int WriteUTF8(Uint8 *str, Uint32 Val);
int DivUp(int num, int dem);
Sint64 timestamp(int sec, int mins, int hrs, int day, int month, int year);
+#endif
+void format_date(tTime TS, int *year, int *month, int *day, int *hrs, int *mins, int *sec, int *ms);
+#if 0
int rand(void);
int CheckString(char *String);
* \fn Uint64 timestamp(int sec, int mins, int hrs, int day, int month, int year)
* \brief Converts a date into an Acess Timestamp
*/
-Sint64 timestamp(int sec, int mins, int hrs, int day, int month, int year)
+Sint64 timestamp(int sec, int min, int hrs, int day, int month, int year)
{
+ int is_leap;
Sint64 stamp;
- stamp = sec;
- stamp += mins*60;
- stamp += hrs*3600;
-
- stamp += day*3600*24;
- stamp += month*DAYS_BEFORE[month]*3600*24;
- if( (
- ((year&3) == 0 || year%100 != 0)
- || (year%100 == 0 && ((year/100)&3) == 0)
- ) && month > 1) // Leap year and after feb
- stamp += 3600*24;
+
+ if( !(0 <= sec && sec < 60) ) return 0;
+ if( !(0 <= min && min < 60) ) return 0;
+ if( !(0 <= hrs && hrs < 24) ) return 0;
+ if( !(0 <= day && day < 31) ) return 0;
+ if( !(0 <= month && month < 12) ) return 0;
+
+ stamp = DAYS_BEFORE[month] + day;
+
+ // Every 4 years
+ // - every 100 years
+ // + every 400 years
+ is_leap = (year % 4 == 0) - (year % 100 == 0) + (year % 400 == 0);
+ ASSERT(is_leap == 0 || is_leap == 1);
+
+ if( is_leap && month > 1 ) // Leap year and after feb
+ stamp += 1;
+
+ // Get seconds before the first of specified year
+ year -= 2000; // Base off Y2K
+ // base year days + total leap year days
+ stamp += year*365 + (year/400) - (year/100) + (year/4);
- stamp += ((365*4+1) * ((year-2000)&~3)) * 3600*24; // Four Year Segments
- stamp += ((year-2000)&3) * 365*3600*24; // Inside four year segment
+ stamp *= 3600*24;
stamp += UNIX_TO_2K;
+ stamp += sec;
+ stamp += mins*60;
+ stamp += hrs*3600;
return stamp * 1000;
}
+void format_date(tTime TS, int *year, int *month, int *day, int *hrs, int *mins, int *sec, int *ms)
+{
+ int is_leap = 0, i;
+
+ inline Sint64 DivMod64(Sint64 N, Sint64 D, Sint64 *R)
+ {
+ int sign = (N < 0) != (D < 0);
+ if(N < 0) N = -N;
+ if(D < 0) D = -D;
+ if(sign)
+ return -DivMod64U(N, D, (Uint64*)R);
+ else
+ return DivMod64U(N, D, (Uint64*)R);
+ }
+
+ // Get within-day time
+ // TODO: Leap-seconds?
+ {
+ Sint64 rem;
+ TS = DivMod64( TS, 1000, &rem );
+ *ms = rem;
+ TS = DivMod64( TS, 60, &rem );
+ *sec = rem;
+ TS = DivMod64( TS, 60, &rem );
+ *mins = rem;
+ TS = DivMod64( TS, 24, &rem );
+ *hrs = rem;
+ }
+
+ // Adjust to Y2K
+ TS -= UNIX_TO_2K/(3600*24);
+
+ // Year (400 yr blocks) - (400/4-3) leap years
+ *year = 400 * DivMod64( TS, 365*400 + (400/4-3), &TS );
+ if( TS < 366 ) // First year in 400 is a leap
+ is_leap = 1;
+ else
+ {
+ // 100 yr blocks - 100/4-1 leap years
+ *year += 100 * DivMod64( TS, 365*100 + (100/4-1), &TS );
+ if( TS < 366 ) // First year in 100 isn't a leap
+ is_leap = 0;
+ else
+ {
+ *year += 4 * DivMod64( TS, 365*4 + 1, &TS );
+ if( TS < 366 ) // First year in 4 is a leap
+ is_leap = 1;
+ else
+ {
+ *year += DivMod64( TS, 356, &TS );
+ }
+ }
+ }
+ *year += 2000;
+
+ ASSERT(TS >= 0);
+
+ *day = 0;
+ // Month (if after the first of march, which is 29 Feb in a leap year)
+ if( is_leap && TS > DAYS_BEFORE[2] ) {
+ TS -= 1; // Shifts 29 Feb to 28 Feb
+ *day = 1;
+ }
+ // Get what month it is
+ for( i = 0; i < 12; i ++ ) {
+ if( TS < DAYS_BEFORE[i] )
+ break;
+ }
+ *month = i - 1;
+ // Get day
+ TS -= DAYS_BEFORE[i-1];
+ *day += TS; // Plus offset from leap handling above
+}
+
/**
* \fn int rand()
* \brief Pseudo random number generator
git.ucc.asn.au / tpg / acess2.git / commitdiff
UCC git Repository :: git.ucc.asn.au