[8586] | 1 | #if defined MULTI |
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| 2 | # define NAT_IN(k) cd_nat(k) |
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| 3 | # define SGN_IN(k) psgn(k) |
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| 4 | # define F_SIZE(ptab) kfld |
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| 5 | # if defined DIM_2d |
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[12603] | 6 | # if defined SINGLE_PRECISION |
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| 7 | # define ARRAY_TYPE(i,j,k,l,f) TYPE(PTR_2D_sp),INTENT(inout)::ptab(f) |
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| 8 | # else |
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| 9 | # define ARRAY_TYPE(i,j,k,l,f) TYPE(PTR_2D_dp),INTENT(inout)::ptab(f) |
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| 10 | # endif |
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[8586] | 11 | # define ARRAY_IN(i,j,k,l,f) ptab(f)%pt2d(i,j) |
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| 12 | # define K_SIZE(ptab) 1 |
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| 13 | # define L_SIZE(ptab) 1 |
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| 14 | # endif |
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| 15 | # if defined DIM_3d |
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[12603] | 16 | # if defined SINGLE_PRECISION |
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| 17 | # define ARRAY_TYPE(i,j,k,l,f) TYPE(PTR_3D_sp),INTENT(inout)::ptab(f) |
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| 18 | # else |
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| 19 | # define ARRAY_TYPE(i,j,k,l,f) TYPE(PTR_3D_dp),INTENT(inout)::ptab(f) |
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| 20 | # endif |
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[8586] | 21 | # define ARRAY_IN(i,j,k,l,f) ptab(f)%pt3d(i,j,k) |
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| 22 | # define K_SIZE(ptab) SIZE(ptab(1)%pt3d,3) |
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| 23 | # define L_SIZE(ptab) 1 |
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| 24 | # endif |
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| 25 | # if defined DIM_4d |
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[12603] | 26 | # if defined SINGLE_PRECISION |
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| 27 | # define ARRAY_TYPE(i,j,k,l,f) TYPE(PTR_4D_sp),INTENT(inout)::ptab(f) |
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| 28 | # else |
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| 29 | # define ARRAY_TYPE(i,j,k,l,f) TYPE(PTR_4D_dp),INTENT(inout)::ptab(f) |
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| 30 | # endif |
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[8586] | 31 | # define ARRAY_IN(i,j,k,l,f) ptab(f)%pt4d(i,j,k,l) |
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| 32 | # define K_SIZE(ptab) SIZE(ptab(1)%pt4d,3) |
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| 33 | # define L_SIZE(ptab) SIZE(ptab(1)%pt4d,4) |
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| 34 | # endif |
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| 35 | #else |
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| 36 | ! !== IN: ptab is an array ==! |
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| 37 | # define NAT_IN(k) cd_nat |
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| 38 | # define SGN_IN(k) psgn |
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| 39 | # define F_SIZE(ptab) 1 |
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| 40 | # if defined DIM_2d |
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| 41 | # define ARRAY_IN(i,j,k,l,f) ptab(i,j) |
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| 42 | # define K_SIZE(ptab) 1 |
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| 43 | # define L_SIZE(ptab) 1 |
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| 44 | # endif |
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| 45 | # if defined DIM_3d |
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| 46 | # define ARRAY_IN(i,j,k,l,f) ptab(i,j,k) |
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| 47 | # define K_SIZE(ptab) SIZE(ptab,3) |
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| 48 | # define L_SIZE(ptab) 1 |
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| 49 | # endif |
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| 50 | # if defined DIM_4d |
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| 51 | # define ARRAY_IN(i,j,k,l,f) ptab(i,j,k,l) |
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| 52 | # define K_SIZE(ptab) SIZE(ptab,3) |
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| 53 | # define L_SIZE(ptab) SIZE(ptab,4) |
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| 54 | # endif |
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[12603] | 55 | # if defined SINGLE_PRECISION |
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| 56 | # define ARRAY_TYPE(i,j,k,l,f) REAL(sp),INTENT(inout)::ARRAY_IN(i,j,k,l,f) |
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| 57 | # else |
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| 58 | # define ARRAY_TYPE(i,j,k,l,f) REAL(dp),INTENT(inout)::ARRAY_IN(i,j,k,l,f) |
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| 59 | # endif |
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[8586] | 60 | #endif |
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| 61 | |
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[12603] | 62 | # if defined SINGLE_PRECISION |
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| 63 | # define PRECISION sp |
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| 64 | # else |
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| 65 | # define PRECISION dp |
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| 66 | # endif |
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| 67 | |
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[9012] | 68 | #if defined MULTI |
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[8586] | 69 | SUBROUTINE ROUTINE_NFD( ptab, cd_nat, psgn, kfld ) |
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[9012] | 70 | INTEGER , INTENT(in ) :: kfld ! number of pt3d arrays |
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| 71 | #else |
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| 72 | SUBROUTINE ROUTINE_NFD( ptab, cd_nat, psgn ) |
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| 73 | #endif |
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[8586] | 74 | ARRAY_TYPE(:,:,:,:,:) ! array or pointer of arrays on which the boundary condition is applied |
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| 75 | CHARACTER(len=1) , INTENT(in ) :: NAT_IN(:) ! nature of array grid-points |
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| 76 | REAL(wp) , INTENT(in ) :: SGN_IN(:) ! sign used across the north fold boundary |
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| 77 | ! |
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| 78 | INTEGER :: ji, jj, jk, jl, jh, jf ! dummy loop indices |
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| 79 | INTEGER :: ipi, ipj, ipk, ipl, ipf ! dimension of the input array |
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| 80 | INTEGER :: ijt, iju, ipjm1 |
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| 81 | !!---------------------------------------------------------------------- |
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| 82 | ! |
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| 83 | ipk = K_SIZE(ptab) ! 3rd dimension |
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| 84 | ipl = L_SIZE(ptab) ! 4th - |
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| 85 | ipf = F_SIZE(ptab) ! 5th - use in "multi" case (array of pointers) |
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| 86 | ! |
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| 87 | ! |
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| 88 | SELECT CASE ( jpni ) |
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| 89 | CASE ( 1 ) ; ipj = nlcj ! 1 proc only along the i-direction |
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| 90 | CASE DEFAULT ; ipj = 4 ! several proc along the i-direction |
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| 91 | END SELECT |
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| 92 | ipjm1 = ipj-1 |
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| 93 | |
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| 94 | ! |
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| 95 | DO jf = 1, ipf ! Loop on the number of arrays to be treated |
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| 96 | ! |
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| 97 | SELECT CASE ( npolj ) |
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| 98 | ! |
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| 99 | CASE ( 3 , 4 ) ! * North fold T-point pivot |
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| 100 | ! |
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| 101 | SELECT CASE ( NAT_IN(jf) ) |
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| 102 | CASE ( 'T' , 'W' ) ! T-, W-point |
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| 103 | DO ji = 2, jpiglo |
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| 104 | ijt = jpiglo-ji+2 |
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| 105 | ARRAY_IN(ji,ipj,:,:,jf) = SGN_IN(jf) * ARRAY_IN(ijt,ipj-2,:,:,jf) |
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| 106 | END DO |
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| 107 | ARRAY_IN(1,ipj,:,:,jf) = SGN_IN(jf) * ARRAY_IN(3,ipj-2,:,:,jf) |
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| 108 | DO ji = jpiglo/2+1, jpiglo |
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| 109 | ijt = jpiglo-ji+2 |
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| 110 | ARRAY_IN(ji,ipjm1,:,:,jf) = SGN_IN(jf) * ARRAY_IN(ijt,ipjm1,:,:,jf) |
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| 111 | END DO |
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| 112 | CASE ( 'U' ) ! U-point |
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| 113 | DO ji = 1, jpiglo-1 |
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| 114 | iju = jpiglo-ji+1 |
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| 115 | ARRAY_IN(ji,ipj,:,:,jf) = SGN_IN(jf) * ARRAY_IN(iju,ipj-2,:,:,jf) |
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| 116 | END DO |
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| 117 | ARRAY_IN( 1 ,ipj,:,:,jf) = SGN_IN(jf) * ARRAY_IN( 2 ,ipj-2,:,:,jf) |
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| 118 | ARRAY_IN(jpiglo,ipj,:,:,jf) = SGN_IN(jf) * ARRAY_IN(jpiglo-1,ipj-2,:,:,jf) |
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| 119 | DO ji = jpiglo/2, jpiglo-1 |
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| 120 | iju = jpiglo-ji+1 |
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| 121 | ARRAY_IN(ji,ipjm1,:,:,jf) = SGN_IN(jf) * ARRAY_IN(iju,ipjm1,:,:,jf) |
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| 122 | END DO |
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| 123 | CASE ( 'V' ) ! V-point |
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| 124 | DO ji = 2, jpiglo |
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| 125 | ijt = jpiglo-ji+2 |
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| 126 | ARRAY_IN(ji,ipj-1,:,:,jf) = SGN_IN(jf) * ARRAY_IN(ijt,ipj-2,:,:,jf) |
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| 127 | ARRAY_IN(ji,ipj ,:,:,jf) = SGN_IN(jf) * ARRAY_IN(ijt,ipj-3,:,:,jf) |
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| 128 | END DO |
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| 129 | ARRAY_IN(1,ipj,:,:,jf) = SGN_IN(jf) * ARRAY_IN(3,ipj-3,:,:,jf) |
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| 130 | CASE ( 'F' ) ! F-point |
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| 131 | DO ji = 1, jpiglo-1 |
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| 132 | iju = jpiglo-ji+1 |
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| 133 | ARRAY_IN(ji,ipj-1,:,:,jf) = SGN_IN(jf) * ARRAY_IN(iju,ipj-2,:,:,jf) |
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| 134 | ARRAY_IN(ji,ipj ,:,:,jf) = SGN_IN(jf) * ARRAY_IN(iju,ipj-3,:,:,jf) |
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| 135 | END DO |
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| 136 | ARRAY_IN( 1 ,ipj,:,:,jf) = SGN_IN(jf) * ARRAY_IN( 2 ,ipj-3,:,:,jf) |
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| 137 | ARRAY_IN(jpiglo,ipj,:,:,jf) = SGN_IN(jf) * ARRAY_IN(jpiglo-1,ipj-3,:,:,jf) |
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| 138 | END SELECT |
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| 139 | ! |
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| 140 | CASE ( 5 , 6 ) ! * North fold F-point pivot |
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| 141 | ! |
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| 142 | SELECT CASE ( NAT_IN(jf) ) |
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| 143 | CASE ( 'T' , 'W' ) ! T-, W-point |
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| 144 | DO ji = 1, jpiglo |
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| 145 | ijt = jpiglo-ji+1 |
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| 146 | ARRAY_IN(ji,ipj,:,:,jf) = SGN_IN(jf) * ARRAY_IN(ijt,ipj-1,:,:,jf) |
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| 147 | END DO |
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| 148 | CASE ( 'U' ) ! U-point |
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| 149 | DO ji = 1, jpiglo-1 |
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| 150 | iju = jpiglo-ji |
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| 151 | ARRAY_IN(ji,ipj,:,:,jf) = SGN_IN(jf) * ARRAY_IN(iju,ipj-1,:,:,jf) |
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| 152 | END DO |
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[10425] | 153 | ARRAY_IN(jpiglo,ipj,:,:,jf) = SGN_IN(jf) * ARRAY_IN(jpiglo-2,ipj-1,:,:,jf) |
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[8586] | 154 | CASE ( 'V' ) ! V-point |
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| 155 | DO ji = 1, jpiglo |
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| 156 | ijt = jpiglo-ji+1 |
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| 157 | ARRAY_IN(ji,ipj,:,:,jf) = SGN_IN(jf) * ARRAY_IN(ijt,ipj-2,:,:,jf) |
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| 158 | END DO |
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| 159 | DO ji = jpiglo/2+1, jpiglo |
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| 160 | ijt = jpiglo-ji+1 |
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| 161 | ARRAY_IN(ji,ipjm1,:,:,jf) = SGN_IN(jf) * ARRAY_IN(ijt,ipjm1,:,:,jf) |
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| 162 | END DO |
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| 163 | CASE ( 'F' ) ! F-point |
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| 164 | DO ji = 1, jpiglo-1 |
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| 165 | iju = jpiglo-ji |
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| 166 | ARRAY_IN(ji,ipj ,:,:,jf) = SGN_IN(jf) * ARRAY_IN(iju,ipj-2,:,:,jf) |
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| 167 | END DO |
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[10425] | 168 | ARRAY_IN(jpiglo,ipj,:,:,jf) = SGN_IN(jf) * ARRAY_IN(jpiglo-2,ipj-2,:,:,jf) |
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[8586] | 169 | DO ji = jpiglo/2+1, jpiglo-1 |
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| 170 | iju = jpiglo-ji |
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| 171 | ARRAY_IN(ji,ipjm1,:,:,jf) = SGN_IN(jf) * ARRAY_IN(iju,ipjm1,:,:,jf) |
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| 172 | END DO |
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| 173 | END SELECT |
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| 174 | ! |
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| 175 | CASE DEFAULT ! * closed : the code probably never go through |
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| 176 | ! |
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| 177 | SELECT CASE ( NAT_IN(jf) ) |
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| 178 | CASE ( 'T' , 'U' , 'V' , 'W' ) ! T-, U-, V-, W-points |
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| 179 | ARRAY_IN(:, 1 ,:,:,jf) = 0._wp |
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| 180 | ARRAY_IN(:,ipj,:,:,jf) = 0._wp |
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| 181 | CASE ( 'F' ) ! F-point |
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| 182 | ARRAY_IN(:,ipj,:,:,jf) = 0._wp |
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| 183 | END SELECT |
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| 184 | ! |
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| 185 | END SELECT ! npolj |
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| 186 | ! |
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| 187 | END DO |
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| 188 | ! |
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| 189 | END SUBROUTINE ROUTINE_NFD |
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| 190 | |
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[12603] | 191 | #undef PRECISION |
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[8586] | 192 | #undef ARRAY_TYPE |
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| 193 | #undef ARRAY_IN |
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| 194 | #undef NAT_IN |
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| 195 | #undef SGN_IN |
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| 196 | #undef K_SIZE |
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| 197 | #undef L_SIZE |
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| 198 | #undef F_SIZE |
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