source: palm/trunk/UTIL/inifor/src/inifor_util.f90 @ 4567

Last change on this file since 4567 was 4523, checked in by eckhard, 5 years ago

fixed constant-density pressure extrapolation, respect integer working precision

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1!> @file src/inifor_util.f90
2!------------------------------------------------------------------------------!
3! This file is part of the PALM model system.
4!
5! PALM is free software: you can redistribute it and/or modify it under the
6! terms of the GNU General Public License as published by the Free Software
7! Foundation, either version 3 of the License, or (at your option) any later
8! version.
9!
10! PALM is distributed in the hope that it will be useful, but WITHOUT ANY
11! WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
12! A PARTICULAR PURPOSE.  See the GNU General Public License for more details.
13!
14! You should have received a copy of the GNU General Public License along with
15! PALM. If not, see <http://www.gnu.org/licenses/>.
16!
17! Copyright 2017-2020 Leibniz Universitaet Hannover
18! Copyright 2017-2020 Deutscher Wetterdienst Offenbach
19!------------------------------------------------------------------------------!
20!
21! Current revisions:
22! -----------------
23!
24!
25! Former revisions:
26! -----------------
27! $Id: inifor_util.f90 4523 2020-05-07 15:58:16Z eckhard $
28! respect integer working precision (iwp) specified in inifor_defs.f90
29!
30!
31! 4499 2020-04-16 15:51:56Z eckhard
32! Bugfix: avoid using already overwritten elements in 'reverse' subroutine
33!
34!
35! 4481 2020-03-31 18:55:54Z maronga
36! Bugfix: use explicit loop in 'reverse' subroutine instead of implicit loop
37!
38! 3866 2019-04-05 14:25:01Z eckhard
39! Use PALM's working precision
40! Improved coding style
41!
42!
43! 3785 2019-03-06 10:41:14Z eckhard
44! Prefixed all INIFOR modules with inifor_
45!
46!
47! 3557 2018-11-22 16:01:22Z eckhard
48! Updated documentation
49!
50!
51! 3447 2018-10-29 15:52:54Z eckhard
52! Renamed source files for compatibilty with PALM build system
53!
54!
55! 3395 2018-10-22 17:32:49Z eckhard
56! New routines for computing potential temperature and moist air density
57! Increased number of digits in real-to-str conversion
58!
59! 3183 2018-07-27 14:25:55Z suehring
60! Improved real-to-string conversion
61!
62!
63! 3182 2018-07-27 13:36:03Z suehring
64! Initial revision
65!
66!
67!
68! Authors:
69! --------
70!> @author Eckhard Kadasch (Deutscher Wetterdienst, Offenbach)
71!
72! Description:
73! ------------
74!> The util module provides miscellaneous utility routines for INIFOR.
75!------------------------------------------------------------------------------!
76 MODULE inifor_util
77
78    USE inifor_defs,                                                           &
79        ONLY :  PI, DATE, SNAME, iwp, wp
80    USE inifor_types,                                                          &
81        ONLY :  grid_definition
82    USE, INTRINSIC :: ISO_C_BINDING,                                           &
83        ONLY :  C_CHAR, C_INT, C_PTR, C_SIZE_T
84
85    IMPLICIT NONE
86
87!------------------------------------------------------------------------------!
88! Description:
89! ------------
90!> Fortran implementation of C's struct tm for representing points in time
91!------------------------------------------------------------------------------!
92    TYPE, BIND(c) :: tm_struct
93       INTEGER(C_INT) :: tm_sec     !< seconds after the minute [0, 61]
94       INTEGER(C_INT) :: tm_min     !< minutes after the hour [0, 59]
95       INTEGER(C_INT) :: tm_hour    !< hours since midnight [0, 23]
96       INTEGER(C_INT) :: tm_mday    !< day of the month [1, 31]
97       INTEGER(C_INT) :: tm_mon     !< month since January [0, 11]
98       INTEGER(C_INT) :: tm_year    !< years since 1900
99       INTEGER(C_INT) :: tm_wday    !< days since Sunday [0, 6]
100       INTEGER(C_INT) :: tm_yday    !< days since January 1st [0, 356]
101       INTEGER(C_INT) :: tm_isdst   !< Daylight Saving Time flag
102    END TYPE
103
104 INTERFACE
105
106!------------------------------------------------------------------------------!
107! Description:
108! ------------
109!> Interface to C's strptime function, which converts a string to a tm
110!> structure.
111!------------------------------------------------------------------------------!
112    FUNCTION strptime(string, format, timeinfo) BIND(c, NAME='strptime')
113       IMPORT :: C_CHAR, C_SIZE_T, tm_struct
114
115       IMPLICIT NONE
116
117       CHARACTER(KIND=C_CHAR), DIMENSION(*), INTENT(IN) ::  string, format
118       TYPE(tm_struct), INTENT(OUT)                     ::  timeinfo
119
120       INTEGER(C_SIZE_T)                                ::  strptime
121    END FUNCTION
122
123
124!------------------------------------------------------------------------------!
125! Description:
126! ------------
127!> Interface to C's strftime function, which converts the given 'timeinfo'
128!> structure to a string in the given 'format'.
129!------------------------------------------------------------------------------!
130    FUNCTION strftime(string, string_len, format, timeinfo) BIND(c, NAME='strftime')
131       IMPORT :: C_CHAR, C_SIZE_T, tm_struct
132
133       IMPLICIT NONE
134
135       CHARACTER(KIND=C_CHAR), DIMENSION(*), INTENT(OUT) ::  string
136       CHARACTER(KIND=C_CHAR), DIMENSION(*), INTENT(IN)  ::  format
137       INTEGER(C_SIZE_T), INTENT(IN)                     ::  string_len
138       TYPE(tm_struct), INTENT(IN)                       ::  timeinfo
139
140       INTEGER(C_SIZE_T)                                 ::  strftime
141    END FUNCTION
142
143
144!------------------------------------------------------------------------------!
145! Description:
146! ------------
147!> Interface to C's mktime function, which converts the given tm structure to
148!> Unix time (number of seconds since 0 UTC, 1st January 1970). INIFOR uses the
149!> side effect that a call to mktime noramlizes the given 'timeinfo' structure,
150!> e.g. increments the date if hours overfow 24.
151!------------------------------------------------------------------------------!
152    FUNCTION mktime(timeinfo) BIND(c, NAME='mktime')
153       IMPORT :: C_PTR, tm_struct
154
155       IMPLICIT NONE
156
157       TYPE(tm_struct), INTENT(IN) ::  timeinfo
158
159       TYPE(C_PTR)                 ::  mktime
160    END FUNCTION
161
162 END INTERFACE
163
164 CONTAINS
165
166!------------------------------------------------------------------------------!
167! Description:
168! ------------
169!> Takes a string of the form YYYYMMDDHH, adds the given number of hours to its
170!> tm structure representation, and returns the corresponding string in the same
171!> format
172!------------------------------------------------------------------------------!
173 CHARACTER(LEN=DATE) FUNCTION add_hours_to(date_string, hours)
174    CHARACTER(LEN=DATE), INTENT(IN)          ::  date_string
175    INTEGER(iwp), INTENT(IN)                 ::  hours
176
177    CHARACTER(KIND=C_CHAR, LEN=*), PARAMETER ::  format_string = "%Y%m%d%H"
178    CHARACTER(KIND=C_CHAR, LEN=DATE)         ::  c_date_string
179    TYPE(C_PTR)                              ::  c_pointer
180    TYPE(tm_struct)                          ::  time_info
181    INTEGER(iwp)                             ::  err
182
183    c_date_string = date_string
184
185    ! Convert C string to C tm struct
186    CALL init_tm(time_info)
187    err = strptime(c_date_string, format_string, time_info)
188 
189    ! Manipulate and normalize C tm struct
190    time_info%tm_hour = time_info%tm_hour + hours
191    c_pointer = mktime(time_info)
192
193    ! Convert back to C string
194    err = strftime(c_date_string, INT(DATE, KIND=C_SIZE_T),                 &
195                   format_string, time_info)
196
197    add_hours_to = c_date_string
198 END FUNCTION
199
200
201!------------------------------------------------------------------------------!
202! Description:
203! ------------
204!> Print all members of the given tm structure
205!------------------------------------------------------------------------------!
206 SUBROUTINE print_tm(timeinfo)
207    TYPE(tm_struct), INTENT(IN) :: timeinfo
208
209    PRINT *, "sec: ", timeinfo%tm_sec,  &  !< seconds after the minute [0, 61]
210             "min: ", timeinfo%tm_min,  &  !< minutes after the hour [0, 59]
211             "hr:  ", timeinfo%tm_hour, &  !< hours since midnight [0, 23]
212             "day: ", timeinfo%tm_mday, &  !< day of the month [1, 31]
213             "mon: ", timeinfo%tm_mon,  &  !< month since January [0, 11]
214             "yr:  ", timeinfo%tm_year, &  !< years since 1900
215             "wday:", timeinfo%tm_wday, &  !< days since Sunday [0, 6]
216             "yday:", timeinfo%tm_yday, &  !< days since January 1st [0, 356]
217             "dst: ", timeinfo%tm_isdst    !< Daylight Saving time flag
218 END SUBROUTINE print_tm
219
220   
221!------------------------------------------------------------------------------!
222! Description:
223! ------------
224!> Initialize the given tm structure with zero values
225!------------------------------------------------------------------------------!
226 SUBROUTINE init_tm(timeinfo)
227    TYPE(tm_struct), INTENT(INOUT) :: timeinfo
228
229    timeinfo%tm_sec   = 0
230    timeinfo%tm_min   = 0
231    timeinfo%tm_hour  = 0
232    timeinfo%tm_mday  = 0
233    timeinfo%tm_mon   = 0
234    timeinfo%tm_year  = 0
235    timeinfo%tm_wday  = 0
236    timeinfo%tm_yday  = 0
237
238    ! We use UTC times, so marking Daylight Saving Time (DST) 'not available'
239    ! (< 0). If this is set to 0, mktime will convert the timeinfo to DST and
240    ! add one hour.
241    timeinfo%tm_isdst = -1
242 END SUBROUTINE init_tm
243
244
245!------------------------------------------------------------------------------!
246! Description:
247! ------------
248!> Fill the given array with values equally spaced between and including start
249!> and stop
250!------------------------------------------------------------------------------!
251 SUBROUTINE linspace(start, stop, array)
252
253    REAL(wp), INTENT(IN)    ::  start, stop
254    REAL(wp), INTENT(INOUT) ::  array(0:)
255    INTEGER(iwp)            ::  i, n
256
257    n = UBOUND(array, 1)
258
259    IF (n .EQ. 0)  THEN
260
261       array(0) = start
262
263    ELSE
264
265       DO i = 0, n
266          array(i) = start + REAL(i, wp) / n * (stop - start)
267       ENDDO
268
269    ENDIF
270   
271 END SUBROUTINE linspace
272
273
274!------------------------------------------------------------------------------!
275! Description:
276! ------------
277!> Reverse the order of the third (vertical) array dimension from top-down
278!> (COSMO) to bottom-up (PALM)
279!------------------------------------------------------------------------------!
280 SUBROUTINE reverse(input_arr)
281
282    INTEGER(iwp) ::  idx, opposite_idx, half_idx
283    INTEGER(iwp) ::  size_1st_dimension
284    INTEGER(iwp) ::  size_2nd_dimension
285    INTEGER(iwp) ::  size_3rd_dimension
286    INTEGER(iwp) ::  lbound_3rd_dimension
287    INTEGER(iwp) ::  ubound_3rd_dimension
288
289    REAL(wp), INTENT(INOUT) ::  input_arr(:,:,:)
290    REAL(wp), ALLOCATABLE  :: buffer_arr(:,:)
291
292    lbound_3rd_dimension = LBOUND(input_arr, 3)
293    ubound_3rd_dimension = UBOUND(input_arr, 3)
294    size_1st_dimension = SIZE(input_arr, 1)
295    size_2nd_dimension = SIZE(input_arr, 2)
296    size_3rd_dimension = SIZE(input_arr, 3)
297    half_idx = lbound_3rd_dimension + size_3rd_dimension / 2 - 1
298
299    ALLOCATE( buffer_arr(size_1st_dimension, size_2nd_dimension) )
300
301    DO  idx = lbound_3rd_dimension, half_idx
302       opposite_idx = ubound_3rd_dimension - ( idx - lbound_3rd_dimension )
303       buffer_arr(:,:) = input_arr(:,:,idx)
304       input_arr(:,:,idx) = input_arr(:,:,opposite_idx)
305       input_arr(:,:,opposite_idx) = buffer_arr(:,:)
306    ENDDO
307   
308    DEALLOCATE( buffer_arr )
309
310 END SUBROUTINE reverse
311
312
313!------------------------------------------------------------------------------!
314! Description:
315! ------------
316!>
317!------------------------------------------------------------------------------!
318 SUBROUTINE deaverage(avg_1, t1, avg_2, t2, avg_3, t3)
319
320    REAL(wp), DIMENSION(:,:,:), INTENT(IN)  ::  avg_1, avg_2
321    REAL(wp), INTENT(IN)                    ::  t1, t2, t3
322    REAL(wp), DIMENSION(:,:,:), INTENT(OUT) ::  avg_3
323
324    REAL(wp)                                ::  ti
325 
326    ti = 1.0_wp / t3
327
328    avg_3(:,:,:) = ti * ( t2 * avg_2(:,:,:) - t1 * avg_1(:,:,:) )
329
330 END SUBROUTINE deaverage
331
332
333!------------------------------------------------------------------------------!
334! Description:
335! ------------
336!> Compute the COSMO-DE/-D2 basic state pressure profile
337!------------------------------------------------------------------------------!
338 SUBROUTINE get_basic_state(z, beta, p_sl, t_sl, rd, g, p0)
339
340    REAL(wp), INTENT(IN)  ::  z(1:)  !< height [m]
341    REAL(wp), INTENT(IN)  ::  beta   !< logarithmic lapse rate, dT / d ln(p) [K]
342    REAL(wp), INTENT(IN)  ::  p_sl   !< reference pressure [Pa]
343    REAL(wp), INTENT(IN)  ::  t_sl   !< reference tempereature [K]
344    REAL(wp), INTENT(IN)  ::  rd     !< ideal gas constant of dry air [J/kg/K]
345    REAL(wp), INTENT(IN)  ::  g      !< acceleration of Earth's gravity [m/s^2]
346    REAL(wp), INTENT(OUT) ::  p0(1:) !< COSMO basic state pressure [Pa]
347    REAL(wp) ::  root_frac, factor   !< precomputed factors
348
349    factor = - t_sl / beta
350    root_frac = (2.0_wp * beta * g) / (rd * t_sl*t_sl)
351
352    p0(:) = p_sl * EXP(                                                     &
353               factor * ( 1.0_wp - SQRT( 1.0_wp - root_frac * z(:) ) )      &
354    )
355
356 END SUBROUTINE get_basic_state
357
358
359!------------------------------------------------------------------------------!
360! Description:
361! ------------
362!> Converts the absolute temperature to the potential temperature in place using
363!> the identity a^b = e^(b ln(a)).
364!>
365!>     theta = T * (p_ref/p)^(R/c_p) = T * e^( R/c_p * ln(p_ref/p) )
366!------------------------------------------------------------------------------!
367 SUBROUTINE potential_temperature(t, p, p_ref, r, cp)
368    REAL(wp), DIMENSION(:,:,:), INTENT(INOUT) ::  t
369    REAL(wp), DIMENSION(:,:,:), INTENT(IN)    ::  p
370    REAL(wp), INTENT(IN)                      ::  p_ref, r, cp
371    REAL(wp)                                  ::  rcp
372
373    rcp = r/cp
374    t(:,:,:) =  t(:,:,:) * EXP( rcp * LOG(p_ref / p(:,:,:)) )
375
376 END SUBROUTINE potential_temperature
377
378
379!------------------------------------------------------------------------------!
380! Description:
381! ------------
382!> Compute the density in place of the given temperature (t_rho).
383!------------------------------------------------------------------------------!
384 SUBROUTINE moist_density(t_rho, p, qv, rd, rv)
385    REAL(wp), DIMENSION(:,:,:), INTENT(INOUT) ::  t_rho
386    REAL(wp), DIMENSION(:,:,:), INTENT(IN)    ::  p, qv
387    REAL(wp), INTENT(IN)                      ::  rd, rv
388
389    t_rho(:,:,:) = p(:,:,:) / (                                             &
390       (rv * qv(:,:,:) + rd * (1.0_wp - qv(:,:,:))) * t_rho(:,:,:)          &
391    )
392
393 END SUBROUTINE moist_density
394
395!------------------------------------------------------------------------------!
396! Description:
397! ------------
398! Convert a real number to a string in scientific notation showing four
399! significant digits.
400!------------------------------------------------------------------------------!
401 CHARACTER(LEN=SNAME) FUNCTION real_to_str(val, format)
402
403    REAL(wp), INTENT(IN)                   ::  val
404    CHARACTER(LEN=*), OPTIONAL, INTENT(IN) ::  format
405
406    IF (PRESENT( format ) )  THEN
407       WRITE( real_to_str, format ) val
408    ELSE
409       WRITE( real_to_str, '(E11.4)' ) val
410    ENDIF
411    real_to_str = ADJUSTL( real_to_str )
412
413 END FUNCTION real_to_str
414
415
416!------------------------------------------------------------------------------!
417! Description:
418! ------------
419!> Converts the given real value to a string
420!------------------------------------------------------------------------------!
421 CHARACTER(LEN=16) FUNCTION real_to_str_f(val)
422
423     REAL(wp), INTENT(IN) ::  val
424
425     WRITE(real_to_str_f, '(F16.8)') val
426     real_to_str_f = ADJUSTL(real_to_str_f)
427
428 END FUNCTION real_to_str_f
429
430
431!------------------------------------------------------------------------------!
432! Description:
433! ------------
434!> Converts the given integer value to a string
435!------------------------------------------------------------------------------!
436 CHARACTER(LEN=10) FUNCTION str(val)
437
438     INTEGER(iwp), INTENT(IN) ::  val
439
440     WRITE(str, '(i10)') val
441     str = ADJUSTL(str)
442
443 END FUNCTION str
444
445
446!------------------------------------------------------------------------------!
447! Description:
448! ------------
449!> If the given path is not conlcuded by a slash, add one.
450!------------------------------------------------------------------------------!
451 SUBROUTINE normalize_path(path)
452     
453     CHARACTER(LEN=*), INTENT(INOUT) ::  path
454     INTEGER(iwp) ::  n
455
456     n = LEN_TRIM(path)
457
458     IF (path(n:n) .NE. '/')  THEN
459        path = TRIM(path) // '/'
460     ENDIF
461
462 END SUBROUTINE
463
464 END MODULE inifor_util
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