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wwm_coupl_shyfem.F90
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#include "wwm_functions.h"
#if !defined ROMS_WWM_PGMCL_COUPLING && defined SHYFEM_COUPLING
!**********************************************************************
!* *
!**********************************************************************
SUBROUTINE INIT_PIPES_SHYFEM()
USE DATAPOOL
IMPLICIT NONE
!
! open pipe data files for coupling
!
LSEWL = .TRUE.
LSECU = .TRUE.
WRITE(DBG%FHNDL,'("+TRACE...",A)') 'OPEN PIPE'
! Pipes that are read by the wave model
OPEN(10000,file='p_velx.dat' ,form='unformatted', action='read')
OPEN(10001,file='p_vely.dat' ,form='unformatted', action='read')
OPEN(10002,file='p_lev.dat' ,form='unformatted', action='read')
OPEN(10003,file='p_bot.dat' ,form='unformatted', action='read')
OPEN(10004,file='p_zeta3d.dat' ,form='unformatted', action='read')
! Pipes that are written by the wave model
OPEN(11101 ,file='p_stressx.dat' ,form='unformatted', action='write')
OPEN(11102 ,file='p_stressy.dat' ,form='unformatted', action='write')
OPEN(11142 ,file='p_stresxy.dat' ,form='unformatted', action='write') !ccf
OPEN(11103 ,file='p_waveh.dat' ,form='unformatted', action='write')
OPEN(11104 ,file='p_wavet.dat' ,form='unformatted', action='write')
OPEN(11105 ,file='p_waved.dat' ,form='unformatted', action='write')
OPEN(11106 ,file='p_wtauw.dat' ,form='unformatted', action='write')
OPEN(11107 ,file='p_wavetp.dat' ,form='unformatted', action='write')
OPEN(11108 ,file='p_wavewl.dat' ,form='unformatted', action='write')
OPEN(11109 ,file='p_orbit.dat' ,form='unformatted', action='write')
OPEN(11110 ,file='p_stokesx.dat' ,form='unformatted', action='write')
OPEN(11111 ,file='p_stokesy.dat' ,form='unformatted', action='write')
IF (.NOT. LWINDFROMWWM) THEN
! *** WIND FROM SHYFEM *** ccf
OPEN(11112,file='p_windx.dat' ,form='unformatted', action='read')
OPEN(11113,file='p_windy.dat' ,form='unformatted', action='read')
ELSE
! *** WIND FROM WWM *** ccf
OPEN(11112 ,file='p_windx.dat',form='unformatted', action='write')
OPEN(11113 ,file='p_windy.dat',form='unformatted', action='write')
END IF
OPEN(11114 ,file='p_cd.dat' ,form='unformatted', action='write')
OPEN(11115 ,file='p_jpress.dat' ,form='unformatted', action='write')
OPEN(11116 ,file='p_wdiss.dat' ,form='unformatted', action='write')
WRITE(DBG%FHNDL,'("+TRACE...",A)') 'END OPEN PIPE'
END SUBROUTINE
!**********************************************************************
!* *
!**********************************************************************
SUBROUTINE TERMINATE_PIPES_SHYFEM()
USE DATAPOOL
IMPLICIT NONE
close(10000)
close(10001)
close(10002)
close(10003)
close(10004)
close(11101)
close(11102)
close(11142)
close(11103)
close(11104)
close(11105)
close(11106)
close(11107)
close(11108)
close(11109)
close(11110)
close(11111)
close(11112)
close(11113)
close(11114)
close(11115)
close(11116)
END SUBROUTINE
!**********************************************************************
!* *
!**********************************************************************
SUBROUTINE PIPE_SHYFEM_IN(K)
USE DATAPOOL
IMPLICIT NONE
INTEGER, INTENT(IN) :: K
INTEGER :: IP, IL
#ifdef MPI_PARALL_GRID
integer siz, iProc
real(rkind), allocatable :: VAR_REAL_TOT(:,:)
integer, allocatable :: VAR_INT_TOT(:)
#endif
IF ( K-INT(K/MAIN%ICPLT)*MAIN%ICPLT .EQ. 0 ) THEN
LCALC = .TRUE.
WATLEVOLD=WATLEV
WRITE(STAT%FHNDL,'("+TRACE...",A)') 'READING PIPE'
#ifndef MPI_PARALL_GRID
DO IP = 1, MNP
READ(10000) CURTXY(IP,1)
READ(10001) CURTXY(IP,2)
READ(10002) WATLEV(IP)
READ(10003) WLDEP(IP)
READ(10003) NLEV(IP)
DO IL = 1,NLVT
READ(10004) SHYFZETA(IL,IP)
END DO
IF (.NOT. LWINDFROMWWM) THEN
READ(11112) WINDXY(IP,1)
READ(11113) WINDXY(IP,2)
END IF
END DO
#else
IF (LWINDFROMWWM) THEN
siz=NLVT+4
ELSE
siz=NLVT+6
END IF
allocate(VAR_REAL_TOT(np_global,siz), VAR_INT_TOT(np_global), stat=istat)
IF (istat/=0) CALL WWM_ABORT('wwm_coupl_shyfem, allocate error 1')
IF (myrank.eq.0) THEN
DO IP = 1, np_global
READ(10000) VAR_REAL_TOT(IP,NLVT+1)
READ(10001) VAR_REAL_TOT(IP,NLVT+2)
READ(10002) VAR_REAL_TOT(IP,NLVT+3)
READ(10003) VAR_REAL_TOT(IP,NLVT+4)
READ(10003) VAR_INT_TOT(IP)
DO IL = 1,NLVT
READ(10004) VAR_REAL_TOT(IP, IL)
END DO
IF (.NOT. LWINDFROMWWM) THEN
READ(11112) VAR_REAL_TOT(IP,NLVT+5)
READ(11113) VAR_REAL_TOT(IP,NLVT+6)
END IF
END DO
DO iProc=2,nproc
CALL MPI_SEND(VAR_REAL_TOT,np_global*siz,rtype, iProc-1, 196, comm, ierr)
CALL MPI_SEND(VAR_INT_TOT,np_global,itype, iProc-1, 197, comm, ierr)
END DO
ELSE
CALL MPI_RECV(VAR_REAL_TOT,np_global*siz,rtype, 0, 196, comm, istatus, ierr)
CALL MPI_RECV(VAR_INT_TOT,np_global,itype, 0, 197, comm, istatus, ierr)
END IF
DO IP = 1, MNP
CURTXY(IP,1)=VAR_REAL_TOT(iplg(IP),NLVT+1)
CURTXY(IP,2)=VAR_REAL_TOT(iplg(IP),NLVT+2)
WATLEV(IP) =VAR_REAL_TOT(iplg(IP),NLVT+3)
WLDEP (IP) =VAR_REAL_TOT(iplg(IP),NLVT+4)
NLEV(IP)=VAR_INT_TOT(iplg(IP))
DO IL=1,NLVT
SHYFZETA(IL,IP)=VAR_REAL_TOT(iplg(IP),IL)
END DO
IF (.NOT. LWINDFROMWWM) THEN
WINDXY(IP,1)=VAR_REAL_TOT(iplg(IP),NLVT+5)
WINDXY(IP,2)=VAR_REAL_TOT(iplg(IP),NLVT+6)
END IF
END DO
deallocate(VAR_REAL_TOT)
deallocate(VAR_INT_TOT)
#endif
DEPDT = (WATLEV - WATLEVOLD) / MAIN%DTCOUP
WRITE(STAT%FHNDL,*) 'CHECK MAX UX,UY,H'
WRITE(STAT%FHNDL,*) MAXVAL(CURTXY(:,1)), MAXVAL(CURTXY(:,2)), MAXVAL(WATLEV)
WRITE(STAT%FHNDL,*) 'CHECK MIN UX,UY,H'
WRITE(STAT%FHNDL,*) MINVAL(CURTXY(:,1)), MINVAL(CURTXY(:,2)), MINVAL(WATLEV)
WRITE(2001,*) 'CHECK MAX UX,UY,H'
WRITE(2001,*) MAXVAL(CURTXY(:,1)), MAXVAL(CURTXY(:,2)), MAXVAL(WATLEV)
WRITE(2001,*) 'CHECK MIN UX,UY,H'
WRITE(2001,*) MINVAL(CURTXY(:,1)), MINVAL(CURTXY(:,2)), MINVAL(WATLEV)
WRITE(STAT%FHNDL,'("+TRACE...",A)') 'END READ PIPE WWM'
END IF
END SUBROUTINE
!**********************************************************************
!* *
!**********************************************************************
SUBROUTINE STOKES_STRESS_INTEGRAL_SHYFEM
USE DATAPOOL
implicit none
integer IP, k, ID, IS
real(rkind) eDep
real(rkind) eFrac
real(rkind) eQuot1
real(rkind) eMult, kD
real(rkind) eJPress
real(rkind) eWk, eSigma, eLoc, eSinhkd, eSinh2kd, eSinhkd2
! logical DoTail
real(rkind) eWkReal
real(rkind) eJPress_loc, eProd, eUint, eVint
real(rkind) :: eUSTOKES_loc(NLVT)
real(rkind) :: eVSTOKES_loc(NLVT)
real(rkind) :: ZZETA
DO IP=1,MNP
!eDep=SHYFZETA(NLEV(IP),MNP)
!eDep=SHYFZETA(NLEV(IP),IP) !ccfwwmIII
eDep=DEP(IP) !ccfwwmIII
eUSTOKES_loc=0
eVSTOKES_loc=0
eJpress_loc=0
!todo IS ID ordering
DO IS=1,NUMSIG
eMult=SPSIG(IS)*DDIR*DS_INCR(IS)
eWk=WK(IS,IP)
kD=MIN(KDMAX, eWk*eDep)
eWkReal=kD/eDep
eSinh2kd=MySINH(2*kD)
eSinhkd=MySINH(kD)
eSinhkd2=eSinhkd**2
eSigma=SPSIG(IS)
eUint=0
eVint=0
DO ID=1,NUMDIR
eLoc=AC2(IS,ID,IP)*eMult
eJPress=G9*(kD/eSinh2kd)*(1/eDep) * eLoc
eJPress_loc=eJPress_loc + eJPress
eUint=eUint + eLoc*COSTH(ID)
eVint=eVint + eLoc*SINTH(ID)
END DO
DO k=1,NLEV(IP)
ZZETA = SHYFZETA(k,IP) + DEP(IP)
IF (ZZETA .LT. 0) CYCLE
eFrac=ZZETA/eDep
! At the present time, I do not put the integral corrections.
! because I do not understand sufficiently the vertical discretization
! in shyfem (MDS)
! eHeight=z_w_loc(k)-z_w_loc(k-1)
! eFracB=eHeight/eDep
! eSinc=MySINH(kD*eFracB)/(kD*eFracB)
! eQuot1=eSinc*MyCOSH(2*kD*eFrac)/eSinhkd2
eQuot1=MyCOSH(2*kD*eFrac)/eSinhkd2
eProd=eSigma*eWkReal*eQuot1
eUSTOKES_loc(k)=eUSTOKES_loc(k) + eUint*eProd
eVSTOKES_loc(k)=eVSTOKES_loc(k) + eVint*eProd
ENDDO
END DO
STOKES_X(:,IP)=eUSTOKES_loc
STOKES_Y(:,IP)=eVSTOKES_loc
JPRESS(IP)=eJPress_loc
ENDDO
END SUBROUTINE
!**********************************************************************
!* *
!**********************************************************************
SUBROUTINE PIPE_SHYFEM_OUT(K)
USE DATAPOOL
IMPLICIT NONE
INTEGER, INTENT(IN) :: K
INTEGER :: IL, IP
REAL(rkind) :: WALOC(NUMSIG,NUMDIR)
REAL(rkind) :: HS,WLM,LPP,KLM
REAL(rkind) :: TM01, TM02, TM10, UBOT
REAL(rkind) :: TMBOT, KPP,DM,DSPR,PEAKDSPR,PEAKDM
REAL(rkind) :: ORBITAL
REAL(rkind) :: BOTEXPER, ETOTS, ETOTC, DPEAK
REAL(rkind) :: FPP, TPP, CPP, WNPP, CGPP, TPPD,KPPD,CGPD,CPPD
# ifdef MPI_PARALL_GRID
integer siz
real(rkind), allocatable :: OUTT(:,:)
real(rkind), allocatable :: OUTT_TOT(:,:)
real(rkind) :: STOKES_X_ret(NLVT)
real(rkind) :: STOKES_Y_ret(NLVT)
# endif
IF ( K-INT(K/MAIN%ICPLT)*MAIN%ICPLT .EQ. 0 ) THEN
WRITE(STAT%FHNDL,'("+TRACE...",A)') 'WRITING PIPE'
!
! *** COMPUTE RADIATION STRESSES 2D OR 3D *** ccf
!
IF (LCPL) THEN
IF (RADFLAG == 'VOR') THEN
CALL STOKES_STRESS_INTEGRAL_SHYFEM
ELSE
CALL RADIATION_STRESS_SHYFEM
END IF
END IF
# ifndef MPI_PARALL_GRID
DO IP = 1, MNP
DO IL = 1, NLVT
WRITE(11101) SXX3D(IL,IP) !ccf
WRITE(11102) SYY3D(IL,IP) !ccf
WRITE(11142) SXY3D(IL,IP) !ccf
END DO
FLUSH(11101)
FLUSH(11102)
FLUSH(11142) !ccf
WALOC(:,:) = AC2(:,:,IP)
CALL MEAN_PARAMETER(IP,WALOC,NUMSIG,HS,TM01,TM02,TM10,KLM,WLM)
CALL WAVE_CURRENT_PARAMETER(IP,WALOC,UBOT,ORBITAL,BOTEXPER,TMBOT,'PIPE_SHYFEM_OUT 1')
CALL MEAN_DIRECTION_AND_SPREAD(IP,WALOC,NUMSIG,ETOTS,ETOTC,DM,DSPR)
CALL PEAK_PARAMETER(IP,WALOC,NUMSIG,FPP,TPP,CPP,WNPP,CGPP,KPP,LPP,PEAKDSPR,PEAKDM,DPEAK,TPPD,KPPD,CGPD,CPPD)
WRITE(11103) HS
FLUSH(11103)
WRITE(11104) TM01
FLUSH(11104)
WRITE(11105) DM
FLUSH(11105)
WRITE(11106) TAUW(IP)
FLUSH(11106)
WRITE(11107) TPP
FLUSH(11107)
WRITE(11108) WLM
FLUSH(11108)
WRITE(11109) ORBITAL
FLUSH(11109)
WRITE(11110) STOKES_X(:,IP)
FLUSH(11110)
WRITE(11111) STOKES_Y(:,IP)
FLUSH(11111)
IF (LWINDFROMWWM) THEN
WRITE(11112) WINDXY(IP,1)
FLUSH(11112)
WRITE(11113) WINDXY(IP,2)
FLUSH(11113)
END IF
WRITE(11114) CD(IP)
FLUSH(11114)
WRITE(11115) JPRESS(IP)
FLUSH(11115)
WRITE(11116) DISSIPATION(IP)
FLUSH(11116)
END DO
# else
IF (LWINDFROMWWM) THEN
siz=5*NLVT + 12
ELSE
siz=5*NLVT + 10
END IF
allocate(OUTT(np_global,siz), OUTT_TOT(np_global,siz), stat=istat)
IF (istat/=0) CALL WWM_ABORT('wwm_coupl_shyfem, allocate error 2')
DO IP = 1, MNP
DO IL = 1, NLVT
OUTT(iplg(IP), IL ) = SXX3D(IL,IP) !ccf
OUTT(iplg(IP), IL+ NLVT) = SYY3D(IL,IP) !ccf
OUTT(iplg(IP), IL+2*NLVT) = SXY3D(IL,IP) !ccf
OUTT(iplg(IP), IL+3*NLVT) = STOKES_X(IL,IP)
OUTT(iplg(IP), IL+4*NLVT) = STOKES_Y(IL,IP)
END DO
WALOC(:,:) = AC2(:,:,IP)
CALL MEAN_PARAMETER(IP,WALOC,NUMSIG,HS,TM01,TM02,TM10,KLM,WLM)
CALL WAVE_CURRENT_PARAMETER(IP,WALOC,UBOT,ORBITAL,BOTEXPER,TMBOT,'PIPE_SHYFEM_OUT 2')
CALL MEAN_DIRECTION_AND_SPREAD(IP,WALOC,NUMSIG,ETOTS,ETOTC,DM,DSPR)
CALL PEAK_PARAMETER(IP,WALOC,NUMSIG,FPP,TPP,CPP,WNPP,CGPP,KPP,LPP,PEAKDSPR,PEAKDM,DPEAK,TPPD,KPPD,CGPD,CPPD)
OUTT(iplg(IP), 1 + 5*NLVT) = HS
OUTT(iplg(IP), 2 + 5*NLVT) = TM01
OUTT(iplg(IP), 3 + 5*NLVT) = DM
OUTT(iplg(IP), 4 + 5*NLVT) = TAUW(IP)
OUTT(iplg(IP), 5 + 5*NLVT) = TPP
OUTT(iplg(IP), 6 + 5*NLVT) = WLM
OUTT(iplg(IP), 7 + 5*NLVT) = ORBITAL
OUTT(iplg(IP), 8 + 5*NLVT) = CD(IP)
OUTT(iplg(IP), 9 + 5*NLVT) = JPRESS(IP)
OUTT(iplg(IP),10 + 5*NLVT) = DISSIPATION(IP)
IF (LWINDFROMWWM) THEN
OUTT(iplg(IP), 11+ 5*NLVT) = WINDXY(IP,1)
OUTT(iplg(IP), 12+ 5*NLVT) = WINDXY(IP,2)
END IF
END DO
call mpi_reduce(OUTT,OUTT_TOT,NP_GLOBAL*siz,rtype,MPI_SUM,0,comm,ierr)
IF (myrank.eq.0) THEN
DO IP=1,NP_GLOBAL
OUTT_TOT(IP,:)=OUTT_TOT(IP,:)*nwild_gb(IP)
DO IL = 1, NLVT
WRITE(11101) OUTT_TOT(IP, IL )
WRITE(11102) OUTT_TOT(IP, IL+ NLVT)
WRITE(11142) OUTT_TOT(IP, IL+2*NLVT)
END DO
FLUSH(11101)
FLUSH(11102)
FLUSH(11142) !ccf
WRITE(11103) OUTT_TOT(IP, 1 + 5*NLVT)
FLUSH(11103)
WRITE(11104) OUTT_TOT(IP, 2 + 5*NLVT)
FLUSH(11104)
WRITE(11105) OUTT_TOT(IP, 3 + 5*NLVT)
FLUSH(11105)
WRITE(11106) OUTT_TOT(IP, 4 + 5*NLVT)
FLUSH(11106)
WRITE(11107) OUTT_TOT(IP, 5 + 5*NLVT)
FLUSH(11107)
WRITE(11108) OUTT_TOT(IP, 6 + 5*NLVT)
FLUSH(11108)
WRITE(11109) OUTT_TOT(IP, 7 + 5*NLVT)
FLUSH(11109)
DO IL=1,NLVT
STOKES_X_ret(IL) = OUTT_TOT(IP, IL+3*NLVT)
STOKES_Y_ret(IL) = OUTT_TOT(IP, IL+4*NLVT)
END DO
WRITE(11110) STOKES_X_ret
FLUSH(11110)
WRITE(11111) STOKES_Y_ret
FLUSH(11111)
IF (LWINDFROMWWM) THEN
WRITE(11112) OUTT_TOT(IP, 11 + 5*NLVT)
FLUSH(11112)
WRITE(11113) OUTT_TOT(IP, 12 + 5*NLVT)
FLUSH(11113)
END IF
WRITE(11114) OUTT_TOT(IP, 8 + 5*NLVT)
FLUSH(11114)
WRITE(11115) OUTT_TOT(IP, 9 + 5*NLVT)
FLUSH(11115)
WRITE(11116) OUTT_TOT(IP, 10 + 5*NLVT)
FLUSH(11116)
END DO
END IF
deallocate(OUTT)
deallocate(OUTT_TOT)
# endif
WRITE(STAT%FHNDL,'("+TRACE...",A)') 'END WRITING PIPE'
END IF
END SUBROUTINE
!**********************************************************************
!* *
!**********************************************************************
SUBROUTINE RADIATION_STRESS_SHYFEM()
USE DATAPOOL
IMPLICIT NONE
INTEGER :: IP,IL,IS,ID
REAL(rkind) :: WALOC(NUMSIG,NUMDIR)
REAL(rkind) :: COSE2, SINE2, COSI2
REAL(rkind) :: EWK(MNP), EWS(MNP),EWN(MNP),ETOT(MNP),MDIR(MNP)
REAL(rkind) :: m0, m0d, tmp, EHFR, ELOC, EFTAIL, &
& ZZETA, DVEC2RAD, WN
REAL(rkind) :: DS, KW, KD, SINH2KD, SINHKW, COSH2KW, &
& COSHKW, COSHKD, ETOTS, ETOTC, EWSIG
REAL(rkind) :: WNTMP,WKTMP,WCGTMP,WCTMP,WKDEPTMP
REAL(rkind) :: WSTMP, DEPLOC
SXX3D(:,:) = ZERO
SYY3D(:,:) = ZERO
SXY3D(:,:) = ZERO
EFTAIL = ONE / (TAIL_ARR(1)-ONE)
ETOT = ZERO
MDIR = ZERO
IF (LETOT) THEN
!AR: Estimate zeroth moment m0, mean wave direction, dominant wave number, dominant sigma ...
DO IP = 1, MNP
! IF (ABS(IOBP(IP)) .GT. 0) CYCLE
IF (DEP(IP) .LT. DMIN) CYCLE
DEPLOC = DEP(IP)
WALOC(:,:) = AC2(:,:,IP)
m0 = ZERO
EWSIG = ZERO
ETOTS = ZERO
ETOTC = ZERO
IF (NUMSIG .GE. 2) THEN
DO ID = 1, NUMDIR
m0d = ZERO
DO IS = 2, NUMSIG
tmp = ONEHALF*DS_INCR(IS)*DDIR*(SPSIG(IS)*WALOC(IS,ID)+SPSIG(IS-1)*WALOC(IS-1,ID))
m0 = m0 + tmp
EWSIG = EWSIG + SPSIG(IS) * tmp
m0d = m0d + tmp
END DO
IF (NUMSIG > 3) THEN
EHFR = WALOC(NUMSIG,ID) * SPSIG(NUMSIG)
m0 = m0 + DDIR * EHFR * SPSIG(NUMSIG) * EFTAIL
endif
ETOTC = ETOTC + m0d * COS(SPDIR(ID))
ETOTS = ETOTS + m0d * SIN(SPDIR(ID))
END DO
ELSE
DS = SGHIGH - SGLOW
DO ID = 1, NUMDIR
m0d = WALOC(1,ID) * DS * DDIR
m0 = m0 + m0d
END DO
END IF
ETOT(IP) = m0
IF (m0 .GT. small) then
EWS(IP) = EWSIG/m0
ELSE
EWS(IP) = ZERO
EWN(IP) = ZERO
MDIR(IP) = ZERO
ETOT(IP) = ZERO
CYCLE
ENDIF
WSTMP = EWS(IP)
CALL ALL_FROM_TABLE(WSTMP,DEPLOC,WKTMP,WCGTMP,WKDEPTMP,WNTMP,WCTMP)
EWN(IP) = WNTMP
EWK(IP) = WKTMP
MDIR(IP) = DVEC2RAD (ETOTC, ETOTS)
END DO !IP
END IF !LETOT
!AR: Here comes the whole story ...
! Etot = 1/16 * Hs² = 1/8 * Hmono² => Hs² = 2 * Hmono² =>
! Hs = sqrt(2) * Hmono => Hmono = Hs / SQRT(2)
! Etot = 1/16 * Hs² = 1/16 * (4 * sqrt(m0))² = m0
! Etot = 1/8 * Hmono² ... so the problem for the analytical solution
! evolved because we treat the Etot from Hs and Hmono there is a factor
! of 2 between this!
! Or in other words for the analytical solution we impose a Hs = X[m],
! we integrate m0 out of it and get Etot, since this Etot is a function
! of Hs and not Hmono
! it needs the factor of 2 between it! This should make now things clear
! forever. So the question is not how we calculate the total energy the
! question is what is defined on the boundary that means we should always
! recalculate the boundary in terms of Hs = SQRT(2) * Hmono !!!
! Or saying it again in other words our boundary conditions is wrong
! if we impose Hmono in wwminput.nml !!!
IF (RADFLAG == 'LON') THEN
RSXX = ZERO
RSXY = ZERO
RSYY = ZERO
DO IP = 1, MNP
! IF (ABS(IOBP(IP)) .GT. 0) CYCLE
IF (DEP(IP) .LT. DMIN) CYCLE
IF (.NOT. LETOT) THEN
WALOC(:,:) = AC2(:,:,IP)
DO ID = 1, NUMDIR
DO IS = 2, NUMSIG
ELOC = DS_INCR(IS)*DDIR*(SPSIG(IS)*WALOC(IS,ID)+SPSIG(IS-1)*WALOC(IS-1,ID))
COSE2 = COS(SPDIR(ID))**TWO
SINE2 = SIN(SPDIR(ID))**TWO
COSI2 = COS(SPDIR(ID)) * SIN(SPDIR(ID))
WN = CG(IS,IP) / ( SPSIG(IS)/WK(IS,IP) )
RSXX(IP) = RSXX(IP)+( WN * COSE2 + WN - ONEHALF)*ELOC ! Units = [ 1/s + 1/s - 1/s ] * m²s = m²
RSXY(IP) = RSXY(IP)+( WN * COSI2 )*ELOC
RSYY(IP) = RSYY(IP)+( WN * SINE2 + WN - ONEHALF)*ELOC
ENDDO
ENDDO
ELSE
RSXX(IP) = ETOT(IP)*( EWN(IP) - 0.5_rkind + EWN(IP) * COS(MDIR(IP))**TWO)
RSXY(IP) = ETOT(IP) * EWN(IP) * COS(MDIR(IP)) * SIN(MDIR(IP))
RSYY(IP) = ETOT(IP)*( EWN(IP) - 0.5_rkind + EWN(IP) * SIN(MDIR(IP))**TWO)
END IF
END DO
SXX3D = ZERO
SXY3D = ZERO
SYY3D = ZERO
DO IP = 1, MNP
! IF (ABS(IOBP(IP)) .GT. 0) CYCLE
IF (DEP(IP) .GT. DMIN) THEN
SXX3D(:,IP) = RSXX(IP) * G9 !ccf
SXY3D(:,IP) = RSXY(IP) * G9 !ccf
SYY3D(:,IP) = RSYY(IP) * G9 !ccf
ELSE
SXX3D(:,IP) = ZERO
SXY3D(:,IP) = ZERO
SYY3D(:,IP) = ZERO
END IF
END DO
ELSE IF (RADFLAG == 'XIA') THEN
IF (LETOT) THEN
DO IP = 1, MNP
! IF (ABS(IOBP(IP)) .GT. 0) CYCLE
IF (ETOT(IP) .LT. 10E-8 .OR. EWK(IP) .LT. 10E-8) CYCLE
IF (DEP(IP) .LT. DMIN) CYCLE
DO IL = 1, NLEV(IP) !NLVT ccf
ZZETA = SHYFZETA(IL,IP) + DEP(IP)
IF (ZZETA .LT. 0) CYCLE
KW = EWK(IP) * ZZETA
KD = EWK(IP) * DEP(IP)
SINH2KD = MySINH(MIN(KDMAX,TWO*KD))
COSHKD = MyCOSH(MIN(KDMAX,KD))
SINHKW = MySINH(MIN(KDMAX,KW))
COSH2KW = MyCOSH(MIN(KDMAX,TWO*KW))
COSHKW = MyCOSH(MIN(KDMAX,KW))
SXX3D(IL,IP) = ETOT(IP) * EWK(IP) / SINH2KD * (COSH2KW + ONE) * COS(MDIR(IP))**TWO - &
& ETOT(IP) * EWK(IP) / SINH2KD * (COSH2KW - ONE) - &
& ETOT(IP) * SHYFZETA(IL,IP) / DEP(IP)**TWO + &
& ETOT(IP) * KW * SINHKW / ( DEP(IP) * COSHKD ) - &
& ETOT(IP) / DEP(IP) * (ONE - COSHKW / COSHKD)
END DO
END DO
ELSE
SXX3D = ZERO
DO IP = 1, MNP
! IF (ABS(IOBP(IP)) .GT. 0) CYCLE
IF (DEP(IP) .LT. DMIN) CYCLE
WALOC(:,:) = AC2(:,:,IP)
DO IL = 1, NLVT
ZZETA = SHYFZETA(IL,IP) + DEP(IP)
IF (ZZETA .LT. 0) CYCLE
!todo IS ID ordering
DO IS = 1, NUMSIG
KW = WK(IS,IP) * ZZETA
KD = WK(IS,IP) * DEP(IP)
SINH2KD = MySINH(MIN(KDMAX,TWO*KD))
COSHKD = MyCOSH(MIN(KDMAX,KD))
SINHKW = MySINH(MIN(KDMAX,KW))
COSH2KW = MyCOSH(MIN(KDMAX,TWO*KW))
COSHKW = MyCOSH(MIN(KDMAX,KW))
DO ID = 1, NUMDIR
!Dimension of ELOC = m^2
ELOC = AC2(IS,ID,IP) * SIGPOW(IS,2) * DDIR * FRINTF * TWO ! Here is the factor TWO same as mono
IF (ELOC .LT. 10E-8) CYCLE
tmp =-ELOC * WK(IS,IP) / SINH2KD * (COSH2KW - ONE) - &
& ELOC * SHYFZETA(IL,IP) / DEP(IP)**TWO + &
& ELOC * KW * SINHKW / ( DEP(IP) * COSHKD ) - &
& ELOC / DEP(IP) * (ONE - COSHKW / COSHKD)
tmp=tmp*G9
SXX3D(IL,IP) = SXX3D(IL,IP) + &
& G9*ELOC * WK(IS,IP) / SINH2KD * (COSH2KW + ONE) * COS(SPDIR(ID))**TWO+tmp
SYY3D(IL,IP) = SYY3D(IL,IP) + &
& G9*ELOC * WK(IS,IP) / SINH2KD * (COSH2KW + ONE) * SIN(SPDIR(ID))**TWO+tmp
SXY3D(IL,IP) = SXY3D(IL,IP) + &
& G9*ELOC * WK(IS,IP) / SINH2KD * (COSH2KW + ONE) * SIN(SPDIR(ID))*COS(SPDIR(ID))
END DO
END DO
END DO
END DO
END IF
END IF
RSXX = ZERO
DO IP = 1, MNP
! IF (ABS(IOBP(IP)) .GT. 0) CYCLE
IF (DEP(IP) .LT. DMIN) CYCLE
DO IL = 2, NLVT
RSXX(IP) = RSXX(IP) + 0.5_rkind*( SXX3D(IL,IP)+SXX3D(IL-1,IP) ) !* INCRZ/G9 ... put the right INCR in Z
END DO
END DO
END SUBROUTINE
!**********************************************************************
!* *
!**********************************************************************
#endif