Mercurial > repos > drosofff > msp_sr_signature
diff signature.xml @ 0:a2f293717ce3 draft
planemo upload for repository https://github.com/ARTbio/tools-artbio/tree/master/tools/msp_sr_signature commit fe40dec87779c1fcfbd03330e653aa886f4a2cda
| author | drosofff |
|---|---|
| date | Wed, 21 Oct 2015 11:35:25 -0400 |
| parents | |
| children | 6218b518cd16 |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/signature.xml Wed Oct 21 11:35:25 2015 -0400 @@ -0,0 +1,149 @@ +<tool id="signature" name="Small RNA Signatures" version="2.0.5"> + <description /> + <requirements> + <requirement type="package" version="0.12.7">bowtie</requirement> + <requirement type="package" version="0.7.7">pysam</requirement> + <requirement type="package" version="3.1.2">R</requirement> + <requirement type="package" version="2.14">biocbasics</requirement> + <requirement type="package" version="1.9">numpy</requirement> + </requirements> + <command interpreter="python"> + signature.py + --input $refGenomeSource.input + --inputFormat $refGenomeSource.input.ext + --minquery $minquery + --maxquery $maxquery + --mintarget $mintarget + --maxtarget $maxtarget + --minscope $minscope + --maxscope $maxscope + --outputOverlapDataframe $output + #if $refGenomeSource.genomeSource == "history": + --referenceGenome $refGenomeSource.ownFile + #else: + #silent reference= filter( lambda x: str( x[0] ) == str( $input.dbkey ), $__app__.tool_data_tables[ 'bowtie_indexes' ].get_fields() )[0][-1] + --referenceGenome $reference + --extract_index + #end if + --graph $graph_type + --rcode $sigplotter + </command> + <inputs> + <conditional name="refGenomeSource"> + <param help="Built-ins were indexed using default options" label="Will you select a reference genome from your history or use a built-in index?" name="genomeSource" type="select"> + <option value="indexed">Use a built-in index</option> + <option value="history">Use one from the history</option> + </param> + <when value="indexed"> + <param format="tabular,sam,bam" label="Compute signature from this bowtie standard output" name="input" type="data"> + <validator message="database not set for this bowtie output. Select the database(=genome used for matching) manually, or select a reference fasta from your history." metadata_column="0" metadata_name="dbkey" table_name="bowtie_indexes" type="dataset_metadata_in_data_table" /> + </param> + </when> + <when value="history"> + <param format="fasta" label="Select the fasta reference" name="ownFile" type="data" /> + <param format="tabular,sam,bam" label="Compute signature from this bowtie standard output" name="input" type="data" /> + </when> + </conditional> + <param help="'23' = 23 nucleotides" label="Min size of query small RNAs" name="minquery" size="3" type="integer" value="23" /> + <param help="'29' = 29 nucleotides" label="Max size of query small RNAs" name="maxquery" size="3" type="integer" value="29" /> + <param help="'23' = 23 nucleotides" label="Min size of target small RNAs" name="mintarget" size="3" type="integer" value="23" /> + <param help="'29' = 29 nucleotides" label="Max size of target small RNAs" name="maxtarget" size="3" type="integer" value="29" /> + <param help="'1' = 1 nucleotide overlap" label="Minimal relative overlap analyzed" name="minscope" size="3" type="integer" value="1" /> + <param help="'1' = 1 nucleotide overlap" label="Maximal relative overlap analyzed" name="maxscope" size="3" type="integer" value="26" /> + <param help="Signature can be computed globally or by item present in the alignment file" label="Graph type" name="graph_type" type="select"> + <option selected="True" value="global">Global</option> + <option value="lattice">Lattice</option> + </param> + </inputs> + <outputs> + <data format="tabular" label="signature data frame" name="output" /> + <data format="pdf" label="Overlap probabilities" name="output2" /> + </outputs> + <tests> + <test> + <param name="genomeSource" value="history" /> + <param ftype="fasta" name="ownFile" value="ensembl.fa" /> + <param ftype="bam" name="input" value="sr_bowtie.bam" /> + <param name="minquery" value="23" /> + <param name="maxquery" value="29" /> + <param name="mintarget" value="23" /> + <param name="maxtarget" value="29" /> + <param name="minscope" value="5" /> + <param name="maxscope" value="15" /> + <param name="graph_type" value="global" /> + <output file="signature.tab" ftype="tabular" name="output" /> + <output file="signature.pdf" ftype="pdf" name="output2" /> + </test> + </tests> + <help> + +**What it does** + +This tool computes the number of pairs by overlap classes (in nt) from a bowtie output file, the z-score calculated from these numbers of pairs, and the ping-pong signal as described in Brennecke et al (2009) Science. +The numerical options set the min and max size of both the query small rna class and the target small rna class. +Three type of signals are plotted in separate pdf files, the number of pairs founds, the z-score calculated from these numbers of pairs, and the ping-pong signal as described in Brennecke et al (2009) Science. + + </help> + <citations> + <citation type="doi">10.1007/978-1-4939-0931-5_12</citation> + </citations> + <configfiles> + <configfile name="sigplotter"> + graph_type = "${graph_type}" + + globalgraph = function () { + ## Setup R error handling to go to stderr + options( show.error.messages=F, + error = function () { cat( geterrmessage(), file=stderr() ); q( "no", 1, F ) } ) + signature = read.delim("${output}", header=TRUE) + signaturez=data.frame(signature[,1], (signature[,2] -mean(signature[,2]))/sd(signature[,2])) + overlap_prob_z=data.frame(signature[,1], (signature[,3] -mean(signature[,3]))/sd(signature[,3])) + YLIM=max(signature[,2]) + + + ## Open output2 PDF file + pdf( "${output2}" ) + if (YLIM!=0) { + par(mfrow=c(2,2),oma = c(0, 0, 3, 0)) + + plot(signature[,1:2], type = "h", main="Numbers of pairs", cex.main=1, xlab="overlap (nt)", ylim=c(0,YLIM), ylab="Numbers of pairs", col="darkslateblue", lwd=4) + + plot(signaturez, type = "l", main="Number of pairs Z-scores", cex.main=1, xlab="overlap (nt)", ylab="z-score", pch=19, cex=0.2, col="darkslateblue", lwd=2) + + plot(signature[,1], signature[,3]*100, type = "l", main="Overlap probabilities", + cex.main=1, xlab="overlap (nt)", ylab="Probability [%]", ylim=c(0,50), + pch=19, col="darkslateblue", lwd=2) + + plot(overlap_prob_z, type = "l", main="Overlap Probability Z-scores", cex.main=1, xlab="overlap (nt)", ylab="z-score", pch=19, cex=0.2, col="darkslateblue", lwd=2) + + mtext("Overlap Signatures of ${minquery}-${maxquery} against ${mintarget}-${maxtarget}nt small RNAs", outer = TRUE, cex=1) + } + devname = dev.off() + ## Close the PDF file + } + + treillisgraph = function () { + ## Open output2 PDF file + pdf( "${output2}", paper="special", height=11.69, width=8.2677 ) + signature = read.delim("${output}", header=TRUE) + options( show.error.messages=F, + error = function () { cat( geterrmessage(), file=stderr() ); q( "no", 1, F ) } ) + library(lattice) + print (xyplot(signature[,3]*100~signature[,1]|signature[,4], type = "l", xlim=c(${minscope},${maxscope}), main="ping-pong Signature of ${minquery}-${maxquery} against ${mintarget}-${maxtarget}nt small RNAs", + par.strip.text=list(cex=.5), strip=strip.custom(which.given=1, bg="lightblue"), scales=list(cex=0.5), + cex.main=1, cex=.5, xlab="overlap (nt)", ylab="ping-pong signal [%]", + pch=19, col="darkslateblue", lwd =1.5, cex.lab=1.2, cex.axis=1.2, + layout=c(4,12), as.table=TRUE, newpage = T) ) + devnname = dev.off() + } + + if (graph_type=="global") { + globalgraph() + + } + if(graph_type=="lattice") { + treillisgraph() + } + </configfile> + </configfiles> +</tool>