Mercurial > repos > artbio > mircounts
view coverage_plotting.R @ 9:2a08a6eb471c draft
planemo upload for repository https://github.com/ARTbio/tools-artbio/tree/master/tools/mircounts commit 6013aaf29ff7aa2d1aab434f2355da327c7ef102
author | artbio |
---|---|
date | Wed, 25 Apr 2018 12:48:27 -0400 |
parents | da29af78a960 |
children | c163574c246f |
line wrap: on
line source
#!/usr/bin/env Rscript # Help to be printed hlp_description = "This script takes a dataframe containing the coverage values for different miRNAs and plots them." hlp_usage = "Usage : coverage_ploting.R --dataframe [FILE] --type ['relative' or 'absolute'] --output [FILE]" hlp_dataframe = "--dataframe\tFILE\tThis is a dataframe containing coverage values obtained from mircounts.py" hlp_type = "--type\t\tSTRING\tType of ploting, either relative or absoute coverage values (default='relative')" hlp_output = "--output\tFILE\tFile to output the pdf to\n" hlp = paste(hlp_description,hlp_usage,hlp_dataframe,hlp_type,hlp_output,sep="\n") #print(hlp) # Setup R error handling to go to stderr options( show.error.messages=F, error = function () { cat( geterrmessage(), file=stderr() ); q( "no", 1, F ) } ) library(optparse) library(lattice) # Get arguments option_list <- list( make_option(c("-d", "--dataframe"), type="character", help="Dataframe containing coverage values obtained from mircounts.py"), make_option(c("-t", "--type"), type="character", default="relative", help="Type of plotting, either relative or absoute coverage values (default='relative')"), make_option(c("-o", "--output"), type="character", help="File to output the pdf to") ) parser <- OptionParser(usage = "%prog [options] file", option_list=option_list) args = parse_args(parser) if ( !('dataframe' %in% names(args)) || !('output' %in% names(args))) { stop("'--dataframe' and '--output' parametters are not optional. Please retry.") } # Plot coverage = read.delim(args$dataframe, header=T) if (args$type =="relative") { graph = xyplot(Norm_count~Norm_offset | Mir_hairpin, data=coverage, col=c("darkblue"), type="l", lwd=1.5, scales=list(x=list(cex=.5), y=list(cex=.5)), par.strip.text=list(cex=.5), strip=strip.custom(which.given=1, bg="lightblue"), layout=c(4,15), as.table=T, xlab="Normalized Counts", ylab="Normalized coordinates", main="miRNA coverage maps") } else { graph = xyplot(Count~Offset | Mir_hairpin, data=coverage, col=c("darkblue"), type="l", lwd=1.5, scales=list(x=list(cex=.5), y=list(cex=.5)), par.strip.text=list(cex=.5), strip=strip.custom(which.given=1, bg="lightblue"), layout=c(4,15), as.table=T, xlab="Counts", ylab="Coordinates", main="miRNA coverage plots") } # PDF output pdf(file=args$output, paper="special", height=11.69, width=8.2677) plot(graph, newpage = T) dev.off()