The following Fortran 77 program opens a file and reads vorticity and divergence (vo/d) spectral fields in GRIB format; it then calls INTUVP2 to create spectral U/V fields. Because of the preliminary call to INTOUT, the U/V fields are subsequently interpolated to grid-point fields with resolution 3 by 3 degrees without the need for a separate call to INTF. The function INTIN is not used here because the input fields are in GRIB format and are self-defining.
Subroutines PBOPEN, PBCLOSE, PBGRIB and PBWRITE handle pure binary input and output files.
Fortran 77
C
C Copyright 2015 ECMWF.
C
C This software is licensed under the terms of the Apache Licence
C Version 2.0 which can be obtained at http://www.apache.org/licenses/LICENSE-2.0.
C
C Unless required by applicable law or agreed to in writing, software
C distributed under the License is distributed on an "AS IS" BASIS,
C WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
C
C In applying this licence, ECMWF does not waive the privileges and immunities
C granted to it by virtue of its status as an intergovernmental organisation
C nor does it submit to any jurisdiction.
C
PROGRAM EXAMPLE_INTUVP2
IMPLICIT NONE
C Parameters
INTEGER JPGRIB ! GRIB size (up to 1/16 deg)
INTEGER JPBYTES ! bytes/integer
PARAMETER (JPGRIB = 33190420)
#ifdef INTEGER_8
PARAMETER (JPBYTES = 8)
#else
PARAMETER (JPBYTES = 4)
#endif
C Local variables
INTEGER INTV(4)
REAL REALV(4)
CHARACTER*20 CHARV
CHARACTER*128 INFILE, OUTFILE, ARG
INTEGER INLEN, OUTLEN, U1, U2, IRET, N
INTEGER IVOGRIB(JPGRIB), IDVGRIB(JPGRIB)
INTEGER IUGRIB(JPGRIB), IVGRIB(JPGRIB)
C Externals
INTEGER INTOUT, INTUVP2, IARGC
C ------------------------------------------------------------------
C Pick up file names from command line
INFILE = ' '
OUTFILE = ' '
IF( IARGC().EQ.4 ) THEN
DO N = 1, 4, 2
CALL GETARG(N,ARG)
IF (ARG.EQ.'-i') THEN
CALL GETARG(N+1,INFILE)
ELSEIF (ARG.EQ.'-o') THEN
CALL GETARG(N+1,OUTFILE)
ENDIF
ENDDO
ENDIF
CALL CHECK(
_ INDEX(INFILE,' ').EQ.1 .OR. INDEX(OUTFILE,' ').EQ.1,
_ 'Usage: example_intuvp2 -i infile -o outfile' )
INTV = 0
REALV = 0.
CHARV = ''
C Define the grid interval for the output
REALV(1) = 3.0
REALV(2) = 3.0
IRET = INTOUT('grid', INTV, REALV, CHARV)
CALL CHECK(IRET.NE.0, 'INTOUT (grid) failed')
REALV = 0.
C Open input and output files
CALL PBOPEN(U1, INFILE, 'r', IRET)
CALL CHECK(IRET.NE.0, 'PBOPEN failed (r)')
CALL PBOPEN(U2, OUTFILE, 'w', IRET)
CALL CHECK(IRET.NE.0, 'PBOPEN failed (w)')
C Start of loop on input vo/d pairs
PRINT *, 'Start interpolation...'
N = 0
220 CONTINUE
N = N + 1
C Read next vo/d pair
CALL PBGRIB(U1, IVOGRIB, JPGRIB * JPBYTES, INLEN, IRET)
IF (IRET.EQ.-1) THEN
IRET = 0
GOTO 290
ENDIF
CALL CHECK(IRET.NE.0, 'PBGRIB failed (vo)')
CALL PBGRIB(U1, IDVGRIB, JPGRIB * JPBYTES, INLEN, IRET)
IF (IRET.EQ.-1) THEN
IRET = 0
GOTO 290
ENDIF
CALL CHECK(IRET.NE.0, 'PBGRIB failed (d)')
C Interpolate
PRINT *, 'Interpolate vo/d pair #', N
OUTLEN = JPGRIB
IRET = INTUVP2(IVOGRIB, IDVGRIB, JPGRIB, IUGRIB, IVGRIB, OUTLEN)
CALL CHECK(IRET.NE.0, 'INTUVP failed')
C Write the new u/v to file
IF (OUTLEN.GT.0) THEN
CALL PBWRITE(U2, IUGRIB, OUTLEN, IRET)
CALL CHECK(IRET.LT.OUTLEN,'PBWRITE failed (vo)')
CALL PBWRITE(U2, IVGRIB, OUTLEN, IRET)
CALL CHECK(IRET.LT.OUTLEN,'PBWRITE failed (d)')
ENDIF
C Loop back for next vo/d pair
GOTO 220
C Close
290 CONTINUE
CALL PBCLOSE(U1, IRET)
CALL PBCLOSE(U2, IRET)
PRINT *, 'Interpolated ', (N-1), ' vo/d pair(s).'
END
C ------------------------------------------------------------------
SUBROUTINE CHECK(OOPS,MSG)
IMPLICIT NONE
LOGICAL OOPS
CHARACTER MSG*(*)
IF (OOPS) THEN
PRINT *, MSG
CALL EXIT(3)
ENDIF
END