elemtype e)

 {

   *(s.top)=e;

   s.top++;

   return 1;

 }

elemtype gettop(sqstack s)

{

  return *(s.top-1);

 }

int emptystack(sqstack s)

  {if (s.top==s.base)  return 1;

   else return 0;

   }

int pop(sqstack &s,elemtype &e)

   { if (emptystack(s)) return 0;

     --s.top;

     e=*(s.top);

    return 1;

     }

  

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