- Timestamp:
- 2016-01-04T14:47:06+01:00 (9 years ago)
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branches/2015/nemo_v3_6_STABLE/NEMOGCM/NEMO/NST_SRC/agrif_lim2_interp.F90
r3680 r6204 9 9 !! 3.4 ! 09-2012 (R. Benshila, C. Herbaut) update and EVP 10 10 !!---------------------------------------------------------------------- 11 #if defined key_agrif && defined key_lim2 11 #if defined key_agrif && defined key_lim2 12 12 !!---------------------------------------------------------------------- 13 13 !! 'key_lim2' : LIM 2.0 sea-ice model … … 41 41 PUBLIC interp_adv_ice 42 42 43 REAL(wp), DIMENSION(:,:) , ALLOCATABLE, PRIVATE :: uice_agr, vice_agr 44 REAL(wp), DIMENSION(:,:,:), ALLOCATABLE, PRIVATE :: tabice_agr 45 46 43 47 !!---------------------------------------------------------------------- 44 48 !! NEMO/NST 3.4 , NEMO Consortium (2012) … … 65 69 u_ice_nst(:,:) = 0. 66 70 v_ice_nst(:,:) = 0. 67 CALL Agrif_Bc_variable( u_ice_ nst, u_ice_id ,procname=interp_u_ice, calledweight=1. )68 CALL Agrif_Bc_variable( v_ice_ nst, v_ice_id ,procname=interp_v_ice, calledweight=1. )71 CALL Agrif_Bc_variable( u_ice_id ,procname=interp_u_ice, calledweight=1. ) 72 CALL Agrif_Bc_variable( v_ice_id ,procname=interp_v_ice, calledweight=1. ) 69 73 Agrif_SpecialValue=0. 70 74 Agrif_UseSpecialValue = .FALSE. … … 138 142 !! we are in inside a new parent ice time step 139 143 !!----------------------------------------------------------------------- 140 REAL(wp), DIMENSION(jpi,jpj) :: zuice, zvice141 144 INTEGER :: ji,jj 142 145 REAL(wp) :: zrhox, zrhoy … … 155 158 Agrif_SpecialValue=-9999. 156 159 Agrif_UseSpecialValue = .TRUE. 157 zuice = 0. 158 zvice = 0. 159 CALL Agrif_Bc_variable(zuice,u_ice_id,procname=interp_u_ice, calledweight=1.) 160 CALL Agrif_Bc_variable(zvice,v_ice_id,procname=interp_v_ice, calledweight=1.) 160 IF( .NOT. ALLOCATED(uice_agr) )THEN 161 ALLOCATE(uice_agr(jpi,jpj), vice_agr(jpi,jpj)) 162 ENDIF 163 uice_agr = 0. 164 vice_agr = 0. 165 CALL Agrif_Bc_variable(u_ice_id,procname=interp_u_ice, calledweight=1.) 166 CALL Agrif_Bc_variable(v_ice_id,procname=interp_v_ice, calledweight=1.) 161 167 Agrif_SpecialValue=0. 162 168 Agrif_UseSpecialValue = .FALSE. 163 169 ! 164 170 zrhox = agrif_rhox() ; zrhoy = agrif_rhoy() 165 zuice(:,:) = zuice(:,:)/(zrhoy*e2u(:,:))*umask(:,:,1)166 zvice(:,:) = zvice(:,:)/(zrhox*e1v(:,:))*vmask(:,:,1)171 uice_agr(:,:) = uice_agr(:,:)/(zrhoy*e2u(:,:))*umask(:,:,1) 172 vice_agr(:,:) = vice_agr(:,:)/(zrhox*e1v(:,:))*vmask(:,:,1) 167 173 ! fill boundaries 168 174 DO jj = 1, jpj 169 175 DO ji = 1, 2 170 u_ice_oe(ji, jj,2) = zuice(ji ,jj)171 u_ice_oe(ji+2,jj,2) = zuice(nlci+ji-3,jj)176 u_ice_oe(ji, jj,2) = uice_agr(ji ,jj) 177 u_ice_oe(ji+2,jj,2) = uice_agr(nlci+ji-3,jj) 172 178 END DO 173 179 END DO 174 180 DO jj = 1, jpj 175 v_ice_oe(2,jj,2) = zvice(2 ,jj)176 v_ice_oe(4,jj,2) = zvice(nlci-1,jj)181 v_ice_oe(2,jj,2) = vice_agr(2 ,jj) 182 v_ice_oe(4,jj,2) = vice_agr(nlci-1,jj) 177 183 END DO 178 184 DO ji = 1, jpi 179 u_ice_sn(ji,2,2) = zuice(ji,2 )180 u_ice_sn(ji,4,2) = zuice(ji,nlcj-1)185 u_ice_sn(ji,2,2) = uice_agr(ji,2 ) 186 u_ice_sn(ji,4,2) = uice_agr(ji,nlcj-1) 181 187 END DO 182 188 DO jj = 1, 2 183 189 DO ji = 1, jpi 184 v_ice_sn(ji,jj ,2) = zvice(ji,jj )185 v_ice_sn(ji,jj+2,2) = zvice(ji,nlcj+jj-3)190 v_ice_sn(ji,jj ,2) = vice_agr(ji,jj ) 191 v_ice_sn(ji,jj+2,2) = vice_agr(ji,nlcj+jj-3) 186 192 END DO 187 193 END DO … … 334 340 !! we are in inside a new parent ice time step 335 341 !!----------------------------------------------------------------------- 336 REAL(wp), DIMENSION(jpi,jpj,7) :: ztab337 342 INTEGER :: ji,jj,jn 338 343 !!----------------------------------------------------------------------- … … 345 350 adv_ice_sn(:,:,:,1) = adv_ice_sn(:,:,:,2) 346 351 ! interpolation of boundaries 347 ztab(:,:,:) = 0. 352 IF(.NOT.ALLOCATED(tabice_agr))THEN 353 ALLOCATE(tabice_agr(jpi,jpj,7)) 354 ENDIF 355 tabice_agr(:,:,:) = 0. 348 356 Agrif_SpecialValue=-9999. 349 357 Agrif_UseSpecialValue = .TRUE. 350 CALL Agrif_Bc_variable( ztab,adv_ice_id ,procname=interp_adv_ice,calledweight=1. )358 CALL Agrif_Bc_variable( adv_ice_id ,procname=interp_adv_ice,calledweight=1. ) 351 359 Agrif_SpecialValue=0. 352 360 Agrif_UseSpecialValue = .FALSE. … … 356 364 DO jj = 1, jpj 357 365 DO ji=1,2 358 adv_ice_oe(ji ,jj,jn,2) = ztab(ji ,jj,jn)359 adv_ice_oe(ji+2,jj,jn,2) = ztab(nlci-2+ji,jj,jn)366 adv_ice_oe(ji ,jj,jn,2) = tabice_agr(ji ,jj,jn) 367 adv_ice_oe(ji+2,jj,jn,2) = tabice_agr(nlci-2+ji,jj,jn) 360 368 END DO 361 369 END DO … … 365 373 Do jj =1,2 366 374 DO ji = 1, jpi 367 adv_ice_sn(ji,jj ,jn,2) = ztab(ji,jj ,jn)368 adv_ice_sn(ji,jj+2,jn,2) = ztab(ji,nlcj-2+jj,jn)375 adv_ice_sn(ji,jj ,jn,2) = tabice_agr(ji,jj ,jn) 376 adv_ice_sn(ji,jj+2,jn,2) = tabice_agr(ji,nlcj-2+jj,jn) 369 377 END DO 370 378 END DO … … 384 392 INTEGER :: ji,jj,jn 385 393 REAL(wp) :: zalpha 386 REAL(wp), DIMENSION(jpi,jpj,7) :: ztab394 REAL(wp), DIMENSION(jpi,jpj,7) :: tabice_agr 387 395 !!----------------------------------------------------------------------- 388 396 ! … … 391 399 zalpha = REAL(lim_nbstep,wp) / (Agrif_Rhot()*Agrif_PArent(nn_fsbc)/REAL(nn_fsbc)) 392 400 ! 393 ztab(:,:,:) = 0.e0401 tabice_agr(:,:,:) = 0.e0 394 402 DO jn =1,7 395 403 DO jj =1,2 396 404 DO ji = 1, jpi 397 ztab(ji,jj ,jn) = (1-zalpha)*adv_ice_sn(ji,jj ,jn,1) + zalpha*adv_ice_sn(ji,jj ,jn,2)398 ztab(ji,nlcj-2+jj ,jn) = (1-zalpha)*adv_ice_sn(ji,jj+2,jn,1) + zalpha*adv_ice_sn(ji,jj+2,jn,2)405 tabice_agr(ji,jj ,jn) = (1-zalpha)*adv_ice_sn(ji,jj ,jn,1) + zalpha*adv_ice_sn(ji,jj ,jn,2) 406 tabice_agr(ji,nlcj-2+jj ,jn) = (1-zalpha)*adv_ice_sn(ji,jj+2,jn,1) + zalpha*adv_ice_sn(ji,jj+2,jn,2) 399 407 END DO 400 408 END DO … … 404 412 DO jj = 1, jpj 405 413 DO ji=1,2 406 ztab(ji ,jj,jn) = (1-zalpha)*adv_ice_oe(ji ,jj,jn,1) + zalpha*adv_ice_oe(ji ,jj,jn,2)407 ztab(nlci-2+ji,jj,jn) = (1-zalpha)*adv_ice_oe(ji+2,jj,jn,1) + zalpha*adv_ice_oe(ji+2,jj,jn,2)414 tabice_agr(ji ,jj,jn) = (1-zalpha)*adv_ice_oe(ji ,jj,jn,1) + zalpha*adv_ice_oe(ji ,jj,jn,2) 415 tabice_agr(nlci-2+ji,jj,jn) = (1-zalpha)*adv_ice_oe(ji+2,jj,jn,1) + zalpha*adv_ice_oe(ji+2,jj,jn,2) 408 416 END DO 409 417 END DO 410 418 END DO 411 419 ! 412 CALL parcoursT( ztab(:,:, 1), frld )413 CALL parcoursT( ztab(:,:, 2), hicif )414 CALL parcoursT( ztab(:,:, 3), hsnif )415 CALL parcoursT( ztab(:,:, 4), tbif(:,:,1) )416 CALL parcoursT( ztab(:,:, 5), tbif(:,:,2) )417 CALL parcoursT( ztab(:,:, 6), tbif(:,:,3) )418 CALL parcoursT( ztab(:,:, 7), qstoif )420 CALL parcoursT( tabice_agr(:,:, 1), frld ) 421 CALL parcoursT( tabice_agr(:,:, 2), hicif ) 422 CALL parcoursT( tabice_agr(:,:, 3), hsnif ) 423 CALL parcoursT( tabice_agr(:,:, 4), tbif(:,:,1) ) 424 CALL parcoursT( tabice_agr(:,:, 5), tbif(:,:,2) ) 425 CALL parcoursT( tabice_agr(:,:, 6), tbif(:,:,3) ) 426 CALL parcoursT( tabice_agr(:,:, 7), qstoif ) 419 427 ! 420 428 END SUBROUTINE agrif_trp_lim2 … … 499 507 500 508 501 SUBROUTINE interp_u_ice( tabres, i1, i2, j1, j2 )509 SUBROUTINE interp_u_ice( tabres, i1, i2, j1, j2, before ) 502 510 !!----------------------------------------------------------------------- 503 511 !! *** ROUTINE interp_u_ice *** … … 505 513 INTEGER, INTENT(in) :: i1, i2, j1, j2 506 514 REAL(wp), DIMENSION(i1:i2,j1:j2), INTENT(inout) :: tabres 515 LOGICAL, INTENT(in) :: before 507 516 !! 508 517 INTEGER :: ji,jj … … 510 519 ! 511 520 #if defined key_lim2_vp 512 DO jj=MAX(j1,2),j2 513 DO ji=MAX(i1,2),i2 514 IF( tmu(ji,jj) == 0. ) THEN 515 tabres(ji,jj) = -9999. 516 ELSE 517 tabres(ji,jj) = e2f(ji-1,jj-1) * u_ice(ji,jj) 518 ENDIF 519 END DO 520 END DO 521 IF( before ) THEN 522 DO jj=MAX(j1,2),j2 523 DO ji=MAX(i1,2),i2 524 IF( tmu(ji,jj) == 0. ) THEN 525 tabres(ji,jj) = -9999. 526 ELSE 527 tabres(ji,jj) = e2f(ji-1,jj-1) * u_ice(ji,jj) 528 ENDIF 529 END DO 530 END DO 531 ENDIF 521 532 #else 522 DO jj= j1, j2 523 DO ji= i1, i2 524 IF( umask(ji,jj,1) == 0. ) THEN 525 tabres(ji,jj) = -9999. 526 ELSE 527 tabres(ji,jj) = e2u(ji,jj) * u_ice(ji,jj) 528 ENDIF 529 END DO 530 END DO 533 IF( before ) THEN 534 DO jj= j1, j2 535 DO ji= i1, i2 536 IF( umask(ji,jj,1) == 0. ) THEN 537 tabres(ji,jj) = -9999. 538 ELSE 539 tabres(ji,jj) = e2u(ji,jj) * u_ice(ji,jj) 540 ENDIF 541 END DO 542 END DO 543 ENDIF 531 544 #endif 532 545 END SUBROUTINE interp_u_ice 533 546 534 547 535 SUBROUTINE interp_v_ice( tabres, i1, i2, j1, j2 )548 SUBROUTINE interp_v_ice( tabres, i1, i2, j1, j2, before ) 536 549 !!----------------------------------------------------------------------- 537 550 !! *** ROUTINE interp_v_ice *** … … 539 552 INTEGER, INTENT(in) :: i1, i2, j1, j2 540 553 REAL(wp), DIMENSION(i1:i2,j1:j2), INTENT(inout) :: tabres 554 LOGICAL, INTENT(in) :: before 541 555 !! 542 556 INTEGER :: ji, jj … … 544 558 ! 545 559 #if defined key_lim2_vp 546 DO jj=MAX(j1,2),j2 547 DO ji=MAX(i1,2),i2 548 IF( tmu(ji,jj) == 0. ) THEN 549 tabres(ji,jj) = -9999. 550 ELSE 551 tabres(ji,jj) = e1f(ji-1,jj-1) * v_ice(ji,jj) 552 ENDIF 553 END DO 554 END DO 560 IF( before ) THEN 561 DO jj=MAX(j1,2),j2 562 DO ji=MAX(i1,2),i2 563 IF( tmu(ji,jj) == 0. ) THEN 564 tabres(ji,jj) = -9999. 565 ELSE 566 tabres(ji,jj) = e1f(ji-1,jj-1) * v_ice(ji,jj) 567 ENDIF 568 END DO 569 END DO 570 ENDIF 555 571 #else 556 DO jj= j1 ,j2 557 DO ji = i1, i2 558 IF( vmask(ji,jj,1) == 0. ) THEN 559 tabres(ji,jj) = -9999. 560 ELSE 561 tabres(ji,jj) = e1v(ji,jj) * v_ice(ji,jj) 562 ENDIF 563 END DO 564 END DO 572 IF( before ) THEN 573 DO jj= j1 ,j2 574 DO ji = i1, i2 575 IF( vmask(ji,jj,1) == 0. ) THEN 576 tabres(ji,jj) = -9999. 577 ELSE 578 tabres(ji,jj) = e1v(ji,jj) * v_ice(ji,jj) 579 ENDIF 580 END DO 581 END DO 582 ENDIF 565 583 #endif 566 584 END SUBROUTINE interp_v_ice 567 585 568 586 569 SUBROUTINE interp_adv_ice( tabres, i1, i2, j1, j2 )587 SUBROUTINE interp_adv_ice( tabres, i1, i2, j1, j2, before ) 570 588 !!----------------------------------------------------------------------- 571 589 !! *** ROUTINE interp_adv_ice *** … … 577 595 INTEGER, INTENT(in) :: i1, i2, j1, j2 578 596 REAL(wp), DIMENSION(i1:i2,j1:j2,7), INTENT(inout) :: tabres 597 LOGICAL, INTENT(in) :: before 579 598 !! 580 599 INTEGER :: ji, jj, jk 581 600 !!----------------------------------------------------------------------- 582 601 ! 583 DO jj=j1,j2 584 DO ji=i1,i2 585 IF( tms(ji,jj) == 0. ) THEN 586 tabres(ji,jj,:) = -9999. 587 ELSE 588 tabres(ji,jj, 1) = frld (ji,jj) 589 tabres(ji,jj, 2) = hicif (ji,jj) 590 tabres(ji,jj, 3) = hsnif (ji,jj) 591 tabres(ji,jj, 4) = tbif (ji,jj,1) 592 tabres(ji,jj, 5) = tbif (ji,jj,2) 593 tabres(ji,jj, 6) = tbif (ji,jj,3) 594 tabres(ji,jj, 7) = qstoif(ji,jj) 595 ENDIF 596 END DO 597 END DO 602 IF( before ) THEN 603 DO jj=j1,j2 604 DO ji=i1,i2 605 IF( tms(ji,jj) == 0. ) THEN 606 tabres(ji,jj,:) = -9999. 607 ELSE 608 tabres(ji,jj, 1) = frld (ji,jj) 609 tabres(ji,jj, 2) = hicif (ji,jj) 610 tabres(ji,jj, 3) = hsnif (ji,jj) 611 tabres(ji,jj, 4) = tbif (ji,jj,1) 612 tabres(ji,jj, 5) = tbif (ji,jj,2) 613 tabres(ji,jj, 6) = tbif (ji,jj,3) 614 tabres(ji,jj, 7) = qstoif(ji,jj) 615 ENDIF 616 END DO 617 END DO 618 ENDIF 598 619 ! 599 620 END SUBROUTINE interp_adv_ice
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