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/*------------------------------------------------------------------------- * * datetime.h * Definitions for date/time support code. * The support code is shared with other date data types, * including abstime, reltime, date, and time. * * * Portions Copyright (c) 1996-2012, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * src/include/utils/datetime.h * *------------------------------------------------------------------------- */ #ifndef DATETIME_H #define DATETIME_H #include "nodes/nodes.h" #include "utils/timestamp.h" /* this struct is declared in utils/tzparser.h: */ struct tzEntry; /* ---------------------------------------------------------------- * time types + support macros * * String definitions for standard time quantities. * * These strings are the defaults used to form output time strings. * Other alternative forms are hardcoded into token tables in datetime.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 DMILLENNIUM "millennium" #define DA_D "ad" #define DB_C "bc" #define DTIMEZONE "timezone" /* * Fundamental time field definitions for parsing. * * Meridian: am, pm, or 24-hour style. * Millennium: ad, bc */ #define AM 0 #define PM 1 #define HR24 2 #define AD 0 #define BC 1 /* * Field types 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. * * Furthermore, the values for YEAR, MONTH, DAY, HOUR, MINUTE, SECOND * must be in the range 0..14 so that the associated bitmasks can fit * into the left half of an INTERVAL's typmod value. Since those bits * are stored in typmods, you can't change them without initdb! */ #define RESERV 0 #define MONTH 1 #define YEAR 2 #define DAY 3 #define JULIAN 4 #define TZ 5 /* fixed-offset timezone abbreviation */ #define DTZ 6 /* fixed-offset timezone abbrev, DST */ #define DYNTZ 7 /* dynamic timezone abbreviation */ #define IGNORE_DTF 8 #define AMPM 9 #define HOUR 10 #define MINUTE 11 #define SECOND 12 #define MILLISECOND 13 #define MICROSECOND 14 #define DOY 15 #define DOW 16 #define UNITS 17 #define ADBC 18 /* these are only for relative dates */ #define AGO 19 #define ABS_BEFORE 20 #define ABS_AFTER 21 /* generic fields to help with parsing */ #define ISODATE 22 #define ISOTIME 23 /* these are only for parsing intervals */ #define WEEK 24 #define DECADE 25 #define CENTURY 26 #define MILLENNIUM 27 /* hack for parsing two-word timezone specs "MET DST" etc */ #define DTZMOD 28 /* "DST" as a separate word */ /* reserved for unrecognized string values */ #define UNKNOWN_FIELD 31 /* * Token field definitions for time parsing and decoding. * * Some field type codes (see above) use these as the "value" in datetktbl[]. * These are also used for bit masks in DecodeDateTime and friends * so actually restrict them to within [0,31] for now. * - thomas 97/06/19 * Not all of these fields are used for masks in DecodeDateTime * so allow some larger than 31. - thomas 1997-11-17 * * Caution: there are undocumented assumptions in the code that most of these * values are not equal to IGNORE_DTF nor RESERV. Be very careful when * renumbering values in either of these apparently-independent lists :-( */ #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_MILLENNIUM 28 #define DTK_MILLISEC 29 #define DTK_MICROSEC 30 #define DTK_JULIAN 31 #define DTK_DOW 32 #define DTK_DOY 33 #define DTK_TZ_HOUR 34 #define DTK_TZ_MINUTE 35 #define DTK_ISOYEAR 36 #define DTK_ISODOW 37 /* * Bit mask definitions for time parsing. */ #define DTK_M(t) (0x01 << (t)) /* Convenience: a second, plus any fractional component */ #define DTK_ALL_SECS_M (DTK_M(SECOND) | DTK_M(MILLISECOND) | DTK_M(MICROSECOND)) #define DTK_DATE_M (DTK_M(YEAR) | DTK_M(MONTH) | DTK_M(DAY)) #define DTK_TIME_M (DTK_M(HOUR) | DTK_M(MINUTE) | DTK_ALL_SECS_M) /* * Working buffer size for input and output of interval, timestamp, etc. * Inputs that need more working space will be rejected early. Longer outputs * will overrun buffers, so this must suffice for all possible output. As of * this writing, interval_out() needs the most space at ~90 bytes. */ #define MAXDATELEN 128 /* maximum possible number of fields in a date string */ #define MAXDATEFIELDS 25 /* only this many chars are stored in datetktbl */ #define TOKMAXLEN 10 /* keep this struct small; it gets used a lot */ typedef struct { char token[TOKMAXLEN + 1]; /* always NUL-terminated */ char type; /* see field type codes above */ int32 value; /* meaning depends on type */ } datetkn; /* one of its uses is in tables of time zone abbreviations */ typedef struct TimeZoneAbbrevTable { Size tblsize; /* size in bytes of TimeZoneAbbrevTable */ int numabbrevs; /* number of entries in abbrevs[] array */ datetkn abbrevs[1]; /* VARIABLE LENGTH ARRAY */ /* DynamicZoneAbbrev(s) may follow the abbrevs[] array */ } TimeZoneAbbrevTable; /* auxiliary data for a dynamic time zone abbreviation (non-fixed-offset) */ typedef struct DynamicZoneAbbrev { pg_tz *tz; /* NULL if not yet looked up */ char zone[1]; /* zone name (var length, NUL-terminated) */ } DynamicZoneAbbrev; /* FMODULO() * Macro to replace modf(), which is broken on some platforms. * t = input and remainder * q = integer part * u = divisor */ #define FMODULO(t,q,u) \ do { \ (q) = (((t) < 0) ? ceil((t) / (u)) : floor((t) / (u))); \ if ((q) != 0) (t) -= rint((q) * (u)); \ } while(0) /* TMODULO() * Like FMODULO(), but work on the timestamp datatype (either int64 or float8). * We assume that int64 follows the C99 semantics for division (negative * quotients truncate towards zero). */ #ifdef HAVE_INT64_TIMESTAMP #define TMODULO(t,q,u) \ do { \ (q) = ((t) / (u)); \ if ((q) != 0) (t) -= ((q) * (u)); \ } while(0) #else #define TMODULO(t,q,u) \ do { \ (q) = (((t) < 0) ? ceil((t) / (u)) : floor((t) / (u))); \ if ((q) != 0) (t) -= rint((q) * (u)); \ } while(0) #endif /* * Date/time validation * Include check for leap year. */ extern const int day_tab[2][13]; #define isleap(y) (((y) % 4) == 0 && (((y) % 100) != 0 || ((y) % 400) == 0)) /* * Datetime input parsing routines (ParseDateTime, DecodeDateTime, etc) * return zero or a positive value on success. On failure, they return * one of these negative code values. DateTimeParseError may be used to * produce a correct ereport. */ #define DTERR_BAD_FORMAT (-1) #define DTERR_FIELD_OVERFLOW (-2) #define DTERR_MD_FIELD_OVERFLOW (-3) /* triggers hint about DateStyle */ #define DTERR_INTERVAL_OVERFLOW (-4) #define DTERR_TZDISP_OVERFLOW (-5) extern void GetCurrentDateTime(struct pg_tm * tm); extern void GetCurrentTimeUsec(struct pg_tm * tm, fsec_t *fsec, int *tzp); extern void j2date(int jd, int *year, int *month, int *day); extern int date2j(int year, int month, int day); extern int ParseDateTime(const char *timestr, char *workbuf, size_t buflen, char **field, int *ftype, int maxfields, int *numfields); extern int DecodeDateTime(char **field, int *ftype, int nf, int *dtype, struct pg_tm * tm, fsec_t *fsec, int *tzp); extern int DecodeTimeOnly(char **field, int *ftype, int nf, int *dtype, struct pg_tm * tm, fsec_t *fsec, int *tzp); extern int DecodeInterval(char **field, int *ftype, int nf, int range, int *dtype, struct pg_tm * tm, fsec_t *fsec); extern int DecodeISO8601Interval(char *str, int *dtype, struct pg_tm * tm, fsec_t *fsec); extern void DateTimeParseError(int dterr, const char *str, const char *datatype); extern int DetermineTimeZoneOffset(struct pg_tm * tm, pg_tz *tzp); extern int DetermineTimeZoneAbbrevOffset(struct pg_tm * tm, const char *abbr, pg_tz *tzp); extern int DetermineTimeZoneAbbrevOffsetTS(TimestampTz ts, const char *abbr, pg_tz *tzp, int *isdst); extern void EncodeDateOnly(struct pg_tm * tm, int style, char *str); extern void EncodeTimeOnly(struct pg_tm * tm, fsec_t fsec, bool print_tz, int tz, int style, char *str); extern void EncodeDateTime(struct pg_tm * tm, fsec_t fsec, bool print_tz, int tz, const char *tzn, int style, char *str); extern void EncodeInterval(struct pg_tm * tm, fsec_t fsec, int style, char *str); extern int DecodeTimezoneAbbrev(int field, char *lowtoken, int *offset, pg_tz **tz); extern int DecodeSpecial(int field, char *lowtoken, int *val); extern int DecodeUnits(int field, char *lowtoken, int *val); extern int j2day(int jd); extern Node *TemporalTransform(int32 max_precis, Node *node); extern bool CheckDateTokenTables(void); extern TimeZoneAbbrevTable *ConvertTimeZoneAbbrevs(struct tzEntry *abbrevs, int n); extern void InstallTimeZoneAbbrevs(TimeZoneAbbrevTable *tbl); extern Datum pg_timezone_abbrevs(PG_FUNCTION_ARGS); extern Datum pg_timezone_names(PG_FUNCTION_ARGS); #endif /* DATETIME_H */