MODULE wrk_nemo !!====================================================================== !! *** MODULE wrk_nemo *** !! NEMO work space: define and allocate work-space arrays used in !! all components of NEMO !!====================================================================== !! History : 4.0 ! 2011-01 (A Porter) Original code !!---------------------------------------------------------------------- !!---------------------------------------------------------------------- !! wrk_alloc : get work space arrays !! wrk_dealloc : release work space arrays !! !! 1d arrays: !! REAL(wp), POINTER, DIMENSION(:) :: arr1, arr2, ... arr10 !! or !! INTEGER, POINTER, DIMENSION(:) :: arr1, arr2, ... arr10 !! ... !! CALL wrk_alloc( nx, arr1, arr2, ... arr10, kistart = kistart ) !! ... !! CALL wrk_dealloc( nx, arr1, arr2, ... arr10, kistart = kistart) !! with: !! - arr*: 1d arrays. real or (not and) integer !! - nx: size of the 1d arr* arrays !! - arr2, ..., arr10: optional parameters !! - kistart: optional parameter to lower bound of the 1st dimension (default = 1) !! !! 2d arrays: !! REAL(wp), POINTER, DIMENSION(:,:) :: arr1, arr2, ... arr10 !! or !! INTEGER, POINTER, DIMENSION(:,:) :: arr1, arr2, ... arr10 !! ... !! CALL wrk_alloc( nx, ny, arr1, arr2, ... arr10, kistart = kistart, kjstart = kjstart ) !! ... !! CALL wrk_dealloc( nx, ny, arr1, arr2, ... arr10, kistart = kistart, kjstart = kjstart ) !! with: !! - arr* 2d arrays. real or (not and) integer !! - nx, ny: size of the 2d arr* arrays !! - arr2, ..., arr10: optional parameters !! - kistart, kjstart: optional parameters to lower bound of the 1st/2nd dimension (default = 1) !! !! 3d arrays: !! REAL(wp), POINTER, DIMENSION(:,:,:) :: arr1, arr2, ... arr10 !! or !! INTEGER, POINTER, DIMENSION(:,:,:) :: arr1, arr2, ... arr10 !! ... !! CALL wrk_alloc( nx, ny, nz, arr1, arr2, ... arr10, kistart = kistart, kjstart = kjstart, kkstart = kkstart ) !! ... !! CALL wrk_dealloc( nx, ny, nz, arr1, arr2, ... arr10, kistart = kistart, kjstart = kjstart, kkstart = kkstart ) !! with: !! - arr* 3d arrays. real or (not and) integer !! - nx, ny, nz: size of the 3d arr* arrays !! - arr2, ..., arr10: optional parameters !! - kistart, kjstart, kkstart: optional parameters to lower bound of the 1st/2nd/3rd dimension (default = 1) !! !! 4d arrays: !! REAL(wp), POINTER, DIMENSION(:,:,:,:) :: arr1, arr2, ... arr10 !! or !! INTEGER, POINTER, DIMENSION(:,:,:,:) :: arr1, arr2, ... arr10 !! ... !! CALL wrk_alloc( nx, ny, nz, nl, arr1, arr2, ... arr10, & !! & kistart = kistart, kjstart = kjstart, kkstart = kkstart, klstart = klstart ) !! ... !! CALL wrk_dealloc( nx, ny, nz, nl, arr1, arr2, ... arr10, & !! & kistart = kistart, kjstart = kjstart, kkstart = kkstart, klstart = klstart ) !! with: !! - arr* 3d arrays. real or (not and) integer !! - nx, ny, nz, nl: size of the 4d arr* arrays !! - arr2, ..., arr10: optional parameters !! - kistart, kjstart, kkstart, klstart: optional parameters to lower bound of the 1st/2nd/3rd/4th dimension (default = 1) !! !!---------------------------------------------------------------------- USE par_oce ! ocean parameters IMPLICIT NONE PRIVATE PUBLIC wrk_alloc, wrk_dealloc, wrk_list INTERFACE wrk_alloc MODULE PROCEDURE wrk_alloc_1dr, wrk_alloc_2dr, wrk_alloc_3dr, wrk_alloc_4dr, & & wrk_alloc_1di, wrk_alloc_2di, wrk_alloc_3di, wrk_alloc_4di END INTERFACE INTERFACE wrk_dealloc MODULE PROCEDURE wrk_dealloc_1dr, wrk_dealloc_2dr, wrk_dealloc_3dr, wrk_dealloc_4dr, & & wrk_dealloc_1di, wrk_dealloc_2di, wrk_dealloc_3di, wrk_dealloc_4di END INTERFACE INTEGER, PARAMETER :: jparray = 1000 INTEGER, PARAMETER :: jpmaxdim = 4 INTEGER, PARAMETER :: jpnotdefined = 0 INTEGER, PARAMETER :: jpinteger = 1 INTEGER, PARAMETER :: jpreal = 2 TYPE leaf LOGICAL :: in_use INTEGER :: indic INTEGER , DIMENSION(:) , POINTER :: iwrk1d => NULL() INTEGER , DIMENSION(:,:) , POINTER :: iwrk2d => NULL() INTEGER , DIMENSION(:,:,:) , POINTER :: iwrk3d => NULL() INTEGER , DIMENSION(:,:,:,:), POINTER :: iwrk4d => NULL() REAL(wp), DIMENSION(:) , POINTER :: zwrk1d => NULL() REAL(wp), DIMENSION(:,:) , POINTER :: zwrk2d => NULL() REAL(wp), DIMENSION(:,:,:) , POINTER :: zwrk3d => NULL() REAL(wp), DIMENSION(:,:,:,:), POINTER :: zwrk4d => NULL() TYPE (leaf), POINTER :: next => NULL() TYPE (leaf), POINTER :: prev => NULL() END TYPE leaf TYPE branch INTEGER :: itype INTEGER, DIMENSION(jpmaxdim) :: ishape, istart TYPE(leaf), POINTER :: start => NULL() TYPE(leaf), POINTER :: current => NULL() END TYPE branch TYPE(branch), SAVE, DIMENSION(jparray) :: tree LOGICAL :: linit = .FALSE. LOGICAL :: ldebug = .FALSE. !!---------------------------------------------------------------------- !! NEMO/OPA 4.0 , NEMO Consortium (2011) !! $Id: wrk_nemo.F90 6139 2018-11-22 12:07:52Z ufla $ !! Software governed by the CeCILL licence (NEMOGCM/NEMO_CeCILL.txt) !!---------------------------------------------------------------------- CONTAINS SUBROUTINE wrk_list ! to list 3d arrays in use, to be duplicated for all cases WRITE(*,*) 'Arrays in use :' ! CALL listage(tree_3d(1)%s_wrk_3d_start) WRITE(*,*) '' END SUBROUTINE wrk_list RECURSIVE SUBROUTINE listage(ptr) TYPE(leaf), POINTER, INTENT(in) :: ptr ! IF( ASSOCIATED(ptr%next) ) CALL listage(ptr%next) WRITE(*,*) ptr%in_use, ptr%indic END SUBROUTINE listage SUBROUTINE wrk_alloc_1dr( kidim, p1d01, p1d02, p1d03, p1d04, p1d05, p1d06, p1d07, p1d08, p1d09, p1d10, kistart ) INTEGER , INTENT(in ) :: kidim ! dimensions size REAL(wp), POINTER, DIMENSION(:), INTENT(inout) :: p1d01 REAL(wp), POINTER, DIMENSION(:), INTENT(inout), OPTIONAL :: p1d02,p1d03,p1d04,p1d05,p1d06,p1d07,p1d08,p1d09,p1d10 INTEGER , INTENT(in ), OPTIONAL :: kistart ! CALL wrk_alloc_xd( kidim, 0, 0, 0, kistart, 1, 1, 1, & & p1d01 = p1d01, p1d02 = p1d02, p1d03 = p1d03, p1d04 = p1d04, p1d05 = p1d05, & & p1d06 = p1d06, p1d07 = p1d07, p1d08 = p1d08, p1d09 = p1d09, p1d10 = p1d10 ) ! #if defined key_init_alloc_zero p1d01 = 0 if (PRESENT(p1d02)) p1d02 = 0 if (PRESENT(p1d03)) p1d03 = 0 if (PRESENT(p1d04)) p1d04 = 0 if (PRESENT(p1d05)) p1d05 = 0 if (PRESENT(p1d06)) p1d06 = 0 if (PRESENT(p1d07)) p1d07 = 0 if (PRESENT(p1d08)) p1d08 = 0 if (PRESENT(p1d09)) p1d09 = 0 if (PRESENT(p1d10)) p1d10 = 0 #elif defined key_init_alloc_huge p1d01 = HUGE(p1d01) if (PRESENT(p1d02)) p1d02 = HUGE(p1d02) if (PRESENT(p1d03)) p1d03 = HUGE(p1d03) if (PRESENT(p1d04)) p1d04 = HUGE(p1d04) if (PRESENT(p1d05)) p1d05 = HUGE(p1d05) if (PRESENT(p1d06)) p1d06 = HUGE(p1d06) if (PRESENT(p1d07)) p1d07 = HUGE(p1d07) if (PRESENT(p1d08)) p1d08 = HUGE(p1d08) if (PRESENT(p1d09)) p1d09 = HUGE(p1d09) if (PRESENT(p1d10)) p1d10 = HUGE(p1d10) #endif ! END SUBROUTINE wrk_alloc_1dr SUBROUTINE wrk_alloc_1di( kidim, k1d01, k1d02, k1d03, k1d04, k1d05, k1d06, k1d07, k1d08, k1d09, k1d10, kistart ) INTEGER , INTENT(in ) :: kidim ! dimensions size INTEGER , POINTER, DIMENSION(:), INTENT(inout) :: k1d01 INTEGER , POINTER, DIMENSION(:), INTENT(inout), OPTIONAL :: k1d02,k1d03,k1d04,k1d05,k1d06,k1d07,k1d08,k1d09,k1d10 INTEGER , INTENT(in ), OPTIONAL :: kistart ! CALL wrk_alloc_xd( kidim, 0, 0, 0, kistart, 1, 1, 1, & & k1d01 = k1d01, k1d02 = k1d02, k1d03 = k1d03, k1d04 = k1d04, k1d05 = k1d05, & & k1d06 = k1d06, k1d07 = k1d07, k1d08 = k1d08, k1d09 = k1d09, k1d10 = k1d10 ) ! END SUBROUTINE wrk_alloc_1di SUBROUTINE wrk_alloc_2dr( kidim, kjdim, p2d01, p2d02, p2d03, p2d04, p2d05, p2d06, p2d07, p2d08, p2d09, p2d10, kistart, kjstart ) INTEGER , INTENT(in ) :: kidim, kjdim ! dimensions size REAL(wp), POINTER, DIMENSION(:,:), INTENT(inout) :: p2d01 REAL(wp), POINTER, DIMENSION(:,:), INTENT(inout), OPTIONAL :: p2d02,p2d03,p2d04,p2d05,p2d06,p2d07,p2d08,p2d09,p2d10 INTEGER , INTENT(in ), OPTIONAL :: kistart, kjstart ! CALL wrk_alloc_xd( kidim, kjdim, 0, 0, kistart, kjstart, 1, 1, & & p2d01 = p2d01, p2d02 = p2d02, p2d03 = p2d03, p2d04 = p2d04, p2d05 = p2d05, & & p2d06 = p2d06, p2d07 = p2d07, p2d08 = p2d08, p2d09 = p2d09, p2d10 = p2d10 ) ! #if defined key_init_alloc_zero p2d01 = 0 if (PRESENT(p2d02)) p2d02 = 0 if (PRESENT(p2d03)) p2d03 = 0 if (PRESENT(p2d04)) p2d04 = 0 if (PRESENT(p2d05)) p2d05 = 0 if (PRESENT(p2d06)) p2d06 = 0 if (PRESENT(p2d07)) p2d07 = 0 if (PRESENT(p2d08)) p2d08 = 0 if (PRESENT(p2d09)) p2d09 = 0 if (PRESENT(p2d10)) p2d10 = 0 #elif defined key_init_alloc_huge p2d01 = HUGE(p2d01) if (PRESENT(p2d02)) p2d02 = HUGE(p2d02) if (PRESENT(p2d03)) p2d03 = HUGE(p2d03) if (PRESENT(p2d04)) p2d04 = HUGE(p2d04) if (PRESENT(p2d05)) p2d05 = HUGE(p2d05) if (PRESENT(p2d06)) p2d06 = HUGE(p2d06) if (PRESENT(p2d07)) p2d07 = HUGE(p2d07) if (PRESENT(p2d08)) p2d08 = HUGE(p2d08) if (PRESENT(p2d09)) p2d09 = HUGE(p2d09) if (PRESENT(p2d10)) p2d10 = HUGE(p2d10) #endif ! END SUBROUTINE wrk_alloc_2dr SUBROUTINE wrk_alloc_2di( kidim, kjdim, k2d01, k2d02, k2d03, k2d04, k2d05, k2d06, k2d07, k2d08, k2d09, k2d10, kistart, kjstart ) INTEGER , INTENT(in ) :: kidim, kjdim ! dimensions size INTEGER , POINTER, DIMENSION(:,:), INTENT(inout) :: k2d01 INTEGER , POINTER, DIMENSION(:,:), INTENT(inout), OPTIONAL :: k2d02,k2d03,k2d04,k2d05,k2d06,k2d07,k2d08,k2d09,k2d10 INTEGER , INTENT(in ), OPTIONAL :: kistart, kjstart ! CALL wrk_alloc_xd( kidim, kjdim, 0, 0, kistart, kjstart, 1, 1, & & k2d01 = k2d01, k2d02 = k2d02, k2d03 = k2d03, k2d04 = k2d04, k2d05 = k2d05, & & k2d06 = k2d06, k2d07 = k2d07, k2d08 = k2d08, k2d09 = k2d09, k2d10 = k2d10 ) ! END SUBROUTINE wrk_alloc_2di SUBROUTINE wrk_alloc_3dr( kidim, kjdim, kkdim, p3d01, p3d02, p3d03, p3d04, p3d05, p3d06, p3d07, p3d08, p3d09, p3d10, & & kistart, kjstart, kkstart ) INTEGER , INTENT(in ) :: kidim, kjdim, kkdim ! dimensions size REAL(wp), POINTER, DIMENSION(:,:,:), INTENT(inout) :: p3d01 REAL(wp), POINTER, DIMENSION(:,:,:), INTENT(inout), OPTIONAL :: p3d02,p3d03,p3d04,p3d05,p3d06,p3d07,p3d08,p3d09,p3d10 INTEGER , INTENT(in ), OPTIONAL :: kistart, kjstart, kkstart ! CALL wrk_alloc_xd( kidim, kjdim, kkdim, 0, kistart, kjstart, kkstart, 1, & & p3d01 = p3d01, p3d02 = p3d02, p3d03 = p3d03, p3d04 = p3d04, p3d05 = p3d05, & & p3d06 = p3d06, p3d07 = p3d07, p3d08 = p3d08, p3d09 = p3d09, p3d10 = p3d10 ) ! #if defined key_init_alloc_zero p3d01 = 0 if (PRESENT(p3d02)) p3d02 = 0 if (PRESENT(p3d03)) p3d03 = 0 if (PRESENT(p3d04)) p3d04 = 0 if (PRESENT(p3d05)) p3d05 = 0 if (PRESENT(p3d06)) p3d06 = 0 if (PRESENT(p3d07)) p3d07 = 0 if (PRESENT(p3d08)) p3d08 = 0 if (PRESENT(p3d09)) p3d09 = 0 if (PRESENT(p3d10)) p3d10 = 0 #elif defined key_init_alloc_huge p3d01 = HUGE(p3d01) if (PRESENT(p3d02)) p3d02 = HUGE(p3d02) if (PRESENT(p3d03)) p3d03 = HUGE(p3d03) if (PRESENT(p3d04)) p3d04 = HUGE(p3d04) if (PRESENT(p3d05)) p3d05 = HUGE(p3d05) if (PRESENT(p3d06)) p3d06 = HUGE(p3d06) if (PRESENT(p3d07)) p3d07 = HUGE(p3d07) if (PRESENT(p3d08)) p3d08 = HUGE(p3d08) if (PRESENT(p3d09)) p3d09 = HUGE(p3d09) if (PRESENT(p3d10)) p3d10 = HUGE(p3d10) #endif ! END SUBROUTINE wrk_alloc_3dr SUBROUTINE wrk_alloc_3di( kidim, kjdim, kkdim, k3d01, k3d02, k3d03, k3d04, k3d05, k3d06, k3d07, k3d08, k3d09, k3d10, & & kistart, kjstart, kkstart ) INTEGER , INTENT(in ) :: kidim, kjdim, kkdim ! dimensions size INTEGER , POINTER, DIMENSION(:,:,:), INTENT(inout) :: k3d01 INTEGER , POINTER, DIMENSION(:,:,:), INTENT(inout), OPTIONAL :: k3d02,k3d03,k3d04,k3d05,k3d06,k3d07,k3d08,k3d09,k3d10 INTEGER , INTENT(in ), OPTIONAL :: kistart, kjstart, kkstart ! CALL wrk_alloc_xd( kidim, kjdim, kkdim, 0, kistart, kjstart, kkstart, 1, & & k3d01 = k3d01, k3d02 = k3d02, k3d03 = k3d03, k3d04 = k3d04, k3d05 = k3d05, & & k3d06 = k3d06, k3d07 = k3d07, k3d08 = k3d08, k3d09 = k3d09, k3d10 = k3d10 ) ! END SUBROUTINE wrk_alloc_3di SUBROUTINE wrk_alloc_4dr( kidim, kjdim, kkdim, kldim, p4d01, p4d02, p4d03, p4d04, p4d05, p4d06, p4d07, p4d08, p4d09, p4d10, & & kistart, kjstart, kkstart, klstart ) INTEGER , INTENT(in ) :: kidim, kjdim, kkdim, kldim ! dimensions size REAL(wp), POINTER, DIMENSION(:,:,:,:), INTENT(inout) :: p4d01 REAL(wp), POINTER, DIMENSION(:,:,:,:), INTENT(inout), OPTIONAL :: p4d02,p4d03,p4d04,p4d05,p4d06,p4d07,p4d08,p4d09,p4d10 INTEGER , INTENT(in ), OPTIONAL :: kistart, kjstart, kkstart, klstart ! CALL wrk_alloc_xd( kidim, kjdim, kkdim, kldim, kistart, kjstart, kkstart, klstart, & & p4d01 = p4d01, p4d02 = p4d02, p4d03 = p4d03, p4d04 = p4d04, p4d05 = p4d05, & & p4d06 = p4d06, p4d07 = p4d07, p4d08 = p4d08, p4d09 = p4d09, p4d10 = p4d10 ) ! #if defined key_init_alloc_zero p4d01 = 0 if (PRESENT(p4d02)) p4d02 = 0 if (PRESENT(p4d03)) p4d03 = 0 if (PRESENT(p4d04)) p4d04 = 0 if (PRESENT(p4d05)) p4d05 = 0 if (PRESENT(p4d06)) p4d06 = 0 if (PRESENT(p4d07)) p4d07 = 0 if (PRESENT(p4d08)) p4d08 = 0 if (PRESENT(p4d09)) p4d09 = 0 if (PRESENT(p4d10)) p4d10 = 0 #elif defined key_init_alloc_huge p4d01 = HUGE(p4d01) if (PRESENT(p4d02)) p4d02 = HUGE(p4d02) if (PRESENT(p4d03)) p4d03 = HUGE(p4d03) if (PRESENT(p4d04)) p4d04 = HUGE(p4d04) if (PRESENT(p4d05)) p4d05 = HUGE(p4d05) if (PRESENT(p4d06)) p4d06 = HUGE(p4d06) if (PRESENT(p4d07)) p4d07 = HUGE(p4d07) if (PRESENT(p4d08)) p4d08 = HUGE(p4d08) if (PRESENT(p4d09)) p4d09 = HUGE(p4d09) if (PRESENT(p4d10)) p4d10 = HUGE(p4d10) #endif ! END SUBROUTINE wrk_alloc_4dr SUBROUTINE wrk_alloc_4di( kidim, kjdim, kkdim, kldim, k4d01, k4d02, k4d03, k4d04, k4d05, k4d06, k4d07, k4d08, k4d09, k4d10, & & kistart, kjstart, kkstart, klstart ) INTEGER , INTENT(in ) :: kidim, kjdim, kkdim, kldim ! dimensions size INTEGER , POINTER, DIMENSION(:,:,:,:), INTENT(inout) :: k4d01 INTEGER , POINTER, DIMENSION(:,:,:,:), INTENT(inout), OPTIONAL :: k4d02,k4d03,k4d04,k4d05,k4d06,k4d07,k4d08,k4d09,k4d10 INTEGER , INTENT(in ), OPTIONAL :: kistart, kjstart, kkstart, klstart ! CALL wrk_alloc_xd( kidim, kjdim, kkdim, kldim, kistart, kjstart, kkstart, klstart, & & k4d01 = k4d01, k4d02 = k4d02, k4d03 = k4d03, k4d04 = k4d04, k4d05 = k4d05, & & k4d06 = k4d06, k4d07 = k4d07, k4d08 = k4d08, k4d09 = k4d09, k4d10 = k4d10 ) ! END SUBROUTINE wrk_alloc_4di SUBROUTINE wrk_dealloc_1dr( kidim, p1d01, p1d02, p1d03, p1d04, p1d05, p1d06, p1d07, p1d08, p1d09, p1d10, kistart ) INTEGER , INTENT(in ) :: kidim ! dimensions size REAL(wp), POINTER, DIMENSION(:), INTENT(inout) :: p1d01 REAL(wp), POINTER, DIMENSION(:), INTENT(inout), OPTIONAL :: p1d02,p1d03,p1d04,p1d05,p1d06,p1d07,p1d08,p1d09,p1d10 INTEGER , INTENT(in ), OPTIONAL :: kistart ! INTEGER :: icnt, jn icnt = 1 + COUNT( (/ PRESENT(p1d02),PRESENT(p1d03),PRESENT(p1d04),PRESENT(p1d05), & & PRESENT(p1d06),PRESENT(p1d07),PRESENT(p1d08),PRESENT(p1d09),PRESENT(p1d10) /) ) DO jn = 1, icnt ; CALL wrk_deallocbase( jpreal, kidim, 0, 0, 0, kistart, 1, 1, 1) ; END DO ! END SUBROUTINE wrk_dealloc_1dr SUBROUTINE wrk_dealloc_1di( kidim, k1d01, k1d02, k1d03, k1d04, k1d05, k1d06, k1d07, k1d08, k1d09, k1d10, kistart ) INTEGER , INTENT(in ) :: kidim ! dimensions size INTEGER , POINTER, DIMENSION(:), INTENT(inout) :: k1d01 INTEGER , POINTER, DIMENSION(:), INTENT(inout), OPTIONAL :: k1d02,k1d03,k1d04,k1d05,k1d06,k1d07,k1d08,k1d09,k1d10 INTEGER , INTENT(in ), OPTIONAL :: kistart ! INTEGER :: icnt, jn icnt = 1 + COUNT( (/ PRESENT(k1d02),PRESENT(k1d03),PRESENT(k1d04),PRESENT(k1d05), & & PRESENT(k1d06),PRESENT(k1d07),PRESENT(k1d08),PRESENT(k1d09),PRESENT(k1d10) /) ) DO jn = 1, icnt ; CALL wrk_deallocbase( jpinteger, kidim, 0, 0, 0, kistart, 1, 1, 1 ) ; END DO ! END SUBROUTINE wrk_dealloc_1di SUBROUTINE wrk_dealloc_2dr( kidim, kjdim, p2d01, p2d02, p2d03, p2d04, p2d05, p2d06, p2d07, p2d08, p2d09, p2d10, kistart,kjstart ) INTEGER , INTENT(in ) :: kidim, kjdim ! dimensions size REAL(wp), POINTER, DIMENSION(:,:), INTENT(inout) :: p2d01 REAL(wp), POINTER, DIMENSION(:,:), INTENT(inout), OPTIONAL :: p2d02,p2d03,p2d04,p2d05,p2d06,p2d07,p2d08,p2d09,p2d10 INTEGER , INTENT(in ), OPTIONAL :: kistart, kjstart ! INTEGER :: icnt, jn icnt = 1 + COUNT( (/ PRESENT(p2d02),PRESENT(p2d03),PRESENT(p2d04),PRESENT(p2d05), & & PRESENT(p2d06),PRESENT(p2d07),PRESENT(p2d08),PRESENT(p2d09),PRESENT(p2d10) /) ) DO jn = 1, icnt ; CALL wrk_deallocbase( jpreal, kidim, kjdim, 0, 0, kistart, kjstart, 1, 1 ) ; END DO ! END SUBROUTINE wrk_dealloc_2dr SUBROUTINE wrk_dealloc_2di( kidim, kjdim, k2d01, k2d02, k2d03, k2d04, k2d05, k2d06, k2d07, k2d08, k2d09, k2d10, kistart,kjstart ) INTEGER , INTENT(in ) :: kidim, kjdim ! dimensions size INTEGER , POINTER, DIMENSION(:,:), INTENT(inout) :: k2d01 INTEGER , POINTER, DIMENSION(:,:), INTENT(inout), OPTIONAL :: k2d02,k2d03,k2d04,k2d05,k2d06,k2d07,k2d08,k2d09,k2d10 INTEGER , INTENT(in ), OPTIONAL :: kistart, kjstart ! INTEGER :: icnt, jn icnt = 1 + COUNT( (/ PRESENT(k2d02),PRESENT(k2d03),PRESENT(k2d04),PRESENT(k2d05), & & PRESENT(k2d06),PRESENT(k2d07),PRESENT(k2d08),PRESENT(k2d09),PRESENT(k2d10) /) ) DO jn = 1, icnt ; CALL wrk_deallocbase( jpinteger, kidim, kjdim, 0, 0, kistart, kjstart, 1, 1 ) ; END DO ! END SUBROUTINE wrk_dealloc_2di SUBROUTINE wrk_dealloc_3dr( kidim, kjdim, kkdim, p3d01, p3d02, p3d03, p3d04, p3d05, p3d06, p3d07, p3d08, p3d09, p3d10, & & kistart, kjstart, kkstart ) INTEGER , INTENT(in ) :: kidim, kjdim, kkdim ! dimensions size REAL(wp), POINTER, DIMENSION(:,:,:), INTENT(inout) :: p3d01 REAL(wp), POINTER, DIMENSION(:,:,:), INTENT(inout), OPTIONAL :: p3d02,p3d03,p3d04,p3d05,p3d06,p3d07,p3d08,p3d09,p3d10 INTEGER , INTENT(in ), OPTIONAL :: kistart, kjstart, kkstart ! INTEGER :: icnt, jn icnt = 1 + COUNT( (/ PRESENT(p3d02),PRESENT(p3d03),PRESENT(p3d04),PRESENT(p3d05), & & PRESENT(p3d06),PRESENT(p3d07),PRESENT(p3d08),PRESENT(p3d09),PRESENT(p3d10) /) ) DO jn = 1, icnt ; CALL wrk_deallocbase( jpreal, kidim, kjdim, kkdim, 0, kistart, kjstart, kkstart, 1 ) ; END DO ! END SUBROUTINE wrk_dealloc_3dr SUBROUTINE wrk_dealloc_3di( kidim, kjdim, kkdim, k3d01, k3d02, k3d03, k3d04, k3d05, k3d06, k3d07, k3d08, k3d09, k3d10, & & kistart, kjstart, kkstart ) INTEGER , INTENT(in ) :: kidim, kjdim, kkdim ! dimensions size INTEGER , POINTER, DIMENSION(:,:,:), INTENT(inout) :: k3d01 INTEGER , POINTER, DIMENSION(:,:,:), INTENT(inout), OPTIONAL :: k3d02,k3d03,k3d04,k3d05,k3d06,k3d07,k3d08,k3d09,k3d10 INTEGER , INTENT(in ), OPTIONAL :: kistart, kjstart, kkstart ! INTEGER :: icnt, jn icnt = 1 + COUNT( (/ PRESENT(k3d02),PRESENT(k3d03),PRESENT(k3d04),PRESENT(k3d05), & & PRESENT(k3d06),PRESENT(k3d07),PRESENT(k3d08),PRESENT(k3d09),PRESENT(k3d10) /) ) DO jn = 1, icnt ; CALL wrk_deallocbase( jpinteger, kidim, kjdim, kkdim, 0, kistart, kjstart, kkstart, 1 ) ; END DO ! END SUBROUTINE wrk_dealloc_3di SUBROUTINE wrk_dealloc_4dr( kidim, kjdim, kkdim, kldim, p4d01, p4d02, p4d03, p4d04, p4d05, p4d06, p4d07, p4d08, p4d09, p4d10, & & kistart, kjstart, kkstart, klstart ) INTEGER , INTENT(in ) :: kidim, kjdim, kkdim, kldim ! dimensions size REAL(wp), POINTER, DIMENSION(:,:,:,:), INTENT(inout) :: p4d01 REAL(wp), POINTER, DIMENSION(:,:,:,:), INTENT(inout), OPTIONAL :: p4d02,p4d03,p4d04,p4d05,p4d06,p4d07,p4d08,p4d09,p4d10 INTEGER , INTENT(in ), OPTIONAL :: kistart, kjstart, kkstart, klstart ! INTEGER :: icnt, jn icnt = 1 + COUNT( (/ PRESENT(p4d02),PRESENT(p4d03),PRESENT(p4d04),PRESENT(p4d05), & & PRESENT(p4d06),PRESENT(p4d07),PRESENT(p4d08),PRESENT(p4d09),PRESENT(p4d10) /) ) DO jn = 1, icnt ; CALL wrk_deallocbase( jpreal, kidim, kjdim, kkdim, kldim, kistart, kjstart, kkstart, klstart ) ; END DO ! END SUBROUTINE wrk_dealloc_4dr SUBROUTINE wrk_dealloc_4di( kidim, kjdim, kkdim, kldim, k4d01, k4d02, k4d03, k4d04, k4d05, k4d06, k4d07, k4d08, k4d09, k4d10, & & kistart, kjstart, kkstart, klstart ) INTEGER , INTENT(in ) :: kidim, kjdim, kkdim, kldim ! dimensions size INTEGER , POINTER, DIMENSION(:,:,:,:), INTENT(inout) :: k4d01 INTEGER , POINTER, DIMENSION(:,:,:,:), INTENT(inout), OPTIONAL :: k4d02,k4d03,k4d04,k4d05,k4d06,k4d07,k4d08,k4d09,k4d10 INTEGER , INTENT(in ), OPTIONAL :: kistart, kjstart, kkstart, klstart ! INTEGER :: icnt, jn icnt = 1 + COUNT( (/ PRESENT(k4d02),PRESENT(k4d03),PRESENT(k4d04),PRESENT(k4d05), & & PRESENT(k4d06),PRESENT(k4d07),PRESENT(k4d08),PRESENT(k4d09),PRESENT(k4d10) /) ) DO jn = 1, icnt ; CALL wrk_deallocbase( jpinteger, kidim, kjdim, kkdim, kldim, kistart, kjstart, kkstart, klstart ) ; END DO ! END SUBROUTINE wrk_dealloc_4di SUBROUTINE wrk_alloc_xd( kidim, kjdim, kkdim, kldim, & & kisrt, kjsrt, kksrt, klsrt, & & k1d01, k1d02, k1d03, k1d04, k1d05, k1d06, k1d07, k1d08, k1d09, k1d10, & & k2d01, k2d02, k2d03, k2d04, k2d05, k2d06, k2d07, k2d08, k2d09, k2d10, & & k3d01, k3d02, k3d03, k3d04, k3d05, k3d06, k3d07, k3d08, k3d09, k3d10, & & k4d01, k4d02, k4d03, k4d04, k4d05, k4d06, k4d07, k4d08, k4d09, k4d10, & & p1d01, p1d02, p1d03, p1d04, p1d05, p1d06, p1d07, p1d08, p1d09, p1d10, & & p2d01, p2d02, p2d03, p2d04, p2d05, p2d06, p2d07, p2d08, p2d09, p2d10, & & p3d01, p3d02, p3d03, p3d04, p3d05, p3d06, p3d07, p3d08, p3d09, p3d10, & & p4d01, p4d02, p4d03, p4d04, p4d05, p4d06, p4d07, p4d08, p4d09, p4d10 ) INTEGER ,INTENT(in ) :: kidim, kjdim, kkdim, kldim ! dimensions size INTEGER ,INTENT(in ),OPTIONAL:: kisrt, kjsrt, kksrt, klsrt INTEGER , POINTER, DIMENSION(: ),INTENT(inout),OPTIONAL:: k1d01,k1d02,k1d03,k1d04,k1d05,k1d06,k1d07,k1d08,k1d09,k1d10 INTEGER , POINTER, DIMENSION(:,: ),INTENT(inout),OPTIONAL:: k2d01,k2d02,k2d03,k2d04,k2d05,k2d06,k2d07,k2d08,k2d09,k2d10 INTEGER , POINTER, DIMENSION(:,:,: ),INTENT(inout),OPTIONAL:: k3d01,k3d02,k3d03,k3d04,k3d05,k3d06,k3d07,k3d08,k3d09,k3d10 INTEGER , POINTER, DIMENSION(:,:,:,:),INTENT(inout),OPTIONAL:: k4d01,k4d02,k4d03,k4d04,k4d05,k4d06,k4d07,k4d08,k4d09,k4d10 REAL(wp), POINTER, DIMENSION(: ),INTENT(inout),OPTIONAL:: p1d01,p1d02,p1d03,p1d04,p1d05,p1d06,p1d07,p1d08,p1d09,p1d10 REAL(wp), POINTER, DIMENSION(:,: ),INTENT(inout),OPTIONAL:: p2d01,p2d02,p2d03,p2d04,p2d05,p2d06,p2d07,p2d08,p2d09,p2d10 REAL(wp), POINTER, DIMENSION(:,:,: ),INTENT(inout),OPTIONAL:: p3d01,p3d02,p3d03,p3d04,p3d05,p3d06,p3d07,p3d08,p3d09,p3d10 REAL(wp), POINTER, DIMENSION(:,:,:,:),INTENT(inout),OPTIONAL:: p4d01,p4d02,p4d03,p4d04,p4d05,p4d06,p4d07,p4d08,p4d09,p4d10 ! LOGICAL :: llpres INTEGER :: jn, iisrt, ijsrt, iksrt, ilsrt ! IF( .NOT. linit ) THEN tree(:)%itype = jpnotdefined DO jn = 1, jparray ; tree(jn)%ishape(:) = 0 ; tree(jn)%istart(:) = 0 ; END DO linit = .TRUE. ENDIF IF( PRESENT(kisrt) ) THEN ; iisrt = kisrt ; ELSE ; iisrt = 1 ; ENDIF IF( PRESENT(kjsrt) ) THEN ; ijsrt = kjsrt ; ELSE ; ijsrt = 1 ; ENDIF IF( PRESENT(kksrt) ) THEN ; iksrt = kksrt ; ELSE ; iksrt = 1 ; ENDIF IF( PRESENT(klsrt) ) THEN ; ilsrt = klsrt ; ELSE ; ilsrt = 1 ; ENDIF llpres = PRESENT(k1d01) .OR. PRESENT(k2d01) .OR. PRESENT(k3d01) .OR. PRESENT(k4d01) & & .OR. PRESENT(p1d01) .OR. PRESENT(p2d01) .OR. PRESENT(p3d01) .OR. PRESENT(p4d01) IF( llpres ) CALL wrk_allocbase( kidim, kjdim, kkdim, kldim, iisrt, ijsrt, iksrt, ilsrt, & & k1d01, k2d01, k3d01, k4d01, p1d01, p2d01, p3d01, p4d01 ) llpres = PRESENT(k1d02) .OR. PRESENT(k2d02) .OR. PRESENT(k3d02) .OR. PRESENT(k4d02) & & .OR. PRESENT(p1d02) .OR. PRESENT(p2d02) .OR. PRESENT(p3d02) .OR. PRESENT(p4d02) IF( llpres ) CALL wrk_allocbase( kidim, kjdim, kkdim, kldim, iisrt, ijsrt, iksrt, ilsrt, & & k1d02, k2d02, k3d02, k4d02, p1d02, p2d02, p3d02, p4d02 ) llpres = PRESENT(k1d03) .OR. PRESENT(k2d03) .OR. PRESENT(k3d03) .OR. PRESENT(k4d03) & & .OR. PRESENT(p1d03) .OR. PRESENT(p2d03) .OR. PRESENT(p3d03) .OR. PRESENT(p4d03) IF( llpres ) CALL wrk_allocbase( kidim, kjdim, kkdim, kldim, iisrt, ijsrt, iksrt, ilsrt, & & k1d03, k2d03, k3d03, k4d03, p1d03, p2d03, p3d03, p4d03 ) llpres = PRESENT(k1d04) .OR. PRESENT(k2d04) .OR. PRESENT(k3d04) .OR. PRESENT(k4d04) & & .OR. PRESENT(p1d04) .OR. PRESENT(p2d04) .OR. PRESENT(p3d04) .OR. PRESENT(p4d04) IF( llpres ) CALL wrk_allocbase( kidim, kjdim, kkdim, kldim, iisrt, ijsrt, iksrt, ilsrt, & & k1d04, k2d04, k3d04, k4d04, p1d04, p2d04, p3d04, p4d04 ) llpres = PRESENT(k1d05) .OR. PRESENT(k2d05) .OR. PRESENT(k3d05) .OR. PRESENT(k4d05) & & .OR. PRESENT(p1d05) .OR. PRESENT(p2d05) .OR. PRESENT(p3d05) .OR. PRESENT(p4d05) IF( llpres ) CALL wrk_allocbase( kidim, kjdim, kkdim, kldim, iisrt, ijsrt, iksrt, ilsrt, & & k1d05, k2d05, k3d05, k4d05, p1d05, p2d05, p3d05, p4d05 ) llpres = PRESENT(k1d06) .OR. PRESENT(k2d06) .OR. PRESENT(k3d06) .OR. PRESENT(k4d06) & & .OR. PRESENT(p1d06) .OR. PRESENT(p2d06) .OR. PRESENT(p3d06) .OR. PRESENT(p4d06) IF( llpres ) CALL wrk_allocbase( kidim, kjdim, kkdim, kldim, iisrt, ijsrt, iksrt, ilsrt, & & k1d06, k2d06, k3d06, k4d06, p1d06, p2d06, p3d06, p4d06 ) llpres = PRESENT(k1d07) .OR. PRESENT(k2d07) .OR. PRESENT(k3d07) .OR. PRESENT(k4d07) & & .OR. PRESENT(p1d07) .OR. PRESENT(p2d07) .OR. PRESENT(p3d07) .OR. PRESENT(p4d07) IF( llpres ) CALL wrk_allocbase( kidim, kjdim, kkdim, kldim, iisrt, ijsrt, iksrt, ilsrt, & & k1d07, k2d07, k3d07, k4d07, p1d07, p2d07, p3d07, p4d07 ) llpres = PRESENT(k1d08) .OR. PRESENT(k2d08) .OR. PRESENT(k3d08) .OR. PRESENT(k4d08) & & .OR. PRESENT(p1d08) .OR. PRESENT(p2d08) .OR. PRESENT(p3d08) .OR. PRESENT(p4d08) IF( llpres ) CALL wrk_allocbase( kidim, kjdim, kkdim, kldim, iisrt, ijsrt, iksrt, ilsrt, & & k1d08, k2d08, k3d08, k4d08, p1d08, p2d08, p3d08, p4d08 ) llpres = PRESENT(k1d09) .OR. PRESENT(k2d09) .OR. PRESENT(k3d09) .OR. PRESENT(k4d09) & & .OR. PRESENT(p1d09) .OR. PRESENT(p2d09) .OR. PRESENT(p3d09) .OR. PRESENT(p4d09) IF( llpres ) CALL wrk_allocbase( kidim, kjdim, kkdim, kldim, iisrt, ijsrt, iksrt, ilsrt, & & k1d09, k2d09, k3d09, k4d09, p1d09, p2d09, p3d09, p4d09 ) llpres = PRESENT(k1d10) .OR. PRESENT(k2d10) .OR. PRESENT(k3d10) .OR. PRESENT(k4d10) & & .OR. PRESENT(p1d10) .OR. PRESENT(p2d10) .OR. PRESENT(p3d10) .OR. PRESENT(p4d10) IF( llpres ) CALL wrk_allocbase( kidim, kjdim, kkdim, kldim, iisrt, ijsrt, iksrt, ilsrt, & & k1d10, k2d10, k3d10, k4d10, p1d10, p2d10, p3d10, p4d10 ) END SUBROUTINE wrk_alloc_xd SUBROUTINE wrk_allocbase( kidim , kjdim , kkdim , kldim , kisrt , kjsrt , kksrt , klsrt , & & kwrk1d, kwrk2d, kwrk3d, kwrk4d, pwrk1d, pwrk2d, pwrk3d, pwrk4d ) INTEGER , INTENT(in ) :: kidim, kjdim, kkdim, kldim INTEGER , INTENT(in ) :: kisrt, kjsrt, kksrt, klsrt INTEGER , POINTER, DIMENSION(:) , INTENT(inout), OPTIONAL :: kwrk1d INTEGER , POINTER, DIMENSION(:,:) , INTENT(inout), OPTIONAL :: kwrk2d INTEGER , POINTER, DIMENSION(:,:,:) , INTENT(inout), OPTIONAL :: kwrk3d INTEGER , POINTER, DIMENSION(:,:,:,:), INTENT(inout), OPTIONAL :: kwrk4d REAL(wp), POINTER, DIMENSION(:) , INTENT(inout), OPTIONAL :: pwrk1d REAL(wp), POINTER, DIMENSION(:,:) , INTENT(inout), OPTIONAL :: pwrk2d REAL(wp), POINTER, DIMENSION(:,:,:) , INTENT(inout), OPTIONAL :: pwrk3d REAL(wp), POINTER, DIMENSION(:,:,:,:), INTENT(inout), OPTIONAL :: pwrk4d ! INTEGER, DIMENSION(jpmaxdim) :: ishape, isrt, iend INTEGER :: itype INTEGER :: ii ! define the shape to be given to the work array ishape(:) = (/ kidim, kjdim, kkdim, kldim /) ! define the starting index of the dimension shape to be given to the work array isrt (:) = (/ kisrt, kjsrt, kksrt, klsrt /) iend (:) = ishape(:) + isrt(:) - 1 ! is it integer or real array? IF( PRESENT(kwrk1d) .OR. PRESENT(kwrk2d) .OR. PRESENT(kwrk3d) .OR. PRESENT(kwrk4d) ) itype = jpinteger IF( PRESENT(pwrk1d) .OR. PRESENT(pwrk2d) .OR. PRESENT(pwrk3d) .OR. PRESENT(pwrk4d) ) itype = jpreal ! find the branch with the matching shape, staring index and type or get the first "free" branch ii = 1 DO WHILE( ( ANY( tree(ii)%ishape /= ishape ) .OR. ANY( tree(ii)%istart /= isrt ) .OR. tree(ii)%itype /= itype ) & & .AND. SUM( tree(ii)%ishape ) /= 0 ) ii = ii + 1 IF (ii > jparray) STOP ! increase the value of jparray (should not be needed as already very big!) END DO IF( SUM( tree(ii)%ishape ) == 0 ) THEN ! create a new branch IF(ldebug) PRINT *, 'create new branch ', ii,ishape, isrt, itype tree(ii)%itype = itype ! define the type of this branch tree(ii)%ishape(:) = ishape(:) ! define the shape of this branch tree(ii)%istart(:) = isrt(:) ! define the lower bounds of this branch ALLOCATE( tree(ii)%start ) ! allocate its start ALLOCATE( tree(ii)%current) ! allocate the current leaf (the first leaf) tree(ii)%start%in_use = .FALSE. ! Never use the start as work array tree(ii)%start%indic = 0 tree(ii)%start%prev => NULL() ! nothing before the start tree(ii)%start%next => tree(ii)%current ! first leaf link to the start tree(ii)%current%in_use = .FALSE. ! first leaf is not yet used tree(ii)%current%indic = 1 ! first leaf tree(ii)%current%prev => tree(ii)%start ! previous leaf is the start tree(ii)%current%next => NULL() ! next leaf is not yet defined ! allocate the array of the first leaf IF( PRESENT(kwrk1d) ) ALLOCATE( tree(ii)%current%iwrk1d(isrt(1):iend(1) ) ) IF( PRESENT(kwrk2d) ) ALLOCATE( tree(ii)%current%iwrk2d(isrt(1):iend(1),isrt(2):iend(2) ) ) IF( PRESENT(kwrk3d) ) ALLOCATE( tree(ii)%current%iwrk3d(isrt(1):iend(1),isrt(2):iend(2),isrt(3):iend(3) ) ) IF( PRESENT(kwrk4d) ) ALLOCATE( tree(ii)%current%iwrk4d(isrt(1):iend(1),isrt(2):iend(2),isrt(3):iend(3),isrt(4):iend(4)) ) IF( PRESENT(pwrk1d) ) ALLOCATE( tree(ii)%current%zwrk1d(isrt(1):iend(1) ) ) IF( PRESENT(pwrk2d) ) ALLOCATE( tree(ii)%current%zwrk2d(isrt(1):iend(1),isrt(2):iend(2) ) ) IF( PRESENT(pwrk3d) ) ALLOCATE( tree(ii)%current%zwrk3d(isrt(1):iend(1),isrt(2):iend(2),isrt(3):iend(3) ) ) IF( PRESENT(pwrk4d) ) ALLOCATE( tree(ii)%current%zwrk4d(isrt(1):iend(1),isrt(2):iend(2),isrt(3):iend(3),isrt(4):iend(4)) ) ELSE IF( .NOT. ASSOCIATED(tree(ii)%current%next) ) THEN ! all leafs used -> define a new one ALLOCATE( tree(ii)%current%next ) ! allocate the new leaf tree(ii)%current%next%in_use = .FALSE. ! this leaf is not yet used tree(ii)%current%next%indic = tree(ii)%current%indic + 1 ! number of this leaf IF(ldebug) PRINT *, 'add a leaf ', ii, tree(ii)%current%indic tree(ii)%current%next%prev => tree(ii)%current ! previous leaf of the new leaf is the current leaf tree(ii)%current%next%next => NULL() ! next leaf is not yet defined tree(ii)%current => tree(ii)%current%next ! the current leaf becomes the new one ! allocate the array of the new leaf IF( PRESENT(kwrk1d) ) ALLOCATE( tree(ii)%current%iwrk1d(isrt(1):iend(1) ) ) IF( PRESENT(kwrk2d) ) ALLOCATE( tree(ii)%current%iwrk2d(isrt(1):iend(1),isrt(2):iend(2) ) ) IF( PRESENT(kwrk3d) ) ALLOCATE( tree(ii)%current%iwrk3d(isrt(1):iend(1),isrt(2):iend(2),isrt(3):iend(3) ) ) IF( PRESENT(kwrk4d) ) ALLOCATE( tree(ii)%current%iwrk4d(isrt(1):iend(1),isrt(2):iend(2),isrt(3):iend(3),isrt(4):iend(4)) ) IF( PRESENT(pwrk1d) ) ALLOCATE( tree(ii)%current%zwrk1d(isrt(1):iend(1) ) ) IF( PRESENT(pwrk2d) ) ALLOCATE( tree(ii)%current%zwrk2d(isrt(1):iend(1),isrt(2):iend(2) ) ) IF( PRESENT(pwrk3d) ) ALLOCATE( tree(ii)%current%zwrk3d(isrt(1):iend(1),isrt(2):iend(2),isrt(3):iend(3) ) ) IF( PRESENT(pwrk4d) ) ALLOCATE( tree(ii)%current%zwrk4d(isrt(1):iend(1),isrt(2):iend(2),isrt(3):iend(3),isrt(4):iend(4)) ) ELSE tree(ii)%current => tree(ii)%current%next ! the current leaf becomes the next one ENDIF ! ! use the array of the current leaf as a work array IF( PRESENT(kwrk1d) ) kwrk1d => tree(ii)%current%iwrk1d IF( PRESENT(kwrk2d) ) kwrk2d => tree(ii)%current%iwrk2d IF( PRESENT(kwrk3d) ) kwrk3d => tree(ii)%current%iwrk3d IF( PRESENT(kwrk4d) ) kwrk4d => tree(ii)%current%iwrk4d IF( PRESENT(pwrk1d) ) pwrk1d => tree(ii)%current%zwrk1d IF( PRESENT(pwrk2d) ) pwrk2d => tree(ii)%current%zwrk2d IF( PRESENT(pwrk3d) ) pwrk3d => tree(ii)%current%zwrk3d IF( PRESENT(pwrk4d) ) pwrk4d => tree(ii)%current%zwrk4d tree(ii)%current%in_use = .TRUE. ! this leaf is now used ! END SUBROUTINE wrk_allocbase SUBROUTINE wrk_deallocbase( ktype, kidim, kjdim, kkdim, kldim, kisrt, kjsrt, kksrt, klsrt ) INTEGER, INTENT(in ) :: ktype INTEGER, INTENT(in ) :: kidim, kjdim, kkdim, kldim INTEGER, INTENT(in ), OPTIONAL :: kisrt, kjsrt, kksrt, klsrt ! INTEGER, DIMENSION(jpmaxdim) :: ishape, istart INTEGER :: ii ishape(:) = (/ kidim, kjdim, kkdim, kldim /) IF( PRESENT(kisrt) ) THEN ; istart(1) = kisrt ; ELSE ; istart(1) = 1 ; ENDIF IF( PRESENT(kjsrt) ) THEN ; istart(2) = kjsrt ; ELSE ; istart(2) = 1 ; ENDIF IF( PRESENT(kksrt) ) THEN ; istart(3) = kksrt ; ELSE ; istart(3) = 1 ; ENDIF IF( PRESENT(klsrt) ) THEN ; istart(4) = klsrt ; ELSE ; istart(4) = 1 ; ENDIF ! find the branch with the matcing shape and type or get the first "free" branch ii = 1 DO WHILE( ANY( tree(ii)%ishape /= ishape ) .OR. ANY( tree(ii)%istart /= istart ) .OR. tree(ii)%itype /= ktype ) ii = ii + 1 END DO ! tree(ii)%current%in_use = .FALSE. ! current leaf is no more used tree(ii)%current => tree(ii)%current%prev ! move back toward previous leaf ! END SUBROUTINE wrk_deallocbase SUBROUTINE wrk_stop(cmsg) !!---------------------------------------------------------------------- !! *** ROUTINE wrk_stop *** !! ** Purpose : to act as local alternative to ctl_stop. !! Avoids dependency on in_out_manager module. !!---------------------------------------------------------------------- CHARACTER(LEN=*), INTENT(in) :: cmsg !!---------------------------------------------------------------------- ! ! WRITE(kumout, cform_err2) WRITE(*,*) TRIM(cmsg) ! ARPDBG - would like to CALL mppstop here to force a stop but that ! introduces a dependency on lib_mpp. Could CALL mpi_abort() directly ! but that's fairly brutal. Better to rely on CALLing routine to ! deal with the error passed back from the wrk_X routine? !CALL mppstop ! END SUBROUTINE wrk_stop !!===================================================================== END MODULE wrk_nemo