GCC Code Coverage Report
Directory: ./ Exec Total Coverage
File: misc/ioipsl_getincom.F90 Lines: 0 778 0.0 %
Date: 2023-06-30 12:56:34 Branches: 0 1172 0.0 %

Line Branch Exec Source
1
!
2
! $Id$
3
!
4
! Module/Routines extracted from IOIPSL v2_1_8
5
!
6
MODULE ioipsl_getincom
7
!-
8
!$Id: getincom.f90 536 2009-01-30 11:46:27Z bellier $
9
!-
10
! This software is governed by the CeCILL license
11
! See IOIPSL/IOIPSL_License_CeCILL.txt
12
!---------------------------------------------------------------------
13
USE ioipsl_errioipsl, ONLY : ipslerr
14
USE ioipsl_stringop, &
15
 &   ONLY : nocomma,cmpblank,strlowercase
16
!-
17
IMPLICIT NONE
18
!-
19
PRIVATE
20
PUBLIC :: getin, getin_dump
21
!-
22
INTERFACE getin
23
!!--------------------------------------------------------------------
24
!! The "getin" routines get a variable.
25
!! We first check if we find it in the database
26
!! and if not we get it from the run.def file.
27
!!
28
!! SUBROUTINE getin (target,ret_val)
29
!!
30
!! INPUT
31
!!
32
!! (C) target : Name of the variable
33
!!
34
!! OUTPUT
35
!!
36
!! (I/R/C/L) ret_val : scalar, vector or matrix that will contain
37
!!                     that will contain the (standard)
38
!!                     integer/real/character/logical values
39
!!--------------------------------------------------------------------
40
  MODULE PROCEDURE getinrs, getinr1d, getinr2d, &
41
 &                 getinis, getini1d, getini2d, &
42
 &                 getincs, getinc1d, getinc2d, &
43
 &                 getinls, getinl1d, getinl2d
44
END INTERFACE
45
!-
46
!!--------------------------------------------------------------------
47
!! The "getin_dump" routine will dump the content of the database
48
!! into a file which has the same format as the run.def file.
49
!! The idea is that the user can see which parameters were used
50
!! and re-use the file for another run.
51
!!
52
!!  SUBROUTINE getin_dump (fileprefix)
53
!!
54
!! OPTIONAL INPUT argument
55
!!
56
!! (C) fileprefix : allows the user to change the name of the file
57
!!                  in which the data will be archived
58
!!--------------------------------------------------------------------
59
!-
60
  INTEGER,PARAMETER :: max_files=100
61
  CHARACTER(LEN=100),DIMENSION(max_files),SAVE :: filelist
62
  INTEGER,SAVE      :: nbfiles
63
!-
64
  INTEGER,PARAMETER :: i_txtslab=1000,l_n=30
65
  INTEGER,SAVE :: nb_lines,i_txtsize=0
66
  CHARACTER(LEN=100),SAVE,ALLOCATABLE,DIMENSION(:) :: fichier
67
  CHARACTER(LEN=l_n),SAVE,ALLOCATABLE,DIMENSION(:) :: targetlist
68
  INTEGER,SAVE,ALLOCATABLE,DIMENSION(:) :: fromfile,compline
69
!-
70
  INTEGER,PARAMETER :: n_d_fmt=5,max_msgs=15
71
  CHARACTER(LEN=6),SAVE :: c_i_fmt = '(I5.5)'
72
!-
73
! The data base of parameters
74
!-
75
  INTEGER,PARAMETER :: memslabs=200
76
  INTEGER,PARAMETER :: compress_lim=20
77
!-
78
  INTEGER,SAVE :: nb_keys=0
79
  INTEGER,SAVE :: keymemsize=0
80
!-
81
! keystr definition
82
! name of a key
83
!-
84
! keystatus definition
85
! keystatus = 1 : Value comes from run.def
86
! keystatus = 2 : Default value is used
87
! keystatus = 3 : Some vector elements were taken from default
88
!-
89
! keytype definition
90
! keytype = 1 : Integer
91
! keytype = 2 : Real
92
! keytype = 3 : Character
93
! keytype = 4 : Logical
94
!-
95
  INTEGER,PARAMETER :: k_i=1, k_r=2, k_c=3, k_l=4
96
!-
97
! Allow compression for keys (only for integer and real)
98
! keycompress < 0 : not compressed
99
! keycompress > 0 : number of repeat of the value
100
!-
101
TYPE :: t_key
102
  CHARACTER(LEN=l_n) :: keystr
103
  INTEGER :: keystatus, keytype, keycompress, &
104
 &           keyfromfile, keymemstart, keymemlen
105
END TYPE t_key
106
!-
107
  TYPE(t_key),SAVE,ALLOCATABLE,DIMENSION(:) :: key_tab
108
!-
109
  INTEGER,SAVE,ALLOCATABLE,DIMENSION(:) :: i_mem
110
  INTEGER,SAVE :: i_memsize=0, i_mempos=0
111
  REAL,SAVE,ALLOCATABLE,DIMENSION(:) :: r_mem
112
  INTEGER,SAVE :: r_memsize=0, r_mempos=0
113
  CHARACTER(LEN=100),SAVE,ALLOCATABLE,DIMENSION(:) :: c_mem
114
  INTEGER,SAVE :: c_memsize=0, c_mempos=0
115
  LOGICAL,SAVE,ALLOCATABLE,DIMENSION(:) :: l_mem
116
  INTEGER,SAVE :: l_memsize=0, l_mempos=0
117
!-
118
CONTAINS
119
!-
120
!=== INTEGER INTERFACE
121
!-
122
SUBROUTINE getinis (target,ret_val)
123
!---------------------------------------------------------------------
124
  IMPLICIT NONE
125
!-
126
  CHARACTER(LEN=*) :: target
127
  INTEGER :: ret_val
128
!-
129
  INTEGER,DIMENSION(1) :: tmp_ret_val
130
  INTEGER :: pos,status=0,fileorig
131
!---------------------------------------------------------------------
132
!-
133
! Do we have this target in our database ?
134
!-
135
  CALL get_findkey (1,target,pos)
136
!-
137
  tmp_ret_val(1) = ret_val
138
!-
139
  IF (pos < 0) THEN
140
!-- Get the information out of the file
141
    CALL get_fil (target,status,fileorig,i_val=tmp_ret_val)
142
!-- Put the data into the database
143
    CALL get_wdb &
144
 &   (target,status,fileorig,1,i_val=tmp_ret_val)
145
  ELSE
146
!-- Get the value out of the database
147
    CALL get_rdb (pos,1,target,i_val=tmp_ret_val)
148
  ENDIF
149
  ret_val = tmp_ret_val(1)
150
!---------------------
151
END SUBROUTINE getinis
152
!===
153
SUBROUTINE getini1d (target,ret_val)
154
!---------------------------------------------------------------------
155
  IMPLICIT NONE
156
!-
157
  CHARACTER(LEN=*) :: target
158
  INTEGER,DIMENSION(:) :: ret_val
159
!-
160
  INTEGER,DIMENSION(:),ALLOCATABLE,SAVE :: tmp_ret_val
161
  INTEGER,SAVE :: tmp_ret_size = 0
162
  INTEGER :: pos,size_of_in,status=0,fileorig
163
!---------------------------------------------------------------------
164
!-
165
! Do we have this target in our database ?
166
!-
167
  CALL get_findkey (1,target,pos)
168
!-
169
  size_of_in = SIZE(ret_val)
170
  IF (.NOT.ALLOCATED(tmp_ret_val)) THEN
171
    ALLOCATE (tmp_ret_val(size_of_in))
172
  ELSE IF (size_of_in > tmp_ret_size) THEN
173
    DEALLOCATE (tmp_ret_val)
174
    ALLOCATE (tmp_ret_val(size_of_in))
175
    tmp_ret_size = size_of_in
176
  ENDIF
177
  tmp_ret_val(1:size_of_in) = ret_val(1:size_of_in)
178
!-
179
  IF (pos < 0) THEN
180
!-- Get the information out of the file
181
    CALL get_fil (target,status,fileorig,i_val=tmp_ret_val)
182
!-- Put the data into the database
183
    CALL get_wdb &
184
 &   (target,status,fileorig,size_of_in,i_val=tmp_ret_val)
185
  ELSE
186
!-- Get the value out of the database
187
    CALL get_rdb (pos,size_of_in,target,i_val=tmp_ret_val)
188
  ENDIF
189
  ret_val(1:size_of_in) = tmp_ret_val(1:size_of_in)
190
!----------------------
191
END SUBROUTINE getini1d
192
!===
193
SUBROUTINE getini2d (target,ret_val)
194
!---------------------------------------------------------------------
195
  IMPLICIT NONE
196
!-
197
  CHARACTER(LEN=*) :: target
198
  INTEGER,DIMENSION(:,:) :: ret_val
199
!-
200
  INTEGER,DIMENSION(:),ALLOCATABLE,SAVE :: tmp_ret_val
201
  INTEGER,SAVE :: tmp_ret_size = 0
202
  INTEGER :: pos,size_of_in,size_1,size_2,status=0,fileorig
203
  INTEGER :: jl,jj,ji
204
!---------------------------------------------------------------------
205
!-
206
! Do we have this target in our database ?
207
!-
208
  CALL get_findkey (1,target,pos)
209
!-
210
  size_of_in = SIZE(ret_val)
211
  size_1 = SIZE(ret_val,1)
212
  size_2 = SIZE(ret_val,2)
213
  IF (.NOT.ALLOCATED(tmp_ret_val)) THEN
214
    ALLOCATE (tmp_ret_val(size_of_in))
215
  ELSE IF (size_of_in > tmp_ret_size) THEN
216
    DEALLOCATE (tmp_ret_val)
217
    ALLOCATE (tmp_ret_val(size_of_in))
218
    tmp_ret_size = size_of_in
219
  ENDIF
220
!-
221
  jl=0
222
  DO jj=1,size_2
223
    DO ji=1,size_1
224
      jl=jl+1
225
      tmp_ret_val(jl) = ret_val(ji,jj)
226
    ENDDO
227
  ENDDO
228
!-
229
  IF (pos < 0) THEN
230
!-- Get the information out of the file
231
    CALL get_fil (target,status,fileorig,i_val=tmp_ret_val)
232
!-- Put the data into the database
233
    CALL get_wdb &
234
 &   (target,status,fileorig,size_of_in,i_val=tmp_ret_val)
235
  ELSE
236
!-- Get the value out of the database
237
    CALL get_rdb (pos,size_of_in,target,i_val=tmp_ret_val)
238
  ENDIF
239
!-
240
  jl=0
241
  DO jj=1,size_2
242
    DO ji=1,size_1
243
      jl=jl+1
244
      ret_val(ji,jj) = tmp_ret_val(jl)
245
    ENDDO
246
  ENDDO
247
!----------------------
248
END SUBROUTINE getini2d
249
!-
250
!=== REAL INTERFACE
251
!-
252
SUBROUTINE getinrs (target,ret_val)
253
!---------------------------------------------------------------------
254
  IMPLICIT NONE
255
!-
256
  CHARACTER(LEN=*) :: target
257
  REAL :: ret_val
258
!-
259
  REAL,DIMENSION(1) :: tmp_ret_val
260
  INTEGER :: pos,status=0,fileorig
261
!---------------------------------------------------------------------
262
!-
263
! Do we have this target in our database ?
264
!-
265
  CALL get_findkey (1,target,pos)
266
!-
267
  tmp_ret_val(1) = ret_val
268
!-
269
  IF (pos < 0) THEN
270
!-- Get the information out of the file
271
    CALL get_fil (target,status,fileorig,r_val=tmp_ret_val)
272
!-- Put the data into the database
273
    CALL get_wdb &
274
 &   (target,status,fileorig,1,r_val=tmp_ret_val)
275
  ELSE
276
!-- Get the value out of the database
277
    CALL get_rdb (pos,1,target,r_val=tmp_ret_val)
278
  ENDIF
279
  ret_val = tmp_ret_val(1)
280
!---------------------
281
END SUBROUTINE getinrs
282
!===
283
SUBROUTINE getinr1d (target,ret_val)
284
!---------------------------------------------------------------------
285
  IMPLICIT NONE
286
!-
287
  CHARACTER(LEN=*) :: target
288
  REAL,DIMENSION(:) :: ret_val
289
!-
290
  REAL,DIMENSION(:),ALLOCATABLE,SAVE :: tmp_ret_val
291
  INTEGER,SAVE :: tmp_ret_size = 0
292
  INTEGER :: pos,size_of_in,status=0,fileorig
293
!---------------------------------------------------------------------
294
!-
295
! Do we have this target in our database ?
296
!-
297
  CALL get_findkey (1,target,pos)
298
!-
299
  size_of_in = SIZE(ret_val)
300
  IF (.NOT.ALLOCATED(tmp_ret_val)) THEN
301
    ALLOCATE (tmp_ret_val(size_of_in))
302
  ELSE IF (size_of_in > tmp_ret_size) THEN
303
    DEALLOCATE (tmp_ret_val)
304
    ALLOCATE (tmp_ret_val(size_of_in))
305
    tmp_ret_size = size_of_in
306
  ENDIF
307
  tmp_ret_val(1:size_of_in) = ret_val(1:size_of_in)
308
!-
309
  IF (pos < 0) THEN
310
!-- Get the information out of the file
311
    CALL get_fil (target,status,fileorig,r_val=tmp_ret_val)
312
!-- Put the data into the database
313
    CALL get_wdb &
314
 &   (target,status,fileorig,size_of_in,r_val=tmp_ret_val)
315
  ELSE
316
!-- Get the value out of the database
317
    CALL get_rdb (pos,size_of_in,target,r_val=tmp_ret_val)
318
  ENDIF
319
  ret_val(1:size_of_in) = tmp_ret_val(1:size_of_in)
320
!----------------------
321
END SUBROUTINE getinr1d
322
!===
323
SUBROUTINE getinr2d (target,ret_val)
324
!---------------------------------------------------------------------
325
  IMPLICIT NONE
326
!-
327
  CHARACTER(LEN=*) :: target
328
  REAL,DIMENSION(:,:) :: ret_val
329
!-
330
  REAL,DIMENSION(:),ALLOCATABLE,SAVE :: tmp_ret_val
331
  INTEGER,SAVE :: tmp_ret_size = 0
332
  INTEGER :: pos,size_of_in,size_1,size_2,status=0,fileorig
333
  INTEGER :: jl,jj,ji
334
!---------------------------------------------------------------------
335
!-
336
! Do we have this target in our database ?
337
!-
338
  CALL get_findkey (1,target,pos)
339
!-
340
  size_of_in = SIZE(ret_val)
341
  size_1 = SIZE(ret_val,1)
342
  size_2 = SIZE(ret_val,2)
343
  IF (.NOT.ALLOCATED(tmp_ret_val)) THEN
344
    ALLOCATE (tmp_ret_val(size_of_in))
345
  ELSE IF (size_of_in > tmp_ret_size) THEN
346
    DEALLOCATE (tmp_ret_val)
347
    ALLOCATE (tmp_ret_val(size_of_in))
348
    tmp_ret_size = size_of_in
349
  ENDIF
350
!-
351
  jl=0
352
  DO jj=1,size_2
353
    DO ji=1,size_1
354
      jl=jl+1
355
      tmp_ret_val(jl) = ret_val(ji,jj)
356
    ENDDO
357
  ENDDO
358
!-
359
  IF (pos < 0) THEN
360
!-- Get the information out of the file
361
    CALL get_fil (target,status,fileorig,r_val=tmp_ret_val)
362
!-- Put the data into the database
363
    CALL get_wdb &
364
 &   (target,status,fileorig,size_of_in,r_val=tmp_ret_val)
365
  ELSE
366
!-- Get the value out of the database
367
    CALL get_rdb (pos,size_of_in,target,r_val=tmp_ret_val)
368
  ENDIF
369
!-
370
  jl=0
371
  DO jj=1,size_2
372
    DO ji=1,size_1
373
      jl=jl+1
374
      ret_val(ji,jj) = tmp_ret_val(jl)
375
    ENDDO
376
  ENDDO
377
!----------------------
378
END SUBROUTINE getinr2d
379
!-
380
!=== CHARACTER INTERFACE
381
!-
382
SUBROUTINE getincs (target,ret_val)
383
!---------------------------------------------------------------------
384
  IMPLICIT NONE
385
!-
386
  CHARACTER(LEN=*) :: target
387
  CHARACTER(LEN=*) :: ret_val
388
!-
389
  CHARACTER(LEN=100),DIMENSION(1) :: tmp_ret_val
390
  INTEGER :: pos,status=0,fileorig
391
!---------------------------------------------------------------------
392
!-
393
! Do we have this target in our database ?
394
!-
395
  CALL get_findkey (1,target,pos)
396
!-
397
  tmp_ret_val(1) = ret_val
398
!-
399
  IF (pos < 0) THEN
400
!-- Get the information out of the file
401
    CALL get_fil (target,status,fileorig,c_val=tmp_ret_val)
402
!-- Put the data into the database
403
    CALL get_wdb &
404
 &   (target,status,fileorig,1,c_val=tmp_ret_val)
405
  ELSE
406
!-- Get the value out of the database
407
    CALL get_rdb (pos,1,target,c_val=tmp_ret_val)
408
  ENDIF
409
  ret_val = tmp_ret_val(1)
410
!---------------------
411
END SUBROUTINE getincs
412
!===
413
SUBROUTINE getinc1d (target,ret_val)
414
!---------------------------------------------------------------------
415
  IMPLICIT NONE
416
!-
417
  CHARACTER(LEN=*) :: target
418
  CHARACTER(LEN=*),DIMENSION(:) :: ret_val
419
!-
420
  CHARACTER(LEN=100),DIMENSION(:),ALLOCATABLE,SAVE :: tmp_ret_val
421
  INTEGER,SAVE :: tmp_ret_size = 0
422
  INTEGER :: pos,size_of_in,status=0,fileorig
423
!---------------------------------------------------------------------
424
!-
425
! Do we have this target in our database ?
426
!-
427
  CALL get_findkey (1,target,pos)
428
!-
429
  size_of_in = SIZE(ret_val)
430
  IF (.NOT.ALLOCATED(tmp_ret_val)) THEN
431
    ALLOCATE (tmp_ret_val(size_of_in))
432
  ELSE IF (size_of_in > tmp_ret_size) THEN
433
    DEALLOCATE (tmp_ret_val)
434
    ALLOCATE (tmp_ret_val(size_of_in))
435
    tmp_ret_size = size_of_in
436
  ENDIF
437
  tmp_ret_val(1:size_of_in) = ret_val(1:size_of_in)
438
!-
439
  IF (pos < 0) THEN
440
!-- Get the information out of the file
441
    CALL get_fil (target,status,fileorig,c_val=tmp_ret_val)
442
!-- Put the data into the database
443
    CALL get_wdb &
444
 &   (target,status,fileorig,size_of_in,c_val=tmp_ret_val)
445
  ELSE
446
!-- Get the value out of the database
447
    CALL get_rdb (pos,size_of_in,target,c_val=tmp_ret_val)
448
  ENDIF
449
  ret_val(1:size_of_in) = tmp_ret_val(1:size_of_in)
450
!----------------------
451
END SUBROUTINE getinc1d
452
!===
453
SUBROUTINE getinc2d (target,ret_val)
454
!---------------------------------------------------------------------
455
  IMPLICIT NONE
456
!-
457
  CHARACTER(LEN=*) :: target
458
  CHARACTER(LEN=*),DIMENSION(:,:) :: ret_val
459
!-
460
  CHARACTER(LEN=100),DIMENSION(:),ALLOCATABLE,SAVE :: tmp_ret_val
461
  INTEGER,SAVE :: tmp_ret_size = 0
462
  INTEGER :: pos,size_of_in,size_1,size_2,status=0,fileorig
463
  INTEGER :: jl,jj,ji
464
!---------------------------------------------------------------------
465
!-
466
! Do we have this target in our database ?
467
!-
468
  CALL get_findkey (1,target,pos)
469
!-
470
  size_of_in = SIZE(ret_val)
471
  size_1 = SIZE(ret_val,1)
472
  size_2 = SIZE(ret_val,2)
473
  IF (.NOT.ALLOCATED(tmp_ret_val)) THEN
474
    ALLOCATE (tmp_ret_val(size_of_in))
475
  ELSE IF (size_of_in > tmp_ret_size) THEN
476
    DEALLOCATE (tmp_ret_val)
477
    ALLOCATE (tmp_ret_val(size_of_in))
478
    tmp_ret_size = size_of_in
479
  ENDIF
480
!-
481
  jl=0
482
  DO jj=1,size_2
483
    DO ji=1,size_1
484
      jl=jl+1
485
      tmp_ret_val(jl) = ret_val(ji,jj)
486
    ENDDO
487
  ENDDO
488
!-
489
  IF (pos < 0) THEN
490
!-- Get the information out of the file
491
    CALL get_fil (target,status,fileorig,c_val=tmp_ret_val)
492
!-- Put the data into the database
493
    CALL get_wdb &
494
 &   (target,status,fileorig,size_of_in,c_val=tmp_ret_val)
495
  ELSE
496
!-- Get the value out of the database
497
    CALL get_rdb (pos,size_of_in,target,c_val=tmp_ret_val)
498
  ENDIF
499
!-
500
  jl=0
501
  DO jj=1,size_2
502
    DO ji=1,size_1
503
      jl=jl+1
504
      ret_val(ji,jj) = tmp_ret_val(jl)
505
    ENDDO
506
  ENDDO
507
!----------------------
508
END SUBROUTINE getinc2d
509
!-
510
!=== LOGICAL INTERFACE
511
!-
512
SUBROUTINE getinls (target,ret_val)
513
!---------------------------------------------------------------------
514
  IMPLICIT NONE
515
!-
516
  CHARACTER(LEN=*) :: target
517
  LOGICAL :: ret_val
518
!-
519
  LOGICAL,DIMENSION(1) :: tmp_ret_val
520
  INTEGER :: pos,status=0,fileorig
521
!---------------------------------------------------------------------
522
!-
523
! Do we have this target in our database ?
524
!-
525
  CALL get_findkey (1,target,pos)
526
!-
527
  tmp_ret_val(1) = ret_val
528
!-
529
  IF (pos < 0) THEN
530
!-- Get the information out of the file
531
    CALL get_fil (target,status,fileorig,l_val=tmp_ret_val)
532
!-- Put the data into the database
533
    CALL get_wdb &
534
 &   (target,status,fileorig,1,l_val=tmp_ret_val)
535
  ELSE
536
!-- Get the value out of the database
537
    CALL get_rdb (pos,1,target,l_val=tmp_ret_val)
538
  ENDIF
539
  ret_val = tmp_ret_val(1)
540
!---------------------
541
END SUBROUTINE getinls
542
!===
543
SUBROUTINE getinl1d (target,ret_val)
544
!---------------------------------------------------------------------
545
  IMPLICIT NONE
546
!-
547
  CHARACTER(LEN=*) :: target
548
  LOGICAL,DIMENSION(:) :: ret_val
549
!-
550
  LOGICAL,DIMENSION(:),ALLOCATABLE,SAVE :: tmp_ret_val
551
  INTEGER,SAVE :: tmp_ret_size = 0
552
  INTEGER :: pos,size_of_in,status=0,fileorig
553
!---------------------------------------------------------------------
554
!-
555
! Do we have this target in our database ?
556
!-
557
  CALL get_findkey (1,target,pos)
558
!-
559
  size_of_in = SIZE(ret_val)
560
  IF (.NOT.ALLOCATED(tmp_ret_val)) THEN
561
    ALLOCATE (tmp_ret_val(size_of_in))
562
  ELSE IF (size_of_in > tmp_ret_size) THEN
563
    DEALLOCATE (tmp_ret_val)
564
    ALLOCATE (tmp_ret_val(size_of_in))
565
    tmp_ret_size = size_of_in
566
  ENDIF
567
  tmp_ret_val(1:size_of_in) = ret_val(1:size_of_in)
568
!-
569
  IF (pos < 0) THEN
570
!-- Get the information out of the file
571
    CALL get_fil (target,status,fileorig,l_val=tmp_ret_val)
572
!-- Put the data into the database
573
    CALL get_wdb &
574
 &   (target,status,fileorig,size_of_in,l_val=tmp_ret_val)
575
  ELSE
576
!-- Get the value out of the database
577
    CALL get_rdb (pos,size_of_in,target,l_val=tmp_ret_val)
578
  ENDIF
579
  ret_val(1:size_of_in) = tmp_ret_val(1:size_of_in)
580
!----------------------
581
END SUBROUTINE getinl1d
582
!===
583
SUBROUTINE getinl2d (target,ret_val)
584
!---------------------------------------------------------------------
585
  IMPLICIT NONE
586
!-
587
  CHARACTER(LEN=*) :: target
588
  LOGICAL,DIMENSION(:,:) :: ret_val
589
!-
590
  LOGICAL,DIMENSION(:),ALLOCATABLE,SAVE :: tmp_ret_val
591
  INTEGER,SAVE :: tmp_ret_size = 0
592
  INTEGER :: pos,size_of_in,size_1,size_2,status=0,fileorig
593
  INTEGER :: jl,jj,ji
594
!---------------------------------------------------------------------
595
!-
596
! Do we have this target in our database ?
597
!-
598
  CALL get_findkey (1,target,pos)
599
!-
600
  size_of_in = SIZE(ret_val)
601
  size_1 = SIZE(ret_val,1)
602
  size_2 = SIZE(ret_val,2)
603
  IF (.NOT.ALLOCATED(tmp_ret_val)) THEN
604
    ALLOCATE (tmp_ret_val(size_of_in))
605
  ELSE IF (size_of_in > tmp_ret_size) THEN
606
    DEALLOCATE (tmp_ret_val)
607
    ALLOCATE (tmp_ret_val(size_of_in))
608
    tmp_ret_size = size_of_in
609
  ENDIF
610
!-
611
  jl=0
612
  DO jj=1,size_2
613
    DO ji=1,size_1
614
      jl=jl+1
615
      tmp_ret_val(jl) = ret_val(ji,jj)
616
    ENDDO
617
  ENDDO
618
!-
619
  IF (pos < 0) THEN
620
!-- Get the information out of the file
621
    CALL get_fil (target,status,fileorig,l_val=tmp_ret_val)
622
!-- Put the data into the database
623
    CALL get_wdb &
624
 &   (target,status,fileorig,size_of_in,l_val=tmp_ret_val)
625
  ELSE
626
!-- Get the value out of the database
627
    CALL get_rdb (pos,size_of_in,target,l_val=tmp_ret_val)
628
  ENDIF
629
!-
630
  jl=0
631
  DO jj=1,size_2
632
    DO ji=1,size_1
633
      jl=jl+1
634
      ret_val(ji,jj) = tmp_ret_val(jl)
635
    ENDDO
636
  ENDDO
637
!----------------------
638
END SUBROUTINE getinl2d
639
!-
640
!=== Generic file/database INTERFACE
641
!-
642
SUBROUTINE get_fil (target,status,fileorig,i_val,r_val,c_val,l_val)
643
!---------------------------------------------------------------------
644
!- Subroutine that will extract from the file the values
645
!- attributed to the keyword target
646
!-
647
!- (C) target    : target for which we will look in the file
648
!- (I) status    : tells us from where we obtained the data
649
!- (I) fileorig  : index of the file from which the key comes
650
!- (I) i_val(:)  : INTEGER(nb_to_ret)   values
651
!- (R) r_val(:)  : REAL(nb_to_ret)      values
652
!- (L) l_val(:)  : LOGICAL(nb_to_ret)   values
653
!- (C) c_val(:)  : CHARACTER(nb_to_ret) values
654
!---------------------------------------------------------------------
655
  IMPLICIT NONE
656
!-
657
  CHARACTER(LEN=*) :: target
658
  INTEGER,INTENT(OUT) :: status,fileorig
659
  INTEGER,DIMENSION(:),OPTIONAL          :: i_val
660
  REAL,DIMENSION(:),OPTIONAL             :: r_val
661
  LOGICAL,DIMENSION(:),OPTIONAL          :: l_val
662
  CHARACTER(LEN=*),DIMENSION(:),OPTIONAL :: c_val
663
!-
664
  INTEGER :: k_typ,nb_to_ret,it,pos,len_str,status_cnt,io_err
665
  CHARACTER(LEN=n_d_fmt)  :: cnt
666
  CHARACTER(LEN=80) :: str_READ,str_READ_lower
667
  CHARACTER(LEN=9)  :: c_vtyp
668
  LOGICAL,DIMENSION(:),ALLOCATABLE :: found
669
  LOGICAL :: def_beha,compressed
670
  CHARACTER(LEN=10) :: c_fmt
671
  INTEGER :: i_cmpval
672
  REAL    :: r_cmpval
673
  INTEGER :: ipos_tr,ipos_fl
674
!---------------------------------------------------------------------
675
!-
676
! Get the type of the argument
677
  CALL get_qtyp (k_typ,c_vtyp,i_val,r_val,c_val,l_val)
678
  SELECT CASE (k_typ)
679
  CASE(k_i)
680
    nb_to_ret = SIZE(i_val)
681
  CASE(k_r)
682
    nb_to_ret = SIZE(r_val)
683
  CASE(k_c)
684
    nb_to_ret = SIZE(c_val)
685
  CASE(k_l)
686
    nb_to_ret = SIZE(l_val)
687
  CASE DEFAULT
688
    CALL ipslerr (3,'get_fil', &
689
 &   'Internal error','Unknown type of data',' ')
690
  END SELECT
691
!-
692
! Read the file(s)
693
  CALL getin_read
694
!-
695
! Allocate and initialize the memory we need
696
  ALLOCATE(found(nb_to_ret))
697
  found(:) = .FALSE.
698
!-
699
! See what we find in the files read
700
  DO it=1,nb_to_ret
701
!---
702
!-- First try the target as it is
703
    CALL get_findkey (2,target,pos)
704
!---
705
!-- Another try
706
!---
707
    IF (pos < 0) THEN
708
      WRITE(UNIT=cnt,FMT=c_i_fmt) it
709
      CALL get_findkey (2,TRIM(target)//'__'//cnt,pos)
710
    ENDIF
711
!---
712
!-- We dont know from which file the target could come.
713
!-- Thus by default we attribute it to the first file :
714
    fileorig = 1
715
!---
716
    IF (pos > 0) THEN
717
!-----
718
      found(it) = .TRUE.
719
      fileorig = fromfile(pos)
720
!-----
721
!---- DECODE
722
!-----
723
      str_READ = ADJUSTL(fichier(pos))
724
      str_READ_lower = str_READ
725
      CALL strlowercase (str_READ_lower)
726
!-----
727
      IF (    (TRIM(str_READ_lower) == 'def')     &
728
 &        .OR.(TRIM(str_READ_lower) == 'default') ) THEN
729
        def_beha = .TRUE.
730
      ELSE
731
        def_beha = .FALSE.
732
        len_str = LEN_TRIM(str_READ)
733
        io_err = 0
734
        SELECT CASE (k_typ)
735
        CASE(k_i)
736
          WRITE (UNIT=c_fmt,FMT='("(I",I3.3,")")') len_str
737
          READ (UNIT=str_READ(1:len_str), &
738
 &              FMT=c_fmt,IOSTAT=io_err) i_val(it)
739
        CASE(k_r)
740
          READ (UNIT=str_READ(1:len_str), &
741
 &              FMT=*,IOSTAT=io_err) r_val(it)
742
        CASE(k_c)
743
          c_val(it) = str_READ(1:len_str)
744
        CASE(k_l)
745
          ipos_tr = -1
746
          ipos_fl = -1
747
          ipos_tr = MAX(INDEX(str_READ_lower,'tru'), &
748
 &                      INDEX(str_READ_lower,'y'))
749
          ipos_fl = MAX(INDEX(str_READ_lower,'fal'), &
750
 &                      INDEX(str_READ_lower,'n'))
751
          IF (ipos_tr > 0) THEN
752
            l_val(it) = .TRUE.
753
          ELSE IF (ipos_fl > 0) THEN
754
            l_val(it) = .FALSE.
755
          ELSE
756
            io_err = 100
757
          ENDIF
758
        END SELECT
759
        IF (io_err /= 0) THEN
760
          CALL ipslerr (3,'get_fil', &
761
 &         'Target '//TRIM(target), &
762
 &         'is not of '//TRIM(c_vtyp)//' type',' ')
763
        ENDIF
764
      ENDIF
765
!-----
766
      IF ( (k_typ == k_i).OR.(k_typ == k_r) ) THEN
767
!-------
768
!------ Is this the value of a compressed field ?
769
        compressed = (compline(pos) > 0)
770
        IF (compressed) THEN
771
          IF (compline(pos) /= nb_to_ret) THEN
772
            CALL ipslerr (2,'get_fil', &
773
 &           'For key '//TRIM(target)//' we have a compressed field', &
774
 &           'which does not have the right size.', &
775
 &           'We will try to fix that.')
776
          ENDIF
777
          IF      (k_typ == k_i) THEN
778
            i_cmpval = i_val(it)
779
          ELSE IF (k_typ == k_r) THEN
780
            r_cmpval = r_val(it)
781
          ENDIF
782
        ENDIF
783
      ENDIF
784
    ELSE
785
      found(it) = .FALSE.
786
      def_beha = .FALSE.
787
      compressed = .FALSE.
788
    ENDIF
789
  ENDDO
790
!-
791
  IF ( (k_typ == k_i).OR.(k_typ == k_r) ) THEN
792
!---
793
!-- If this is a compressed field then we will uncompress it
794
    IF (compressed) THEN
795
      DO it=1,nb_to_ret
796
        IF (.NOT.found(it)) THEN
797
          IF      (k_typ == k_i) THEN
798
            i_val(it) = i_cmpval
799
          ELSE IF (k_typ == k_r) THEN
800
          ENDIF
801
          found(it) = .TRUE.
802
        ENDIF
803
      ENDDO
804
    ENDIF
805
  ENDIF
806
!-
807
! Now we set the status for what we found
808
  IF (def_beha) THEN
809
    status = 2
810
    WRITE(*,*) 'USING DEFAULT BEHAVIOUR FOR ',TRIM(target)
811
  ELSE
812
    status_cnt = 0
813
    DO it=1,nb_to_ret
814
      IF (.NOT.found(it)) THEN
815
        status_cnt = status_cnt+1
816
        IF      (status_cnt <= max_msgs) THEN
817
          WRITE (UNIT=*,FMT='(" USING DEFAULTS : ",A)', &
818
 &               ADVANCE='NO') TRIM(target)
819
          IF (nb_to_ret > 1) THEN
820
            WRITE (UNIT=*,FMT='("__")',ADVANCE='NO')
821
            WRITE (UNIT=*,FMT=c_i_fmt,ADVANCE='NO') it
822
          ENDIF
823
          SELECT CASE (k_typ)
824
          CASE(k_i)
825
            WRITE (UNIT=*,FMT=*) "=",i_val(it)
826
          CASE(k_r)
827
            WRITE (UNIT=*,FMT=*) "=",r_val(it)
828
          CASE(k_c)
829
            WRITE (UNIT=*,FMT=*) "=",c_val(it)
830
          CASE(k_l)
831
            WRITE (UNIT=*,FMT=*) "=",l_val(it)
832
          END SELECT
833
        ELSE IF (status_cnt == max_msgs+1) THEN
834
          WRITE (UNIT=*,FMT='(" USING DEFAULTS ... ",A)')
835
        ENDIF
836
      ENDIF
837
    ENDDO
838
!---
839
    IF (status_cnt == 0) THEN
840
      status = 1
841
    ELSE IF (status_cnt == nb_to_ret) THEN
842
      status = 2
843
    ELSE
844
      status = 3
845
    ENDIF
846
  ENDIF
847
! Deallocate the memory
848
  DEALLOCATE(found)
849
!---------------------
850
END SUBROUTINE get_fil
851
!===
852
SUBROUTINE get_rdb (pos,size_of_in,target,i_val,r_val,c_val,l_val)
853
!---------------------------------------------------------------------
854
!- Read the required variable in the database
855
!---------------------------------------------------------------------
856
  IMPLICIT NONE
857
!-
858
  INTEGER :: pos,size_of_in
859
  CHARACTER(LEN=*) :: target
860
  INTEGER,DIMENSION(:),OPTIONAL          :: i_val
861
  REAL,DIMENSION(:),OPTIONAL             :: r_val
862
  LOGICAL,DIMENSION(:),OPTIONAL          :: l_val
863
  CHARACTER(LEN=*),DIMENSION(:),OPTIONAL :: c_val
864
!-
865
  INTEGER :: k_typ,k_beg,k_end
866
  CHARACTER(LEN=9) :: c_vtyp
867
!---------------------------------------------------------------------
868
!-
869
! Get the type of the argument
870
  CALL get_qtyp (k_typ,c_vtyp,i_val,r_val,c_val,l_val)
871
  IF (     (k_typ /= k_i).AND.(k_typ /= k_r) &
872
 &    .AND.(k_typ /= k_c).AND.(k_typ /= k_l) )THEN
873
    CALL ipslerr (3,'get_rdb', &
874
 &   'Internal error','Unknown type of data',' ')
875
  ENDIF
876
!-
877
  IF (key_tab(pos)%keytype /= k_typ) THEN
878
    CALL ipslerr (3,'get_rdb', &
879
 &   'Wrong data type for keyword '//TRIM(target), &
880
 &   '(NOT '//TRIM(c_vtyp)//')',' ')
881
  ENDIF
882
!-
883
  IF (key_tab(pos)%keycompress > 0) THEN
884
    IF (    (key_tab(pos)%keycompress /= size_of_in) &
885
 &      .OR.(key_tab(pos)%keymemlen /= 1) ) THEN
886
      CALL ipslerr (3,'get_rdb', &
887
 &     'Wrong compression length','for keyword '//TRIM(target),' ')
888
    ELSE
889
      SELECT CASE (k_typ)
890
      CASE(k_i)
891
        i_val(1:size_of_in) = i_mem(key_tab(pos)%keymemstart)
892
      CASE(k_r)
893
        r_val(1:size_of_in) = r_mem(key_tab(pos)%keymemstart)
894
      END SELECT
895
    ENDIF
896
  ELSE
897
    IF (key_tab(pos)%keymemlen /= size_of_in) THEN
898
      CALL ipslerr (3,'get_rdb', &
899
 &     'Wrong array length','for keyword '//TRIM(target),' ')
900
    ELSE
901
      k_beg = key_tab(pos)%keymemstart
902
      k_end = k_beg+key_tab(pos)%keymemlen-1
903
      SELECT CASE (k_typ)
904
      CASE(k_i)
905
        i_val(1:size_of_in) = i_mem(k_beg:k_end)
906
      CASE(k_r)
907
        r_val(1:size_of_in) = r_mem(k_beg:k_end)
908
      CASE(k_c)
909
        c_val(1:size_of_in) = c_mem(k_beg:k_end)
910
      CASE(k_l)
911
        l_val(1:size_of_in) = l_mem(k_beg:k_end)
912
      END SELECT
913
    ENDIF
914
  ENDIF
915
!---------------------
916
END SUBROUTINE get_rdb
917
!===
918
SUBROUTINE get_wdb &
919
 &  (target,status,fileorig,size_of_in, &
920
 &   i_val,r_val,c_val,l_val)
921
!---------------------------------------------------------------------
922
!- Write data into the data base
923
!---------------------------------------------------------------------
924
  IMPLICIT NONE
925
!-
926
  CHARACTER(LEN=*) :: target
927
  INTEGER :: status,fileorig,size_of_in
928
  INTEGER,DIMENSION(:),OPTIONAL          :: i_val
929
  REAL,DIMENSION(:),OPTIONAL             :: r_val
930
  LOGICAL,DIMENSION(:),OPTIONAL          :: l_val
931
  CHARACTER(LEN=*),DIMENSION(:),OPTIONAL :: c_val
932
!-
933
  INTEGER :: k_typ
934
  CHARACTER(LEN=9) :: c_vtyp
935
  INTEGER :: k_mempos,k_memsize,k_beg,k_end
936
  LOGICAL :: l_cmp
937
!---------------------------------------------------------------------
938
!-
939
! Get the type of the argument
940
  CALL get_qtyp (k_typ,c_vtyp,i_val,r_val,c_val,l_val)
941
  IF (     (k_typ /= k_i).AND.(k_typ /= k_r) &
942
 &    .AND.(k_typ /= k_c).AND.(k_typ /= k_l) )THEN
943
    CALL ipslerr (3,'get_wdb', &
944
 &   'Internal error','Unknown type of data',' ')
945
  ENDIF
946
!-
947
! First check if we have sufficiant space for the new key
948
  IF (nb_keys+1 > keymemsize) THEN
949
    CALL getin_allockeys ()
950
  ENDIF
951
!-
952
  SELECT CASE (k_typ)
953
  CASE(k_i)
954
    k_mempos = i_mempos; k_memsize = i_memsize;
955
    l_cmp = (MINVAL(i_val) == MAXVAL(i_val)) &
956
 &         .AND.(size_of_in > compress_lim)
957
  CASE(k_r)
958
    k_mempos = r_mempos; k_memsize = r_memsize;
959
    l_cmp = (MINVAL(r_val) == MAXVAL(r_val)) &
960
 &         .AND.(size_of_in > compress_lim)
961
  CASE(k_c)
962
    k_mempos = c_mempos; k_memsize = c_memsize;
963
    l_cmp = .FALSE.
964
  CASE(k_l)
965
    k_mempos = l_mempos; k_memsize = l_memsize;
966
    l_cmp = .FALSE.
967
  END SELECT
968
!-
969
! Fill out the items of the data base
970
  nb_keys = nb_keys+1
971
  key_tab(nb_keys)%keystr = target(1:MIN(LEN_TRIM(target),l_n))
972
  key_tab(nb_keys)%keystatus = status
973
  key_tab(nb_keys)%keytype = k_typ
974
  key_tab(nb_keys)%keyfromfile = fileorig
975
  key_tab(nb_keys)%keymemstart = k_mempos+1
976
  IF (l_cmp) THEN
977
    key_tab(nb_keys)%keycompress = size_of_in
978
    key_tab(nb_keys)%keymemlen = 1
979
  ELSE
980
    key_tab(nb_keys)%keycompress = -1
981
    key_tab(nb_keys)%keymemlen = size_of_in
982
  ENDIF
983
!-
984
! Before writing the actual size lets see if we have the space
985
  IF (key_tab(nb_keys)%keymemstart+key_tab(nb_keys)%keymemlen &
986
 &    > k_memsize) THEN
987
    CALL getin_allocmem (k_typ,key_tab(nb_keys)%keymemlen)
988
  ENDIF
989
!-
990
  k_beg = key_tab(nb_keys)%keymemstart
991
  k_end = k_beg+key_tab(nb_keys)%keymemlen-1
992
  SELECT CASE (k_typ)
993
  CASE(k_i)
994
    i_mem(k_beg:k_end) = i_val(1:key_tab(nb_keys)%keymemlen)
995
    i_mempos = k_end
996
  CASE(k_r)
997
    r_mem(k_beg:k_end) = r_val(1:key_tab(nb_keys)%keymemlen)
998
    r_mempos = k_end
999
  CASE(k_c)
1000
    c_mem(k_beg:k_end) = c_val(1:key_tab(nb_keys)%keymemlen)
1001
    c_mempos = k_end
1002
  CASE(k_l)
1003
    l_mem(k_beg:k_end) = l_val(1:key_tab(nb_keys)%keymemlen)
1004
    l_mempos = k_end
1005
  END SELECT
1006
!---------------------
1007
END SUBROUTINE get_wdb
1008
!-
1009
!===
1010
!-
1011
SUBROUTINE getin_read
1012
!---------------------------------------------------------------------
1013
  IMPLICIT NONE
1014
!-
1015
  INTEGER,SAVE :: allread=0
1016
  INTEGER,SAVE :: current
1017
!---------------------------------------------------------------------
1018
  IF (allread == 0) THEN
1019
!-- Allocate a first set of memory.
1020
    CALL getin_alloctxt ()
1021
    CALL getin_allockeys ()
1022
    CALL getin_allocmem (k_i,0)
1023
    CALL getin_allocmem (k_r,0)
1024
    CALL getin_allocmem (k_c,0)
1025
    CALL getin_allocmem (k_l,0)
1026
!-- Start with reading the files
1027
    nbfiles = 1
1028
    filelist(1) = 'run.def'
1029
    current = 1
1030
!--
1031
    DO WHILE (current <= nbfiles)
1032
      CALL getin_readdef (current)
1033
      current = current+1
1034
    ENDDO
1035
    allread = 1
1036
    CALL getin_checkcohe ()
1037
  ENDIF
1038
!------------------------
1039
END SUBROUTINE getin_read
1040
!-
1041
!===
1042
!-
1043
  SUBROUTINE getin_readdef(current)
1044
!---------------------------------------------------------------------
1045
!- This subroutine will read the files and only keep the
1046
!- the relevant information. The information is kept as it
1047
!- found in the file. The data will be analysed later.
1048
!---------------------------------------------------------------------
1049
  IMPLICIT NONE
1050
!-
1051
  INTEGER :: current
1052
!-
1053
  CHARACTER(LEN=100) :: READ_str,NEW_str,last_key,key_str
1054
  CHARACTER(LEN=n_d_fmt) :: cnt
1055
  CHARACTER(LEN=10) :: c_fmt
1056
  INTEGER :: nb_lastkey
1057
!-
1058
  INTEGER :: eof,ptn,len_str,i,it,iund,io_err
1059
  LOGICAL :: check = .FALSE.
1060
!---------------------------------------------------------------------
1061
  eof = 0
1062
  ptn = 1
1063
  nb_lastkey = 0
1064
!-
1065
  IF (check) THEN
1066
    WRITE(*,*) 'getin_readdef : Open file ',TRIM(filelist(current))
1067
  ENDIF
1068
!-
1069
  OPEN (UNIT=22,FILE=filelist(current),STATUS="OLD",IOSTAT=io_err)
1070
  IF (io_err /= 0) THEN
1071
    CALL ipslerr (2,'getin_readdef', &
1072
 &  'Could not open file '//TRIM(filelist(current)),' ',' ')
1073
    RETURN
1074
  ENDIF
1075
!-
1076
  DO WHILE (eof /= 1)
1077
!---
1078
    CALL getin_skipafew (22,READ_str,eof,nb_lastkey)
1079
    len_str = LEN_TRIM(READ_str)
1080
    ptn = INDEX(READ_str,'=')
1081
!---
1082
    IF (ptn > 0) THEN
1083
!---- Get the target
1084
      key_str = TRIM(ADJUSTL(READ_str(1:ptn-1)))
1085
!---- Make sure that a vector keyword has the right length
1086
      iund = INDEX(key_str,'__')
1087
      IF (iund > 0) THEN
1088
        WRITE (UNIT=c_fmt,FMT='("(I",I3.3,")")') &
1089
 &        LEN_TRIM(key_str)-iund-1
1090
        READ(UNIT=key_str(iund+2:LEN_TRIM(key_str)), &
1091
 &           FMT=c_fmt,IOSTAT=io_err) it
1092
        IF ( (io_err == 0).AND.(it > 0) ) THEN
1093
          WRITE(UNIT=cnt,FMT=c_i_fmt) it
1094
          key_str = key_str(1:iund+1)//cnt
1095
        ELSE
1096
          CALL ipslerr (3,'getin_readdef', &
1097
 &         'A very strange key has just been found :', &
1098
 &         TRIM(key_str),' ')
1099
        ENDIF
1100
      ENDIF
1101
!---- Prepare the content
1102
      NEW_str = TRIM(ADJUSTL(READ_str(ptn+1:len_str)))
1103
      CALL nocomma (NEW_str)
1104
      CALL cmpblank (NEW_str)
1105
      NEW_str  = TRIM(ADJUSTL(NEW_str))
1106
      IF (check) THEN
1107
        WRITE(*,*) &
1108
 &        '--> getin_readdef : ',TRIM(key_str),' :: ',TRIM(NEW_str)
1109
      ENDIF
1110
!---- Decypher the content of NEW_str
1111
!-
1112
!---- This has to be a new key word, thus :
1113
      nb_lastkey = 0
1114
!----
1115
      CALL getin_decrypt (current,key_str,NEW_str,last_key,nb_lastkey)
1116
!----
1117
    ELSE IF (len_str > 0) THEN
1118
!---- Prepare the key if we have an old one to which
1119
!---- we will add the line just read
1120
      IF (nb_lastkey > 0) THEN
1121
        iund =  INDEX(last_key,'__')
1122
        IF (iund > 0) THEN
1123
!-------- We only continue a keyword, thus it is easy
1124
          key_str = last_key(1:iund-1)
1125
        ELSE
1126
          IF (nb_lastkey /= 1) THEN
1127
            CALL ipslerr (3,'getin_readdef', &
1128
 &           'We can not have a scalar keyword', &
1129
 &           'and a vector content',' ')
1130
          ENDIF
1131
!-------- The last keyword needs to be transformed into a vector.
1132
          WRITE(UNIT=cnt,FMT=c_i_fmt) 1
1133
          targetlist(nb_lines) = &
1134
 &         last_key(1:MIN(LEN_TRIM(last_key),l_n-n_d_fmt-2))//'__'//cnt
1135
          key_str = last_key(1:LEN_TRIM(last_key))
1136
        ENDIF
1137
      ENDIF
1138
!---- Prepare the content
1139
      NEW_str = TRIM(ADJUSTL(READ_str(1:len_str)))
1140
      CALL getin_decrypt (current,key_str,NEW_str,last_key,nb_lastkey)
1141
    ELSE
1142
!---- If we have an empty line then the keyword finishes
1143
      nb_lastkey = 0
1144
      IF (check) THEN
1145
        WRITE(*,*) 'getin_readdef : Have found an emtpy line '
1146
      ENDIF
1147
    ENDIF
1148
  ENDDO
1149
!-
1150
  CLOSE(UNIT=22)
1151
!-
1152
  IF (check) THEN
1153
    OPEN (UNIT=22,file='run.def.test')
1154
    DO i=1,nb_lines
1155
      WRITE(UNIT=22,FMT=*) targetlist(i)," : ",fichier(i)
1156
    ENDDO
1157
    CLOSE(UNIT=22)
1158
  ENDIF
1159
!---------------------------
1160
END SUBROUTINE getin_readdef
1161
!-
1162
!===
1163
!-
1164
SUBROUTINE getin_decrypt(current,key_str,NEW_str,last_key,nb_lastkey)
1165
!---------------------------------------------------------------------
1166
!- This subroutine is going to decypher the line.
1167
!- It essentialy checks how many items are included and
1168
!- it they can be attached to a key.
1169
!---------------------------------------------------------------------
1170
  IMPLICIT NONE
1171
!-
1172
! ARGUMENTS
1173
!-
1174
  INTEGER :: current,nb_lastkey
1175
  CHARACTER(LEN=*) :: key_str,NEW_str,last_key
1176
!-
1177
! LOCAL
1178
!-
1179
  INTEGER :: len_str,blk,nbve,starpos
1180
  CHARACTER(LEN=100) :: tmp_str,new_key,mult
1181
  CHARACTER(LEN=n_d_fmt) :: cnt
1182
  CHARACTER(LEN=10) :: c_fmt
1183
!---------------------------------------------------------------------
1184
  len_str = LEN_TRIM(NEW_str)
1185
  blk = INDEX(NEW_str(1:len_str),' ')
1186
  tmp_str = NEW_str(1:len_str)
1187
!-
1188
! If the key is a new file then we take it up. Else
1189
! we save the line and go on.
1190
!-
1191
  IF (INDEX(key_str,'INCLUDEDEF') > 0) THEN
1192
    DO WHILE (blk > 0)
1193
      IF (nbfiles+1 > max_files) THEN
1194
        CALL ipslerr (3,'getin_decrypt', &
1195
 &       'Too many files to include',' ',' ')
1196
      ENDIF
1197
!-----
1198
      nbfiles = nbfiles+1
1199
      filelist(nbfiles) = tmp_str(1:blk)
1200
!-----
1201
      tmp_str = TRIM(ADJUSTL(tmp_str(blk+1:LEN_TRIM(tmp_str))))
1202
      blk = INDEX(tmp_str(1:LEN_TRIM(tmp_str)),' ')
1203
    ENDDO
1204
!---
1205
    IF (nbfiles+1 > max_files) THEN
1206
      CALL ipslerr (3,'getin_decrypt', &
1207
 &     'Too many files to include',' ',' ')
1208
    ENDIF
1209
!---
1210
    nbfiles =  nbfiles+1
1211
    filelist(nbfiles) = TRIM(ADJUSTL(tmp_str))
1212
!---
1213
    last_key = 'INCLUDEDEF'
1214
    nb_lastkey = 1
1215
  ELSE
1216
!-
1217
!-- We are working on a new line of input
1218
!-
1219
    IF (nb_lines+1 > i_txtsize) THEN
1220
      CALL getin_alloctxt ()
1221
    ENDIF
1222
    nb_lines = nb_lines+1
1223
!-
1224
!-- First we solve the issue of conpressed information. Once
1225
!-- this is done all line can be handled in the same way.
1226
!-
1227
    starpos = INDEX(NEW_str(1:len_str),'*')
1228
    IF ( (starpos > 0).AND.(tmp_str(1:1) /= '"') &
1229
 &                    .AND.(tmp_str(1:1) /= "'") ) THEN
1230
!-----
1231
      IF (INDEX(key_str(1:LEN_TRIM(key_str)),'__') > 0) THEN
1232
        CALL ipslerr (3,'getin_decrypt', &
1233
 &       'We can not have a compressed field of values', &
1234
 &       'in a vector notation (TARGET__n).', &
1235
 &       'The key at fault : '//TRIM(key_str))
1236
      ENDIF
1237
!-
1238
!---- Read the multiplied
1239
!-
1240
      mult = TRIM(ADJUSTL(NEW_str(1:starpos-1)))
1241
!---- Construct the new string and its parameters
1242
      NEW_str = TRIM(ADJUSTL(NEW_str(starpos+1:len_str)))
1243
      len_str = LEN_TRIM(NEW_str)
1244
      blk = INDEX(NEW_str(1:len_str),' ')
1245
      IF (blk > 1) THEN
1246
        CALL ipslerr (2,'getin_decrypt', &
1247
 &       'This is a strange behavior','you could report',' ')
1248
      ENDIF
1249
      WRITE (UNIT=c_fmt,FMT='("(I",I5.5,")")') LEN_TRIM(mult)
1250
      READ(UNIT=mult,FMT=c_fmt) compline(nb_lines)
1251
!---
1252
    ELSE
1253
      compline(nb_lines) = -1
1254
    ENDIF
1255
!-
1256
!-- If there is no space wthin the line then the target is a scalar
1257
!-- or the element of a properly written vector.
1258
!-- (ie of the type TARGET__00001)
1259
!-
1260
    IF (    (blk <= 1) &
1261
 &      .OR.(tmp_str(1:1) == '"') &
1262
 &      .OR.(tmp_str(1:1) == "'") ) THEN
1263
!-
1264
      IF (nb_lastkey == 0) THEN
1265
!------ Save info of current keyword as a scalar
1266
!------ if it is not a continuation
1267
        targetlist(nb_lines) = key_str(1:MIN(LEN_TRIM(key_str),l_n))
1268
        last_key = key_str(1:MIN(LEN_TRIM(key_str),l_n))
1269
        nb_lastkey = 1
1270
      ELSE
1271
!------ We are continuing a vector so the keyword needs
1272
!------ to get the underscores
1273
        WRITE(UNIT=cnt,FMT=c_i_fmt) nb_lastkey+1
1274
        targetlist(nb_lines) = &
1275
 &        key_str(1:MIN(LEN_TRIM(key_str),l_n-n_d_fmt-2))//'__'//cnt
1276
        last_key = &
1277
 &        key_str(1:MIN(LEN_TRIM(key_str),l_n-n_d_fmt-2))//'__'//cnt
1278
        nb_lastkey = nb_lastkey+1
1279
      ENDIF
1280
!-----
1281
      fichier(nb_lines) = NEW_str(1:len_str)
1282
      fromfile(nb_lines) = current
1283
    ELSE
1284
!-
1285
!---- If there are blanks whithin the line then we are dealing
1286
!---- with a vector and we need to split it in many entries
1287
!---- with the TARGET__n notation.
1288
!----
1289
!---- Test if the targer is not already a vector target !
1290
!-
1291
      IF (INDEX(TRIM(key_str),'__') > 0) THEN
1292
        CALL ipslerr (3,'getin_decrypt', &
1293
 &       'We have found a mixed vector notation (TARGET__n).', &
1294
 &       'The key at fault : '//TRIM(key_str),' ')
1295
      ENDIF
1296
!-
1297
      nbve = nb_lastkey
1298
      nbve = nbve+1
1299
      WRITE(UNIT=cnt,FMT=c_i_fmt) nbve
1300
!-
1301
      DO WHILE (blk > 0)
1302
!-
1303
!------ Save the content of target__nbve
1304
!-
1305
        fichier(nb_lines) = tmp_str(1:blk)
1306
        new_key = &
1307
 &       key_str(1:MIN(LEN_TRIM(key_str),l_n-n_d_fmt-2))//'__'//cnt
1308
        targetlist(nb_lines) = new_key(1:MIN(LEN_TRIM(new_key),l_n))
1309
        fromfile(nb_lines) = current
1310
!-
1311
        tmp_str = TRIM(ADJUSTL(tmp_str(blk+1:LEN_TRIM(tmp_str))))
1312
        blk = INDEX(TRIM(tmp_str),' ')
1313
!-
1314
        IF (nb_lines+1 > i_txtsize) THEN
1315
          CALL getin_alloctxt ()
1316
        ENDIF
1317
        nb_lines = nb_lines+1
1318
        nbve = nbve+1
1319
        WRITE(UNIT=cnt,FMT=c_i_fmt) nbve
1320
!-
1321
      ENDDO
1322
!-
1323
!---- Save the content of the last target
1324
!-
1325
      fichier(nb_lines) = tmp_str(1:LEN_TRIM(tmp_str))
1326
      new_key = &
1327
 &      key_str(1:MIN(LEN_TRIM(key_str),l_n-n_d_fmt-2))//'__'//cnt
1328
      targetlist(nb_lines) = new_key(1:MIN(LEN_TRIM(new_key),l_n))
1329
      fromfile(nb_lines) = current
1330
!-
1331
      last_key = &
1332
 &      key_str(1:MIN(LEN_TRIM(key_str),l_n-n_d_fmt-2))//'__'//cnt
1333
      nb_lastkey = nbve
1334
!-
1335
    ENDIF
1336
!-
1337
  ENDIF
1338
!---------------------------
1339
END SUBROUTINE getin_decrypt
1340
!-
1341
!===
1342
!-
1343
SUBROUTINE getin_checkcohe ()
1344
!---------------------------------------------------------------------
1345
!- This subroutine checks for redundancies.
1346
!---------------------------------------------------------------------
1347
  IMPLICIT NONE
1348
!-
1349
  INTEGER :: line,n_k,k
1350
!---------------------------------------------------------------------
1351
  DO line=1,nb_lines-1
1352
!-
1353
    n_k = 0
1354
    DO k=line+1,nb_lines
1355
      IF (TRIM(targetlist(line)) == TRIM(targetlist(k))) THEN
1356
        n_k = k
1357
        EXIT
1358
      ENDIF
1359
    ENDDO
1360
!---
1361
!-- IF we have found it we have a problem to solve.
1362
!---
1363
    IF (n_k > 0) THEN
1364
      WRITE(*,*) 'COUNT : ',n_k
1365
      WRITE(*,*) &
1366
 &  'getin_checkcohe : Found a problem on key ',TRIM(targetlist(line))
1367
      WRITE(*,*) &
1368
 &  'getin_checkcohe : The following values were encoutered :'
1369
      WRITE(*,*) &
1370
 &  '                ',TRIM(targetlist(line)),' == ',fichier(line)
1371
      WRITE(*,*) &
1372
 &  '                ',TRIM(targetlist(k)),' == ',fichier(k)
1373
      WRITE(*,*) &
1374
 &  'getin_checkcohe : We will keep only the last value'
1375
      targetlist(line) = ' '
1376
    ENDIF
1377
  ENDDO
1378
!-----------------------------
1379
END SUBROUTINE getin_checkcohe
1380
!-
1381
!===
1382
!-
1383
SUBROUTINE getin_skipafew (unit,out_string,eof,nb_lastkey)
1384
!---------------------------------------------------------------------
1385
  IMPLICIT NONE
1386
!-
1387
  INTEGER :: unit,eof,nb_lastkey
1388
  CHARACTER(LEN=100) :: dummy
1389
  CHARACTER(LEN=100) :: out_string
1390
  CHARACTER(LEN=1) :: first
1391
!---------------------------------------------------------------------
1392
  first="#"
1393
  eof = 0
1394
  out_string = "    "
1395
!-
1396
  DO WHILE (first == "#")
1397
    READ (UNIT=unit,FMT='(A)',ERR=9998,END=7778) dummy
1398
    dummy = TRIM(ADJUSTL(dummy))
1399
    first=dummy(1:1)
1400
    IF (first == "#") THEN
1401
      nb_lastkey = 0
1402
    ENDIF
1403
  ENDDO
1404
  out_string=dummy
1405
!-
1406
  RETURN
1407
!-
1408
9998 CONTINUE
1409
  CALL ipslerr (3,'getin_skipafew','Error while reading file',' ',' ')
1410
!-
1411
7778 CONTINUE
1412
  eof = 1
1413
!----------------------------
1414
END SUBROUTINE getin_skipafew
1415
!-
1416
!===
1417
!-
1418
SUBROUTINE getin_allockeys ()
1419
!---------------------------------------------------------------------
1420
  IMPLICIT NONE
1421
!-
1422
  TYPE(t_key),ALLOCATABLE,DIMENSION(:) :: tmp_key_tab
1423
  CHARACTER(LEN=100),ALLOCATABLE :: tmp_str(:)
1424
!-
1425
  INTEGER :: ier
1426
  CHARACTER(LEN=20) :: c_tmp
1427
!---------------------------------------------------------------------
1428
  IF (keymemsize == 0) THEN
1429
!---
1430
!-- Nothing exists in memory arrays and it is easy to do.
1431
!---
1432
    WRITE (UNIT=c_tmp,FMT=*) memslabs
1433
    ALLOCATE(key_tab(memslabs),stat=ier)
1434
    IF (ier /= 0) THEN
1435
      CALL ipslerr (3,'getin_allockeys', &
1436
 &     'Can not allocate key_tab', &
1437
 &     'to size '//TRIM(ADJUSTL(c_tmp)),' ')
1438
    ENDIF
1439
    nb_keys = 0
1440
    keymemsize = memslabs
1441
    key_tab(:)%keycompress = -1
1442
!---
1443
  ELSE
1444
!---
1445
!-- There is something already in the memory,
1446
!-- we need to transfer and reallocate.
1447
!---
1448
    WRITE (UNIT=c_tmp,FMT=*) keymemsize
1449
    ALLOCATE(tmp_key_tab(keymemsize),stat=ier)
1450
    IF (ier /= 0) THEN
1451
      CALL ipslerr (3,'getin_allockeys', &
1452
 &     'Can not allocate tmp_key_tab', &
1453
 &     'to size '//TRIM(ADJUSTL(c_tmp)),' ')
1454
    ENDIF
1455
    WRITE (UNIT=c_tmp,FMT=*) keymemsize+memslabs
1456
    tmp_key_tab(1:keymemsize) = key_tab(1:keymemsize)
1457
    DEALLOCATE(key_tab)
1458
    ALLOCATE(key_tab(keymemsize+memslabs),stat=ier)
1459
    IF (ier /= 0) THEN
1460
      CALL ipslerr (3,'getin_allockeys', &
1461
 &     'Can not allocate key_tab', &
1462
 &     'to size '//TRIM(ADJUSTL(c_tmp)),' ')
1463
    ENDIF
1464
    key_tab(:)%keycompress = -1
1465
    key_tab(1:keymemsize) = tmp_key_tab(1:keymemsize)
1466
    DEALLOCATE(tmp_key_tab)
1467
    keymemsize = keymemsize+memslabs
1468
  ENDIF
1469
!-----------------------------
1470
END SUBROUTINE getin_allockeys
1471
!-
1472
!===
1473
!-
1474
SUBROUTINE getin_allocmem (type,len_wanted)
1475
!---------------------------------------------------------------------
1476
!- Allocate the memory of the data base for all 4 types of memory
1477
!- INTEGER / REAL / CHARACTER / LOGICAL
1478
!---------------------------------------------------------------------
1479
  IMPLICIT NONE
1480
!-
1481
  INTEGER :: type,len_wanted
1482
!-
1483
  INTEGER,ALLOCATABLE :: tmp_int(:)
1484
  REAL,ALLOCATABLE :: tmp_real(:)
1485
  CHARACTER(LEN=100),ALLOCATABLE :: tmp_char(:)
1486
  LOGICAL,ALLOCATABLE :: tmp_logic(:)
1487
  INTEGER :: ier
1488
  CHARACTER(LEN=20) :: c_tmp
1489
!---------------------------------------------------------------------
1490
  SELECT CASE (type)
1491
  CASE(k_i)
1492
    IF (i_memsize == 0) THEN
1493
      ALLOCATE(i_mem(memslabs),stat=ier)
1494
      IF (ier /= 0) THEN
1495
        WRITE (UNIT=c_tmp,FMT=*) memslabs
1496
        CALL ipslerr (3,'getin_allocmem', &
1497
 &       'Unable to allocate db-memory', &
1498
 &       'i_mem to size '//TRIM(ADJUSTL(c_tmp)),' ')
1499
      ENDIF
1500
      i_memsize=memslabs
1501
    ELSE
1502
      ALLOCATE(tmp_int(i_memsize),stat=ier)
1503
      IF (ier /= 0) THEN
1504
        WRITE (UNIT=c_tmp,FMT=*) i_memsize
1505
        CALL ipslerr (3,'getin_allocmem', &
1506
 &       'Unable to allocate tmp_int', &
1507
 &       'to size '//TRIM(ADJUSTL(c_tmp)),' ')
1508
      ENDIF
1509
      tmp_int(1:i_memsize) = i_mem(1:i_memsize)
1510
      DEALLOCATE(i_mem)
1511
      ALLOCATE(i_mem(i_memsize+MAX(memslabs,len_wanted)),stat=ier)
1512
      IF (ier /= 0) THEN
1513
        WRITE (UNIT=c_tmp,FMT=*) i_memsize+MAX(memslabs,len_wanted)
1514
        CALL ipslerr (3,'getin_allocmem', &
1515
 &       'Unable to re-allocate db-memory', &
1516
 &       'i_mem to size '//TRIM(ADJUSTL(c_tmp)),' ')
1517
      ENDIF
1518
      i_mem(1:i_memsize) = tmp_int(1:i_memsize)
1519
      i_memsize = i_memsize+MAX(memslabs,len_wanted)
1520
      DEALLOCATE(tmp_int)
1521
    ENDIF
1522
  CASE(k_r)
1523
    IF (r_memsize == 0) THEN
1524
      ALLOCATE(r_mem(memslabs),stat=ier)
1525
      IF (ier /= 0) THEN
1526
        WRITE (UNIT=c_tmp,FMT=*) memslabs
1527
        CALL ipslerr (3,'getin_allocmem', &
1528
 &       'Unable to allocate db-memory', &
1529
 &       'r_mem to size '//TRIM(ADJUSTL(c_tmp)),' ')
1530
      ENDIF
1531
      r_memsize =  memslabs
1532
    ELSE
1533
      ALLOCATE(tmp_real(r_memsize),stat=ier)
1534
      IF (ier /= 0) THEN
1535
        WRITE (UNIT=c_tmp,FMT=*) r_memsize
1536
        CALL ipslerr (3,'getin_allocmem', &
1537
 &       'Unable to allocate tmp_real', &
1538
 &       'to size '//TRIM(ADJUSTL(c_tmp)),' ')
1539
      ENDIF
1540
      tmp_real(1:r_memsize) = r_mem(1:r_memsize)
1541
      DEALLOCATE(r_mem)
1542
      ALLOCATE(r_mem(r_memsize+MAX(memslabs,len_wanted)),stat=ier)
1543
      IF (ier /= 0) THEN
1544
        WRITE (UNIT=c_tmp,FMT=*) r_memsize+MAX(memslabs,len_wanted)
1545
        CALL ipslerr (3,'getin_allocmem', &
1546
 &       'Unable to re-allocate db-memory', &
1547
 &       'r_mem to size '//TRIM(ADJUSTL(c_tmp)),' ')
1548
      ENDIF
1549
      r_mem(1:r_memsize) = tmp_real(1:r_memsize)
1550
      r_memsize = r_memsize+MAX(memslabs,len_wanted)
1551
      DEALLOCATE(tmp_real)
1552
    ENDIF
1553
  CASE(k_c)
1554
    IF (c_memsize == 0) THEN
1555
      ALLOCATE(c_mem(memslabs),stat=ier)
1556
      IF (ier /= 0) THEN
1557
        WRITE (UNIT=c_tmp,FMT=*) memslabs
1558
        CALL ipslerr (3,'getin_allocmem', &
1559
 &       'Unable to allocate db-memory', &
1560
 &       'c_mem to size '//TRIM(ADJUSTL(c_tmp)),' ')
1561
      ENDIF
1562
      c_memsize = memslabs
1563
    ELSE
1564
      ALLOCATE(tmp_char(c_memsize),stat=ier)
1565
      IF (ier /= 0) THEN
1566
        WRITE (UNIT=c_tmp,FMT=*) c_memsize
1567
        CALL ipslerr (3,'getin_allocmem', &
1568
 &       'Unable to allocate tmp_char', &
1569
 &       'to size '//TRIM(ADJUSTL(c_tmp)),' ')
1570
      ENDIF
1571
      tmp_char(1:c_memsize) = c_mem(1:c_memsize)
1572
      DEALLOCATE(c_mem)
1573
      ALLOCATE(c_mem(c_memsize+MAX(memslabs,len_wanted)),stat=ier)
1574
      IF (ier /= 0) THEN
1575
        WRITE (UNIT=c_tmp,FMT=*) c_memsize+MAX(memslabs,len_wanted)
1576
        CALL ipslerr (3,'getin_allocmem', &
1577
 &       'Unable to re-allocate db-memory', &
1578
 &       'c_mem to size '//TRIM(ADJUSTL(c_tmp)),' ')
1579
      ENDIF
1580
      c_mem(1:c_memsize) = tmp_char(1:c_memsize)
1581
      c_memsize = c_memsize+MAX(memslabs,len_wanted)
1582
      DEALLOCATE(tmp_char)
1583
    ENDIF
1584
  CASE(k_l)
1585
    IF (l_memsize == 0) THEN
1586
      ALLOCATE(l_mem(memslabs),stat=ier)
1587
      IF (ier /= 0) THEN
1588
        WRITE (UNIT=c_tmp,FMT=*) memslabs
1589
        CALL ipslerr (3,'getin_allocmem', &
1590
 &       'Unable to allocate db-memory', &
1591
 &       'l_mem to size '//TRIM(ADJUSTL(c_tmp)),' ')
1592
      ENDIF
1593
      l_memsize = memslabs
1594
    ELSE
1595
      ALLOCATE(tmp_logic(l_memsize),stat=ier)
1596
      IF (ier /= 0) THEN
1597
        WRITE (UNIT=c_tmp,FMT=*) l_memsize
1598
        CALL ipslerr (3,'getin_allocmem', &
1599
 &       'Unable to allocate tmp_logic', &
1600
 &       'to size '//TRIM(ADJUSTL(c_tmp)),' ')
1601
      ENDIF
1602
      tmp_logic(1:l_memsize) = l_mem(1:l_memsize)
1603
      DEALLOCATE(l_mem)
1604
      ALLOCATE(l_mem(l_memsize+MAX(memslabs,len_wanted)),stat=ier)
1605
      IF (ier /= 0) THEN
1606
        WRITE (UNIT=c_tmp,FMT=*) l_memsize+MAX(memslabs,len_wanted)
1607
        CALL ipslerr (3,'getin_allocmem', &
1608
 &       'Unable to re-allocate db-memory', &
1609
 &       'l_mem to size '//TRIM(ADJUSTL(c_tmp)),' ')
1610
      ENDIF
1611
      l_mem(1:l_memsize) = tmp_logic(1:l_memsize)
1612
      l_memsize = l_memsize+MAX(memslabs,len_wanted)
1613
      DEALLOCATE(tmp_logic)
1614
    ENDIF
1615
  CASE DEFAULT
1616
    CALL ipslerr (3,'getin_allocmem','Unknown type of data',' ',' ')
1617
  END SELECT
1618
!----------------------------
1619
END SUBROUTINE getin_allocmem
1620
!-
1621
!===
1622
!-
1623
SUBROUTINE getin_alloctxt ()
1624
!---------------------------------------------------------------------
1625
  IMPLICIT NONE
1626
!-
1627
  CHARACTER(LEN=100),ALLOCATABLE :: tmp_fic(:)
1628
  CHARACTER(LEN=l_n),ALLOCATABLE :: tmp_tgl(:)
1629
  INTEGER,ALLOCATABLE :: tmp_int(:)
1630
!-
1631
  INTEGER :: ier
1632
  CHARACTER(LEN=20) :: c_tmp1,c_tmp2
1633
!---------------------------------------------------------------------
1634
  IF (i_txtsize == 0) THEN
1635
!---
1636
!-- Nothing exists in memory arrays and it is easy to do.
1637
!---
1638
    WRITE (UNIT=c_tmp1,FMT=*) i_txtslab
1639
    ALLOCATE(fichier(i_txtslab),stat=ier)
1640
    IF (ier /= 0) THEN
1641
      CALL ipslerr (3,'getin_alloctxt', &
1642
 &     'Can not allocate fichier', &
1643
 &     'to size '//TRIM(ADJUSTL(c_tmp1)),' ')
1644
    ENDIF
1645
!---
1646
    ALLOCATE(targetlist(i_txtslab),stat=ier)
1647
    IF (ier /= 0) THEN
1648
      CALL ipslerr (3,'getin_alloctxt', &
1649
 &     'Can not allocate targetlist', &
1650
 &     'to size '//TRIM(ADJUSTL(c_tmp1)),' ')
1651
    ENDIF
1652
!---
1653
    ALLOCATE(fromfile(i_txtslab),stat=ier)
1654
    IF (ier /= 0) THEN
1655
      CALL ipslerr (3,'getin_alloctxt', &
1656
 &     'Can not allocate fromfile', &
1657
 &     'to size '//TRIM(ADJUSTL(c_tmp1)),' ')
1658
    ENDIF
1659
!---
1660
    ALLOCATE(compline(i_txtslab),stat=ier)
1661
    IF (ier /= 0) THEN
1662
      CALL ipslerr (3,'getin_alloctxt', &
1663
 &     'Can not allocate compline', &
1664
 &     'to size '//TRIM(ADJUSTL(c_tmp1)),' ')
1665
    ENDIF
1666
!---
1667
    nb_lines = 0
1668
    i_txtsize = i_txtslab
1669
  ELSE
1670
!---
1671
!-- There is something already in the memory,
1672
!-- we need to transfer and reallocate.
1673
!---
1674
    WRITE (UNIT=c_tmp1,FMT=*) i_txtsize
1675
    WRITE (UNIT=c_tmp2,FMT=*) i_txtsize+i_txtslab
1676
    ALLOCATE(tmp_fic(i_txtsize),stat=ier)
1677
    IF (ier /= 0) THEN
1678
      CALL ipslerr (3,'getin_alloctxt', &
1679
 &     'Can not allocate tmp_fic', &
1680
 &     'to size '//TRIM(ADJUSTL(c_tmp1)),' ')
1681
    ENDIF
1682
    tmp_fic(1:i_txtsize) = fichier(1:i_txtsize)
1683
    DEALLOCATE(fichier)
1684
    ALLOCATE(fichier(i_txtsize+i_txtslab),stat=ier)
1685
    IF (ier /= 0) THEN
1686
      CALL ipslerr (3,'getin_alloctxt', &
1687
 &     'Can not allocate fichier', &
1688
 &     'to size '//TRIM(ADJUSTL(c_tmp2)),' ')
1689
    ENDIF
1690
    fichier(1:i_txtsize) = tmp_fic(1:i_txtsize)
1691
    DEALLOCATE(tmp_fic)
1692
!---
1693
    ALLOCATE(tmp_tgl(i_txtsize),stat=ier)
1694
    IF (ier /= 0) THEN
1695
      CALL ipslerr (3,'getin_alloctxt', &
1696
 &     'Can not allocate tmp_tgl', &
1697
 &     'to size '//TRIM(ADJUSTL(c_tmp1)),' ')
1698
    ENDIF
1699
    tmp_tgl(1:i_txtsize) = targetlist(1:i_txtsize)
1700
    DEALLOCATE(targetlist)
1701
    ALLOCATE(targetlist(i_txtsize+i_txtslab),stat=ier)
1702
    IF (ier /= 0) THEN
1703
      CALL ipslerr (3,'getin_alloctxt', &
1704
 &     'Can not allocate targetlist', &
1705
 &     'to size '//TRIM(ADJUSTL(c_tmp2)),' ')
1706
    ENDIF
1707
    targetlist(1:i_txtsize) = tmp_tgl(1:i_txtsize)
1708
    DEALLOCATE(tmp_tgl)
1709
!---
1710
    ALLOCATE(tmp_int(i_txtsize),stat=ier)
1711
    IF (ier /= 0) THEN
1712
      CALL ipslerr (3,'getin_alloctxt', &
1713
 &     'Can not allocate tmp_int', &
1714
 &     'to size '//TRIM(ADJUSTL(c_tmp1)),' ')
1715
    ENDIF
1716
    tmp_int(1:i_txtsize) = fromfile(1:i_txtsize)
1717
    DEALLOCATE(fromfile)
1718
    ALLOCATE(fromfile(i_txtsize+i_txtslab),stat=ier)
1719
    IF (ier /= 0) THEN
1720
      CALL ipslerr (3,'getin_alloctxt', &
1721
 &     'Can not allocate fromfile', &
1722
 &     'to size '//TRIM(ADJUSTL(c_tmp2)),' ')
1723
    ENDIF
1724
    fromfile(1:i_txtsize) = tmp_int(1:i_txtsize)
1725
!---
1726
    tmp_int(1:i_txtsize) = compline(1:i_txtsize)
1727
    DEALLOCATE(compline)
1728
    ALLOCATE(compline(i_txtsize+i_txtslab),stat=ier)
1729
    IF (ier /= 0) THEN
1730
      CALL ipslerr (3,'getin_alloctxt', &
1731
 &     'Can not allocate compline', &
1732
 &     'to size '//TRIM(ADJUSTL(c_tmp2)),' ')
1733
    ENDIF
1734
    compline(1:i_txtsize) = tmp_int(1:i_txtsize)
1735
    DEALLOCATE(tmp_int)
1736
!---
1737
    i_txtsize = i_txtsize+i_txtslab
1738
  ENDIF
1739
!----------------------------
1740
END SUBROUTINE getin_alloctxt
1741
!-
1742
!===
1743
!-
1744
SUBROUTINE getin_dump (fileprefix)
1745
!---------------------------------------------------------------------
1746
  IMPLICIT NONE
1747
!-
1748
  CHARACTER(*),OPTIONAL :: fileprefix
1749
!-
1750
  CHARACTER(LEN=80) :: usedfileprefix
1751
  INTEGER :: ikey,if,iff,iv
1752
  CHARACTER(LEN=20) :: c_tmp
1753
  CHARACTER(LEN=100) :: tmp_str,used_filename
1754
  LOGICAL :: check = .FALSE.
1755
!---------------------------------------------------------------------
1756
  IF (PRESENT(fileprefix)) THEN
1757
    usedfileprefix = fileprefix(1:MIN(LEN_TRIM(fileprefix),80))
1758
  ELSE
1759
    usedfileprefix = "used"
1760
  ENDIF
1761
!-
1762
  DO if=1,nbfiles
1763
!---
1764
    used_filename = TRIM(usedfileprefix)//'_'//TRIM(filelist(if))
1765
    IF (check) THEN
1766
      WRITE(*,*) &
1767
 &      'GETIN_DUMP : opens file : ',TRIM(used_filename),' if = ',if
1768
      WRITE(*,*) 'GETIN_DUMP : NUMBER OF KEYS : ',nb_keys
1769
    ENDIF
1770
    OPEN (UNIT=22,FILE=used_filename)
1771
!---
1772
!-- If this is the first file we need to add the list
1773
!-- of file which belong to it
1774
    IF ( (if == 1).AND.(nbfiles > 1) ) THEN
1775
      WRITE(22,*) '# '
1776
      WRITE(22,*) '# This file is linked to the following files :'
1777
      WRITE(22,*) '# '
1778
      DO iff=2,nbfiles
1779
        WRITE(22,*) 'INCLUDEDEF = ',TRIM(filelist(iff))
1780
      ENDDO
1781
      WRITE(22,*) '# '
1782
    ENDIF
1783
!---
1784
    DO ikey=1,nb_keys
1785
!-----
1786
!---- Is this key from this file ?
1787
      IF (key_tab(ikey)%keyfromfile == if) THEN
1788
!-------
1789
!------ Write some comments
1790
        WRITE(22,*) '#'
1791
        SELECT CASE (key_tab(ikey)%keystatus)
1792
        CASE(1)
1793
          WRITE(22,*) '# Values of ', &
1794
 &          TRIM(key_tab(ikey)%keystr),' comes from the run.def.'
1795
        CASE(2)
1796
          WRITE(22,*) '# Values of ', &
1797
 &          TRIM(key_tab(ikey)%keystr),' are all defaults.'
1798
        CASE(3)
1799
          WRITE(22,*) '# Values of ', &
1800
 &          TRIM(key_tab(ikey)%keystr), &
1801
 &          ' are a mix of run.def and defaults.'
1802
        CASE DEFAULT
1803
          WRITE(22,*) '# Dont know from where the value of ', &
1804
 &          TRIM(key_tab(ikey)%keystr),' comes.'
1805
        END SELECT
1806
        WRITE(22,*) '#'
1807
!-------
1808
!------ Write the values
1809
        SELECT CASE (key_tab(ikey)%keytype)
1810
        CASE(k_i)
1811
          IF (key_tab(ikey)%keymemlen == 1) THEN
1812
            IF (key_tab(ikey)%keycompress < 0) THEN
1813
              WRITE(22,*) &
1814
 &              TRIM(key_tab(ikey)%keystr), &
1815
 &              ' = ',i_mem(key_tab(ikey)%keymemstart)
1816
            ELSE
1817
              WRITE(22,*) &
1818
 &              TRIM(key_tab(ikey)%keystr), &
1819
 &              ' = ',key_tab(ikey)%keycompress, &
1820
 &              ' * ',i_mem(key_tab(ikey)%keymemstart)
1821
            ENDIF
1822
          ELSE
1823
            DO iv=0,key_tab(ikey)%keymemlen-1
1824
              WRITE(UNIT=c_tmp,FMT=c_i_fmt) iv+1
1825
              WRITE(22,*) &
1826
 &              TRIM(key_tab(ikey)%keystr), &
1827
 &              '__',TRIM(ADJUSTL(c_tmp)), &
1828
 &              ' = ',i_mem(key_tab(ikey)%keymemstart+iv)
1829
            ENDDO
1830
          ENDIF
1831
        CASE(k_r)
1832
          IF (key_tab(ikey)%keymemlen == 1) THEN
1833
            IF (key_tab(ikey)%keycompress < 0) THEN
1834
              WRITE(22,*) &
1835
 &              TRIM(key_tab(ikey)%keystr), &
1836
 &              ' = ',r_mem(key_tab(ikey)%keymemstart)
1837
            ELSE
1838
              WRITE(22,*) &
1839
 &              TRIM(key_tab(ikey)%keystr), &
1840
 &              ' = ',key_tab(ikey)%keycompress, &
1841
                   & ' * ',r_mem(key_tab(ikey)%keymemstart)
1842
            ENDIF
1843
          ELSE
1844
            DO iv=0,key_tab(ikey)%keymemlen-1
1845
              WRITE(UNIT=c_tmp,FMT=c_i_fmt) iv+1
1846
              WRITE(22,*) &
1847
 &              TRIM(key_tab(ikey)%keystr),'__',TRIM(ADJUSTL(c_tmp)), &
1848
 &              ' = ',r_mem(key_tab(ikey)%keymemstart+iv)
1849
            ENDDO
1850
          ENDIF
1851
        CASE(k_c)
1852
          IF (key_tab(ikey)%keymemlen == 1) THEN
1853
            tmp_str = c_mem(key_tab(ikey)%keymemstart)
1854
            WRITE(22,*) TRIM(key_tab(ikey)%keystr), &
1855
 &              ' = ',TRIM(tmp_str)
1856
          ELSE
1857
            DO iv=0,key_tab(ikey)%keymemlen-1
1858
              WRITE(UNIT=c_tmp,FMT=c_i_fmt) iv+1
1859
              tmp_str = c_mem(key_tab(ikey)%keymemstart+iv)
1860
              WRITE(22,*) &
1861
 &              TRIM(key_tab(ikey)%keystr), &
1862
 &              '__',TRIM(ADJUSTL(c_tmp)), &
1863
 &              ' = ',TRIM(tmp_str)
1864
            ENDDO
1865
          ENDIF
1866
        CASE(k_l)
1867
          IF (key_tab(ikey)%keymemlen == 1) THEN
1868
            IF (l_mem(key_tab(ikey)%keymemstart)) THEN
1869
              WRITE(22,*) TRIM(key_tab(ikey)%keystr),' = TRUE '
1870
            ELSE
1871
              WRITE(22,*) TRIM(key_tab(ikey)%keystr),' = FALSE '
1872
            ENDIF
1873
          ELSE
1874
            DO iv=0,key_tab(ikey)%keymemlen-1
1875
              WRITE(UNIT=c_tmp,FMT=c_i_fmt) iv+1
1876
              IF (l_mem(key_tab(ikey)%keymemstart+iv)) THEN
1877
                WRITE(22,*) TRIM(key_tab(ikey)%keystr),'__', &
1878
 &                          TRIM(ADJUSTL(c_tmp)),' = TRUE '
1879
              ELSE
1880
                WRITE(22,*) TRIM(key_tab(ikey)%keystr),'__', &
1881
 &                          TRIM(ADJUSTL(c_tmp)),' = FALSE '
1882
              ENDIF
1883
            ENDDO
1884
          ENDIF
1885
        CASE DEFAULT
1886
          CALL ipslerr (3,'getin_dump', &
1887
 &         'Unknown type for variable '//TRIM(key_tab(ikey)%keystr), &
1888
 &         ' ',' ')
1889
        END SELECT
1890
      ENDIF
1891
    ENDDO
1892
!-
1893
    CLOSE(UNIT=22)
1894
!-
1895
  ENDDO
1896
!------------------------
1897
END SUBROUTINE getin_dump
1898
!===
1899
SUBROUTINE get_qtyp (k_typ,c_vtyp,i_v,r_v,c_v,l_v)
1900
!---------------------------------------------------------------------
1901
!- Returns the type of the argument (mutually exclusive)
1902
!---------------------------------------------------------------------
1903
  IMPLICIT NONE
1904
!-
1905
  INTEGER,INTENT(OUT) :: k_typ
1906
  CHARACTER(LEN=*),INTENT(OUT) :: c_vtyp
1907
  INTEGER,DIMENSION(:),OPTIONAL          :: i_v
1908
  REAL,DIMENSION(:),OPTIONAL             :: r_v
1909
  LOGICAL,DIMENSION(:),OPTIONAL          :: l_v
1910
  CHARACTER(LEN=*),DIMENSION(:),OPTIONAL :: c_v
1911
!---------------------------------------------------------------------
1912
  k_typ = 0
1913
  IF (COUNT((/PRESENT(i_v),PRESENT(r_v),PRESENT(c_v),PRESENT(l_v)/)) &
1914
 &    /= 1) THEN
1915
    CALL ipslerr (3,'get_qtyp', &
1916
 &   'Invalid number of optional arguments','(/= 1)',' ')
1917
  ENDIF
1918
!-
1919
  IF     (PRESENT(i_v)) THEN
1920
    k_typ = k_i
1921
    c_vtyp = 'INTEGER'
1922
  ELSEIF (PRESENT(r_v)) THEN
1923
    k_typ = k_r
1924
    c_vtyp = 'REAL'
1925
  ELSEIF (PRESENT(c_v)) THEN
1926
    k_typ = k_c
1927
    c_vtyp = 'CHARACTER'
1928
  ELSEIF (PRESENT(l_v)) THEN
1929
    k_typ = k_l
1930
    c_vtyp = 'LOGICAL'
1931
  ENDIF
1932
!----------------------
1933
END SUBROUTINE get_qtyp
1934
!===
1935
SUBROUTINE get_findkey (i_tab,c_key,pos)
1936
!---------------------------------------------------------------------
1937
!- This subroutine looks for a key in a table
1938
!---------------------------------------------------------------------
1939
!- INPUT
1940
!-   i_tab  : 1 -> search in key_tab(1:nb_keys)%keystr
1941
!-            2 -> search in targetlist(1:nb_lines)
1942
!-   c_key  : Name of the key we are looking for
1943
!- OUTPUT
1944
!-   pos    : -1 if key not found, else value in the table
1945
!---------------------------------------------------------------------
1946
  IMPLICIT NONE
1947
!-
1948
  INTEGER,INTENT(in) :: i_tab
1949
  CHARACTER(LEN=*),INTENT(in) :: c_key
1950
  INTEGER,INTENT(out) :: pos
1951
!-
1952
  INTEGER :: ikey_max,ikey
1953
  CHARACTER(LEN=l_n) :: c_q_key
1954
!---------------------------------------------------------------------
1955
  pos = -1
1956
  IF     (i_tab == 1) THEN
1957
    ikey_max = nb_keys
1958
  ELSEIF (i_tab == 2) THEN
1959
    ikey_max = nb_lines
1960
  ELSE
1961
    ikey_max = 0
1962
  ENDIF
1963
  IF ( ikey_max > 0 ) THEN
1964
    DO ikey=1,ikey_max
1965
      IF (i_tab == 1) THEN
1966
        c_q_key = key_tab(ikey)%keystr
1967
      ELSE
1968
        c_q_key = targetlist(ikey)
1969
      ENDIF
1970
      IF (TRIM(c_q_key) == TRIM(c_key)) THEN
1971
        pos = ikey
1972
        EXIT
1973
      ENDIF
1974
    ENDDO
1975
  ENDIF
1976
!-------------------------
1977
END SUBROUTINE get_findkey
1978
!===
1979
!------------------
1980
END MODULE ioipsl_getincom