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8fe0f0dbefe2025b253a419725f5de5cc29df18a
pcas/src/libCom/calc/sCalcPostfix.c
Marty Kraimer 8fe0f0dbef New versions from Tim Mooney
1998-05-29 18:31:33 +00:00

722 lines
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/* $Id$
* Subroutines used to convert an infix expression to a postfix expression
*
* Author: Bob Dalesio
* Date: 12-12-86
*
* Experimental Physics and Industrial Control System (EPICS)
*
* Copyright 1991, the Regents of the University of California,
* and the University of Chicago Board of Governors.
*
* This software was produced under U.S. Government contracts:
* (W-7405-ENG-36) at the Los Alamos National Laboratory,
* and (W-31-109-ENG-38) at Argonne National Laboratory.
*
* Initial development by:
* The Controls and Automation Group (AT-8)
* Ground Test Accelerator
* Accelerator Technology Division
* Los Alamos National Laboratory
*
* Co-developed with
* The Controls and Computing Group
* Accelerator Systems Division
* Advanced Photon Source
* Argonne National Laboratory
*
* Modification Log:
* -----------------
* .01 01-11-89 lrd added right shift and left shift operations
* .02 01-13-89 lrd modified to load into IOCs
* .03 02-01-89 lrd added trigonometric functions
* .04 04-05-89 lrd fixed the order of some operations in the
* element table and added a warning label
* .05 11-26-90 lrd fix SINH, COSH, TANH
* .06 02-20-92 rcz fixed for vxWorks build
* .07 02-24-92 jba add EXP and fixed trailing blanks in expression
* .08 03-03-92 jba added MAX_VAL and MIN_VAL and comma(like close paren)
* .09 03-06-92 jba added multiple conditional expressions ?
* .10 04-01-92 jba allowed floating pt constants in expression
* .11 05-01-92 jba flt pt constant string replaced with double in postfix
* .12 08-21-92 jba ANSI c changes
* .13 08-21-92 jba initialized *ppostfix: needed when calc expr not defined
* .14 12-11-92 mrk Removed include for stdioLib.h
* .15 11-03-93 jba Added test for extra close paren at end of expression
* .16 01-24-94 jba Changed seperator test to catch invalid commas
* .17 05-11-94 jba Added support for CONST_PI, CONST_R2D, and CONST_D2R
* and conversion of infix expression to uppercase
* .18 01-22-98 tmm Changed name postfix() to calcPostfix(). Changed arg list
* from pointer to postfix expression to address of pointer to
* postfix expression. calcPostfix() frees old expression, allocates
* space sufficient to hold new expression, and returns pointer to it.
* Added S2R, R2S (conversions between arc-seconds and radians). Changed
* CONSTANT to LITERAL to avoid conflict with link.h. Support 26 vars (A-Z).
* .19 03-18-98 tmm Added string operators
*/
/*
* Subroutines
*
* Public
*
* sCalcPostfix convert an algebraic expression to symbolic postfix
* args
* pinfix the algebraic expression
* pp_postfix address of the symbolic postfix expression
* perror error information
* returns
* 0 successful
* -1 not successful
* Private routines for calcPostfix
*
* find_element finds a symbolic element in the expression element tbl
* args
* pbuffer pointer to the infix expression element
* pelement pointer to the expression element table entry
* pno_bytes pointer to the size of this element
* parg pointer to arg (used for fetch)
* returns
* TRUE element found
* FALSE element not found
*
* get_element finds the next expression element in the infix expr
* args
* pinfix pointer into the infix expression
* pelement pointer to the expression element table
* pno_bytes size of the element in the infix expression
* parg pointer to argument (used for fetch)
* returns
* FINE found an expression element
* VARIABLE found a database reference
* UNKNOWN_ELEMENT unknown element found in the infix expression
*/
#ifdef vxWorks
#include <vxWorks.h>
#endif
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#include "dbDefs.h"
#define epicsExportSharedSymbols
#include "sCalcPostfix.h"
#include "sCalcPostfixPvt.h"
#define OVERRIDESTDCALC 0
#define DEBUG 0
volatile int sCalcPostfixDebug=0;
/* declarations for postfix */
/* element types */
#define OPERAND 0
#define UNARY_OPERATOR 1
#define BINARY_OPERATOR 2
#define EXPR_TERM 3
#define COND 4
#define CLOSE_PAREN 5
#define CONDITIONAL 6
#define ELSE 7
#define SEPARATOR 8
#define TRASH 9
#define FLOAT_PT_CONST 10
#define MINUS_OPERATOR 11
#define STRING_CONST 12
#define CLOSE_BRACKET 13
#define CLOSE_CURLY 14
#define UNARY_MINUS_I_S_P 7
#define UNARY_MINUS_I_C_P 8
#define UNARY_MINUS_CODE UNARY_NEG
#define BINARY_MINUS_I_S_P 4
#define BINARY_MINUS_I_C_P 4
#define BINARY_MINUS_CODE SUB
/* parsing return values */
#define FINE 0
#define UNKNOWN_ELEMENT -1
#define END -2
/*
* element table
*
* structure of an element
*/
struct expression_element{
char element[10]; /* character representation of an element */
char in_stack_pri; /* priority in translation stack */
char in_coming_pri; /* priority when first checking */
char type; /* element type */
char code; /* postfix representation */
};
/*
* NOTE: DO NOT CHANGE WITHOUT READING THIS NOTICE !!!!!!!!!!!!!!!!!!!!
* Because the routine that looks for a match in this table takes the first
* match it finds, elements whose designations are contained in other elements
* MUST come first in this list. (e.g. ABS will match A if A preceeds ABS and
* then try to find BS therefore ABS must be first in this list
*/
static struct expression_element elements[] = {
/*
element i_s_p i_c_p type_element internal_rep */
"ABS", 7, 8, UNARY_OPERATOR, ABS_VAL, /* absolute value */
"NOT", 7, 8, UNARY_OPERATOR, UNARY_NEG, /* unary negate */
"-", 7, 8, MINUS_OPERATOR, UNARY_NEG, /* unary negate (or binary op) */
"SQRT", 7, 8, UNARY_OPERATOR, SQU_RT, /* square root */
"SQR", 7, 8, UNARY_OPERATOR, SQU_RT, /* square root */
"EXP", 7, 8, UNARY_OPERATOR, EXP, /* exponential function */
"LOGE", 7, 8, UNARY_OPERATOR, LOG_E, /* log E */
"LN", 7, 8, UNARY_OPERATOR, LOG_E, /* log E */
"LOG", 7, 8, UNARY_OPERATOR, LOG_10, /* log 10 */
"ACOS", 7, 8, UNARY_OPERATOR, ACOS, /* arc cosine */
"ASIN", 7, 8, UNARY_OPERATOR, ASIN, /* arc sine */
"ATAN2", 7, 8, UNARY_OPERATOR, ATAN2, /* arc tangent */
"ATAN", 7, 8, UNARY_OPERATOR, ATAN, /* arc tangent */
"MAX", 7, 8, UNARY_OPERATOR, MAX_VAL, /* maximum of 2 args */
"MIN", 7, 8, UNARY_OPERATOR, MIN_VAL, /* minimum of 2 args */
"CEIL", 7, 8, UNARY_OPERATOR, CEIL, /* smallest integer >= */
"FLOOR", 7, 8, UNARY_OPERATOR, FLOOR, /* largest integer <= */
"NINT", 7, 8, UNARY_OPERATOR, NINT, /* nearest integer */
"INT", 7, 8, UNARY_OPERATOR, NINT, /* nearest integer */
"COSH", 7, 8, UNARY_OPERATOR, COSH, /* hyperbolic cosine */
"COS", 7, 8, UNARY_OPERATOR, COS, /* cosine */
"SINH", 7, 8, UNARY_OPERATOR, SINH, /* hyperbolic sine */
"SIN", 7, 8, UNARY_OPERATOR, SIN, /* sine */
"TANH", 7, 8, UNARY_OPERATOR, TANH, /* hyperbolic tangent*/
"TAN", 7, 8, UNARY_OPERATOR, TAN, /* tangent */
"!=", 3, 3, BINARY_OPERATOR,NOT_EQ, /* not equal */
"!", 7, 8, UNARY_OPERATOR, REL_NOT, /* not */
"~", 7, 8, UNARY_OPERATOR, BIT_NOT, /* bitwise not */
"DBL", 7, 8, UNARY_OPERATOR, TO_DOUBLE, /* convert to double */
"STR", 7, 8, UNARY_OPERATOR, TO_STRING, /* convert to string */
"$P", 7, 8, UNARY_OPERATOR, PRINTF, /* formatted print to string */
"PRINTF", 7, 8, UNARY_OPERATOR, PRINTF, /* formatted print to string */
"$S", 7, 8, UNARY_OPERATOR, SSCANF, /* scan string argument */
"SSCANF", 7, 8, UNARY_OPERATOR, SSCANF, /* scan string argument */
"RNDM", 0, 0, OPERAND, RANDOM, /* Random Number */
"OR", 1, 1, BINARY_OPERATOR,BIT_OR, /* or */
"AND", 2, 2, BINARY_OPERATOR,BIT_AND, /* and */
"XOR", 1, 1, BINARY_OPERATOR,BIT_EXCL_OR, /* exclusive or */
"PI", 0, 0, OPERAND, CONST_PI, /* pi */
"D2R", 0, 0, OPERAND, CONST_D2R, /* pi/180 */
"R2D", 0, 0, OPERAND, CONST_R2D, /* 180/pi */
"S2R", 0, 0, OPERAND, CONST_S2R, /* arc-sec to radians: pi/(180*3600) */
"R2S", 0, 0, OPERAND, CONST_R2S, /* radians to arc-sec: (180*3600)/pi */
"0", 0, 0, FLOAT_PT_CONST, LITERAL, /* flt pt constant */
"1", 0, 0, FLOAT_PT_CONST, LITERAL, /* flt pt constant */
"2", 0, 0, FLOAT_PT_CONST, LITERAL, /* flt pt constant */
"3", 0, 0, FLOAT_PT_CONST, LITERAL, /* flt pt constant */
"4", 0, 0, FLOAT_PT_CONST, LITERAL, /* flt pt constant */
"5", 0, 0, FLOAT_PT_CONST, LITERAL, /* flt pt constant */
"6", 0, 0, FLOAT_PT_CONST, LITERAL, /* flt pt constant */
"7", 0, 0, FLOAT_PT_CONST, LITERAL, /* flt pt constant */
"8", 0, 0, FLOAT_PT_CONST, LITERAL, /* flt pt constant */
"9", 0, 0, FLOAT_PT_CONST, LITERAL, /* flt pt constant */
".", 0, 0, FLOAT_PT_CONST, LITERAL, /* flt pt constant */
"\"", 0, 0, STRING_CONST, SLITERAL, /* string constant */
"'", 0, 0, STRING_CONST, SLITERAL, /* string constant */
"?", 0, 0, CONDITIONAL, COND_IF, /* conditional */
":", 0, 0, CONDITIONAL, COND_ELSE, /* else */
"(", 0, 8, UNARY_OPERATOR, PAREN, /* open paren */
"[", 0, 8, BINARY_OPERATOR,SUBRANGE, /* string subrange */
"{", 0, 8, BINARY_OPERATOR,REPLACE, /* string replace */
"^", 6, 6, BINARY_OPERATOR,EXPON, /* exponentiation */
"**", 6, 6, BINARY_OPERATOR,EXPON, /* exponentiation */
"+", 4, 4, BINARY_OPERATOR,ADD, /* addition */
#if 0 /* "-" operator is overloaded; may be unary or binary */
"-", 4, 4, BINARY_OPERATOR,SUB, /* subtraction */
#endif
"*", 5, 5, BINARY_OPERATOR,MULT, /* multiplication */
"/", 5, 5, BINARY_OPERATOR,DIV, /* division */
"%", 5, 5, BINARY_OPERATOR,MODULO, /* modulo */
",", 0, 0, SEPARATOR, COMMA, /* comma */
")", 0, 0, CLOSE_PAREN, PAREN, /* close paren */
"]", 0, 0, CLOSE_BRACKET, SUBRANGE, /* close bracket */
"}", 0, 0, CLOSE_CURLY, REPLACE, /* close curly bracket */
"||", 1, 1, BINARY_OPERATOR,REL_OR, /* logical or */
"|", 1, 1, BINARY_OPERATOR,BIT_OR, /* bitwise or */
"&&", 2, 2, BINARY_OPERATOR,REL_AND, /* logical and */
"&", 2, 2, BINARY_OPERATOR,BIT_AND, /* bitwise and */
">>", 2, 2, BINARY_OPERATOR,RIGHT_SHIFT, /* right shift */
">=", 3, 3, BINARY_OPERATOR,GR_OR_EQ, /* greater or equal*/
">", 3, 3, BINARY_OPERATOR,GR_THAN, /* greater than */
"<<", 2, 2, BINARY_OPERATOR,LEFT_SHIFT, /* left shift */
"<=", 3, 3, BINARY_OPERATOR,LESS_OR_EQ,/* less or equal to*/
"<", 3, 3, BINARY_OPERATOR,LESS_THAN, /* less than */
"#", 3, 3, BINARY_OPERATOR,NOT_EQ, /* not equal */
"==", 3, 3, BINARY_OPERATOR,EQUAL, /* equal */
"=", 3, 3, BINARY_OPERATOR,EQUAL, /* equal */
""
};
/*
* Element-table entry for "fetch" operation. This element is used for all
* named variables. Currently, letters A-Z (double) and AA-ZZ (string) are
* allowed. Lower and upper case letters mean the same thing.
*/
static struct expression_element fetch_element = {
"A", 0, 0, OPERAND, FETCH, /* fetch var */
};
static struct expression_element fetch_string_element = {
"AA", 0, 0, OPERAND, SFETCH, /* fetch var */
};
static int strncasecmp(char *s1, char *s2, size_t n)
{
short i;
for (i=0; i<(short)n && (*s1 || *s2); i++, s1++, s2++) {
if (toupper((int)*s1) > toupper((int)*s2)) return(1);
if (toupper((int)*s1) < toupper((int)*s2)) return(-1);
}
return(0);
}
/*
* FIND_ELEMENT
*
* find the pointer to an entry in the element table
*/
static int find_element(pbuffer, pelement, pno_bytes, parg)
register char *pbuffer;
register struct expression_element **pelement;
register short *pno_bytes, *parg;
{
*parg = 0;
/* compare the string to each element in the element table */
*pelement = &elements[0];
while ((*pelement)->element[0] != NULL){
if (strncasecmp(pbuffer,(*pelement)->element, strlen((*pelement)->element)) == 0){
*pno_bytes += strlen((*pelement)->element);
return(TRUE);
}
*pelement += 1;
}
/* look for a variable reference */
/* double variables: ["a" - "z"], numbered 1-26 */
if (isalpha((int)*pbuffer)) {
*pelement = &fetch_element; /* fetch means "variable reference" (fetch or store) */
*parg = *pbuffer - (isupper((int)*pbuffer) ? 'A' : 'a');
*pno_bytes += 1;
/* string variables: ["aa" - "zz"], numbered 1-26 */
if (pbuffer[1] == pbuffer[0]) {
*pelement = &fetch_string_element;
*pno_bytes += 1;
}
return(TRUE);
}
if (sCalcPostfixDebug) printf("find_element: can't find '%s'\n", pbuffer);
return(FALSE);
}
/*
* GET_ELEMENT
*
* get an expression element
*/
static int get_element(pinfix, pelement, pno_bytes, parg)
register char *pinfix;
register struct expression_element **pelement;
register short *pno_bytes, *parg;
{
/* get the next expression element from the infix expression */
if (*pinfix == NULL) return(END);
*pno_bytes = 0;
while (*pinfix == 0x20){
*pno_bytes += 1;
pinfix++;
}
if (*pinfix == NULL) return(END);
if (!find_element(pinfix, pelement, pno_bytes, parg))
return(UNKNOWN_ELEMENT);
if (sCalcPostfixDebug > 5) printf("get_element: found element '%s', arg=%d\n", (*pelement)->element, *parg);
return(FINE);
}
#if OVERRIDESTDCALC
/* Override standard EPICS expression evaluator (if we're loaded after it). */
long epicsShareAPI postfix(char *pinfix,char *ppostfix,short *perror)
{
char *my_ppostfix = NULL, *s, *d;
long retval;
retval = sCalcPostfix(pinfix, &my_ppostfix, perror);
if (*my_ppostfix == BAD_EXPRESSION) {
*ppostfix = BAD_EXPRESSION;
} else {
for (s = my_ppostfix, d = ppostfix; *s != END_STACK; ) {
*d++=*s++;
}
*d = *s;
}
free(my_ppostfix);
return(retval);
}
#endif
/*
* sCalcPostFix
*
* convert an infix expression to a postfix expression
*/
long epicsShareAPI sCalcPostfix(char *pinfix, char **pp_postfix, short *perror)
{
short no_bytes;
register short operand_needed;
register short new_expression;
struct expression_element stack[80];
struct expression_element *pelement;
register struct expression_element *pstacktop;
double constant;
register char c, *pposthold;
char in_stack_pri, in_coming_pri, code;
char *ppostfix, *ppostfixStart;
short arg;
if (sCalcPostfixDebug) printf("sCalcPostfix: entry\n");
/* Allocate a buffer for the postfix expression. */
if (*pp_postfix) free(*pp_postfix); /* Free old buffer. */
ppostfix = calloc(5*strlen(pinfix)+7, 1);
*pp_postfix = ppostfix;
ppostfixStart = ppostfix++;
*ppostfixStart = BAD_EXPRESSION;
*ppostfix = END_STACK;
/* place the expression elements into postfix */
operand_needed = TRUE;
new_expression = TRUE;
*perror = 0;
if (*pinfix == 0) {
return(0);
}
pstacktop = &stack[0];
while (get_element(pinfix, &pelement, &no_bytes, &arg) != END){
pinfix += no_bytes;
code = pelement->code;
if ((*ppostfixStart != USES_STRING) && ((code == TO_STRING) ||
(code == PRINTF) || (code == SSCANF) || (code == SLITERAL) ||
(code == SUBRANGE) || (code == SFETCH))) {
*ppostfixStart = USES_STRING;
}
switch (pelement->type){
case OPERAND:
if (!operand_needed){
*perror = 5;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
/* add operand to the expression */
*ppostfix++ = pelement->code;
/* if this is a variable reference, append variable number */
if ((pelement->code == (char)FETCH) || (pelement->code == (char)SFETCH)) {
*ppostfix++ = arg;
}
operand_needed = FALSE;
new_expression = FALSE;
break;
case FLOAT_PT_CONST:
if (!operand_needed){
*perror = 5;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
/* add constant to postfix expression */
*ppostfix++ = pelement->code;
pposthold = ppostfix;
pinfix-=no_bytes;
while (*pinfix == ' ') *ppostfix++ = *pinfix++;
while (TRUE) {
if ( ( *pinfix >= '0' && *pinfix <= '9' ) || *pinfix == '.' ) {
*ppostfix++ = *pinfix;
pinfix++;
} else if ( *pinfix == 'E' || *pinfix == 'e' ) {
*ppostfix++ = *pinfix;
pinfix++;
if (*pinfix == '+' || *pinfix == '-' ) {
*ppostfix++ = *pinfix;
pinfix++;
}
} else break;
}
*ppostfix++ = '\0';
ppostfix = pposthold;
if ( sscanf(ppostfix,"%lg",&constant) != 1) {
*ppostfix = '\0';
} else {
memcpy(ppostfix,(void *)&constant,8);
}
ppostfix+=8;
operand_needed = FALSE;
new_expression = FALSE;
break;
case STRING_CONST:
if (!operand_needed){
*perror = 5;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
/* add string literal to the postfix expression */
*ppostfix++ = pelement->code;
c = pinfix[-1];
while (*pinfix != c && *pinfix) *ppostfix++ = *pinfix++;
*ppostfix++ = '\0';
if (*pinfix) pinfix++;
operand_needed = FALSE;
new_expression = FALSE;
break;
case BINARY_OPERATOR:
if (operand_needed){
*perror = 4;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
/* add operators of higher or equal priority to postfix expression */
while ((pstacktop->in_stack_pri >= pelement->in_coming_pri)
&& (pstacktop >= &stack[1])){
*ppostfix++ = pstacktop->code;
pstacktop--;
}
/* add new operator to stack */
pstacktop++;
*pstacktop = *pelement;
operand_needed = TRUE;
break;
case UNARY_OPERATOR:
if (!operand_needed){
*perror = 5;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
/* add operators of higher or equal priority to postfix expression */
while ((pstacktop->in_stack_pri >= pelement->in_coming_pri)
&& (pstacktop >= &stack[1])){
*ppostfix++ = pstacktop->code;
pstacktop--;
}
/* add new operator to stack */
pstacktop++;
*pstacktop = *pelement;
new_expression = FALSE;
break;
case MINUS_OPERATOR:
if (operand_needed) {
/* then assume minus was intended as a unary operator */
in_coming_pri = UNARY_MINUS_I_C_P;
in_stack_pri = UNARY_MINUS_I_S_P;
code = UNARY_MINUS_CODE;
new_expression = FALSE;
} else {
/* then assume minus was intended as a binary operator */
in_coming_pri = BINARY_MINUS_I_C_P;
in_stack_pri = BINARY_MINUS_I_S_P;
code = BINARY_MINUS_CODE;
operand_needed = TRUE;
}
/* add operators of higher or equal priority to postfix expression */
while ((pstacktop->in_stack_pri >= in_coming_pri)
&& (pstacktop >= &stack[1])){
*ppostfix++ = pstacktop->code;
pstacktop--;
}
/* add new operator to stack */
pstacktop++;
*pstacktop = *pelement;
pstacktop->in_stack_pri = in_stack_pri;
pstacktop->code = code;
break;
case SEPARATOR:
if (operand_needed){
*perror = 4;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
/* add operators to postfix until open paren */
while ((pstacktop->element[0] != '(') && (pstacktop->element[0] != '[')
&& (pstacktop->element[0] != '{')) {
if (pstacktop == &stack[1] || pstacktop == &stack[0]){
*perror = 6;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
*ppostfix++ = pstacktop->code;
pstacktop--;
}
operand_needed = TRUE;
break;
case CLOSE_PAREN:
if (operand_needed){
*perror = 4;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
/* add operators to postfix until matching paren */
while (pstacktop->element[0] != '(') {
if (pstacktop == &stack[1] || pstacktop == &stack[0]) {
*perror = 6;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
*ppostfix++ = pstacktop->code;
pstacktop--;
}
pstacktop--; /* remove ( from stack */
break;
case CLOSE_BRACKET:
if (operand_needed){
*perror = 4;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
/* add operators to postfix until matching bracket */
while (pstacktop->element[0] != '[') {
if (pstacktop == &stack[1] || pstacktop == &stack[0]) {
*perror = 6;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
*ppostfix++ = pstacktop->code;
pstacktop--;
}
/* add SUBRANGE operator to postfix */
if (pstacktop == &stack[0]) {
*perror = 6;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
*ppostfix++ = pstacktop->code;
pstacktop--;
break;
case CLOSE_CURLY:
if (operand_needed){
*perror = 4;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
/* add operators to postfix until matching bracket */
while (pstacktop->element[0] != '{') {
if (pstacktop == &stack[1] || pstacktop == &stack[0]) {
*perror = 6;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
*ppostfix++ = pstacktop->code;
pstacktop--;
}
/* add REPLACE operator to postfix */
if (pstacktop == &stack[0]) {
*perror = 6;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
*ppostfix++ = pstacktop->code;
pstacktop--;
break;
case CONDITIONAL:
if (operand_needed){
*perror = 4;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
/* add operators of higher priority to postfix expression */
while ((pstacktop->in_stack_pri > pelement->in_coming_pri)
&& (pstacktop >= &stack[1])){
*ppostfix++ = pstacktop->code;
pstacktop--;
}
/* add new element to the postfix expression */
*ppostfix++ = pelement->code;
/* add : operator with COND_END code to stack */
if (pelement->element[0] == ':'){
pstacktop++;
*pstacktop = *pelement;
pstacktop->code = COND_END;
}
operand_needed = TRUE;
break;
case EXPR_TERM:
if (operand_needed && !new_expression){
*perror = 4;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
/* add all operators on stack to postfix */
while (pstacktop >= &stack[1]){
if (pstacktop->element[0] == '('){
*perror = 6;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
*ppostfix++ = pstacktop->code;
pstacktop--;
}
/* add new element to the postfix expression */
*ppostfix++ = pelement->code;
operand_needed = TRUE;
new_expression = TRUE;
break;
default:
*perror = 8;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
}
if (operand_needed){
*perror = 4;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
/* add all operators on stack to postfix */
while (pstacktop >= &stack[1]){
if (pstacktop->element[0] == '('){
*perror = 6;
*ppostfixStart = BAD_EXPRESSION; return(-1);
}
*ppostfix++ = pstacktop->code;
pstacktop--;
}
*ppostfix++ = END_STACK;
*ppostfix = '\0';
if (ppostfixStart[1] == END_STACK)
*ppostfixStart = BAD_EXPRESSION;
else if (*ppostfixStart != USES_STRING)
*ppostfixStart = NO_STRING;
return(0);
}
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