"src/utils/LWPLSR_Call.py" did not exist on "6e35d0f4de2d6411c00df48944a972567845fd00"
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MODULE ARRAYS_MANIP
USE OMP_LIB
USE IEEE_ARITHMETIC, ONLY : IEEE_SIGNALING_NAN, IEEE_VALUE
INTERFACE REPLICATE
MODULE PROCEDURE REPLICATE2
MODULE PROCEDURE REPLICATE3
MODULE PROCEDURE REPLICATE4
MODULE PROCEDURE REPLICATEL
END INTERFACE
INTERFACE NPROMIZE
MODULE PROCEDURE NPROMIZE3
MODULE PROCEDURE NPROMIZE4
MODULE PROCEDURE NPROMIZE5
MODULE PROCEDURE NPROMIZEL
END INTERFACE
INTERFACE INTERPOLATE
MODULE PROCEDURE INTERPOLATE4
MODULE PROCEDURE INTERPOLATE5
MODULE PROCEDURE INTERPOLATEL
END INTERFACE
INTERFACE SET
MODULE PROCEDURE SET3
MODULE PROCEDURE SET4
MODULE PROCEDURE SET5
END INTERFACE
REAL, SAVE :: XNAN
CONTAINS
SUBROUTINE SETUP()
XNAN = IEEE_VALUE (1., IEEE_SIGNALING_NAN)
END SUBROUTINE SETUP
SUBROUTINE REPLICATE4 (KOFF, P)
IMPLICIT NONE
INTEGER :: KOFF
REAL :: P (:,:,:,:)
INTEGER :: I, J
DO I = KOFF+1, SIZE (P, 1)
J = 1 + MODULO (I - 1, KOFF)
P (I, :, :, :) = P (J, :, :, :)
ENDDO
END SUBROUTINE
SUBROUTINE REPLICATE3 (KOFF, P)
IMPLICIT NONE
INTEGER :: KOFF
REAL :: P (:,:,:)
INTEGER :: I, J
DO I = KOFF+1, SIZE (P, 1)
J = 1 + MODULO (I - 1, KOFF)
P (I, :, :) = P (J, :, :)
ENDDO
END SUBROUTINE
SUBROUTINE REPLICATE2 (KOFF, P)
IMPLICIT NONE
INTEGER :: KOFF
REAL :: P (:,:)
INTEGER :: I, J
DO I = KOFF+1, SIZE (P, 1)
J = 1 + MODULO (I - 1, KOFF)
P (I, :) = P (J, :)
ENDDO
END SUBROUTINE
SUBROUTINE REPLICATEL (KOFF, L)
IMPLICIT NONE
INTEGER :: KOFF
LOGICAL :: L (:,:,:)
INTEGER :: I, J
DO I = KOFF+1, SIZE (L, 1)
J = 1 + MODULO (I - 1, KOFF)
L (I, :, :) = L (J, :, :)
ENDDO
END SUBROUTINE
SUBROUTINE NPROMIZE3 (KPROMA, PI, PO)
IMPLICIT NONE
INTEGER :: KPROMA
REAL, INTENT (IN) :: PI (:,:,:)
REAL, INTENT (OUT) :: PO (:,:,:)
INTEGER :: I, J, IGPBLK, IGPTOT, IGP, JLON, JIDIA, JFDIA, IBL
IF (SIZE (PI, 3) /= 1) STOP 1
IGPTOT = SIZE (PI, 1)
IGPBLK = 1 + (IGPTOT-1) / KPROMA
DO IGP = 1, IGPTOT, KPROMA
IBL = 1 + (IGP - 1) / KPROMA
JIDIA = 1
JFDIA = MIN (KPROMA, IGPTOT - (IBL - 1) * KPROMA)
DO JLON = JIDIA, JFDIA
PO (JLON, :, IBL) = PI (IGP + (JLON - 1), :, 1)
ENDDO
DO JLON = JFDIA+1, KPROMA
PO (JLON, :, IBL) = PO (JFDIA, :, IBL)
ENDDO
ENDDO
END SUBROUTINE
SUBROUTINE NPROMIZE4 (KPROMA, PI, PO)
IMPLICIT NONE
INTEGER :: KPROMA
REAL, INTENT (IN) :: PI (:,:,:,:)
REAL, INTENT (OUT) :: PO (:,:,:,:)
INTEGER :: I, J, IGPBLK, IGPTOT, IGP, JLON, JIDIA, JFDIA, IBL
IF (SIZE (PI, 4) /= 1) STOP 1
IGPTOT = SIZE (PI, 1)
IGPBLK = 1 + (IGPTOT-1) / KPROMA
DO IGP = 1, IGPTOT, KPROMA
IBL = 1 + (IGP - 1) / KPROMA
JIDIA = 1
JFDIA = MIN (KPROMA, IGPTOT - (IBL - 1) * KPROMA)
DO JLON = JIDIA, JFDIA
PO (JLON, :, :, IBL) = PI (IGP + (JLON - 1), :, :, 1)
ENDDO
DO JLON = JFDIA+1, KPROMA
PO (JLON, :, :, IBL) = PO (JFDIA, :, :, IBL)
ENDDO
ENDDO
END SUBROUTINE
SUBROUTINE NPROMIZE5 (KPROMA, PI, PO)
IMPLICIT NONE
INTEGER :: KPROMA
REAL, INTENT (IN) :: PI (:,:,:,:,:)
REAL, INTENT (OUT) :: PO (:,:,:,:,:)
INTEGER :: I, J, IGPBLK, IGPTOT, IGP, JLON, JIDIA, JFDIA, IBL
IF (SIZE (PI, 5) /= 1) STOP 1
IGPTOT = SIZE (PI, 1)
IGPBLK = 1 + (IGPTOT-1) / KPROMA
DO IGP = 1, IGPTOT, KPROMA
IBL = 1 + (IGP - 1) / KPROMA
JIDIA = 1
JFDIA = MIN (KPROMA, IGPTOT - (IBL - 1) * KPROMA)
DO JLON = JIDIA, JFDIA
PO (JLON, :, :, :, IBL) = PI (IGP + (JLON - 1), :, :, :, 1)
ENDDO
DO JLON = JFDIA+1, KPROMA
PO (JLON, :, :, :, IBL) = PI (JFDIA, :, :, :, IBL)
ENDDO
ENDDO
END SUBROUTINE
SUBROUTINE NPROMIZEL (KPROMA, LI, LO)
IMPLICIT NONE
INTEGER :: KPROMA
LOGICAL, INTENT (IN) :: LI (:,:,:,:)
LOGICAL, INTENT (OUT) :: LO (:,:,:,:)
INTEGER :: I, J, IGPBLK, IGPTOT, IGP, JLON, JIDIA, JFDIA, IBL
IF (SIZE (LI, 4) /= 1) STOP 1
IGPTOT = SIZE (LI, 1)
IGPBLK = 1 + (IGPTOT-1) / KPROMA
DO IGP = 1, IGPTOT, KPROMA
IBL = 1 + (IGP - 1) / KPROMA
JIDIA = 1
JFDIA = MIN (KPROMA, IGPTOT - (IBL - 1) * KPROMA)
DO JLON = JIDIA, JFDIA
LO (JLON, :, :, IBL) = LI (IGP + (JLON - 1), :, :, 1)
ENDDO
DO JLON = JFDIA+1, KPROMA
LO (JLON, :, :, IBL) = LI (JFDIA, :, :, IBL)
ENDDO
ENDDO
END SUBROUTINE
SUBROUTINE INTERPOLATE4 (KFLEVG, KOFF, P)
IMPLICIT NONE
INTEGER :: KFLEVG, KOFF
REAL, ALLOCATABLE :: P (:,:,:,:)
REAL :: Z (LBOUND (P, 1):UBOUND (P, 1), &
& LBOUND (P, 2):UBOUND (P, 2), &
& LBOUND (P, 3):UBOUND (P, 3), &
& LBOUND (P, 4):UBOUND (P, 4))
INTEGER :: ILEV1A, ILEV1B, ILEV2, NLEV1, NLEV2
REAL :: ZWA, ZWB, ZLEV1, ZLEV2
Z = P
NLEV1 = SIZE (P, 3)
NLEV2 = KFLEVG
DEALLOCATE (P)
ALLOCATE (P (LBOUND (Z, 1):UBOUND (Z, 1), &
& LBOUND (Z, 2):UBOUND (Z, 2), &
& KFLEVG, &
& LBOUND (Z, 4):UBOUND (Z, 4)))
DO ILEV2 = 1, NLEV2
ZLEV2 = REAL (ILEV2 - 1) / REAL (NLEV2 -1)
ZLEV1 = 1. + ZLEV2 * REAL (NLEV1 - 1)
ILEV1B = MIN (CEILING (ZLEV1), NLEV1)
ILEV1A = MAX (FLOOR (ZLEV1), 1)
IF (ILEV1A == ILEV1B) THEN
ZWA = 1.
ZWB = 0.
ELSE
ZWA = REAL (ILEV1B) - ZLEV1
ZWB = ZLEV1 - REAL (ILEV1A)
ENDIF
! WRITE (*, '(" ZLEV2 = ",E12.5," ZLEV1 = ",E12.5," ILEV2 = ",I4," ILEV1A = ",I4," ZWA = ",E12.5," ILEV1B = ",I4," ZWB = ",E12.5)') &
! & ZLEV2, ZLEV1, ILEV2, ILEV1A, ZWA, ILEV1B, ZWB
P (1:KOFF, :, ILEV2, :) = ZWA * Z (1:KOFF, :, ILEV1A, :) + ZWB * Z (1:KOFF, :, ILEV1B, :)
ENDDO
END SUBROUTINE
SUBROUTINE INTERPOLATE5 (KFLEVG, KOFF, P)
IMPLICIT NONE
INTEGER :: KFLEVG, KOFF
REAL, ALLOCATABLE :: P (:,:,:,:,:)
REAL :: Z (LBOUND (P, 1):UBOUND (P, 1), &
& LBOUND (P, 2):UBOUND (P, 2), &
& LBOUND (P, 3):UBOUND (P, 3), &
& LBOUND (P, 4):UBOUND (P, 4), &
& LBOUND (P, 5):UBOUND (P, 5))
INTEGER :: ILEV1A, ILEV1B, ILEV2, NLEV1, NLEV2
REAL :: ZWA, ZWB, ZLEV1, ZLEV2
Z = P
NLEV1 = SIZE (P, 3)
NLEV2 = KFLEVG
DEALLOCATE (P)
ALLOCATE (P (LBOUND (Z, 1):UBOUND (Z, 1), &
& LBOUND (Z, 2):UBOUND (Z, 2), &
& KFLEVG, &
& LBOUND (Z, 4):UBOUND (Z, 4), &
& LBOUND (Z, 5):UBOUND (Z, 5)))
DO ILEV2 = 1, NLEV2
ZLEV2 = REAL (ILEV2 - 1) / REAL (NLEV2 -1)
ZLEV1 = 1. + ZLEV2 * REAL (NLEV1 - 1)
ILEV1B = MIN (CEILING (ZLEV1), NLEV1)
ILEV1A = MAX (FLOOR (ZLEV1), 1)
IF (ILEV1A == ILEV1B) THEN
ZWA = 1.
ZWB = 0.
ELSE
ZWA = REAL (ILEV1B) - ZLEV1
ZWB = ZLEV1 - REAL (ILEV1A)
ENDIF
! WRITE (*, '(" ZLEV2 = ",E12.5," ZLEV1 = ",E12.5," ILEV2 = ",I4," ILEV1A = ",I4," ZWA = ",E12.5," ILEV1B = ",I4," ZWB = ",E12.5)') &
! & ZLEV2, ZLEV1, ILEV2, ILEV1A, ZWA, ILEV1B, ZWB
P (1:KOFF, :, ILEV2, :, :) = ZWA * Z (1:KOFF, :, ILEV1A, :, :) + ZWB * Z (1:KOFF, :, ILEV1B, :, :)
ENDDO
END SUBROUTINE
SUBROUTINE INTERPOLATEL (KFLEVG, KOFF, L)
IMPLICIT NONE
INTEGER :: KFLEVG, KOFF
LOGICAL, ALLOCATABLE :: L (:,:,:,:)
LOGICAL :: Z (LBOUND (L, 1):UBOUND (L, 1), &
& LBOUND (L, 2):UBOUND (L, 2), &
& LBOUND (L, 3):UBOUND (L, 3), &
& LBOUND (L, 4):UBOUND (L, 4))
INTEGER :: ILEV1A, ILEV1B, ILEV2, NLEV1, NLEV2
REAL :: ZWA, ZWB, ZLEV1, ZLEV2
Z = L
NLEV1 = SIZE (L, 3)
NLEV2 = KFLEVG
DEALLOCATE (L)
ALLOCATE (L (LBOUND (Z, 1):UBOUND (Z, 1), &
& LBOUND (Z, 2):UBOUND (Z, 2), &
& KFLEVG, &
& LBOUND (Z, 4):UBOUND (Z, 4)))
DO ILEV2 = 1, NLEV2
ZLEV2 = REAL (ILEV2 - 1) / REAL (NLEV2 -1)
ZLEV1 = 1. + ZLEV2 * REAL (NLEV1 - 1)
ILEV1B = MIN (CEILING (ZLEV1), NLEV1)
ILEV1A = MAX (FLOOR (ZLEV1), 1)
IF (ILEV1A == ILEV1B) THEN
ZWA = 1.
ZWB = 0.
ELSE
ZWA = REAL (ILEV1B) - ZLEV1
ZWB = ZLEV1 - REAL (ILEV1A)
ENDIF
! WRITE (*, '(" ZLEV2 = ",E12.5," ZLEV1 = ",E12.5," ILEV2 = ",I4," ILEV1A = ",I4," ZWA = ",E12.5," ILEV1B = ",I4," ZWB = ",E12.5)') &
! & ZLEV2, ZLEV1, ILEV2, ILEV1A, ZWA, ILEV1B, ZWB
L (1:KOFF, :, ILEV2, :) = ZWA * MERGE(1., 0., Z (1:KOFF, :, ILEV1A, :)) + ZWB * MERGE(1., 0., Z (1:KOFF, :, ILEV1B, :)) >= 0.5
ENDDO
END SUBROUTINE
SUBROUTINE SET3 (P)
IMPLICIT NONE
REAL :: P (:,:,:)
INTEGER :: IBL, IGPBLKS
INTEGER :: NTID, ITID, JBLK1, JBLK2
IGPBLKS = SIZE (P, 3)
!$OMP PARALLEL PRIVATE (ITID, JBLK1, JBLK2, NTID)
NTID = OMP_GET_MAX_THREADS ()
ITID = OMP_GET_THREAD_NUM ()
JBLK1 = 1 + (IGPBLKS * (ITID+0)) / NTID
JBLK2 = (IGPBLKS * (ITID+1)) / NTID
DO IBL = JBLK1, JBLK2
P (:,:,IBL) = XNAN
ENDDO
!$OMP END PARALLEL
END SUBROUTINE
SUBROUTINE SET4 (P)
IMPLICIT NONE
REAL :: P (:,:,:,:)
INTEGER :: IBL, IGPBLKS
INTEGER :: NTID, ITID, JBLK1, JBLK2
IGPBLKS = SIZE (P, 4)
!$OMP PARALLEL PRIVATE (ITID, JBLK1, JBLK2, NTID)
NTID = OMP_GET_MAX_THREADS ()
ITID = OMP_GET_THREAD_NUM ()
JBLK1 = 1 + (IGPBLKS * (ITID+0)) / NTID
JBLK2 = (IGPBLKS * (ITID+1)) / NTID
DO IBL = JBLK1, JBLK2
P (:,:,:,IBL) = XNAN
ENDDO
!$OMP END PARALLEL
END SUBROUTINE
SUBROUTINE SET5 (P)
IMPLICIT NONE
REAL :: P (:,:,:,:,:)
INTEGER :: IBL, IGPBLKS
INTEGER :: NTID, ITID, JBLK1, JBLK2
IGPBLKS = SIZE (P, 5)
!$OMP PARALLEL PRIVATE (ITID, JBLK1, JBLK2, NTID)
NTID = OMP_GET_MAX_THREADS ()
ITID = OMP_GET_THREAD_NUM ()
JBLK1 = 1 + (IGPBLKS * (ITID+0)) / NTID
JBLK2 = (IGPBLKS * (ITID+1)) / NTID
DO IBL = JBLK1, JBLK2
P (:,:,:,:,IBL) = XNAN
ENDDO
!$OMP END PARALLEL
END SUBROUTINE
END MODULE ARRAYS_MANIP