* It allso applies those m-guessing euristics.
*/
static char *
-plus_minus(struct time_value *ptv, int doop)
+plus_minus(struct rrd_time_value *ptv, int doop)
{
static int op = PLUS;
static int prev_multiplier = -1;
* tod() computes the time of day (TIME-OF-DAY-SPEC)
*/
static char *
-tod(struct time_value *ptv)
+tod(struct rrd_time_value *ptv)
{
int hour, minute = 0;
int tlen;
* assign_date() assigns a date, adjusting year as appropriate
*/
static char *
-assign_date(struct time_value *ptv, long mday, long mon, long year)
+assign_date(struct rrd_time_value *ptv, long mday, long mon, long year)
{
if (year > 138) {
if (year > 1970)
* day() picks apart DAY-SPEC-[12]
*/
static char *
-day(struct time_value *ptv)
+day(struct rrd_time_value *ptv)
{
long mday=0, wday, mon, year = ptv->tm.tm_year;
int tlen;
/*
* parsetime() is the external interface that takes tspec, parses
- * it and puts the result in the time_value structure *ptv.
+ * it and puts the result in the rrd_time_value structure *ptv.
* It can return either absolute times (these are ensured to be
* correct) or relative time references that are expected to be
* added to some absolute time value and then normalized by
* the pointer to the error message in the case of problems
*/
char *
-parsetime(char *tspec, struct time_value *ptv)
+parsetime(char *tspec, struct rrd_time_value *ptv)
{
time_t now = time(NULL);
int hr = 0;
} /* parsetime */
-int proc_start_end (struct time_value *start_tv,
- struct time_value *end_tv,
+int proc_start_end (struct rrd_time_value *start_tv,
+ struct rrd_time_value *end_tv,
time_t *start,
time_t *end){
if (start_tv->type == RELATIVE_TO_END_TIME && /* same as the line above */