pro quick_interp,year1,year2,out_prefix,dist,log=log,$ outfac=outfac,gs=gs,area=area,check=check,angular=angular,$ limit=limit,update=update ; runs Idl trigrid interpolation of anomaly files plus synthetic anomaly ; grids ; first reads in anomaly file data ; the adds dummy zero value gridpoints that are ; further than distance (dist) ; from any of the observed data if n_params() lt 1 then begin print,'quick_interp,year1,year2,out_prefix,dist,' print,' outfac=outfac,gs=gs,/area,/log,/check' print,' /update,limit=limit' return endif ; close,/all if n_elements(dist) eq 0 then xkm=500 else xkm=dist if n_elements(constrain) eq 0 then constrain=0 else constrain=1 if n_elements(log) eq 0 then log=0 else log=1 if n_elements(outfac) eq 0 then outfac=1.0 if n_elements(pts_prefix) eq 0 then pts_prefix='../fort.' if keyword_set(angular) eq 0 then angular=0 else angular=1 if angular eq 1 then print,'Angular distance weighting set' if n_elements(limit) lt 3 then limit=glimit(/all) if n_elements(gs) eq 1 then gs=[gs,gs] if n_elements(gs) eq 0 then gs=[0.5,0.5] if n_elements(out_prefix) eq 0 then begin out_prefix=' ' read,out_prefix,prompt='Enter prefix for ouput grid file: ' out_prefix=strip(out_prefix) endif im1=1 & im2=12 for iy=year1,year2 do begin print,iy grid=fltarr(360/gs(0),180/gs(1),12)-9999 zerogrid=fltarr(144,72) for im=im1,im2 do begin jm=im if keyword_set(hutch) then spawn,'rm spl'+$ string(iy,im,form='(i4.4,i2.2)')+'.res ' plotoff print,'YEAR: ',iy,' MONTH: ',im ;read in observed anomalies rptsf,pts1,5,file=pts_prefix+string(iy,im,form='(i4.4,i2.2)'),format='(3f8.2,f8.4,i8)' print,rnge(pts1(*,0)),rnge(pts1(*,1)) ;--------------------------------------------------- ; map all points with influence radii if keyword_set(test) eq 0 then begin set_plot,'Z' erase,255 device,set_res=[144,72] endif else begin initx set_plot,'x' window,0,xsize=144,ysize=72 endelse lim=glimit(/all) nel=n_elements(pts1(*,0))-1 map_set,limit=lim,/noborder,/isotro,/advance,xmargin=[0,0],ymargin=[0,0],pos=[0,0,1,1] a=findgen(33)*!pi*2/32 for i=0.0,nel do begin x=cos(a)*(xkm/110.0)*(1.0/cos(!pi*pts1(i,0)/180.0))+pts1(i,1) x=x<179.9 & x=x>(-179.9) y=sin(a)*(xkm/110.0)+pts1(i,0) y=y>(-89.9) & y=y<89.9 catch,error_value if error_value ne 0 then begin print,!err_string print,'polyfill error',pts1(i,1),rnge(x),pts1(i,0),rnge(y),form='(a15,6f8.2)' error_value=0 i=i+1 goto,skip_poly endif polyfill,x,y,color=160 skip_poly: endfor catch,/cancel image=tvrd() set_plot,'X' pts2=fltarr(200000,5) pts2(0:nel,*)=pts1 nlat=n_elements(image(0,*)) & dlat=180.0/nlat nlon=n_elements(image(*,0)) & dlon=360.0/nlon nelold=nel for lon=0,nlon-1 do begin for lat=0,nlat-1 do begin if image(lon,lat) ne 160 and randomu(seed) lt 0.200 then begin nel=nel+1 pts2(nel,0:2)=[lat*dlat+dlat/2.0-90,lon*dlon+dlon/2.0-180,zerogrid(lon,lat)] endif endfor endfor pts2=pts2(0:nel,*) help,pts2 openw,1,pts_prefix+string(iy,im,form='(i4.4,i2.2)')+'a' for ii=0,nel do printf,1,pts2(ii,*),format='(3f8.2,f8.4,i8)' close,1 ;---------------------------- n=where(pts2(*,2) gt -9999) case 1 of keyword_set(area): begin bounds=[-180+gs(0)/2.0,-90+gs(1)/2.0,180-gs(0)/2.0,90-gs(1)/2.0] r=area_grid(pts2(n,1),pts2(n,0),pts2(n,2),gs,bounds,angular=angular) end else: begin bounds=[-180+gs(0)/2.0,-90+gs(1)/2.0,180-gs(0)/2.0,90-gs(1)/2.0] triangulate,pts2(n,1),pts2(n,0),tr,b r=trigrid(pts2(n,1),pts2(n,0),pts2(n,2),tr,gs,bounds,$ xgrid=xgrid,ygrid=ygrid) end endcase r=r<9999 & r=r>(-9998) grid(*,*,im-1)=r print,rnge(pts2(*,2)),rnge(r) if keyword_set(check) then goto,l1 endfor l1: flname=strip(out_prefix+string(iy,form='(i4)')) wrbin,grid*outfac,flname,/compress if keyword_set(check) then goto,l2 endfor l2: end