Rev 19 | Go to most recent revision | Blame | Compare with Previous | Last modification | View Log | Download | RSS feed
PROGRAM create_startfc **************************************************************c * Create a <startfile> for <lagrangto>. It can be chosen *c * whether to start from an isentropic or an isobaric *c * surface. The starting points are equidistantly distributed *c * Michael Sprenger / Autumn 2004 *c **************************************************************use netcdfimplicit nonec --------------------------------------------------------------c Set parametersc --------------------------------------------------------------c Maximum number of starting positionsinteger nmaxparameter (nmax=4000000)c Maximum number of model levelsinteger nlevmaxparameter (nlevmax=200)c Grid constant (distance in km corresponding to 1 deg at the equator)real deltatparameter (deltat=111.)c Mathematical constant (conversion degree -> radian)real pi180parameter (pi180=3.14159/180.)c Numerical epsilonreal epsparameter (eps=0.00001)c --------------------------------------------------------------c Set variablesc --------------------------------------------------------------c Filenames and output formatcharacter*80 pfile0,pfile1 ! P filenamescharacter*80 sfile0,sfile1 ! S filenamescharacter*80 ofile ! Output filenameinteger oformat ! Output formatreal timeshift ! Time shift relative to data files <*0>real timeinc ! Time increment between input filesc Horizontal gridcharacter*80 hmode ! Horizontale modereal lat1,lat2,lon1,lon2 ! Lat/lon boundariesreal ds,dlon,dlat ! Distance and lat/lon shiftscharacter*80 hfile ! Filenameinteger hn ! Number of entries in lat/lon listreal latlist(nmax) ! List of latitudesreal lonlist(nmax) ! List of longitudesinteger pn ! Number of entries in lat/lon polyreal latpoly(500) ! List of polygon latitudesreal lonpoly(500) ! List of polygon longitudesreal loninpoly,latinpoly ! Lon/lat inside polygoncharacter*80 regionf ! Region fileinteger iregion ! Region numberreal xcorner(4),ycorner(4) ! Vertices of regionc Vertical gridcharacter*80 vmode ! Vertical modereal lev1,lev2,levlist(nmax) ! Single levels, and list of levelscharacter*80 vfile ! Filenameinteger vn ! Number of entriesc Unit of vertical axischaracter*80 umode ! Unit of vertical axisc Flag for 'no time check'character*80 timecheck ! Either 'no' or 'yes'c List of all starting positionsinteger start_n ! Number of coordinatesreal start_lat(nmax) ! Latitudesreal start_lon(nmax) ! Longitudesreal start_lev(nmax) ! Levels (depending on vertical unit)real start_pre(nmax) ! Level in hPainteger reftime(6) ! Reference timecharacter*80 vars(10) ! Name of output fields (time,lon,lat,p)real,allocatable, dimension (:,:,:) :: tra ! Trajectories (ntra,ntim,ncol)real latmin,latmaxreal lonmin,lonmaxreal premin,premaxc Grid descriptionreal pollon,pollat ! Longitude/latitude of polereal ak(nlevmax) ! Vertical layers and levelsreal bk(nlevmax)real xmin,xmax ! Zonal grid extensionreal ymin,ymax ! Meridional grid extensioninteger nx,ny,nz ! Grid dimensionsreal dx,dy ! Horizontal grid resolutionreal,allocatable, dimension (:,:,:) :: pr ! 3d pressurereal,allocatable, dimension (:,:) :: prs ! surface pressurereal,allocatable, dimension (:,:,:) :: th ! 3d potential temperaturereal,allocatable, dimension (:,:) :: ths ! surface poential temperaturereal,allocatable, dimension (:,:,:) :: pv ! 3d potential vorticityreal,allocatable, dimension (:,:) :: pvs ! surface potential vorticiyreal,allocatable, dimension (:,:,:) :: in ! 3d 'dummy' array with vertical indicescharacter*80 varname ! Name of input variableinteger fid ! File identifierreal stagz ! Vertical staggeringreal mdv ! Missing data valuesreal tstart,tend ! Time on P and S filereal rid,rjd,rkd ! Real grid positionc Auxiliary variableinteger i,j,kreal lon,latreal rdinteger stat,flagreal tmp1,tmp2real tfrac,fracreal radius,distcharacter*80 stringcharacter*80 selectstrcharacter*80 umode_savecharacter*80 masknamereal maskvaluecharacter*2 maskoperinteger cdfid,varid,ierrinteger nmaskinteger indx,indycharacter ch1,ch2integer lenreal,allocatable, dimension (:,:,:) :: fld0real,allocatable, dimension (:,:,:) :: fld1real,allocatable, dimension (:,: ) :: sfc0real,allocatable, dimension (:,:) :: sfc1real,allocatable, dimension (:,:) :: maskc Externalsreal int_index3 ! 3d interpolationexternal int_index3real sdis ! Speherical distanceexternal sdisinteger inregion ! In/out of regionexternal inrehionc ------------------------------------------------------------------c Start of program, Read parametersc ------------------------------------------------------------------c Write start messageprint*,'========================================================='print*,' *** START OF PROGRAM CREATE_STARTF ***'print*c Read parameter fileopen(10,file='create_startf.param')c Input P and S fileread(10,*) pfile0,pfile1read(10,*) sfile0,sfile1read(10,*) ofilec Read name of region fileread(10,*) regionfc Reference timedo i=1,6read(10,*) reftime(i)enddoc Time shift relative to data files <pfile0,sfile0> - format (hh.mm)read(10,*) timeshiftc Read timeincrement between input filesread(10,*) timeincc Parameters for horizontal gridread(10,*) hmodeif ( hmode.eq.'file' ) then ! from fileread(10,*) hfileelseif ( hmode.eq.'line' ) then ! along a lineread(10,*) lon1,lon2,lat1,lat2,hnelseif ( hmode.eq.'box.eqd' ) then ! box: 2d equidistantread(10,*) lon1,lon2,lat1,lat2,dselseif ( hmode.eq.'box.grid' ) then ! box: 2d gridread(10,*) lon1,lon2,lat1,lat2elseif ( hmode.eq.'point' ) then ! single pointread(10,*) lon1,lat1elseif ( hmode.eq.'shift' ) then ! centre + shiftedread(10,*) lon1,lat1,dlon,dlatelseif ( hmode.eq.'polygon.eqd' ) then ! polygon: 2d equidistantread(10,*) hfile,dselseif ( hmode.eq.'polygon.grid' ) then ! polygon: 2d gridread(10,*) hfileelseif ( hmode.eq.'circle.eqd' ) then ! circle: 2d equidistantread(10,*) lon1,lat1,radius,dselseif ( hmode.eq.'circle.grid' ) then ! circle: 2d gridread(10,*) lon1,lat1,radiuselseif ( hmode.eq.'region.eqd' ) then ! region: 2d equidistantread(10,*) iregion,dselseif ( hmode.eq.'region.grid' ) then ! iregion: 2d gridread(10,*) iregionelseif ( hmode.eq.'mask.grid' ) then ! 0/1 masked - grid pointsread(10,*) hfile,masknameelseif ( hmode.eq.'mask.eqd' ) then ! 0/1 masked - euqidistant pointsread(10,*) hfile,maskname,dselseprint*,' ERROR: horizontal mode not supported ',trim(hmode)stopendifc Parameters for vertical gridread(10,*) vmodeif ( vmode.eq.'file') then ! from fileread(10,*) vfileelseif ( vmode.eq.'level' ) then ! single level (explicit command)read(10,*) lev1elseif ( vmode.eq.'list') then ! a listread(10,*) vnread(10,*) (levlist(i),i=1,vn)elseif ( vmode.eq.'profile') then ! a profileread(10,*) lev1,lev2,vnelseif ( vmode.eq.'grid') then ! grid pointsread(10,*) lev1,lev2elseprint*,' ERROR: vertical mode not supported ',trim(vmode)stopendifc Read units of vertical axisread(10,*) umodeif ( ( umode.ne.'hPa' ).and.> ( umode.ne.'hPa,agl' ).and.> ( umode.ne.'K' ).and.> ( umode.ne.'PVU' ).and.> ( umode.ne.'INDEX' ) )> thenprint*,' ERROR: unit not supported ',trim(umode)stopendifc Read selection criterion (dummy read)read(10,*) selectstrc Read flag for 'no time check'read(10,*) timecheckc Close parameter fileclose(10)c Decide which output format is used (1..4: trajectory format, -1: triple list)call mode_tra(oformat,ofile)c Decide whether all lat/lon/lev coordaintes are read from one fileif ( (hmode.eq.'file').and.(vmode.eq.'nil') ) thenhmode='file3'elseif ( (hmode.eq.'file').and.(vmode.ne.'nil') ) thenhmode='file2'endifc Convert timeshift (hh.mm) into a fractional time shiftcall hhmm2frac(timeshift,tfrac)if (tfrac.gt.0.) thentfrac=tfrac/timeincelsetfrac=0.endifc If a mask file is provided, no time interpolation is allowedif ( (hmode.eq.'mask.grid').or.(hmode.eq.'mask.eqd') ) thenif ( abs(tfrac).gt.eps ) thenprint*,' ERROR: no intermediate times allowed for ',> trim(hmode)stopendifendifc Read the region coordinates if neededif ( (hmode.eq.'region.eqd' ).or.> (hmode.eq.'region.grid') ) thenopen(10,file=regionf)50 read(10,*,end=51) stringif ( string(1:1).ne.'#' ) thencall regionsplit(string,i,xcorner,ycorner)if ( i.eq.iregion ) goto 52endifgoto 5051 close(10)print*,' ERROR: region ',iregion,' not found on ',trim(regionf)stop52 continueendifc Write some status informationprint*,'---- INPUT PARAMETERS -----------------------------------'print*if ( timeshift.gt.0. ) thenprint*,' P file : ',trim(pfile0),> ' ',> trim(pfile1)print*,' S file : ',trim(sfile0),> ' ',> trim(sfile1)elseprint*,' P file : ',trim(pfile0)print*,' S file : ',trim(sfile0)endifprint*,' Output file : ',trim(ofile)print*if (oformat.eq.-1) thenprint*,' Output format : (lon,lat,lev)-list'elseprint*,' Output format : ',oformatendifprint*print*,' Reference time (year) : ',reftime(1)print*,' (month) : ',reftime(2)print*,' (day) : ',reftime(3)print*,' (hour) : ',reftime(4)print*,' (min) : ',reftime(5)print*,' Time range : ',reftime(6)print*print*,' Time shift : ',timeshift,' + ',> trim(pfile0)print*,' Region file : ',trim(regionf)print*print*,' hmode : ',trim(hmode)if ( hmode.eq.'file2' ) thenprint*,' filename [lat/lon] : ',trim(hfile)elseif ( hmode.eq.'file3' ) thenprint*,' filename [lat/lon/lev] : ',trim(hfile)elseif ( hmode.eq.'line' ) thenwrite(*,'(a30,4f10.2,i4)')> ' lon1,lon2,lat1,lat2,n : ',lon1,lon2,lat1,lat2,hnelseif ( hmode.eq.'box.eqd' ) thenwrite(*,'(a30,5f10.2)')> ' lon1,lon2,lat1,lat2,ds : ',lon1,lon2,lat1,lat2,dselseif ( hmode.eq.'box.grid' ) thenwrite(*,'(a30,4f10.2)')> ' lon1,lon2,lat1,lat2 : ',lon1,lon2,lat1,lat2elseif ( hmode.eq.'point' ) thenprint*,' lon,lat : ',lon1,lat1elseif ( hmode.eq.'shift' ) thenwrite(*,'(a30,4f10.2)')> ' lon,lat,dlon,dlat : ',lon1,lat1,dlon,dlatelseif ( hmode.eq.'polygon.eqd' ) thenwrite(*,'(a30,a10,f10.2)')> ' hfile, ds : ',trim(hfile),dselseif ( hmode.eq.'polygon.grid' ) thenwrite(*,'(a30,a10)')> ' hfile : ',trim(hfile)elseif ( hmode.eq.'circle.eqd' ) thenwrite(*,'(a30,4f10.2)')> ' lonc,latc,radius, ds : ',lon1,lat1,radius,dselseif ( hmode.eq.'circle.grid' ) thenwrite(*,'(a30,3f10.2)')> ' lonc,latc,radius : ',lon1,lat1,radiuselseif ( hmode.eq.'region.eqd' ) thenwrite(*,'(a30,i4,1f10.2)')> ' iregion, ds : ',iregion,dswrite(*,'(a30,4f10.2)')> ' xcorner : ',(xcorner(i),i=1,4)write(*,'(a30,4f10.2)')> ' ycorner : ',(ycorner(i),i=1,4)elseif ( hmode.eq.'region.grid' ) thenwrite(*,'(a30,i4)')> ' iregion : ',iregionwrite(*,'(a30,4f10.2)')> ' xcorner : ',(xcorner(i),i=1,4)write(*,'(a30,4f10.2)')> ' ycorner : ',(ycorner(i),i=1,4)elseif ( hmode.eq.'mask.eqd' ) thenwrite(*,'(a30,a15,a15,f10.2)')> ' hfile,variable,ds : ',trim(hfile),> trim(maskname),> dselseif ( hmode.eq.'mask.grid' ) thenwrite(*,'(a30,a15,a15)')> ' hfile,variable : ',trim(hfile),> trim(maskname)endifprint*print*,' vmode : ',trim(vmode)if ( vmode.eq.'file') thenprint*,' filename : ',trim(vfile)elseif ( vmode.eq.'level' ) thenprint*,' level : ',lev1elseif ( vmode.eq.'list') thenprint*,' n : ',vnprint*,' level(i) : ',(levlist(i),i=1,vn)elseif ( vmode.eq.'profile') thenprint*,' lev1,lev2,n : ',lev1,lev2,vnelseif ( vmode.eq.'grid') thenprint*,' lev1,lev2 : ',lev1,lev2endifprint*print*,' umode : ',trim(umode)print*print*,' time check : ',trim(timecheck)print*c <mask.grid> and <mask.eqd>: split variable into name, operator,valueif ( (hmode.eq.'mask.grid').or.(hmode.eq.'mask.eqd') ) thenlen = len_trim(maskname)do i=1,len_trim(maskname)-1ch1 = maskname(i:i)ch2 = maskname(i+1:i+1)if ( (ch1.eq.'<').and.(ch2.eq.'>') ) thenread(maskname(i+2:len),*) maskvaluemaskname = maskname(1:i-1)maskoper = 'ne'goto 90elseif ( (ch1.eq.'<').and.(ch2.eq.'=') ) thenread(maskname(i+2:len),*) maskvaluemaskname = maskname(1:i-1)maskoper = 'le'goto 90elseif ( (ch1.eq.'>').and.(ch2.eq.'=') ) thenread(maskname(i+2:len),*) maskvaluemaskname = maskname(1:i-1)maskoper = 'ge'goto 90elseif ( (ch1.eq.'=').and.(ch2.eq.'=') ) thenread(maskname(i+2:len),*) maskvaluemaskname = maskname(1:i-1)maskoper = 'eq'goto 90elseif ( ch1.eq.'=' ) thenread(maskname(i+1:len),*) maskvaluemaskname = maskname(1:i-1)maskoper = 'eq'goto 90elseif ( ch1.eq.'>' ) thenread(maskname(i+1:len),*) maskvaluemaskname = maskname(1:i-1)maskoper = 'gt'goto 90elseif ( ch1.eq.'<' ) thenread(maskname(i+1:len),*) maskvaluemaskname = maskname(1:i-1)maskoper = 'lt'goto 90endifenddoendif90 continuec ------------------------------------------------------------------c Read grid parameters from inital filesc ------------------------------------------------------------------c Get the time of the first and second data filetstart = -timeshift ! Format hh.mmcall hhmm2frac(tstart,frac)frac = frac + timeinccall frac2hhmm(frac,tend) ! Format hh.mmc Convert timeshift (hh.mm) into a fractional time shifttfrac=real(int(timeshift))+> 100.*(timeshift-real(int(timeshift)))/60.if (tfrac.gt.0.) thentfrac=tfrac/timeincelsetfrac=0.endifc Read the constant grid parameters (nx,ny,nz,xmin,xmax,ymin,ymax,c pollon,pollat) The negative <-fid> of the file identifier is usedc as a flag for parameter retrievalvarname = 'U'nx = 1ny = 1nz = 1call input_open (fid,pfile0)call input_grid (-fid,varname,xmin,xmax,ymin,ymax,dx,dy,nx,ny,> tstart,pollon,pollat,rd,rd,nz,rd,rd,rd,timecheck)call input_close(fid)c Check whether region coordinates are within the domainif ( (hmode.eq.'region.eqd' ).or.> (hmode.eq.'region.grid') ) thendo i=1,4if ( (xcorner(i).lt.xmin).or.> (ycorner(i).lt.ymin).or.> (xcorner(i).gt.xmax).or.> (ycorner(i).gt.ymax) )> thenprint*,' ERROR: region not included in data domain...'print*,' ',trim(string)print*,' ',(xcorner(j),j=1,4)print*,' ',(ycorner(j),j=1,4)stopendifenddoendifC Check if the number of levels is too largeif (nz.gt.nlevmax) goto 993c Allocate memory for 3d arrays: pressure, theta, pvallocate(pr(nx,ny,nz),stat=stat)if (stat.ne.0) print*,'*** error allocating array pr ***'allocate(prs(nx,ny),stat=stat)if (stat.ne.0) print*,'*** error allocating array prs **'allocate(th(nx,ny,nz),stat=stat)if (stat.ne.0) print*,'*** error allocating array th ***'allocate(ths(nx,ny),stat=stat)if (stat.ne.0) print*,'*** error allocating array ths **'allocate(pv(nx,ny,nz),stat=stat)if (stat.ne.0) print*,'*** error allocating array pv ***'allocate(pvs(nx,ny),stat=stat)if (stat.ne.0) print*,'*** error allocating array pvs **'allocate(in(nx,ny,nz),stat=stat)if (stat.ne.0) print*,'*** error allocating array in ***'allocate(mask(nx,ny),stat=stat)if (stat.ne.0) print*,'*** error allocating array mask ***'c Allocate memory for temporary arrays for time interpolationallocate(fld0(nx,ny,nz),stat=stat)if (stat.ne.0) print*,'*** error allocating array tmp0 ***'allocate(fld1(nx,ny,nz),stat=stat)if (stat.ne.0) print*,'*** error allocating array tmp1 ***'allocate(sfc0(nx,ny),stat=stat)if (stat.ne.0) print*,'*** error allocating array sfc0 ***'allocate(sfc1(nx,ny),stat=stat)if (stat.ne.0) print*,'*** error allocating array sfc1 ***'c ------ Index -----------------------------------------------------c Init the dummy array with vertical indexdo i=1,nxdo j=1,nydo k=1,nzin(i,j,k) = real(k)enddoenddoenddoc ------ Pressure --------------------------------------------------c Read pressure from first data file (pfile0) on U-grid; we have to setc mdv explicitely, because it's not read from netCDFcall input_open (fid,pfile0)varname='U'stagz = -0.5call input_grid> (fid,varname,xmin,xmax,ymin,ymax,dx,dy,nx,ny,> tstart,pollon,pollat,fld0,sfc0,nz,ak,bk,stagz,timecheck)mdv = -999.99call input_close(fid)c Read or set pressure for second data file (pfile1)if ( timeshift.ne.0.) thencall input_open (fid,pfile1)varname='U'call input_grid> (fid,varname,xmin,xmax,ymin,ymax,dx,dy,nx,ny,> tend,pollon,pollat,fld1,sfc1,nz,ak,bk,stagz,timecheck)call input_close(fid)elsedo i=1,nxdo j=1,nydo k=1,nzfld1(i,j,k) = fld0(i,j,k)enddosfc1(i,j) = sfc0(i,j)enddoenddoendifc Time interpolation to get the final pressure fielddo i=1,nxdo j=1,nydo k=1,nzpr(i,j,k) = (1.-tfrac) * fld0(i,j,k) +> tfrac * fld1(i,j,k)enddoprs(i,j) = (1.-tfrac) * sfc0(i,j) +> tfrac * sfc1(i,j)enddoenddoc ------ Potential temperature -------------------------------------if ( (umode.eq.'K').or.(umode.eq.'PVU') ) thenc Read potential temperature from first data file <sfile0>call input_open (fid,sfile0)varname='TH' ! Thetacall input_wind> (fid,varname,fld0,tstart,stagz,mdv,> xmin,xmax,ymin,ymax,dx,dy,nx,ny,nz,timecheck)call input_close(fid)c Read or set potential temperature for second data file (sfile1)if ( timeshift.ne.0.) thencall input_open (fid,sfile1)varname='TH'call input_wind> (fid,varname,fld1,tend,stagz,mdv,> xmin,xmax,ymin,ymax,dx,dy,nx,ny,nz,timecheck)call input_close(fid)elsedo i=1,nxdo j=1,nydo k=1,nzfld1(i,j,k) = fld0(i,j,k)enddoenddoenddoendifc Time interpolation to get the final potential temperature fielddo i=1,nxdo j=1,nydo k=1,nzth(i,j,k) = (1.-tfrac) * fld0(i,j,k) +> tfrac * fld1(i,j,k)enddoenddoenddoc Set the surface potential temperaturedo i=1,nxdo j=1,nyths(i,j)=th(i,j,1)enddoenddoendifc ------ Potential vorticity -----------------------------------------if ( (umode.eq.'PVU') ) thenc Read potential vorticity from first data file <sfile0>call input_open (fid,sfile0)varname='PV'call input_wind> (fid,varname,fld0,tstart,stagz,mdv,> xmin,xmax,ymin,ymax,dx,dy,nx,ny,nz,timecheck)call input_close(fid)c Read or set potential vorticity for second data file (sfile1)if ( timeshift.ne.0.) thencall input_open (fid,sfile1)varname='PV'call input_wind> (fid,varname,fld1,tend,stagz,mdv,> xmin,xmax,ymin,ymax,dx,dy,nx,ny,nz,timecheck)call input_close(fid)elsedo i=1,nxdo j=1,nydo k=1,nzfld1(i,j,k) = fld0(i,j,k)enddoenddoenddoendifc Time interpolation to get the final potential vorticity fielddo i=1,nxdo j=1,nydo k=1,nzpv(i,j,k) = (1.-tfrac) * fld0(i,j,k) +> tfrac * fld1(i,j,k)enddoenddoenddoc Set the surface potential vorticitydo i=1,nxdo j=1,nypvs(i,j)=pv(i,j,1)enddoenddoendifc ------ Load 0/1 label (mask) ------------------------------------if ( (hmode.eq.'mask.grid').or.(hmode.eq.'mask.eqd') ) thenc Explicit netCDF calls - no consistency check for grids!ierr = NF90_OPEN(hfile,nf90_nowrite, cdfid)IF ( ierr /= nf90_NoErr ) PRINT *,NF90_STRERROR(ierr)ierr = NF90_INQ_VARID(cdfid,maskname,varid)IF(ierr /= nf90_NoErr) PRINT *,NF90_STRERROR(ierr)ierr = nf90_get_var(cdfid,varid,mask)IF(ierr /= nf90_NoErr) PRINT *,NF90_STRERROR(ierr)ierr = NF90_CLOSE(cdfid)IF( ierr /= nf90_NoErr) PRINT *,NF90_STRERROR(ierr)nmask = 0do i=1,nxdo j=1,nyif ( maskoper.eq.'eq' ) thenif ( abs(mask(i,j)-maskvalue).lt.eps ) thennmask = nmask + 1mask(i,j) = 1.elsemask(i,j) = 0.endifendifif ( maskoper.eq.'ne' ) thenif ( abs(mask(i,j)-maskvalue).gt.eps ) thennmask = nmask + 1mask(i,j) = 1.elsemask(i,j) = 0.endifendifif ( maskoper.eq.'gt' ) thenif ( mask(i,j).gt.maskvalue ) thennmask = nmask + 1mask(i,j) = 1.elsemask(i,j) = 0.endifendifif ( maskoper.eq.'lt' ) thenif ( mask(i,j).lt.maskvalue ) thennmask = nmask + 1mask(i,j) = 1.elsemask(i,j) = 0.endifendifif ( maskoper.eq.'ge' ) thenif ( mask(i,j).ge.maskvalue ) thennmask = nmask + 1mask(i,j) = 1.elsemask(i,j) = 0.endifendifif ( maskoper.eq.'le' ) thenif ( mask(i,j).le.maskvalue ) thennmask = nmask + 1mask(i,j) = 1.elsemask(i,j) = 0.endifendifenddoenddoprint*print*,' Mask read from file -> ',nmask,' 1-points'print*endifc Write some status informationprint*,'---- CONSTANT GRID PARAMETERS ---------------------------'print*print*,' xmin,xmax : ',xmin,xmaxprint*,' ymin,ymax : ',ymin,ymaxprint*,' dx,dy : ',dx,dyprint*,' pollon,pollat : ',pollon,pollatprint*,' nx,ny,nz : ',nx,ny,nzprint*print*,' Pressure loaded : ',trim(pfile0),' ',trim(pfile1)if ( (umode.eq.'K').or.(umode.eq.'PVU') ) thenprint*,' Theta loaded : ',trim(sfile0),' ',trim(sfile1)endifif ( (umode.eq.'PVU') ) thenprint*,' PV loaded : ',trim(sfile0),' ',trim(sfile1)endifprint*c ------------------------------------------------------------------c Determine the expanded list of starting coordinatesc ------------------------------------------------------------------c Write some status informationprint*,'---- EXPAND LIST OF STARTING POSITIONS -----------------'print*c ------ Read lat/lon/lev from <hfile> -----------------------------if ( hmode.eq.'file3' ) thenstart_n = 0open(10,file=hfile)100 continuestart_n = start_n + 1read(10,*,end=101) start_lon(start_n),> start_lat(start_n),> start_lev(start_n)goto 100101 continuestart_n = start_n - 1close(10)goto 400endifc ------ Get lat/lon (horizontal) coordinates ---------------------c Read lat/lon from <hfile>if ( hmode.eq.'file2' ) thenhn = 0open(10,file=hfile)200 continuehn = hn + 1read(10,*,end=201) lonlist(hn),> latlist(hn)goto 200201 continuehn = hn - 1close(10)endifc Get lat/lon along a line (linear in lat/lon space)if ( hmode.eq.'line' ) thendo i=1,hnlonlist(i) = lon1 + real(i-1)/real(hn-1)*(lon2-lon1)latlist(i) = lat1 + real(i-1)/real(hn-1)*(lat2-lat1)enddoendifc Lat/lon box: equidistantif ( hmode.eq.'box.eqd' ) thenhn = 0lat = lat1do while ( lat.le.lat2 )lon = lon1do while ( lon.le.lon2 )hn = hn+1lonlist(hn) = lonlatlist(hn) = latlon = lon+ds/(deltat*cos(pi180*lat))enddolat = lat+ds/deltatenddoendifc Lat/lon box: gridif ( hmode.eq.'box.grid' ) thenhn = 0do j=1,nydo i=1,nxlon = xmin + real(i-1) * dxlat = ymin + real(j-1) * dyif ( (lon.ge.lon1).and.(lon.le.lon2).and.> (lat.ge.lat1).and.(lat.le.lat2) )> thenhn = hn+1lonlist(hn) = lonlatlist(hn) = latendifenddoenddoendifc Get single starting pointif ( hmode.eq.'point' ) thenhn = 1lonlist(hn) = lon1latlist(hn) = lat1endifc Get shifted and central starting pointif ( hmode.eq.'shift' ) thenhn = 5lonlist(1) = lon1latlist(1) = lat1lonlist(2) = lon1+dlonlatlist(2) = lat1lonlist(3) = lon1-dlonlatlist(3) = lat1lonlist(4) = lon1latlist(4) = lat1+dlatlonlist(5) = lon1latlist(5) = lat1-dlatendifc Lat/lon polygon: gridif ( hmode.eq.'polygon.grid' ) thenc Read list of polygon coordinatespn = 0open(10,file=hfile)read(10,*) loninpoly,latinpoly210 continuepn = pn + 1read(10,*,end=211) lonpoly(pn),> latpoly(pn)print*,pn,lonpoly(pn),latpoly(pn)goto 210211 continuepn = pn - 1close(10)c Define the polygon boundariescall DefSPolyBndry(latpoly,lonpoly,pn,latinpoly,loninpoly)c Get the grid points inside the polygonhn = 0do j=1,nydo i=1,nxlon = xmin + real(i-1) * dxlat = ymin + real(j-1) * dycall LctPtRelBndry(lat,lon,flag)if ( (flag.eq.1).or.(flag.eq.2) ) thenhn = hn+1lonlist(hn) = lonlatlist(hn) = latendifenddoenddoendifc Lat/lon polygon: equidistantif ( hmode.eq.'polygon.eqd' ) thenc Read list of polygon coordinatespn = 0open(10,file=hfile)read(10,*) loninpoly,latinpoly220 continuepn = pn + 1read(10,*,end=221) lonpoly(pn),> latpoly(pn)goto 220221 continuepn = pn - 1close(10)c Define the polygon boundariescall DefSPolyBndry(latpoly,lonpoly,pn,latinpoly,loninpoly)c Get the grid points inside the polygonhn = 0lat = -90.do while ( lat.le.90. )lon = -180.do while ( lon.lt.180. )call LctPtRelBndry(lat,lon,flag)if ( (flag.eq.1).or.(flag.eq.2) ) thenhn = hn+1lonlist(hn) = lonlatlist(hn) = latendiflon = lon+ds/(deltat*cos(pi180*lat))enddolat = lat+ds/deltatenddoendifc Circle: equidistantif ( hmode.eq.'circle.eqd' ) thenhn = 0lat = ymindo while ( lat.le.ymax )lon = xmindo while ( lon.le.xmax )dist = sdis(lon1,lat1,lon,lat)if ( dist.le.radius ) thenhn = hn+1lonlist(hn) = lonlatlist(hn) = latendiflon = lon+ds/(deltat*cos(pi180*lat))enddolat = lat+ds/deltatenddoendifc Circle: gridif ( hmode.eq.'circle.grid' ) thenhn = 0do j=1,nydo i=1,nxlon = xmin + real(i-1) * dxlat = ymin + real(j-1) * dydist = sdis(lon1,lat1,lon,lat)if ( dist.le.radius ) thenhn = hn+1lonlist(hn) = lonlatlist(hn) = latendifenddoenddoendifc Region: equidistantif ( hmode.eq.'region.eqd' ) thenhn = 0lat = ymindo while ( lat.le.ymax )lon = xmindo while ( lon.le.xmax )flag = inregion(lon,lat,xcorner,ycorner)if ( flag.eq.1 ) thenhn = hn+1lonlist(hn) = lonlatlist(hn) = latendiflon = lon+ds/(deltat*cos(pi180*lat))enddolat = lat+ds/deltatenddoendifc Region: gridif ( hmode.eq.'region.grid' ) thenhn = 0do j=1,nydo i=1,nxlon = xmin + real(i-1) * dxlat = ymin + real(j-1) * dyflag = inregion(lon,lat,xcorner,ycorner)if ( flag.eq.1 ) thenhn = hn+1lonlist(hn) = lonlatlist(hn) = latendifenddoenddoendifc mask: gridif ( hmode.eq.'mask.grid' ) thenhn = 0do i=1,nxdo j=1,nyif ( mask(i,j).gt.0.5 ) thenhn = hn +1lonlist(hn) = xmin + real(i-1) * dxlatlist(hn) = ymin + real(j-1) * dyendifenddoenddoendifc mask: equidistantif ( hmode.eq.'mask.eqd' ) thenhn = 0lat = -90.+dydo while ( lat.le.ymax )lon = -180.do while ( lon.le.xmax )indx = nint( (lon-xmin)/dx + 1. )indy = nint( (lat-ymin)/dy + 1. )if ( indx.lt. 1 ) indx = 1if ( indy.lt. 1 ) indy = 1if ( indx.gt.nx ) indx = nxif ( indy.gt.ny ) indy = nyif ( mask(indx,indy).gt.0.5 ) thenhn = hn+1lonlist(hn) = lonlatlist(hn) = latendiflon = lon+ds/(deltat*cos(pi180*lat))enddolat = lat+ds/deltatenddoendifc ------ Get lev (vertical) coordinates -------------------------c Read level list from fileif ( vmode.eq.'file' ) thenvn = 0open(10,file=vfile)300 continuevn = vn + 1read(10,*,end=301) levlist(vn)goto 300301 continuevn = vn - 1close(10)endifc Get single starting levelif ( vmode.eq.'level' ) thenvn = 1levlist(vn) = lev1endifc Get level profileif ( vmode.eq.'profile' ) thendo i=1,vnlevlist(i) = lev1 + real(i-1)/real(vn-1)*(lev2-lev1)enddoendifc Get all grid points in a layer: at the moment set the list of levels toc all indices from 1 to nz; later the correct subset of indices will be chosenif ( vmode.eq.'grid' ) thenvn = nzdo i=1,vnlevlist(i) = real(i)enddoumode_save = umodeumode = 'INDEX'endifc ------ Compile the complete list of starting positions ------c Get all starting points in specified vertical coordinate systemstart_n = 0do i=1,vndo j=1,hnstart_n = start_n + 1start_lon(start_n) = lonlist(j)start_lat(start_n) = latlist(j)start_lev(start_n) = levlist(i)enddoenddoc ------ Exit point of this section400 continuec Write status informationprint*,' # expanded points : ', start_nprint*c ------------------------------------------------------------------c Transform starting levels into pressurec ------------------------------------------------------------------c Write some status informationprint*,'---- STARTING POSITIONS ---------------------------------'print*c Vertical mode <hPa,asl> or simply <hPa>if ( (umode.eq.'hPa,asl').or.(umode.eq.'hPa') ) thendo i=1,start_nstart_pre(i) = start_lev(i)enddoc Vertical mode <hPa,agl>elseif ( umode.eq.'hPa,agl' ) thendo i=1,start_ncall get_index3(rid,rjd,rkd,start_lon(i),start_lat(i),1050.,> 3,pr,prs,nx,ny,nz,xmin,ymin,dx,dy)tmp1 = int_index3 (prs,nx,ny,1,rid,rjd,1,mdv)start_pre(i) = tmp1 - start_lev(i)enddoc Vertical mode <K>elseif ( umode.eq.'K' ) thendo i=1,start_ncall get_index3(rid,rjd,rkd,start_lon(i),start_lat(i),> start_lev(i),1,th,ths,nx,ny,nz,xmin,ymin,dx,dy)tmp1 = int_index3 (pr,nx,ny,nz,rid,rjd,rkd,mdv)start_pre(i) = tmp1enddoc Vertical mode <PVU>elseif ( umode.eq.'PVU' ) thendo i=1,start_ncall get_index3(rid,rjd,rkd,start_lon(i),start_lat(i),> start_lev(i),2,pv,pvs,nx,ny,nz,xmin,ymin,dx,dy)tmp1 = int_index3 (pr,nx,ny,nz,rid,rjd,rkd,mdv)start_pre(i) = tmp1enddoc Vertical mode <INDEX>elseif ( umode.eq.'INDEX' ) thendo i=1,start_ncall get_index3(rid,rjd,rkd,start_lon(i),start_lat(i),> 1050.,2,pv,pvs,nx,ny,nz,xmin,ymin,dx,dy)rkd = start_lev(i)tmp1 = int_index3 (pr,nx,ny,nz,rid,rjd,rkd,mdv)start_pre(i) = tmp1enddoendifc ------------------------------------------------------------------c Remove invalid points from the listc ------------------------------------------------------------------c Select the correct subset if <vmode=grid>: starting points outside the layerc will receive a <mdv> vertical pressure and will be removedif ( vmode.eq.'grid' ) thendo i=1,start_nc Get the pressure at the grid pointif ( ( umode_save.eq.'hPa' ).or.> (umode_save.eq.'hPa,asl') )> thencall get_index3(rid,rjd,rkd,start_lon(i),start_lat(i),> start_pre(i),3,pr,prs,nx,ny,nz,xmin,> ymin,dx,dy)tmp1 = int_index3 (pr,nx,ny,nz,rid,rjd,rkd,mdv)c Get pressure AGL at grid pointelseif ( umode_save.eq.'hPa,agl' ) thencall get_index3(rid,rjd,rkd,start_lon(i),> start_lat(i),start_pre(i),3,pr,prs,> nx,ny,nz,xmin,ymin,dx,dy)tmp1 = int_index3 (pr,nx,ny,nz,rid,rjd,rkd,mdv)call get_index3(rid,rjd,rkd,start_lon(i),> start_lat(i),1050.,3,pr,prs,nx,ny,> nz,xmin,ymin,dx,dy)tmp2 = int_index3 (prs,nx,ny,1,rid,rjd,1,mdv)tmp1 = tmp2 - tmp1c Get potential temperature at grid pointelseif ( umode_save.eq.'K' ) thencall get_index3(rid,rjd,rkd,start_lon(i),start_lat(i),> start_pre(i),3,pr,prs,nx,ny,nz,> xmin,ymin,dx,dy)tmp1 = int_index3 (th,nx,ny,nz,rid,rjd,rkd,mdv)c Get potential vorticity at the grid pointelseif ( umode_save.eq.'PVU' ) thencall get_index3(rid,rjd,rkd,start_lon(i),start_lat(i),> start_pre(i),3,pr,prs,nx,ny,nz,xmin,> ymin,dx,dy)tmp1 = int_index3 (pv,nx,ny,nz,rid,rjd,rkd,mdv)c Get vertical index at the grid pointelseif ( umode_save.eq.'INDEX' ) thencall get_index3(rid,rjd,rkd,start_lon(i),start_lat(i),> start_pre(i),3,pr,prs,nx,ny,nz,> xmin,ymin,dx,dy)tmp1 = int_index3 (in,nx,ny,nz,rid,rjd,rkd,mdv)endifc Remove points outside layerif ( ( tmp1.lt.lev1).or.(tmp1.gt.lev2) ) thenstart_pre(i) = mdvendifenddoendifc Check whether the starting levels are valid (in data domain)do i=1,start_ncall get_index3(rid,rjd,rkd,start_lon(i),start_lat(i),1050.,> 3,pr,prs,nx,ny,nz,xmin,ymin,dx,dy)tmp1 = int_index3 (prs,nx,ny, 1,rid,rjd,real( 1),mdv) ! Surfacetmp2 = int_index3 (pr ,nx,ny,nz,rid,rjd,real(nz),mdv) ! Top of domainif ( (start_pre(i).gt.tmp1).or.> (start_pre(i).lt.tmp2).or.> (start_lon(i).lt.xmin).or.> (start_lon(i).gt.xmax).or.> (start_lat(i).lt.ymin).or.> (start_lat(i).gt.ymax) )> thenstart_pre(i) = mdvendifenddoc Remove all starting points outside the domaini = 1do while ( i.le.start_n )if ( abs(start_pre(i)-mdv).lt.eps ) thenif ( vmode.ne.'grid') thenprint*,' Outside ', start_lon(i),start_lat(i),start_lev(i)endifdo j=i,start_nstart_lon(j) = start_lon(j+1)start_lat(j) = start_lat(j+1)start_pre(j) = start_pre(j+1)start_lev(j) = start_lev(j+1)enddostart_n = start_n - 1elsei = i + 1endifenddoc Write some status informationlatmin = start_lat(1)latmax = start_lat(1)lonmin = start_lon(1)lonmax = start_lon(1)premin = start_pre(1)premax = start_pre(1)do i=1,start_nif (start_lat(i).lt.latmin) latmin = start_lat(i)if (start_lat(i).gt.latmax) latmax = start_lat(i)if (start_lon(i).lt.lonmin) lonmin = start_lon(i)if (start_lon(i).gt.lonmax) lonmax = start_lon(i)if (start_pre(i).lt.premin) premin = start_pre(i)if (start_pre(i).gt.premax) premax = start_pre(i)enddoprint*,' min(lat),max(lat) : ', latmin,latmaxprint*,' min(lon),max(lon) : ', lonmin,lonmaxprint*,' min(pre),max(pre) : ', premin,premaxprint*print*,' # starting points : ', start_nprint*c ------------------------------------------------------------------c Write starting positions to output filec ------------------------------------------------------------------c Output as a trajectory file (with only one time == 0)if (oformat.ne.-1) thenallocate(tra(start_n,1,5),stat=stat)vars(1) ='time'vars(2) ='lon'vars(3) ='lat'vars(4) ='p'vars(5) ='level'call wopen_tra(fid,ofile,start_n,1,5,reftime,vars,oformat)do i=1,start_ntra(i,1,1) = 0.tra(i,1,2) = start_lon(i)tra(i,1,3) = start_lat(i)tra(i,1,4) = start_pre(i)tra(i,1,5) = start_lev(i)enddocall write_tra(fid,tra,start_n,1,5,oformat)call close_tra(fid,oformat)c Output as a triple list (corresponding to <startf> file)elsefid = 10open(fid,file=ofile)do i=1,start_nwrite(fid,'(3f10.3)') start_lon(i),start_lat(i),> start_pre(i)enddoclose(fid)endifc Write some status information, and end of program messageprint*print*,'---- STATUS INFORMATION --------------------------------'print*print*,'ok'print*print*,' *** END OF PROGRAM CREATE_STARTF ***'print*,'========================================================='c ------------------------------------------------------------------c Exception handlingc ------------------------------------------------------------------stop993 write(*,*) '*** ERROR: problems with array size'call exit(1)endc --------------------------------------------------------------------------c Split a region string and get corners of the domainc --------------------------------------------------------------------------subroutine regionsplit(string,iregion,xcorner,ycorner)c The region string comes either as <lonw,lone,lats,latn> or as <lon1,lat1,c lon2,lat2,lon3,lat3,lon4,lat4>: split it into ints components and get thec four coordinates for the regionimplicit nonec Declaration of subroutine parameterscharacter*80 stringreal xcorner(4),ycorner(4)integer iregionc Local variablesinteger i,ninteger il,irreal subfloat (80)integer statinteger lenc ------- Split the stringi = 1n = 0stat = 0il = 1len = len_trim(string)100 continuec Find start of a substringdo while ( stat.eq.0 )if ( string(i:i).ne.' ' ) thenstat = 1il = ielsei = i + 1endifenddoc Find end of substringdo while ( stat.eq.1 )if ( ( string(i:i).eq.' ' ) .or. ( i.eq.len ) ) thenstat = 2ir = ielsei = i + 1endifenddoc Convert the substring into a numberif ( stat.eq.2 ) thenn = n + 1read(string(il:ir),*) subfloat(n)stat = 0endifif ( i.lt.len ) goto 100c -------- Get the region numberiregion = nint(subfloat(1))c -------- Get the corners of the regionif ( n.eq.5 ) then ! lonw(2),lone(3),lats(4),latn(5)xcorner(1) = subfloat(2)ycorner(1) = subfloat(4)xcorner(2) = subfloat(3)ycorner(2) = subfloat(4)xcorner(3) = subfloat(3)ycorner(3) = subfloat(5)xcorner(4) = subfloat(2)ycorner(4) = subfloat(5)elseif ( n.eq.9 ) then ! lon1,lat1,lon2,lat2,lon3,lon4,lat4xcorner(1) = subfloat(2)ycorner(1) = subfloat(3)xcorner(2) = subfloat(4)ycorner(2) = subfloat(5)xcorner(3) = subfloat(6)ycorner(3) = subfloat(7)xcorner(4) = subfloat(8)ycorner(4) = subfloat(9)elseprint*,' ERROR: invalid region specification 'print*,' ',trim(string)stopendifendc --------------------------------------------------------------------------c Decide whether lat/lon point is in or out of regionc --------------------------------------------------------------------------integer function inregion (lon,lat,xcorner,ycorner)c Decide whether point (lon/lat) is in the region specified by <xcorner(1..4),c ycorner(1..4).implicit nonec Declaration of subroutine parametersreal lon,latreal xcorner(4),ycorner(4)c Local variablesinteger flagreal xmin,xmax,ymin,ymaxinteger ic Reset the flagflag = 0c Set some boundariesxmax = xcorner(1)xmin = xcorner(1)ymax = ycorner(1)ymin = ycorner(1)do i=2,4if (xcorner(i).lt.xmin) xmin = xcorner(i)if (xcorner(i).gt.xmax) xmax = xcorner(i)if (ycorner(i).lt.ymin) ymin = ycorner(i)if (ycorner(i).gt.ymax) ymax = ycorner(i)enddoc Do the tests - set flag=1 if all tests pasedif (lon.lt.xmin) goto 970if (lon.gt.xmax) goto 970if (lat.lt.ymin) goto 970if (lat.gt.ymax) goto 970if ((lon-xcorner(1))*(ycorner(2)-ycorner(1))-> (lat-ycorner(1))*(xcorner(2)-xcorner(1)).gt.0.) goto 970if ((lon-xcorner(2))*(ycorner(3)-ycorner(2))-> (lat-ycorner(2))*(xcorner(3)-xcorner(2)).gt.0.) goto 970if ((lon-xcorner(3))*(ycorner(4)-ycorner(3))-> (lat-ycorner(3))*(xcorner(4)-xcorner(3)).gt.0.) goto 970if ((lon-xcorner(4))*(ycorner(1)-ycorner(4))-> (lat-ycorner(4))*(xcorner(1)-xcorner(4)).gt.0.) goto 970flag = 1c Return the value970 continueinregion = flagreturnendc --------------------------------------------------------------------------c Spherical distance between lat/lon pointsc --------------------------------------------------------------------------real function sdis(xp,yp,xq,yq)cc calculates spherical distance (in km) between two points givenc by their spherical coordinates (xp,yp) and (xq,yq), respectively.creal reparameter (re=6370.)real pi180parameter (pi180=3.14159/180.)real xp,yp,xq,yq,argarg=sin(pi180*yp)*sin(pi180*yq)+> cos(pi180*yp)*cos(pi180*yq)*cos(pi180*(xp-xq))if (arg.lt.-1.) arg=-1.if (arg.gt.1.) arg=1.sdis=re*acos(arg)endc ****************************************************************c * Given some spherical polygon S and some point X known to be *c * located inside S, these routines will determine if an arbit- *c * -rary point P lies inside S, outside S, or on its boundary. *c * The calling program must first call DefSPolyBndry to define *c * the boundary of S and the point X. Any subsequent call to *c * subroutine LctPtRelBndry will determine if some point P lies *c * inside or outside S, or on its boundary. (Usually *c * DefSPolyBndry is called once, then LctPrRelBndry is called *c * many times). *c * *c * REFERENCE: Bevis, M. and Chatelain, J.-L. (1989) *c * Maflaematical Geology, vol 21. *c * VERSION 1.0 *c ****************************************************************Subroutine DefSPolyBndry(vlat,vlon,nv,xlat, xlon)c ****************************************************************c * This mmn entry point is used m define ~e spheric~ polygon S *c * and the point X. *c * ARGUMENTS: *c * vlat,vlon (sent) ... vectors containing the latitude and *c * longitude of each vertex of the *c * spherical polygon S. The ith.vertex is *c * located at [vlat(i),vlon(i)]. *c * nv (sent) ... the number of vertices and sides in the *c * spherical polygon S *c * xlat,xlon (sent) ... latitude and longitude of some point X *c * located inside S. X must not be located *c * on any great circle that includes two *c * vertices of S. *c * *c * UNITS AND SIGN CONVENTION: *c * Latitudes and longitudes are specified in degrees. *c * Latitudes are positive to the north and negative to the *c * south. *c * Longitudes are positive to the east and negative to the *c * west. *c * *c * VERTEX ENUMERATION: *c * The vertices of S should be numbered sequentially around the *c * border of the spherical polygon. Vertex 1 lies between vertex*c * nv and vertex 2. Neighbouring vertices must be seperated by *c * less than 180 degrees. (In order to generate a polygon side *c * whose arc length equals or exceeds 180 degrees simply *c * introduce an additional (pseudo)vertex). Having chosen *c * vertex 1, the user may number the remaining vertices in *c * either direction. However if the user wishes to use the *c * subroutine SPA to determine the area of the polygon S (Bevis *c * & Cambareri, 1987, Math. Geol., v.19, p. 335-346) then he or *c * she must follow the convention whereby in moving around the *c * polygon border in the direction of increasing vertex number *c * clockwise bends occur at salient vertices. A vertex is *c * salient if the interior angle is less than 180 degrees. *c * (In the case of a convex polygon this convention implies *c * that vertices are numbered in clockwise sequence). *c ****************************************************************implicit noneinteger mxnv,nvc ----------------------------------------------------------------c Edit next statement to increase maximum number of vertices thatc may be used to define the spherical polygon Sc The value of parameter mxnv in subroutine LctPtRelBndry must matchc that of parameter mxnv in this subroutine, as assigned above.c ----------------------------------------------------------------parameter (mxnv=500)real vlat(nv),vlon(nv),xlat,xlon,dellonreal tlonv(mxnv),vlat_c(mxnv),vlon_c(mxnv),xlat_c,xlon_cinteger i,ibndry,nv_c,ipdata ibndry/0/common/spolybndry/vlat_c,vlon_c,nv_c,xlat_c,xlon_c,tlonv,ibndryif (nv.gt.mxnv) thenprint *,'nv exceeds maximum allowed value'print *,'adjust parameter mxnv in subroutine DefSPolyBndry'stopendifibndry=1 ! boundary defined at least once (flag)nv_c=nv ! copy for named commonxlat_c=xlat ! . . . .xlon_c=xlon !do i=1,nvvlat_c(i)=vlat(i) ! "vlon_c(i)=vlon(i) !call TrnsfmLon(xlat,xlon,vlat(i),vlon(i),tlonv(i))if (i.gt.1) thenip=i-1elseip=nvendifif ((vlat(i).eq.vlat(ip)).and.(vlon(i).eq.vlon(ip))) thenprint *,'DefSPolyBndry detects user error:'print *,'vertices ',i,' and ',ip,' are not distinct'print*,'lat ',i,ip,vlat(i),vlat(ip)print*,'lon ',i,ip,vlon(i),vlon(ip)stopendifif (tlonv(i).eq.tlonv(ip)) thenprint *,'DefSPolyBndry detects user error:'print *,'vertices ',i,' & ',ip,' on same gt. circle as X'stopendifif (vlat(i).eq.(-vlat(ip))) thendellon=vlon(i)-vlon(ip)if (dellon.gt.+180.) dellon=dellon-360.if (dellon.lt.-180.) dellon=dellon-360.if ((dellon.eq.+180.0).or.(dellon.eq.-180.0)) thenprint *,'DefSPolyBndry detects user error:'print *,'vertices ',i,' and ',ip,' are antipodal'stopendifendifenddoreturnendc ****************************************************************Subroutine LctPtRelBndry(plat,plon,location)c ****************************************************************c ****************************************************************c * This routine is used to see if some point P is located *c * inside, outside or on the boundary of the spherical polygon *c * S previously defined by a call to subroutine DefSPolyBndry. *c * There is a single restriction on point P: it must not be *c * antipodal to the point X defined in the call to DefSPolyBndry*c * (ie.P and X cannot be seperated by exactly 180 degrees). *c * ARGUMENTS: *c * plat,plon (sent)... the latitude and longitude of point P *c * location (returned)... specifies the location of P: *c * location=0 implies P is outside of S *c * location=1 implies P is inside of S *c * location=2 implies P on boundary of S *c * location=3 implies user error (P is *c * antipodal to X) *c * UNFfS AND SIGN CONVENTION: *c * Latitudes and longitudes are specified in degrees. *c * Latitudes are positive to the north and negative to the *c * south. *c * Longitudes are positive to the east and negative to the *c * west. *c ****************************************************************implicit noneinteger mxnvc ----------------------------------------------------------------c The statement below must match that in subroutine DefSPolyBndryc ----------------------------------------------------------------parameter (mxnv=500)real tlonv(mxnv),vlat_c(mxnv),vlon_c(mxnv),xlat_c,xlon_creal plat,plon,vAlat,vAlon,vBlat,vBlon,tlonA,tlonB,tlonPreal tlon_X,tlon_P,tlon_B,delloninteger i,ibndry,nv_c,location,icross,ibrngAB,ibrngAP,ibrngPBinteger ibrng_BX,ibrng_BP,istrikecommon/spolybndry/vlat_c,vlon_c,nv_c,xlat_c,xlon_c,tlonv,ibndryif (ibndry.eq.0) then ! user has never defined the bndryprint*,'Subroutine LctPtRelBndry detects user error:'print*,'Subroutine DefSPolyBndry must be called before'print*,'subroutine LctPtRelBndry can be called'stopendifif (plat.eq.(-xlat_c)) thendellon=plon-xlon_cif (dellon.lt.(-180.)) dellon=dellon+360.if (dellon.gt.+180.) dellon=dellon-360.if ((dellon.eq.+180.0).or.(dellon.eq.-180.)) thenprint*,'Warning: LctPtRelBndry detects case P antipodal> to X'print*,'location of P relative to S is undetermined'location=3returnendifendiflocation=0 ! default ( P is outside S)icross=0 ! initialize counterif ((plat.eq.xlat_c).and.(plon.eq.xlon_c)) thenlocation=1returnendifcall TrnsfmLon (xlat_c,xlon_c,plat,plon,tlonP)do i=1,nv_c ! start of loop over sides of SvAlat=vlat_c(i)vAlon=vlon_c(i)tlonA=tlonv(i)if (i.lt.nv_c) thenvBlat=vlat_c(i+1)vBlon=vlon_c(i+1)tlonB=tlonv(i+1)elsevBlat=vlat_c(1)vBlon=vlon_c(1)tlonB=tlonv(1)endifistrike=0if (tlonP.eq.tlonA) thenistrike=1elsecall EastOrWest(tlonA,tlonB,ibrngAB)call EastOrWest(tlonA,tlonP,ibrngAP)call EastOrWest(tlonP,tlonB,ibrngPB)if((ibrngAP.eq.ibrngAB).and.(ibrngPB.eq.ibrngAB)) istrike=1endifif (istrike.eq.1) thenif ((plat.eq.vAlat).and.(plon.eq.vAlon)) thenlocation=2 ! P lies on a vertex of Sreturnendifcall TrnsfmLon(vAlat,vAlon,xlat_c,xlon_c,tlon_X)call TrnsfmLon(vAlat,vAlon,vBlat,vBlon,tlon_B)call TrnsfmLon(vAlat,vAlon,plat,plon,tlon_P)if (tlon_P.eq.tlon_B) thenlocation=2 ! P lies on side of Sreturnelsecall EastOrWest(tlon_B,tlon_X,ibrng_BX)call EastOrWest(tlon_B,tlon_P,ibrng_BP)if(ibrng_BX.eq.(-ibrng_BP)) icross=icross+1endifendifenddo ! end of loop over the sides of Sc if the arc XP crosses the boundary S an even number of times then Pc is in Sif (mod(icross,2).eq.0) location=1returnendc ****************************************************************subroutine TrnsfmLon(plat,plon,qlat,qlon,tranlon)c ****************************************************************c * This subroutine is required by subroutines DefSPolyBndry & *c * LctPtRelBndry. It finds the 'longitude' of point Q in a *c * geographic coordinate system for which point P acts as a *c * 'north pole'. SENT: plat,plon,qlat,qlon, in degrees. *c * RETURNED: tranlon, in degrees. *c ****************************************************************implicit nonereal pi,dtr,plat,plon,qlat,qlon,tranlon,t,bparameter (pi=3.141592654,dtr=pi/180.0)if (plat.eq.90.) thentranlon=qlonelset=sin((qlon-plon)*dtr)*cos(qlat*dtr)b=sin(dtr*qlat)*cos(plat*dtr)-cos(qlat*dtr)*sin(plat*dtr)> *cos((qlon-plon)*dtr)tranlon=atan2(t,b)/dtrendifreturnendc ****************************************************************subroutine EastOrWest(clon,dlon,ibrng)c ****************************************************************c * This subroutine is required by subroutine LctPtRelBndry. *c * This routine determines if in travelling the shortest path *c * from point C (at longitude clon) to point D (at longitude *c * dlon) one is heading east, west or neither. *c * SENT: clon,dlon; in degrees. RETURNED: ibrng *c * (1=east,-1=west, 0=neither). *c ****************************************************************implicit nonereal clon,dlon,delinteger ibrngdel=dlon-clonif (del.gt.180.) del=del-360.if (del.lt.-180.) del=del+360.if ((del.gt.0.0).and.(del.ne.180.)) thenibrng=-1 ! (D is west of C)elseif ((del.lt.0.0).and.(del.ne.-180.)) thenibrng=+1 ! (D is east of C)elseibrng=0 ! (D north or south of C)endifreturnend