VMS Help  —  DCE  DCE_DTS, Application Routines
 NAME

   dts_intro - Introduction to DCE Distributed Time Service (DTS)

 DESCRIPTION

   The DCE Distributed Time Service programming routines can obtain time-
   stamps that are based on Coordinated Universal Time (UTC), translate
   between different timestamp formats, and perform calculations on time-
   stamps. Applications can call the DTS routines from server or clerk
   systems and use the timestamps that DTS supplies to determine event
   sequencing, duration, and scheduling.

   The DTS routines can perform the following basic functions:

     +  Retrieve the current (UTC-based) time from DTS.

     +  Convert binary timestamps expressed in the utc time structure
        to or from tm structure components.

     +  Convert the binary timestamps expressed in the utc time structure
        to or from timespec structure components.

     +  Convert the binary timestamps expressed in the utc time structure
        to or from ASCII strings.

     +  Compare two binary time values.

     +  Calculate binary time values.

     +  Obtain time zone information.

   DTS can convert between several types of binary time structures that
   are based on different calendars and time unit measurements. DTS uses
   UTC-based time structures, and can convert other types of time
   structures to its own presentation of UTC-based time.

   Absolute time is an interval on a time scale; absolute time measurements
   are derived from system clocks or external time-providers.  For DTS,
   absolute times reference the UTC standard and include the inaccuracy and
   other information.  When you display an absolute time, DTS converts the
   time to ASCII text, as shown in the following display:

        1992-11-21-13:30:25.785-04:00I000.082

   Relative time is a discrete time interval that is often added to or sub-
   tracted from an absolute time. A TDF associated with an absolute time is
   one example of a relative time.  Note that a  relative time does not use
   the calendar date fields, since these fields concern absolute time.

   Coordinated Universal Time (UTC) is the international time standard that
   DTS uses.  The zero hour of UTC is based on the zero hour of Greenwich
   Mean Time (GMT).  The documentation consistently refers to the time zone
   of the Greenwich Meridian as GMT.  However, this time zone is also some-
   times referred to as UTC.

   The Time Differential Factor (TDF) is the difference between UTC and the
   time in a particular time zone.

   The user's environment determines the time zone rule (details are system
   dependent).

   If the user's environment does not specify a time zone rule, the
   system's rule is used (details of the rule are system dependent).
   For example, on OpenVMS systems, the rule pointed to by the filename
   in SYS$SYSTEM:SYS$TIMEZONE_SRC.DAT applies.

   The OSF DCE Application Development Guide provides additional infor-
   mation about UTC and GMT, TDF and time zones, and relative and absolute
   times.

   Unless otherwise specified, the default input and output parameters are
   as follows:

     +  If NULL is specified for a utc input parameter, the current time is
        used.

     +  If NULL is specified for any output parameter, no result is
        returned.

 RELATED INFORMATION

   Books: OSF DCE Application Development Guide

1  –  List of all routines

   An alphabetical listing of the DTS portable interface routines and a
   brief description of each one follows:

   utc_abstime()
            Computes the absolute value of a relative binary timestamp.

   utc_addtime()
            Computes the sum of two binary timestamps; the timestamps can
            be two relative times or a relative time and an absolute
 	   time.

   utc_anytime()
            Converts a binary timestamp to a tm structure by using the
 	   TDF information contained in the timestamp to determine the
 	   TDF returned with the tm structure.

   utc_anyzone()
            Gets the time zone label and offset from GMT by using the TDF
            contained in the utc input parameter.

   utc_ascanytime()
            Converts a binary timestamp to an ASCII string that
            represents an arbitrary time zone.

   utc_ascgmtime()
            Converts a binary timestamp to an ASCII string that expresses
            a GMT time.

   utc_asclocaltime()
            Converts a binary timestamp to an ASCII string that
            represents a local time.

   utc_ascreltime()
            Converts a relative binary timestamp to an ASCII string that
            represents the time.

   utc_binreltime()
            Converts a relative binary timestamp to two timespec
 	   structures that express relative time and inaccuracy.

   utc_bintime()
            Converts a binary timestamp to a timespec structure.

   utc_boundtime()
            Given two UTC times, one before and one after an event,
 	   returns a single UTC time whose inaccuracy includes the
 	   event.

   utc_cmpintervaltime()
            Compares two binary timestamps or two relative binary
            timestamps.

   utc_cmpmidtime()
            Compares two binary timestamps or two relative binary
            timestamps, ignoring inaccuracies.

   utc_gettime()
            Returns the current system time and inaccuracy as a binary
            timestamp.

   utc_getusertime()
            Returns the time and process-specific TDF, rather than the
            system-specific TDF.

   utc_gmtime()
            Converts a binary timestamp to a tm structure that expresses
            GMT or the equivalent UTC.

   utc_gmtzone()
            Gets the time zone label for GMT.

   utc_localtime()
            Converts a binary timestamp to a tm structure that expresses
            local time.

   utc_localzone()
            Gets the local time zone label and offset from GMT, given
        	   utc.

   utc_mkanytime()
            Converts a tm structure and TDF (expressing the time in
 	   an arbitrary time zone) to a binary timestamp.

   utc_mkascreltime()
            Converts a NULL-terminated character string that represents
 	   a relative timestamp to a binary timestamp.

   utc_mkasctime()
            Converts a NULL-terminated character string that represents
 	   an absolute timestamp to a binary timestamp.

   utc_mkbinreltime()
            Converts a timespec structure expressing a relative time to a
            binary timestamp.

   utc_mkbintime()
            Converts a timespec structure to a binary timestamp.

   utc_mkgmtime()
            Converts a tm structure that expresses GMT or UTC to a binary
            timestamp.

   utc_mklocaltime()
            Converts a tm structure that expresses local time to a binary
            timestamp.

   utc_mkreltime()
            Converts a tm structure that expresses relative time to a
            relative binary timestamp.

   utc_mulftime()
            Multiplies a relative binary timestamp by a floating-point
            value.

   utc_multime()
            Multiplies a relative binary timestamp by an integer factor.

   utc_pointtime()
            Converts a binary timestamp to three binary timestamps that
            represent the earliest, most likely, and latest time.

   utc_reltime()
            Converts a relative binary timestamp to a tm structure.

   utc_spantime()
            Given two (possibly unordered) binary timestamps, returns a
            single UTC time interval whose inaccuracy spans the two
            input binary timestamps.

   utc_subtime()
            Computes the difference between two binary timestamps that
            express either an absolute time and a relative time, two
            relative times, or two absolute times.

2  –  utc_abstime

 NAME

   utc_abstime - Computes the absolute value of a relative binary
                 timestamp

 SYNOPSIS

   #include <dce/utc.h>

   int utc_abstime( utc_t* result,
                    utc_t *utc );

 PARAMETERS

   Input

   utc
       Relative binary timestamp. Use NULL if you want this routine to
       use the current time for this parameter.

   Output

   result
       Absolute value of the input relative binary timestamp.

 DESCRIPTION

   The utc_abstime() routine computes the absolute value of a relative
   binary timestamp. The input timestamp represents a relative (delta)
   time.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time parameter or invalid results.

 EXAMPLES

   The following example scales a relative time, computes its absolute
   value, and prints the result.

        utc_t       relutc, scaledutc;
        char        timstr[UTC_MAX_STR_LEN];

     /* Make sure relative timestamp represents a positive interval... */

        utc_abstime(&relutc,            /* Out: Abs-value of rel time  */
                    &relutc);           /* In:  Relative time to scale */

        /*  Scale it by a factor of 17...  */

        utc_multime(&scaledutc,         /* Out: Scaled relative time   */
                    &relutc,            /* In:  Relative time to scale */
                    17L);               /* In:  Scale factor           */

        utc_ascreltime(timstr,          /* Out: ASCII relative time    */
                       UTC_MAX_STR_LEN, /* In:  Length of input string */
                       &scaledutc);     /* In:  Relative time to       */
                                        /*      convert                */

        printf("%s\n",timstr);

        /* Scale it by a factor of 17.65...  */

        utc_mulftime(&scaledutc,        /* Out: Scaled relative time   */
                     &relutc,           /* In:  Relative time to scale */
                     17.65);            /* In:  Scale factor           */

        utc_ascreltime(timstr,          /* Out: ASCII relative time    */
                       UTC_MAX_STR_LEN, /* In:  Length of input string */
                       &scaledutc);     /* In:  Relative time to       */
                                        /*      convert                */

        printf("%s\n",timstr);

3  –  utc_addtime

 NAME

   utc_addtime - Computes the sum of two binary timestamps

 SYNOPSIS

   #include <dce/utc.h>

   int utc_addtime( utc_t* result,
                    utc_t *utc1,
                    utc_t *utc2 );

 PARAMETERS

   Input

   utc1
       Binary timestamp or relative binary timestamp. Use NULL if you
       want this routine to use the current time for this parameter.

   utc2
       Binary timestamp or relative binary timestamp. Use NULL if you
       want this routine to use the current time for this parameter.

   Output

   result
       Resulting binary timestamp or relative binary timestamp, depending
       upon the operation performed:

         + relative time+relative time=relative time

         + absolute time+relative time=absolute time

         + relative time+absolute time=absolute time

         + absolute time+absolute time is undefined.  (See the note later
           in this reference page.)

 DESCRIPTION

   The utc_addtime() routine adds two binary timestamps, producing a
   third binary timestamp whose inaccuracy is the sum of the two input
   inaccuracies.  One or both of the input timestamps typically
   represents a relative (delta) time. The TDF in the first input time-
   stamp is copied to the output.  The timestamps can be two relative
   times or a relative time and an absolute time.

 NOTES

   Although no error is returned, the combination absolute time+absolute
   time should not be used.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time parameter or invalid results.

 EXAMPLES

   The following example shows how to compute a timestamp that represents
   a time at least 5 seconds in the future.

       utc_t               now, future, fivesec;
       reltimespec_t       tfivesec;
       timespec_t          tzero;

     /*   Construct a timestamp that represents 5 seconds...        */
     tfivesec.tv_sec = 5;
     tfivesec.tv_nsec = 0;
     tzero.tv_sec = 0;
     tzero.tv_nsec = 0;
     utc_mkbinreltime(&fivesec,  /* Out: 5 secs in binary timestamp    */
                      &tfivesec, /* In:  5 secs in timespec            */
                      &tzero);   /* In:  0 secs inaccuracy in timespec */

     /*  Get the maximum possible current time...
      *  (The NULL input parameter is used to specify the current time.)
      */
     utc_pointtime((utc_t *)0,  /* Out: Earliest possible current time */
                   (utc_t *)0,  /* Out: Midpoint of current time       */
                   &now,        /* Out: Latest possible current time   */
                   (utc_t *)0); /* In:  Use current time               */

     /*   Add 5 seconds to get future timestamp...        */
     utc_addtime(&future,       /* Out: Future binary timestamp       */
                 &now,          /* In:  Latest possible time now      */
                 &fivesec);     /* In:  5 secs                        */

 RELATED INFORMATION

   Functions: utc_subtime

4  –  utc_anytime

 NAME

   utc_anytime - Converts a binary timestamp to a tm structure

 SYNOPSIS

   #include <dce/utc.h>

   int utc_anytime( struct tm *timetm,
                    long *tns,
                    struct tm *inacctm,
                    long *ins,
                    long *tdf,
                    utc_t *utc );

 PARAMETERS

   Input

   utc
       Binary timestamp. Use NULL if you want this routine to use the
       current time for this parameter.

   Output

   timetm
       Time component of the binary timestamp expressed in the
       timestamp's local time.

   tns Nanoseconds since the Time component of the binary timestamp.

   inacctm
       Seconds of the inaccuracy component of the binary timestamp.If the
       inaccuracy is finite, then tm_mday returns a value of -1 and
       tm_mon and tm_year return values of 0 (zero). The field tm_yday
       contains the inaccuracy in days. If the inaccuracy is unspecified,
       all tm structure fields return values of -1.

   ins
       Nanoseconds of the inaccuracy component of the binary timestamp.

   tdf
       TDF component of the binary timestamp in units of seconds east of
       GMT.

 DESCRIPTION

   The utc_anytime() routine converts a binary timestamp to a tm
   structure by using the TDF information contained in the timestamp to
   determine the TDF returned with the tm structure. The TDF information
   contained in the timestamp is returned with the time and inaccuracy
   components; the TDF component determines the offset from GMT and the
   local time value of the tm structure. Additional returns include
   nanoseconds since Time and nanoseconds of inaccuracy.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument or invalid results.

 EXAMPLES

   The following example converts a timestamp by using the TDF
   information in the timestamp, and then prints the result.

        utc_t               evnt;
        struct tm           tmevnt;
        timespec_t          tevnt, ievnt;
        char                tznam[80];

        /*   Assume evnt contains the timestamp to convert...
         *
         *   Get time as a tm structure, using the time zone information
         *   in the timestamp...
         */
      utc_anytime(&tmevnt,        /* Out: tm struct of time of evnt   */
                  (long *)0,      /* Out: nanosec of time of evnt     */
                  (struct tm *)0, /* Out: tm struct of inacc of evnt  */
                  (long *)0,      /* Out: nanosec of inacc of evnt    */
                  (int *)0,       /* Out: tdf of evnt                 */
                  &evnt);         /* In:  binary timestamp of evnt    */

      /*   Get the time and inaccuracy as timespec structures...
       */
      utc_bintime(&tevnt,         /* Out: timespec of time of evnt    */
                  &ievnt,         /* Out: timespec of inacc of evnt   */
                  (int *)0,       /* Out: tdf of evnt                 */
                  &evnt);         /* In:  Binary timestamp of evnt    */

      /*   Construct the time zone name from time zone information in
       *   the timestamp...
       */
      utc_anyzone(tznam,          /* Out: Time zone name              */
                  80,             /* In:  Size of time zone name      */
                  (long *)0,      /* Out: tdf of event                */
                  (long *)0,      /* Out: Daylight saving flag        */
                  &evnt);         /* In:  Binary timestamp of evnt    */

      /*   Print timestamp in the format:
       *
       *           1991-03-05-21:27:50.023I0.140 (GMT-5:00)
       *           1992-04-02-12:37:24.003Iinf (GMT+7:00)
       */

        printf("%d-%02d-%02d-%02d:%02d:%02d.%03d",
                tmevnt.tm_year+1900, tmevnt.tm_mon+1, tmevnt.tm_mday,
                tmevnt.tm_hour, tmevnt.tm_min, tmevnt.tm_sec,
                (tevnt.tv_nsec/1000000));

        if ((long)ievnt.tv_sec == -1)
            printf("Iinf");
        else
            printf("I%d.%03d", ievnt.tv_sec, (ievnt.tv_nsec/1000000));

        printf(" (%s)\n", tznam);

 RELATED INFORMATION

   Functions: utc_mkanytime
              utc_anyzone
              utc_gettime
              utc_getusertime
              utc_gmtime
              utc_localtime

5  –  utc_anyzone

 NAME

   utc_anyzone - Gets the time zone label and offset from GMT

 SYNOPSIS

   #include <dce/utc.h>

   int utc_anyzone( char *tzname,
                    size_t tzlen,
                    long *tdf,
                    int *isdst,
                    const utc_t *utc );

 PARAMETERS

   Input

   tzlen
       Length of the tzname buffer.

   utc
       Binary timestamp. Use NULL if you want this routine to use the
       current time for this parameter.

   Output

   tzname
       Character string that is long enough to hold the time zone label.

   tdf
       Longword with differential in seconds east of GMT.

   isdst
       Integer with a value of -1, indicating that no information is
       supplied as to whether it is standard time or daylight saving
       time. A value of -1 is always returned.

 DESCRIPTION

   The utc_anyzone() routine gets the time zone label and offset from
   GMT by using the TDF contained in the utc input parameter. The label
   returned is always of the form GMT+n or GMT-n where n is the tdf
   expressed in hours:minutes. (The label associated with an arbitrary
   time zone is not known; only the offset is known.)

 NOTES

   All of the output parameters are optional.  No value is returned and
   no error occurs if the pointer is NULL.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument or an insufficient buffer.

 EXAMPLES

   See the sample program in the utc_anytime reference page.

 RELATED INFORMATION

   Functions: utc_anytime
              utc_gmtzone
              utc_localzone

6  –  utc_ascanytime

 NAME

   utc_ascanytime - Converts a binary timestamp to an ASCII string that
                    represents an arbitrary time zone

 SYNOPSIS

   #include <dce/utc.h>

   int utc_ascanytime( char *cp,
                       size_t stringlen,
                       utc_t *utc );

 PARAMETERS

   Input

   stringlen
       The length of the cp buffer.

   utc
       Binary timestamp. Use NULL if you want this routine to use the
       current time for this parameter.

   Output

   cp  ASCII string that represents the time.

 DESCRIPTION

   The utc_ascanytime() routine converts a binary timestamp to an ASCII
   string that expresses a time. The TDF component in the timestamp
   determines the local time used in the conversion.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time parameter or invalid results.

 EXAMPLES

   The following example converts a time to an ASCII string that
   expresses the time in the time zone where the timestamp was
   generated.

        utc_t      evnt;
        char       localTime[UTC_MAX_STR_LEN];

        /*
         *   Assuming that evnt contains the timestamp to convert,
         *   convert the time to ASCII in the following format:
         *
         *          1991-04-01-12:27:38.37-8:00I2.00
         */

        utc_ascanytime(localtime,         /* Out: Converted time    */
                       UTC_MAX_STR_LEN,   /* In:  Length of string  */
                       &evnt);            /* In:  Time to convert   */

 RELATED INFORMATION

   Functions: utc_ascgmtime
              utc_asclocaltime

7  –  utc_ascgmtime

 NAME

   utc_ascgmtime - Converts a binary timestamp to an ASCII string that
                   expresses a GMT time

 SYNOPSIS

   #include <dce/utc.h>

   int utc_ascgmtime( char *cp,
                      size_t stringlen,
                      utc_t *utc );

 PARAMETERS

   Input

   stringlen
       Length of the cp buffer.

   utc
       Binary timestamp.

   Output

   cp  ASCII string that represents the time.

 DESCRIPTION

   The utc_ascgmtime() routine converts a binary timestamp to an ASCII
   string that expresses a time in GMT.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time parameter or invalid results.

 EXAMPLES

   The following example converts the current time to GMT format.

        char   gmTime[UTC_MAX_STR_LEN];

        /*   Convert the current time to ASCII in the following format:
         *          1991-04-01-12:27:38.37I2.00
         */
        utc_ascgmtime(gmTime,            /* Out: Converted time      */
                      UTC_MAX_STR_LEN,   /* In:  Length of string    */
                      (utc_t*) NULL);    /* In:  Time to convert     */
                                         /* Default is current time  */

 RELATED INFORMATION

   Functions: utc_ascanytime
              utc_asclocaltime

8  –  utc_asclocaltime

 NAME

   utc_asclocaltime - Converts a binary timestamp to an ASCII string that
                      represents a local time

 SYNOPSIS

   #include <dce/utc.h>

   int utc_asclocaltime( char *cp,
                         size_t stringlen,
                         utc_t *utc );

 PARAMETERS

   Input

   stringlen
        Length of the cp buffer.

   utc  Binary timestamp. Use NULL if you want this routine to use the
        current time for this parameter.

   Output

   cp   ASCII string that represents the time.

 DESCRIPTION

   The utc_asclocaltime() routine converts a binary timestamp to an
   ASCII string that expresses local time.

   The user's environment determines the time zone rule (details are
   system dependent).

   If the user's environment does not specify a time zone rule, the
   system's rule is used (details of the rule are system dependent).
   For example, on OpenVMS systems, the rule pointed to by the filename
   in SYS$SYSTEM:SYS$TIMEZONE_SRC.DAT applies.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time parameter or invalid results.

 EXAMPLES

   The following example converts the current time to local time.

        char   localTime[UTC_MAX_STR_LEN];

        /*  Convert the current time...        */

        utc_asclocaltime(localTime,        /* Out:  Converted time     */
                         UTC_MAX_STR_LEN,  /* In:   Length of string   */
                         (utc_t*) NULL);   /* In:   Time to convert    */
                                           /* Default is current time  */

 RELATED INFORMATION

   Functions: utc_ascanytime
              utc_ascgmtime

9  –  utc_ascreltime

 NAME

   utc_ascreltime - Converts a relative binary timestamp to an ASCII
                    string that represents the time

 SYNOPSIS

   #include <dce/utc.h>

   int utc_ascreltime( char *cp,
                       const size_t stringlen,
                       utc_t *utc );

 PARAMETERS

   Input

   utc  Relative binary timestamp.

   stringlen
        Length of the cp buffer.

   Output

   cp   ASCII string that represents the time.

 DESCRIPTION

   The utc_ascreltime() routine converts a relative binary timestamp
   to an ASCII string that represents the time.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time parameter or invalid results.

 EXAMPLES

   See the sample program in the utc_abstime reference page.

 RELATED INFORMATION

   Functions: utc_mkascreltime

10  –  utc_binreltime

 NAME

   utc_binreltime - Converts a relative binary timestamp to two timespec
                    structures that express relative time and inaccuracy

 SYNOPSIS

   #include <dce/utc.h>

   int utc_binreltime( reltimespec_t *timesp,
                       timespec_t *inaccsp,
                       utc_t *utc );

 PARAMETERS

   Input

   utc
       Relative binary timestamp. Use NULL if you want this routine to
       use the current time for this parameter.

   Output

   timesp
       Time component of the relative binary timestamp, in the
       form of seconds and nanoseconds since the base time
       (1970-01-01:00:00:00.0+00:00I0).

   inaccsp
       Inaccuracy component of the relative binary timestamp, in the
       form of seconds and nanoseconds.

 DESCRIPTION

   The utc_binreltime() routine converts a relative binary timestamp to
   two timespec structures that express relative time and inaccuracy.
   These timespec structures describe a time interval.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument or invalid results.

 EXAMPLES

   The following example measures the duration of a process, then prints
   the resulting relative time and inaccuracy.

        utc_t               before, duration;
        reltimespec_t       tduration;
        timespec_t          iduration;

      /*   Get the time before the start of the operation...          */
      utc_gettime(&before);           /* Out: Before binary timestamp */

      /*    ...Later...
       *    Subtract, getting the duration as a relative time.
       *
       *    NOTE: The NULL argument is used to obtain the current time.
       */

      utc_subtime(&duration,       /* Out: Duration rel bin timestamp */
                  (utc_t *)0,      /* In:  After binary timestamp     */
                  &before);        /* In:  Before binary timestamp    */

      /*   Convert the relative times to timespec structures...       */

      utc_binreltime(&tduration,   /* Out: Duration time timespec     */
                     &iduration,   /* Out: Duration inacc timespec    */
                     &duration);   /* In:  Duration rel bin timestamp */

      /*   Print the duration...        */
      printf("%d.%04d", tduration.tv_sec, (tduration.tv_nsec/10000));

      if ((long)iduration.tv_sec == -1)
          printf("Iinf\n");
      else
          printf( "I%d.%04d\n",
                  iduration.tv_sec,
                  (iduration.tv_nsec/100000) );

 RELATED INFORMATION

   Functions:  utc_mkbinreltime

11  –  utc_bintime

 NAME

   utc_bintime - Converts a binary timestamp to a timespec structure

 SYNOPSIS

   #include <dce/utc.h>

   int utc_bintime( timespec_t *timesp,
                    timespec_t *inaccsp,
                    long *tdf,
                    utc_t *utc );

 PARAMETERS

   Input

   utc
       Binary timestamp. Use NULL if you want this routine to use the
       current time for this parameter.

   Output

   timesp
       Time component of the binary timestamp, in the form of seconds
       and nanoseconds since the base time.

   inaccsp
       Inaccuracy component of the binary timestamp, in the form of
       seconds and nanoseconds.

   tdf
       TDF component of the binary timestamp in the form of signed number
       of seconds east of GMT.

 DESCRIPTION

   The utc_bintime() routine converts a binary timestamp to a timespec
   structure. The TDF information contained in the timestamp is returned.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument or invalid results.

 EXAMPLES

   See the sample program in the utc_anytime reference page.

 RELATED INFORMATION

   Functions: utc_binreltime
              utc_mkbintime

12  –  utc_boundtime

 NAME

   utc_boundtime - Given two UTC times, one before and one after an
                   event, returns a single UTC time whose inaccuracy
                   includes the event

 SYNOPSIS

   #include <dce/utc.h>

   int utc_boundtime( utc_t *result,
                      utc_t *utc1,
                      utc_t *utc2 );

 PARAMETERS

   Input

   utc1
       Before binary timestamp or relative binary timestamp.  Use
       NULL if you want this routine to use the current time for
       this parameter.

   utc2
       After binary timestamp or relative binary timestamp.  Use
       NULL if you want this routine to use the current time for
       this parameter.

   Output

   result
       Spanning timestamp.

 DESCRIPTION

   Given two UTC times, the utc_boundtime() routine returns a single
   UTC time whose inaccuracy bounds the two input times. This is useful
   for timestamping events: the routine gets the utc values before and
   after the event, then calls utc_boundtime() to build a timestamp that
   includes the event.

 NOTES

   The TDF in the output UTC value is copied from the utc2 input
   parameter.  If one or both input values have unspecified
   inaccuracies, the returned time value also has an unspecified
   inaccuracy and is the average of the two input values.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time parameter or invalid parameter order.

 EXAMPLES

   The following example records the time of an event and constructs a
   single timestamp, which includes the time of the event.  Note that
   the utc_getusertime() routine is called so the time zone information
   that is included in the timestamp references the user's environment
   rather than the system's default time zone.

   The user's environment determines the time zone rule (details are
   system dependent).

   If the user's environment does not specify a time zone rule, the
   system's rule is used (details of the rule are system dependent).
   For example, on OpenVMS systems, the rule pointed to by the filename
   in SYS$SYSTEM:SYS$TIMEZONE_SRC.DAT applies.

      utc_t               before, after, evnt;

      /*  Get the time before the event...        */
      utc_getusertime(&before);   /* Out: Before binary timestamp     */

      /*  Get the time after the event...        */
      utc_getusertime(&after);    /* Out: After binary timestamp      */

      /*  Construct a single timestamp that describes the time of the
       *   event...
       */
      utc_boundtime(&evnt,        /* Out: Timestamp that bounds event */
                    &before,      /* In:  Before binary timestamp     */
                    &after);      /* In:  After binary timestamp      */

 RELATED INFORMATION

   Functions: utc_gettime
              utc_pointtime
              utc_spantime

13  –  utc_cmpintervaltime

 NAME

   utc_cmpintervaltime - Compares two binary timestamps or two relative
                         binary timestamps

 SYNOPSIS

   #include <dce/utc.h>

   int utc_cmpintervaltime( enum utc_cmptype *relation,
                            utc_t *utc1,
                            utc_t *utc2 );

 PARAMETERS

   Input

   utc1
       Binary timestamp or relative binary timestamp. Use NULL if you
       want this routine to use the current time for this parameter.

   utc2
       Binary timestamp or relative binary timestamp. Use NULL if you
       want this routine to use the current time for this parameter.

   Output

   relation
       Receives the result of the comparison of utc1:utc2 where the
       result is an enumerated type with one of the following values:

         + utc_equalTo

         + utc_lessThan

         + utc_greaterThan

         + utc_indeterminate

 DESCRIPTION

   The utc_cmpintervaltime() routine compares two binary timestamps and
   returns a flag indicating that the first time is greater than, less
   than, equal to, or overlapping with the second time. Two times overlap
   if the intervals (time - inaccuracy, time + inaccuracy) of the two
   times intersect.

   The input binary timestamps express two absolute or two relative
   times. Do not compare relative binary timestamps to absolute binary
   timestamps. If you do, no meaningful results and no errors are
   returned.

   The following routine does a temporal ordering of the time intervals.

        utc1 is utc_lessThan utc2 iff
                utc1.time + utc1.inacc < utc2.time - utc2.inacc

        utc1 is utc_greaterThan utc2 iff
                utc1.time - utc1.inacc > utc2.time + utc2.inacc

        utc1 utc_equalTo utc2 iff
                utc1.time == utc2.time and
                utc1.inacc == 0 and
                utc2.inacc == 0

        utc1 is utc_indeterminate with respect to utc2 if the intervals
        overlap.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument.

 EXAMPLES

   The following example checks to see if the current time is definitely
   after 13:00 local time.

        struct tm           tmtime, tmzero;
        enum utc_cmptype    relation;
        utc_t               testtime;

        /*   Zero the tm structure for inaccuracy...        */
        memset(&tmzero, 0, sizeof(tmzero));

        /*  Get the current time, mapped to a tm structure...
         *
         *      NOTE: The NULL argument is used to get the current time.
         */
        utc_gmtime(&tmtime,     /* Out: Current GMT time in tm struct */
                 (long *)0,     /* Out: Nanoseconds of time           */
                 (struct tm *)0,/* Out: Current inaccuracy in tm
                                        struct                        */
                 (long *)0,     /* Out: Nanoseconds of inaccuracy     */
                 (utc_t *)0);   /* In:  Current timestamp             */

      /*   Alter the tm structure to correspond to 13:00 local time   */

      tmtime.tm_hour = 13;
      tmtime.tm_min = 0;
      tmtime.tm_sec = 0;

      /*  Convert to a binary timestamp...        */
      utc_mkgmtime(&testtime,   /* Out: Binary timestamp of 13:00     */
                   &tmtime,     /* In:  1:00 PM in tm struct          */
                   0,           /* In:  Nanoseconds of time           */
                   &tmzero,     /* In:  Zero inaccuracy in tm struct  */
                   0);          /* In:  Nanoseconds of inaccuracy     */

    /* Compare to the current time. Note the use of the NULL argument */

      utc_cmpintervaltime(&relation,  /* Out: Comparison relation     */
                          (utc_t *)0, /* In:  Current timestamp       */
                          &testtime); /* In:  13:00 PM timestamp      */

      /*   If it is not later - wait, print a message, etc.        */

      if (relation != utc_greaterThan) {

      /*
       *     Note: It could be earlier than 13:00 local time or it
       *           could be indeterminate. If indeterminate, for some
       *           applications it might be worth waiting.
       */
       }

 RELATED INFORMATION

   Functions: utc_cmpmidtime

14  –  utc_cmpmidtime

 NAME

   utc_cmpmidtime - Compares two binary timestamps or two relative binary
                    timestamps, ignoring inaccuracies

 SYNOPSIS

   #include <dce/utc.h>

   int utc_cmpmidtime( enum utc_cmptype *relation,
                       utc_t *utc1,
                       utc_t *utc2 );

 PARAMETERS

   Input

   utc1
       Binary timestamp or relative binary timestamp. Use NULL if you
       want this routine to use the current time for this parameter.

   utc2
       Binary timestamp or relative binary timestamp. Use NULL if you
       want this routine to use the current time for this parameter.

   Output

   relation
       Result of the comparison of utc1:utc2 where the result is an
       enumerated type with one of the following values:

         + utc_equalTo

         + utc_lessThan

         + utc_greaterThan

 DESCRIPTION

   The utc_cmpmidtime() routine compares two binary timestamps and
   returns a flag indicating that the first timestamp is greater than,
   less than, or equal to the second timestamp. Inaccuracy information
   is ignored for this comparison; the input values are therefore
   equivalent to the midpoints of the time intervals described by the
   input binary timestamps.

   The input binary timestamps express two absolute or two relative
   times. Do not compare relative binary timestamps to absolute binary
   timestamps. If you do, no meaningful results and no errors are
   returned.

   The following routine does a lexical ordering on the time interval
   midpoints.

        utc1 is utc_lessThan utc2 iff
                utc1.time < utc2.time

        utc1 is utc_greaterThan utc2 iff
                utc1.time > utc2.time

        utc1 is utc_equalTo utc2 iff
                utc1.time == utc2.time

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument.

 EXAMPLES

   The following example checks if the current time (ignoring
   inaccuracies) is after 13:00 local time.

        struct tm           tmtime, tmzero;
        enum utc_cmptype    relation;
        utc_t               testtime;

      /*   Zero the tm structure for inaccuracy...        */
      memset(&tmzero, 0, sizeof(tmzero));

      /*   Get the current time, mapped to a tm structure...
       *
       *        NOTE:  The NULL argument is used to get the current
       *               time.
       */
      utc_localtime(&tmtime,      /* Out: Current local time in tm
                                          struct                      */
                   (long *)0,     /* Out: Nanoseconds of time         */
                   (struct tm *)0,/* Out: Current inacc in tm struct  */
                   (long *)0,     /* Out: Nanoseconds of inaccuracy   */
                   (utc_t *)0);   /* In:  Current timestamp           */

       /*   Alter the tm structure to correspond to 13:00 local time. */
      tmtime.tm_hour = 13;
      tmtime.tm_min = 0;
      tmtime.tm_sec = 0;

       /*   Convert to a binary timestamp...         */
      utc_mklocaltime(&testtime, /* Out: Binary timestamp of 13:00    */
                      &tmtime,   /* In:  13:00 in tm struct           */
                      0,         /* In:  Nanoseconds of time          */
                      &tmzero,   /* In:  Zero inaccuracy in tm struct */
                      0);        /* In:  Nanoseconds of inaccuracy    */

    /* Compare to the current time. Note the use of the NULL argument */
      utc_cmpmidtime(&relation,   /* Out: Comparison relation         */
                     (utc_t *)0,  /* In:  Current timestamp           */
                     &testtime);  /* In:  13:00 local time timestamp  */

      /*   If the time is not later - wait, print a message, etc.     */
      if (relation != utc_greaterThan) {

     /*          It is not later then 13:00 local time. Note that
      *          this depends on the setting of the user's environment.
      */
     }

 RELATED INFORMATION

   Functions: utc_cmpintervaltime

15  –  utc_gettime

 NAME

   utc_gettime - Returns the current system time and inaccuracy as a
                 binary timestamp

 SYNOPSIS

   #include <dce/utc.h>

   int utc_gettime( utc_t *utc );

 PARAMETERS

   Input

   None.

   Output

   utc
       System time as a binary timestamp.

 DESCRIPTION

   The utc_gettime() routine returns the current system time and
   inaccuracy in a binary timestamp. The routine takes the TDF from
   the operating system's kernel; the TDF is specified in a system-
  dependent manner.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Generic error that indicates the time service cannot be
 	accessed.

 EXAMPLES

   See the sample program in the utc_binreltime reference page.

16  –  utc_getusertime

 NAME

   utc_getusertime - Returns the time and process-specific TDF, rather
                     than the system-specific TDF

 SYNOPSIS

   #include <dce/utc.h>

   int utc_getusertime( utc_t *utc );

 PARAMETERS

   Input

   None.

   Output

   utc
       System time as a binary timestamp.

 DESCRIPTION

   The utc_getusertime() routine returns the system time and inaccuracy
   in a binary timestamp. The routine takes the TDF from the user's
   environment, which determines the time zone rule (details are system
   dependent).

   If the user environment does not specify a TDF, the system's TDF is
   used.  The system's time zone rule is applied (details of the rule are
   system dependent). For example, on OpenVMS systems, the rule pointed
   to by the filename in SYS$SYSTEM:SYS$TIMEZONE_SRC.DAT applies.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Generic error that indicates the time service cannot be
 	accessed.

 EXAMPLES

   See the sample program in the utc_boundtime reference page.

 RELATED INFORMATION

   Functions: utc_gettime

17  –  utc_gmtime

 NAME

   utc_gmtime - Converts a binary timestamp to a tm structure that
                expresses GMT or the equivalent UTC

 SYNOPSIS

   #include <dce/utc.h>

   int utc_gmtime( struct tm *timetm,
                   long *tns,
                   struct tm *inacctm,
                   long *ins,
                   utc_t *utc );

 PARAMETERS

   Input

   utc
       Binary timestamp to be converted to tm structure components.
       Use NULL if you want this routine to use the current time for
       this parameter.

   Output

   timetm
       Time component of the binary timestamp.

   tns
       Nanoseconds since the Time component of the binary timestamp.

   inacctm
       Seconds of the inaccuracy component of the binary timestamp.
       If the inaccuracy is finite, then tm_mday returns a value of -1
       and tm_mon and tm_year return values of 0 (zero). The field
       tm_yday contains the inaccuracy in days. If the inaccuracy is
       unspecified, all tm structure fields return values of -1.

   ins
       Nanoseconds of the inaccuracy component of the binary timestamp.
       If the inaccuracy is unspecified, ins returns a value of -1.

 DESCRIPTION

   The utc_gmtime() routine converts a binary timestamp to a tm structure
   that expresses GMT (or the equivalent UTC). Additional returns include
   nanoseconds since Time and nanoseconds of inaccuracy.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument or invalid results.

 EXAMPLES

   See the sample program in the utc_cmpintervaltime reference page.

 RELATED INFORMATION

   Functions: utc_anytime
              utc_gmtzone
              utc_localtime
              utc_mkgmtime

18  –  utc_gmtzone

 NAME

   utc_gmtzone - Gets the time zone label for GMT

 SYNOPSIS

   #include <dce/utc.h>

   int utc_gmtzone( char *tzname,
                    size_t tzlen,
                    long *tdf,
                    int *isdst,
                    utc_t *utc );

 PARAMETERS

   Input

   tzlen
       Length of buffer tzname.

   utc
       Binary timestamp.  This parameter is ignored.

   Output

   tzname
       Character string long enough to hold the time zone label.

   tdf
       Longword with differential in seconds east of GMT.  A value of 0
       (zero) is always returned.

   isdst
       Integer with a value of 0 (zero), indicating that daylight saving
       time is not in effect.  A value of 0 (zero) is always returned.

 DESCRIPTION

   The utc_gmtzone() routine gets the time zone label and zero offset
   from GMT. Outputs are always tdf=0 and tzname=GMT.  This routine
   exists for symmetry with the utc_anyzone() and the utc_localzone()
   routines. Use NULL if you want this routine to  use the current time
   for this parameter.

 NOTES

   All of the output parameters are optional.  No value is returned and
   no error occurs if the tzname pointer is NULL.

 RETURN VALUES

   0 Indicates that the routine executed successfully (always returned).

 EXAMPLES

   The following example prints out the current time in both local time
   and GMT time.

      utc_t       now;
      struct tm   tmlocal, tmgmt;
      long        tzoffset;
      int         tzdaylight;
      char        tzlocal[80], tzgmt[80];

      /*  Get the current time once, so both conversions use the same
       *   time...
       */
      utc_gettime(&now);

      /*  Convert to local time, using the process TZ environment
       *   variable...
       */
      utc_localtime(&tmlocal,      /* Out: Local time tm structure    */
                    (long *)0,     /* Out: Nanosec of time            */
                    (struct tm *)0,/* Out: Inaccuracy tm structure    */
                    (long *)0,     /* Out: Nanosec of inaccuracy      */
                    (int *)0,      /* Out: TDF of local time          */
                    &now);         /* In:  Current timestamp (ignore) */

      /*   Get the local time zone name, offset from GMT, and current
       *   daylight savings flag...
       */

      utc_localzone(tzlocal,    /* Out: Local time zone name          */
                    80,         /* In:  Length of loc time zone name  */
                    &tzoffset,  /* Out: Loc time zone offset in secs  */
                    &tzdaylight,/* Out: Local time zone daylight flag */
                    &now);      /* In:  Current binary timestamp      */

      /*   Convert to GMT...        */
      utc_gmtime(&tmgmt,           /* Out: GMT tm structure           */
                 (long *)0,        /* Out: Nanoseconds of time        */
                 (struct tm *)0,   /* Out: Inaccuracy tm structure    */
                 (long *)0,        /* Out: Nanoseconds of inaccuracy  */
                 &now);            /* In:  Current binary timestamp   */

      /*   Get the GMT time zone name...        */
      utc_gmtzone(tzgmt,        /* Out: GMT time zone name            */
                  80,           /* In:  Size of GMT time zone name    */
                  (long *)0,    /* Out: GMT time zone offset in secs  */
                  (int *)0,     /* Out: GMT time zone daylight flag   */
                  &now);        /* In:  Current binary timestamp      */
                                /*      (ignore)                      */

      /*   Print out times and time zone information in the following
       *   format:
       *
       *          12:00:37 (EDT) = 16:00:37 (GMT)
       *          EDT is -240 minutes ahead of Greenwich Mean Time.
       *          Daylight savings time is in effect.
       */
        printf("%d:%02d:%02d (%s) = %d:%02d:%02d (%s)\n",
               tmlocal.tm_hour, tmlocal.tm_min, tmlocal.tm_sec, tzlocal,
               tmgmt.tm_hour, tmgmt.tm_min, tmgmt.tm_sec, tzgmt);
        printf( "%s is %d minutes ahead of Greenwich Mean Time\n",
                tzlocal, tzoffset/60 );
        if (tzdaylight != 0)
            printf("Daylight savings time is in effect\n");

 RELATED INFORMATION

   Functions: utc_anyzone
              utc_gmtime
              utc_localzone

19  –  utc_localtime

 NAME

   utc_localtime - Converts a binary timestamp to a tm structure that
                   expresses local time

 SYNOPSIS

   #include <dce/utc.h>

   int utc_localtime( struct tm *timetm,
                      long *tns,
                      struct tm *inacctm,
                      long *ins,
                      utc_t *utc );

 PARAMETERS

   Input

   utc
       Binary timestamp. Use NULL if you want this routine to use the
       current time for this parameter.

   Output

   timetm
       Time component of the binary timestamp, expressing local time.

   tns
       Nanoseconds since the Time component of the binary timestamp.

   inacctm
       Seconds of the inaccuracy component of the binary timestamp.
       If the inaccuracy is finite, then tm_mday returns a value of -1
       and tm_mon and tm_year return values of 0 (zero). The field
       tm_yday contains the inaccuracy in days. If the inaccuracy is
       unspecified, all tm structure fields return values of -1.

   ins
       Nanoseconds of the inaccuracy component of the binary timestamp.
       If the inaccuracy is unspecified, ins returns a value of -1.

 DESCRIPTION
   The utc_localtime() routine converts a binary timestamp to a tm
   structure that expresses local time.

   The user's environment determines the time zone rule (details are
   system dependent).

   If the user's environment does not specify a time zone rule, the
   system's rule is used (details of the rule are system dependent).
   For example, on OpenVMS systems, the rule pointed to by the
   filename in SYS$SYSTEM:SYS$TIMEZONE_SRC.DAT applies.

   Additional returns include nanoseconds since Time and nanoseconds of
   inaccuracy.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument or invalid results.

 EXAMPLES

   See the sample program in the utc_gmtzone reference page.

 RELATED INFORMATION

   Functions: utc_anytime
              utc_gmtime
              utc_localzone
              utc_mklocaltime

20  –  utc_localzone

 NAME

   utc_localzone - Gets the local time zone label and offset from GMT,
                   given utc

 SYNOPSIS

   #include <dce/utc.h>

   int utc_localzone( char *tzname,
                      size_t tzlen,
                      long *tdf,
                      int *isdst,
                      utc_t *utc );

 PARAMETERS

   Input

   tzlen
       Length of the tzname buffer.

   utc
       Binary timestamp. Use NULL if you want this routine to use the
       current time for this parameter.

   Output

   tzname
       Character string long enough to hold the time zone label.

   tdf Longword with differential in seconds east of GMT.

   isdst
       Integer with a value of 0 (zero) if standard time is in effect
       or a value of 1 if daylight saving time is in effect.

 DESCRIPTION

   The utc_localzone() routine gets the local time zone label and offset
   from GMT, given utc.

   The user's environment determines the time zone rule (details are
   system dependent).

   If the user's environment does not specify a time zone rule, the
   system's rule is used (details of the rule are system dependent).
   For example, on OpenVMS systems, the rule pointed to by the filename
   in SYS$SYSTEM:SYS$TIMEZONE_SRC.DAT applies.

 NOTES

   All of the output parameters are optional. No value is returned
   and no error occurs if the pointer is NULL.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument or an insufficient buffer.

 EXAMPLES

   See the sample program in the utc_gmtzone reference page.

 RELATED INFORMATION

   Functions: utc_anyzone
              utc_gmtzone
              utc_localtime

21  –  utc_mkanytime

 NAME

   utc_mkanytime - Converts a tm structure and TDF (expressing the time
                   in an arbitrary time zone) to a binary timestamp

 SYNOPSIS

   #include <dce/utc.h>

   int utc_mkanytime( utc_t *utc,
                      struct tm *timetm,
                      long tns,
                      struct tm *inacctm,
                      long ins,
                      long tdf );

 PARAMETERS

   Input

   timetm
          A tm structure that expresses the local time; tm_wday and
          tm_yday are ignored on input; the value of tm_isdt should
          be -1.

   tns    Nanoseconds since the Time component.

   inacctm
          A tm structure that expresses days, hours, minutes, and
          seconds of inaccuracy.  If a null pointer is passed, or
          if tm_yday is negative, the inaccuracy is considered to be
          unspecified; tm_mday, tm_mon, tm_wday, and tm_isdst are
          ignored on input.

   ins    Nanoseconds of the inaccuracy component.

   tdf    Time Differential Factor to use in conversion.

   Output

   utc    Resulting binary timestamp.

 DESCRIPTION

   The utc_mkanytime() routine converts a tm structure and TDF (express-
   ing the time in an arbitrary time zone) to a binary timestamp.
   Required inputs include nanoseconds since Time and nanoseconds of
   inaccuracy.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument or invalid results.

 EXAMPLES

   The following example converts a string ISO format time in an
   arbitrary time zone to a binary timestamp. This may be part of an
   input timestamp routine, although a real implementation will include
   range checking.

        utc_t       utc;
        struct tm   tmtime, tminacc;
        float       tsec, isec;
        double      tmp;
        long        tnsec, insec;
        int         i, offset, tzhour, tzmin, year, mon;
        char        *string;

        /*  Try to convert the string...                               */

        if(sscanf(string, "%d-%d-%d-%d:%d:%e+%d:%dI%e",
                  &year, &mon, &tmtime.tm_mday, &tmtime.tm_hour,
                  &tmtime.tm_min, &tsec, &tzhour, &tzmin, &isec) != 9) {

        /*  Try again with a negative TDF...                           */
        if (sscanf(string, "%d-%d-%d-%d:%d:%e-%d:%dI%e",
                   &year, &mon, &tmtime.tm_mday, &tmtime.tm_hour,
                   &tmtime.tm_min, &tsec, &tzhour, &tzmin, &isec) != 9) {

        /*  ERROR                                                      */
                exit(1);
            }

        /*  TDF is negative                                            */
            tzhour = -tzhour;
            tzmin = -tzmin;
        }

        /*  Fill in the fields...                                      */
        tmtime.tm_year = year - 1900;
        tmtime.tm_mon = --mon;
        tmtime.tm_sec = tsec;
        tnsec = (modf(tsec, &tmp)*1.0E9);
        offset = tzhour*3600 + tzmin*60;
        tminacc.tm_sec = isec;
        insec = (modf(isec, &tmp)*1.0E9);

        /* Convert to a binary timestamp...                            */
        utc_mkanytime(&utc,    /* Out: Resultant binary timestamp      */
                      &tmtime, /* In:  tm struct that represents input */
                      tnsec,   /* In:  Nanoseconds from input          */
                      &tminacc,/* In:  tm struct that represents inacc */
                      insec,   /* In:  Nanoseconds from input          */
                      offset); /* In:  TDF from input                  */

 RELATED INFORMATION

   Functions: utc_anytime
              utc_anyzone

22  –  utc_mkascreltime

 NAME

   utc_mkascreltime - Converts a NULL-terminated character string that
                      represents a relative timestamp to a binary
                      timestamp

 SYNOPSIS

   #include <dce/utc.h>

   int utc_mkascreltime( utc_t *utc,
                         char *string );

 PARAMETERS

   Input

   string
       A NULL-terminated string that expresses a relative timestamp in
       its ISO format.

   Output

   utc Resulting binary timestamp.

 DESCRIPTION

   The utc_mkascreltime() routine converts a NULL-terminated string,
   which represents a relative timestamp, to a binary timestamp.

 NOTES

   The ASCII string must be NULL-terminated.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time parameter or invalid results.

 EXAMPLES

   The following example converts an ASCII relative time string to its
   binary equivalent.

        utc_t      utc;
        char       str[UTC_MAX_STR_LEN];

        /*   Relative time of -333 days, 12 hours, 1 minute, 37.223
         *   seconds Inaccuracy of 50.22 seconds in the format:
         *   -333-12:01:37.223I50.22
         */
        (void)strcpy((void *)str, "-333-12:01:37.223I50.22");

        utc_mkascreltime(&utc,   /* Out: Binary utc                 */
                         str);   /* In:  String                     */

 RELATED INFORMATION

   Functions: utc_ascreltime

23  –  utc_mkasctime

 NAME

   utc_mkasctime - Converts a NULL-terminated character string that
                   represents an absolute timestamp to a binary
                   timestamp

 SYNOPSIS

   #include <dce/utc.h>

   int utc_mkasctime( utc_t *utc,
                      char *string );

 PARAMETERS

   Input

   string
          A NULL-terminated string that expresses an absolute time.

   Output

   utc    Resulting binary timestamp.

 DESCRIPTION

   The utc_mkasctime() routine converts a NULL-terminated string that
   represents an absolute time to a binary timestamp.

 NOTES

   The ASCII string must be NULL-terminated.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time parameter or invalid results.

 EXAMPLES

   The following example converts an ASCII time string to its binary
   equivalent.

        utc_t     utc;
        char      str[UTC_MAX_STR_LEN];

        /*   July 4, 1776, 12:01:37.223 local time
         *   TDF of -5:00 hours
         *   Inaccuracy of 3600.32 seconds
         */
        (void)strcpy((void *)str,
                     "1776-07-04-12:01:37.223-5:00I3600.32");

        utc_mkasctime(&utc,    /* Out: Binary utc            */
                      str);    /* In:  String                */

 RELATED INFORMATION

   Functions:  utc_ascanytime
               utc_ascgmtime
               utc_asclocaltime

24  –  utc_mkbinreltime

 NAME

   utc_mkbinreltime - Converts a timespec structure expressing a
                      relative time to a binary timestamp

 SYNOPSIS

   #include <dce/utc.h>

   int utc_mkbinreltime( utc_t *utc,
                         reltimespec_t *timesp,
                         timespec_t *inaccsp );

 PARAMETERS

   Input

   timesp
          A reltimespec structure that expresses a relative time.

   inaccsp
          A timespec structure that expresses inaccuracy.  If a null
          pointer is passed, or if tv_sec is set to a value of -1, the
          inaccuracy is considered to be unspecified.

   Output

   utc    Resulting relative binary timestamp.

 DESCRIPTION

   The utc_mkbinreltime() routine converts a timespec structure that
   expresses relative time to a binary timestamp.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument or invalid results.

 EXAMPLES

   See the sample program in the utc_addtime reference page.

 RELATED INFORMATION

   Functions: utc_binreltime
              utc_mkbintime

25  –  utc_mkbintime

 NAME

   utc_mkbintime - Converts a timespec structure to a binary timestamp

 SYNOPSIS

   #include <dce/utc.h>

   int utc_mkbintime( utc_t *utc,
                      timespec_t *timesp,
                      timespec_t *inaccsp,
                      long tdf );

 PARAMETERS

   Input

   timesp
          A timespec structure that expresses time since
          1970-01-01:00:00:00.0+0:00I0.

   inaccsp
          A timespec structure that expresses inaccuracy.  If a null
          pointer is passed, or if tv_sec is set to a value of -1,
          the inaccuracy is considered to be unspecified.

   tdf    TDF component of the binary timestamp.

   Output

   utc    Resulting binary timestamp.

 DESCRIPTION

   The utc_mkbintime() routine converts a timespec structure time to a
   binary timestamp. The TDF input is used as the TDF of the binary
   timestamp.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument or invalid results.

 EXAMPLES

   The following example obtains the current time from time(), converts
   it to a binary timestamp with an inaccuracy of 5.2 seconds, and
   specifies GMT.

        timespec_t   ttime, tinacc;
        utc_t        utc;

        /*   Obtain the current time (without the inaccuracy)...    */
        ttime.tv_sec = time((time_t *)0);
        ttime.tv_nsec = 0;

        /*   Specify the inaccuracy...        */
        tinacc.tv_sec = 5;
        tinacc.tv_nsec = 200000000;

        /*   Convert to a binary timestamp...        */
        utc_mkbintime(&utc,       /* Out: Binary timestamp          */
                      &ttime,     /* In:  Current time in timespec  */
                      &tinacc,    /* In:  5.2 seconds in timespec   */
                      0);         /* In:  TDF of GMT                */

 RELATED INFORMATION

   Functions: utc_bintime
              utc_mkbinreltime

26  –  utc_mkgmtime

 NAME

   utc_mkgmtime -  Converts a tm structure that expresses GMT or UTC
                   to a binary timestamp

 SYNOPSIS

   #include <dce/utc.h>

   int utc_mkgmtime( utc_t *utc,
                     struct tm *timetm,
                     long tns,
                     struct tm *inacctm,
                     long ins );

 PARAMETERS

   Input

   timetm
          A tm structure that expresses GMT. On input, tm_wday and
          tm_yday are ignored; the value of tm_isdt should be -1.

   tns    Nanoseconds since the Time component.

   inacctm
          A tm structure that expresses days, hours, minutes, and seconds
          of inaccuracy.  If a null pointer is passed, or if tm_yday is
          negative, the inaccuracy is considered to be unspecified.  On
          input, tm_mday, tm_mon, tm_wday, and tm_isdst are ignored.

   ins    Nanoseconds of the inaccuracy component.

   Output

   utc    Resulting binary timestamp.

 DESCRIPTION

   The utc_mkgmtime() routine converts a tm structure that expresses GMT
   or UTC to a binary timestamp. Additional inputs include nanoseconds
   since the last second of Time and nanoseconds of inaccuracy.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument or invalid results.

 EXAMPLES

   See the sample program in the utc_cmpintervaltime reference page.

 RELATED INFORMATION

   Functions: utc_gmtime

27  –  utc_mklocaltime

 NAME

   utc_mklocaltime - Converts a tm structure that expresses local time
                     to a binary timestamp

 SYNOPSIS

   #include <dce/utc.h>

   int utc_mklocaltime( utc_t *utc,
                        struct tm *timetm,
                        long tns,
                        struct tm *inacctm,
                        long ins );

 PARAMETERS

   Input

   timetm
          A tm structure that expresses the local time. On input,
          tm_wday and tm_yday are ignored; the value of tm_isdst
          should be -1.

   tns    Nanoseconds since the Time component.

   inacctm
          A tm structure that expresses days, hours, minutes, and seconds
          of inaccuracy.  If a null pointer is passed, or if tm_yday is
          negative, the inaccuracy is considered to be unspecified.  On
          input, tm_mday, tm_mon, tm_wday, and tm_isdst are ignored.

   ins    Nanoseconds of the inaccuracy component.

   Output

   utc    Resulting binary timestamp.

 DESCRIPTION

   The utc_mklocaltime() routine converts a tm structure that expresses
   local time to a binary timestamp.

   The user's environment determines the time zone rule (details are
   system dependent).

   If the user's environment does not specify a time zone rule, the
   system's rule is used (details of the rule are system dependent).
   For example, on OpenVMS systems, the rule pointed to by the filename
   in SYS$SYSTEM:SYS$TIMEZONE_SRC.DAT applies.

   Additional inputs include nanoseconds since the last second of Time
   and nanoseconds of inaccuracy.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument or invalid results.

 EXAMPLES

   See the sample program in the utc_cmpmidtime reference page.

 RELATED INFORMATION

   Functions: utc_localtime

28  –  utc_mkreltime

 NAME

   utc_mkreltime - Converts a tm structure that expresses relative time
                   to a relative binary timestamp

 SYNOPSIS

   #include <dce/utc.h>

   int utc_mkreltime( utc_t *utc,
                      struct tm *timetm,
                      long tns,
                      struct tm *inacctm,
                      long ins );

 PARAMETERS

   Input

   timetm
          A tm structure that expresses a relative time. On input,
          tm_wday and tm_yday are ignored; the value of tm_isdst
          should be -1.

   tns    Nanoseconds since the Time component.

   inacctm
          A tm structure that expresses seconds of inaccuracy.  If
          a null pointer is passed, or if tm_yday is negative, the
          inaccuracy is considered to be unspecified. On input,
          tm_mday, tm_mon, tm_year, tm_wday, tm_isdst, and tm_zone
          are ignored.

   ins    Nanoseconds of the inaccuracy component.

   Output

   utc    Resulting relative binary timestamp.

 DESCRIPTION

   The utc_mkreltime() routine converts a tm structure that expresses
   relative time to a relative binary timestamp. Additional inputs
   include nanoseconds since the last second of Time and nanoseconds
   of inaccuracy.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument or invalid results.

 EXAMPLES

 The following example converts the relative time: 125-03:12:30.1I120.25
 to a relative binary timestamp.

        utc_t       utc;
        struct tm   tmtime,tminacc;
        long        tnsec,insec;

        /* Fill in the fields            */
        memset((void *)&tmtime,0,sizeof(tmtime));
        tmtime.tm_mday = 125;
        tmtime.tm_hour = 3;
        tmtime.tm_min  = 12;
        tmtime.tm_sec  = 30;
        tnsec = 100000000;     /* .1 * 1.0E9 */

        memset((void *)&tminacc,0,sizeof(tminacc));
        tminacc.tm_sec = 120;
        tnsec = 250000000;     /* .25 * 1.0E9 */

    /* Convert to a relative binary timestamp...        */
  utc_mkreltime(&utc,     /* Out: Resultant relative binary timestamp */
                &tmtime,  /* In:  tm struct that represents input     */
                tnsec,    /* In:  Nanoseconds from input              */
                &tminacc, /* In:  tm struct that represents inacc     */
                insec);   /* In:  Nanoseconds from input              */

29  –  utc_mulftime

 NAME

   utc_mulftime - Multiplies a relative binary timestamp by a
                  floating-point value.

 SYNOPSIS

   #include <dce/utc.h>

   int utc_mulftime( utc_t *result,
                     utc_t *utc1,
                     double factor );

 PARAMETERS

   Input

   utc1
       Relative binary timestamp. Use NULL if you want this routine to
       use the current time for this parameter.

   factor
       Real scale factor (double-precision, floating-point value).

   Output

   result
       Resulting relative binary timestamp.

 DESCRIPTION

   The utc_mulftime() routine multiplies a relative binary timestamp by
   a floating-point value. Either or both may be negative; the resulting
   relative binary timestamp has the appropriate sign. The unsigned
   inaccuracy in the relative binary timestamp is also multiplied by the
   absolute value of the floating-point value.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument or invalid results.

 EXAMPLES

   The following example scales a relative time by a floating-point
   factor and prints the result.

        utc_t       relutc, scaledutc;
        struct tm   scaledreltm;
        char        timstr[UTC_MAX_STR_LEN];

        /*   Assume relutc contains the time to scale.                 */
        utc_mulftime(&scaledutc,           /* Out: Scaled rel time     */
                     &relutc,              /* In:  Rel time to scale   */
                     17.65);               /* In:  Scale factor        */

        utc_ascreltime(timstr,             /* Out: ASCII rel time      */
                       UTC_MAX_STR_LEN,    /* In:  Input buffer length */
                       &scaledutc);        /* In:  Rel time to convert */

        printf("%s\n",timstr);

        /*    Convert it to a tm structure and print it.               */
        utc_reltime(&scaledreltm,          /* Out: Scaled rel tm       */
                    (long *)0,             /* Out: Scaled rel nano-sec */
                    (struct tm *)0,        /* Out: Scaled rel inacc tm */
                    (long *)0,             /* Out: Scd rel inacc nanos */
                    &scaledutc);           /* In:  Rel time to convert */

        printf( "Approximately %d days, %d hours and %d minutes\n",
                scaledreltm.tm_yday,
                scaledreltm.tm_hour,
                scaledreltm.tm_min );

 RELATED INFORMATION

   Functions:  utc_multime

30  –  utc_multime

 NAME

   utc_multime - Multiplies a relative binary timestamp by an integer
                 factor

 SYNOPSIS

   #include <dce/utc.h>

   int utc_multime( utc_t *result,
                    utc_t *utc1,
                    long factor );

 PARAMETERS

   Input

   utc1
       Relative binary timestamp.

   factor
       Integer scale factor.

   Output

   result
       Resulting relative binary timestamp.

 DESCRIPTION

   The utc_multime() routine multiplies a relative binary timestamp by
   an integer. Either or both may be negative; the resulting binary
   timestamp has the appropriate sign.  The unsigned inaccuracy in the
   binary timestamp is also multiplied by the absolute value of the
   integer.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument or invalid results.

 EXAMPLES

   The following example scales a relative time by an integral value
   and prints the result.

        utc_t       relutc, scaledutc;
        char        timstr[UTC_MAX_STR_LEN];

        /*   Assume relutc contains the time to scale. Scale it by a
         *   factor of 17 ...
         */
        utc_multime(&scaledutc,     /* Out: Scaled rel time       */
                       &relutc,     /*  In: Rel time to scale     */
                           17L);    /*  In: Scale factor          */

        utc_ascreltime(timstr,      /* Out: ASCII rel time        */
              UTC_MAX_STR_LEN,      /*  In: Input buffer length   */
                   &scakedutc);     /*  In: Rel time to convert   */

        printf("Scaled result is %s0, timstr);

 RELATED INFORMATION

   Functions: utc_mulftime

31  –  utc_pointtime

 NAME

   utc_pointtime - Converts a binary timestamp to three binary
                   timestamps that represent the earliest, most
                   likely, and latest time

 SYNOPSIS

   #include <dce/utc.h>

   int utc_pointtime( utc_t *utclp,
                      utc_t *utcmp,
                      utc_t *utchp,
                      utc_t *utc );

 PARAMETERS

   Input

   utc
       Binary timestamp or relative binary timestamp. Use NULL if you
       want this routine to use the current time for this parameter.

   Output

   utclp
       Lowest (earliest) possible absolute time or shortest possible
       relative time that the input timestamp can represent.

   utcmp
       Midpoint of the input timestamp.

   utchp
       Highest (latest) possible absolute time or longest possible
       relative time that the input timestamp can represent.

 DESCRIPTION

   The utc_pointtime() routine converts a binary timestamp to three
   binary timestamps that represent the earliest, latest, and most
   likely (midpoint) times.  If the input is a relative binary time,
   the outputs represent relative binary times.

 NOTES

   All outputs have zero inaccuracy.  An error is returned if the input
   binary timestamp has an unspecified inaccuracy.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument.

 EXAMPLES

   See the sample program in the utc_addtime reference page.

 RELATED INFORMATION

   Functions: utc_boundtime
              utc_spantime

32  –  utc_reltime

 NAME

   utc_reltime - Converts a relative binary timestamp to a tm structure

 SYNOPSIS

   #include <dce/utc.h>

   int utc_reltime( struct tm *timetm,
                    long *tns,
                    struct tm *inacctm,
                    long *ins,
                    utc_t *utc );

 PARAMETERS

   Input

   utc    Relative binary timestamp.

   Output

   timetm
          Relative time component of the relative binary timestamp.
          The field tm_mday returns a value of -1 and the fields
          tm_year and tm_mon return values of 0 (zero). The field
          tm_yday contains the number of days of relative time.

   tns    Nanoseconds since the Time component of the relative binary
          timestamp.

   inacctm
          Seconds of the inaccuracy component of the relative binary
          timestamp.  If the inaccuracy is finite, then tm_mday returns
          a value of -1 and tm_mon and tm_year return values of 0
          (zero). The field tm_yday contains the inaccuracy in days.
          If the inaccuracy is unspecified, all tm structure fields
          return values of -1.

   ins    Nanoseconds of the inaccuracy component of the relative binary
          timestamp.

 DESCRIPTION

   The utc_reltime() routine converts a relative binary timestamp to
   a tm structure. Additional returns include nanoseconds since Time
   and nanoseconds of inaccuracy.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument or invalid results.

 EXAMPLES

   See the sample program in the utc_mulftime reference page.

 RELATED INFORMATION

   Functions: utc_mkreltime

33  –  utc_spantime

 NAME

   utc_spantime - Given two (possibly unordered) binary timestamps,
                  returns a single UTC time interval whose inaccuracy
                  spans the two input binary timestamps

 SYNOPSIS

   #include <dce/utc.h>

   int utc_spantime( utc_t *result,
                     utc_t *utc1,
                     utc_t *utc2 );

 PARAMETERS

   Input

   utc1
       Binary timestamp. Use NULL if you want this routine to use the
       current time for this parameter.

   utc2
       Binary timestamp. Use NULL if you want this routine to use the
       current time for this parameter.

   Output

   result
       Spanning timestamp.

 DESCRIPTION

   Given two binary timestamps, the utc_spantime() routine returns a
   single UTC time interval whose inaccuracy spans the two input
   timestamps (that is, the interval resulting from the earliest
   possible time of either timestamp to the latest possible time of
   either timestamp).

 NOTES

   The tdf parameter in the output UTC value is copied from the utc2
   input. If either input binary timestamp has an unspecified
   inaccuracy, an error is returned.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument.

 EXAMPLES

   The following example computes the earliest and latest times for
   an array of 10 timestamps.

        utc_t               time_array[10], testtime, earliest, latest;
        int                 i;

        /*   Set the running timestamp to the first entry...        */
        testtime = time_array[0];

        for (i=1; i<10; i++) {

           /*   Compute the minimum and the maximum against the next
            *   element...
            */
      utc_spantime(&testtime,       /* Out: Resultant interval        */
                   &testtime,       /* In:  Largest previous interval */
                   &time_array[i]); /* In:  Element under test        */
      }

      /*   Compute the earliest and latest possible times            */
      utc_pointtime(&earliest,   /* Out: Earliest poss time in array */
                   (utc_t *)0,   /* Out: Midpoint                    */
                   &latest,      /* Out: Latest poss time in array   */
                   &testtime);   /* In:  Spanning interval           */

 RELATED INFORMATION

   Functions: utc_boundtime
              utc_gettime
              utc_pointtime

34  –  utc_subtime

 NAME

   utc_subtime - Computes the difference between two binary timestamps

 SYNOPSIS

   #include <dce/utc.h>

   int utc_subtime( utc_t *result,
                    utc_t *utc1,
                    utc_t *utc2 );

 PARAMETERS

   Input

   utc1
       Binary timestamp or relative binary timestamp. Use NULL if you
       want this routine to use the current time for this parameter.

   utc2
       Binary timestamp or relative binary timestamp. Use NULL if you
       want this routine to use the current time for this parameter.

   Output

   result
       Resulting binary timestamp or relative binary timestamp,
       depending upon the operation performed:

         + absolute time-absolute time=relative time

         + relative time-relative time=relative time

         + absolute time-relative time=absolute time

         + relative time-absolute time is undefined.  (See the note
           later in this reference page.)

 DESCRIPTION

   The utc_subtime() routine subtracts one binary timestamp from
   another.  The two binary timestamps express either an absolute
   time and a relative time, two relative times, or two absolute
   times.  The resulting timestamp is utc1 minus utc2. The inaccuracies
   of the two input timestamps are combined and included in the output
   timestamp.  The TDF in the first timestamp is copied to the output.

 NOTES

   Although no error is returned, the combination relative time-
   absolute time should not be used.

 RETURN VALUES

    0    Indicates that the routine executed successfully.

   -1    Indicates an invalid time argument or invalid results.

 EXAMPLES

   See the sample program in the utc_binreltime reference page.

 RELATED INFORMATION

   Functions: utc_addtime
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