Fixed -I library include path behavior + removed old lib implementation + added generated lib func names to stage 1_2 + added Makefile.Linux
/****
* IEC 61131-3 standard function lib
*/
#include <limits.h>
#include <float.h>
#include <math.h>
#include <time.h>
#include <sys/types.h>
#include <stdlib.h>
#include <string.h>
#include <stdarg.h>
#include "iec_std_lib_generated.h"
/*****************/
/* Types defs */
/*****************/
typedef u_int8_t BOOL;
#define TRUE 1
#define FALSE 0
typedef int8_t SINT;
typedef int16_t INT;
typedef int32_t DINT;
typedef int64_t LINT;
typedef u_int8_t USINT;
typedef u_int16_t UINT;
typedef u_int32_t UDINT;
typedef u_int64_t ULINT;
typedef u_int8_t BYTE;
typedef u_int16_t WORD;
typedef u_int32_t DWORD;
typedef u_int64_t LWORD;
typedef float REAL;
typedef double LREAL;
typedef struct timespec TIME;
typedef struct timespec DATE;
typedef struct timespec DT;
typedef struct timespec TOD;
#define __TIME_CMP(t1, t2) (t2.tv_sec == t1.tv_sec ? t2.tv_nsec - t1.tv_nsec : t1.tv_sec - t2.tv_sec)
#define STR_MAX_LEN 40
typedef int8_t __strlen_t;
typedef struct {
__strlen_t len;
u_int8_t body[STR_MAX_LEN];
} STRING;
#define __STR_CMP(str1, str2) memcmp((char*)&str1.body,(char*)&str2.body, str1.len < str2.len ? str1.len : str2.len)
/* TODO
typedef struct {
__strlen_t len;
u_int16_t body[STR_MAX_LEN];
} WSTRING;
*/
typedef union __IL_DEFVAR_T {
BOOL BOOLvar;
SINT SINTvar;
INT INTvar;
DINT DINTvar;
LINT LINTvar;
USINT USINTvar;
UINT UINTvar;
UDINT UDINTvar;
ULINT ULINTvar;
BYTE BYTEvar;
WORD WORDvar;
DWORD DWORDvar;
LWORD LWORDvar;
REAL REALvar;
LREAL LREALvar;
TIME TIMEvar;
TOD TODvar;
DT DTvar;
DATE DATEvar;
} __IL_DEFVAR_T;
/*****************/
/* Misc internal */
/*****************/
/* function that generates an IEC runtime error */
void IEC_error(void) {
/* TODO... */
fprintf(stderr, "IEC 61131-3 runtime error.\n");
/*exit(1);*/
}
static inline void __normalize_timespec (struct timespec *ts) {
if( ts->tv_nsec < -1000000000 || (( ts->tv_sec > 0 ) && ( ts->tv_nsec < 0 ))){
ts->tv_sec--;
ts->tv_nsec += 1000000000;
}
if( ts->tv_nsec > 1000000000 || (( ts->tv_sec < 0 ) && ( ts->tv_nsec > 0 ))){
ts->tv_sec++;
ts->tv_nsec -= 1000000000;
}
}
static inline struct timespec __time_to_timespec(int sign, double mseconds, double seconds, double minutes, double hours, double days) {
struct timespec ts;
/* sign is 1 for positive values, -1 for negative time... */
long double total_sec = ((days*24 + hours)*60 + minutes)*60 + seconds + mseconds/1e3;
if (sign >= 0) sign = 1; else sign = -1;
ts.tv_sec = sign * (long int)total_sec;
ts.tv_nsec = sign * (long int)((total_sec - ts.tv_sec)*1e9);
return ts;
}
static inline struct timespec __tod_to_timespec(double seconds, double minutes, double hours) {
struct timespec ts;
long double total_sec = (hours*60 + minutes)*60 + seconds;
ts.tv_sec = (long int)total_sec;
ts.tv_nsec = (long int)((total_sec - ts.tv_sec)*1e9);
return ts;
}
static inline struct timespec __date_to_timespec(int day, int month, int year) {
struct timespec ts;
struct tm broken_down_time;
broken_down_time.tm_sec = 0;
broken_down_time.tm_min = 0;
broken_down_time.tm_hour = 0;
broken_down_time.tm_mday = day; /* day of month, from 1 to 31 */
broken_down_time.tm_mon = month - 1; /* month since January, in the range 0 to 11 */
broken_down_time.tm_year = year - 1900; /* number of years since 1900 */
time_t epoch_seconds = mktime(&broken_down_time); /* determine number of seconds since the epoch, i.e. Jan 1st 1970 */
if ((time_t)(-1) == epoch_seconds)
IEC_error();
ts.tv_sec = epoch_seconds;
ts.tv_nsec = 0;
return ts;
}
static inline struct timespec __dt_to_timespec(double seconds, double minutes, double hours, int day, int month, int year) {
struct timespec ts;
long double total_sec = (hours*60 + minutes)*60 + seconds;
ts.tv_sec = (long int)total_sec;
ts.tv_nsec = (long int)((total_sec - ts.tv_sec)*1e9);
struct tm broken_down_time;
broken_down_time.tm_sec = 0;
broken_down_time.tm_min = 0;
broken_down_time.tm_hour = 0;
broken_down_time.tm_mday = day; /* day of month, from 1 to 31 */
broken_down_time.tm_mon = month - 1; /* month since January, in the range 0 to 11 */
broken_down_time.tm_year = year - 1900; /* number of years since 1900 */
time_t epoch_seconds = mktime(&broken_down_time); /* determine number of seconds since the epoch, i.e. Jan 1st 1970 */
if ((time_t)(-1) == epoch_seconds)
IEC_error();
ts.tv_sec += epoch_seconds;
if (ts.tv_sec < epoch_seconds)
/* since the TOD is always positive, if the above happens then we had an overflow */
IEC_error();
return ts;
}
/***************/
/* Time ops */
/***************/
inline TIME __date_and_time_to_time_of_day(TIME IN){
return (TIME){IN.tv_sec % 86400, IN.tv_nsec};
}
inline TIME __date_and_time_to_date(TIME IN){
return (TIME){IN.tv_sec - (IN.tv_sec % (24*60*60)), 0};
}
inline TIME __time_add(TIME IN1, TIME IN2){
TIME res ={IN1.tv_sec + IN2.tv_sec,
IN1.tv_nsec + IN2.tv_nsec };
__normalize_timespec(&res);
return res;
}
inline TIME __time_sub(TIME IN1, TIME IN2){
TIME res ={IN1.tv_sec - IN2.tv_sec,
IN1.tv_nsec - IN2.tv_nsec };
__normalize_timespec(&res);
return res;
}
inline TIME __time_mul(TIME IN1, LREAL IN2){
LREAL s_f = IN1.tv_sec * IN2;
time_t s = s_f;
div_t ns = div((LREAL)IN1.tv_nsec * IN2, 1000000000);
TIME res = {s + ns.quot,
ns.rem + (s_f - s) * 1000000000 };
__normalize_timespec(&res);
return res;
}
inline TIME __time_div(TIME IN1, LREAL IN2){
LREAL s_f = IN1.tv_sec / IN2;
time_t s = s_f;
TIME res = {s,
IN1.tv_nsec / IN2 + (s_f - s) * 1000000000 };
__normalize_timespec(&res);
return res;
}
/***************/
/* String ops */
/***************/
inline UINT __len(STRING IN){
return IN.len;
}
inline STRING __left(STRING IN, SINT L){
STRING res = {0,};
memcpy(&res.body, &IN.body, L < res.len ? L : res.len);
return res;
}
inline STRING __right(STRING IN, SINT L){
STRING res = {0,};
L = L < IN.len ? L : IN.len;
memcpy(&res, &IN.body[IN.len - L], L);
res.len = L;
return res;
}
inline STRING __mid(STRING IN, SINT L, SINT P){
STRING res = {0,};
if(P <= IN.len){
P -= 1; /* now can be used as [index]*/
L = L + P <= IN.len ? L : IN.len - P;
memcpy(&res, &IN.body[P] , L);
res.len = L;
}
return res;
}
inline STRING __concat(SINT param_count, ...){
va_list ap;
UINT i;
__strlen_t charcount = 0;
STRING res = {0,};
va_start (ap, param_count); /* Initialize the argument list. */
for (i = 0; i < param_count && charcount < STR_MAX_LEN; i++)
{
STRING tmp = va_arg(ap, STRING);
__strlen_t charrem = STR_MAX_LEN - charcount;
__strlen_t to_write = tmp.len > charrem ? charrem : tmp.len;
memcpy(&res.body[charcount], &tmp.body , to_write);
charcount += to_write;
}
res.len = charcount;
va_end (ap); /* Clean up. */
return res;
}
inline STRING __insert(STRING IN1, STRING IN2, SINT P){
STRING res = {0,};
__strlen_t to_copy;
to_copy = P > IN1.len ? IN1.len : P;
memcpy(&res.body, &IN1.body , to_copy);
P = res.len = to_copy;
to_copy = IN2.len + res.len > STR_MAX_LEN ? STR_MAX_LEN - res.len : IN2.len;
memcpy(&res.body[res.len], &IN2.body , to_copy);
res.len += to_copy;
to_copy = IN1.len - P < STR_MAX_LEN - res.len ? IN1.len - P : STR_MAX_LEN - res.len ;
memcpy(&res.body[res.len], &IN1.body[P] , to_copy);
res.len += to_copy;
return res;
}
inline STRING __delete(STRING IN, SINT L_value, SINT P){
STRING res = {0,};
__strlen_t to_copy;
to_copy = P > IN.len ? IN.len : P;
memcpy(&res.body, &IN.body , to_copy);
P = res.len = to_copy;
to_copy = IN.len - P;
memcpy(&res.body[res.len], &IN.body[P] , to_copy);
res.len += to_copy;
return res;
}
inline STRING __replace(STRING IN1, STRING IN2, SINT L, SINT P){
STRING res = {0,};
__strlen_t to_copy;
to_copy = P > IN1.len ? IN1.len : P;
memcpy(&res.body, &IN1.body , to_copy);
P = res.len = to_copy;
to_copy = IN2.len + res.len > STR_MAX_LEN ? STR_MAX_LEN - res.len : IN2.len;
memcpy(&res.body[res.len], &IN2.body , to_copy);
res.len += to_copy;
to_copy = res.len < IN1.len ? IN1.len - res.len : 0;
memcpy(&res.body[res.len], &IN1.body[res.len] , to_copy);
res.len += to_copy;
return res;
}
inline UINT __pfind(STRING* IN1, STRING* IN2){
UINT count1 = 0;
UINT count2 = 0;
while(count1 + count2 < IN1->len && count2 < IN2->len)
{
if(IN1->body[count1 + count2] != IN2->body[count2++]){
count1 += count2;
count2 = 0;
}
}
return count2 == IN2->len ? 0 : count1;
}
inline UINT __find(STRING IN1, STRING IN2){
return __pfind(&IN1, &IN2);
}
/***************/
/* Convertions */
/***************/
/***************/
/* TO_STRING */
/***************/
inline STRING __bool_to_string(BOOL IN)
{
if(IN)
return (STRING){4, "TRUE"};
return (STRING){5,"FALSE"};
}
inline STRING __bit_to_string(LWORD IN){
STRING res = {0,};
res.len = snprintf(res.body, STR_MAX_LEN, "16#%llx", IN);
if(res.len > STR_MAX_LEN) res.len = STR_MAX_LEN;
return res;
}
inline STRING __real_to_string(LREAL IN){
STRING res = {0,};
res.len = snprintf(res.body, STR_MAX_LEN, "%g", IN);
if(res.len > STR_MAX_LEN) res.len = STR_MAX_LEN;
return res;
}
inline STRING __sint_to_string(LINT IN){
STRING res = {0,};
res.len = snprintf(res.body, STR_MAX_LEN, "%lld", IN);
if(res.len > STR_MAX_LEN) res.len = STR_MAX_LEN;
return res;
}
inline STRING __uint_to_string(ULINT IN){
STRING res = {0,};
res.len = snprintf(res.body, STR_MAX_LEN, "16#%llu", IN);
if(res.len > STR_MAX_LEN) res.len = STR_MAX_LEN;
return res;
}
/***************/
/* FROM_STRING */
/***************/
inline BOOL __string_to_bool(STRING IN){
return IN.len == 5 ? !memcmp(&IN.body,"TRUE", IN.len) : 0;
}
inline LINT __pstring_to_sint(STRING* IN){
LINT res = 0;
char tmp[STR_MAX_LEN];
char tmp2[STR_MAX_LEN];
__strlen_t l;
unsigned int shift = 0;
if(IN->body[0]=='2' && IN->body[1]=='#'){
/* 2#0101_1010_1011_1111 */
for(l = IN->len - 1; l >= 2 && shift < 64; l--)
{
char c = IN->body[l];
if( c >= '0' && c <= '1'){
res |= ( c - '0') << shift;
shift += 1;
}
}
}else if(IN->body[0]=='8' && IN->body[1]=='#'){
/* 8#1234_5665_4321 */
for(l = IN->len - 1; l >= 2 && shift < 64; l--)
{
char c = IN->body[l];
if( c >= '0' && c <= '7'){
res |= ( c - '0') << shift;
shift += 3;
}
}
}else if(IN->body[0]=='1' && IN->body[1]=='6' && IN->body[1]=='#'){
/* 16#1234_5678_9abc_DEFG */
for(l = IN->len - 1; l >= 3 && shift < 64; l--)
{
char c = IN->body[l];
if( c >= '0' && c <= '9'){
res |= ( c - '0') << shift;
shift += 4;
}else if( c >= 'a' && c <= 'f'){
res |= ( c - 'a' + 10 ) << shift;
shift += 4;
}else if( c >= 'A' && c <= 'F'){
res |= ( c - 'A' + 10 ) << shift;
shift += 4;
}
}
}else{
/* -123456789 */
LINT fac = IN->body[0] == '-' ? -1 : 1;
for(l = IN->len - 1; l >= 0 && shift < 20; l--)
{
char c = IN->body[l];
if( c >= '0' && c <= '9'){
res += ( c - '0') * fac;
fac *= 10;
shift += 1;
}
}
}
return res;
}
inline LINT __string_to_sint(STRING IN){
return (LWORD)__pstring_to_sint(&IN);
}
inline LWORD __string_to_bit(STRING IN){
return (LWORD)__pstring_to_sint(&IN);
}
inline ULINT __string_to_uint(STRING IN){
return (ULINT)__pstring_to_sint(&IN);
}
inline LREAL __string_to_real(STRING IN){
/* search the dot */
__strlen_t l = IN.len;
while(--l > 0 && IN.body[l] != '.');
if(l != 0){
return atof((const char *)&IN.body);
}else{
return (LREAL)__pstring_to_sint(&IN);
}
}
/***************/
/* TO_TIME */
/***************/
inline TIME __int_to_time(LINT IN){
return (TIME){IN, 0};
}
inline TIME __real_to_time(LREAL IN){
return (TIME){IN, (IN - (LINT)IN) * 1000000000};
}
inline TIME __string_to_time(STRING IN){
/* TODO :
*
* Duration literals without underlines: T#14ms T#-14ms T#14.7s T#14.7m
* short prefix T#14.7h t#14.7d t#25h15m
* t#5d14h12m18s3.5ms
* long prefix TIME#14ms TIME#-14ms time#14.7s
* Duration literals with underlines:
* short prefix t#25h_15m t#5d_14h_12m_18s_3.5ms
* long prefix TIME#25h_15m
* time#5d_14h_12m_18s_3.5ms
*
* Long prefix notation Short prefix notation
* DATE#1984-06-25 D#1984-06-25
* date#1984-06-25 d#1984-06-25
* TIME_OF_DAY#15:36:55.36 TOD#15:36:55.36
* time_of_day#15:36:55.36 tod#15:36:55.36
* DATE_AND_TIME#1984-06-25-15:36:55.36 DT#1984-06-25-15:36:55.36
* date_and_time#1984-06-25-15:36:55.36 dt#1984-06-25-15:36:55.36
*
*/
/* Quick hack : only transform seconds */
/* search the dot */
__strlen_t l = IN.len;
while(--l > 0 && IN.body[l] != '.');
if(l != 0){
LREAL IN_val = atof((const char *)&IN.body);
return (TIME){IN_val, (IN_val - (LINT)IN_val)*1000000000};
}else{
return (TIME){__pstring_to_sint(&IN), 0};
}
}
/***************/
/* FROM_TIME */
/***************/
inline LREAL __time_to_real(TIME IN){
return (LREAL)IN.tv_sec + ((LREAL)IN.tv_nsec/1000000000);
}
inline LINT __time_to_int(TIME IN){
return IN.tv_sec;
}
inline STRING __time_to_string(TIME IN){
/*t#5d14h12m18s3.5ms*/
STRING res = {0,};
div_t days = div(IN.tv_sec ,86400);
if(!days.rem && IN.tv_nsec == 0){
res.len = snprintf((char*)&res.body, STR_MAX_LEN, "T#%dd", days.quot);
}else{
div_t hours = div(days.rem, 3600);
if(!hours.rem && IN.tv_nsec == 0){
res.len = snprintf((char*)&res.body, STR_MAX_LEN, "T#%dd%dh", days.quot, hours.quot);
}else{
div_t minuts = div(hours.rem, 60);
if(!minuts.rem && IN.tv_nsec == 0){
res.len = snprintf((char*)&res.body, STR_MAX_LEN, "T#%dd%dh%dm", days.quot, hours.quot, minuts.quot);
}else{
if(IN.tv_nsec == 0){
res.len = snprintf((char*)&res.body, STR_MAX_LEN, "T#%dd%dh%dm%ds", days.quot, hours.quot, minuts.quot, minuts.rem);
}else{
res.len = snprintf((char*)&res.body, STR_MAX_LEN, "T#%dd%dh%dm%ds%gms", days.quot, hours.quot, minuts.quot, minuts.rem, IN.tv_nsec / 1000000);
}
}
}
}
if(res.len > STR_MAX_LEN) res.len = STR_MAX_LEN;
return res;
}
inline STRING __date_to_string(DATE IN){
/* D#1984-06-25 */
STRING res = {0,};
struct tm broken_down_time;
time_t seconds = IN.tv_sec;
if (NULL == gmtime_r(&seconds, &broken_down_time)){ /* get the UTC (GMT) broken down time */
IEC_error();
return (STRING){7,"D#ERROR"};
}
res.len = snprintf((char*)&res.body, STR_MAX_LEN, "D#%d-%2.2d-%2.2d", broken_down_time.tm_year, broken_down_time.tm_mon, broken_down_time.tm_mday);
if(res.len > STR_MAX_LEN) res.len = STR_MAX_LEN;
return res;
}
inline STRING __tod_to_string(TOD IN){
/* TOD#15:36:55.36 */
STRING res = {0,};
struct tm broken_down_time;
time_t seconds = IN.tv_sec;
if (NULL == gmtime_r(&seconds, &broken_down_time)){ /* get the UTC (GMT) broken down time */
IEC_error();
return (STRING){9,"TOD#ERROR"};
}
if(IN.tv_nsec == 0){
res.len = snprintf((char*)&res.body, STR_MAX_LEN, "TOD#%2.2d:%2.2d:%d", broken_down_time.tm_hour, broken_down_time.tm_min, broken_down_time.tm_sec);
}else{
res.len = snprintf((char*)&res.body, STR_MAX_LEN, "TOD#%2.2d:%2.2d:%g", broken_down_time.tm_hour, broken_down_time.tm_min, (LREAL)broken_down_time.tm_sec + (LREAL)IN.tv_nsec / 1000000);
}
if(res.len > STR_MAX_LEN) res.len = STR_MAX_LEN;
return res;
}
inline STRING __dt_to_string(DT IN){
/* DT#1984-06-25-15:36:55.36 */
STRING res;
struct tm broken_down_time;
time_t seconds = IN.tv_sec;
if (NULL == gmtime_r(&seconds, &broken_down_time)){ /* get the UTC (GMT) broken down time */
IEC_error();
return (STRING){8,"DT#ERROR"};
}
if(IN.tv_nsec == 0){
res.len = snprintf((char*)&res.body, STR_MAX_LEN, "DT#%d-%2.2d-%2.2d-%2.2d:%2.2d:%d",
broken_down_time.tm_year,
broken_down_time.tm_mon,
broken_down_time.tm_mday,
broken_down_time.tm_hour,
broken_down_time.tm_min,
broken_down_time.tm_sec);
}else{
res.len = snprintf((char*)&res.body, STR_MAX_LEN, "DT#%d-%2.2d-%2.2d-%2.2d:%2.2d:%d",
broken_down_time.tm_year,
broken_down_time.tm_mon,
broken_down_time.tm_mday,
broken_down_time.tm_hour,
broken_down_time.tm_min,
(LREAL)broken_down_time.tm_sec + ((LREAL)IN.tv_nsec / 1000000));
}
if(res.len > STR_MAX_LEN) res.len = STR_MAX_LEN;
return res;
}
/* BCD */
inline ULINT __bcd_to_uint(LWORD IN){
return IN & 0xf +
((IN >>= 4) & 0xf) * 10 +
((IN >>= 4) & 0xf) * 100 +
((IN >>= 4) & 0xf) * 1000 +
((IN >>= 4) & 0xf) * 10000 +
((IN >>= 4) & 0xf) * 100000 +
((IN >>= 4) & 0xf) * 1000000 +
((IN >>= 4) & 0xf) * 10000000 +
((IN >>= 4) & 0xf) * 100000000 +
((IN >>= 4) & 0xf) * 1000000000 +
((IN >>= 4) & 0xf) * 10000000000 +
((IN >>= 4) & 0xf) * 100000000000 +
((IN >>= 4) & 0xf) * 1000000000000 +
((IN >>= 4) & 0xf) * 10000000000000 +
((IN >>= 4) & 0xf) * 100000000000000 +
((IN >>= 4) & 0xf) * 1000000000000000;
}
inline LWORD __uint_to_bcd(ULINT IN){
return (IN - (IN /= 10))|
(IN - (IN /= 10)) << 4 |
(IN - (IN /= 10)) << 8 |
(IN - (IN /= 10)) << 12 |
(IN - (IN /= 10)) << 16 |
(IN - (IN /= 10)) << 20 |
(IN - (IN /= 10)) << 24 |
(IN - (IN /= 10)) << 28 |
(IN - (IN /= 10)) << 32 |
(IN - (IN /= 10)) << 36 |
(IN - (IN /= 10)) << 40 |
(IN - (IN /= 10)) << 44 |
(IN - (IN /= 10)) << 48 |
(IN - (IN /= 10)) << 52 |
(IN - (IN /= 10)) << 56 |
(IN - (IN /= 10)) << 60;
}
/**************/
/* Binary ops */
/**************/
#define __ror_(TYPENAME)\
inline TYPENAME __ror_##TYPENAME( TYPENAME IN, USINT N){\
N %= 8*sizeof(TYPENAME);\
return (IN >> N) | (IN << 8*sizeof(TYPENAME)-N);\
}
/* Call previously defined macro for each ANY_NBIT */
ANY_NBIT(__ror_)
#define __rol_(TYPENAME)\
inline TYPENAME __rol_##TYPENAME( TYPENAME IN, USINT N){\
N %= 8*sizeof(TYPENAME);\
return (IN << N) | (IN >> 8*sizeof(TYPENAME)-N);\
}
/* Call previously defined macro for each ANY_NBIT */
ANY_NBIT(__rol_)
/**************/
/* Selection */
/**************/
/**************/
/* limit */
/**************/
#define __limit_(TYPENAME)\
inline TYPENAME __limit_##TYPENAME( TYPENAME MN, TYPENAME IN, TYPENAME MX){\
return IN > MN ? IN < MX ? IN : MX : MN;\
}
/* Call previously defined macro for each concerned type */
ANY_NBIT(__limit_)
ANY_NUM(__limit_)
#define __limit_time(TYPENAME)\
inline TIME __limit_##TYPENAME( TYPENAME MN, TYPENAME IN, TYPENAME MX){\
return __TIME_CMP(IN, MN) > 0 ? /* IN>MN ?*/\
__TIME_CMP(IN, MX) < 0 ? /* IN<MX ?*/\
IN : MX : MN;\
}
/* Call previously defined macro for each concerned type */
ANY_DATE(__limit_time)
__limit_time(TIME)
inline STRING __limit_STRING( STRING MN, STRING IN, STRING MX){
return __STR_CMP(IN, MN) > 0 ? __STR_CMP(IN, MX) < 0 ? IN : MX : MN;
}
/**************/
/* MAX */
/**************/
/* workaround for va-atgs limitation on shorter that int params */
#define VA_ARGS_REAL LREAL
#define VA_ARGS_LREAL LREAL
#define VA_ARGS_SINT DINT
#define VA_ARGS_INT DINT
#define VA_ARGS_DINT DINT
#define VA_ARGS_LINT LINT
#define VA_ARGS_USINT UDINT
#define VA_ARGS_UINT UDINT
#define VA_ARGS_UDINT UDINT
#define VA_ARGS_ULINT ULINT
#define VA_ARGS_TIME TIME
#define VA_ARGS_BOOL DWORD
#define VA_ARGS_BYTE DWORD
#define VA_ARGS_WORD DWORD
#define VA_ARGS_DWORD DWORD
#define VA_ARGS_LWORD LWORD
#define VA_ARGS_STRING STRING
#define VA_ARGS_WSTRING WSTRING
#define VA_ARGS_DATE DATE
#define VA_ARGS_TOD TOD
#define VA_ARGS_DT DT
#define __extrem_(fname,TYPENAME, COND) \
inline TYPENAME fname##TYPENAME( UINT param_count, TYPENAME op1, ...){\
va_list ap;\
UINT i;\
\
va_start (ap, op1); /* Initialize the argument list. */\
\
for (i = 0; i < param_count; i++){\
TYPENAME tmp = va_arg (ap, VA_ARGS_##TYPENAME);\
op1 = COND ? tmp : op1;\
}\
\
va_end (ap); /* Clean up. */\
return op1;\
}
#define __max_num(TYPENAME) __extrem_(__max_,TYPENAME, op1 < tmp)
ANY_NBIT(__max_num)
ANY_NUM(__max_num)
__extrem_(__max_, STRING, __STR_CMP(op1,tmp) < 0)
#define __max_time(TYPENAME) __extrem_(__max_, TYPENAME, __TIME_CMP(op1, tmp) < 0)
/* Call previously defined macro for each concerned type */
ANY_DATE(__max_time)
__max_time(TIME)
/**************/
/* MIN */
/**************/
#define __min_num(TYPENAME) __extrem_(__min, TYPENAME, op1 > tmp)
ANY_NBIT(__min_num)
ANY_NUM(__min_num)
__extrem_(__min, STRING, __STR_CMP(op1,tmp) > 0)
#define __min_time(TYPENAME) __extrem_(__min_, TYPENAME, __TIME_CMP(op1, tmp) > 0)
/* Call previously defined macro for each concerned type */
ANY_DATE(__min_time)
__min_time(TIME)
/**************/
/* MUX */
/**************/
#define __mux_(TYPENAME) \
inline TYPENAME __mux_##TYPENAME( UINT param_count, UINT K, TYPENAME op1, ...){\
va_list ap;\
UINT i;\
\
va_start (ap, op1); /* Initialize the argument list. */\
\
for (i = 0; i < param_count; i++){\
if(K == i){\
TYPENAME tmp = va_arg (ap, VA_ARGS_##TYPENAME);\
va_end (ap); /* Clean up. */\
return tmp;\
}else{\
va_arg (ap, VA_ARGS_##TYPENAME);\
}\
}\
\
va_end (ap); /* Clean up. */\
return op1;\
}
ANY(__mux_)
/**************/
/* Comparison */
/**************/
#define __compare_(fname,TYPENAME, COND) \
inline BOOL fname##TYPENAME( UINT param_count, TYPENAME op1, ...){\
va_list ap;\
UINT i;\
\
va_start (ap, op1); /* Initialize the argument list. */\
\
for (i = 0; i < param_count; i++){\
TYPENAME tmp = va_arg (ap, VA_ARGS_##TYPENAME);\
if(COND){\
op1 = tmp;\
}else{\
va_end (ap); /* Clean up. */\
return 0;\
}\
}\
\
va_end (ap); /* Clean up. */\
return 1;\
}
#define __compare_num(fname, TYPENAME, TEST) __compare_(fname, TYPENAME, op1 TEST tmp )
#define __compare_time(fname, TYPENAME, TEST) __compare_(fname, TYPENAME, __TIME_CMP(op1, tmp) TEST 0)
#define __compare_string(fname, TEST) __compare_(fname, STRING, __STR_CMP(op1, tmp) TEST 0 )
/**************/
/* GT */
/**************/
#define __gt_num(TYPENAME) __compare_num(__gt_, TYPENAME, > )
ANY_NBIT(__gt_num)
ANY_NUM(__gt_num)
#define __gt_time(TYPENAME) __compare_time(__gt_, TYPENAME, > )
ANY_DATE(__gt_time)
__gt_time(TIME)
__compare_string(__gt_, > )
/**************/
/* GE */
/**************/
#define __ge_num(TYPENAME) __compare_num(__ge_, TYPENAME, >= )
ANY_NBIT(__ge_num)
ANY_NUM(__ge_num)
#define __ge_time(TYPENAME) __compare_time(__ge_, TYPENAME, >= )
ANY_DATE(__ge_time)
__ge_time(TIME)
__compare_string(__ge_, >=)
/**************/
/* EQ */
/**************/
#define __eq_num(TYPENAME) __compare_num(__eq_, TYPENAME, == )
ANY_NBIT(__eq_num)
ANY_NUM(__eq_num)
#define __eq_time(TYPENAME) __compare_time(__eq_, TYPENAME, == )
ANY_DATE(__eq_time)
__eq_time(TIME)
__compare_string(__eq_, == )
/**************/
/* LT */
/**************/
#define __lt_num(TYPENAME) __compare_num(__lt_, TYPENAME, < )
ANY_NBIT(__lt_num)
ANY_NUM(__lt_num)
#define __lt_time(TYPENAME) __compare_time(__lt_, TYPENAME, < )
ANY_DATE(__lt_time)
__lt_time(TIME)
__compare_string(__lt_, < )
/**************/
/* LE */
/**************/
#define __le_num(TYPENAME) __compare_num(__le_, TYPENAME, <= )
ANY_NBIT(__le_num)
ANY_NUM(__le_num)
#define __le_time(TYPENAME) __compare_time(__le_, TYPENAME, <= )
ANY_DATE(__le_time)
__le_time(TIME)
__compare_string(__le_, <= )
/**************/
/* NE */
/**************/
#define __ne_num(TYPENAME) __compare_num(__ne_, TYPENAME, != )
ANY_NBIT(__ne_num)
ANY_NUM(__ne_num)
#define __ne_time(TYPENAME) __compare_time(__ne_, TYPENAME, != )
ANY_DATE(__ne_time)
__ne_time(TIME)
__compare_string(__ne_, != )