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w3cspcmd.ftn
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#include "w3macros.h"
!/ ------------------------------------------------------------------- /
MODULE W3CSPCMD
!/
!/ +-----------------------------------+
!/ | WAVEWATCH III NOAA/NCEP |
!/ | H. L. Tolman |
!/ | FORTRAN 90 |
!/ | Last update : 01-Nov-2012 |
!/ +-----------------------------------+
!/
!/ 19-Sep-2005 : Origination. ( version 3.08 )
!/ 29-May-2009 : Preparing distribution version. ( version 3.14 )
!/ 01-Nov-2012 : Minor code clean-up (tabs & coments)( version 4.08 )
!/
!/ Copyright 2009 National Weather Service (NWS),
!/ National Oceanic and Atmospheric Administration. All rights
!/ reserved. WAVEWATCH III is a trademark of the NWS.
!/ No unauthorized use without permission.
!/
! 1. Purpose :
!
! Convert spectra to new discrete spectral grid.
!
! 2. Variables and types :
!
! Name Type Scope Description
! ----------------------------------------------------------------
! NCASES Int. Private Number of cases for which interpol.
! data is stored.
! IDATA CASE Private Interpolation data.
! ----------------------------------------------------------------
!
! Elements of the data structure CASE are given below. The middle
! block pf parameters has pointer aliasses with the same name in
! the subroutine.
!
! Name Type Description
! ----------------------------------------------------------------
! ICASE Int. Number of case.
! NFR1, NTH1, NFR2, NTH2, XF1, FR1, TH1, XF2, FR2, TH2
! Same as in parameter list of routine.
!
! DTH1 Real Directional increment.
! DTH2 Real Directional increment.
! IDTH I.A. Index information for redistribution of
! energy in direction space.
! RDTH R.A. Factors corresponding to IDTH.
! FRQ1 R.A. Frequencies.
! FRQ2 R.A. Frequencies.
! XDF1 Real Factor for increments.
! XDF2 Real Factor for increments.
! NFR2T Int. Frequency to start the tail.
! IDFR I.A. Idem for frequencies.
! RDFR R.A. Factors corresponding to IDFR.
!
! NEXT CASE Pointer to next data set stored.
! ----------------------------------------------------------------
!
! 3. Subroutines and functions :
!
! Name Type Scope Description
! ----------------------------------------------------------------
! W3CSPC Subr. Public Perform conversion for vector of
! spectra.
! ----------------------------------------------------------------
!
! 4. Subroutines and functions used :
!
! See subroutine W3CSPC.
!
! 5. Remarks :
!
! - Conversion data are sored in an endless linked chain, which
! is tested at the beginning of the routine.
!
! 6. Switches :
!
! See subroutine.
!
! 7. Source code :
!
!/ ------------------------------------------------------------------- /
PUBLIC
!/
TYPE CASE
INTEGER :: ICASE, NFR1, NTH1, NFR2, NTH2, NFR2T
REAL :: XF1, FR1, TH1, XF2, FR2, TH2, &
DTH1, DTH2, XDF1, XDF2
INTEGER, POINTER :: IDTH(:,:), IDFR(:,:)
REAL, POINTER :: RDTH(:,:), FRQ1(:), FRQ2(:), RDFR(:,:)
TYPE(CASE), POINTER :: NEXT
END TYPE CASE
!/
INTEGER, PRIVATE :: NCASES = 0
TYPE(CASE), PRIVATE, POINTER :: IDATA
!/
CONTAINS
!/ ------------------------------------------------------------------- /
SUBROUTINE W3CSPC ( SP1, NFR1, NTH1, XF1, FR1, TH1, &
SP2, NFR2, NTH2, XF2, FR2, TH2, &
NSP, NDST, NDSE, FTL )
!/
!/ +-----------------------------------+
!/ | WAVEWATCH III NOAA/NCEP |
!/ | H. L. Tolman |
!/ | FORTRAN 90 |
!/ | Last update : 01-Nov-2012 !
!/ +-----------------------------------+
!/
!/ 19-Sep-2005 : Origination. ( version 3.08 )
!/ 01-Nov-2012 : code clean up (tab spaces, comments)( version 4.08 )
!/
! 1. Purpose :
!
! Convert a set of spectra to a new spectral grid.
!
! 2. Method :
!
! Conservative distribution of input energies over new grid.
!
! 3. Parameters :
!
! Parameter list
! ----------------------------------------------------------------
! SP1 R.A. I Input spectra.
! NFR1 Int. I Input number of frequencies.
! NTH1 Int. I Input number of directions.
! XFR Real I Input frequency increment factor.
! FR1 Real I First input frequency.
! TH1 Real I First input direction.
! SP2 R.A. O Output spectra.
! NFR2, NTH2, XF2, FR2, TH2
! ! Specral description for output spectra.
! NSP Int. I Number of spectra.
! NDST int. I Unit number for test output.
! NDSE int. I Unit number for error output.
! FTAIL Real I Factor for tail description = XF2**N
! ----------------------------------------------------------------
!
! 4. Subroutines used :
!
! Name Type Module Description
! ----------------------------------------------------------------
! STRACE Sur. W3SERVMD Subroutine tracing.
! EXTCDE Sur. Id program abort.
! ----------------------------------------------------------------
!
! 5. Called by :
!
! Name Type Module Description
! ----------------------------------------------------------------
! W3IOBC Subr. W3IOBCMD Updating boundary conditions.
! Subr Multi scale model bound. data input.
! ----------------------------------------------------------------
!
! 6. Error messages :
!
! - Check on input parameters.
!
! 7. Remarks :
!
! - The inner loop of the actual redistribution is over the
! individual spectra, optimizing this routine for large numbers
! of conversions in a single call.
!
! 8. Structure :
!
! See source code.
!
! 9. Switches :
!
! !/S Enable subroutine tracing.
!
! !/T Enable test output.
! !/T1 Test output for searching in stored data.
! !/T2 Test output for redistribution data.
!
! 10. Source code :
!
!/ ------------------------------------------------------------------- /
USE CONSTANTS
!
USE W3SERVMD, ONLY: EXTCDE
!/S USE W3SERVMD, ONLY: STRACE
!
IMPLICIT NONE
!/
!/ ------------------------------------------------------------------- /
!/ Parameter list
!/
INTEGER, INTENT(IN) :: NSP, NFR1, NTH1, NFR2, NTH2, NDST, NDSE
REAL, INTENT(IN) :: SP1(NTH1,NFR1,NSP), XF1, FR1, TH1, &
XF2, FR2, TH2, FTL
REAL, INTENT(OUT) :: SP2(NTH2,NFR2,NSP)
!/
!/ ------------------------------------------------------------------- /
!/ Local parameters
!/
INTEGER :: I, NRMAX, J, I1, L1, J1, I2, L2, J2, &
ISP
!/S INTEGER, SAVE :: IENT = 0
REAL :: LOW, HGH, RLOW, RHGH, BLOW, BHGH, &
FRAC, AUX1, AUX2, R1, R2, FACT
LOGICAL :: FOUND
TYPE(CASE), POINTER :: CURRENT
!/
!/ ------------------------------------------------------------------- /
!/ Pointers for aliases
!/
INTEGER, POINTER :: IDTH(:,:), IDFR(:,:), NFR2T
REAL, POINTER :: DTH1, DTH2, RDTH(:,:), FRQ1(:), &
FRQ2(:), XDF1, XDF2, RDFR(:,:)
!/
!/S CALL STRACE (IENT, 'W3CSPC')
!
! -------------------------------------------------------------------- /
! 0. Initializations
! 0.a Check input
!
IF ( NFR1.LT.3 .OR. NTH1.LT.4 .OR. XF1.LE.1. .OR. FR1.LE.0. .OR.&
NFR2.LT.3 .OR. NTH2.LT.4 .OR. XF2.LE.1. .OR. FR2.LE.0. ) THEN
WRITE (NDSE,900) NFR1, NTH1, XF1, FR1, NFR2, NTH2, XF2, FR2
CALL EXTCDE ( 1 )
END IF
!
IF ( NSP .LT. 0 ) THEN
WRITE (NDSE,901)
CALL EXTCDE ( 2 )
END IF
!
IF ( NSP .EQ. 0 ) THEN
WRITE (NDSE,902)
RETURN
END IF
!
! 0.b Test output
!
!/T WRITE (NDST,9000) NSP, NFR1, NTH1, XF1, FR1, TH1*RADE, &
!/T NFR2, NTH2, XF2, FR2, TH2*RADE, FTL
!
! -------------------------------------------------------------------- /
! 1. Search stored interpolation data for match
!
FOUND = .FALSE.
!
DO I=1, NCASES
!
IF ( I .EQ. 1 ) THEN
CURRENT => IDATA
ELSE
CURRENT => CURRENT%NEXT
END IF
!
!/T1 WRITE (NDST,9010) I, CURRENT%NFR1, CURRENT%NTH1, &
!/T1 CURRENT%XF1, CURRENT%FR1, CURRENT%TH1*RADE, &
!/T1 CURRENT%NFR2, CURRENT%NTH2, &
!/T1 CURRENT%XF2, CURRENT%FR2, CURRENT%TH2*RADE
!
FOUND = CURRENT%NFR1.EQ.NFR1 .AND. CURRENT%NFR2.EQ.NFR2 .AND. &
CURRENT%NTH1.EQ.NTH1 .AND. CURRENT%NTH2.EQ.NTH2 .AND. &
CURRENT%XF1 .EQ.XF1 .AND. CURRENT%XF2 .EQ.XF2 .AND. &
CURRENT%FR1 .EQ.FR1 .AND. CURRENT%FR2 .EQ.FR2 .AND. &
CURRENT%TH1 .EQ.TH1 .AND. CURRENT%TH2 .EQ.TH2
IF ( FOUND ) EXIT
!
END DO
!
! -------------------------------------------------------------------- /
! 2. Link or compute interpolation data
! 2.a Link
!
IF ( FOUND ) THEN
!
!/T WRITE (NDST,9020) I
!
DTH1 => CURRENT%DTH1
DTH2 => CURRENT%DTH2
IDTH => CURRENT%IDTH
RDTH => CURRENT%RDTH
!
FRQ1 => CURRENT%FRQ1
FRQ2 => CURRENT%FRQ2
XDF1 => CURRENT%XDF1
XDF2 => CURRENT%XDF2
NFR2T => CURRENT%NFR2T
IDFR => CURRENT%IDFR
RDFR => CURRENT%RDFR
!
! 2.b Compute
!
ELSE
!
NCASES = NCASES + 1
!/T WRITE (NDST,9021) NCASES
!
! 2.b.1 Point and allocate as necessary
!
IF ( NCASES .EQ. 1 ) THEN
ALLOCATE ( IDATA )
CURRENT => IDATA
ELSE
ALLOCATE ( CURRENT%NEXT )
CURRENT => CURRENT%NEXT
END IF
!
! 2.b.2 Store test data
!
CURRENT%ICASE = NCASES
CURRENT%NFR1 = NFR1
CURRENT%NTH1 = NTH1
CURRENT%XF1 = XF1
CURRENT%FR1 = FR1
CURRENT%TH1 = TH1
CURRENT%NFR2 = NFR2
CURRENT%NTH2 = NTH2
CURRENT%XF2 = XF2
CURRENT%FR2 = FR2
CURRENT%TH2 = TH2
!
! 2.b.3 Directional redistribution data
!
DTH1 => CURRENT%DTH1
DTH1 = TPI / REAL(NTH1)
DTH2 => CURRENT%DTH2
DTH2 = TPI / REAL(NTH2)
!
IF ( DTH1 .LE. DTH2 ) THEN
NRMAX = 2
ELSE
NRMAX = 2 + INT(DTH1/DTH2)
END IF
!
ALLOCATE (CURRENT%IDTH(0:NRMAX,NTH1),CURRENT%RDTH(NRMAX,NTH1))
IDTH => CURRENT%IDTH
RDTH => CURRENT%RDTH
IDTH = 0
RDTH = 0.
!
DO I=1, NTH1
LOW = TH1 + REAL(I-1)*DTH1 - 0.5*DTH1
HGH = LOW + DTH1
RLOW = 1. + (LOW-TH2)/DTH2
RHGH = 1. + (HGH-TH2)/DTH2
DO J=NINT(RLOW), NINT(RLOW)+NRMAX-1
BLOW = TH2 + REAL(J-1)*DTH2 - 0.5*DTH2
BHGH = BLOW + DTH2
FRAC = (MIN(BHGH,HGH)-MAX(BLOW,LOW)) / (HGH-LOW)
IF ( FRAC .GT. 1.E-5 ) THEN
IDTH(0,I) = IDTH(0,I) + 1
IDTH(IDTH(0,I),I) = 1 + MOD(J-1+NTH2,NTH2)
RDTH(IDTH(0,I),I) = FRAC
END IF
END DO
END DO
!
! 2.b.4 Frequency redistribution data
!
ALLOCATE ( CURRENT%FRQ1(NFR1), CURRENT%FRQ2(NFR2) )
FRQ1 => CURRENT%FRQ1
FRQ2 => CURRENT%FRQ2
!
FRQ1(1) = FR1
DO I=2, NFR1
FRQ1(I) = XF1 * FRQ1(I-1)
END DO
!
FRQ2(1) = FR2
DO I=2, NFR2
FRQ2(I) = XF2 * FRQ2(I-1)
END DO
!
XDF1 => CURRENT%XDF1
XDF1 = 0.5 * ( XF1 - 1./XF1 )
XDF2 => CURRENT%XDF2
XDF2 = 0.5 * ( XF2 - 1./XF2 )
!
IF ( XDF1 .LE. XDF2 ) THEN
NRMAX = 2
ELSE
NRMAX = 1
AUX1 = XDF1
AUX2 = XDF2
DO
NRMAX = NRMAX + 1
AUX1 = AUX1 - AUX2
AUX2 = AUX2 / XF2
IF ( AUX1 .LT. 0. ) EXIT
END DO
END IF
!
ALLOCATE (CURRENT%IDFR(0:NRMAX,NFR1),CURRENT%RDFR(NRMAX,NFR1))
IDFR => CURRENT%IDFR
RDFR => CURRENT%RDFR
IDFR = 0
RDFR = 0.
!
DO I=1, NFR1
IF ( I .EQ. 1 ) THEN
HGH = 0.5 * ( FRQ1(I) + FRQ1(I+1) )
LOW = HGH - XDF1*FRQ1(I)
ELSE
LOW = 0.5 * ( FRQ1(I) + FRQ1(I-1) )
HGH = LOW + XDF1*FRQ1(I)
END IF
DO J=1, NFR2
IF ( J .EQ. 1 ) THEN
BHGH = 0.5 * ( FRQ2(J) + FRQ2(J+1) )
BLOW = BHGH - XDF2*FRQ2(J)
ELSE
BLOW = 0.5 * ( FRQ2(J) + FRQ2(J-1) )
BHGH = BLOW + XDF2*FRQ2(J)
END IF
IF ( BHGH .LE. LOW ) CYCLE
IF ( BLOW .GE. HGH ) EXIT
FRAC = (MIN(BHGH,HGH)-MAX(BLOW,LOW)) / (HGH-LOW)
IF ( FRAC .LT. 1.E-5 ) CYCLE
IDFR(0,I) = IDFR(0,I) + 1
IDFR(IDFR(0,I),I) = J
RDFR(IDFR(0,I),I) = FRAC
END DO
END DO
!
NFR2T => CURRENT%NFR2T
NFR2T = NFR2 + 1
DO J=NFR2, 1, -1
IF ( J .EQ. 1 ) THEN
BHGH = 0.5 * ( FRQ2(J) + FRQ2(J+1) )
ELSE
BLOW = 0.5 * ( FRQ2(J) + FRQ2(J-1) )
BHGH = BLOW + XDF2*FRQ2(J)
END IF
IF ( BHGH .GT. HGH ) THEN
NFR2T = J
ELSE
EXIT
END IF
END DO
!
END IF
!
! 2.c Test output
!
!/T2 WRITE (NDST,9022)
!/T2 DO I=1, NTH1
!/T2 WRITE (NDST,9024) I, IDTH(0,I), &
!/T2 (IDTH(J,I),RDTH(J,I),J=1,IDTH(0,I))
!/T2 END DO
!/T2 WRITE (NDST,9023) NFR2T
!/T2 DO I=1, NFR1
!/T2 WRITE (NDST,9024) I, IDFR(0,I), &
!/T2 (IDFR(J,I),RDFR(J,I),J=1,IDFR(0,I))
!/T2 END DO
!
! -------------------------------------------------------------------- /
! 3. Convert
! 3.a Discrete energies
!
!/T WRITE (NDST,9030)
!
SP2 = 0.
!
DO I2=1, NFR1
DO L2=1, IDFR(0,I2)
J2 = IDFR(L2,I2)
R2 = RDFR(L2,I2)
DO I1=1,NTH1
DO L1=1, IDTH( 0,I1)
J1 = IDTH(L1,I1)
R1 = RDTH(L1,I1)
FRAC = R2 * FRQ1(I2) * XDF1 * R1 * DTH1
SP2(J1,J2,:) = SP2(J1,J2,:) + FRAC * SP1(I1,I2,:)
END DO
END DO
END DO
END DO
!
! 3.b Energy densities
!
!/T WRITE (NDST,9031)
!
DO J2=1, NFR2
DO J1=1, NTH2
FACT = 1. / ( FRQ2(J2) * XDF2 * DTH2 )
SP2(J1,J2,:) = FACT * SP2(J1,J2,:)
END DO
END DO
!
! 3.c Add the tail
!
!/T WRITE (NDST,9032)
!
DO J2=NFR2T, NFR2
SP2(:,J2,:) = FTL * SP2(:,J2-1,:)
END DO
!
RETURN
!
! Formats
!
900 FORMAT (/' *** ERROR W3CSPC: ILLEGAL INPUT PARAMETERS ***'/ &
' INPUT : ',2I8,2F10.4/ &
' OUTPUT : ',2I8,2F10.4)
901 FORMAT (/' *** ERROR W3CSPC: NEGATIVE NUMBER OF SPECTRA ***'/)
902 FORMAT (/' *** WARNING W3CSPC: NO SPECTRA ***'/)
!
!/T 9000 FORMAT ( ' TEST W3CSPC : NR. OF SPECTRA : ',I8/ &
!/T ' INPUT SPECTRA : ',2I4,2F8.4,F6.1/ &
!/T ' OUTPUT SPECTRA : ',2I4,2F8.4,F6.1/ &
!/T ' TAIL FACTOR : ',F8.5)
!
!/T1 9010 FORMAT ( ' TEST W3CSPC : TEST INFO CASE : ',I8/ &
!/T1 ' INPUT SPECTRA : ',2I4,2F8.4,F6.1/ &
!/T1 ' OUTPUT SPECTRA : ',2I4,2F8.4,F6.1)
!
!/T 9020 FORMAT ( ' TEST W3CSPC : USING STORED DATA FOR CASE',I4)
!/T 9021 FORMAT ( ' TEST W3CSPC : COMPUTING DATA FOR CASE',I4)
!/T2 9022 FORMAT ( ' TEST W3CSPC : DIRECTIONAL DISTRIBUTION DATA')
!/T2 9023 FORMAT ( ' TEST W3CSPC : FREQUENCY DISTRIBUTION DATA, ', &
!/T2 'TAIL AT',I4)
!/T2 9024 FORMAT ( ' ',I4,I4,' :',10(I4,F5.2) )
!
!/T 9030 FORMAT ( ' TEST W3CSPC : STARTING CONVERSION')
!/T 9031 FORMAT ( ' TEST W3CSPC : ENERGIES TO DENSITIES')
!/T 9032 FORMAT ( ' TEST W3CSPC : ADD TAIL')
!/
!/ End of W3CSPC ----------------------------------------------------- /
!/
END SUBROUTINE W3CSPC
!/
!/ End of module W3CSPCMD -------------------------------------------- /
!/
END MODULE W3CSPCMD