1 |
MODULE getincom2 |
2 |
|
3 |
! From getincom.f90, version 2.0 2004/04/05 14:47:48 |
4 |
|
5 |
use gensig_m, only: gensig |
6 |
use find_sig_m, only: find_sig |
7 |
|
8 |
IMPLICIT NONE |
9 |
|
10 |
INTEGER, PARAMETER :: max_files=100 |
11 |
CHARACTER(LEN=100), DIMENSION(max_files), SAVE :: filelist |
12 |
INTEGER, SAVE :: nbfiles |
13 |
|
14 |
INTEGER, PARAMETER :: max_lines=500 |
15 |
INTEGER, SAVE :: nb_lines |
16 |
CHARACTER(LEN=100), DIMENSION(max_lines), SAVE :: fichier |
17 |
INTEGER, DIMENSION(max_lines), SAVE :: targetsiglist, fromfile, compline |
18 |
CHARACTER(LEN=30), DIMENSION(max_lines), SAVE :: targetlist |
19 |
|
20 |
! The data base of parameters |
21 |
|
22 |
INTEGER, PARAMETER :: memslabs=200 |
23 |
INTEGER, PARAMETER :: compress_lim = 20 |
24 |
|
25 |
INTEGER, SAVE :: nb_keys=0 |
26 |
INTEGER, SAVE :: keymemsize=0 |
27 |
INTEGER, SAVE, ALLOCATABLE :: keysig(:) |
28 |
CHARACTER(LEN=30), SAVE, ALLOCATABLE :: keystr(:) |
29 |
|
30 |
! keystatus definition |
31 |
! keystatus = 1 : Value comes from run.def |
32 |
! keystatus = 2 : Default value is used |
33 |
! keystatus = 3 : Some vector elements were taken from default |
34 |
|
35 |
INTEGER, SAVE, ALLOCATABLE :: keystatus(:) |
36 |
|
37 |
! keytype definition |
38 |
! keytype = 1 : Interger |
39 |
! keytype = 2 : Real |
40 |
! keytype = 3 : Character |
41 |
! keytype = 4 : Logical |
42 |
|
43 |
INTEGER, SAVE, ALLOCATABLE :: keytype(:) |
44 |
|
45 |
! Allow compression for keys (only for integer and real) |
46 |
! keycompress < 0 : not compresses |
47 |
! keycompress > 0 : number of repeat of the value |
48 |
|
49 |
INTEGER, SAVE, ALLOCATABLE :: keycompress(:) |
50 |
INTEGER, SAVE, ALLOCATABLE :: keyfromfile(:) |
51 |
|
52 |
INTEGER, SAVE, ALLOCATABLE :: keymemstart(:) |
53 |
INTEGER, SAVE, ALLOCATABLE :: keymemlen(:) |
54 |
|
55 |
INTEGER, SAVE, ALLOCATABLE :: intmem(:) |
56 |
INTEGER, SAVE :: intmemsize=0, intmempos=0 |
57 |
REAL, SAVE, ALLOCATABLE :: realmem(:) |
58 |
INTEGER, SAVE :: realmemsize=0, realmempos=0 |
59 |
CHARACTER(LEN=100), SAVE, ALLOCATABLE :: charmem(:) |
60 |
INTEGER, SAVE :: charmemsize=0, charmempos=0 |
61 |
LOGICAL, SAVE, ALLOCATABLE :: logicmem(:) |
62 |
INTEGER, SAVE :: logicmemsize=0, logicmempos=0 |
63 |
|
64 |
CONTAINS |
65 |
|
66 |
SUBROUTINE getfilr(MY_TARGET, status, fileorig, ret_val) |
67 |
|
68 |
! Subroutine that will extract from the file the values attributed |
69 |
! to the keyword MY_TARGET |
70 |
|
71 |
! REALS |
72 |
|
73 |
! MY_TARGET : in : CHARACTER(LEN=*) target for which we will |
74 |
! look in the file |
75 |
! status : out : INTEGER tells us from where we obtained the data |
76 |
! fileorig : out : The index of the file from which the key comes |
77 |
! ret_val : out : REAL(nb_to_ret) values read |
78 |
|
79 |
use strlowercase_m, only: strlowercase |
80 |
|
81 |
CHARACTER(LEN=*) MY_TARGET |
82 |
INTEGER :: status, fileorig |
83 |
REAL, DIMENSION(:) :: ret_val |
84 |
|
85 |
INTEGER :: nb_to_ret |
86 |
INTEGER :: it, pos, len_str, epos, ppos, int_tmp, status_cnt |
87 |
CHARACTER(LEN=3) :: cnt, tl, dl |
88 |
CHARACTER(LEN=10) :: fmt |
89 |
CHARACTER(LEN=30) :: full_target |
90 |
CHARACTER(LEN=80) :: str_READ, str_READ_lower, str_tmp |
91 |
INTEGER :: full_target_sig |
92 |
REAL :: compvalue |
93 |
|
94 |
INTEGER, SAVE :: max_len = 0 |
95 |
LOGICAL, SAVE, ALLOCATABLE :: found(:) |
96 |
LOGICAL :: def_beha |
97 |
LOGICAL :: compressed = .FALSE. |
98 |
|
99 |
nb_to_ret = SIZE(ret_val) |
100 |
CALL getin_read |
101 |
|
102 |
! Get the variables and memory we need |
103 |
|
104 |
IF (max_len == 0) THEN |
105 |
ALLOCATE(found(nb_to_ret)) |
106 |
max_len = nb_to_ret |
107 |
ENDIF |
108 |
IF (max_len < nb_to_ret) THEN |
109 |
DEALLOCATE(found) |
110 |
ALLOCATE(found(nb_to_ret)) |
111 |
max_len = nb_to_ret |
112 |
ENDIF |
113 |
found(:) = .FALSE. |
114 |
|
115 |
! See what we find in the files read |
116 |
|
117 |
DO it=1, nb_to_ret |
118 |
|
119 |
|
120 |
! First try the target as it is |
121 |
|
122 |
full_target = MY_TARGET(1:len_TRIM(MY_TARGET)) |
123 |
CALL gensig (full_target, full_target_sig) |
124 |
CALL find_sig (nb_lines, targetlist, full_target, & |
125 |
& targetsiglist, full_target_sig, pos) |
126 |
|
127 |
! Another try |
128 |
|
129 |
IF (pos < 0) THEN |
130 |
WRITE(cnt, '(I3.3)') it |
131 |
full_target = MY_TARGET(1:len_TRIM(MY_TARGET))//'__'//cnt |
132 |
CALL gensig (full_target, full_target_sig) |
133 |
CALL find_sig (nb_lines, targetlist, full_target, & |
134 |
& targetsiglist, full_target_sig, pos) |
135 |
ENDIF |
136 |
|
137 |
! A priori we dont know from which file the target could come. |
138 |
! Thus by default we attribute it to the first file : |
139 |
|
140 |
fileorig = 1 |
141 |
|
142 |
IF (pos > 0) THEN |
143 |
|
144 |
found(it) = .TRUE. |
145 |
fileorig = fromfile(pos) |
146 |
|
147 |
! DECODE |
148 |
|
149 |
str_READ = TRIM(ADJUSTL(fichier(pos))) |
150 |
str_READ_lower = str_READ |
151 |
CALL strlowercase (str_READ_lower) |
152 |
|
153 |
IF ( ( (INDEX(str_READ_lower, 'def') == 1) & |
154 |
& .AND.(LEN_TRIM(str_READ_lower) == 3) ) & |
155 |
& .OR.( (INDEX(str_READ_lower, 'default') == 1) & |
156 |
& .AND.(LEN_TRIM(str_READ_lower) == 7) ) ) THEN |
157 |
def_beha = .TRUE. |
158 |
ELSE |
159 |
def_beha = .FALSE. |
160 |
len_str = LEN_TRIM(str_READ) |
161 |
epos = INDEX(str_READ, 'e') |
162 |
ppos = INDEX(str_READ, '.') |
163 |
|
164 |
IF (epos > 0) THEN |
165 |
WRITE(tl, '(I3.3)') len_str |
166 |
WRITE(dl, '(I3.3)') epos-ppos-1 |
167 |
fmt='(e'//tl//'.'//dl//')' |
168 |
READ(str_READ, fmt) ret_val(it) |
169 |
ELSE IF (ppos > 0) THEN |
170 |
WRITE(tl, '(I3.3)') len_str |
171 |
WRITE(dl, '(I3.3)') len_str-ppos |
172 |
fmt='(f'//tl//'.'//dl//')' |
173 |
READ(str_READ, fmt) ret_val(it) |
174 |
ELSE |
175 |
WRITE(tl, '(I3.3)') len_str |
176 |
fmt = '(I'//tl//')' |
177 |
READ(str_READ, fmt) int_tmp |
178 |
ret_val(it) = REAL(int_tmp) |
179 |
ENDIF |
180 |
ENDIF |
181 |
|
182 |
targetsiglist(pos) = -1 |
183 |
|
184 |
! Is this the value of a compressed field ? |
185 |
|
186 |
IF (compline(pos) > 0) THEN |
187 |
IF (compline(pos) == nb_to_ret) THEN |
188 |
compressed = .TRUE. |
189 |
compvalue = ret_val(it) |
190 |
ELSE |
191 |
WRITE(*, *) 'WARNING from getfilr' |
192 |
WRITE(*, *) 'For key ', TRIM(MY_TARGET), & |
193 |
& ' we have a compressed field but which does not have the right size.' |
194 |
WRITE(*, *) 'We will try to fix that ' |
195 |
compressed = .TRUE. |
196 |
compvalue = ret_val(it) |
197 |
ENDIF |
198 |
ENDIF |
199 |
ELSE |
200 |
found(it) = .FALSE. |
201 |
ENDIF |
202 |
ENDDO |
203 |
|
204 |
! If this is a compressed field then we will uncompress it |
205 |
|
206 |
IF (compressed) THEN |
207 |
DO it=1, nb_to_ret |
208 |
IF (.NOT. found(it)) THEN |
209 |
ret_val(it) = compvalue |
210 |
found(it) = .TRUE. |
211 |
ENDIF |
212 |
ENDDO |
213 |
ENDIF |
214 |
|
215 |
! Now we get the status for what we found |
216 |
|
217 |
IF (def_beha) THEN |
218 |
status = 2 |
219 |
WRITE(*, *) 'USING DEFAULT BEHAVIOUR FOR ', TRIM(MY_TARGET) |
220 |
ELSE |
221 |
status_cnt = 0 |
222 |
DO it=1, nb_to_ret |
223 |
IF (.NOT. found(it)) THEN |
224 |
status_cnt = status_cnt+1 |
225 |
IF (nb_to_ret > 1) THEN |
226 |
WRITE(str_tmp, '(a, "__", I3.3)') TRIM(MY_TARGET), it |
227 |
ELSE |
228 |
str_tmp = TRIM(MY_TARGET) |
229 |
ENDIF |
230 |
WRITE(*, *) 'USING DEFAULTS : ', TRIM(str_tmp), '=', ret_val(it) |
231 |
ENDIF |
232 |
ENDDO |
233 |
|
234 |
IF (status_cnt == 0) THEN |
235 |
status = 1 |
236 |
ELSE IF (status_cnt == nb_to_ret) THEN |
237 |
status = 2 |
238 |
ELSE |
239 |
status = 3 |
240 |
ENDIF |
241 |
ENDIF |
242 |
|
243 |
END SUBROUTINE getfilr |
244 |
|
245 |
!************************************************************** |
246 |
|
247 |
SUBROUTINE getfili(MY_TARGET, status, fileorig, ret_val) |
248 |
|
249 |
! Subroutine that will extract from the file the values |
250 |
! attributed to the keyword MY_TARGET |
251 |
|
252 |
! INTEGER |
253 |
! ------- |
254 |
|
255 |
! MY_TARGET : in : CHARACTER(LEN=*) target for which we will |
256 |
! look in the file |
257 |
! status : out : INTEGER tells us from where we obtained the data |
258 |
! fileorig : out : The index of the file from which the key comes |
259 |
! ret_val : out : INTEGER(nb_to_ret) values read |
260 |
|
261 |
|
262 |
use strlowercase_m, only: strlowercase |
263 |
|
264 |
CHARACTER(LEN=*) :: MY_TARGET |
265 |
INTEGER :: status, fileorig |
266 |
INTEGER :: ret_val(:) |
267 |
|
268 |
INTEGER :: nb_to_ret |
269 |
INTEGER :: it, pos, len_str, status_cnt |
270 |
CHARACTER(LEN=3) :: cnt, chlen |
271 |
CHARACTER(LEN=10) :: fmt |
272 |
CHARACTER(LEN=30) :: full_target |
273 |
CHARACTER(LEN=80) :: str_READ, str_READ_lower, str_tmp |
274 |
INTEGER :: full_target_sig |
275 |
INTEGER :: compvalue |
276 |
|
277 |
INTEGER, SAVE :: max_len = 0 |
278 |
LOGICAL, SAVE, ALLOCATABLE :: found(:) |
279 |
LOGICAL :: def_beha |
280 |
LOGICAL :: compressed = .FALSE. |
281 |
|
282 |
nb_to_ret = SIZE(ret_val) |
283 |
CALL getin_read |
284 |
|
285 |
! Get the variables and memory we need |
286 |
|
287 |
IF (max_len == 0) THEN |
288 |
ALLOCATE(found(nb_to_ret)) |
289 |
max_len = nb_to_ret |
290 |
ENDIF |
291 |
IF (max_len < nb_to_ret) THEN |
292 |
DEALLOCATE(found) |
293 |
ALLOCATE(found(nb_to_ret)) |
294 |
max_len = nb_to_ret |
295 |
ENDIF |
296 |
found(:) = .FALSE. |
297 |
|
298 |
! See what we find in the files read |
299 |
|
300 |
DO it=1, nb_to_ret |
301 |
|
302 |
! First try the target as it is |
303 |
|
304 |
full_target = MY_TARGET(1:len_TRIM(MY_TARGET)) |
305 |
CALL gensig (full_target, full_target_sig) |
306 |
CALL find_sig (nb_lines, targetlist, full_target, & |
307 |
& targetsiglist, full_target_sig, pos) |
308 |
|
309 |
! Another try |
310 |
|
311 |
IF (pos < 0) THEN |
312 |
WRITE(cnt, '(I3.3)') it |
313 |
full_target = MY_TARGET(1:len_TRIM(MY_TARGET))//'__'//cnt |
314 |
CALL gensig (full_target, full_target_sig) |
315 |
CALL find_sig (nb_lines, targetlist, full_target, & |
316 |
& targetsiglist, full_target_sig, pos) |
317 |
ENDIF |
318 |
|
319 |
! A priori we dont know from which file the target could come. |
320 |
! Thus by default we attribute it to the first file : |
321 |
|
322 |
fileorig = 1 |
323 |
|
324 |
IF (pos > 0) THEN |
325 |
|
326 |
found(it) = .TRUE. |
327 |
fileorig = fromfile(pos) |
328 |
|
329 |
! DECODE |
330 |
|
331 |
str_READ = TRIM(ADJUSTL(fichier(pos))) |
332 |
str_READ_lower = str_READ |
333 |
CALL strlowercase (str_READ_lower) |
334 |
|
335 |
IF ( ( (INDEX(str_READ_lower, 'def') == 1) & |
336 |
& .AND.(LEN_TRIM(str_READ_lower) == 3) ) & |
337 |
& .OR.( (INDEX(str_READ_lower, 'default') == 1) & |
338 |
& .AND.(LEN_TRIM(str_READ_lower) == 7) ) ) THEN |
339 |
def_beha = .TRUE. |
340 |
ELSE |
341 |
def_beha = .FALSE. |
342 |
len_str = LEN_TRIM(str_READ) |
343 |
WRITE(chlen, '(I3.3)') len_str |
344 |
fmt = '(I'//chlen//')' |
345 |
READ(str_READ, fmt) ret_val(it) |
346 |
ENDIF |
347 |
|
348 |
targetsiglist(pos) = -1 |
349 |
|
350 |
! Is this the value of a compressed field ? |
351 |
|
352 |
IF (compline(pos) > 0) THEN |
353 |
IF (compline(pos) == nb_to_ret) THEN |
354 |
compressed = .TRUE. |
355 |
compvalue = ret_val(it) |
356 |
ELSE |
357 |
WRITE(*, *) 'WARNING from getfilr' |
358 |
WRITE(*, *) 'For key ', TRIM(MY_TARGET), & |
359 |
& ' we have a compressed field but which does not have the right size.' |
360 |
WRITE(*, *) 'We will try to fix that ' |
361 |
compressed = .TRUE. |
362 |
compvalue = ret_val(it) |
363 |
ENDIF |
364 |
ENDIF |
365 |
ELSE |
366 |
found(it) = .FALSE. |
367 |
ENDIF |
368 |
ENDDO |
369 |
|
370 |
! If this is a compressed field then we will uncompress it |
371 |
|
372 |
IF (compressed) THEN |
373 |
DO it=1, nb_to_ret |
374 |
IF (.NOT. found(it)) THEN |
375 |
ret_val(it) = compvalue |
376 |
found(it) = .TRUE. |
377 |
ENDIF |
378 |
ENDDO |
379 |
ENDIF |
380 |
|
381 |
! Now we get the status for what we found |
382 |
|
383 |
IF (def_beha) THEN |
384 |
status = 2 |
385 |
WRITE(*, *) 'USING DEFAULT BEHAVIOUR FOR ', TRIM(MY_TARGET) |
386 |
ELSE |
387 |
status_cnt = 0 |
388 |
DO it=1, nb_to_ret |
389 |
IF (.NOT. found(it)) THEN |
390 |
status_cnt = status_cnt+1 |
391 |
IF (nb_to_ret > 1) THEN |
392 |
WRITE(str_tmp, '(a, "__", I3.3)') TRIM(MY_TARGET), it |
393 |
ELSE |
394 |
str_tmp = TRIM(MY_TARGET) |
395 |
ENDIF |
396 |
WRITE(*, *) 'USING DEFAULTS : ', TRIM(str_tmp), '=', ret_val(it) |
397 |
ENDIF |
398 |
ENDDO |
399 |
|
400 |
IF (status_cnt == 0) THEN |
401 |
status = 1 |
402 |
ELSE IF (status_cnt == nb_to_ret) THEN |
403 |
status = 2 |
404 |
ELSE |
405 |
status = 3 |
406 |
ENDIF |
407 |
ENDIF |
408 |
|
409 |
END SUBROUTINE getfili |
410 |
|
411 |
!**************************** |
412 |
|
413 |
SUBROUTINE getfilc(MY_TARGET, status, fileorig, ret_val) |
414 |
|
415 |
! Subroutine that will extract from the file the values |
416 |
! attributed to the keyword MY_TARGET |
417 |
|
418 |
! CHARACTER |
419 |
! --------- |
420 |
|
421 |
! MY_TARGET : in : CHARACTER(LEN=*) target for which we will |
422 |
! look in the file |
423 |
! status : out : INTEGER tells us from where we obtained the data |
424 |
! fileorig : out : The index of the file from which the key comes |
425 |
! ret_val : out : CHARACTER(nb_to_ret) values read |
426 |
|
427 |
|
428 |
use strlowercase_m, only: strlowercase |
429 |
|
430 |
CHARACTER(LEN=*) :: MY_TARGET |
431 |
INTEGER :: status, fileorig |
432 |
CHARACTER(LEN=*), DIMENSION(:) :: ret_val |
433 |
|
434 |
INTEGER :: nb_to_ret |
435 |
INTEGER :: it, pos, len_str, status_cnt |
436 |
CHARACTER(LEN=3) :: cnt |
437 |
CHARACTER(LEN=30) :: full_target |
438 |
CHARACTER(LEN=80) :: str_READ, str_READ_lower, str_tmp |
439 |
INTEGER :: full_target_sig |
440 |
|
441 |
INTEGER, SAVE :: max_len = 0 |
442 |
LOGICAL, DIMENSION(:), SAVE, ALLOCATABLE :: found |
443 |
LOGICAL :: def_beha |
444 |
|
445 |
nb_to_ret = SIZE(ret_val) |
446 |
CALL getin_read |
447 |
|
448 |
! Get the variables and memory we need |
449 |
|
450 |
IF (max_len == 0) THEN |
451 |
ALLOCATE(found(nb_to_ret)) |
452 |
max_len = nb_to_ret |
453 |
ENDIF |
454 |
IF (max_len < nb_to_ret) THEN |
455 |
DEALLOCATE(found) |
456 |
ALLOCATE(found(nb_to_ret)) |
457 |
max_len = nb_to_ret |
458 |
ENDIF |
459 |
found(:) = .FALSE. |
460 |
|
461 |
! See what we find in the files read |
462 |
|
463 |
DO it=1, nb_to_ret |
464 |
|
465 |
! First try the target as it is |
466 |
full_target = MY_TARGET(1:len_TRIM(MY_TARGET)) |
467 |
CALL gensig (full_target, full_target_sig) |
468 |
CALL find_sig (nb_lines, targetlist, full_target, & |
469 |
& targetsiglist, full_target_sig, pos) |
470 |
|
471 |
! Another try |
472 |
|
473 |
IF (pos < 0) THEN |
474 |
WRITE(cnt, '(I3.3)') it |
475 |
full_target = MY_TARGET(1:len_TRIM(MY_TARGET))//'__'//cnt |
476 |
CALL gensig (full_target, full_target_sig) |
477 |
CALL find_sig (nb_lines, targetlist, full_target, & |
478 |
& targetsiglist, full_target_sig, pos) |
479 |
ENDIF |
480 |
|
481 |
! A priori we dont know from which file the target could come. |
482 |
! Thus by default we attribute it to the first file : |
483 |
|
484 |
fileorig = 1 |
485 |
|
486 |
IF (pos > 0) THEN |
487 |
|
488 |
found(it) = .TRUE. |
489 |
fileorig = fromfile(pos) |
490 |
|
491 |
! DECODE |
492 |
|
493 |
str_READ = TRIM(ADJUSTL(fichier(pos))) |
494 |
str_READ_lower = str_READ |
495 |
CALL strlowercase (str_READ_lower) |
496 |
|
497 |
IF ( ( (INDEX(str_READ_lower, 'def') == 1) & |
498 |
& .AND.(LEN_TRIM(str_READ_lower) == 3) ) & |
499 |
& .OR.( (INDEX(str_READ_lower, 'default') == 1) & |
500 |
& .AND.(LEN_TRIM(str_READ_lower) == 7) ) ) THEN |
501 |
def_beha = .TRUE. |
502 |
ELSE |
503 |
def_beha = .FALSE. |
504 |
len_str = LEN_TRIM(str_READ) |
505 |
ret_val(it) = str_READ(1:len_str) |
506 |
ENDIF |
507 |
|
508 |
targetsiglist(pos) = -1 |
509 |
|
510 |
ELSE |
511 |
found(it) = .FALSE. |
512 |
ENDIF |
513 |
ENDDO |
514 |
|
515 |
! Now we get the status for what we found |
516 |
|
517 |
IF (def_beha) THEN |
518 |
status = 2 |
519 |
WRITE(*, *) 'USING DEFAULT BEHAVIOUR FOR ', TRIM(MY_TARGET) |
520 |
ELSE |
521 |
status_cnt = 0 |
522 |
DO it=1, nb_to_ret |
523 |
IF (.NOT. found(it)) THEN |
524 |
status_cnt = status_cnt+1 |
525 |
IF (nb_to_ret > 1) THEN |
526 |
WRITE(str_tmp, '(a, "__", I3.3)') TRIM(MY_TARGET), it |
527 |
ELSE |
528 |
str_tmp = MY_TARGET(1:len_TRIM(MY_TARGET)) |
529 |
ENDIF |
530 |
WRITE(*, *) 'USING DEFAULTS : ', TRIM(str_tmp), '=', ret_val(it) |
531 |
ENDIF |
532 |
ENDDO |
533 |
|
534 |
IF (status_cnt == 0) THEN |
535 |
status = 1 |
536 |
ELSE IF (status_cnt == nb_to_ret) THEN |
537 |
status = 2 |
538 |
ELSE |
539 |
status = 3 |
540 |
ENDIF |
541 |
ENDIF |
542 |
|
543 |
END SUBROUTINE getfilc |
544 |
|
545 |
!**************************** |
546 |
|
547 |
SUBROUTINE getfill(MY_TARGET, status, fileorig, ret_val) |
548 |
|
549 |
! Subroutine that will extract from the file the values |
550 |
! attributed to the keyword MY_TARGET |
551 |
|
552 |
! LOGICAL |
553 |
! ------- |
554 |
|
555 |
! MY_TARGET : in : CHARACTER(LEN=*) target for which we will |
556 |
! look in the file |
557 |
! status : out : INTEGER tells us from where we obtained the data |
558 |
! fileorig : out : The index of the file from which the key comes |
559 |
! ret_val : out : LOGICAL(nb_to_ret) values read |
560 |
|
561 |
|
562 |
use strlowercase_m, only: strlowercase |
563 |
|
564 |
CHARACTER(LEN=*) :: MY_TARGET |
565 |
INTEGER :: status, fileorig |
566 |
LOGICAL, DIMENSION(:) :: ret_val |
567 |
|
568 |
INTEGER :: nb_to_ret |
569 |
INTEGER :: it, pos, len_str, ipos_tr, ipos_fl, status_cnt |
570 |
CHARACTER(LEN=3) :: cnt |
571 |
CHARACTER(LEN=30) :: full_target |
572 |
CHARACTER(LEN=80) :: str_READ, str_READ_lower, str_tmp |
573 |
INTEGER :: full_target_sig |
574 |
|
575 |
INTEGER, SAVE :: max_len = 0 |
576 |
LOGICAL, DIMENSION(:), SAVE, ALLOCATABLE :: found |
577 |
LOGICAL :: def_beha |
578 |
|
579 |
nb_to_ret = SIZE(ret_val) |
580 |
CALL getin_read |
581 |
|
582 |
! Get the variables and memory we need |
583 |
|
584 |
IF (max_len == 0) THEN |
585 |
ALLOCATE(found(nb_to_ret)) |
586 |
max_len = nb_to_ret |
587 |
ENDIF |
588 |
IF (max_len < nb_to_ret) THEN |
589 |
DEALLOCATE(found) |
590 |
ALLOCATE(found(nb_to_ret)) |
591 |
max_len = nb_to_ret |
592 |
ENDIF |
593 |
found(:) = .FALSE. |
594 |
|
595 |
! See what we find in the files read |
596 |
|
597 |
DO it=1, nb_to_ret |
598 |
|
599 |
! First try the target as it is |
600 |
|
601 |
full_target = MY_TARGET(1:len_TRIM(MY_TARGET)) |
602 |
CALL gensig (full_target, full_target_sig) |
603 |
CALL find_sig (nb_lines, targetlist, full_target, & |
604 |
& targetsiglist, full_target_sig, pos) |
605 |
|
606 |
! Another try |
607 |
|
608 |
IF (pos < 0) THEN |
609 |
WRITE(cnt, '(I3.3)') it |
610 |
full_target = MY_TARGET(1:len_TRIM(MY_TARGET))//'__'//cnt |
611 |
CALL gensig (full_target, full_target_sig) |
612 |
CALL find_sig (nb_lines, targetlist, full_target, & |
613 |
& targetsiglist, full_target_sig, pos) |
614 |
ENDIF |
615 |
|
616 |
! A priori we dont know from which file the target could come. |
617 |
! Thus by default we attribute it to the first file : |
618 |
|
619 |
fileorig = 1 |
620 |
|
621 |
IF (pos > 0) THEN |
622 |
|
623 |
found(it) = .TRUE. |
624 |
fileorig = fromfile(pos) |
625 |
|
626 |
! DECODE |
627 |
|
628 |
str_READ = TRIM(ADJUSTL(fichier(pos))) |
629 |
str_READ_lower = str_READ |
630 |
CALL strlowercase (str_READ_lower) |
631 |
|
632 |
IF ( ( (INDEX(str_READ_lower, 'def') == 1) & |
633 |
& .AND.(LEN_TRIM(str_READ_lower) == 3) ) & |
634 |
& .OR.( (INDEX(str_READ_lower, 'default') == 1) & |
635 |
& .AND.(LEN_TRIM(str_READ_lower) == 7) ) ) THEN |
636 |
def_beha = .TRUE. |
637 |
ELSE |
638 |
def_beha = .FALSE. |
639 |
len_str = LEN_TRIM(str_READ) |
640 |
ipos_tr = -1 |
641 |
ipos_fl = -1 |
642 |
|
643 |
ipos_tr = MAX(INDEX(str_READ, 'tru'), INDEX(str_READ, 'TRU'), & |
644 |
& INDEX(str_READ, 'y'), INDEX(str_READ, 'Y')) |
645 |
ipos_fl = MAX(INDEX(str_READ, 'fal'), INDEX(str_READ, 'FAL'), & |
646 |
& INDEX(str_READ, 'n'), INDEX(str_READ, 'N')) |
647 |
|
648 |
IF (ipos_tr > 0) THEN |
649 |
ret_val(it) = .TRUE. |
650 |
ELSE IF (ipos_fl > 0) THEN |
651 |
ret_val(it) = .FALSE. |
652 |
ELSE |
653 |
WRITE(*, *) "ERROR : getfill : MY_TARGET ", & |
654 |
& TRIM(MY_TARGET), " is not of logical value" |
655 |
STOP 'getinl' |
656 |
ENDIF |
657 |
ENDIF |
658 |
|
659 |
targetsiglist(pos) = -1 |
660 |
|
661 |
ELSE |
662 |
|
663 |
found(it) = .FALSE. |
664 |
|
665 |
ENDIF |
666 |
|
667 |
ENDDO |
668 |
|
669 |
! Now we get the status for what we found |
670 |
|
671 |
IF (def_beha) THEN |
672 |
status = 2 |
673 |
WRITE(*, *) 'USING DEFAULT BEHAVIOUR FOR ', TRIM(MY_TARGET) |
674 |
ELSE |
675 |
status_cnt = 0 |
676 |
DO it=1, nb_to_ret |
677 |
IF (.NOT. found(it)) THEN |
678 |
status_cnt = status_cnt+1 |
679 |
IF (nb_to_ret > 1) THEN |
680 |
WRITE(str_tmp, '(a, "__", I3.3)') TRIM(MY_TARGET), it |
681 |
ELSE |
682 |
str_tmp = TRIM(MY_TARGET) |
683 |
ENDIF |
684 |
WRITE(*, *) 'USING DEFAULTS : ', TRIM(str_tmp), '=', ret_val(it) |
685 |
ENDIF |
686 |
ENDDO |
687 |
|
688 |
IF (status_cnt == 0) THEN |
689 |
status = 1 |
690 |
ELSE IF (status_cnt == nb_to_ret) THEN |
691 |
status = 2 |
692 |
ELSE |
693 |
status = 3 |
694 |
ENDIF |
695 |
ENDIF |
696 |
|
697 |
END SUBROUTINE getfill |
698 |
|
699 |
!**************************** |
700 |
|
701 |
SUBROUTINE getin_read |
702 |
|
703 |
|
704 |
INTEGER, SAVE :: allread=0 |
705 |
INTEGER, SAVE :: current |
706 |
|
707 |
IF (allread == 0) THEN |
708 |
! Allocate a first set of memory. |
709 |
CALL getin_allockeys |
710 |
CALL getin_allocmem (1, 0) |
711 |
CALL getin_allocmem (2, 0) |
712 |
CALL getin_allocmem (3, 0) |
713 |
CALL getin_allocmem (4, 0) |
714 |
! Start with reading the files |
715 |
nbfiles = 1 |
716 |
filelist(1) = 'run.def' |
717 |
current = 1 |
718 |
nb_lines = 0 |
719 |
|
720 |
DO WHILE (current <= nbfiles) |
721 |
CALL getin_readdef (current) |
722 |
current = current+1 |
723 |
ENDDO |
724 |
allread = 1 |
725 |
CALL getin_checkcohe () |
726 |
ENDIF |
727 |
|
728 |
END SUBROUTINE getin_read |
729 |
|
730 |
!**************************** |
731 |
|
732 |
SUBROUTINE getin_readdef(current) |
733 |
|
734 |
! This subroutine will read the files and only keep the |
735 |
! the relevant information. The information is kept as it |
736 |
! found in the file. The data will be analysed later. |
737 |
|
738 |
USE nocomma_m, ONLY : nocomma |
739 |
use cmpblank_m, only: cmpblank |
740 |
|
741 |
INTEGER :: current |
742 |
|
743 |
CHARACTER(LEN=100) :: READ_str, NEW_str, new_key, last_key, key_str |
744 |
CHARACTER(LEN=3) :: cnt |
745 |
INTEGER :: nb_lastkey |
746 |
|
747 |
INTEGER :: eof, ptn, len_str, i, it, iund |
748 |
LOGICAL :: check = .FALSE. |
749 |
|
750 |
|
751 |
|
752 |
eof = 0 |
753 |
ptn = 1 |
754 |
nb_lastkey = 0 |
755 |
|
756 |
IF (check) THEN |
757 |
WRITE(*, *) 'getin_readdef : Open file ', TRIM(filelist(current)) |
758 |
ENDIF |
759 |
|
760 |
OPEN (22, file=filelist(current), ERR=9997, STATUS="OLD") |
761 |
|
762 |
DO WHILE (eof /= 1) |
763 |
|
764 |
CALL getin_skipafew (22, READ_str, eof, nb_lastkey) |
765 |
len_str = LEN_TRIM(READ_str) |
766 |
ptn = INDEX(READ_str, '=') |
767 |
|
768 |
IF (ptn > 0) THEN |
769 |
! Get the target |
770 |
key_str = TRIM(ADJUSTL(READ_str(1:ptn-1))) |
771 |
! Make sure that if a vector keyword has the right length |
772 |
iund = INDEX(key_str, '__') |
773 |
IF (iund > 0) THEN |
774 |
SELECT CASE( len_trim(key_str)-iund ) |
775 |
CASE(2) |
776 |
READ(key_str(iund+2:len_trim(key_str)), '(I1)') it |
777 |
CASE(3) |
778 |
READ(key_str(iund+2:len_trim(key_str)), '(I2)') it |
779 |
CASE(4) |
780 |
READ(key_str(iund+2:len_trim(key_str)), '(I3)') it |
781 |
CASE DEFAULT |
782 |
it = -1 |
783 |
END SELECT |
784 |
IF (it > 0) THEN |
785 |
WRITE(cnt, '(I3.3)') it |
786 |
key_str = key_str(1:iund+1)//cnt |
787 |
ELSE |
788 |
WRITE(*, *) & |
789 |
& 'getin_readdef : A very strange key has just been found' |
790 |
WRITE(*, *) 'getin_readdef : ', key_str(1:len_TRIM(key_str)) |
791 |
STOP 'getin_readdef' |
792 |
ENDIF |
793 |
ENDIF |
794 |
! Prepare the content |
795 |
NEW_str = TRIM(ADJUSTL(READ_str(ptn+1:len_str))) |
796 |
CALL nocomma (NEW_str) |
797 |
CALL cmpblank (NEW_str) |
798 |
NEW_str = TRIM(ADJUSTL(NEW_str)) |
799 |
IF (check) THEN |
800 |
WRITE(*, *) & |
801 |
& '--> getin_readdef : ', TRIM(key_str), ' :: ', TRIM(NEW_str) |
802 |
ENDIF |
803 |
! Decypher the content of NEW_str |
804 |
|
805 |
! This has to be a new key word, thus : |
806 |
nb_lastkey = 0 |
807 |
|
808 |
CALL getin_decrypt (current, key_str, NEW_str, last_key, nb_lastkey) |
809 |
|
810 |
ELSE IF (len_str > 0) THEN |
811 |
! Prepare the key if we have an old one to which |
812 |
! we will add the line just read |
813 |
IF (nb_lastkey > 0) THEN |
814 |
iund = INDEX(last_key, '__') |
815 |
IF (iund > 0) THEN |
816 |
! We only continue a keyword, thus it is easy |
817 |
key_str = last_key(1:iund-1) |
818 |
ELSE |
819 |
IF (nb_lastkey /= 1) THEN |
820 |
WRITE(*, *) & |
821 |
& 'getin_readdef : An error has occured. We can not have a scalar' |
822 |
WRITE(*, *) 'getin_readdef : keywod and a vector content' |
823 |
STOP 'getin_readdef' |
824 |
ENDIF |
825 |
! The last keyword needs to be transformed into a vector. |
826 |
targetlist(nb_lines) = & |
827 |
& last_key(1:MIN(len_trim(last_key), 30))//'__001' |
828 |
CALL gensig (targetlist(nb_lines), targetsiglist(nb_lines)) |
829 |
key_str = last_key(1:len_TRIM(last_key)) |
830 |
ENDIF |
831 |
ENDIF |
832 |
! Prepare the content |
833 |
NEW_str = TRIM(ADJUSTL(READ_str(1:len_str))) |
834 |
CALL getin_decrypt (current, key_str, NEW_str, last_key, nb_lastkey) |
835 |
ELSE |
836 |
! If we have an empty line the the keyword finishes |
837 |
nb_lastkey = 0 |
838 |
IF (check) THEN |
839 |
WRITE(*, *) 'getin_readdef : Have found an emtpy line ' |
840 |
ENDIF |
841 |
ENDIF |
842 |
ENDDO |
843 |
|
844 |
CLOSE(22) |
845 |
|
846 |
IF (check) THEN |
847 |
OPEN (22, file='run.def.test') |
848 |
DO i=1, nb_lines |
849 |
WRITE(22, *) targetlist(i), " : ", fichier(i) |
850 |
ENDDO |
851 |
CLOSE(22) |
852 |
ENDIF |
853 |
|
854 |
RETURN |
855 |
|
856 |
9997 WRITE(*, *) "getin_readdef : Could not open file ", & |
857 |
& TRIM(filelist(current)) |
858 |
|
859 |
END SUBROUTINE getin_readdef |
860 |
|
861 |
!**************************** |
862 |
|
863 |
SUBROUTINE getin_decrypt(current, key_str, NEW_str, last_key, nb_lastkey) |
864 |
|
865 |
! This subroutine is going to decypher the line. |
866 |
! It essentialy checks how many items are included and |
867 |
! it they can be attached to a key. |
868 |
|
869 |
|
870 |
! ARGUMENTS |
871 |
|
872 |
INTEGER :: current, nb_lastkey |
873 |
CHARACTER(LEN=*) :: key_str, NEW_str, last_key |
874 |
|
875 |
! LOCAL |
876 |
|
877 |
INTEGER :: len_str, blk, nbve, starpos |
878 |
CHARACTER(LEN=100) :: tmp_str, new_key, mult |
879 |
CHARACTER(LEN=3) :: cnt, chlen |
880 |
CHARACTER(LEN=10) :: fmt |
881 |
|
882 |
len_str = LEN_TRIM(NEW_str) |
883 |
blk = INDEX(NEW_str(1:len_str), ' ') |
884 |
tmp_str = NEW_str(1:len_str) |
885 |
|
886 |
! If the key is a new file then we take it up. Else |
887 |
! we save the line and go on. |
888 |
|
889 |
IF (INDEX(key_str, 'INCLUDEDEF') > 0) THEN |
890 |
DO WHILE (blk > 0) |
891 |
IF (nbfiles+1 > max_files) THEN |
892 |
WRITE(*, *) 'FATAL ERROR : Too many files to include' |
893 |
STOP 'getin_readdef' |
894 |
ENDIF |
895 |
|
896 |
nbfiles = nbfiles+1 |
897 |
filelist(nbfiles) = tmp_str(1:blk) |
898 |
|
899 |
tmp_str = TRIM(ADJUSTL(tmp_str(blk+1:LEN_TRIM(tmp_str)))) |
900 |
blk = INDEX(tmp_str(1:LEN_TRIM(tmp_str)), ' ') |
901 |
ENDDO |
902 |
|
903 |
IF (nbfiles+1 > max_files) THEN |
904 |
WRITE(*, *) 'FATAL ERROR : Too many files to include' |
905 |
STOP 'getin_readdef' |
906 |
ENDIF |
907 |
|
908 |
nbfiles = nbfiles+1 |
909 |
filelist(nbfiles) = TRIM(ADJUSTL(tmp_str)) |
910 |
|
911 |
last_key = 'INCLUDEDEF' |
912 |
nb_lastkey = 1 |
913 |
ELSE |
914 |
|
915 |
! We are working on a new line of input |
916 |
|
917 |
nb_lines = nb_lines+1 |
918 |
IF (nb_lines > max_lines) THEN |
919 |
WRITE(*, *) & |
920 |
& 'Too many line in the run.def files. You need to increase' |
921 |
WRITE(*, *) 'the parameter max_lines in the module getincom.' |
922 |
STOP 'getin_decrypt' |
923 |
ENDIF |
924 |
|
925 |
! First we solve the issue of conpressed information. Once |
926 |
! this is done all line can be handled in the same way. |
927 |
|
928 |
starpos = INDEX(NEW_str(1:len_str), '*') |
929 |
IF ( (starpos > 0).AND.(tmp_str(1:1) /= '"') & |
930 |
& .AND.(tmp_str(1:1) /= "'") ) THEN |
931 |
|
932 |
IF (INDEX(key_str(1:len_TRIM(key_str)), '__') > 0) THEN |
933 |
WRITE(*, *) 'ERROR : getin_decrypt' |
934 |
WRITE(*, *) & |
935 |
& 'We can not have a compressed field of values for in a' |
936 |
WRITE(*, *) & |
937 |
& 'vector notation. If a target is of the type TARGET__1' |
938 |
WRITE(*, *) 'then only a scalar value is allowed' |
939 |
WRITE(*, *) 'The key at fault : ', key_str(1:len_TRIM(key_str)) |
940 |
STOP 'getin_decrypt' |
941 |
ENDIF |
942 |
|
943 |
! Read the multiplied |
944 |
|
945 |
mult = TRIM(ADJUSTL(NEW_str(1:starpos-1))) |
946 |
! Construct the new string and its parameters |
947 |
NEW_str = TRIM(ADJUSTL(NEW_str(starpos+1:len_str))) |
948 |
len_str = LEN_TRIM(NEW_str) |
949 |
blk = INDEX(NEW_str(1:len_str), ' ') |
950 |
IF (blk > 1) THEN |
951 |
WRITE(*, *) & |
952 |
& 'This is a strange behavior of getin_decrypt you could report' |
953 |
ENDIF |
954 |
WRITE(chlen, '(I3.3)') LEN_TRIM(mult) |
955 |
fmt = '(I'//chlen//')' |
956 |
READ(mult, fmt) compline(nb_lines) |
957 |
|
958 |
ELSE |
959 |
compline(nb_lines) = -1 |
960 |
ENDIF |
961 |
|
962 |
! If there is no space wthin the line then the target is a scalar |
963 |
! or the element of a properly written vector. |
964 |
! (ie of the type TARGET__1) |
965 |
|
966 |
IF ( (blk <= 1) & |
967 |
& .OR.(tmp_str(1:1) == '"') & |
968 |
& .OR.(tmp_str(1:1) == "'") ) THEN |
969 |
|
970 |
IF (nb_lastkey == 0) THEN |
971 |
! Save info of current keyword as a scalar |
972 |
! if it is not a continuation |
973 |
targetlist(nb_lines) = key_str(1:MIN(len_trim(key_str), 30)) |
974 |
last_key = key_str(1:MIN(len_trim(key_str), 30)) |
975 |
nb_lastkey = 1 |
976 |
ELSE |
977 |
! We are continuing a vector so the keyword needs |
978 |
! to get the underscores |
979 |
WRITE(cnt, '(I3.3)') nb_lastkey+1 |
980 |
targetlist(nb_lines) = & |
981 |
& key_str(1:MIN(len_trim(key_str), 25))//'__'//cnt |
982 |
last_key = key_str(1:MIN(len_trim(key_str), 25))//'__'//cnt |
983 |
nb_lastkey = nb_lastkey+1 |
984 |
ENDIF |
985 |
|
986 |
CALL gensig (targetlist(nb_lines), targetsiglist(nb_lines)) |
987 |
fichier(nb_lines) = NEW_str(1:len_str) |
988 |
fromfile(nb_lines) = current |
989 |
ELSE |
990 |
|
991 |
! If there are blanks whithin the line then we are dealing |
992 |
! with a vector and we need to split it in many entries |
993 |
! with the TRAGET__1 notation. |
994 |
|
995 |
! Test if the targer is not already a vector target ! |
996 |
|
997 |
IF (INDEX(TRIM(key_str), '__') > 0) THEN |
998 |
WRITE(*, *) 'ERROR : getin_decrypt' |
999 |
WRITE(*, *) 'We have found a mixed vector notation' |
1000 |
WRITE(*, *) 'If a target is of the type TARGET__1' |
1001 |
WRITE(*, *) 'then only a scalar value is allowed' |
1002 |
WRITE(*, *) 'The key at fault : ', key_str(1:len_TRIM(key_str)) |
1003 |
STOP 'getin_decrypt' |
1004 |
ENDIF |
1005 |
|
1006 |
nbve = nb_lastkey |
1007 |
nbve = nbve+1 |
1008 |
WRITE(cnt, '(I3.3)') nbve |
1009 |
|
1010 |
DO WHILE (blk > 0) |
1011 |
|
1012 |
! Save the content of target__nbve |
1013 |
|
1014 |
fichier(nb_lines) = tmp_str(1:blk) |
1015 |
new_key = key_str(1:MIN(len_trim(key_str), 25))//'__'//cnt |
1016 |
targetlist(nb_lines) = new_key(1:MIN(len_trim(new_key), 30)) |
1017 |
CALL gensig (targetlist(nb_lines), targetsiglist(nb_lines)) |
1018 |
fromfile(nb_lines) = current |
1019 |
|
1020 |
tmp_str = TRIM(ADJUSTL(tmp_str(blk+1:LEN_TRIM(tmp_str)))) |
1021 |
blk = INDEX(TRIM(tmp_str), ' ') |
1022 |
|
1023 |
nb_lines = nb_lines+1 |
1024 |
IF (nb_lines > max_lines) THEN |
1025 |
WRITE(*, *) & |
1026 |
& 'Too many line in the run.def files. You need to increase' |
1027 |
WRITE(*, *) 'the parameter max_lines in the module getincom.' |
1028 |
STOP 'getin_decrypt' |
1029 |
ENDIF |
1030 |
nbve = nbve+1 |
1031 |
WRITE(cnt, '(I3.3)') nbve |
1032 |
|
1033 |
ENDDO |
1034 |
|
1035 |
! Save the content of the last target |
1036 |
|
1037 |
fichier(nb_lines) = tmp_str(1:LEN_TRIM(tmp_str)) |
1038 |
new_key = key_str(1:MIN(len_trim(key_str), 25))//'__'//cnt |
1039 |
targetlist(nb_lines) = new_key(1:MIN(len_trim(new_key), 30)) |
1040 |
CALL gensig (targetlist(nb_lines), targetsiglist(nb_lines)) |
1041 |
fromfile(nb_lines) = current |
1042 |
|
1043 |
last_key = key_str(1:MIN(len_trim(key_str), 25))//'__'//cnt |
1044 |
nb_lastkey = nbve |
1045 |
|
1046 |
ENDIF |
1047 |
|
1048 |
ENDIF |
1049 |
|
1050 |
END SUBROUTINE getin_decrypt |
1051 |
|
1052 |
!**************************** |
1053 |
|
1054 |
SUBROUTINE getin_checkcohe () |
1055 |
|
1056 |
! This subroutine checks for redundancies. |
1057 |
|
1058 |
|
1059 |
! Arguments |
1060 |
|
1061 |
|
1062 |
! LOCAL |
1063 |
|
1064 |
INTEGER :: line, i, sig |
1065 |
INTEGER :: found |
1066 |
CHARACTER(LEN=30) :: str |
1067 |
|
1068 |
DO line=1, nb_lines-1 |
1069 |
|
1070 |
CALL find_sig & |
1071 |
& (nb_lines-line, targetlist(line+1:nb_lines), targetlist(line), & |
1072 |
& targetsiglist(line+1:nb_lines), targetsiglist(line), found) |
1073 |
|
1074 |
! IF we have found it we have a problem to solve. |
1075 |
|
1076 |
IF (found > 0) THEN |
1077 |
WRITE(*, *) 'COUNT : ', & |
1078 |
& COUNT(ABS(targetsiglist(line+1:nb_lines)-targetsiglist(line)) < 1) |
1079 |
|
1080 |
WRITE(*, *) & |
1081 |
& 'getin_checkcohe : Found a problem on key ', targetlist(line) |
1082 |
WRITE(*, *) & |
1083 |
& 'getin_checkcohe : The following values were encoutered :' |
1084 |
WRITE(*, *) & |
1085 |
& ' ', TRIM(targetlist(line)), & |
1086 |
& targetsiglist(line), ' == ', fichier(line) |
1087 |
WRITE(*, *) & |
1088 |
& ' ', TRIM(targetlist(line+found)), & |
1089 |
& targetsiglist(line+found), ' == ', fichier(line+found) |
1090 |
WRITE(*, *) & |
1091 |
& 'getin_checkcohe : We will keep only the last value' |
1092 |
|
1093 |
targetsiglist(line) = 1 |
1094 |
ENDIF |
1095 |
ENDDO |
1096 |
|
1097 |
END SUBROUTINE getin_checkcohe |
1098 |
|
1099 |
!**************************** |
1100 |
|
1101 |
SUBROUTINE getin_skipafew (unit, out_string, eof, nb_lastkey) |
1102 |
|
1103 |
|
1104 |
INTEGER :: unit, eof, nb_lastkey |
1105 |
CHARACTER(LEN=100) :: dummy |
1106 |
CHARACTER(LEN=100) :: out_string |
1107 |
CHARACTER(LEN=1) :: first |
1108 |
|
1109 |
first="#" |
1110 |
eof = 0 |
1111 |
out_string = " " |
1112 |
|
1113 |
DO WHILE (first == "#") |
1114 |
READ (unit, '(a100)', ERR=9998, END=7778) dummy |
1115 |
dummy = TRIM(ADJUSTL(dummy)) |
1116 |
first=dummy(1:1) |
1117 |
IF (first == "#") THEN |
1118 |
nb_lastkey = 0 |
1119 |
ENDIF |
1120 |
ENDDO |
1121 |
out_string=dummy |
1122 |
|
1123 |
RETURN |
1124 |
|
1125 |
9998 WRITE(*, *) " GETIN_SKIPAFEW : Error while reading file " |
1126 |
STOP 'getin_skipafew' |
1127 |
|
1128 |
7778 eof = 1 |
1129 |
|
1130 |
END SUBROUTINE getin_skipafew |
1131 |
|
1132 |
!=== INTEGER database INTERFACE |
1133 |
|
1134 |
SUBROUTINE getdbwi & |
1135 |
& (MY_TARGET, target_sig, status, fileorig, size_of_in, tmp_ret_val) |
1136 |
|
1137 |
! Write the INTEGER data into the data base |
1138 |
|
1139 |
|
1140 |
CHARACTER(LEN=*) :: MY_TARGET |
1141 |
INTEGER :: target_sig, status, fileorig, size_of_in |
1142 |
INTEGER, DIMENSION(:) :: tmp_ret_val |
1143 |
|
1144 |
|
1145 |
! First check if we have sufficiant space for the new key |
1146 |
|
1147 |
IF (nb_keys+1 > keymemsize) THEN |
1148 |
CALL getin_allockeys () |
1149 |
ENDIF |
1150 |
|
1151 |
! Fill out the items of the data base |
1152 |
|
1153 |
nb_keys = nb_keys+1 |
1154 |
keysig(nb_keys) = target_sig |
1155 |
keystr(nb_keys) = MY_TARGET(1:MIN(len_trim(MY_TARGET), 30)) |
1156 |
keystatus(nb_keys) = status |
1157 |
keytype(nb_keys) = 1 |
1158 |
keyfromfile(nb_keys) = fileorig |
1159 |
|
1160 |
! Can we compress the data base entry ? |
1161 |
|
1162 |
IF ( (MINVAL(tmp_ret_val) == MAXVAL(tmp_ret_val)) & |
1163 |
& .AND.(size_of_in > compress_lim)) THEN |
1164 |
keymemstart(nb_keys) = intmempos+1 |
1165 |
keycompress(nb_keys) = size_of_in |
1166 |
keymemlen(nb_keys) = 1 |
1167 |
ELSE |
1168 |
keymemstart(nb_keys) = intmempos+1 |
1169 |
keycompress(nb_keys) = -1 |
1170 |
keymemlen(nb_keys) = size_of_in |
1171 |
ENDIF |
1172 |
|
1173 |
! Before writing the actual size lets see if we have the space |
1174 |
|
1175 |
IF (keymemstart(nb_keys)+keymemlen(nb_keys) > intmemsize) THEN |
1176 |
CALL getin_allocmem (1, keymemlen(nb_keys)) |
1177 |
ENDIF |
1178 |
|
1179 |
intmem(keymemstart(nb_keys): & |
1180 |
& keymemstart(nb_keys)+keymemlen(nb_keys)-1) = & |
1181 |
& tmp_ret_val(1:keymemlen(nb_keys)) |
1182 |
intmempos = keymemstart(nb_keys)+keymemlen(nb_keys)-1 |
1183 |
|
1184 |
END SUBROUTINE getdbwi |
1185 |
|
1186 |
!**************************** |
1187 |
|
1188 |
SUBROUTINE getdbri (pos, size_of_in, MY_TARGET, tmp_ret_val) |
1189 |
|
1190 |
! Read the required variables in the database for INTEGERS |
1191 |
|
1192 |
|
1193 |
INTEGER :: pos, size_of_in |
1194 |
CHARACTER(LEN=*) :: MY_TARGET |
1195 |
INTEGER, DIMENSION(:) :: tmp_ret_val |
1196 |
|
1197 |
IF (keytype(pos) /= 1) THEN |
1198 |
WRITE(*, *) 'FATAL ERROR : Wrong data type for keyword ', MY_TARGET |
1199 |
STOP 'getdbri' |
1200 |
ENDIF |
1201 |
|
1202 |
IF (keycompress(pos) > 0) THEN |
1203 |
IF ( keycompress(pos) /= size_of_in .OR. keymemlen(pos) /= 1 ) THEN |
1204 |
WRITE(*, *) & |
1205 |
& 'FATAL ERROR : Wrong compression length for keyword ', MY_TARGET |
1206 |
STOP 'getdbri' |
1207 |
ELSE |
1208 |
tmp_ret_val(1:size_of_in) = intmem(keymemstart(pos)) |
1209 |
ENDIF |
1210 |
ELSE |
1211 |
IF (keymemlen(pos) /= size_of_in) THEN |
1212 |
WRITE(*, *) 'FATAL ERROR : Wrong array length for keyword ', MY_TARGET |
1213 |
STOP 'getdbri' |
1214 |
ELSE |
1215 |
tmp_ret_val(1:size_of_in) = & |
1216 |
& intmem(keymemstart(pos):keymemstart(pos)+keymemlen(pos)-1) |
1217 |
ENDIF |
1218 |
ENDIF |
1219 |
|
1220 |
END SUBROUTINE getdbri |
1221 |
|
1222 |
!=== REAL database INTERFACE |
1223 |
|
1224 |
SUBROUTINE getdbwr & |
1225 |
& (MY_TARGET, target_sig, status, fileorig, size_of_in, tmp_ret_val) |
1226 |
|
1227 |
! Write the REAL data into the data base |
1228 |
|
1229 |
|
1230 |
CHARACTER(LEN=*) :: MY_TARGET |
1231 |
INTEGER :: target_sig, status, fileorig, size_of_in |
1232 |
REAL, DIMENSION(:) :: tmp_ret_val |
1233 |
|
1234 |
|
1235 |
! First check if we have sufficiant space for the new key |
1236 |
|
1237 |
IF (nb_keys+1 > keymemsize) THEN |
1238 |
CALL getin_allockeys () |
1239 |
ENDIF |
1240 |
|
1241 |
! Fill out the items of the data base |
1242 |
|
1243 |
nb_keys = nb_keys+1 |
1244 |
keysig(nb_keys) = target_sig |
1245 |
keystr(nb_keys) = MY_TARGET(1:MIN(len_trim(MY_TARGET), 30)) |
1246 |
keystatus(nb_keys) = status |
1247 |
keytype(nb_keys) = 2 |
1248 |
keyfromfile(nb_keys) = fileorig |
1249 |
|
1250 |
! Can we compress the data base entry ? |
1251 |
|
1252 |
IF ( (MINVAL(tmp_ret_val) == MAXVAL(tmp_ret_val)) & |
1253 |
& .AND.(size_of_in > compress_lim)) THEN |
1254 |
keymemstart(nb_keys) = realmempos+1 |
1255 |
keycompress(nb_keys) = size_of_in |
1256 |
keymemlen(nb_keys) = 1 |
1257 |
ELSE |
1258 |
keymemstart(nb_keys) = realmempos+1 |
1259 |
keycompress(nb_keys) = -1 |
1260 |
keymemlen(nb_keys) = size_of_in |
1261 |
ENDIF |
1262 |
|
1263 |
! Before writing the actual size lets see if we have the space |
1264 |
|
1265 |
IF (keymemstart(nb_keys)+keymemlen(nb_keys) > realmemsize) THEN |
1266 |
CALL getin_allocmem (2, keymemlen(nb_keys)) |
1267 |
ENDIF |
1268 |
|
1269 |
realmem(keymemstart(nb_keys): & |
1270 |
& keymemstart(nb_keys)+keymemlen(nb_keys)-1) = & |
1271 |
& tmp_ret_val(1:keymemlen(nb_keys)) |
1272 |
realmempos = keymemstart(nb_keys)+keymemlen(nb_keys)-1 |
1273 |
|
1274 |
END SUBROUTINE getdbwr |
1275 |
|
1276 |
!**************************** |
1277 |
|
1278 |
SUBROUTINE getdbrr (pos, size_of_in, MY_TARGET, tmp_ret_val) |
1279 |
|
1280 |
! Read the required variables in the database for REALS |
1281 |
|
1282 |
|
1283 |
INTEGER :: pos, size_of_in |
1284 |
CHARACTER(LEN=*) :: MY_TARGET |
1285 |
REAL, DIMENSION(:) :: tmp_ret_val |
1286 |
|
1287 |
IF (keytype(pos) /= 2) THEN |
1288 |
WRITE(*, *) 'FATAL ERROR : Wrong data type for keyword ', MY_TARGET |
1289 |
STOP 'getdbrr' |
1290 |
ENDIF |
1291 |
|
1292 |
IF (keycompress(pos) > 0) THEN |
1293 |
IF ( (keycompress(pos) /= size_of_in) & |
1294 |
& .OR.(keymemlen(pos) /= 1) ) THEN |
1295 |
WRITE(*, *) & |
1296 |
& 'FATAL ERROR : Wrong compression length for keyword ', MY_TARGET |
1297 |
STOP 'getdbrr' |
1298 |
ELSE |
1299 |
tmp_ret_val(1:size_of_in) = realmem(keymemstart(pos)) |
1300 |
ENDIF |
1301 |
ELSE |
1302 |
IF (keymemlen(pos) /= size_of_in) THEN |
1303 |
WRITE(*, *) 'FATAL ERROR : Wrong array length for keyword ', MY_TARGET |
1304 |
STOP 'getdbrr' |
1305 |
ELSE |
1306 |
tmp_ret_val(1:size_of_in) = & |
1307 |
& realmem(keymemstart(pos):keymemstart(pos)+keymemlen(pos)-1) |
1308 |
ENDIF |
1309 |
ENDIF |
1310 |
|
1311 |
END SUBROUTINE getdbrr |
1312 |
|
1313 |
!=== CHARACTER database INTERFACE |
1314 |
|
1315 |
SUBROUTINE getdbwc & |
1316 |
& (MY_TARGET, target_sig, status, fileorig, size_of_in, tmp_ret_val) |
1317 |
|
1318 |
! Write the CHARACTER data into the data base |
1319 |
|
1320 |
|
1321 |
CHARACTER(LEN=*) :: MY_TARGET |
1322 |
INTEGER :: target_sig, status, fileorig, size_of_in |
1323 |
CHARACTER(LEN=*), DIMENSION(:) :: tmp_ret_val |
1324 |
|
1325 |
|
1326 |
! First check if we have sufficiant space for the new key |
1327 |
|
1328 |
IF (nb_keys+1 > keymemsize) THEN |
1329 |
CALL getin_allockeys () |
1330 |
ENDIF |
1331 |
|
1332 |
! Fill out the items of the data base |
1333 |
|
1334 |
nb_keys = nb_keys+1 |
1335 |
keysig(nb_keys) = target_sig |
1336 |
keystr(nb_keys) = MY_TARGET(1:MIN(len_trim(MY_TARGET), 30)) |
1337 |
keystatus(nb_keys) = status |
1338 |
keytype(nb_keys) = 3 |
1339 |
keyfromfile(nb_keys) = fileorig |
1340 |
keymemstart(nb_keys) = charmempos+1 |
1341 |
keymemlen(nb_keys) = size_of_in |
1342 |
|
1343 |
! Before writing the actual size lets see if we have the space |
1344 |
|
1345 |
IF (keymemstart(nb_keys)+keymemlen(nb_keys) > realmemsize) THEN |
1346 |
CALL getin_allocmem (3, keymemlen(nb_keys)) |
1347 |
ENDIF |
1348 |
|
1349 |
charmem(keymemstart(nb_keys): & |
1350 |
& keymemstart(nb_keys)+keymemlen(nb_keys)-1) = & |
1351 |
& tmp_ret_val(1:keymemlen(nb_keys)) |
1352 |
charmempos = keymemstart(nb_keys)+keymemlen(nb_keys)-1 |
1353 |
|
1354 |
END SUBROUTINE getdbwc |
1355 |
|
1356 |
!**************************** |
1357 |
|
1358 |
SUBROUTINE getdbrc(pos, size_of_in, MY_TARGET, tmp_ret_val) |
1359 |
|
1360 |
! Read the required variables in the database for CHARACTER |
1361 |
|
1362 |
|
1363 |
INTEGER :: pos, size_of_in |
1364 |
CHARACTER(LEN=*) :: MY_TARGET |
1365 |
CHARACTER(LEN=*), DIMENSION(:) :: tmp_ret_val |
1366 |
|
1367 |
IF (keytype(pos) /= 3) THEN |
1368 |
WRITE(*, *) 'FATAL ERROR : Wrong data type for keyword ', MY_TARGET |
1369 |
STOP 'getdbrc' |
1370 |
ENDIF |
1371 |
|
1372 |
IF (keymemlen(pos) /= size_of_in) THEN |
1373 |
WRITE(*, *) 'FATAL ERROR : Wrong array length for keyword ', MY_TARGET |
1374 |
STOP 'getdbrc' |
1375 |
ELSE |
1376 |
tmp_ret_val(1:size_of_in) = & |
1377 |
& charmem(keymemstart(pos):keymemstart(pos)+keymemlen(pos)-1) |
1378 |
ENDIF |
1379 |
|
1380 |
END SUBROUTINE getdbrc |
1381 |
|
1382 |
!=== LOGICAL database INTERFACE |
1383 |
|
1384 |
SUBROUTINE getdbwl & |
1385 |
& (MY_TARGET, target_sig, status, fileorig, size_of_in, tmp_ret_val) |
1386 |
|
1387 |
! Write the LOGICAL data into the data base |
1388 |
|
1389 |
|
1390 |
CHARACTER(LEN=*) :: MY_TARGET |
1391 |
INTEGER :: target_sig, status, fileorig, size_of_in |
1392 |
LOGICAL, DIMENSION(:) :: tmp_ret_val |
1393 |
|
1394 |
|
1395 |
! First check if we have sufficiant space for the new key |
1396 |
|
1397 |
IF (nb_keys+1 > keymemsize) THEN |
1398 |
CALL getin_allockeys () |
1399 |
ENDIF |
1400 |
|
1401 |
! Fill out the items of the data base |
1402 |
|
1403 |
nb_keys = nb_keys+1 |
1404 |
keysig(nb_keys) = target_sig |
1405 |
keystr(nb_keys) = MY_TARGET(1:MIN(len_trim(MY_TARGET), 30)) |
1406 |
keystatus(nb_keys) = status |
1407 |
keytype(nb_keys) = 4 |
1408 |
keyfromfile(nb_keys) = fileorig |
1409 |
keymemstart(nb_keys) = logicmempos+1 |
1410 |
keymemlen(nb_keys) = size_of_in |
1411 |
|
1412 |
! Before writing the actual size lets see if we have the space |
1413 |
|
1414 |
IF (keymemstart(nb_keys)+keymemlen(nb_keys) > logicmemsize) THEN |
1415 |
CALL getin_allocmem (4, keymemlen(nb_keys)) |
1416 |
ENDIF |
1417 |
|
1418 |
logicmem(keymemstart(nb_keys): & |
1419 |
& keymemstart(nb_keys)+keymemlen(nb_keys)-1) = & |
1420 |
& tmp_ret_val(1:keymemlen(nb_keys)) |
1421 |
logicmempos = keymemstart(nb_keys)+keymemlen(nb_keys)-1 |
1422 |
|
1423 |
END SUBROUTINE getdbwl |
1424 |
|
1425 |
!**************************** |
1426 |
|
1427 |
SUBROUTINE getdbrl(pos, size_of_in, MY_TARGET, tmp_ret_val) |
1428 |
|
1429 |
! Read the required variables in the database for LOGICALS |
1430 |
|
1431 |
|
1432 |
INTEGER :: pos, size_of_in |
1433 |
CHARACTER(LEN=*) :: MY_TARGET |
1434 |
LOGICAL, DIMENSION(:) :: tmp_ret_val |
1435 |
|
1436 |
IF (keytype(pos) /= 4) THEN |
1437 |
WRITE(*, *) 'FATAL ERROR : Wrong data type for keyword ', MY_TARGET |
1438 |
STOP 'getdbrl' |
1439 |
ENDIF |
1440 |
|
1441 |
IF (keymemlen(pos) /= size_of_in) THEN |
1442 |
WRITE(*, *) 'FATAL ERROR : Wrong array length for keyword ', MY_TARGET |
1443 |
STOP 'getdbrl' |
1444 |
ELSE |
1445 |
tmp_ret_val(1:size_of_in) = & |
1446 |
& logicmem(keymemstart(pos):keymemstart(pos)+keymemlen(pos)-1) |
1447 |
ENDIF |
1448 |
|
1449 |
END SUBROUTINE getdbrl |
1450 |
|
1451 |
!**************************** |
1452 |
|
1453 |
SUBROUTINE getin_allockeys |
1454 |
|
1455 |
INTEGER, ALLOCATABLE :: tmp_int(:) |
1456 |
CHARACTER(LEN=100), ALLOCATABLE :: tmp_str(:) |
1457 |
|
1458 |
|
1459 |
|
1460 |
!!print *, "Call sequence information: getin_allockeys" |
1461 |
! Either nothing exists in these arrays and it is easy to do |
1462 |
|
1463 |
IF (keymemsize == 0) THEN |
1464 |
ALLOCATE(keysig(memslabs)) |
1465 |
ALLOCATE(keystr(memslabs)) |
1466 |
ALLOCATE(keystatus(memslabs)) |
1467 |
ALLOCATE(keytype(memslabs)) |
1468 |
ALLOCATE(keycompress(memslabs)) |
1469 |
ALLOCATE(keyfromfile(memslabs)) |
1470 |
ALLOCATE(keymemstart(memslabs)) |
1471 |
ALLOCATE(keymemlen(memslabs)) |
1472 |
nb_keys = 0 |
1473 |
keymemsize = memslabs |
1474 |
keycompress(:) = -1 |
1475 |
ELSE |
1476 |
! There is something already in the memory, |
1477 |
! we need to transfer and reallocate. |
1478 |
ALLOCATE(tmp_str(keymemsize)) |
1479 |
|
1480 |
ALLOCATE(tmp_int(keymemsize)) |
1481 |
tmp_int(1:keymemsize) = keysig(1:keymemsize) |
1482 |
|
1483 |
DEALLOCATE(keysig) |
1484 |
ALLOCATE(keysig(keymemsize+memslabs)) |
1485 |
keysig(1:keymemsize) = tmp_int(1:keymemsize) |
1486 |
|
1487 |
tmp_str(1:keymemsize) = keystr(1:keymemsize) |
1488 |
DEALLOCATE(keystr) |
1489 |
ALLOCATE(keystr(keymemsize+memslabs)) |
1490 |
keystr(1:keymemsize) = tmp_str(1:keymemsize) |
1491 |
|
1492 |
tmp_int(1:keymemsize) = keystatus(1:keymemsize) |
1493 |
DEALLOCATE(keystatus) |
1494 |
ALLOCATE(keystatus(keymemsize+memslabs)) |
1495 |
keystatus(1:keymemsize) = tmp_int(1:keymemsize) |
1496 |
|
1497 |
tmp_int(1:keymemsize) = keytype(1:keymemsize) |
1498 |
DEALLOCATE(keytype) |
1499 |
ALLOCATE(keytype(keymemsize+memslabs)) |
1500 |
keytype(1:keymemsize) = tmp_int(1:keymemsize) |
1501 |
|
1502 |
tmp_int(1:keymemsize) = keycompress(1:keymemsize) |
1503 |
DEALLOCATE(keycompress) |
1504 |
ALLOCATE(keycompress(keymemsize+memslabs)) |
1505 |
keycompress(:) = -1 |
1506 |
keycompress(1:keymemsize) = tmp_int(1:keymemsize) |
1507 |
|
1508 |
tmp_int(1:keymemsize) = keyfromfile(1:keymemsize) |
1509 |
DEALLOCATE(keyfromfile) |
1510 |
ALLOCATE(keyfromfile(keymemsize+memslabs)) |
1511 |
keyfromfile(1:keymemsize) = tmp_int(1:keymemsize) |
1512 |
|
1513 |
tmp_int(1:keymemsize) = keymemstart(1:keymemsize) |
1514 |
DEALLOCATE(keymemstart) |
1515 |
ALLOCATE(keymemstart(keymemsize+memslabs)) |
1516 |
keymemstart(1:keymemsize) = tmp_int(1:keymemsize) |
1517 |
|
1518 |
tmp_int(1:keymemsize) = keymemlen(1:keymemsize) |
1519 |
DEALLOCATE(keymemlen) |
1520 |
ALLOCATE(keymemlen(keymemsize+memslabs)) |
1521 |
keymemlen(1:keymemsize) = tmp_int(1:keymemsize) |
1522 |
|
1523 |
keymemsize = keymemsize+memslabs |
1524 |
|
1525 |
DEALLOCATE(tmp_int) |
1526 |
DEALLOCATE(tmp_str) |
1527 |
ENDIF |
1528 |
|
1529 |
END SUBROUTINE getin_allockeys |
1530 |
|
1531 |
!**************************** |
1532 |
|
1533 |
SUBROUTINE getin_allocmem (type, len_wanted) |
1534 |
|
1535 |
! Allocate the memory of the data base for all 4 types of memory |
1536 |
|
1537 |
! 1 = INTEGER |
1538 |
! 2 = REAL |
1539 |
! 3 = CHAR |
1540 |
! 4 = LOGICAL |
1541 |
|
1542 |
|
1543 |
INTEGER :: type, len_wanted |
1544 |
|
1545 |
INTEGER, ALLOCATABLE :: tmp_int(:) |
1546 |
CHARACTER(LEN=100), ALLOCATABLE :: tmp_char(:) |
1547 |
REAL, ALLOCATABLE :: tmp_real(:) |
1548 |
LOGICAL, ALLOCATABLE :: tmp_logic(:) |
1549 |
INTEGER :: ier |
1550 |
|
1551 |
SELECT CASE (type) |
1552 |
CASE(1) |
1553 |
IF (intmemsize == 0) THEN |
1554 |
ALLOCATE(intmem(memslabs), stat=ier) |
1555 |
IF (ier /= 0) THEN |
1556 |
WRITE(*, *) & |
1557 |
& 'getin_allocmem : Unable to allocate db-memory intmem to ', & |
1558 |
& memslabs |
1559 |
STOP |
1560 |
ENDIF |
1561 |
intmemsize=memslabs |
1562 |
ELSE |
1563 |
ALLOCATE(tmp_int(intmemsize), stat=ier) |
1564 |
IF (ier /= 0) THEN |
1565 |
WRITE(*, *) & |
1566 |
& 'getin_allocmem : Unable to allocate tmp_int to ', & |
1567 |
& intmemsize |
1568 |
STOP |
1569 |
ENDIF |
1570 |
tmp_int(1:intmemsize) = intmem(1:intmemsize) |
1571 |
DEALLOCATE(intmem) |
1572 |
ALLOCATE(intmem(intmemsize+MAX(memslabs, len_wanted)), stat=ier) |
1573 |
IF (ier /= 0) THEN |
1574 |
WRITE(*, *) & |
1575 |
& 'getin_allocmem : Unable to re-allocate db-memory intmem to ', & |
1576 |
& intmemsize+MAX(memslabs, len_wanted) |
1577 |
STOP |
1578 |
ENDIF |
1579 |
intmem(1:intmemsize) = tmp_int(1:intmemsize) |
1580 |
intmemsize = intmemsize+MAX(memslabs, len_wanted) |
1581 |
DEALLOCATE(tmp_int) |
1582 |
ENDIF |
1583 |
CASE(2) |
1584 |
IF (realmemsize == 0) THEN |
1585 |
ALLOCATE(realmem(memslabs), stat=ier) |
1586 |
IF (ier /= 0) THEN |
1587 |
WRITE(*, *) & |
1588 |
& 'getin_allocmem : Unable to allocate db-memory realmem to ', & |
1589 |
& memslabs |
1590 |
STOP |
1591 |
ENDIF |
1592 |
realmemsize = memslabs |
1593 |
ELSE |
1594 |
ALLOCATE(tmp_real(realmemsize), stat=ier) |
1595 |
IF (ier /= 0) THEN |
1596 |
WRITE(*, *) & |
1597 |
& 'getin_allocmem : Unable to allocate tmp_real to ', & |
1598 |
& realmemsize |
1599 |
STOP |
1600 |
ENDIF |
1601 |
tmp_real(1:realmemsize) = realmem(1:realmemsize) |
1602 |
DEALLOCATE(realmem) |
1603 |
ALLOCATE(realmem(realmemsize+MAX(memslabs, len_wanted)), stat=ier) |
1604 |
IF (ier /= 0) THEN |
1605 |
WRITE(*, *) & |
1606 |
& 'getin_allocmem : Unable to re-allocate db-memory realmem to ', & |
1607 |
& realmemsize+MAX(memslabs, len_wanted) |
1608 |
STOP |
1609 |
ENDIF |
1610 |
realmem(1:realmemsize) = tmp_real(1:realmemsize) |
1611 |
realmemsize = realmemsize+MAX(memslabs, len_wanted) |
1612 |
DEALLOCATE(tmp_real) |
1613 |
ENDIF |
1614 |
CASE(3) |
1615 |
IF (charmemsize == 0) THEN |
1616 |
ALLOCATE(charmem(memslabs), stat=ier) |
1617 |
IF (ier /= 0) THEN |
1618 |
WRITE(*, *) & |
1619 |
& 'getin_allocmem : Unable to allocate db-memory charmem to ', & |
1620 |
& memslabs |
1621 |
STOP |
1622 |
ENDIF |
1623 |
charmemsize = memslabs |
1624 |
ELSE |
1625 |
ALLOCATE(tmp_char(charmemsize), stat=ier) |
1626 |
IF (ier /= 0) THEN |
1627 |
WRITE(*, *) & |
1628 |
& 'getin_allocmem : Unable to allocate tmp_char to ', & |
1629 |
& charmemsize |
1630 |
STOP |
1631 |
ENDIF |
1632 |
tmp_char(1:charmemsize) = charmem(1:charmemsize) |
1633 |
DEALLOCATE(charmem) |
1634 |
ALLOCATE(charmem(charmemsize+MAX(memslabs, len_wanted)), stat=ier) |
1635 |
IF (ier /= 0) THEN |
1636 |
WRITE(*, *) & |
1637 |
& 'getin_allocmem : Unable to re-allocate db-memory charmem to ', & |
1638 |
& charmemsize+MAX(memslabs, len_wanted) |
1639 |
STOP |
1640 |
ENDIF |
1641 |
charmem(1:charmemsize) = tmp_char(1:charmemsize) |
1642 |
charmemsize = charmemsize+MAX(memslabs, len_wanted) |
1643 |
DEALLOCATE(tmp_char) |
1644 |
ENDIF |
1645 |
CASE(4) |
1646 |
IF (logicmemsize == 0) THEN |
1647 |
ALLOCATE(logicmem(memslabs), stat=ier) |
1648 |
IF (ier /= 0) THEN |
1649 |
WRITE(*, *) & |
1650 |
& 'getin_allocmem : Unable to allocate db-memory logicmem to ', & |
1651 |
& memslabs |
1652 |
STOP |
1653 |
ENDIF |
1654 |
logicmemsize = memslabs |
1655 |
ELSE |
1656 |
ALLOCATE(tmp_logic(logicmemsize), stat=ier) |
1657 |
IF (ier /= 0) THEN |
1658 |
WRITE(*, *) & |
1659 |
& 'getin_allocmem : Unable to allocate tmp_logic to ', & |
1660 |
& logicmemsize |
1661 |
STOP |
1662 |
ENDIF |
1663 |
tmp_logic(1:logicmemsize) = logicmem(1:logicmemsize) |
1664 |
DEALLOCATE(logicmem) |
1665 |
ALLOCATE(logicmem(logicmemsize+MAX(memslabs, len_wanted)), stat=ier) |
1666 |
IF (ier /= 0) THEN |
1667 |
WRITE(*, *) & |
1668 |
& 'getin_allocmem : Unable to re-allocate db-memory logicmem to ', & |
1669 |
& logicmemsize+MAX(memslabs, len_wanted) |
1670 |
STOP |
1671 |
ENDIF |
1672 |
logicmem(1:logicmemsize) = tmp_logic(1:logicmemsize) |
1673 |
logicmemsize = logicmemsize+MAX(memslabs, len_wanted) |
1674 |
DEALLOCATE(tmp_logic) |
1675 |
ENDIF |
1676 |
CASE DEFAULT |
1677 |
WRITE(*, *) 'getin_allocmem : Unknown type : ', type |
1678 |
STOP |
1679 |
END SELECT |
1680 |
|
1681 |
END SUBROUTINE getin_allocmem |
1682 |
|
1683 |
END MODULE getincom2 |