Mercurial > repos > proteore > proteore_kegg_pathways_coverage
view kegg_identification.R @ 1:d600ce7f2484 draft
planemo upload commit bdd7e8a1f08c11db2a9f1b6db5535c6d32153b2b-dirty
author | proteore |
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date | Tue, 18 Dec 2018 10:00:40 -0500 |
parents | |
children | f4e32dee3b28 |
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options(warn=-1) #TURN OFF WARNINGS !!!!!! suppressMessages(library(KEGGREST)) get_args <- function(){ ## Collect arguments args <- commandArgs(TRUE) ## Default setting when no arguments passed if(length(args) < 1) { args <- c("--help") } ## Help section if("--help" %in% args) { cat("Pathview R script Arguments: --help Print this test --input tab file --id_list id list ',' separated --id_type type of input ids (kegg-id, uniprot_AC,geneID) --id_column number og column containg ids of interest --nb_pathways number of pathways to return --header boolean --output output path --species species used to get specific pathways (hsa,mmu,rno) Example: Rscript keggrest.R --input='P31946,P62258' --id_type='uniprot' --id_column 'c1' --header TRUE \n\n") q(save="no") } parseArgs <- function(x) strsplit(sub("^--", "", x), "=") argsDF <- as.data.frame(do.call("rbind", parseArgs(args))) args <- as.list(as.character(argsDF$V2)) names(args) <- argsDF$V1 return(args) } str2bool <- function(x){ if (any(is.element(c("t","true"),tolower(x)))){ return (TRUE) }else if (any(is.element(c("f","false"),tolower(x)))){ return (FALSE) }else{ return(NULL) } } read_file <- function(path,header){ file <- try(read.csv(path,header=header, sep="\t",stringsAsFactors = FALSE, quote="\"", check.names = F),silent=TRUE) if (inherits(file,"try-error")){ stop("File not found !") }else{ return(file) } } get_pathways_list <- function(species){ ##all available pathways for the species pathways <-keggLink("pathway", species) tot_path<-unique(pathways) ##formating the dat into a list object ##key= pathway ID, value = genes of the pathway in the kegg format pathways_list <- sapply(tot_path, function(pathway) names(which(pathways==pathway))) return (pathways_list) } get_list_from_cp <-function(list){ list = strsplit(list, "[ \t\n]+")[[1]] list = gsub("[[:blank:]]|\u00A0|NA","",list) list = list[which(!is.na(list[list != ""]))] #remove empty entry list = unique(gsub("-.+", "", list)) #Remove isoform accession number (e.g. "-2") return(list) } geneID_to_kegg <- function(vector,species){ vector <- sapply(vector, function(x) paste(species,x,sep=":"),USE.NAMES = F) return (vector) } to_keggID <- function(id_list,id_type){ if (id_type == "ncbi-geneid") { id_list <- unique(geneID_to_kegg(id_list,args$species)) } else if (id_type=="uniprot"){ id_list <- unique(sapply(id_list, function(x) paste(id_type,":",x,sep=""),USE.NAMES = F)) if (length(id_list)>250){ id_list <- split(id_list, ceiling(seq_along(id_list)/250)) id_list <- sapply(id_list, function(x) keggConv("genes",x)) id_list <- unique(unlist(id_list)) } else { id_list <- unique(keggConv("genes", id_list)) } } else if (id_type=="kegg-id") { id_list <- unique(id_list) } return (id_list) } #take data frame, return data frame split_ids_per_line <- function(line,ncol){ #print (line) header = colnames(line) line[ncol] = gsub("[[:blank:]]|\u00A0","",line[ncol]) if (length(unlist(strsplit(as.character(line[ncol]),";")))>1) { if (length(line)==1 ) { lines = as.data.frame(unlist(strsplit(as.character(line[ncol]),";")),stringsAsFactors = F) } else { if (ncol==1) { #first column lines = suppressWarnings(cbind(unlist(strsplit(as.character(line[ncol]),";")), line[2:length(line)])) } else if (ncol==length(line)) { #last column lines = suppressWarnings(cbind(line[1:ncol-1],unlist(strsplit(as.character(line[ncol]),";")))) } else { lines = suppressWarnings(cbind(line[1:ncol-1], unlist(strsplit(as.character(line[ncol]),";"),use.names = F), line[(ncol+1):length(line)])) } } colnames(lines)=header return(lines) } else { return(line) } } #create new lines if there's more than one id per cell in the columns in order to have only one id per line one_id_one_line <-function(tab,ncol){ if (ncol(tab)>1){ tab[,ncol] = sapply(tab[,ncol],function(x) gsub("[[:blank:]]","",x)) header=colnames(tab) res=as.data.frame(matrix(ncol=ncol(tab),nrow=0)) for (i in 1:nrow(tab) ) { lines = split_ids_per_line(tab[i,],ncol) res = rbind(res,lines) } }else { res = unlist(sapply(tab[,1],function(x) strsplit(x,";")),use.names = F) res = data.frame(res[which(!is.na(res[res!=""]))],stringsAsFactors = F) colnames(res)=colnames(tab) } return(res) } kegg_mapping<- function(kegg_id_list,id_type,ref_ids) { #mapping map<-lapply(ref_ids, is.element, unique(kegg_id_list)) names(map) <- sapply(names(map), function(x) gsub("path:","",x),USE.NAMES = FALSE) #remove the prefix "path:" in.path<-sapply(map, function(x) length(which(x==TRUE))) tot.path<-sapply(map, length) ratio <- (as.numeric(in.path[which(in.path!=0)])) / (as.numeric(tot.path[which(in.path!=0)])) ratio <- as.numeric(format(round(ratio*100, 2), nsmall = 2)) ##useful but LONG ## to do before : in step 1 path.names<-names(in.path[which(in.path!=0)]) name <- sapply(path.names, function(x) keggGet(x)[[1]]$NAME,USE.NAMES = FALSE) res<-data.frame(I(names(in.path[which(in.path!=0)])), I(name), ratio, as.numeric(in.path[which(in.path!=0)]), as.numeric(tot.path[which(in.path!=0)])) res <- res[order(as.numeric(res[,3]),decreasing = TRUE),] colnames(res)<-c("pathway_ID", "Description" , "Ratio IDs mapped/total IDs (%)" ,"nb KEGG genes IDs mapped in the pathway", "nb total of KEGG genes IDs present in the pathway") return(res) } #get args from command line args <- get_args() #save(args,file="/home/dchristiany/proteore_project/ProteoRE/tools/kegg_identification/args.Rda") #load("/home/dchristiany/proteore_project/ProteoRE/tools/kegg_identification/args.Rda") ###setting variables header = str2bool(args$header) if (!is.null(args$id_list)) {id_list <- get_list_from_cp(args$id_list)} #get ids from copy/paste input if (!is.null(args$input)) { #get ids from input file csv <- read_file(args$input,header) ncol <- as.numeric(gsub("c", "" ,args$id_column)) csv <- one_id_one_line(csv,ncol) id_list <- as.vector(csv[,ncol]) id_list <- unique(id_list[which(!is.na(id_list[id_list!=""]))]) } #convert to keggID if needed id_list <- to_keggID(id_list,args$id_type) #get pathways of species with associated KEGG ID genes pathways_list <- get_pathways_list(args$species) #mapping on pathways res <- kegg_mapping(id_list,args$id_type,pathways_list) if (nrow(res) > as.numeric(args$nb_pathways)) { res <- res[1:args$nb_pathways,] } write.table(res, file=args$output, quote=FALSE, sep='\t',row.names = FALSE, col.names = TRUE)