######l VCI computation using chunking for large countries #Enter the path to the a folder where you have enough free space to store your MODIS data and the resulting products #Please do _not_ use backslashes ('\'). dataPath <- "C:/Users/Desktop/Peru" # automatic download downloadList<-"C:/Users/Desktop/Peru/download-list.txt" #Quality masking: replace the '0' with a '1' to apply MODIS pixel reliability data. If you are not sure whether you should enable this option, it is recommended to leave it as is. Check the "in detail" page for more information. cloudmask <- 1 #Change the capture of the VCI maps (jpg) according to your study area in line 224 #Setting VCI image colours my_palette <- colorRampPalette(c('#8B0000', '#FF4500', '#FFFF00', '#9ACD32', '#008000')) #No need to enter more - mark the whole code (ctrl + a) and click on 'run' (or press ctrl + enter) ############################################################# ############################################################# ############################################################# ############################################################# ############################################################# ####Installing all needed packages install.packages("zoo") install.packages("raster") install.packages("curl") install.packages("rgdal") # calling packages for use library(zoo) library(raster) library(curl) library(rgdal) #Downloading Files (except 'VI quality control' data as they are not needed) #If you downloaded your data from appEEARS beforehand, comment out the following seven lines filesl <- scan(downloadList, what='list', sep='\n') for (d in 1:length(filesl)){ if (grepl("_VI_Quality_",filesl[d]) == F){ curl_download(url=filesl[d], destfile=paste0(dataPath,"/",basename(filesl[d])),quiet = T, handle = new_handle()) } print(paste0('Downloading source data (Step 1 of 4): ',round(d / length(filesl) * 100, digits=2),'%')) } #Creating a temp-directory and setting memory limit dir.create(paste0(dataPath,'/temp/')) rasterOptions(tmpdir=paste0(dataPath,'/temp/')) rasterOptions(tolerance=1) memory.limit(80000) #Listing up all downloaded TIF-files in the data folder rasterData <- list.files(path=dataPath, pattern='.tif$', recursive=F, ignore.case=T, full.names=T) rasterFiles <- basename(rasterData) #Chunk-size for processing (in Pixel) #You can reduce these numbers if you run into RAM-Problems early on: #Try reducing the numbers to 1000. If you still run into RAM-problems, reduce to 500 or 250. #Only reduce the numbers if you have memory issues ("Error: cannot allocate vector of size [...]") chwidth <- 1500 chheight <- 1500 ##################STARTING EVI/VCI ################## ################## ################## #Listing all EVI rasters and their corresponding pixel reliability data EVIrasterData <- rasterData[grepl('EVI',rasterData)] EVIqc <- rasterData[grepl('pixel_reliability',rasterData)] #(Automatically adjusting chunk size for small scenes if needed) initial <- raster(EVIrasterData[1]) if (as.numeric(ncol(initial)) <= chwidth || as.numeric(nrow(initial)) <= chheight){ chwidth <- ceiling(ncol(initial)/2) } #Parsing all DOY and Years from the filenames DOYs <- unique(substr(basename(EVIrasterData),38,40)) YEARs <- unique(substr(basename(EVIrasterData),34,37)) ##VCI: chunkwise calculation #Creating output folders dir.create(paste0(dataPath,'/VCI')) dir.create(paste0(dataPath,'/VCIjpg')) dir.create(paste0(dataPath,'/EVI')) #Determining chunk-shapefile #Loading example image from the downloaded data exRST <- raster(EVIrasterData[1]) #Determining chunks h <- ceiling(ncol(exRST)/ceiling(ncol(exRST) / chwidth)) v <- ceiling(nrow(exRST)/ceiling(nrow(exRST) / chheight)) #Creating shapefile for each chunk split <- aggregate(exRST,fact=c(h,v)) split[] <- 1:ncell(split) splitshp <- rasterToPolygons(split) names(splitshp) <- 'shapes' notiles <- ncell(split) #Filtervalues for quality masking: "0" and "1" in the pixel reliability bands are accepted as sufficient quality goodValues <- c(0,1) #Masking clouds/snow; Splitting data into chunks for (d in 1:length(DOYs)){ #Filtering all relevant data for this DOY vrasterData <- EVIrasterData[grepl(paste0(DOYs[d],'_aid'),EVIrasterData)] #..and their corresponding pixel reliability data vQC <- EVIqc[grepl(paste0(DOYs[d],'_aid'),EVIqc)] #Reading years of available data vYear <- substr(basename(vrasterData),34,37) for (y in 1:length(vYear)){ viPRE <- raster(vrasterData[y]) #Applying quality mask to each image (if masking was activated) if (cloudmask == 1){ qc <- raster(vQC[y]) viPRE <- overlay(viPRE, qc, fun = function(x, y) { x[!(y %in% goodValues)] <- NA return(x) }) } #####Splitting (masked) data into Chunks for(i in 1:ncell(split)){ ex <- extent(splitshp[splitshp$shapes==i,]) exx <- crop(viPRE,ex) writeRaster(exx,filename=paste0(dataPath,'/temp/',DOYs[d],'_',vYear[y],'_EVICHUNK',formatC(i, width=3, flag='0')),format='GTiff', overwrite=TRUE) } } #(Progress report) print(paste0('Data preparation (VCI) & masking (Step 2 of 4): ',round(d / length(DOYs) * 100, digits=2),'%')) } #Applying VCI calculation for each chunk #List all chunks EVIchunks <- list.files(path=paste0(dataPath,'/temp/'), pattern='_EVICHUNK', recursive=F, ignore.case=T, full.names=T) for (d in 1:length(DOYs)){ for (t in 1:notiles){ #Filtering relevant chunks for this specific date sEVIchunks <- EVIchunks[grepl(paste0(DOYs[d],'_'),EVIchunks)] sEVIchunks <- sEVIchunks[grepl(paste0('_EVICHUNK',formatC(t, width=3, flag='0')),sEVIchunks)] #Listing years of data available for each DOY vvYear <- substr(basename(sEVIchunks),5,8) if (length(sEVIchunks) > 0){ sT <- stack(sEVIchunks) #Removing filler-values from EVI data #The fill value for MODIS images is -3000 sT[sT<(-2999)] <- NA #VCI formula application vimax <- stackApply(sT , rep(1, nlayers (sT)), max, na.rm=T) vimin <- stackApply(sT , rep(1, nlayers (sT)), min, na.rm=T) z <- vimax - vimin VCI <- ((sT -vimin)/z)*100 #Writing VCI-chunks for each available year for (y in 1:length(vvYear)){ writeRaster(VCI[[y]],filename=paste0(dataPath,'/temp/',DOYs[d],'_',vvYear[y],'_VCICHUNK',formatC(t, width=3, flag='0')),format='GTiff', overwrite=TRUE) } } } #(Progress report) print(paste0('VCI processing (Step 3 of 4): ',round(d / length(DOYs) * 100, digits=2),'%')) } ##VCI chunk merging and output #Listing all created chunks VCIchunks <- list.files(path=paste0(dataPath,'/temp/'), pattern='_VCICHUNK', recursive=F, ignore.case=T, full.names=T) #Looping through each available DOY_YEAR combination for (y in 1:length(YEARs)){ for (d in 1:length(DOYs)){ #Listing relevant chunks (EVI, VCI) for this specific date sVCIchunks <- VCIchunks[grepl(paste0(DOYs[d],'_',YEARs[y],'_'),VCIchunks)] sEVIchunks <- EVIchunks[grepl(paste0(DOYs[d],'_',YEARs[y],'_'),EVIchunks)] #Creating raster-list of the EVI chunks if (length(sEVIchunks) > 0){ if (length(sEVIchunks) > 1){ sMos <- list() for (o in 1:length(sEVIchunks)){ sMos <- append(sMos, raster(sEVIchunks[o])) } #Mosaicking the EVI chunks sMos$fun = mean Mos <- do.call(mosaic, sMos) Mos <- Mos*0.0001 #Output of mosaicked, scaled EVI image writeRaster(Mos,filename=paste0(dataPath,'/EVI/',DOYs[d],'_',YEARs[y],'_EVI'),format='GTiff', overwrite=TRUE) }else{ #Fail-safe in case only one chunk is available exp <- raster(sEVIchunks[1]) exp <- exp*0.0001 writeRaster(exp,filename=paste0(dataPath,'/EVI/',DOYs[d],'_',YEARs[y],'_EVI'),format='GTiff', overwrite=TRUE) } } #Creating raster-list of the VCI chunks if (length(sVCIchunks) > 0){ if (length(sVCIchunks) > 1){ sMos <- list() for (o in 1:length(sVCIchunks)){ sMos <- append(sMos, raster(sVCIchunks[o])) } #Mosaicking the VCI chunks sMos$fun = mean Mos <- do.call(mosaic, sMos) #Plotting JPG of VCI jpeg(filename=paste0(dataPath,'/VCIjpg/',DOYs[d],"_",YEARs[y],".jpg",sep=""), quality = 100) plot(Mos, zlim=c(0,100), col=my_palette(101), # sets the colors as defined above main=paste("VCI"," (EVI)"," sample ",DOYs[d]," ",YEARs[y],sep="")) # automizes the title of the plot. dev.off() #Output: final VCI mosaic writeRaster(Mos,filename=paste0(dataPath,'/VCI/',DOYs[d],'_',YEARs[y],'_VCI'),format='GTiff', overwrite=TRUE) }else{ #Fail-safe in case only one chunk is available writeRaster(raster(sVCIchunks[1]),filename=paste0(dataPath,'/VCI/',DOYs[d],'_',YEARs[y],'_VCI'),format='GTiff', overwrite=TRUE) } } print(paste0('EVI output & VCI output (Step 4 of 4): ',round((d+(length(DOYs)*(y-1)))/(length(DOYs)*length(YEARs))*100, digits=2),'%')) } } #Removing temp files to free space #tmp <- list.files(path=paste0(dataPath,'/temp/'), recursive=F, ignore.case=T, full.names=T) #file.remove(tmp)