Mercurial > repos > earlhaminst > ete
view ete_genetree_splitter.xml @ 9:b29ee6a16524 draft
"planemo upload for repository https://github.com/TGAC/earlham-galaxytools/tree/master/tools/ete commit 17c65045b726d0695814bfe761e534f6521786f1"
author | earlhaminst |
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date | Tue, 20 Oct 2020 15:10:40 +0000 |
parents | f1eca1158f21 |
children | 541a2ffc01ff |
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<tool id="ete_genetree_splitter" name="ETE GeneTree splitter" version="@VERSION@+galaxy1"> <description>from a genetree using the ETE Toolkit</description> <macros> <import>ete_macros.xml</import> </macros> <expand macro="requirements" /> <stdio> <!-- Anything other than zero is an error --> <exit_code range="1:" /> </stdio> <command><![CDATA[ python '$__tool_directory__/ete_genetree_splitter.py' --genetree '$genetreeFile' --gene_node $gene_node --split $splitter #if $gainlose_conditional.gainlose == "True" --speciestree '$gainlose_conditional.speciesFile' --species_format $gainlose_conditional.species_format --gainlose #end if --output_format $output_format ]]></command> <inputs> <param name="genetreeFile" type="data" format="nhx" label="GeneTree file" help="GeneTree in nhx format" /> <param name="gene_node" type="select" label="Select Gene node format" help="Select Gene node format from one of the option"> <option value="0" selected="true">gene_species</option> <option value="1">species_gene</option> </param> <param name="splitter" type="select" label="GeneTree splitting algorithm"> <option value="dups">Split by Duplication</option> <option value="treeko">Split using TreeKO algorithm</option> </param> <conditional name="gainlose_conditional"> <param name="gainlose" type="select" label="Find out gene gain/lose"> <option value="True">Yes</option> <option value="False" selected="true">No</option> </param> <when value="False" /> <when value="True"> <param name="speciesFile" type="data" format="nhx" label="Species file" help="Species Tree in nhx format" /> <param name="species_format" type="select" label="Input species tree format" help="See table below"> <option value="0">Flexible with support values (0)</option> <option value="1">Flexible with internal node names (1)</option> <option value="2">All branches + leaf names + internal supports (2)</option> <option value="3">All branches + all names (3)</option> <option value="4">Leaf branches + leaf names (4)</option> <option value="5">Internal and leaf branches + leaf names (5)</option> <option value="6">Internal branches + leaf names (6)</option> <option value="7">Leaf branches + all names (7)</option> <option value="8" selected="true">All names (8)</option> <option value="9">Leaf names (9)</option> <option value="100">Topology only (100)</option> </param> </when> </conditional> <param name="output_format" type="select" label="Output GeneTree format" help="See table below"> <option value="0">Flexible with support values (0)</option> <option value="1">Flexible with internal node names (1)</option> <option value="2">All branches + leaf names + internal supports (2)</option> <option value="3">All branches + all names (3)</option> <option value="4">Leaf branches + leaf names (4)</option> <option value="5">Internal and leaf branches + leaf names (5)</option> <option value="6">Internal branches + leaf names (6)</option> <option value="7">Leaf branches + all names (7)</option> <option value="8">All names (8)</option> <option value="9" selected="true">Leaf names (9)</option> <option value="100">Topology only (100)</option> </param> </inputs> <outputs> <collection name="genetrees_lists" type="list" label="${tool.name} on ${on_string}"> <discover_datasets pattern="(?P<designation>.+)_genetree\.nhx" ext="nhx" /> </collection> </outputs> <tests> <test> <param name="genetreeFile" ftype="nhx" value="genetree.nhx" /> <param name="gene_node" value="0"/> <param name="splitter" value="dups"/> <param name="output_format" value="9" /> <output_collection name="genetrees_lists" type="list" count="4"> <element name="1" file="11_genetree.nhx" ftype="nhx" /> <element name="2" file="12_genetree.nhx" ftype="nhx" /> <element name="3" file="13_genetree.nhx" ftype="nhx" /> <element name="4" file="14_genetree.nhx" ftype="nhx" /> </output_collection> </test> <test> <param name="genetreeFile" ftype="nhx" value="genetree.nhx" /> <param name="gene_node" value="0"/> <param name="splitter" value="dups"/> <param name="gainlose" value="True" /> <param name="speciesFile" ftype="nhx" value="speciestree.nhx" /> <param name="species_format" value="8" /> <param name="output_format" value="9" /> <output_collection name="genetrees_lists" type="list" count="5"> <element name="1" file="21_genetree.nhx" ftype="nhx" /> <element name="2" file="22_genetree.nhx" ftype="nhx" /> <element name="3" file="23_genetree.nhx" ftype="nhx" /> <element name="4" file="24_genetree.nhx" ftype="nhx" /> <element name="5" file="25_genetree.nhx" ftype="nhx" /> </output_collection> </test> <test> <param name="genetreeFile" ftype="nhx" value="genetree.nhx" /> <param name="gene_node" value="0"/> <param name="splitter" value="treeko"/> <param name="output_format" value="9" /> <output_collection name="genetrees_lists" type="list" count="5"> <element name="1" file="31_genetree.nhx" ftype="nhx" /> <element name="2" file="32_genetree.nhx" ftype="nhx" /> <element name="3" file="33_genetree.nhx" ftype="nhx" /> <element name="4" file="34_genetree.nhx" ftype="nhx" /> </output_collection> </test> </tests> <help><![CDATA[ Split GeneTrees from single GeneTree by duplication event using the `ETE Toolkit`_. .. _ETE Toolkit: http://etetoolkit.org/ **Output format:** ======= ============================================= ======================================================================================== FORMAT DESCRIPTION SAMPLE ------- --------------------------------------------- ---------------------------------------------------------------------------------------- 0 flexible with support values ((D:0.723274,F:0.567784)1.000000:0.067192,(B:0.279326,H:0.756049)1.000000:0.807788); 1 flexible with internal node names ((D:0.723274,F:0.567784)E:0.067192,(B:0.279326,H:0.756049)B:0.807788); 2 all branches + leaf names + internal supports ((D:0.723274,F:0.567784)1.000000:0.067192,(B:0.279326,H:0.756049)1.000000:0.807788); 3 all branches + all names ((D:0.723274,F:0.567784)E:0.067192,(B:0.279326,H:0.756049)B:0.807788); 4 leaf branches + leaf names ((D:0.723274,F:0.567784),(B:0.279326,H:0.756049)); 5 internal and leaf branches + leaf names ((D:0.723274,F:0.567784):0.067192,(B:0.279326,H:0.756049):0.807788); 6 internal branches + leaf names ((D,F):0.067192,(B,H):0.807788); 7 leaf branches + all names ((D:0.723274,F:0.567784)E,(B:0.279326,H:0.756049)B); 8 all names ((D,F)E,(B,H)B); 9 leaf names ((D,F),(B,H)); 100 topology only ((,),(,)); ======= ============================================= ======================================================================================== ]]></help> <expand macro="citations" /> </tool>