#' @title Cell Cycle
#' @description This function executes a ubuntu docker which associates a cell cycle state to each cell
#' @param group, a character string. Two options: sudo or docker, depending to which group the user belongs
#' @param scratch.folder, a character string indicating the path of the scratch folder
#' @param file, a character string indicating the folder where input data are located and where output will be written and matrix name "/bin/users/matrix.csv"
#' @param separator, separator used in count file, e.g. '\\t', ','
#' @param geneNameControl, 0 if the matrix has gene name without ENSEMBL code. 1 if the gene names is formatted like this : ENSMUSG00000000001:Gnai3. If the gene names is only ensamble name you have to run SCannoByGtf before start using this script.
#' @param window, number cells collapsed in a single point of the lot. This make less noisy the output generated by the predictor, default 10.
#' @param seed, important parameter for reproduce the same result with the same input
#' @author Luca Alessandri , alessandri [dot] luca1991 [at] gmail [dot] com, University of Torino
#'
#' @return a pdf, called cellCycleRange.pdf, with predicted cell cycle behaviour
#' @examples
#'\dontrun{
#' #preparing the data for the analysis
#' system("wget http://130.192.119.59/public/buettner_G1G2MS_counts.txt.zip")
#' unzip("buettner_G1G2MS_counts.txt.zip")
#'
#' #annotating the data set to obtain the gene names in the format ensemblID:symbol
#' scannobyGtf(group="docker", file=paste(getwd(),"buettner_G1G2MS_counts.txt",sep="/"),
#' gtf.name="Mus_musculus.GRCm38.94.gtf", biotype="protein_coding",
#' mt=TRUE, ribo.proteins=TRUE,umiXgene=3, riboStart.percentage=0,
#' riboEnd.percentage=100, mitoStart.percentage=0, mitoEnd.percentage=100, thresholdGenes=100)
#' #running cell cycle prediction
#' recatPrediction(group="docker",scratch.folder="/data/scratch",
#' file=paste(getwd(), "annotated_buettner_G1G2MS_counts.txt", sep="/"),
#' separator="\t", geneNameControl=1, window=10, seed=111)
#'}
#' @export
recatPrediction <- function(group=c("sudo","docker"), scratch.folder, file,separator,geneNameControl=0,window=1,seed=111){
data.folder=dirname(file)
positions=length(strsplit(basename(file),"\\.")[[1]])
matrixNameC=strsplit(basename(file),"\\.")[[1]]
matrixName=paste(matrixNameC[seq(1,positions-1)],collapse="")
format=strsplit(basename(basename(file)),"\\.")[[1]][positions]
#running time 1
ptm <- proc.time()
#setting the data.folder as working folder
if (!file.exists(data.folder)){
cat(paste("\nIt seems that the ",data.folder, " folder does not exist\n"))
return(2)
}
#storing the position of the home folder
home <- getwd()
setwd(data.folder)
#initialize status
system("echo 0 > ExitStatusFile 2>&1")
#testing if docker is running
test <- dockerTest()
if(!test){
cat("\nERROR: Docker seems not to be installed in your system\n")
system("echo 10 > ExitStatusFile 2>&1")
setwd(home)
return(10)
}
#check if scratch folder exist
if (!file.exists(scratch.folder)){
cat(paste("\nIt seems that the ",scratch.folder, " folder does not exist\n"))
system("echo 3 > ExitStatusFile 2>&1")
setwd(data.folder)
return(3)
}
tmp.folder <- gsub(":","-",gsub(" ","-",date()))
scrat_tmp.folder=file.path(scratch.folder, tmp.folder)
writeLines(scrat_tmp.folder,paste(data.folder,"/tempFolderID", sep=""))
cat("\ncreating a folder in scratch folder\n")
dir.create(file.path(scrat_tmp.folder))
#preprocess matrix and copying files
if(separator=="\t"){
separator2="tab"
}else{separator2=separator}
#gene Name Control
if(geneNameControl==0){
system(paste("cp ",data.folder,"/",matrixName,".",format," ",data.folder,"/",matrixName,"_old.",format,sep=""))
mainMatrix=read.table(paste(data.folder,"/",matrixName,".",format,sep=""),header=TRUE,row.names=1,sep=separator)
rownames(mainMatrix)=paste(seq(1,nrow(mainMatrix)),":",rownames(mainMatrix),sep="")
write.table(mainMatrix,paste(data.folder,"/",matrixName,".",format,sep=""),sep=separator,col.names=NA)
}
system(paste("cp ",data.folder,"/",matrixName,".",format," ",scrat_tmp.folder,sep=""))
#executing the docker job
params <- paste("--cidfile ",data.folder,"/dockerID -v ",scrat_tmp.folder,":/scratch -v ", data.folder, ":/data -d docker.io/repbioinfo/cellcycle_1 Rscript /home/main.R ",matrixName," ",format," ",separator2," ",window," ",seed,sep="")
resultRun <- runDocker(group=group, params=params)
#waiting for the end of the container work
if(resultRun==0){
#system(paste("cp ", scrat_tmp.folder, "/* ", data.folder, sep=""))
}
#running time 2
ptm <- proc.time() - ptm
dir <- dir(data.folder)
dir <- dir[grep("run.info",dir)]
if(length(dir)>0){
con <- file("run.info", "r")
tmp.run <- readLines(con)
close(con)
tmp.run[length(tmp.run)+1] <- paste("user run time mins ",ptm[1]/60, sep="")
tmp.run[length(tmp.run)+1] <- paste("system run time mins ",ptm[2]/60, sep="")
tmp.run[length(tmp.run)+1] <- paste("elapsed run time mins ",ptm[3]/60, sep="")
writeLines(tmp.run,"run.info")
}else{
tmp.run <- NULL
tmp.run[1] <- paste("run time mins ",ptm[1]/60, sep="")
tmp.run[length(tmp.run)+1] <- paste("system run time mins ",ptm[2]/60, sep="")
tmp.run[length(tmp.run)+1] <- paste("elapsed run time mins ",ptm[3]/60, sep="")
writeLines(tmp.run,"run.info")
}
#saving log and removing docker container
container.id <- readLines(paste(data.folder,"/dockerID", sep=""), warn = FALSE)
system(paste("docker logs ", substr(container.id,1,12), " &> ",data.folder,"/", substr(container.id,1,12),".log", sep=""))
system(paste("docker rm ", container.id, sep=""))
#Copy result folder
cat("Copying Result Folder")
dir.create(paste(data.folder,"/Results",sep=""))
dir.create(paste(data.folder,"/Results/",matrixName,sep=""))
system(paste("cp ",scrat_tmp.folder,"/cellCycleRange.pdf ",data.folder,"/Results/",matrixName,sep=""))
#removing temporary folder
cat("\n\nRemoving the temporary file ....\n")
# system(paste("rm -R ",scrat_tmp.folder))
system("rm -fR out.info")
system("rm -fR dockerID")
system("rm -fR tempFolderID")
system(paste("cp ",paste(path.package(package="rCASC"),"containers/containers.txt",sep="/")," ",data.folder, sep=""))
setwd(home)
}
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