/*------------------------------------------------------------------------- * * dt.h-- * Definitions for the date/time and other date/time support code. * The support code is shared with other date data types, * including abstime, reltime, date, and time. * * * Copyright (c) 1994, Regents of the University of California * * $Id: dt.h,v 1.19 1997/09/07 05:02:19 momjian Exp $ * *------------------------------------------------------------------------- */ #ifndef DT_H #define DT_H #include #include /* * DateTime represents absolute time. * TimeSpan represents delta time. Keep track of months (and years) * separately since the elapsed time spanned is unknown until instantiated * relative to an absolute time. * * Note that Postgres uses "time interval" to mean a bounded interval, * consisting of a beginning and ending time, not a time span - tgl 97/03/20 */ typedef double DateTime; typedef struct { double time; /* all time units other than months and * years */ int4 month; /* months and years, after time for * alignment */ } TimeSpan; /* ---------------------------------------------------------------- * time types + support macros * * String definitions for standard time quantities. * * These strings are the defaults used to form output time strings. * Other alternate forms are hardcoded into token tables in dt.c. * ---------------------------------------------------------------- */ #define DAGO "ago" #define DCURRENT "current" #define EPOCH "epoch" #define INVALID "invalid" #define EARLY "-infinity" #define LATE "infinity" #define NOW "now" #define TODAY "today" #define TOMORROW "tomorrow" #define YESTERDAY "yesterday" #define ZULU "zulu" #define DMICROSEC "usecond" #define DMILLISEC "msecond" #define DSECOND "second" #define DMINUTE "minute" #define DHOUR "hour" #define DDAY "day" #define DWEEK "week" #define DMONTH "month" #define DQUARTER "quarter" #define DYEAR "year" #define DDECADE "decade" #define DCENTURY "century" #define DMILLENIUM "millenium" #define DA_D "ad" #define DB_C "bc" #define DTIMEZONE "timezone" /* * Fundamental time field definitions for parsing. * * Meridian: am, pm, or 24-hour style. * Millenium: ad, bc */ #define AM 0 #define PM 1 #define HR24 2 #define AD 0 #define BC 1 /* * Fields for time decoding. * Can't have more of these than there are bits in an unsigned int * since these are turned into bit masks during parsing and decoding. */ #define RESERV 0 #define MONTH 1 #define YEAR 2 #define DAY 3 #define TIMES 4 /* not used - thomas 1997-07-14 */ #define TZ 5 #define DTZ 6 #define DTZMOD 7 #define IGNORE 8 #define AMPM 9 #define HOUR 10 #define MINUTE 11 #define SECOND 12 #define DOY 13 #define DOW 14 #define UNITS 15 #define ADBC 16 /* these are only for relative dates */ #define AGO 17 #define ABS_BEFORE 18 #define ABS_AFTER 19 /* * Token field definitions for time parsing and decoding. * These need to fit into the datetkn table type. * At the moment, that means keep them within [-127,127]. * These are also used for bit masks in DecodeDateDelta() * so actually restrict them to within [0,31] for now. * - tgl 97/06/19 */ #define DTK_NUMBER 0 #define DTK_STRING 1 #define DTK_DATE 2 #define DTK_TIME 3 #define DTK_TZ 4 #define DTK_AGO 5 #define DTK_SPECIAL 6 #define DTK_INVALID 7 #define DTK_CURRENT 8 #define DTK_EARLY 9 #define DTK_LATE 10 #define DTK_EPOCH 11 #define DTK_NOW 12 #define DTK_YESTERDAY 13 #define DTK_TODAY 14 #define DTK_TOMORROW 15 #define DTK_ZULU 16 #define DTK_DELTA 17 #define DTK_SECOND 18 #define DTK_MINUTE 19 #define DTK_HOUR 20 #define DTK_DAY 21 #define DTK_WEEK 22 #define DTK_MONTH 23 #define DTK_QUARTER 24 #define DTK_YEAR 25 #define DTK_DECADE 26 #define DTK_CENTURY 27 #define DTK_MILLENIUM 28 #define DTK_MILLISEC 29 #define DTK_MICROSEC 30 #define DTK_DOW 31 /* * Bit mask definitions for time parsing. */ #define DTK_M(t) (0x01 << (t)) #define DTK_DATE_M (DTK_M(YEAR) | DTK_M(MONTH) | DTK_M(DAY)) #define DTK_TIME_M (DTK_M(HOUR) | DTK_M(MINUTE) | DTK_M(SECOND)) #define MAXDATELEN 47 /* maximum possible length of an input * date string */ #define MAXDATEFIELDS 25 /* maximum possible number of fields in a * date string */ #define TOKMAXLEN 10 /* only this many chars are stored in * datetktbl */ /* keep this struct small; it gets used a lot */ typedef struct { #if defined(aix) char *token; #else char token[TOKMAXLEN]; #endif /* aix */ char type; char value; /* this may be unsigned, alas */ } datetkn; #ifdef NAN #define DT_INVALID (NAN) #else #define DT_INVALID (DBL_MIN+DBL_MIN) #endif #ifdef HUGE_VAL #define DT_NOBEGIN (-HUGE_VAL) #define DT_NOEND (HUGE_VAL) #else #define DT_NOBEGIN (-DBL_MAX) #define DT_NOEND (DBL_MAX) #endif #define DT_CURRENT (DBL_MIN) #define DT_EPOCH (-DBL_MIN) #define DATETIME_INVALID(j) {j = DT_INVALID;} #ifdef NAN #define DATETIME_IS_INVALID(j) (isnan(j)) #else #define DATETIME_IS_INVALID(j) (j == DT_INVALID) #endif #define DATETIME_NOBEGIN(j) {j = DT_NOBEGIN;} #define DATETIME_IS_NOBEGIN(j) (j == DT_NOBEGIN) #define DATETIME_NOEND(j) {j = DT_NOEND;} #define DATETIME_IS_NOEND(j) (j == DT_NOEND) #define DATETIME_CURRENT(j) {j = DT_CURRENT;} #if defined(linux) && defined(PPC) extern int datetime_is_current(double j); #define DATETIME_IS_CURRENT(j) datetime_is_current(j) #else #define DATETIME_IS_CURRENT(j) (j == DT_CURRENT) #endif #define DATETIME_EPOCH(j) {j = DT_EPOCH;} #if defined(linux) && defined(PPC) extern int datetime_is_epoch(double j); #define DATETIME_IS_EPOCH(j) datetime_is_epoch(j) #else #define DATETIME_IS_EPOCH(j) (j == DT_EPOCH) #endif #define DATETIME_IS_RELATIVE(j) (DATETIME_IS_CURRENT(j) || DATETIME_IS_EPOCH(j)) #define DATETIME_NOT_FINITE(j) (DATETIME_IS_INVALID(j) \ || DATETIME_IS_NOBEGIN(j) || DATETIME_IS_NOEND(j)) #define DATETIME_IS_RESERVED(j) (DATETIME_IS_RELATIVE(j) || DATETIME_NOT_FINITE(j)) #define TIMESPAN_INVALID(j) {(j).time = DT_INVALID;} #ifdef NAN #define TIMESPAN_IS_INVALID(j) (isnan((j).time)) #else #define TIMESPAN_IS_INVALID(j) ((j).time == DT_INVALID) #endif #define TIMESPAN_NOT_FINITE(j) TIMESPAN_IS_INVALID(j) #define TIME_PREC 1e-6 #define JROUND(j) (rint(((double) (j))/TIME_PREC)*TIME_PREC) /* * dt.c prototypes */ extern DateTime *datetime_in(char *str); extern char *datetime_out(DateTime * dt); extern bool datetime_eq(DateTime * dt1, DateTime * dt2); extern bool datetime_ne(DateTime * dt1, DateTime * dt2); extern bool datetime_lt(DateTime * dt1, DateTime * dt2); extern bool datetime_le(DateTime * dt1, DateTime * dt2); extern bool datetime_ge(DateTime * dt1, DateTime * dt2); extern bool datetime_gt(DateTime * dt1, DateTime * dt2); extern bool datetime_finite(DateTime * datetime); extern int datetime_cmp(DateTime * dt1, DateTime * dt2); extern DateTime *datetime_smaller(DateTime * dt1, DateTime * dt2); extern DateTime *datetime_larger(DateTime * dt1, DateTime * dt2); extern TimeSpan *timespan_in(char *str); extern char *timespan_out(TimeSpan * span); extern bool timespan_eq(TimeSpan * span1, TimeSpan * span2); extern bool timespan_ne(TimeSpan * span1, TimeSpan * span2); extern bool timespan_lt(TimeSpan * span1, TimeSpan * span2); extern bool timespan_le(TimeSpan * span1, TimeSpan * span2); extern bool timespan_ge(TimeSpan * span1, TimeSpan * span2); extern bool timespan_gt(TimeSpan * span1, TimeSpan * span2); extern int timespan_cmp(TimeSpan * span1, TimeSpan * span2); extern TimeSpan *timespan_smaller(TimeSpan * span1, TimeSpan * span2); extern TimeSpan *timespan_larger(TimeSpan * span1, TimeSpan * span2); extern text *datetime_text(DateTime * datetime); extern DateTime *text_datetime(text * str); extern text *timespan_text(TimeSpan * timespan); extern DateTime *datetime_trunc(text * units, DateTime * datetime); extern TimeSpan *timespan_trunc(text * units, TimeSpan * timespan); extern float64 datetime_part(text * units, DateTime * datetime); extern float64 timespan_part(text * units, TimeSpan * timespan); extern text *datetime_zone(text * zone, DateTime * datetime); extern TimeSpan *timespan_um(TimeSpan * span); extern TimeSpan *timespan_pl(TimeSpan * span1, TimeSpan * span2); extern TimeSpan *timespan_mi(TimeSpan * span1, TimeSpan * span2); extern TimeSpan *timespan_div(TimeSpan * span1, float8 * arg2); extern TimeSpan *datetime_mi(DateTime * dt1, DateTime * dt2); extern DateTime *datetime_pl_span(DateTime * dt, TimeSpan * span); extern DateTime *datetime_mi_span(DateTime * dt, TimeSpan * span); extern TimeSpan *datetime_age(DateTime * dt1, DateTime * dt2); extern void GetCurrentTime(struct tm * tm); extern DateTime SetDateTime(DateTime datetime); extern int tm2datetime(struct tm * tm, double fsec, int *tzp, DateTime * dt); extern void j2date(int jd, int *year, int *month, int *day); extern int date2j(int year, int month, int day); extern double time2t(const int hour, const int min, const double sec); extern int ParseDateTime(char *timestr, char *lowstr, char *field[], int ftype[], int maxfields, int *numfields); extern int DecodeDateTime(char *field[], int ftype[], int nf, int *dtype, struct tm * tm, double *fsec, int *tzp); extern int DecodeTimeOnly(char *field[], int ftype[], int nf, int *dtype, struct tm * tm, double *fsec); extern int DecodeDateDelta(char *field[], int ftype[], int nf, int *dtype, struct tm * tm, double *fsec); extern int EncodeDateOnly(struct tm * tm, int style, char *str); extern int EncodeTimeOnly(struct tm * tm, double fsec, int style, char *str); extern int EncodeDateTime(struct tm * tm, double fsec, int *tzp, char **tzn, int style, char *str); extern int EncodeTimeSpan(struct tm * tm, double fsec, int style, char *str); #endif /* DT_H */