[3] | 1 | MODULE obcdta |
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[2797] | 2 | !!====================================================================== |
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| 3 | !! *** MODULE obcdta *** |
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| 4 | !! Open boundary data : read the data for the unstructured open boundaries. |
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| 5 | !!====================================================================== |
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| 6 | !! History : 1.0 ! 2005-01 (J. Chanut, A. Sellar) Original code |
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| 7 | !! - ! 2007-01 (D. Storkey) Update to use IOM module |
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| 8 | !! - ! 2007-07 (D. Storkey) add obc_dta_fla |
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| 9 | !! 3.0 ! 2008-04 (NEMO team) add in the reference version |
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| 10 | !! 3.3 ! 2010-09 (E.O'Dea) modifications for Shelf configurations |
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| 11 | !! 3.3 ! 2010-09 (D.Storkey) add ice boundary conditions |
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| 12 | !! 3.4 ???????????????? |
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| 13 | !!---------------------------------------------------------------------- |
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[3] | 14 | #if defined key_obc |
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[2797] | 15 | !!---------------------------------------------------------------------- |
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| 16 | !! 'key_obc' Open Boundary Conditions |
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| 17 | !!---------------------------------------------------------------------- |
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| 18 | !! obc_dta : read external data along open boundaries from file |
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| 19 | !! obc_dta_init : initialise arrays etc for reading of external data |
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| 20 | !!---------------------------------------------------------------------- |
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| 21 | USE oce ! ocean dynamics and tracers |
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[2166] | 22 | USE dom_oce ! ocean space and time domain |
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| 23 | USE phycst ! physical constants |
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| 24 | USE obc_oce ! ocean open boundary conditions |
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[2797] | 25 | USE obctides ! tidal forcing at boundaries |
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| 26 | USE fldread ! read input fields |
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| 27 | USE iom ! IOM library |
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[2166] | 28 | USE in_out_manager ! I/O logical units |
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[2797] | 29 | #if defined key_lim2 |
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| 30 | USE ice_2 |
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| 31 | #endif |
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[3] | 32 | |
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[2166] | 33 | IMPLICIT NONE |
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| 34 | PRIVATE |
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[3] | 35 | |
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[2797] | 36 | PUBLIC obc_dta ! routine called by step.F90 and dynspg_ts.F90 |
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| 37 | PUBLIC obc_dta_init ! routine called by nemogcm.F90 |
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[353] | 38 | |
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[2797] | 39 | INTEGER, ALLOCATABLE, DIMENSION(:) :: nb_obc_fld ! Number of fields to update for each boundary set. |
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| 40 | INTEGER :: nb_obc_fld_sum ! Total number of fields to update for all boundary sets. |
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[367] | 41 | |
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[2797] | 42 | TYPE(FLD), PUBLIC, ALLOCATABLE, DIMENSION(:), TARGET :: bf ! structure of input fields (file informations, fields read) |
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[367] | 43 | |
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[2797] | 44 | TYPE(MAP_POINTER), ALLOCATABLE, DIMENSION(:) :: nbmap_ptr ! array of pointers to nbmap |
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[1151] | 45 | |
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[1156] | 46 | !!---------------------------------------------------------------------- |
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[2528] | 47 | !! NEMO/OPA 3.3 , NEMO Consortium (2010) |
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[2797] | 48 | !! $Id$ |
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| 49 | !! Software governed by the CeCILL licence (NEMOGCM/NEMO_CeCILL.txt) |
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[1156] | 50 | !!---------------------------------------------------------------------- |
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[3] | 51 | CONTAINS |
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| 52 | |
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[2797] | 53 | SUBROUTINE obc_dta( kt, jit ) |
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| 54 | !!---------------------------------------------------------------------- |
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| 55 | !! *** SUBROUTINE obc_dta *** |
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[2166] | 56 | !! |
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[2797] | 57 | !! ** Purpose : Update external data for open boundary conditions |
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[2166] | 58 | !! |
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[2797] | 59 | !! ** Method : Use fldread.F90 |
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| 60 | !! |
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| 61 | !!---------------------------------------------------------------------- |
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| 62 | INTEGER, INTENT( in ) :: kt ! ocean time-step index |
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| 63 | INTEGER, INTENT( in ), OPTIONAL :: jit ! subcycle time-step index (for timesplitting option) |
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| 64 | !! |
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| 65 | INTEGER :: ib_obc, jfld, jstart, jend ! local indices |
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| 66 | INTEGER, POINTER, DIMENSION(:) :: nblen, nblenrim ! short cuts |
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| 67 | !! |
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[2166] | 68 | !!--------------------------------------------------------------------------- |
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[367] | 69 | |
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[2797] | 70 | ! for nn_dtactl = 0, initialise data arrays once for all |
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| 71 | ! from initial conditions |
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| 72 | !------------------------------------------------------- |
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| 73 | IF( kt .eq. 1 .and. .not. PRESENT(jit) ) THEN |
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[35] | 74 | |
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[2797] | 75 | DO ib_obc = 1, nb_obc |
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| 76 | IF( nn_dtactl(ib_obc) .eq. 0 ) THEN |
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[35] | 77 | |
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[2797] | 78 | !!! TO BE DONE !!! |
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[3] | 79 | |
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[2797] | 80 | ENDIF |
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| 81 | ENDDO |
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[3] | 82 | |
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[2166] | 83 | ENDIF |
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[367] | 84 | |
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[2797] | 85 | ! for nn_dtactl = 1, update external data from files |
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| 86 | !--------------------------------------------------- |
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| 87 | |
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| 88 | jstart = 1 |
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| 89 | DO ib_obc = 1, nb_obc |
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| 90 | IF( nn_dtactl(ib_obc) .eq. 1 ) THEN |
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| 91 | |
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| 92 | IF( PRESENT(jit) ) THEN |
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| 93 | ! Update barotropic boundary conditions only |
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| 94 | ! jit is optional argument for fld_read |
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| 95 | IF( nn_dyn2d(ib_obc) .gt. 0 ) THEN |
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| 96 | jend = jstart + 2 |
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| 97 | CALL fld_read( kt=kt, kn_fsbc=1, sd=bf(jstart:jend), map=nbmap_ptr(jstart:jend), jit=jit ) |
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| 98 | ENDIF |
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| 99 | ELSE |
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| 100 | jend = jstart + nb_obc_fld(ib_obc) - 1 |
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| 101 | CALL fld_read( kt=kt, kn_fsbc=1, sd=bf(jstart:jend ), map=nbmap_ptr(jstart:jend), timeshift=1 ) |
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| 102 | ENDIF |
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| 103 | jstart = jend+1 |
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[3] | 104 | |
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[2797] | 105 | END IF ! nn_dtactl(ib_obc) = 1 |
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| 106 | END DO ! ib_obc |
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[1151] | 107 | |
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[2797] | 108 | END SUBROUTINE obc_dta |
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[1151] | 109 | |
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| 110 | |
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[2797] | 111 | SUBROUTINE obc_dta_init |
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| 112 | !!---------------------------------------------------------------------- |
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| 113 | !! *** SUBROUTINE obc_dta_init *** |
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| 114 | !! |
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| 115 | !! ** Purpose : Initialise arrays for reading of external data |
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| 116 | !! for open boundary conditions |
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[2166] | 117 | !! |
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[2797] | 118 | !! ** Method : Use fldread.F90 |
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| 119 | !! |
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| 120 | !!---------------------------------------------------------------------- |
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| 121 | INTEGER :: ib_obc, jfld, jstart, jend, ierror ! local indices |
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| 122 | !! |
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| 123 | CHARACTER(len=100) :: cn_dir ! Root directory for location of data files |
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| 124 | CHARACTER(len=100), DIMENSION(nb_obc) :: cn_dir_array ! Root directory for location of data files |
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| 125 | INTEGER :: ilen_global ! Max length required for global obc dta arrays |
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| 126 | INTEGER, ALLOCATABLE, DIMENSION(:) :: ilen1, ilen3 ! size of 1st and 3rd dimensions of local arrays |
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| 127 | INTEGER, ALLOCATABLE, DIMENSION(:) :: iobc ! obc set for a particular jfld |
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| 128 | INTEGER, ALLOCATABLE, DIMENSION(:) :: igrid ! index for grid type (1,2,3 = T,U,V) |
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| 129 | INTEGER, POINTER, DIMENSION(:) :: nblen, nblenrim ! short cuts |
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| 130 | TYPE(FLD_N), ALLOCATABLE, DIMENSION(:) :: blf_i ! array of namelist information structures |
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| 131 | TYPE(FLD_N) :: bn_tem, bn_sal, bn_u3d, bn_v3d ! |
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| 132 | TYPE(FLD_N) :: bn_ssh, bn_u2d, bn_v2d ! informations about the fields to be read |
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| 133 | #if defined key_lim2 |
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| 134 | TYPE(FLD_N) :: bn_frld, bn_hicif, bn_hsnif ! |
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| 135 | #endif |
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| 136 | NAMELIST/namobc_dta/ cn_dir, bn_tem, bn_sal, bn_u3d, bn_v3d, bn_ssh, bn_u2d, bn_v2d |
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| 137 | #if defined key_lim2 |
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| 138 | NAMELIST/namobc_dta/ bn_frld, bn_hicif, bn_hsnif |
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| 139 | #endif |
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| 140 | !!--------------------------------------------------------------------------- |
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[1151] | 141 | |
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[2797] | 142 | ! Work out how many fields there are to read in and allocate arrays |
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| 143 | ! ----------------------------------------------------------------- |
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| 144 | ALLOCATE( nb_obc_fld(nb_obc) ) |
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| 145 | nb_obc_fld(:) = 0 |
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| 146 | DO ib_obc = 1, nb_obc |
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| 147 | IF( nn_dtactl(ib_obc) .eq. 1 ) THEN |
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| 148 | IF( nn_dyn2d(ib_obc) .gt. 0 ) THEN |
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| 149 | nb_obc_fld(ib_obc) = nb_obc_fld(ib_obc) + 3 |
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| 150 | ENDIF |
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| 151 | IF( nn_dyn3d(ib_obc) .gt. 0 ) THEN |
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| 152 | nb_obc_fld(ib_obc) = nb_obc_fld(ib_obc) + 2 |
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| 153 | ENDIF |
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| 154 | IF( nn_tra(ib_obc) .gt. 0 ) THEN |
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| 155 | nb_obc_fld(ib_obc) = nb_obc_fld(ib_obc) + 2 |
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| 156 | ENDIF |
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| 157 | #if defined key_lim2 |
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| 158 | IF( nn_ice_lim2(ib_obc) .gt. 0 ) THEN |
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| 159 | nb_obc_fld(ib_obc) = nb_obc_fld(ib_obc) + 3 |
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| 160 | ENDIF |
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| 161 | #endif |
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[2166] | 162 | ENDIF |
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[2797] | 163 | ENDDO |
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[1151] | 164 | |
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[2797] | 165 | nb_obc_fld_sum = SUM( nb_obc_fld ) |
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[1151] | 166 | |
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[2797] | 167 | ALLOCATE( bf(nb_obc_fld_sum), STAT=ierror ) |
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| 168 | IF( ierror > 0 ) THEN |
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| 169 | CALL ctl_stop( 'obc_dta: unable to allocate bf structure' ) ; RETURN |
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[2166] | 170 | ENDIF |
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[2797] | 171 | ALLOCATE( blf_i(nb_obc_fld_sum), STAT=ierror ) |
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| 172 | IF( ierror > 0 ) THEN |
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| 173 | CALL ctl_stop( 'obc_dta: unable to allocate blf_i structure' ) ; RETURN |
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[2166] | 174 | ENDIF |
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[2797] | 175 | ALLOCATE( nbmap_ptr(nb_obc_fld_sum), STAT=ierror ) |
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| 176 | IF( ierror > 0 ) THEN |
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| 177 | CALL ctl_stop( 'obc_dta: unable to allocate nbmap_ptr structure' ) ; RETURN |
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[2166] | 178 | ENDIF |
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[2797] | 179 | ALLOCATE( ilen1(nb_obc_fld_sum), ilen3(nb_obc_fld_sum) ) |
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| 180 | ALLOCATE( iobc(nb_obc_fld_sum) ) |
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| 181 | ALLOCATE( igrid(nb_obc_fld_sum) ) |
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[1151] | 182 | |
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[2797] | 183 | ! Read namelists |
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| 184 | ! -------------- |
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| 185 | REWIND(numnam) |
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| 186 | jfld = 0 |
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| 187 | DO ib_obc = 1, nb_obc |
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| 188 | IF( nn_dtactl(ib_obc) .eq. 1 ) THEN |
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| 189 | ! set file information |
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| 190 | cn_dir = './' ! directory in which the model is executed |
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| 191 | ! ... default values (NB: frequency positive => hours, negative => months) |
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| 192 | ! ! file ! frequency ! variable ! time intep ! clim ! 'yearly' or ! weights ! rotation ! |
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| 193 | ! ! name ! (hours) ! name ! (T/F) ! (T/F) ! 'monthly' ! filename ! pairs ! |
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| 194 | bn_ssh = FLD_N( 'obc_ssh' , 24 , 'sossheig' , .false. , .false. , 'yearly' , '' , '' ) |
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| 195 | bn_u2d = FLD_N( 'obc_vel2d_u' , 24 , 'vobtcrtx' , .false. , .false. , 'yearly' , '' , '' ) |
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| 196 | bn_v2d = FLD_N( 'obc_vel2d_v' , 24 , 'vobtcrty' , .false. , .false. , 'yearly' , '' , '' ) |
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| 197 | bn_u3d = FLD_N( 'obc_vel3d_u' , 24 , 'vozocrtx' , .false. , .false. , 'yearly' , '' , '' ) |
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| 198 | bn_v3d = FLD_N( 'obc_vel3d_v' , 24 , 'vomecrty' , .false. , .false. , 'yearly' , '' , '' ) |
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| 199 | bn_tem = FLD_N( 'obc_tem' , 24 , 'votemper' , .false. , .false. , 'yearly' , '' , '' ) |
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| 200 | bn_sal = FLD_N( 'obc_sal' , 24 , 'vosaline' , .false. , .false. , 'yearly' , '' , '' ) |
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| 201 | #if defined key_lim2 |
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| 202 | bn_frld = FLD_N( 'obc_frld' , 24 , 'ildsconc' , .false. , .false. , 'yearly' , '' , '' ) |
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| 203 | bn_hicif = FLD_N( 'obc_hicif' , 24 , 'iicethic' , .false. , .false. , 'yearly' , '' , '' ) |
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| 204 | bn_hsnif = FLD_N( 'obc_hsnif' , 24 , 'isnothic' , .false. , .false. , 'yearly' , '' , '' ) |
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| 205 | #endif |
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[1151] | 206 | |
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[2797] | 207 | ! Important NOT to rewind here. |
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| 208 | READ( numnam, namobc_dta ) |
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[1151] | 209 | |
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[2797] | 210 | cn_dir_array(ib_obc) = cn_dir |
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[1151] | 211 | |
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[2797] | 212 | nblen => idx_obc(ib_obc)%nblen |
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| 213 | nblenrim => idx_obc(ib_obc)%nblenrim |
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[1151] | 214 | |
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[2797] | 215 | ! Only read in necessary fields for this set. |
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| 216 | ! Important that barotropic variables come first. |
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| 217 | IF( nn_dyn2d(ib_obc) .gt. 0 ) THEN |
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[1151] | 218 | |
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[2797] | 219 | jfld = jfld + 1 |
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| 220 | blf_i(jfld) = bn_ssh |
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| 221 | iobc(jfld) = ib_obc |
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| 222 | igrid(jfld) = 1 |
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| 223 | IF( nn_dyn2d(ib_obc) .eq. jp_frs ) THEN |
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| 224 | ilen1(jfld) = nblen(igrid(jfld)) |
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| 225 | ELSE |
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| 226 | ilen1(jfld) = nblenrim(igrid(jfld)) |
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| 227 | ENDIF |
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| 228 | ilen3(jfld) = 1 |
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[1151] | 229 | |
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[2797] | 230 | jfld = jfld + 1 |
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| 231 | blf_i(jfld) = bn_u2d |
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| 232 | iobc(jfld) = ib_obc |
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| 233 | igrid(jfld) = 2 |
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| 234 | IF( nn_dyn2d(ib_obc) .eq. jp_frs ) THEN |
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| 235 | ilen1(jfld) = nblen(igrid(jfld)) |
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| 236 | ELSE |
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| 237 | ilen1(jfld) = nblenrim(igrid(jfld)) |
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| 238 | ENDIF |
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| 239 | ilen3(jfld) = 1 |
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[1151] | 240 | |
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[2797] | 241 | jfld = jfld + 1 |
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| 242 | blf_i(jfld) = bn_v2d |
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| 243 | iobc(jfld) = ib_obc |
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| 244 | igrid(jfld) = 3 |
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| 245 | IF( nn_dyn2d(ib_obc) .eq. jp_frs ) THEN |
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| 246 | ilen1(jfld) = nblen(igrid(jfld)) |
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| 247 | ELSE |
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| 248 | ilen1(jfld) = nblenrim(igrid(jfld)) |
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| 249 | ENDIF |
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| 250 | ilen3(jfld) = 1 |
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[1151] | 251 | |
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[2166] | 252 | ENDIF |
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[3] | 253 | |
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[2797] | 254 | ! baroclinic velocities |
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| 255 | IF( nn_dyn3d(ib_obc) .gt. 0 ) THEN |
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[367] | 256 | |
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[2797] | 257 | jfld = jfld + 1 |
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| 258 | blf_i(jfld) = bn_u3d |
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| 259 | iobc(jfld) = ib_obc |
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| 260 | igrid(jfld) = 2 |
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| 261 | IF( nn_dyn3d(ib_obc) .eq. jp_frs ) THEN |
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| 262 | ilen1(jfld) = nblen(igrid(jfld)) |
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| 263 | ELSE |
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| 264 | ilen1(jfld) = nblenrim(igrid(jfld)) |
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| 265 | ENDIF |
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| 266 | ilen3(jfld) = jpk |
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[367] | 267 | |
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[2797] | 268 | jfld = jfld + 1 |
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| 269 | blf_i(jfld) = bn_v3d |
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| 270 | iobc(jfld) = ib_obc |
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| 271 | igrid(jfld) = 3 |
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| 272 | IF( nn_dyn3d(ib_obc) .eq. jp_frs ) THEN |
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| 273 | ilen1(jfld) = nblen(igrid(jfld)) |
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| 274 | ELSE |
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| 275 | ilen1(jfld) = nblenrim(igrid(jfld)) |
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| 276 | ENDIF |
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| 277 | ilen3(jfld) = jpk |
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[367] | 278 | |
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[2797] | 279 | ENDIF |
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[367] | 280 | |
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[2797] | 281 | ! temperature and salinity |
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| 282 | IF( nn_tra(ib_obc) .gt. 0 ) THEN |
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[367] | 283 | |
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[2797] | 284 | jfld = jfld + 1 |
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| 285 | blf_i(jfld) = bn_tem |
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| 286 | iobc(jfld) = ib_obc |
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| 287 | igrid(jfld) = 1 |
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| 288 | IF( nn_tra(ib_obc) .eq. jp_frs ) THEN |
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| 289 | ilen1(jfld) = nblen(igrid(jfld)) |
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| 290 | ELSE |
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| 291 | ilen1(jfld) = nblenrim(igrid(jfld)) |
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| 292 | ENDIF |
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| 293 | ilen3(jfld) = jpk |
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[367] | 294 | |
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[2797] | 295 | jfld = jfld + 1 |
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| 296 | blf_i(jfld) = bn_sal |
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| 297 | iobc(jfld) = ib_obc |
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| 298 | igrid(jfld) = 1 |
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| 299 | IF( nn_tra(ib_obc) .eq. jp_frs ) THEN |
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| 300 | ilen1(jfld) = nblen(igrid(jfld)) |
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| 301 | ELSE |
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| 302 | ilen1(jfld) = nblenrim(igrid(jfld)) |
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| 303 | ENDIF |
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| 304 | ilen3(jfld) = jpk |
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[367] | 305 | |
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[2166] | 306 | ENDIF |
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[367] | 307 | |
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[2797] | 308 | #if defined key_lim2 |
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| 309 | ! sea ice |
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| 310 | IF( nn_tra(ib_obc) .gt. 0 ) THEN |
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[367] | 311 | |
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[2797] | 312 | jfld = jfld + 1 |
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| 313 | blf_i(jfld) = bn_frld |
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| 314 | iobc(jfld) = ib_obc |
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| 315 | igrid(jfld) = 1 |
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| 316 | IF( nn_ice_lim2(ib_obc) .eq. jp_frs ) THEN |
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| 317 | ilen1(jfld) = nblen(igrid(jfld)) |
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| 318 | ELSE |
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| 319 | ilen1(jfld) = nblenrim(igrid(jfld)) |
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| 320 | ENDIF |
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| 321 | ilen3(jfld) = 1 |
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[367] | 322 | |
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[2797] | 323 | jfld = jfld + 1 |
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| 324 | blf_i(jfld) = bn_hicif |
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| 325 | iobc(jfld) = ib_obc |
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| 326 | igrid(jfld) = 1 |
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| 327 | IF( nn_ice_lim2(ib_obc) .eq. jp_frs ) THEN |
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| 328 | ilen1(jfld) = nblen(igrid(jfld)) |
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| 329 | ELSE |
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| 330 | ilen1(jfld) = nblenrim(igrid(jfld)) |
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| 331 | ENDIF |
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| 332 | ilen3(jfld) = 1 |
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[367] | 333 | |
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[2797] | 334 | jfld = jfld + 1 |
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| 335 | blf_i(jfld) = bn_hsnif |
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| 336 | iobc(jfld) = ib_obc |
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| 337 | igrid(jfld) = 1 |
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| 338 | IF( nn_ice_lim2(ib_obc) .eq. jp_frs ) THEN |
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| 339 | ilen1(jfld) = nblen(igrid(jfld)) |
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| 340 | ELSE |
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| 341 | ilen1(jfld) = nblenrim(igrid(jfld)) |
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[2166] | 342 | ENDIF |
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[2797] | 343 | ilen3(jfld) = 1 |
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[1151] | 344 | |
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[2166] | 345 | ENDIF |
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[2797] | 346 | #endif |
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| 347 | ENDIF ! nn_dtactl .eq. 1 |
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| 348 | ENDDO ! ib_obc |
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[1151] | 349 | |
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[2797] | 350 | IF( jfld .ne. nb_obc_fld_sum ) THEN |
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| 351 | CALL ctl_stop( 'obc_dta: error in initialisation: jpfld .ne. nb_obc_fld_sum' ) ; RETURN |
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[2166] | 352 | ENDIF |
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[367] | 353 | |
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[2797] | 354 | DO jfld = 1, nb_obc_fld_sum |
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| 355 | ALLOCATE( bf(jfld)%fnow(ilen1(jfld),1,ilen3(jfld)) ) |
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| 356 | IF( blf_i(jfld)%ln_tint ) ALLOCATE( bf(jfld)%fdta(ilen1(jfld),1,ilen3(jfld),2) ) |
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| 357 | nbmap_ptr(jfld)%ptr => idx_obc(iobc(jfld))%nbmap(:,igrid(jfld)) |
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| 358 | ENDDO |
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[1151] | 359 | |
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[2797] | 360 | ! fill bf with blf_i and control print |
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| 361 | !------------------------------------- |
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| 362 | jstart = 1 |
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| 363 | DO ib_obc = 1, nb_obc |
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| 364 | jend = jstart + nb_obc_fld(ib_obc) - 1 |
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| 365 | CALL fld_fill( bf(jstart:jend), blf_i(jstart:jend), cn_dir_array(ib_obc), 'obc_dta', 'open boundary conditions', 'namobc_dta' ) |
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| 366 | jstart = jend + 1 |
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| 367 | ENDDO |
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[1151] | 368 | |
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[2797] | 369 | ! Initialise local boundary data arrays |
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| 370 | ! nn_dtactl=0 : allocate space - will be filled from initial conditions later |
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| 371 | ! nn_dtactl=1 : point to "fnow" arrays |
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| 372 | !------------------------------------- |
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[1151] | 373 | |
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[2797] | 374 | jfld = 0 |
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| 375 | DO ib_obc=1, nb_obc |
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[1151] | 376 | |
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[2797] | 377 | nblen => idx_obc(ib_obc)%nblen |
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| 378 | nblenrim => idx_obc(ib_obc)%nblenrim |
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[1151] | 379 | |
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[2797] | 380 | IF( nn_dtactl(ib_obc) .eq. 0 ) THEN |
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| 381 | |
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| 382 | ! nn_dtactl = 0 |
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| 383 | ! Allocate space |
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| 384 | !--------------- |
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| 385 | IF (nn_dyn2d(ib_obc) .gt. 0) THEN |
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| 386 | IF( nn_dyn2d(ib_obc) .eq. jp_frs ) THEN |
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| 387 | ilen1(1) = nblen(1) |
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| 388 | ilen1(2) = nblen(2) |
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| 389 | ilen1(3) = nblen(3) |
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| 390 | ELSE |
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| 391 | ilen1(1) = nblenrim(1) |
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| 392 | ilen1(2) = nblenrim(2) |
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| 393 | ilen1(3) = nblenrim(3) |
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| 394 | ENDIF |
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| 395 | ALLOCATE( dta_obc(ib_obc)%ssh(ilen1(1)) ) |
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| 396 | ALLOCATE( dta_obc(ib_obc)%u2d(ilen1(2)) ) |
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| 397 | ALLOCATE( dta_obc(ib_obc)%v2d(ilen1(3)) ) |
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[2166] | 398 | ENDIF |
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[2797] | 399 | IF (nn_dyn3d(ib_obc) .gt. 0) THEN |
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| 400 | IF( nn_dyn3d(ib_obc) .eq. jp_frs ) THEN |
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| 401 | ilen1(2) = nblen(2) |
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| 402 | ilen1(3) = nblen(3) |
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| 403 | ELSE |
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| 404 | ilen1(2) = nblenrim(2) |
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| 405 | ilen1(3) = nblenrim(3) |
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| 406 | ENDIF |
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| 407 | ALLOCATE( dta_obc(ib_obc)%u3d(ilen1(2),jpk) ) |
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| 408 | ALLOCATE( dta_obc(ib_obc)%v3d(ilen1(3),jpk) ) |
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[2166] | 409 | ENDIF |
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[2797] | 410 | IF (nn_tra(ib_obc) .gt. 0) THEN |
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| 411 | IF( nn_tra(ib_obc) .eq. jp_frs ) THEN |
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| 412 | ilen1(1) = nblen(1) |
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| 413 | ELSE |
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| 414 | ilen1(1) = nblenrim(1) |
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| 415 | ENDIF |
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| 416 | ALLOCATE( dta_obc(ib_obc)%tem(ilen1(1),jpk) ) |
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| 417 | ALLOCATE( dta_obc(ib_obc)%sal(ilen1(1),jpk) ) |
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[2166] | 418 | ENDIF |
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[2797] | 419 | #if defined key_lim2 |
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| 420 | IF (nn_ice_lim2(ib_obc) .gt. 0) THEN |
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| 421 | IF( nn_ice_lim2(ib_obc) .eq. jp_frs ) THEN |
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| 422 | ilen1(1) = nblen(igrid(jfld)) |
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| 423 | ELSE |
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| 424 | ilen1(1) = nblenrim(igrid(jfld)) |
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| 425 | ENDIF |
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| 426 | ALLOCATE( dta_obc(ib_obc)%ssh(ilen1(1)) ) |
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| 427 | ALLOCATE( dta_obc(ib_obc)%u2d(ilen1(1)) ) |
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| 428 | ALLOCATE( dta_obc(ib_obc)%v2d(ilen1(1)) ) |
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[2166] | 429 | ENDIF |
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[2797] | 430 | #endif |
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[1151] | 431 | |
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[2797] | 432 | ELSE |
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[367] | 433 | |
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[2797] | 434 | ! nn_dtactl = 1 |
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| 435 | ! Set boundary data arrays to point to relevant "fnow" arrays |
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| 436 | !----------------------------------------------------------- |
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| 437 | IF (nn_dyn2d(ib_obc) .gt. 0) THEN |
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| 438 | jfld = jfld + 1 |
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| 439 | dta_obc(ib_obc)%ssh => bf(jfld)%fnow(:,1,1) |
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| 440 | jfld = jfld + 1 |
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| 441 | dta_obc(ib_obc)%u2d => bf(jfld)%fnow(:,1,1) |
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| 442 | jfld = jfld + 1 |
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| 443 | dta_obc(ib_obc)%v2d => bf(jfld)%fnow(:,1,1) |
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[2166] | 444 | ENDIF |
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[2797] | 445 | IF (nn_dyn3d(ib_obc) .gt. 0) THEN |
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| 446 | jfld = jfld + 1 |
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| 447 | dta_obc(ib_obc)%u3d => bf(jfld)%fnow(:,1,:) |
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| 448 | jfld = jfld + 1 |
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| 449 | dta_obc(ib_obc)%v3d => bf(jfld)%fnow(:,1,:) |
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[2166] | 450 | ENDIF |
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[2797] | 451 | IF (nn_tra(ib_obc) .gt. 0) THEN |
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| 452 | jfld = jfld + 1 |
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| 453 | dta_obc(ib_obc)%tem => bf(jfld)%fnow(:,1,:) |
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| 454 | jfld = jfld + 1 |
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| 455 | dta_obc(ib_obc)%sal => bf(jfld)%fnow(:,1,:) |
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[2166] | 456 | ENDIF |
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[2797] | 457 | #if defined key_lim2 |
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| 458 | IF (nn_ice_lim2(ib_obc) .gt. 0) THEN |
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| 459 | jfld = jfld + 1 |
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| 460 | dta_obc(ib_obc)%frld => bf(jfld)%fnow(:,1,1) |
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| 461 | jfld = jfld + 1 |
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| 462 | dta_obc(ib_obc)%hicif => bf(jfld)%fnow(:,1,1) |
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| 463 | jfld = jfld + 1 |
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| 464 | dta_obc(ib_obc)%hsnif => bf(jfld)%fnow(:,1,1) |
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[2166] | 465 | ENDIF |
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[2797] | 466 | #endif |
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[1151] | 467 | |
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[2797] | 468 | ENDIF ! nn_dtactl .eq. 0 |
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[2166] | 469 | |
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[2797] | 470 | ENDDO ! ib_obc |
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[2166] | 471 | |
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[2797] | 472 | END SUBROUTINE obc_dta_init |
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[367] | 473 | |
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| 474 | #else |
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[2797] | 475 | !!---------------------------------------------------------------------- |
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| 476 | !! Dummy module NO Open Boundary Conditions |
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| 477 | !!---------------------------------------------------------------------- |
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| 478 | CONTAINS |
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| 479 | SUBROUTINE obc_dta( kt, jit ) ! Empty routine |
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| 480 | WRITE(*,*) 'obc_dta: You should not have seen this print! error?', kt |
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| 481 | END SUBROUTINE obc_dta |
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| 482 | SUBROUTINE obc_dta_init() ! Empty routine |
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| 483 | WRITE(*,*) 'obc_dta_init: You should not have seen this print! error?' |
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| 484 | END SUBROUTINE obc_dta_init |
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[3] | 485 | #endif |
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[2797] | 486 | |
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[2715] | 487 | !!============================================================================== |
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[2797] | 488 | END MODULE obcdta |
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