/climate/procedures/MOD35_Climatology.r - Environment and organisms - NCEAS Projects

root/climate/procedures/MOD35_Climatology.r @ 95354b03

       ### Process a folder of daily MOD35 HDF files to produce a climatology
       .libPaths("/pleiades/u/awilso10/R/x86_64-unknown-linux-gnu-library/2.15/")
       ## import commandline arguments
       library(getopt,lib="/pleiades/u/awilso10/R/x86_64-unknown-linux-gnu-library/2.15/")
       ## get options
       opta <- getopt(matrix(c(
                               'tile', 't', 1, 'character',
                               'verbose','v',1,'logical'
                               ), ncol=4, byrow=TRUE))
       tile=opta$tile #tile="h00v08"
       verbose=opta$verbose  #print out extensive information for debugging?
       ## set working directory
       setwd("/nobackupp1/awilso10/mod35")
       #setwd("/u/awilso10/MOD35")
       ### directory containing daily files
       outdir=paste("daily/",tile,"/",sep="")  #directory for separate daily files
       ### directory to hold climatology
       outdir2="summary" #directory for combined daily files and summarized files
       if(!file.exists(outdir2)) dir.create(outdir2)
       ### path to NCO
       ncopath="/nasa/sles11/nco/4.0.8/gcc/mpt/bin/"
       ################################################################################
       ## Get list of all daily files
       if(verbose) print(paste("Checking daily output in preparation for generating climatology:",tile))
        fdly=data.frame(path=list.files(outdir,pattern="nc$",full=T),stringsAsFactors=F)
         fdly$file=basename(fdly$path)
         fdly$dateid=substr(fdly$file,14,21)
         fdly$date=as.Date(substr(fdly$file,14,21),"%Y%m%d")
         fdly$month=format(fdly$date,"%m")
         fdly$year=format(fdly$date,"%Y")
       nrow(fdly)
       ## print some summaries
       if(verbose) print(paste("Summary of available daily files:",tile))
       print(table(fdly$year))
       print(table(fdly$month))
       #print(table(fdly$fvar))
       #################################################################################
       ## Combine the year-by-year files into a single daily file in the summary directory (for archiving)
       if(verbose) print(paste("Merging daily files into single file output:",tile))
       ## create temporary directory to put intermediate files (will be deleted when R quits)
       tsdir=paste(tempdir(),"/summary",sep="")
       if(!file.exists(tsdir)) dir.create(tsdir,recursive=T)
       ## merge all daily files to create a single file with all dates
       system(paste(ncopath,"ncrcat -O ",outdir,"/*nc ",outdir2,"/MOD35_",tile,"_daily.nc",sep=""))
       system(paste("ncdump -h ",outdir2,"/MOD35_",tile,"_daily.nc",sep=""))
       ## Update attributes
       system(paste(ncopath,"ncatted ",
       " -a title,global,o,c,\"MODIS Cloud Product (MOD35) Summaries\" ",
       " -a institution,global,o,c,\"Yale University\" ",
       " -a source,global,o,c,\"MODIS Collection 6 Cloud Mask (MOD35)\" ",
       " -a comment,global,o,c,\"Compiled by Adam M. Wilson (adam.wilson@yale.edu)\" ",
       outdir2,"/MOD35_",tile,"_daily.nc",sep=""))
       ## report on daily file:
       #ncfile=paste(outdir2,"/MOD35_",tile,"_daily.nc",sep="")
       system(paste("ncdump -h ",outdir2,"/MOD35_",tile,"_daily.nc | head -20 ",sep=""))
       system(paste("cdo showyear ",outdir2,"/MOD35_",tile,"_daily.nc",sep=""))
       system(paste("cdo showmon ",outdir2,"/MOD35_",tile,"_daily.nc",sep=""))
       #system(paste("cdo showdate ",outdir2,"/MOD35_",tile,"_daily.nc",sep=""))
       ### produce a monthly timeseries?
       #system(paste("cdo -O monmean ",outdir2,"/MOD35_",tile,"_daily.nc ",tsdir,"/MOD35_",tile,"_monmean.nc",sep=""))
       #############################
       ##  Generate the Climatologies
       if(verbose) print(paste("Generate monthly climatologies: ",tile))
       myear=as.integer(max(fdly$year))  #this year will be used in all dates of monthly climatologies (and day will = 15)
       ## Overall Means
       if(verbose) print(paste("Calculating the overall mean:",tile))
       system(paste("cdo -O -b I8 -v sorttimestamp -setyear,",myear," -setmon,1 -setday,1 -mulc,100 -timmean -lec,1 ",outdir2,"/MOD35_",tile,"_daily.nc ",outdir2,"/MOD35_",tile,"_mean.nc",sep=""),wait=T)
       system(paste(ncopath,"ncrename -v CMday,CFday -v CMnight,CFnight ",outdir2,"/MOD35_",tile,"_mean.nc",sep=""))
       system(paste(ncopath,"ncatted ",
       " -a long_name,CFday,o,c,\"Daytime Cloud Frequency\" ",
       " -a missing_value,CFday,o,b,255 ",
       " -a _FillValue,CFday,d,b,255 ",
       " -a long_name,CFnight,o,c,\"Nighttime Cloud Frequency\" ",
       " -a missing_value,CFnight,o,b,255 ",
       " -a _FillValue,CFnight,d,b,255 ",
       outdir2,"/MOD35_",tile,"_mean.nc",sep=""))
       ## Monthly means
       if(verbose) print(paste("Calculating the monthly means:",tile))
       system(paste("cdo -O -b I8 sorttimestamp -setyear,",myear," -setday,15 -mulc,100  -ymonmean -lec,1 ",outdir2,"/MOD35_",tile,"_daily.nc ",tsdir,"/MOD35_",tile,"_ymonmean.nc",sep=""),wait=T)
       system(paste(ncopath,"ncrename -v CMday,CFday -v CMnight,CFnight ",tsdir,"/MOD35_",tile,"_ymonmean.nc",sep=""))
       system(paste(ncopath,"ncatted ",
       " -a long_name,CFday,o,c,\"Daytime Cloud Frequency\" ",
       " -a units,CFday,o,c,\"Proportion (%)\" ",
       " -a missing_value,CFday,o,b,255 ",
       " -a _FillValue,CFday,d,b,255 ",
       " -a long_name,CFnight,o,c,\"Nighttime Cloud Frequency\" ",
       " -a units,CFnight,o,c,\"Proportion (%)\" ",
       " -a missing_value,CFnight,o,b,255 ",
       " -a _FillValue,CFnight,d,b,255 ",
       tsdir,"/MOD35_",tile,"_ymonmean.nc",sep=""))
       ## Monthly Mean
       #months=c("01","02","03","04","05","06","07","08","09","10","11","12")
       #  month="02"
       #system(paste("cdo -O sorttimestamp -setyear,",myear," -mulc,-1 -subc,100 -ydrunmean,30 ",outdir2,"/MOD35_",tile,"_daily.nc ",outdir2,"/MOD35_",tile,"_ydrunmean30.nc &",sep=""),wait=T)
       #system(paste("scp summary/MOD35_",tile,".nc adamw@acrobates.eeb.yale.edu:/data/personal/adamw/projects/interp/data/modis/mod35/",sep=""))
       #system(paste("ncdump -h ",tsdir,"/MOD35_",tile,"_ymonmean.nc ",sep=""))
       ## Monthly standard deviation
       if(verbose) print(paste("Calculating the monthly SD:",tile))
       system(paste("cdo -O -b I8 sorttimestamp -setyear,",myear," -setday,15 -ymonstd -mulc,100 -monmean -lec,1 ",
           outdir2,"/MOD35_",tile,"_daily.nc ",
           tsdir,"/MOD35_",tile,"_ymonstd.nc",sep=""))
       system(paste(ncopath,"ncrename -v CMday,CFday_sd -v CMnight,CFnight_sd ",tsdir,"/MOD35_",tile,"_ymonstd.nc",sep=""))
       system(paste(ncopath,"ncatted ",
       " -a long_name,CFnight_sd,o,c,\"Standard Deviation of monthly nighttime cloud frequency\" ",
       " -a long_name,CFday_sd,o,c,\"Standard Deviation of monthly daytime cloud frequency\" ",
       tsdir,"/MOD35_",tile,"_ymonstd.nc",sep=""))
       ## frequency of cloud days p(clear<90%)
       #if(verbose) print(paste("Calculating the proportion of cloudy and probably cloudy days:",tile))
       #system(paste("cdo -O -b I8 sorttimestamp -setyear,",myear," -setday,15 -ymonmean  -mulc,100 -lec,90 -selvar,PClear ",outdir2,"/MOD35_",tile,"_daily.nc ",tsdir,"/MOD35_",tile,"_ymoncld01.nc",sep=""))
       #system(paste(ncopath,"ncrename -v PClear,CF ",tsdir,"/MOD35_",tile,"_ymoncld01.nc",sep=""))
       #system(paste(ncopath,"ncatted ",
       #" -a long_name,CF,o,c,\"Cloud Frequency: Proportion of Days with probability of clear < 90%\" ",
       #" -a units,CF,o,c,\"Proportion (%)\" ",
       #tsdir,"/MOD35_",tile,"_ymoncld01.nc",sep=""))
       ## number of observations
       if(verbose) print(paste("Calculating the number of missing variables:",tile))
       system(paste("cdo -O -b I8 sorttimestamp  -setyear,",myear," -setday,15 -ymonmean -mulc,100  -eqc,9999 -setmisstoc,9999 ",outdir2,"/MOD35_",tile,"_daily.nc ",tsdir,"/MOD35_",tile,"_ymonmiss.nc",sep=""))
       system(paste(ncopath,"ncrename -v CMday,CFday_pmiss -v CMnight,CFnight_pmiss ",tsdir,"/MOD35_",tile,"_ymonmiss.nc",sep=""))
       system(paste(ncopath,"ncatted ",
                    " -a long_name,CFday_pmiss,o,c,\"Proportion of Days with missing data\" ",
                    " -a units,CFday_pmiss,o,c,\"Proportion (%)\" ",
                    " -a long_name,CFnight_pmiss,o,c,\"Proportion of Days with missing data\" ",
                    " -a units,CFnight_pmiss,o,c,\"Proportion (%)\" ",
                    tsdir,"/MOD35_",tile,"_ymonmiss.nc",sep=""))
       ## TODO: fix projection information so GDAL can read it correctly.
       ## clean up variables?
       ## append variables to a single file
       if(verbose) print(paste("Append all monthly climatologies into a single file:",tile))
       system(paste(ncopath,"ncks -O ",tsdir,"/MOD35_",tile,"_ymonmean.nc  ",tsdir,"/MOD35_",tile,"_ymon.nc",sep=""))
       system(paste(ncopath,"ncks -A ",tsdir,"/MOD35_",tile,"_ymonstd.nc  ",tsdir,"/MOD35_",tile,"_ymon.nc",sep=""))
       #system(paste(ncopath,"ncks -A ",tsdir,"/MOD35_",tile,"_ymoncld01.nc  ",tsdir,"/MOD35_",tile,"_ymon.nc",sep=""))
       system(paste(ncopath,"ncks -A ",tsdir,"/MOD35_",tile,"_ymonmiss.nc  ",tsdir,"/MOD35_",tile,"_ymon.nc",sep=""))
       ## append sinusoidal grid from one of input files as CDO doesn't transfer all attributes
       if(verbose) print(paste("Clean up file (update attributes, flip latitudes, add grid description:",tile))
       #system(paste(ncopath,"ncea -d time,0,1 -v sinusoidal ",list.files(outdir,full=T,pattern="[.]nc$")[1],"  ",tsdir,"/sinusoidal.nc",sep=""))
       #system(paste(ncopath,"ncks -A -d time,0,1 -v sinusoidal ",list.files(outdir,full=T,pattern="[.]nc$")[1],"  ",tsdir,"/MOD35_",tile,"_ymon.nc",sep=""))
       ## invert latitude so it plays nicely with gdal
       system(paste(ncopath,"ncpdq -O -a -y ",tsdir,"/MOD35_",tile,"_ymon.nc ",outdir2,"/MOD35_",tile,".nc",sep=""))
       ## proj string taken from GDAL-written MODIS tile
       projstring="PROJCS[\"Sinusoidal (Sanson-Flamsteed)\",GEOGCS[\"wgs84\",DATUM[\"WGS_1984\",SPHEROID[\"WGS_1984\",6378137,298.257223563],TOWGS84[0,0,0,0,0,0,0]],PRIMEM[\"Greenwich\",0],UNIT[\"degree\",0.0174532925199433]],PROJECTION[\"Sinusoidal\"],PARAMETER[\"longitude_of_center\",0],PARAMETER[\"false_easting\",0],PARAMETER[\"false_northing\",0],UNIT[\"Meter\",1]]"
       ## update attributes
       system(paste(ncopath,"ncatted ",
       " -a false_easting,sinusoidal,o,d,0. ",
       " -a false_northing,sinusoidal,o,d,0. ",
       " -a longitude_of_central_meridian,sinusoidal,o,d,0. ",
       " -a longitude_of_prime_meridian,sinusoidal,o,d,0. ",
       " -a semi_major_axis,sinusoidal,o,d,6378137. ",
       " -a inverse_flattening,sinusoidal,o,d,298.257223563 ",
       " -a spatial_ref,sinusoidal,o,c,",projstring,
       " -a GeoTransform,sinusoidal,o,c,\"-7783653.638366 926.6254331391661 0 1111950.519767 0 -926.6254331391667\" ",
       " -a units,time,o,c,\"days since 2000-1-1 0:0:0\" ",
       " -a title,global,o,c,\"MODIS Cloud Product (MOD35) Climatology\" ",
       " -a tile,global,o,c,\"",tile,"\" ",
       " -a institution,global,o,c,\"Yale University\" ",
       " -a source,global,o,c,\"MODIS Cloud Product (MOD35) Collection 6\" ",
       " -a comment,global,o,c,\"Compiled by Adam M. Wilson (adam.wilson@yale.edu)\" ",
       outdir2,"/MOD35_",tile,".nc",sep=""))
       print(paste("###############################  Processed ",nrow(fdly),"days for tile:",tile," ###################################################"))
       print("Years:")
       print(table(fdly$fyear))
       print("Months:")
       print(table(fdly$fmonth))
       ## quit R
       q("no")

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