!> @file palm_date_time_mod.f90 !------------------------------------------------------------------------------! ! This file is part of the PALM model system. ! ! PALM is free software: you can redistribute it and/or modify it under the ! terms of the GNU General Public License as published by the Free Software ! Foundation, either version 3 of the License, or (at your option) any later ! version. ! ! PALM is distributed in the hope that it will be useful, but WITHOUT ANY ! WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR ! A PARTICULAR PURPOSE. See the GNU General Public License for more details. ! ! You should have received a copy of the GNU General Public License along with ! PALM. If not, see . ! ! Copyright 1997-2020 Leibniz Universitaet Hannover !------------------------------------------------------------------------------! ! ! Current revisions: ! ------------------ ! ! ! Former revisions: ! ----------------- ! $Id: palm_date_time_mod.f90 4360 2020-01-07 11:25:50Z Giersch $ ! Add days of northward- and southward equinox ! ! 4227 2019-09-10 18:04:34Z gronemeier ! Complete rework of module date_and_time_mod: ! - renamed module to prevent confusion with ! FORTRAN Standard routine date_and_time ! - introduce date_time_type ! - add set_reference_date_time ! - add get_date_time ! - capsule whole calculation of date and time variables within this routine ! - removed all variables/routines not belonging to this module ! ! ! Authors: ! -------- !> @author Tobias Gronemeier (LUH) ! ! Description: ! ------------ !> This routine calculates all needed information on date and time used by !> other modules !> !> @todo Consider leap seconds !> @note Time_zone only supports full-hour time zones, i.e., time zones like !> Australian Central Standard Time (UTC+9.5) are not possible !------------------------------------------------------------------------------! MODULE palm_date_time_mod USE control_parameters, & ONLY: message_string USE kinds IMPLICIT NONE ! !-- Parameter Definition INTEGER(iwp), PARAMETER :: date_time_str_len = 23_iwp !< length of date_time strings INTEGER(iwp), PARAMETER :: days_per_week = 7_iwp !< days in a week INTEGER(iwp), PARAMETER :: hours_per_day = 24_iwp !< hours in a day INTEGER(iwp), PARAMETER :: minutes_per_hour = 60_iwp !< minutes in an hour INTEGER(iwp), PARAMETER :: months_per_year = 12_iwp !< months in a year ! !-- Definition of mean northward and southward equinox (summer and winter half year) !-- in days of year. For simplicity, March 21 and September 21 is assumed. INTEGER(iwp), PARAMETER :: northward_equinox = 80_iwp INTEGER(iwp), PARAMETER :: southward_equinox = 264_iwp REAL(wp), PARAMETER :: seconds_per_minute = 60.0_wp !< seconds in a minute REAL(wp), PARAMETER :: seconds_per_hour = seconds_per_minute * minutes_per_hour !< seconds in an hour REAL(wp), PARAMETER :: seconds_per_day = seconds_per_hour * hours_per_day !< seconds in a day CHARACTER(LEN=3), DIMENSION(days_per_week), PARAMETER :: & weekdays = (/"Mon", "Tue", "Wed", "Thu", "Fri", "Sat", "Sun"/) !< names of weekdays INTEGER, DIMENSION(months_per_year), PARAMETER :: & days_per_month_noleapyear = (/31,28,31,30,31,30,31,31,30,31,30,31/) !< days for each month (no leap year) INTEGER, DIMENSION(months_per_year), PARAMETER :: & days_per_month_leapyear = (/31,29,31,30,31,30,31,31,30,31,30,31/) !< days for each month (leap year) INTEGER, DIMENSION(121), PARAMETER :: leap_years = & !< list of leap years (/1804_iwp, 1808_iwp, 1812_iwp, 1816_iwp, 1820_iwp, 1824_iwp, 1828_iwp, 1832_iwp, & 1836_iwp, 1840_iwp, 1844_iwp, 1848_iwp, 1852_iwp, 1856_iwp, 1860_iwp, 1864_iwp, & 1868_iwp, 1872_iwp, 1876_iwp, 1880_iwp, 1884_iwp, 1888_iwp, 1892_iwp, 1896_iwp, & 1904_iwp, 1908_iwp, 1912_iwp, 1916_iwp, 1920_iwp, 1924_iwp, 1928_iwp, 1932_iwp, & 1936_iwp, 1940_iwp, 1944_iwp, 1948_iwp, 1952_iwp, 1956_iwp, 1960_iwp, 1964_iwp, & 1968_iwp, 1972_iwp, 1976_iwp, 1980_iwp, 1984_iwp, 1988_iwp, 1992_iwp, 1996_iwp, & 2000_iwp, 2004_iwp, 2008_iwp, 2012_iwp, 2016_iwp, 2020_iwp, 2024_iwp, 2028_iwp, & 2032_iwp, 2036_iwp, 2040_iwp, 2044_iwp, 2048_iwp, 2052_iwp, 2056_iwp, 2060_iwp, & 2064_iwp, 2068_iwp, 2072_iwp, 2076_iwp, 2080_iwp, 2084_iwp, 2088_iwp, 2092_iwp, & 2096_iwp, 2104_iwp, 2108_iwp, 2112_iwp, 2116_iwp, 2120_iwp, 2124_iwp, 2128_iwp, & 2132_iwp, 2136_iwp, 2140_iwp, 2144_iwp, 2148_iwp, 2152_iwp, 2156_iwp, 2160_iwp, & 2164_iwp, 2168_iwp, 2172_iwp, 2176_iwp, 2180_iwp, 2184_iwp, 2188_iwp, 2192_iwp, & 2196_iwp, 2204_iwp, 2208_iwp, 2212_iwp, 2216_iwp, 2220_iwp, 2224_iwp, 2228_iwp, & 2232_iwp, 2236_iwp, 2240_iwp, 2244_iwp, 2248_iwp, 2252_iwp, 2256_iwp, 2260_iwp, & 2264_iwp, 2268_iwp, 2272_iwp, 2276_iwp, 2280_iwp, 2284_iwp, 2288_iwp, 2292_iwp, & 2296_iwp /) ! !-- Type Definition TYPE date_time_type INTEGER(iwp) :: year = -HUGE(0_iwp) !< year INTEGER(iwp) :: month = -HUGE(0_iwp) !< month of year INTEGER(iwp) :: day = -HUGE(0_iwp) !< day of month INTEGER(iwp) :: hour = -HUGE(0_iwp) !< hour of day INTEGER(iwp) :: minute = -HUGE(0_iwp) !< minute of hour INTEGER(iwp) :: zone = -HUGE(0_iwp) !< time zone REAL(wp) :: second = -HUGE(0.0_wp) !< second of minute REAL(wp) :: second_of_year = -HUGE(0.0_wp) !< second of year INTEGER(iwp) :: days_per_year = -HUGE(0_iwp) !< days within a year INTEGER, DIMENSION(months_per_year) :: days_per_month = days_per_month_noleapyear !< list of total days per month END TYPE date_time_type ! !-- Variable Declaration LOGICAL :: reference_date_time_is_set = .FALSE. !< true if reference_date_time is set TYPE(date_time_type) :: reference_date_time !< reference date-time SAVE PRIVATE ! !-- Set reference date and time INTERFACE set_reference_date_time MODULE PROCEDURE set_reference_date_time END INTERFACE set_reference_date_time ! !-- Return date and time information INTERFACE get_date_time MODULE PROCEDURE get_date_time END INTERFACE get_date_time ! !-- Public Interfaces PUBLIC & get_date_time, & set_reference_date_time ! !-- Public variables PUBLIC & date_time_str_len, & days_per_week, & hours_per_day, & minutes_per_hour, & months_per_year, & northward_equinox, & seconds_per_minute, & seconds_per_hour, & seconds_per_day, & southward_equinox, & weekdays CONTAINS !--------------------------------------------------------------------------------------------------! ! Description: ! ------------ !> Set reference date-time. !> Only a single call is allowed to this routine during execution. !--------------------------------------------------------------------------------------------------! SUBROUTINE set_reference_date_time( date_time_str ) CHARACTER(LEN=date_time_str_len), INTENT(IN) :: date_time_str !< string containing date-time information ! !-- Check if date and time are already set IF ( reference_date_time_is_set ) THEN !> @note This error should never be observed by a user. !> It can only appear if the code was modified. WRITE( message_string, * ) 'Multiple calls to set_reference_date_time detected.&' // & 'The reference date-time must be set only once.' CALL message( 'set_reference_date_time', 'PA0680', 2, 2, 0, 6, 0 ) RETURN ELSE reference_date_time = convert_string_to_date_time( date_time_str ) reference_date_time_is_set = .TRUE. ENDIF END SUBROUTINE set_reference_date_time !--------------------------------------------------------------------------------------------------! ! Description: ! ------------ !> Return requested date-time information of the reference time + time_since_reference. !> An alternative reference date-time string can be specified via 'reference_date_time_str'. !> Call to this routine is only possible if a reference time is either specified in the call itself !> via 'reference_date_time_str' or previously set by calling routine 'set_reference_date_time'. !--------------------------------------------------------------------------------------------------! SUBROUTINE get_date_time( time_since_reference, reference_date_time_str, & year, month, day, hour, minute, second, zone, & second_of_day, second_of_year, & day_of_year, day_of_week, weekday, date_time_str, & days_per_month, days_per_year ) CHARACTER(LEN=date_time_str_len), INTENT(OUT), OPTIONAL :: date_time_str !< date-time as string CHARACTER(LEN=1) :: plus_minus !< either '+' or '-' CHARACTER(LEN=date_time_str_len), INTENT(IN), OPTIONAL :: reference_date_time_str !< alternative reference date-time CHARACTER(LEN=3), INTENT(OUT), OPTIONAL :: weekday !< weekday INTEGER(iwp), INTENT(OUT), OPTIONAL :: day !< day of month INTEGER(iwp), INTENT(OUT), OPTIONAL :: day_of_week !< number of weekday INTEGER(iwp), INTENT(OUT), OPTIONAL :: day_of_year !< day of the year INTEGER(iwp), INTENT(OUT), OPTIONAL :: hour !< hour of day INTEGER(iwp), INTENT(OUT), OPTIONAL :: minute !< minute of hour INTEGER(iwp), INTENT(OUT), OPTIONAL :: month !< month of year INTEGER(iwp), INTENT(OUT), OPTIONAL :: year !< year INTEGER(iwp), INTENT(OUT), OPTIONAL :: zone !< time zone INTEGER(iwp), INTENT(OUT), OPTIONAL :: days_per_year !< days per year INTEGER(iwp), DIMENSION(months_per_year), INTENT(OUT), OPTIONAL :: days_per_month !< days per year REAL(wp), INTENT(OUT), OPTIONAL :: second !< second of minute REAL(wp), INTENT(OUT), OPTIONAL :: second_of_day !< second of day REAL(wp), INTENT(OUT), OPTIONAL :: second_of_year !< second of year REAL(wp), INTENT(IN) :: time_since_reference !< seconds between reference time and current time TYPE(date_time_type) :: date_time !< date-time which to return TYPE(date_time_type) :: internal_reference_date_time !< internal reference date-time ! !-- Check if a reference date-time is given IF ( .NOT. reference_date_time_is_set .AND. .NOT. PRESENT( reference_date_time_str ) ) THEN !> @note This error should never be observed by a user. !> It can only appear if the code was modified. WRITE( message_string, * ) 'No reference date-time defined. '// & 'Returning date-time information is not possible. ' // & 'Either specify reference_date_time_str ' // & 'or set a reference via set_reference_date_time.' CALL message( 'get_date_time', 'PA0677', 2, 2, 0, 6, 0 ) RETURN ENDIF ! !-- Set internal reference date-time IF ( PRESENT( reference_date_time_str ) ) THEN internal_reference_date_time = convert_string_to_date_time( reference_date_time_str ) ELSE internal_reference_date_time = reference_date_time ENDIF ! !-- Add time to reference time date_time = add_date_time( time_since_reference, internal_reference_date_time ) ! !-- Set requested return values IF ( PRESENT( year ) ) year = date_time%year IF ( PRESENT( month ) ) month = date_time%month IF ( PRESENT( day ) ) day = date_time%day IF ( PRESENT( hour ) ) hour = date_time%hour IF ( PRESENT( minute ) ) minute = date_time%minute IF ( PRESENT( second ) ) second = date_time%second IF ( PRESENT( zone ) ) zone = date_time%zone IF ( PRESENT( second_of_year ) ) second_of_year = date_time%second_of_year IF ( PRESENT( second_of_day ) ) second_of_day = get_second_of_day( date_time ) IF ( PRESENT( day_of_year ) ) day_of_year = get_day_of_year( date_time ) IF ( PRESENT( day_of_week ) ) day_of_week = get_day_of_week( date_time ) IF ( PRESENT( weekday ) ) weekday = weekdays( get_day_of_week( date_time ) ) IF ( PRESENT( days_per_month ) ) days_per_month = date_time%days_per_month IF ( PRESENT( days_per_year ) ) days_per_year = date_time%days_per_year IF ( PRESENT( date_time_str ) ) THEN IF ( date_time%zone < 0_iwp ) THEN plus_minus = '-' ELSE plus_minus = '+' ENDIF WRITE( UNIT = date_time_str, & FMT = '(I4,"-",I2.2,"-",I2.2,1X,I2.2,":",I2.2,":",I2.2,1X,A1,I2.2)' ) & date_time%year, date_time%month, date_time%day, & date_time%hour, date_time%minute, INT( date_time%second ), & plus_minus, ABS( date_time%zone ) ENDIF END SUBROUTINE get_date_time !--------------------------------------------------------------------------------------------------! ! Description: ! ------------ !> Convert a date-time string into a date_time object. !--------------------------------------------------------------------------------------------------! FUNCTION convert_string_to_date_time( date_time_str ) RESULT( date_time ) CHARACTER(LEN=date_time_str_len), INTENT(IN) :: date_time_str !< date-time as string INTEGER(iwp) :: read_status !< returned status of read command TYPE(date_time_type) :: date_time !< requested date-time object ! !-- Decompose string to date-time information READ( UNIT = date_time_str( 1: 4), IOSTAT = read_status, FMT = '(I4)' ) date_time%year IF ( read_status == 0 ) & READ( UNIT = date_time_str( 6: 7), IOSTAT = read_status, FMT = '(I2)' ) date_time%month IF ( read_status == 0 ) & READ( UNIT = date_time_str( 9:10), IOSTAT = read_status, FMT = '(I2)' ) date_time%day IF ( read_status == 0 ) & READ( UNIT = date_time_str(12:13), IOSTAT = read_status, FMT = '(I2)' ) date_time%hour IF ( read_status == 0 ) & READ( UNIT = date_time_str(15:16), IOSTAT = read_status, FMT = '(I2)' ) date_time%minute IF ( read_status == 0 ) & READ( UNIT = date_time_str(18:19), IOSTAT = read_status, FMT = '(F2.0)' ) date_time%second IF ( read_status == 0 ) & READ( UNIT = date_time_str(21:23), IOSTAT = read_status, FMT = '(I3)' ) date_time%zone IF ( read_status /= 0 ) THEN WRITE( message_string, * ) 'Error while converting date-time string. ' // & 'Please check format of date-time string: "' // & TRIM( date_time_str ) // '". ' // & 'Format must be "YYYY-MM-DD hh:mm:ss ZZZ".' CALL message( 'convert_string_to_date_time', 'PA0678', 2, 2, 0, 6, 0 ) RETURN ENDIF date_time = update_leapyear_setting( date_time ) IF ( check_date( date_time, date_time_str ) == 0 ) THEN date_time%second_of_year = get_second_of_year( date_time ) ! !-- Shift time to UTC and set zone to UTC date_time = add_date_time( REAL( -1 * date_time%zone, KIND = wp ) & * seconds_per_hour, & date_time ) date_time%zone = 0_iwp ENDIF END FUNCTION convert_string_to_date_time !--------------------------------------------------------------------------------------------------! ! Description: ! ------------ !> Add time increment (in seconds) to given date-time and return shifted date-time !--------------------------------------------------------------------------------------------------! FUNCTION add_date_time( inc_seconds, date_time_base ) RESULT( date_time ) INTEGER(iwp) :: i !< loop index REAL(wp) :: seconds_left !< seconds which must still be added to new date-time REAL(wp) :: seconds_per_year !< number of seconds in a year REAL(wp), INTENT(IN) :: inc_seconds !< seconds to be added to date-time TYPE(date_time_type) :: date_time !< shifted date-time TYPE(date_time_type), INTENT(IN) :: date_time_base !< date-time to be shifted ! !-- Define some parameters date_time = date_time_base seconds_per_year = REAL( date_time%days_per_year, KIND = wp ) * seconds_per_day ! !-- Shift time date_time%second_of_year = date_time%second_of_year + inc_seconds ! !-- Check if year changes !-- First, if year is reduced DO WHILE ( date_time%second_of_year < 0.0_wp ) date_time%year = date_time%year - 1_iwp date_time = update_leapyear_setting( date_time ) seconds_per_year = REAL( date_time%days_per_year * seconds_per_day, KIND = wp ) date_time%second_of_year = date_time%second_of_year + seconds_per_year ENDDO ! !-- Now, if year is increased DO WHILE ( date_time%second_of_year > seconds_per_year ) date_time%year = date_time%year + 1_iwp date_time = update_leapyear_setting( date_time ) date_time%second_of_year = date_time%second_of_year - seconds_per_year seconds_per_year = REAL( date_time%days_per_year * seconds_per_day, KIND = wp ) ENDDO ! !-- Based on updated year and second_of_year, update month, day, hour, minute, second DO i = 1, months_per_year IF ( date_time%second_of_year < SUM( date_time%days_per_month(1:i) ) * seconds_per_day ) & THEN date_time%month = i seconds_left = date_time%second_of_year & - REAL( SUM( date_time%days_per_month(1:i-1) ), KIND=wp ) & * seconds_per_day date_time%day = INT( seconds_left / seconds_per_day, KIND = iwp ) + 1_iwp seconds_left = seconds_left & - REAL( date_time%day - 1_iwp, KIND = wp ) * seconds_per_day date_time%hour = INT( seconds_left / seconds_per_hour, KIND = iwp ) seconds_left = seconds_left - REAL( date_time%hour, KIND = wp ) * seconds_per_hour date_time%minute = INT( seconds_left / seconds_per_minute, KIND = iwp ) date_time%second = seconds_left - REAL( date_time%minute, KIND = wp ) * seconds_per_minute EXIT ENDIF ENDDO END FUNCTION add_date_time !--------------------------------------------------------------------------------------------------! ! Description: ! ------------ !> Return day of year of given date. !--------------------------------------------------------------------------------------------------! FUNCTION get_day_of_year( date_time ) RESULT( day_of_year ) INTEGER(iwp) :: day_of_year !< day of the year TYPE(date_time_type), INTENT(IN) :: date_time !< date of which to calculate day of year TYPE(date_time_type) :: date_time_internal !< internal copy of input date-time date_time_internal = update_leapyear_setting( date_time ) day_of_year = date_time_internal%day & + SUM( date_time_internal%days_per_month(:date_time_internal%month-1) ) END FUNCTION get_day_of_year !--------------------------------------------------------------------------------------------------! ! Description: ! ------------ !> Return second of day of given time. !--------------------------------------------------------------------------------------------------! FUNCTION get_second_of_day( date_time ) RESULT( second_of_day ) REAL(wp) :: second_of_day !< second of the day TYPE(date_time_type), INTENT(IN) :: date_time !< date of which to calculate second of the day second_of_day = date_time%second & + REAL( ( date_time%hour * minutes_per_hour ) + date_time%minute, KIND = wp ) & * seconds_per_minute END FUNCTION get_second_of_day !--------------------------------------------------------------------------------------------------! ! Description: ! ------------ !> Return second of year of given date-time. !--------------------------------------------------------------------------------------------------! FUNCTION get_second_of_year( date_time ) RESULT( second_of_year ) REAL(wp) :: second_of_year !< second of the year TYPE(date_time_type), INTENT(IN) :: date_time !< date of which to calculate second of the year second_of_year = get_second_of_day( date_time ) & + REAL( get_day_of_year( date_time ) - 1_iwp, KIND = wp ) * seconds_per_day END FUNCTION get_second_of_year !--------------------------------------------------------------------------------------------------! ! Description: ! ------------ !> Return index of the day of the week of the given date-time. !--------------------------------------------------------------------------------------------------! FUNCTION get_day_of_week( date_time_in ) RESULT( day_of_week ) INTEGER(iwp) :: date_time_internal_reference_day_of_week !< day of week of reference date INTEGER(iwp) :: day_difference !< day between given date and reference INTEGER(iwp) :: day_of_week !< day of the week TYPE(date_time_type), INTENT(IN) :: date_time_in !< date of which to get the weekday TYPE(date_time_type) :: date_time_internal !< internal date-time ! !-- Define reference date from which on the current day of week can be determined date_time_internal%year = 2000_iwp date_time_internal%month = 1_iwp date_time_internal%day = 1_iwp date_time_internal_reference_day_of_week = 6_iwp ! !-- First, get the difference if both dates would be in the same year day_difference = get_day_of_year( date_time_in ) - get_day_of_year( date_time_internal ) ! !-- Now, shift the year and add the corresponding number of days to the difference IF ( date_time_internal%year < date_time_in%year ) THEN DO WHILE ( date_time_internal%year /= date_time_in%year ) date_time_internal = update_leapyear_setting( date_time_internal ) day_difference = day_difference + date_time_internal%days_per_year date_time_internal%year = date_time_internal%year + 1_iwp ENDDO ELSEIF ( date_time_internal%year > date_time_in%year ) THEN DO WHILE ( date_time_internal%year /= date_time_in%year ) date_time_internal%year = date_time_internal%year - 1_iwp date_time_internal = update_leapyear_setting( date_time_internal ) day_difference = day_difference - date_time_internal%days_per_year ENDDO ENDIF ! !-- Remove full weeks of day_difference and shift day_of_week of reference by !-- remaining days day_of_week = date_time_internal_reference_day_of_week + MOD( day_difference, days_per_week ) IF ( day_of_week > days_per_week ) THEN ! !-- Shift index again if it is next week (above days_per_week)... day_of_week = day_of_week - days_per_week ELSEIF ( day_of_week <= 0_iwp ) THEN ! !-- ...or if it is last week (below 1) day_of_week = day_of_week + days_per_week ENDIF END FUNCTION get_day_of_week !--------------------------------------------------------------------------------------------------! ! Description: ! ------------ !> Check if given year is a leap year and update days per month accordingly. !--------------------------------------------------------------------------------------------------! FUNCTION update_leapyear_setting( date_time_in ) RESULT( date_time_out ) TYPE(date_time_type), INTENT(IN) :: date_time_in !< input date-time TYPE(date_time_type) :: date_time_out !< return date-time date_time_out = date_time_in IF ( ANY( date_time_in%year == leap_years ) ) THEN date_time_out%days_per_month = days_per_month_leapyear ELSE date_time_out%days_per_month = days_per_month_noleapyear ENDIF date_time_out%days_per_year = SUM( date_time_out%days_per_month ) END FUNCTION update_leapyear_setting !--------------------------------------------------------------------------------------------------! ! Description: ! ------------ !> Check if given date and time are valid. Returns 0 if all checks are passed. !> @todo Revise error message. ATM, gives only last errorneous value even if !> multiple values violate the bounds. !--------------------------------------------------------------------------------------------------! FUNCTION check_date( date_time, date_time_str ) RESULT( error_code ) CHARACTER(LEN=6), DIMENSION(7), PARAMETER :: error_str_list = & !< string used for error message (/'year ', 'month ', 'day ', 'hour ', 'minute', 'second', 'zone '/) CHARACTER(LEN=date_time_str_len), INTENT(IN) :: date_time_str !< date-time as string INTEGER(iwp) :: error_code !< error code TYPE(date_time_type), INTENT(IN) :: date_time !< date-time to be checked error_code = 0 ! !-- Check date IF ( date_time%month < 1_iwp .OR. & date_time%month > months_per_year ) THEN error_code = 2 ELSE IF ( date_time%day < 1_iwp .OR. & date_time%day > date_time%days_per_month(date_time%month) ) THEN error_code = 3 ENDIF ENDIF ! !-- Check time IF ( date_time%hour < 0_iwp .OR. & date_time%hour > hours_per_day ) THEN error_code = 4 ELSE IF ( date_time%minute < 0_iwp .OR. & date_time%minute > minutes_per_hour ) THEN error_code = 5 ELSE IF ( date_time%second < 0.0_wp .OR. & date_time%second >= seconds_per_minute ) THEN error_code = 6 ENDIF ENDIF ENDIF ! !-- Check time zone !-- Bounds defined by maximum and minimum time zone present on earth IF ( date_time%zone < -12_iwp .OR. & date_time%zone > 14_iwp ) THEN error_code = 7 ENDIF ! !-- Raise error if any check is marked invalid IF ( error_code /= 0 ) THEN WRITE( message_string, * ) 'Date-time values out of bounds: "' // & TRIM( error_str_list(error_code) ) // & '" is out of bounds. Please check date-time string: "' // & TRIM( date_time_str ) // '". ' // & 'Format must be "YYYY-MM-DD hh:mm:ss ZZZ".' CALL message( 'check_date', 'PA0679', 2, 2, 0, 6, 0 ) RETURN ENDIF END FUNCTION check_date END MODULE palm_date_time_mod