dos_compilers/Borland Turbo C v1/MCPARSER.C
2024-07-01 13:08:21 -07:00

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/* Turbo C - (C) Copyright 1987 by Borland International */
#include <string.h>
#include <math.h>
#include <ctype.h>
#include <errno.h>
#include <stdio.h>
#include "mcalc.h"
#define PLUS 0
#define MINUS 1
#define TIMES 2
#define DIVIDE 3
#define EXP 4
#define COLON 5
#define OPAREN 6
#define CPAREN 7
#define NUM 8
#define CELL 9
#define FUNC 10
#define EOLN 11
#define BAD 12
#define MAXFUNCNAMELEN 5
struct TOKENREC
{
char state;
union
{
double value;
struct
{
int row, col;
} c;
char funcname[MAXFUNCNAMELEN + 1];
} x;
};
static struct TOKENREC stack[PARSERSTACKSIZE], curtoken;
int stacktop, tokentype, error;
char *input, isformula;
#pragma warn -par
int matherr(struct exception *e)
{
e->retval = HUGE_VAL;
return(1);
} /* matherr */
#pragma warn +par
int isfunc(char *s)
/* Checks to see if the string is a legal function. Returns TRUE if it is,
FALSE otherwise.
*/
{
int len = strlen(s);
if (strncmp(s, input, len) == 0)
{
strncpy(curtoken.x.funcname, input, len);
curtoken.x.funcname[len] = 0;
input += len;
return(TRUE);
}
return(FALSE);
} /* isfunc */
int nexttoken(void)
/* Gets the next token from the input stream */
{
char *start, numstring[80];
int decimal, len, numlen;
while (*input == ' ')
input++;
if (*input == 0)
return(EOLN);
if (strchr("0123456789.", *input))
{
start = input;
len = 0;
decimal = FALSE;
while ((isdigit(*input)) ||
((*input == '.') && (!decimal)))
{
if (*input == '.')
decimal = TRUE;
input++;
len++;
}
if ((len == 1) && (start[0] == '.'))
return(BAD);
if (*input == 'E')
{
input++;
len++;
if (strchr("+-", *input) != NULL)
{
input++;
len++;
}
numlen = 0;
while ((isdigit(*input)) && (++numlen <= 3))
{
input++;
len++;
}
}
strncpy(numstring, start, len);
numstring[len] = 0;
curtoken.x.value = atof(numstring);
if (errno == ERANGE)
return(BAD);
return(NUM);
}
else if (isalpha(*input))
{
if (isfunc("ABS") ||
isfunc("ACOS") ||
isfunc("ASIN") ||
isfunc("ATAN") ||
isfunc("COSH") ||
isfunc("COS") ||
isfunc("EXP") ||
isfunc("LOG10") ||
isfunc("LOG") ||
isfunc("POW10") ||
isfunc("ROUND") ||
isfunc("SINH") ||
isfunc("SIN") ||
isfunc("SQRT") ||
isfunc("SQR") ||
isfunc("TANH") ||
isfunc("TAN") ||
isfunc("TRUNC"))
return(FUNC);
if (formulastart(&input, &curtoken.x.c.col, &curtoken.x.c.row))
{
isformula = TRUE;
return(CELL);
}
else
return(BAD);
}
else switch(*(input++))
{
case '+' : return(PLUS);
case '-' : return(MINUS);
case '*' : return(TIMES);
case '/' : return(DIVIDE);
case '^' : return(EXP);
case ':' : return(COLON);
case '(' : return(OPAREN);
case ')' : return(CPAREN);
default : return(BAD);
} /* switch */
} /* nexttoken */
void push(struct TOKENREC token)
/* Pushes a new token onto the stack */
{
if (stacktop == PARSERSTACKSIZE - 1)
{
errormsg(MSGSTACKERROR);
error = TRUE;
}
else
stack[++stacktop] = token;
} /* push */
struct TOKENREC pop(void)
/* Pops the top token off of the stack */
{
return(stack[stacktop--]);
} /* pop */
int gotostate(int production)
/* Finds the new state based on the just-completed production and the
top state.
*/
{
int state = stack[stacktop].state;
if (production <= 3)
{
switch(state)
{
case 0 : return(1);
case 9 : return(19);
case 20 : return(28);
} /* switch */
}
else if (production <= 6)
{
switch(state)
{
case 0 :
case 9 :
case 20 : return(2);
case 12 : return(21);
case 13 : return(22);
} /* switch */
}
else if (production <= 8)
{
switch(state)
{
case 0 :
case 9 :
case 12 :
case 13 :
case 20 : return(3);
case 14 : return(23);
case 15 : return(24);
case 16 : return(25);
} /* switch */
}
else if (production <= 10)
{
switch(state)
{
case 0 :
case 9 :
case 12 :
case 13 :
case 14 :
case 15 :
case 16 :
case 20 : return(4);
} /* switch */
}
else if (production <= 12)
{
switch(state)
{
case 0 :
case 9 :
case 12 :
case 13 :
case 14 :
case 15 :
case 16 :
case 20 : return(6);
case 5 : return(17);
} /* switch */
}
else
{
switch(state)
{
case 0 :
case 5 :
case 9 :
case 12 :
case 13 :
case 14 :
case 15 :
case 16 :
case 20 : return(8);
} /* switch */
}
return(30);
} /* gotostate */
double cellvalue(int col, int row)
/* Finds the value of a particular cell */
{
if (cell[col][row] == NULL)
return(0);
if (cell[col][row]->attrib == TEXT)
return(HUGE_VAL);
if (cell[col][row]->attrib == FORMULA)
return(cell[col][row]->v.f.fvalue);
return(cell[col][row]->v.value);
} /* cellvalue */
void shift(int state)
/* Shifts a token onto the stack */
{
curtoken.state = state;
push(curtoken);
tokentype = nexttoken();
} /* shift */
void reduce(int reduction)
/* Completes a reduction */
{
struct TOKENREC token1, token2;
int counter;
switch (reduction)
{
case 1 :
token1 = pop();
pop();
token2 = pop();
curtoken.x.value = token1.x.value + token2.x.value;
break;
case 2 :
token1 = pop();
pop();
token2 = pop();
curtoken.x.value = token2.x.value - token1.x.value;
break;
case 4 :
token1 = pop();
pop();
token2 = pop();
curtoken.x.value = token1.x.value * token2.x.value;
break;
case 5 :
token1 = pop();
pop();
token2 = pop();
if (token1.x.value == 0)
curtoken.x.value = HUGE_VAL;
else
curtoken.x.value = token2.x.value / token1.x.value;
break;
case 7 :
token1 = pop();
pop();
token2 = pop();
curtoken.x.value = pow(token2.x.value, token1.x.value);
break;
case 9 :
token1 = pop();
pop();
curtoken.x.value = -token1.x.value;
break;
case 11 :
token1 = pop();
pop();
token2 = pop();
curtoken.x.value = 0;
if (token1.x.c.row == token2.x.c.row)
{
if (token1.x.c.col < token2.x.c.col)
error = TRUE;
else
{
for (counter = token2.x.c.col; counter <= token1.x.c.col; counter++)
curtoken.x.value += cellvalue(counter, token1.x.c.row);
}
}
else if (token1.x.c.col == token2.x.c.col)
{
if (token1.x.c.row < token2.x.c.row)
error = TRUE;
else
{
for (counter = token2.x.c.row; counter <= token1.x.c.row; counter++)
curtoken.x.value += cellvalue(token1.x.c.col, counter);
}
}
else
error = TRUE;
break;
case 13 :
curtoken = pop();
curtoken.x.value = cellvalue(curtoken.x.c.col, curtoken.x.c.row);
break;
case 14 :
pop();
curtoken = pop();
pop();
break;
case 16 :
pop();
curtoken = pop();
pop();
token1 = pop();
if (strcmp(token1.x.funcname, "ABS") == 0)
curtoken.x.value = fabs(curtoken.x.value);
else if (strcmp(token1.x.funcname, "ACOS") == 0)
curtoken.x.value = acos(curtoken.x.value);
else if (strcmp(token1.x.funcname, "ASIN") == 0)
curtoken.x.value = asin(curtoken.x.value);
else if (strcmp(token1.x.funcname, "ATAN") == 0)
curtoken.x.value = atan(curtoken.x.value);
else if (strcmp(token1.x.funcname, "COSH") == 0)
curtoken.x.value = cosh(curtoken.x.value);
else if (strcmp(token1.x.funcname, "COS") == 0)
curtoken.x.value = cos(curtoken.x.value);
else if (strcmp(token1.x.funcname, "EXP") == 0)
curtoken.x.value = exp(curtoken.x.value);
else if (strcmp(token1.x.funcname, "LOG10") == 0)
curtoken.x.value = log10(curtoken.x.value);
else if (strcmp(token1.x.funcname, "LOG") == 0)
curtoken.x.value = log(curtoken.x.value);
else if (strcmp(token1.x.funcname, "ROUND") == 0)
curtoken.x.value = (int)(curtoken.x.value + 0.5);
else if (strcmp(token1.x.funcname, "POW10") == 0)
curtoken.x.value = pow10(curtoken.x.value);
else if (strcmp(token1.x.funcname, "SINH") == 0)
curtoken.x.value = sinh(curtoken.x.value);
else if (strcmp(token1.x.funcname, "SIN") == 0)
curtoken.x.value = sin(curtoken.x.value);
else if (strcmp(token1.x.funcname, "SQRT") == 0)
curtoken.x.value = sqrt(curtoken.x.value);
else if (strcmp(token1.x.funcname, "SQR") == 0)
curtoken.x.value *= curtoken.x.value;
else if (strcmp(token1.x.funcname, "TANH") == 0)
curtoken.x.value = tanh(curtoken.x.value);
else if (strcmp(token1.x.funcname, "TAN") == 0)
curtoken.x.value = tan(curtoken.x.value);
else if (strcmp(token1.x.funcname, "TRUNC") == 0)
curtoken.x.value = (int)curtoken.x.value;
break;
case 3 :
case 6 :
case 8 :
case 10 :
case 12 :
case 15 :
curtoken = pop();
break;
} /* switch */
curtoken.state = gotostate(reduction);
push(curtoken);
} /* reduce */
double parse(char *s, int *att)
/* Parses the string s - returns the value of the evaluated string, and puts
the attribute in att: TEXT = 0, CONSTANT = 1, FORMULA = 2.
*/
{
struct TOKENREC firsttoken;
char accepted = FALSE;
char copy[80];
error = FALSE;
isformula = FALSE;
input = copy;
strupr(strcpy(copy, s));
stacktop = -1;
firsttoken.state = 0;
firsttoken.x.value = 0;
push(firsttoken);
tokentype = nexttoken();
do
{
switch (stack[stacktop].state)
{
case 0 :
case 9 :
case 12 :
case 13 :
case 14 :
case 15 :
case 16 :
case 20 :
if (tokentype == NUM)
shift(10);
else if (tokentype == CELL)
shift(7);
else if (tokentype == FUNC)
shift(11);
else if (tokentype == MINUS)
shift(5);
else if (tokentype == OPAREN)
shift(9);
else
error = TRUE;
break;
case 1 :
if (tokentype == EOLN)
accepted = TRUE;
else if (tokentype == PLUS)
shift(12);
else if (tokentype == MINUS)
shift(13);
else
error = TRUE;
break;
case 2 :
if (tokentype == TIMES)
shift(14);
else if (tokentype == DIVIDE)
shift(15);
else
reduce(3);
break;
case 3 :
reduce(6);
break;
case 4 :
if (tokentype == EXP)
shift(16);
else
reduce(8);
break;
case 5 :
if (tokentype == NUM)
shift(10);
else if (tokentype == CELL)
shift(7);
else if (tokentype == FUNC)
shift(11);
else if (tokentype == OPAREN)
shift(9);
else
error = TRUE;
break;
case 6 :
reduce(10);
break;
case 7 :
if (tokentype == COLON)
shift(18);
else
reduce(13);
break;
case 8 :
reduce(12);
break;
case 10 :
reduce(15);
break;
case 11 :
if (tokentype == OPAREN)
shift(20);
else
error = TRUE;
break;
case 17 :
reduce(9);
break;
case 18 :
if (tokentype == CELL)
shift(26);
else
error = TRUE;
break;
case 19 :
if (tokentype == PLUS)
shift(12);
else if (tokentype == MINUS)
shift(13);
else if (tokentype == CPAREN)
shift(27);
else
error = TRUE;
break;
case 21 :
if (tokentype == TIMES)
shift(14);
else if (tokentype == DIVIDE)
shift(15);
else
reduce(1);
break;
case 22 :
if (tokentype == TIMES)
shift(14);
else if (tokentype == DIVIDE)
shift(15);
else
reduce(2);
break;
case 23 :
reduce(4);
break;
case 24 :
reduce(5);
break;
case 25 :
reduce(7);
break;
case 26 :
reduce(11);
break;
case 27 :
reduce(14);
break;
case 28 :
if (tokentype == PLUS)
shift(12);
else if (tokentype == MINUS)
shift(13);
else if (tokentype == CPAREN)
shift(29);
else
error = TRUE;
break;
case 29 :
reduce(16);
break;
case 30 :
error = TRUE;
break;
} /* switch */
}
while ((!accepted) && (!error));
if (error)
{
*att = TEXT;
return(0);
}
if (isformula)
*att = FORMULA;
else
*att = VALUE;
strcpy(s, copy);
return(stack[stacktop].x.value);
} /* parse */