view tools/networkAnalysis/ExtractSubBipNetwork/ExtractSubBipNetwork.xml @ 8:1274e2a62479 draft default tip

planemo upload for repository https://forgemia.inra.fr/metexplore/met4j-galaxy commit e34acf0f51cafcf6ae7c97b4feb3188a39f17c32
author metexplore
date Wed, 26 Jul 2023 15:33:45 +0000
parents 7a6f2380fc1d
children
line wrap: on
line source

<?xml version="1.0" encoding="UTF-8"?>
<tool id="met4j_ExtractSubBipNetwork" name="ExtractSubBipNetwork" version="MET4J_VERSION_TEST">
  <description>Create a subnetwork from a GSMN in SBML format, and two files containing lists of compounds and/or reactions of interests ids, one per row, plus one file of the same format containing side compounds ids.</description>
  <xrefs>
    <xref type="bio.tools">met4j</xref>
  </xrefs>
  <requirements>
    <container type="singularity">oras://registry.forgemia.inra.fr/metexplore/met4j/met4j-singularity:MET4J_VERSION_TEST</container>
  </requirements>
  <command detect_errors="exit_code"><![CDATA[sh /usr/bin/met4j.sh networkAnalysis.ExtractSubBipNetwork -i "$inputPath"
 -s "$sourcePath"
 -t "$targetPath"
 $undirected
 $asTable
 -sc "$sideCompoundFile"
#if str($blkdReactionFile) != 'None':
 -br "$blkdReactionFile"
#end if
#if str($weightFile) != 'None':
 -cw "$weightFile"
#end if
#if str($k):
 -k "$k"
#end if
 $st
 -o "$outputPath"
]]></command>
  <inputs>
    <param argument="-i" format="sbml" label="input SBML file" name="inputPath" optional="false" type="data" value=""/>
    <param argument="-s" format="txt" label="input sources txt file" name="sourcePath" optional="false" type="data" value=""/>
    <param argument="-t" format="txt" label="input targets txt file" name="targetPath" optional="false" type="data" value=""/>
    <param argument="-u" checked="false" falsevalue="" label="Ignore reaction direction" name="undirected" truevalue="-u" type="boolean" value="false"/>
    <param argument="-tab" checked="false" falsevalue="" label="Export in tabulated file instead of .GML" name="asTable" truevalue="-tab" type="boolean" value="false"/>
    <param argument="-sc" format="txt" label="a file containing list of side compounds to ignore" name="sideCompoundFile" optional="false" type="data" value=""/>
    <param argument="-br" format="txt" label="a file containing list of blocked reactions to ignore" name="blkdReactionFile" optional="true" type="data" value=""/>
    <param argument="-cw" format="tsv" label="an optional file containing weights for reactions pairs" name="weightFile" optional="true" type="data" value=""/>
    <param argument="-k" label="Extract k-shortest paths" name="k" optional="true" type="text" value="1">
      <sanitizer invalid_char="_">
        <valid initial="string.printable"/>
      </sanitizer>
    </param>
    <param argument="-st" checked="false" falsevalue="" label="Extract Steiner Tree" name="st" truevalue="-st" type="boolean" value="false"/>
  </inputs>
  <outputs>
    <data format="gml" name="outputPath"/>
  </outputs>
  <tests>
    <test>
        <param name="inputPath" value="toy_model.xml"/>
        <param name="sourcePath" value="seeds.txt"/>
        <param name="targetPath" value="targets.txt"/>
        <param name="sideCompoundFile" value="sc.txt"/>
        <output ftype="gml" name="outputPath">
          <assert_contents>
            <has_line_matching expression=".*node.*" n="5"/>
            <has_line_matching expression=".*edge.*" n="4"/>
          </assert_contents>
        </output>
      </test>
  </tests>
  <help><![CDATA[Create a subnetwork from a GSMN in SBML format, and two files containing lists of compounds and/or reactions of interests ids, one per row, plus one file of the same format containing side compounds ids.
The subnetwork corresponds to part of the network that connects reactions and compounds from the first list to reactions and compounds from the second list.
Sources and targets list can have elements in common. The connecting part can be defined as the union of shortest or k-shortest paths between sources and targets, or the Steiner tree connecting them. Contrary to compound graph, bipartite graph often lacks weighting policy for edge relevance. In order to ensure appropriate network density, a list of side compounds and blocked reactions to ignore during path build must be provided. An optional edge weight file, if available, can also be used.]]></help>
  <citations/>
</tool>