Mercurial > repos > lecorguille > xcms_group
view lib.r @ 11:9e45e1c404a4 draft
planemo upload for repository https://github.com/workflow4metabolomics/xcms commit c12284c89d941da18f30b2666a64434ce1073cea
author | lecorguille |
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date | Fri, 19 May 2017 09:55:06 -0400 |
parents | c81275aee959 |
children | 833d2c821d9c |
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#Authors ABiMS TEAM #Lib.r for Galaxy Workflow4Metabolomics xcms tools # #version 2.4: lecorguille # add getPeaklistW4M #version 2.3: yguitton # correction for empty PDF when only 1 class #version 2.2 # correct bug in Base Peak Chromatogram (BPC) option, not only TIC when scanrange used in xcmsSet # Note if scanrange is used a warning is prompted in R console but do not stop PDF generation #version 2.1: yguitton # Modifications made by Guitton Yann #@author G. Le Corguille #This function convert if it is required the Retention Time in minutes RTSecondToMinute <- function(variableMetadata, convertRTMinute) { if (convertRTMinute){ #converting the retention times (seconds) into minutes print("converting the retention times into minutes in the variableMetadata") variableMetadata[,"rt"]=variableMetadata[,"rt"]/60 variableMetadata[,"rtmin"]=variableMetadata[,"rtmin"]/60 variableMetadata[,"rtmax"]=variableMetadata[,"rtmax"]/60 } return (variableMetadata) } #@author G. Le Corguille #This function format ions identifiers formatIonIdentifiers <- function(variableMetadata, numDigitsRT=0, numDigitsMZ=0) { splitDeco = strsplit(as.character(variableMetadata$name),"_") idsDeco = sapply(splitDeco, function(x) { deco=unlist(x)[2]; if (is.na(deco)) return ("") else return(paste0("_",deco)) }) namecustom = make.unique(paste0("M",round(variableMetadata[,"mz"],numDigitsMZ),"T",round(variableMetadata[,"rt"],numDigitsRT),idsDeco)) variableMetadata=cbind(name=variableMetadata$name, namecustom=namecustom, variableMetadata[,!(colnames(variableMetadata) %in% c("name"))]) return(variableMetadata) } #@author G. Le Corguille # value: intensity values to be used into, maxo or intb getPeaklistW4M <- function(xset, intval="into",convertRTMinute=F,numDigitsMZ=4,numDigitsRT=0,variableMetadataOutput,dataMatrixOutput) { variableMetadata_dataMatrix = peakTable(xset, method="medret", value=intval) variableMetadata_dataMatrix = cbind(name=groupnames(xset),variableMetadata_dataMatrix) dataMatrix = variableMetadata_dataMatrix[,(make.names(colnames(variableMetadata_dataMatrix)) %in% c("name", make.names(sampnames(xset))))] variableMetadata = variableMetadata_dataMatrix[,!(make.names(colnames(variableMetadata_dataMatrix)) %in% c(make.names(sampnames(xset))))] variableMetadata = RTSecondToMinute(variableMetadata, convertRTMinute) variableMetadata = formatIonIdentifiers(variableMetadata, numDigitsRT=numDigitsRT, numDigitsMZ=numDigitsMZ) write.table(variableMetadata, file=variableMetadataOutput,sep="\t",quote=F,row.names=F) write.table(dataMatrix, file=dataMatrixOutput,sep="\t",quote=F,row.names=F) } #@author Y. Guitton getBPC <- function(file,rtcor=NULL, ...) { object <- xcmsRaw(file) sel <- profRange(object, ...) cbind(if (is.null(rtcor)) object@scantime[sel$scanidx] else rtcor ,xcms:::colMax(object@env$profile[sel$massidx,sel$scanidx,drop=FALSE])) #plotChrom(xcmsRaw(file), base=T) } #@author Y. Guitton getBPCs <- function (xcmsSet=NULL, pdfname="BPCs.pdf",rt=c("raw","corrected"), scanrange=NULL) { cat("Creating BIC pdf...\n") if (is.null(xcmsSet)) { cat("Enter an xcmsSet \n") stop() } else { files <- filepaths(xcmsSet) } phenoDataClass<-as.vector(levels(xcmsSet@phenoData[,1])) #sometime phenoData have more than 1 column use first as class classnames<-vector("list",length(phenoDataClass)) for (i in 1:length(phenoDataClass)){ classnames[[i]]<-which( xcmsSet@phenoData[,1]==phenoDataClass[i]) } N <- dim(phenoData(xcmsSet))[1] TIC <- vector("list",N) for (j in 1:N) { TIC[[j]] <- getBPC(files[j]) #good for raw # seems strange for corrected #errors if scanrange used in xcmsSetgeneration if (!is.null(xcmsSet) && rt == "corrected") rtcor <- xcmsSet@rt$corrected[[j]] else rtcor <- NULL TIC[[j]] <- getBPC(files[j],rtcor=rtcor) # TIC[[j]][,1]<-rtcor } pdf(pdfname,w=16,h=10) cols <- rainbow(N) lty = 1:N pch = 1:N #search for max x and max y in BPCs xlim = range(sapply(TIC, function(x) range(x[,1]))) ylim = range(sapply(TIC, function(x) range(x[,2]))) ylim = c(-ylim[2], ylim[2]) ##plot start if (length(phenoDataClass)>2){ for (k in 1:(length(phenoDataClass)-1)){ for (l in (k+1):length(phenoDataClass)){ #print(paste(phenoDataClass[k],"vs",phenoDataClass[l],sep=" ")) plot(0, 0, type="n", xlim = xlim/60, ylim = ylim, main = paste("Base Peak Chromatograms \n","BPCs_",phenoDataClass[k]," vs ",phenoDataClass[l], sep=""), xlab = "Retention Time (min)", ylab = "BPC") colvect<-NULL for (j in 1:length(classnames[[k]])) { tic <- TIC[[classnames[[k]][j]]] # points(tic[,1]/60, tic[,2], col = cols[i], pch = pch[i], type="l") points(tic[,1]/60, tic[,2], col = cols[classnames[[k]][j]], pch = pch[classnames[[k]][j]], type="l") colvect<-append(colvect,cols[classnames[[k]][j]]) } for (j in 1:length(classnames[[l]])) { # i=class2names[j] tic <- TIC[[classnames[[l]][j]]] points(tic[,1]/60, -tic[,2], col = cols[classnames[[l]][j]], pch = pch[classnames[[l]][j]], type="l") colvect<-append(colvect,cols[classnames[[l]][j]]) } legend("topright",paste(basename(files[c(classnames[[k]],classnames[[l]])])), col = colvect, lty = lty, pch = pch) } } }#end if length >2 if (length(phenoDataClass)==2){ k=1 l=2 colvect<-NULL plot(0, 0, type="n", xlim = xlim/60, ylim = ylim, main = paste("Base Peak Chromatograms \n","BPCs_",phenoDataClass[k],"vs",phenoDataClass[l], sep=""), xlab = "Retention Time (min)", ylab = "BPC") for (j in 1:length(classnames[[k]])) { tic <- TIC[[classnames[[k]][j]]] # points(tic[,1]/60, tic[,2], col = cols[i], pch = pch[i], type="l") points(tic[,1]/60, tic[,2], col = cols[classnames[[k]][j]], pch = pch[classnames[[k]][j]], type="l") colvect<-append(colvect,cols[classnames[[k]][j]]) } for (j in 1:length(classnames[[l]])) { # i=class2names[j] tic <- TIC[[classnames[[l]][j]]] points(tic[,1]/60, -tic[,2], col = cols[classnames[[l]][j]], pch = pch[classnames[[l]][j]], type="l") colvect<-append(colvect,cols[classnames[[l]][j]]) } legend("topright",paste(basename(files[c(classnames[[k]],classnames[[l]])])), col = colvect, lty = lty, pch = pch) }#end length ==2 #case where only one class if (length(phenoDataClass)==1){ k=1 ylim = range(sapply(TIC, function(x) range(x[,2]))) colvect<-NULL plot(0, 0, type="n", xlim = xlim/60, ylim = ylim, main = paste("Base Peak Chromatograms \n","BPCs_",phenoDataClass[k], sep=""), xlab = "Retention Time (min)", ylab = "BPC") for (j in 1:length(classnames[[k]])) { tic <- TIC[[classnames[[k]][j]]] # points(tic[,1]/60, tic[,2], col = cols[i], pch = pch[i], type="l") points(tic[,1]/60, tic[,2], col = cols[classnames[[k]][j]], pch = pch[classnames[[k]][j]], type="l") colvect<-append(colvect,cols[classnames[[k]][j]]) } legend("topright",paste(basename(files[c(classnames[[k]])])), col = colvect, lty = lty, pch = pch) }#end length ==1 dev.off() #pdf(pdfname,w=16,h=10) invisible(TIC) } #@author Y. Guitton getTIC <- function(file,rtcor=NULL) { object <- xcmsRaw(file) cbind(if (is.null(rtcor)) object@scantime else rtcor, rawEIC(object,mzrange=range(object@env$mz))$intensity) } ## ## overlay TIC from all files in current folder or from xcmsSet, create pdf ## #@author Y. Guitton getTICs <- function(xcmsSet=NULL,files=NULL, pdfname="TICs.pdf",rt=c("raw","corrected")) { cat("Creating TIC pdf...\n") if (is.null(xcmsSet)) { filepattern <- c("[Cc][Dd][Ff]", "[Nn][Cc]", "([Mm][Zz])?[Xx][Mm][Ll]", "[Mm][Zz][Dd][Aa][Tt][Aa]", "[Mm][Zz][Mm][Ll]") filepattern <- paste(paste("\\.", filepattern, "$", sep = ""), collapse = "|") if (is.null(files)) files <- getwd() info <- file.info(files) listed <- list.files(files[info$isdir], pattern = filepattern, recursive = TRUE, full.names = TRUE) files <- c(files[!info$isdir], listed) } else { files <- filepaths(xcmsSet) } phenoDataClass<-as.vector(levels(xcmsSet@phenoData[,1])) #sometime phenoData have more than 1 column use first as class classnames<-vector("list",length(phenoDataClass)) for (i in 1:length(phenoDataClass)){ classnames[[i]]<-which( xcmsSet@phenoData[,1]==phenoDataClass[i]) } N <- length(files) TIC <- vector("list",N) for (i in 1:N) { if (!is.null(xcmsSet) && rt == "corrected") rtcor <- xcmsSet@rt$corrected[[i]] else rtcor <- NULL TIC[[i]] <- getTIC(files[i],rtcor=rtcor) } pdf(pdfname,w=16,h=10) cols <- rainbow(N) lty = 1:N pch = 1:N #search for max x and max y in TICs xlim = range(sapply(TIC, function(x) range(x[,1]))) ylim = range(sapply(TIC, function(x) range(x[,2]))) ylim = c(-ylim[2], ylim[2]) ##plot start if (length(phenoDataClass)>2){ for (k in 1:(length(phenoDataClass)-1)){ for (l in (k+1):length(phenoDataClass)){ #print(paste(phenoDataClass[k],"vs",phenoDataClass[l],sep=" ")) plot(0, 0, type="n", xlim = xlim/60, ylim = ylim, main = paste("Total Ion Chromatograms \n","TICs_",phenoDataClass[k]," vs ",phenoDataClass[l], sep=""), xlab = "Retention Time (min)", ylab = "TIC") colvect<-NULL for (j in 1:length(classnames[[k]])) { tic <- TIC[[classnames[[k]][j]]] # points(tic[,1]/60, tic[,2], col = cols[i], pch = pch[i], type="l") points(tic[,1]/60, tic[,2], col = cols[classnames[[k]][j]], pch = pch[classnames[[k]][j]], type="l") colvect<-append(colvect,cols[classnames[[k]][j]]) } for (j in 1:length(classnames[[l]])) { # i=class2names[j] tic <- TIC[[classnames[[l]][j]]] points(tic[,1]/60, -tic[,2], col = cols[classnames[[l]][j]], pch = pch[classnames[[l]][j]], type="l") colvect<-append(colvect,cols[classnames[[l]][j]]) } legend("topright",paste(basename(files[c(classnames[[k]],classnames[[l]])])), col = colvect, lty = lty, pch = pch) } } }#end if length >2 if (length(phenoDataClass)==2){ k=1 l=2 plot(0, 0, type="n", xlim = xlim/60, ylim = ylim, main = paste("Total Ion Chromatograms \n","TICs_",phenoDataClass[k],"vs",phenoDataClass[l], sep=""), xlab = "Retention Time (min)", ylab = "TIC") colvect<-NULL for (j in 1:length(classnames[[k]])) { tic <- TIC[[classnames[[k]][j]]] # points(tic[,1]/60, tic[,2], col = cols[i], pch = pch[i], type="l") points(tic[,1]/60, tic[,2], col = cols[classnames[[k]][j]], pch = pch[classnames[[k]][j]], type="l") colvect<-append(colvect,cols[classnames[[k]][j]]) } for (j in 1:length(classnames[[l]])) { # i=class2names[j] tic <- TIC[[classnames[[l]][j]]] points(tic[,1]/60, -tic[,2], col = cols[classnames[[l]][j]], pch = pch[classnames[[l]][j]], type="l") colvect<-append(colvect,cols[classnames[[l]][j]]) } legend("topright",paste(basename(files[c(classnames[[k]],classnames[[l]])])), col = colvect, lty = lty, pch = pch) }#end length ==2 #case where only one class if (length(phenoDataClass)==1){ k=1 ylim = range(sapply(TIC, function(x) range(x[,2]))) plot(0, 0, type="n", xlim = xlim/60, ylim = ylim, main = paste("Total Ion Chromatograms \n","TICs_",phenoDataClass[k], sep=""), xlab = "Retention Time (min)", ylab = "TIC") colvect<-NULL for (j in 1:length(classnames[[k]])) { tic <- TIC[[classnames[[k]][j]]] # points(tic[,1]/60, tic[,2], col = cols[i], pch = pch[i], type="l") points(tic[,1]/60, tic[,2], col = cols[classnames[[k]][j]], pch = pch[classnames[[k]][j]], type="l") colvect<-append(colvect,cols[classnames[[k]][j]]) } legend("topright",paste(basename(files[c(classnames[[k]])])), col = colvect, lty = lty, pch = pch) }#end length ==1 dev.off() #pdf(pdfname,w=16,h=10) invisible(TIC) } ## ## Get the polarities from all the samples of a condition #@author Misharl Monsoor misharl.monsoor@sb-roscoff.fr ABiMS TEAM #@author Gildas Le Corguille lecorguille@sb-roscoff.fr ABiMS TEAM getSampleMetadata <- function(xcmsSet=NULL, sampleMetadataOutput="sampleMetadata.tsv") { cat("Creating the sampleMetadata file...\n") #Create the sampleMetada dataframe sampleMetadata=xset@phenoData sampleNamesOrigin=rownames(sampleMetadata) sampleNamesMakeNames=make.names(sampleNamesOrigin) if (any(duplicated(sampleNamesMakeNames))) { write("\n\nERROR: Usually, R has trouble to deal with special characters in its column names, so it rename them using make.names().\nIn your case, at least two columns after the renaming obtain the same name, thus XCMS will collapse those columns per name.", stderr()) for (sampleName in sampleNamesOrigin) { write(paste(sampleName,"\t->\t",make.names(sampleName)),stderr()) } stop("\n\nERROR: One or more of your files will not be import by xcmsSet. It may due to bad characters in their filenames.") } if (!all(sampleNamesOrigin == sampleNamesMakeNames)) { cat("\n\nWARNING: Usually, R has trouble to deal with special characters in its column names, so it rename them using make.names()\nIn your case, one or more sample names will be renamed in the sampleMetadata and dataMatrix files:\n") for (sampleName in sampleNamesOrigin) { cat(paste(sampleName,"\t->\t",make.names(sampleName),"\n")) } } sampleMetadata$sampleMetadata=sampleNamesMakeNames sampleMetadata=cbind(sampleMetadata["sampleMetadata"],sampleMetadata["class"]) #Reorder columns rownames(sampleMetadata)=NULL #Create a list of files name in the current directory list_files=xset@filepaths #For each sample file, the following actions are done for (file in list_files){ #Check if the file is in the CDF format if (!mzR:::netCDFIsFile(file)){ # If the column isn't exist, with add one filled with NA if (is.null(sampleMetadata$polarity)) sampleMetadata$polarity=NA #Create a simple xcmsRaw object for each sample xcmsRaw=xcmsRaw(file) #Extract the polarity (a list of polarities) polarity=xcmsRaw@polarity #Verify if all the scans have the same polarity uniq_list=unique(polarity) if (length(uniq_list)>1){ polarity="mixed" } else { polarity=as.character(uniq_list) } #Transforms the character to obtain only the sample name filename=basename(file) library(tools) samplename=file_path_sans_ext(filename) #Set the polarity attribute sampleMetadata$polarity[sampleMetadata$sampleMetadata==samplename]=polarity #Delete xcmsRaw object because it creates a bug for the fillpeaks step rm(xcmsRaw) } } write.table(sampleMetadata, sep="\t", quote=FALSE, row.names=FALSE, file=sampleMetadataOutput) return(list("sampleNamesOrigin"=sampleNamesOrigin,"sampleNamesMakeNames"=sampleNamesMakeNames)) } ## ## This function check if xcms will found all the files ## #@author Gildas Le Corguille lecorguille@sb-roscoff.fr ABiMS TEAM checkFilesCompatibilityWithXcms <- function(directory) { cat("Checking files filenames compatibilities with xmcs...\n") # WHAT XCMS WILL FIND filepattern <- c("[Cc][Dd][Ff]", "[Nn][Cc]", "([Mm][Zz])?[Xx][Mm][Ll]","[Mm][Zz][Dd][Aa][Tt][Aa]", "[Mm][Zz][Mm][Ll]") filepattern <- paste(paste("\\.", filepattern, "$", sep = ""),collapse = "|") info <- file.info(directory) listed <- list.files(directory[info$isdir], pattern = filepattern,recursive = TRUE, full.names = TRUE) files <- c(directory[!info$isdir], listed) files_abs <- file.path(getwd(), files) exists <- file.exists(files_abs) files[exists] <- files_abs[exists] files[exists] <- sub("//","/",files[exists]) # WHAT IS ON THE FILESYSTEM filesystem_filepaths=system(paste("find $PWD/",directory," -not -name '\\.*' -not -path '*conda-env*' -type f -name \"*\"", sep=""), intern=T) filesystem_filepaths=filesystem_filepaths[grep(filepattern, filesystem_filepaths, perl=T)] # COMPARISON if (!is.na(table(filesystem_filepaths %in% files)["FALSE"])) { write("\n\nERROR: List of the files which will not be imported by xcmsSet",stderr()) write(filesystem_filepaths[!(filesystem_filepaths %in% files)],stderr()) stop("\n\nERROR: One or more of your files will not be import by xcmsSet. It may due to bad characters in their filenames.") } } ## ## This function check if XML contains special caracters. It also checks integrity and completness. ## #@author Misharl Monsoor misharl.monsoor@sb-roscoff.fr ABiMS TEAM checkXmlStructure <- function (directory) { cat("Checking XML structure...\n") cmd=paste("IFS=$'\n'; for xml in $(find",directory,"-not -name '\\.*' -not -path '*conda-env*' -type f -iname '*.*ml*'); do if [ $(xmllint --nonet --noout \"$xml\" 2> /dev/null; echo $?) -gt 0 ]; then echo $xml;fi; done;") capture=system(cmd,intern=TRUE) if (length(capture)>0){ #message=paste("The following mzXML or mzML file is incorrect, please check these files first:",capture) write("\n\nERROR: The following mzXML or mzML file(s) are incorrect, please check these files first:", stderr()) write(capture, stderr()) stop("ERROR: xcmsSet cannot continue with incorrect mzXML or mzML files") } } ## ## This function check if XML contain special characters ## #@author Misharl Monsoor misharl.monsoor@sb-roscoff.fr ABiMS TEAM deleteXmlBadCharacters<- function (directory) { cat("Checking Non ASCII characters in the XML...\n") processed=F l=system( paste("find",directory, "-not -name '\\.*' -not -path '*conda-env*' -type f -iname '*.*ml*'"),intern=TRUE) for (i in l){ cmd=paste("LC_ALL=C grep '[^ -~]' \"",i,"\"",sep="") capture=suppressWarnings(system(cmd,intern=TRUE)) if (length(capture)>0){ cmd=paste("perl -i -pe 's/[^[:ascii:]]//g;'",i) print( paste("WARNING: Non ASCII characters have been removed from the ",i,"file") ) c=system(cmd,intern=TRUE) capture="" processed=T } } if (processed) cat("\n\n") return(processed) } ## ## This function will compute MD5 checksum to check the data integrity ## #@author Gildas Le Corguille lecorguille@sb-roscoff.fr getMd5sum <- function (directory) { cat("Compute md5 checksum...\n") # WHAT XCMS WILL FIND filepattern <- c("[Cc][Dd][Ff]", "[Nn][Cc]", "([Mm][Zz])?[Xx][Mm][Ll]","[Mm][Zz][Dd][Aa][Tt][Aa]", "[Mm][Zz][Mm][Ll]") filepattern <- paste(paste("\\.", filepattern, "$", sep = ""),collapse = "|") info <- file.info(directory) listed <- list.files(directory[info$isdir], pattern = filepattern,recursive = TRUE, full.names = TRUE) files <- c(directory[!info$isdir], listed) exists <- file.exists(files) files <- files[exists] library(tools) #cat("\n\n") return(as.matrix(md5sum(files))) } # This function get the raw file path from the arguments getRawfilePathFromArguments <- function(singlefile, zipfile, listArguments) { if (!is.null(listArguments[["zipfile"]])) zipfile = listArguments[["zipfile"]] if (!is.null(listArguments[["zipfilePositive"]])) zipfile = listArguments[["zipfilePositive"]] if (!is.null(listArguments[["zipfileNegative"]])) zipfile = listArguments[["zipfileNegative"]] if (!is.null(listArguments[["singlefile_galaxyPath"]])) { singlefile_galaxyPaths = listArguments[["singlefile_galaxyPath"]]; singlefile_sampleNames = listArguments[["singlefile_sampleName"]] } if (!is.null(listArguments[["singlefile_galaxyPathPositive"]])) { singlefile_galaxyPaths = listArguments[["singlefile_galaxyPathPositive"]]; singlefile_sampleNames = listArguments[["singlefile_sampleNamePositive"]] } if (!is.null(listArguments[["singlefile_galaxyPathNegative"]])) { singlefile_galaxyPaths = listArguments[["singlefile_galaxyPathNegative"]]; singlefile_sampleNames = listArguments[["singlefile_sampleNameNegative"]] } if (exists("singlefile_galaxyPaths")){ singlefile_galaxyPaths = unlist(strsplit(singlefile_galaxyPaths,",")) singlefile_sampleNames = unlist(strsplit(singlefile_sampleNames,",")) singlefile=NULL for (singlefile_galaxyPath_i in seq(1:length(singlefile_galaxyPaths))) { singlefile_galaxyPath=singlefile_galaxyPaths[singlefile_galaxyPath_i] singlefile_sampleName=singlefile_sampleNames[singlefile_galaxyPath_i] singlefile[[singlefile_sampleName]] = singlefile_galaxyPath } } for (argument in c("zipfile","zipfilePositive","zipfileNegative","singlefile_galaxyPath","singlefile_sampleName","singlefile_galaxyPathPositive","singlefile_sampleNamePositive","singlefile_galaxyPathNegative","singlefile_sampleNameNegative")) { listArguments[[argument]]=NULL } return(list(zipfile=zipfile, singlefile=singlefile, listArguments=listArguments)) } # This function retrieve the raw file in the working directory # - if zipfile: unzip the file with its directory tree # - if singlefiles: set symlink with the good filename retrieveRawfileInTheWorkingDirectory <- function(singlefile, zipfile) { if(!is.null(singlefile) && (length("singlefile")>0)) { for (singlefile_sampleName in names(singlefile)) { singlefile_galaxyPath = singlefile[[singlefile_sampleName]] if(!file.exists(singlefile_galaxyPath)){ error_message=paste("Cannot access the sample:",singlefile_sampleName,"located:",singlefile_galaxyPath,". Please, contact your administrator ... if you have one!") print(error_message); stop(error_message) } file.symlink(singlefile_galaxyPath,singlefile_sampleName) } directory = "." } if(!is.null(zipfile) && (zipfile!="")) { if(!file.exists(zipfile)){ error_message=paste("Cannot access the Zip file:",zipfile,". Please, contact your administrator ... if you have one!") print(error_message) stop(error_message) } #list all file in the zip file #zip_files=unzip(zipfile,list=T)[,"Name"] #unzip suppressWarnings(unzip(zipfile, unzip="unzip")) #get the directory name filesInZip=unzip(zipfile, list=T); directories=unique(unlist(lapply(strsplit(filesInZip$Name,"/"), function(x) x[1]))); directories=directories[!(directories %in% c("__MACOSX")) & file.info(directories)$isdir] directory = "." if (length(directories) == 1) directory = directories cat("files_root_directory\t",directory,"\n") } return (directory) }