campo-sirio/cb5/d4date.c

 /* d4date.c   (c)Copyright Sequiter Software Inc., 1990-1994.  All rights reserved. */

#include "d4all.h"
#ifndef S4UNIX
#ifdef __TURBOC__
#pragma hdrstop
#endif  /* __TUROBC__ */
#endif  /* S4UNIX */

#include <time.h>

#define  JULIAN_ADJUSTMENT    1721425L
#define  S4NULL_DATE          1.0E100   /* may not compile on some Op.Sys. */
 /* Set to MAXDOUBLE ?              */
 static int  month_tot[]=
{ 0, 0,  31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334, 365 } ;
/* Jan Feb Mar  Apr  May  Jun        Jul  Aug  Sep  Oct  Nov  Dec
   31  28  31   30   31   30         31   31   30        31   30   31
   */

typedef struct
{
  char cdow[12] ;
}  DOW ;

typedef struct
{
  char cmonth[10] ;
} MONTH ;

static DOW day_of_week[] =
#ifndef S4LANGUAGE
{
{ "\0          " },
{ "Sunday\0    " },
{ "Monday\0    " },
{ "Tuesday\0   " },
{ "Wednesday\0 " },
{ "Thursday\0  " },
{ "Friday\0    " },
{ "Saturday\0  " },
} ;
#else
#ifdef S4GERMAN
{
{ "\0          " },
{ "Sonntag\0   " },
{ "Montag\0    " },
{ "Dienstag\0  " },
{ "Mittwoch\0  " },
{ "Donnerstag\0" },
{ "Freitag\0   " },
{ "Samstag\0   " },
} ;
#endif
#ifdef S4FRENCH
{
{ "\0          " },
{ "Dimanche\0  " },
{ "Lundi\0     " },
{ "Mardi\0     " },
{ "Mercredi\0  " },
{ "Jeudi\0     " },
{ "Vendredi\0  " },
{ "Samedi\0    " },
} ;
#endif
#ifdef S4SWEDISH
{
{ "\0          " },
{ "M<EFBFBD>ndag\0    " },
{ "Tisdag\0    " },
{ "Onsdag\0    " },
{ "Torsdag\0   " },
{ "Fredag\0    " },
{ "L<EFBFBD>rdag\0    " },
{ "S<EFBFBD>ndag\0    " },
} ;
#endif
#ifdef S4FINNISH
{
{ "\0          " },
{ "Maanantai\0 " },
{ "Tiistai\0   " },
{ "Keskiviikko " },
{ "Torstai\0   " },
{ "Perjantai\0 " },
{ "Lauantai\0  " },
{ "Suununtai\0 " },
} ;
#endif
#ifdef S4NORWEGIAN
{
{ "\0          " },
{ "Mandag\0    " },
{ "Tirsdag\0   " },
{ "Onsdag\0    " },
{ "Torsdag\0   " },
{ "Fredag\0    " },
{ "L<EFBFBD>rdag\0    " },
{ "S<EFBFBD>ndag\0    " },
} ;
#endif
#endif

static MONTH month_of_year[] =
#ifndef S4LANGUAGE
{
{ "\0        " },
{ "January\0 " },
{ "February\0" },
{ "March\0   " },
{ "April\0   " },
{ "May\0     " },
{ "June\0    " },
{ "July\0    " },
{ "August\0  " },
{ "September" },
{ "October\0 " },
{ "November\0" },
{ "December\0" },
} ;
#else
#ifdef S4GERMAN
{
{ "\0        " },
{ "Januar\0  " },
{ "Februar\0 " },
{ "M<EFBFBD>rz\0    " },
{ "April\0   " },
{ "Mai\0     " },
{ "Juni\0    " },
{ "Juli\0    " },
{ "August\0  " },
{ "September" },
{ "Oktober\0 " },
{ "November\0" },
{ "Dezember\0" },
} ;
#endif
#ifdef S4FRENCH
{
{ "\0        " },
{ "Janvier\0 " },
{ "F<EFBFBD>vrier\0 " },
{ "Mars\0    " },
{ "Avril\0   " },
{ "Mai\0     " },
{ "Juin\0    " },
{ "Juillet\0 " },
{ "Ao<EFBFBD>t\0    " },
{ "Septembre" },
{ "Octobre\0 " },
{ "Novembre\0" },
{ "D<EFBFBD>cembre\0" },
} ;
#endif
#ifdef S4SWEDISH
{
{ "\0        " },
{ "Januari\0 " },
{ "Februari\0" },
{ "Mars\0    " },
{ "April\0   " },
{ "Maj\0     " },
{ "Juni\0    " },
{ "Juli\0    " },
{ "Augusti\0 " },
{ "September" },
{ "Oktober\0 " },
{ "November\0" },
{ "December\0" },
} ;
#endif
#ifdef S4FINNISH
{
{ "\0        " },
{ "Tammikuu\0" },
{ "Helmikuu\0" },
{ "Maaliskuu" },
{ "Huhtikuu\0" },
{ "Toukokuu\0" },
{ "Kes<EFBFBD>kuu\0 " },
{ "Hein<EFBFBD>kuu\0" },
{ "Elokuu\0  " },
{ "Syyskuu\0 " },
{ "Lokakuu\0 " },
{ "Marraskuu" },
{ "Joulukuu\0" },
} ;
#endif
#ifdef S4NORWEGIAN
{
{ "\0        " },
{ "Januar\0  " },
{ "Februar\0 " },
{ "Mars\0    " },
{ "April\0   " },
{ "Mai\0     " },
{ "Juni\0    " },
{ "Juli\0    " },
{ "August \0 " },
{ "September" },
{ "Oktober\0 " },
{ "November\0" },
{ "Desember\0" },
} ;
#endif
#endif

static int c4Julian( int year, int month, int day )
{
  /*  Returns */
  /*     >0   The day of the year starting from 1 */
  /*          Ex.    Jan 1, returns  1 */
  /*     -1   Illegal Date */
  int is_leap, month_days ;

  is_leap =  ( year%4 == 0 && year%100 != 0 || year%400 == 0 ) ?  1 : 0 ;

  month_days = month_tot[ month+1 ] -  month_tot[ month] ;
  if ( month == 2 )  month_days += is_leap ;

  if ( year  < 0  ||
      month < 1  ||  month > 12  ||
      day   < 1  ||  day   > month_days )
    return( -1 ) ;        /* Illegal Date */

  if ( month <= 2 )  is_leap = 0 ;

  return(  month_tot[month] + day + is_leap ) ;
}

static int  c4mon_dy( int year, int days,  int *month_ptr,  int *day_ptr )
{
  /*  Given the year and the day of the year, returns the month and day of month. */
  int is_leap, i ;

  is_leap = ( year % 4 == 0 && year % 100 != 0 || year % 400 == 0 ) ?  1 : 0 ;
  if ( days <= 59 )
    is_leap = 0 ;

  for( i = 2; i <= 13; i++)
  {
    if ( days <= month_tot[i] + is_leap )
    {
      *month_ptr = --i ;
      if ( i <= 2)
        is_leap = 0 ;

      *day_ptr = days - month_tot[ i] - is_leap ;
      return 0 ;
    }
  }
  *day_ptr = 0 ;
  *month_ptr = 0 ;

  return -1 ;
}

static long c4ytoj( int yr )
{
  /*  Calculates the number of days to the year */
  /*  This calculation takes into account the fact that */
  /*     1)  Years divisible by 400 are always leap years. */
  /*     2)  Years divisible by 100 but not 400 are not leap years. */
  /*     3)  Otherwise, years divisible by four are leap years. */
  /*  Since we do not want to consider the current year, we will */
  /*  subtract the year by 1 before doing the calculation. */
  yr-- ;
  return( yr*365L +  yr/4L - yr/100L + yr/400L ) ;
}

void S4FUNCTION date4assign( char *date_ptr, long ldate )
{
  /* Converts from a Julian day to the dbf file date format. */
  long tot_days ;
  int  i_temp, year, n_days, max_days, month, day ;

  if ( ldate <= 0 )
  {
    memset( date_ptr, ' ',  8 ) ;
    return ;
  }

  tot_days = ldate - JULIAN_ADJUSTMENT ;
  i_temp = (int)( (double)tot_days / 365.2425 ) ;
  year = i_temp + 1 ;
  n_days = (int)( tot_days - c4ytoj( year ) ) ;
  if ( n_days <= 0 )
  {
    year-- ;
    n_days = (int)( tot_days - c4ytoj( year ) ) ;
  }

  if ( ( year % 4 == 0 ) && ( year % 100 ) || ( year % 400 == 0 ) )
    max_days = 366 ;
  else
    max_days = 365 ;

  if ( n_days > max_days )
  {
    year++ ;
    n_days -= max_days ;
  }

#ifdef S4DEBUG
  if ( c4mon_dy( year, n_days, &month, &day ) < 0 )
    e4severe( e4result, E4_DATE4ASSIGN ) ;
#else
  c4mon_dy( year, n_days, &month, &day ) ;
#endif

  c4ltoa45( (long)year, date_ptr, -4 ) ;
  c4ltoa45( (long)month, date_ptr + 4, -2 ) ;
  c4ltoa45( (long)day, date_ptr + 6, -2 ) ;
}

char *S4FUNCTION date4cdow( char *date_ptr )
{
  return day_of_week[date4dow(date_ptr)].cdow ;
}

char *S4FUNCTION date4cmonth( char *date_ptr )
{
  return month_of_year[date4month( date_ptr )].cmonth ;
}

int S4FUNCTION date4day( char *date_ptr )
{
  return (int)c4atol( date_ptr + 6, 2 ) ;
}

int S4FUNCTION date4dow( char *date_ptr )
{
  long date ;
  date = date4long(date_ptr) ;
  if ( date < 0 )
    return 0 ;
  return (int)( ( date + 1 ) % 7 ) + 1 ;
}

void S4FUNCTION date4format( char *date_ptr, char *result, char *picture )
{
  int result_len, rest, m_num, length ;
  char *ptr_end, *month_ptr, t_char ;

  result_len = strlen(picture) ;
  memset( result, ' ', result_len ) ;

  c4upper( picture ) ;
  c4encode( result, date_ptr, picture, "CCYYMMDD") ;

  ptr_end = strchr( picture, 'M' ) ;
  if ( ptr_end )
  {
    month_ptr = result+  (int)(ptr_end-picture) ;
    length = 0 ;
    while ( *(ptr_end++) == 'M' )
      length++ ;

    if ( length > 2)
    {
      /* Convert from a numeric form to character format for month */
      if (!memcmp( date_ptr+4, "  ", 2 ))   /* if blank month */
      {
        memset( month_ptr, ' ', length ) ;
        return ;
      }

      m_num = c4atoi( date_ptr+4, 2) ;

      if ( m_num < 1)
        m_num = 1 ;
      if ( m_num > 12)
        m_num = 12 ;

      rest = length - 9 ;
      if (length > 9)
        length = 9 ;

      memcpy( month_ptr, month_of_year[m_num].cmonth, (size_t) length ) ;
      if (rest > 0)
        memset( month_ptr+length, (int) ' ', (size_t) rest ) ;

      t_char = month_of_year[m_num].cmonth[length] ;
      if( t_char == '\0' || t_char == ' ' )
      {
        m_num = strlen(month_of_year[m_num].cmonth) ;
        if ( m_num != length )
          month_ptr[m_num] = ' ' ;
      }
#ifdef S4WINDOWS
      OemToAnsi( result, result );
#endif
    }
  }
}

double S4FUNCTION date4format_mdx( char *date_ptr )
{
  long ldate ;
  ldate = date4long(date_ptr) ;
  if ( ldate == 0 )
    return (double) S4NULL_DATE ;  /* Blank or Null date */
  return (double)ldate ;
}

int S4FUNCTION date4format_mdx2( char *date_ptr, double *doub_ptr )
{
  long ldate ;

  ldate = date4long(date_ptr) ;
  if ( ldate == 0 )
    *doub_ptr = (double)S4NULL_DATE ;  /* Blank or Null date */
  else
    *doub_ptr = (double)ldate ;
  return 0 ;
}

void S4FUNCTION date4init( char *date_ptr, char *date_data, char *picture )
{
  char *month_start, month_data[10], buf[2] ;
  int year_count, month_count, day_count, century_count, i, length ;

  day_count = 5 ;
  month_count = 3 ;
  year_count = 1 ;
  century_count= -1 ;

  memset( date_ptr, ' ', 8 ) ;

  c4upper( picture ) ;
  for ( i=0; picture[i] != '\0'; i++ )
  {
    switch( picture[i] )
    {
    case 'D':
      if ( ++day_count >= 8 )
        break ;
      date_ptr[day_count] = date_data[i] ;
      break ;
    case 'M':
      if ( ++month_count >=6 )
        break ;
      date_ptr[month_count] = date_data[i] ;
      break ;
    case 'Y':
      if ( ++year_count >= 4 )
        break ;
      date_ptr[year_count] = date_data[i] ;
      break ;
    case 'C':
      if ( ++century_count >= 2 )
        break ;
      date_ptr[century_count] = date_data[i] ;
      break ;
    default:
      break ;
    }
  }

  if ( strcmp( date_ptr, "        " ) == 0 )
    return ;

  if ( century_count == -1 )
    memcpy( date_ptr, "19", (size_t)2 ) ;
  if ( year_count ==  1 )
    memcpy( date_ptr + 2, "01", (size_t)2 ) ;
  if ( month_count == 3 )
    memcpy( date_ptr + 4, "01", (size_t)2 ) ;
  if ( day_count == 5 )
    memcpy( date_ptr + 6, "01", (size_t)2 ) ;

  if ( month_count >= 6 )
  {
    /* Convert the Month from Character Form to Date Format */
    month_start = strchr( picture, 'M' ) ;

    length = month_count - 3 ;        /* Number of 'M' characters in picture */

    memcpy( date_ptr+4, "  ", (size_t)2 ) ;

    if ( length > 3 )
      length = 3 ;
    memcpy( month_data, date_data + (int)( month_start - picture ), (size_t)length) ;
    while ( length > 0 )
      if ( month_data[length-1] == ' ' )
        length-- ;
      else
        break ;

    month_data[length] = '\0' ;

    c4lower( month_data ) ;
    buf[0] = month_data[0] ;
    buf[1] = 0 ;
    c4upper(buf) ;
    month_data[0] = buf[0] ;

    if ( length > 0 )
      for( i = 1 ; i <= 12; i++ )
      {
        if ( memcmp( month_of_year[i].cmonth, month_data, (size_t) length) == 0 )
        {
          c4ltoa45( (long) i, date_ptr+4, 2 ) ;  /* Found Month Match */
          break ;
        }
      }
  }

  for ( i = 0 ; i < 8 ; i++ )
    if ( date_ptr[i] == ' ' )
      date_ptr[i] = '0' ;
}

long S4FUNCTION date4long( char *date_ptr )
{
  /*  Returns: */
  /*    >0  -  Julian day */
  /*           That is the number of days since the date  Jan 1, 4713 BC */
  /*           Ex.  Jan 1, 1981 is  2444606 */
  /*     0  -  NULL Date (dbf_date is all blank) */
  /*    -1  -  Illegal Date */
  int  year, month, day, day_year ;

  year = c4atoi( date_ptr, 4 ) ;
  if ( year == 0)
    if ( memcmp( date_ptr, "        ", 8 ) == 0)
      return  0 ;

  month = c4atoi( date_ptr + 4, 2 ) ;
  day = c4atoi( date_ptr + 6, 2 ) ;
  day_year = c4Julian( year, month, day ) ;
  if ( day_year < 1 )    /* Illegal Date */
    return -1L ;

  return ( c4ytoj( year ) + day_year + JULIAN_ADJUSTMENT ) ;
}

int S4FUNCTION date4month( char *date_ptr )
{
  return (int)c4atol( date_ptr + 4, 2 ) ;
}

void S4FUNCTION date4time_now( char *time_data )
{
  long time_val ;
  struct tm *tm_ptr ;

  time( (time_t *)&time_val) ;
  tm_ptr = localtime( (time_t *)&time_val) ;

  c4ltoa45( (long)tm_ptr->tm_hour, time_data, -2) ;
  time_data[2] = ':' ;
  c4ltoa45( (long)tm_ptr->tm_min, time_data + 3, -2) ;
  time_data[5] = ':' ;
  c4ltoa45( (long)tm_ptr->tm_sec, time_data + 6, -2) ;
}

void S4FUNCTION date4today( char *date_ptr )
{
  long time_val ;
  struct tm *tm_ptr ;

  time( (time_t *)&time_val ) ;
  tm_ptr = localtime( (time_t *)&time_val ) ;

  c4ltoa45( 1900L + tm_ptr->tm_year, date_ptr, -4 ) ;
  c4ltoa45( (long)tm_ptr->tm_mon + 1, date_ptr + 4, -2 ) ;
  c4ltoa45( (long)tm_ptr->tm_mday, date_ptr + 6, -2 ) ;
}

int S4FUNCTION date4year( char *year_ptr )
{
  return (int)c4atol( year_ptr, 4 ) ;
}


#ifdef S4VB_DOS


/* DATE Functions */

void date4assign_v( char *date, long julian_day )
{
  date4assign( c4buf, julian_day ) ;
  c4buf[8] = '\0' ;
  u4ctov( date, c4buf );
}

char * date4cdow_v( char *date )
{
  return v4str( date4cdow( c4str(date) ) );
}

char * date4cmonth_v( char *date )
{
  return v4str( date4cmonth( c4str(date) ) ) ;
}

int date4day_v( char *date )
{
  return date4day( c4str(date) ) ;
}

int date4dow_v( char *date )
{
  return date4dow( c4str(date) ) ;
}

void date4format_v( char *v_date, char *v_res, char *v_pic )
{
  char c_date[9],c_res[255],c_pic[255];

  u4vtoc( c_date, sizeof(c_date), v_date );
  u4vtoc( c_pic, sizeof(c_pic), v_pic );

  date4format( c_date, c_res, c_pic ) ;
  u4ctov( v_res, c_res );

}

double date4formatMdx ( char *date )
{
  return date4format_mdx( c4str(date) ) ;
}

void date4init_v( char *v_res, char *v_date, char *v_pic )
{
  char c_res[9],c_date[255],c_pic[255];

  u4vtoc( c_date, sizeof(c_date), v_date );
  u4vtoc( c_pic, sizeof(c_pic), v_pic );

  date4init( c_res, c_date, c_pic ) ;

  c_res[8] = '\0' ;

  u4ctov( v_res, c_res ) ;
}

long date4long_v( char *date )
{
  return date4long( c4str(date) ) ;
}

int date4month_v( char *date )
{
  return date4month( c4str(date) ) ;
}

void date4today_v( char *v_date )
{
  date4today( c4buf ) ;
  u4ctov( v_date, c4buf ) ;
}

int date4year_v( char *date )
{
  return date4year( c4str(date) ) ;
}

#endif /* S4VB_DOS */