source:
palm/trunk/SOURCE/init_particles.f90
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1 | SUBROUTINE init_particles |
2 | |
3 | !------------------------------------------------------------------------------! |
4 | ! Current revisions: |
5 | ! ----------------- |
6 | ! |
7 | ! |
8 | ! Former revisions: |
9 | ! ----------------- |
10 | ! $Id: init_particles.f90 392 2009-09-24 10:39:14Z maronga $ |
11 | ! |
12 | ! 336 2009-06-10 11:19:35Z raasch |
13 | ! Maximum number of tails is calculated from maximum number of particles and |
14 | ! skip_particles_for_tail, |
15 | ! output of messages replaced by message handling routine |
16 | ! Bugfix: arrays for tails are allocated with a minimum size of 10 tails if |
17 | ! there is no tail initially |
18 | ! |
19 | ! 150 2008-02-29 08:19:58Z raasch |
20 | ! Setting offset_ocean_* needed for calculating vertical indices within ocean |
21 | ! runs |
22 | ! |
23 | ! 117 2007-10-11 03:27:59Z raasch |
24 | ! Sorting of particles only in case of cloud droplets |
25 | ! |
26 | ! 106 2007-08-16 14:30:26Z raasch |
27 | ! variable iran replaced by iran_part |
28 | ! |
29 | ! 82 2007-04-16 15:40:52Z raasch |
30 | ! Preprocessor directives for old systems removed |
31 | ! |
32 | ! 70 2007-03-18 23:46:30Z raasch |
33 | ! displacements for mpi_particle_type changed, age_m initialized, |
34 | ! particles-package is now part of the default code |
35 | ! |
36 | ! 16 2007-02-15 13:16:47Z raasch |
37 | ! Bugfix: MPI_REAL in MPI_ALLREDUCE replaced by MPI_INTEGER |
38 | ! |
39 | ! r4 | raasch | 2007-02-13 12:33:16 +0100 (Tue, 13 Feb 2007) |
40 | ! RCS Log replace by Id keyword, revision history cleaned up |
41 | ! |
42 | ! Revision 1.24 2007/02/11 13:00:17 raasch |
43 | ! Bugfix: allocation of tail_mask and new_tail_id in case of restart-runs |
44 | ! Bugfix: __ was missing in a cpp-directive |
45 | ! |
46 | ! Revision 1.1 1999/11/25 16:22:38 raasch |
47 | ! Initial revision |
48 | ! |
49 | ! |
50 | ! Description: |
51 | ! ------------ |
52 | ! This routine initializes a set of particles and their attributes (position, |
53 | ! radius, ..). Advection of these particles is carried out by advec_particles, |
54 | ! plotting is done in data_output_dvrp. |
55 | !------------------------------------------------------------------------------! |
56 | |
57 | USE arrays_3d |
58 | USE control_parameters |
59 | USE dvrp_variables |
60 | USE grid_variables |
61 | USE indices |
62 | USE particle_attributes |
63 | USE pegrid |
64 | USE random_function_mod |
65 | |
66 | |
67 | IMPLICIT NONE |
68 | |
69 | CHARACTER (LEN=10) :: particle_binary_version, version_on_file |
70 | |
71 | INTEGER :: i, j, n, nn |
72 | #if defined( __parallel ) |
73 | INTEGER, DIMENSION(3) :: blocklengths, displacements, types |
74 | #endif |
75 | LOGICAL :: uniform_particles_l |
76 | REAL :: factor, pos_x, pos_y, pos_z, value |
77 | |
78 | |
79 | #if defined( __parallel ) |
80 | ! |
81 | !-- Define MPI derived datatype for FORTRAN datatype particle_type (see module |
82 | !-- particle_attributes). Integer length is 4 byte, Real is 8 byte |
83 | blocklengths(1) = 19; blocklengths(2) = 4; blocklengths(3) = 1 |
84 | displacements(1) = 0; displacements(2) = 152; displacements(3) = 168 |
85 | |
86 | types(1) = MPI_REAL |
87 | types(2) = MPI_INTEGER |
88 | types(3) = MPI_UB |
89 | CALL MPI_TYPE_STRUCT( 3, blocklengths, displacements, types, & |
90 | mpi_particle_type, ierr ) |
91 | CALL MPI_TYPE_COMMIT( mpi_particle_type, ierr ) |
92 | #endif |
93 | |
94 | ! |
95 | !-- In case of oceans runs, the vertical index calculations need an offset, |
96 | !-- because otherwise the k indices will become negative |
97 | IF ( ocean ) THEN |
98 | offset_ocean_nzt = nzt |
99 | offset_ocean_nzt_m1 = nzt - 1 |
100 | ENDIF |
101 | |
102 | |
103 | ! |
104 | !-- Check the number of particle groups. |
105 | IF ( number_of_particle_groups > max_number_of_particle_groups ) THEN |
106 | WRITE( message_string, * ) 'max_number_of_particle_groups =', & |
107 | max_number_of_particle_groups , & |
108 | '&number_of_particle_groups reset to ', & |
109 | max_number_of_particle_groups |
110 | CALL message( 'init_particles', 'PA0213', 0, 1, 0, 6, 0 ) |
111 | number_of_particle_groups = max_number_of_particle_groups |
112 | ENDIF |
113 | |
114 | ! |
115 | !-- Set default start positions, if necessary |
116 | IF ( psl(1) == 9999999.9 ) psl(1) = -0.5 * dx |
117 | IF ( psr(1) == 9999999.9 ) psr(1) = ( nx + 0.5 ) * dx |
118 | IF ( pss(1) == 9999999.9 ) pss(1) = -0.5 * dy |
119 | IF ( psn(1) == 9999999.9 ) psn(1) = ( ny + 0.5 ) * dy |
120 | IF ( psb(1) == 9999999.9 ) psb(1) = zu(nz/2) |
121 | IF ( pst(1) == 9999999.9 ) pst(1) = psb(1) |
122 | |
123 | IF ( pdx(1) == 9999999.9 .OR. pdx(1) == 0.0 ) pdx(1) = dx |
124 | IF ( pdy(1) == 9999999.9 .OR. pdy(1) == 0.0 ) pdy(1) = dy |
125 | IF ( pdz(1) == 9999999.9 .OR. pdz(1) == 0.0 ) pdz(1) = zu(2) - zu(1) |
126 | |
127 | DO j = 2, number_of_particle_groups |
128 | IF ( psl(j) == 9999999.9 ) psl(j) = psl(j-1) |
129 | IF ( psr(j) == 9999999.9 ) psr(j) = psr(j-1) |
130 | IF ( pss(j) == 9999999.9 ) pss(j) = pss(j-1) |
131 | IF ( psn(j) == 9999999.9 ) psn(j) = psn(j-1) |
132 | IF ( psb(j) == 9999999.9 ) psb(j) = psb(j-1) |
133 | IF ( pst(j) == 9999999.9 ) pst(j) = pst(j-1) |
134 | IF ( pdx(j) == 9999999.9 .OR. pdx(j) == 0.0 ) pdx(j) = pdx(j-1) |
135 | IF ( pdy(j) == 9999999.9 .OR. pdy(j) == 0.0 ) pdy(j) = pdy(j-1) |
136 | IF ( pdz(j) == 9999999.9 .OR. pdz(j) == 0.0 ) pdz(j) = pdz(j-1) |
137 | ENDDO |
138 | |
139 | ! |
140 | !-- For the first model run of a possible job chain initialize the |
141 | !-- particles, otherwise read the particle data from file. |
142 | IF ( TRIM( initializing_actions ) == 'read_restart_data' & |
143 | .AND. read_particles_from_restartfile ) THEN |
144 | |
145 | ! |
146 | !-- Read particle data from previous model run. |
147 | !-- First open the input unit. |
148 | IF ( myid_char == '' ) THEN |
149 | OPEN ( 90, FILE='PARTICLE_RESTART_DATA_IN'//myid_char, & |
150 | FORM='UNFORMATTED' ) |
151 | ELSE |
152 | OPEN ( 90, FILE='PARTICLE_RESTART_DATA_IN/'//myid_char, & |
153 | FORM='UNFORMATTED' ) |
154 | ENDIF |
155 | |
156 | ! |
157 | !-- First compare the version numbers |
158 | READ ( 90 ) version_on_file |
159 | particle_binary_version = '3.0' |
160 | IF ( TRIM( version_on_file ) /= TRIM( particle_binary_version ) ) THEN |
161 | message_string = 'version mismatch concerning data from prior ' // & |
162 | 'run &version on file = "' // & |
163 | TRIM( version_on_file ) // & |
164 | '&version in program = "' // & |
165 | TRIM( particle_binary_version ) // '"' |
166 | CALL message( 'init_particles', 'PA0214', 1, 2, 0, 6, 0 ) |
167 | ENDIF |
168 | |
169 | ! |
170 | !-- Read some particle parameters and the size of the particle arrays, |
171 | !-- allocate them and read their contents. |
172 | READ ( 90 ) bc_par_b, bc_par_lr, bc_par_ns, bc_par_t, & |
173 | maximum_number_of_particles, maximum_number_of_tailpoints, & |
174 | maximum_number_of_tails, number_of_initial_particles, & |
175 | number_of_particles, number_of_particle_groups, & |
176 | number_of_tails, particle_groups, time_prel, & |
177 | time_write_particle_data, uniform_particles |
178 | |
179 | IF ( number_of_initial_particles /= 0 ) THEN |
180 | ALLOCATE( initial_particles(1:number_of_initial_particles) ) |
181 | READ ( 90 ) initial_particles |
182 | ENDIF |
183 | |
184 | ALLOCATE( prt_count(nzb:nzt+1,nys-1:nyn+1,nxl-1:nxr+1), & |
185 | prt_start_index(nzb:nzt+1,nys-1:nyn+1,nxl-1:nxr+1), & |
186 | particle_mask(maximum_number_of_particles), & |
187 | particles(maximum_number_of_particles) ) |
188 | |
189 | READ ( 90 ) prt_count, prt_start_index |
190 | READ ( 90 ) particles |
191 | |
192 | IF ( use_particle_tails ) THEN |
193 | ALLOCATE( particle_tail_coordinates(maximum_number_of_tailpoints,5, & |
194 | maximum_number_of_tails), & |
195 | new_tail_id(maximum_number_of_tails), & |
196 | tail_mask(maximum_number_of_tails) ) |
197 | READ ( 90 ) particle_tail_coordinates |
198 | ENDIF |
199 | |
200 | CLOSE ( 90 ) |
201 | |
202 | ELSE |
203 | |
204 | ! |
205 | !-- Allocate particle arrays and set attributes of the initial set of |
206 | !-- particles, which can be also periodically released at later times. |
207 | !-- Also allocate array for particle tail coordinates, if needed. |
208 | ALLOCATE( prt_count(nzb:nzt+1,nys-1:nyn+1,nxl-1:nxr+1), & |
209 | prt_start_index(nzb:nzt+1,nys-1:nyn+1,nxl-1:nxr+1), & |
210 | particle_mask(maximum_number_of_particles), & |
211 | particles(maximum_number_of_particles) ) |
212 | |
213 | ! |
214 | !-- Initialize all particles with dummy values (otherwise errors may |
215 | !-- occur within restart runs). The reason for this is still not clear |
216 | !-- and may be presumably caused by errors in the respective user-interface. |
217 | particles = particle_type( 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, & |
218 | 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, & |
219 | 0.0, 0, 0, 0, 0 ) |
220 | particle_groups = particle_groups_type( 0.0, 0.0, 0.0, 0.0 ) |
221 | |
222 | ! |
223 | !-- Set the default particle size used for dvrp plots |
224 | IF ( dvrp_psize == 9999999.9 ) dvrp_psize = 0.2 * dx |
225 | |
226 | ! |
227 | !-- Set values for the density ratio and radius for all particle |
228 | !-- groups, if necessary |
229 | IF ( density_ratio(1) == 9999999.9 ) density_ratio(1) = 0.0 |
230 | IF ( radius(1) == 9999999.9 ) radius(1) = 0.0 |
231 | DO i = 2, number_of_particle_groups |
232 | IF ( density_ratio(i) == 9999999.9 ) THEN |
233 | density_ratio(i) = density_ratio(i-1) |
234 | ENDIF |
235 | IF ( radius(i) == 9999999.9 ) radius(i) = radius(i-1) |
236 | ENDDO |
237 | |
238 | DO i = 1, number_of_particle_groups |
239 | IF ( density_ratio(i) /= 0.0 .AND. radius(i) == 0 ) THEN |
240 | WRITE( message_string, * ) 'particle group #', i, 'has a', & |
241 | 'density ratio /= 0 but radius = 0' |
242 | CALL message( 'init_particles', 'PA0215', 1, 2, 0, 6, 0 ) |
243 | ENDIF |
244 | particle_groups(i)%density_ratio = density_ratio(i) |
245 | particle_groups(i)%radius = radius(i) |
246 | ENDDO |
247 | |
248 | ! |
249 | !-- Calculate particle positions and store particle attributes, if |
250 | !-- particle is situated on this PE |
251 | n = 0 |
252 | |
253 | DO i = 1, number_of_particle_groups |
254 | |
255 | pos_z = psb(i) |
256 | |
257 | DO WHILE ( pos_z <= pst(i) ) |
258 | |
259 | pos_y = pss(i) |
260 | |
261 | DO WHILE ( pos_y <= psn(i) ) |
262 | |
263 | IF ( pos_y >= ( nys - 0.5 ) * dy .AND. & |
264 | pos_y < ( nyn + 0.5 ) * dy ) THEN |
265 | |
266 | pos_x = psl(i) |
267 | |
268 | DO WHILE ( pos_x <= psr(i) ) |
269 | |
270 | IF ( pos_x >= ( nxl - 0.5 ) * dx .AND. & |
271 | pos_x < ( nxr + 0.5 ) * dx ) THEN |
272 | |
273 | DO j = 1, particles_per_point |
274 | |
275 | n = n + 1 |
276 | IF ( n > maximum_number_of_particles ) THEN |
277 | WRITE( message_string, * ) 'number of initial', & |
278 | 'particles (', n, ') exceeds', & |
279 | '&maximum_number_of_particles (', & |
280 | maximum_number_of_particles, ') on PE ', & |
281 | myid |
282 | CALL message( 'init_particles', 'PA0216', & |
283 | 2, 2, -1, 6, 1 ) |
284 | ENDIF |
285 | particles(n)%x = pos_x |
286 | particles(n)%y = pos_y |
287 | particles(n)%z = pos_z |
288 | particles(n)%age = 0.0 |
289 | particles(n)%age_m = 0.0 |
290 | particles(n)%dt_sum = 0.0 |
291 | particles(n)%dvrp_psize = dvrp_psize |
292 | particles(n)%e_m = 0.0 |
293 | particles(n)%speed_x = 0.0 |
294 | particles(n)%speed_x_sgs = 0.0 |
295 | particles(n)%speed_y = 0.0 |
296 | particles(n)%speed_y_sgs = 0.0 |
297 | particles(n)%speed_z = 0.0 |
298 | particles(n)%speed_z_sgs = 0.0 |
299 | particles(n)%origin_x = pos_x |
300 | particles(n)%origin_y = pos_y |
301 | particles(n)%origin_z = pos_z |
302 | particles(n)%radius = particle_groups(i)%radius |
303 | particles(n)%weight_factor =initial_weighting_factor |
304 | particles(n)%color = 1 |
305 | particles(n)%group = i |
306 | particles(n)%tailpoints = 0 |
307 | IF ( use_particle_tails .AND. & |
308 | MOD( n, skip_particles_for_tail ) == 0 ) THEN |
309 | number_of_tails = number_of_tails + 1 |
310 | ! |
311 | !-- This is a temporary provisional setting (see |
312 | !-- further below!) |
313 | particles(n)%tail_id = number_of_tails |
314 | ELSE |
315 | particles(n)%tail_id = 0 |
316 | ENDIF |
317 | |
318 | ENDDO |
319 | |
320 | ENDIF |
321 | |
322 | pos_x = pos_x + pdx(i) |
323 | |
324 | ENDDO |
325 | |
326 | ENDIF |
327 | |
328 | pos_y = pos_y + pdy(i) |
329 | |
330 | ENDDO |
331 | |
332 | pos_z = pos_z + pdz(i) |
333 | |
334 | ENDDO |
335 | |
336 | ENDDO |
337 | |
338 | number_of_initial_particles = n |
339 | number_of_particles = n |
340 | |
341 | ! |
342 | !-- Calculate the number of particles and tails of the total domain |
343 | #if defined( __parallel ) |
344 | CALL MPI_ALLREDUCE( number_of_particles, total_number_of_particles, 1, & |
345 | MPI_INTEGER, MPI_SUM, comm2d, ierr ) |
346 | CALL MPI_ALLREDUCE( number_of_tails, total_number_of_tails, 1, & |
347 | MPI_INTEGER, MPI_SUM, comm2d, ierr ) |
348 | #else |
349 | total_number_of_particles = number_of_particles |
350 | total_number_of_tails = number_of_tails |
351 | #endif |
352 | |
353 | ! |
354 | !-- Set a seed value for the random number generator to be exclusively |
355 | !-- used for the particle code. The generated random numbers should be |
356 | !-- different on the different PEs. |
357 | iran_part = iran_part + myid |
358 | |
359 | ! |
360 | !-- User modification of initial particles |
361 | CALL user_init_particles |
362 | |
363 | ! |
364 | !-- Store the initial set of particles for release at later times |
365 | IF ( number_of_initial_particles /= 0 ) THEN |
366 | ALLOCATE( initial_particles(1:number_of_initial_particles) ) |
367 | initial_particles(1:number_of_initial_particles) = & |
368 | particles(1:number_of_initial_particles) |
369 | ENDIF |
370 | |
371 | ! |
372 | !-- Add random fluctuation to particle positions |
373 | IF ( random_start_position ) THEN |
374 | |
375 | DO n = 1, number_of_initial_particles |
376 | IF ( psl(particles(n)%group) /= psr(particles(n)%group) ) THEN |
377 | particles(n)%x = particles(n)%x + & |
378 | ( random_function( iran_part ) - 0.5 ) * & |
379 | pdx(particles(n)%group) |
380 | IF ( particles(n)%x <= ( nxl - 0.5 ) * dx ) THEN |
381 | particles(n)%x = ( nxl - 0.4999999999 ) * dx |
382 | ELSEIF ( particles(n)%x >= ( nxr + 0.5 ) * dx ) THEN |
383 | particles(n)%x = ( nxr + 0.4999999999 ) * dx |
384 | ENDIF |
385 | ENDIF |
386 | IF ( pss(particles(n)%group) /= psn(particles(n)%group) ) THEN |
387 | particles(n)%y = particles(n)%y + & |
388 | ( random_function( iran_part ) - 0.5 ) * & |
389 | pdy(particles(n)%group) |
390 | IF ( particles(n)%y <= ( nys - 0.5 ) * dy ) THEN |
391 | particles(n)%y = ( nys - 0.4999999999 ) * dy |
392 | ELSEIF ( particles(n)%y >= ( nyn + 0.5 ) * dy ) THEN |
393 | particles(n)%y = ( nyn + 0.4999999999 ) * dy |
394 | ENDIF |
395 | ENDIF |
396 | IF ( psb(particles(n)%group) /= pst(particles(n)%group) ) THEN |
397 | particles(n)%z = particles(n)%z + & |
398 | ( random_function( iran_part ) - 0.5 ) * & |
399 | pdz(particles(n)%group) |
400 | ENDIF |
401 | ENDDO |
402 | ENDIF |
403 | |
404 | ! |
405 | !-- Sort particles in the sequence the gridboxes are stored in the memory. |
406 | !-- Only required if cloud droplets are used. |
407 | IF ( cloud_droplets ) CALL sort_particles |
408 | |
409 | ! |
410 | !-- Open file for statistical informations about particle conditions |
411 | IF ( write_particle_statistics ) THEN |
412 | CALL check_open( 80 ) |
413 | WRITE ( 80, 8000 ) current_timestep_number, simulated_time, & |
414 | number_of_initial_particles, & |
415 | maximum_number_of_particles |
416 | CALL close_file( 80 ) |
417 | ENDIF |
418 | |
419 | ! |
420 | !-- Check if particles are really uniform in color and radius (dvrp_size) |
421 | !-- (uniform_particles is preset TRUE) |
422 | IF ( uniform_particles ) THEN |
423 | IF ( number_of_initial_particles == 0 ) THEN |
424 | uniform_particles_l = .TRUE. |
425 | ELSE |
426 | n = number_of_initial_particles |
427 | IF ( MINVAL( particles(1:n)%dvrp_psize ) == & |
428 | MAXVAL( particles(1:n)%dvrp_psize ) .AND. & |
429 | MINVAL( particles(1:n)%color ) == & |
430 | MAXVAL( particles(1:n)%color ) ) THEN |
431 | uniform_particles_l = .TRUE. |
432 | ELSE |
433 | uniform_particles_l = .FALSE. |
434 | ENDIF |
435 | ENDIF |
436 | |
437 | #if defined( __parallel ) |
438 | CALL MPI_ALLREDUCE( uniform_particles_l, uniform_particles, 1, & |
439 | MPI_LOGICAL, MPI_LAND, comm2d, ierr ) |
440 | #else |
441 | uniform_particles = uniform_particles_l |
442 | #endif |
443 | |
444 | ENDIF |
445 | |
446 | ! |
447 | !-- Particles will probably become none-uniform, if their size and color |
448 | !-- will be determined by flow variables |
449 | IF ( particle_color /= 'none' .OR. particle_dvrpsize /= 'none' ) THEN |
450 | uniform_particles = .FALSE. |
451 | ENDIF |
452 | |
453 | ! |
454 | !-- Set the beginning of the particle tails and their age |
455 | IF ( use_particle_tails ) THEN |
456 | ! |
457 | !-- Choose the maximum number of tails with respect to the maximum number |
458 | !-- of particles and skip_particles_for_tail |
459 | maximum_number_of_tails = maximum_number_of_particles / & |
460 | skip_particles_for_tail |
461 | |
462 | ! |
463 | !-- Create a minimum number of tails in case that there is no tail |
464 | !-- initially (otherwise, index errors will occur when adressing the |
465 | !-- arrays below) |
466 | IF ( maximum_number_of_tails == 0 ) maximum_number_of_tails = 10 |
467 | |
468 | ALLOCATE( particle_tail_coordinates(maximum_number_of_tailpoints,5, & |
469 | maximum_number_of_tails), & |
470 | new_tail_id(maximum_number_of_tails), & |
471 | tail_mask(maximum_number_of_tails) ) |
472 | |
473 | particle_tail_coordinates = 0.0 |
474 | minimum_tailpoint_distance = minimum_tailpoint_distance**2 |
475 | number_of_initial_tails = number_of_tails |
476 | |
477 | nn = 0 |
478 | DO n = 1, number_of_particles |
479 | ! |
480 | !-- Only for those particles marked above with a provisional tail_id |
481 | !-- tails will be created. Particles now get their final tail_id. |
482 | IF ( particles(n)%tail_id /= 0 ) THEN |
483 | |
484 | nn = nn + 1 |
485 | particles(n)%tail_id = nn |
486 | |
487 | particle_tail_coordinates(1,1,nn) = particles(n)%x |
488 | particle_tail_coordinates(1,2,nn) = particles(n)%y |
489 | particle_tail_coordinates(1,3,nn) = particles(n)%z |
490 | particle_tail_coordinates(1,4,nn) = particles(n)%color |
491 | particles(n)%tailpoints = 1 |
492 | IF ( minimum_tailpoint_distance /= 0.0 ) THEN |
493 | particle_tail_coordinates(2,1,nn) = particles(n)%x |
494 | particle_tail_coordinates(2,2,nn) = particles(n)%y |
495 | particle_tail_coordinates(2,3,nn) = particles(n)%z |
496 | particle_tail_coordinates(2,4,nn) = particles(n)%color |
497 | particle_tail_coordinates(1:2,5,nn) = 0.0 |
498 | particles(n)%tailpoints = 2 |
499 | ENDIF |
500 | |
501 | ENDIF |
502 | ENDDO |
503 | ENDIF |
504 | |
505 | ! |
506 | !-- Plot initial positions of particles (only if particle advection is |
507 | !-- switched on from the beginning of the simulation (t=0)) |
508 | IF ( particle_advection_start == 0.0 ) CALL data_output_dvrp |
509 | |
510 | ENDIF |
511 | |
512 | ! |
513 | !-- Check boundary condition and set internal variables |
514 | SELECT CASE ( bc_par_b ) |
515 | |
516 | CASE ( 'absorb' ) |
517 | ibc_par_b = 1 |
518 | |
519 | CASE ( 'reflect' ) |
520 | ibc_par_b = 2 |
521 | |
522 | CASE DEFAULT |
523 | WRITE( message_string, * ) 'unknown boundary condition ', & |
524 | 'bc_par_b = "', TRIM( bc_par_b ), '"' |
525 | CALL message( 'init_particles', 'PA0217', 1, 2, 0, 6, 0 ) |
526 | |
527 | END SELECT |
528 | SELECT CASE ( bc_par_t ) |
529 | |
530 | CASE ( 'absorb' ) |
531 | ibc_par_t = 1 |
532 | |
533 | CASE ( 'reflect' ) |
534 | ibc_par_t = 2 |
535 | |
536 | CASE DEFAULT |
537 | WRITE( message_string, * ) 'unknown boundary condition ', & |
538 | 'bc_par_t = "', TRIM( bc_par_t ), '"' |
539 | CALL message( 'init_particles', 'PA0218', 1, 2, 0, 6, 0 ) |
540 | |
541 | END SELECT |
542 | SELECT CASE ( bc_par_lr ) |
543 | |
544 | CASE ( 'cyclic' ) |
545 | ibc_par_lr = 0 |
546 | |
547 | CASE ( 'absorb' ) |
548 | ibc_par_lr = 1 |
549 | |
550 | CASE ( 'reflect' ) |
551 | ibc_par_lr = 2 |
552 | |
553 | CASE DEFAULT |
554 | WRITE( message_string, * ) 'unknown boundary condition ', & |
555 | 'bc_par_lr = "', TRIM( bc_par_lr ), '"' |
556 | CALL message( 'init_particles', 'PA0219', 1, 2, 0, 6, 0 ) |
557 | |
558 | END SELECT |
559 | SELECT CASE ( bc_par_ns ) |
560 | |
561 | CASE ( 'cyclic' ) |
562 | ibc_par_ns = 0 |
563 | |
564 | CASE ( 'absorb' ) |
565 | ibc_par_ns = 1 |
566 | |
567 | CASE ( 'reflect' ) |
568 | ibc_par_ns = 2 |
569 | |
570 | CASE DEFAULT |
571 | WRITE( message_string, * ) 'unknown boundary condition ', & |
572 | 'bc_par_ns = "', TRIM( bc_par_ns ), '"' |
573 | CALL message( 'init_particles', 'PA0220', 1, 2, 0, 6, 0 ) |
574 | |
575 | END SELECT |
576 | ! |
577 | !-- Formats |
578 | 8000 FORMAT (I6,1X,F7.2,4X,I6,71X,I6) |
579 | |
580 | END SUBROUTINE init_particles |
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