C $Header: /u/gcmpack/MITgcm/pkg/zonal_filt/zonal_filt_presmooth.F,v 1.4 2001/04/10 22:35:27 heimbach Exp $
C $Name: $
#include "ZONAL_FILT_OPTIONS.h"
SUBROUTINE ZONAL_FILT_PRESMOOTH( 1
I holeMask,
U field,
O avgField,
I lField,
I myThid )
C /==========================================================\
C | S/R ZONAL_FILT_PRESMOOTH |
C | o Smooth data with holes ready for FFT. |
C |==========================================================|
C | FFT routines act on a series of data points. Having |
C | arbitrary values in land introduces unrealistic noise in |
C | the series. A better approach is to linearly ramp data |
C | through the missing points. The mean of the field is also|
C | removed. The mean is restored in FFT_POSTSMOOTH. This |
C | step ensures no bias is introduced by the FFT process - |
C | strictly it isnt necessary, but it can help improve |
C | numerical conditioning. |
C \==========================================================/
IMPLICIT NONE
C == Global data ==
#include "SIZE.h"
#include "EEPARAMS.h"
#include "PARAMS.h"
#include "GRID.h"
C == Routine arguments ==
C holeMask - Array with 0 for holes and != 0 for valid data.
C lField - Length of field to smooth (assumed periodic)
C field - Field smoothed.
C myThid - Thread number of this instance of FFT_PRESMOOTH_IN_X
INTEGER lField
Real*8 holeMask(lField)
Real*8 field(lField)
Real*8 avgField
INTEGER myThid
#ifdef ALLOW_ZONAL_FILT
C == Local variables ====
C I - Loop counter
C lbuf - Size of buffer arrays
C hBase - Coord for last valid data point.
C hHead - Coord for next valid data point.
C hLo - Index for last valid data point.
C hHi - Index for next valid data point.
C nValid - Count of valid data points.
C dist, len - Temps for interpolating.
C frac Interpolation is simple linear ramp
C between end-point in grid-point space.
C e.g. for a series of points
C Index 1 2 3 4 5 6 7 8 9 10 11 12
C Data M V M M M M V V V V V V
C where M indicates missing data and V valid
C and 1 2 3 .... are indexes in field. Values
C for the M points are found by interpolating
C between the two V values that bracket a series
C of M point. For index=1
C dist=1, len=2 and frac=dist/len=1/2 so that
C the interpolated value at index=1 is
C V(index=12)+frac*( V(index=2)-V(index=12) ).
C For index=5 dist=3, len=5 and frac=dist/len=3/5
C so interpolated value at index=5 is
C V(index=2)+frac*( V(index=7)-V(index=2) ).
C lastGood - Temp for tracking of last good data point index.
C nValid - Temp for counting number of valid points.
C
INTEGER lBuf
PARAMETER ( lBuf = sNx )
INTEGER hBase(lBuf)
INTEGER hHead(lBuf)
INTEGER hLo(lBuf)
INTEGER hHi(lBuf)
INTEGER lastGood
_RL dist
_RL len
_RL frac
INTEGER nValid
INTEGER I, iLo, iHi
C
IF ( lField .GT. lBuf ) THEN
STOP 'S/R FFT_PRESMOOTH_1D: lField .GT. lBuf'
ENDIF
CcnhDebugStarts
C WRITE(*,*) 'Before FFT pre-smooth'
C WRITE(*,'(A,A)') 'Mask ', 'Data'
C DO I=1,lField
C WRITE(*,'(A,I4,1X,F3.1,1X,1PE35.25)') 'I= ',I,holeMask(I), field(I)
C ENDDO
CcnhDebugEnds
C Count number of valid data points
nValid = 0
avgField = 0.
DO I=1,lField
IF ( holeMask(I) .NE. 0. ) THEN
nValid = nValid+1
avgField = avgField+field(I)
ENDIF
ENDDO
IF ( lField .GT. 1 .AND. nValid .GT. 0 ) THEN
C Get lists of hole starts, ends and extents
C ( use periodic wrap around ).
C 1. hLo - Index of valid point at start of run of holes
C hBase - Coord of hLo (used to get offset when interpolating).
C Note: The mean is also subtracted from field here.
lastGood = -1
avgField = avgField/FLOAT(nValid)
DO I=1,lField
IF ( holeMask(I) .EQ. 0. ) THEN
C A hole
hLo (I) = lastGood
hBase(I) = lastGood
ELSE
C Data
hLo(I) = 0
hBase(I) = 0
lastGood = I
field(I) = field(I)-avgField
ENDIF
ENDDO
DO I=1,lField
IF ( hLo(I) .EQ. -1 ) THEN
hLo(I) = lastGood
hBase(I) = lastGood-lField
ENDIF
ENDDO
C 2. hHi - Coord of valid point at end of run of holes.
lastGood = -1
DO I=lField,1,-1
IF ( holeMask(I) .EQ. 0. ) THEN
C A hole
hHi(I) = lastGood
hHead(I) = lastGood
ELSE
C Data
hHi(I) = 0
lastGood = I
ENDIF
ENDDO
DO I=lField,1,-1
IF ( hHi(I) .EQ. -1 ) THEN
hHi(I) = lastGood
hHead(I) = lastGood+lField
ENDIF
ENDDO
CcnhDebugStarts
C WRITE(*,*) 'During FFT pre-smooth'
C WRITE(*,'(A,A,A,A,A,A)') 'I ','mask(I)','hHi(I)','hLo(I)','hBase(I)','hHead(I)'
C DO I=1,lField
C WRITE(*,'(6(I4,1X))')
C & I,INT(holeMask(I)),hHi(I),hLo(I),hBase(I),hHead(I)
C ENDDO
CcnhDebugEnds
C 3. Interpolate
DO I=1,lField
IF ( holeMask(I) .EQ. 0. ) THEN
C A hole
iLo = hLo(I)
iHi = hHi(I)
dist = I-hBase(I)
len = hHead(I) - hBase(I)
CcnhDebugStarts
C WRITE(*,'(A,1X,I4,1X,1PE35.25,1X,1PE35.25,)') 'I= ',I,dist, len
C IF ( dist .LT. 0 ) STOP ' DIST .LT. 0 '
C IF ( len .LT. 0 ) STOP ' LEN .LT. 0 '
C IF ( dist .GT. lField ) STOP ' dist .GT. lField '
C IF ( len .GT. lField ) STOP ' len .GT. lField '
C IF ( dist .GT. len ) STOP ' dist .GT. len '
CcnhDebugStarts
frac = dist/len
field(I) = field(iLo)
& +(field(iHi)-field(iLo))*frac
ENDIF
ENDDO
CcnhDebugStarts
C WRITE(*,*) 'After FFT pre-smooth'
C WRITE(*,'(A,A)') 'Mask ', 'Data'
C DO I=1,lField
C WRITE(*,'(A,I4,1X,F3.1,1X,1PE35.25)') 'I= ',I,holeMask(I), field(I)
C ENDDO
CcnhDebugEnds
ENDIF
C
#endif /* ALLOW_ZONAL_FILT */
RETURN
END