abCalc/abCalc/abCError.c
2017-09-11 23:14:06 -04:00

76 lines
1.7 KiB
C

/*
abCError.c
By: Jeremy Rand
*/
#include <stdio.h>
#include <stdlib.h>
#include "abCError.h"
static char *gErrorStrings[abCalcErrorTypeMax];
static abCalcErrorType gCurrErrorType = abCalcNoError;
static char *gCurrErrorOpName = NULL;
char gErrorBuffer[128];
void abCalcErrorInit(void)
{
gErrorStrings[abCalcNoError] = NULL;
gErrorStrings[abCalcSyntaxError] = "Syntax Error";
gErrorStrings[abCalcBadArgTypeError] = "Bad Argument Type";
gErrorStrings[abCalcBadArgValueError] = "Bad Argument Value";
gErrorStrings[abCalcTooFewArgsError] = "Too Few Arguments";
gErrorStrings[abCalcStackFullError] = "Stack Full";
gErrorStrings[abCalcInfiniteResultError] = "Infinite Result";
gErrorStrings[abCalcComplexResultError] = "Complex Result";
}
void abCalcRaiseError(abCalcErrorType type, char *opName)
{
if ((type < abCalcErrorTypeMin) ||
(type >= abCalcErrorTypeMax))
return;
if (gCurrErrorType == abCalcNoError) {
gCurrErrorType = type;
gCurrErrorOpName = opName;
}
}
char *abCalcGetError(void)
{
char *errorString;
if ((gCurrErrorType < abCalcErrorTypeMin) ||
(gCurrErrorType >= abCalcErrorTypeMax))
return NULL;
errorString = gErrorStrings[gCurrErrorType];
if (errorString == NULL)
return NULL;
if (gCurrErrorOpName != NULL) {
sprintf(gErrorBuffer, "%s Error: %s", gCurrErrorOpName, gErrorStrings[gCurrErrorType]);
} else {
sprintf(gErrorBuffer, "Error: %s", gErrorStrings[gCurrErrorType]);
}
return gErrorBuffer;
}
void abCalcClearError(void)
{
gCurrErrorType = abCalcNoError;
gCurrErrorOpName = NULL;
}