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"planemo upload for repository https://github.com/galaxycomputationalchemistry/galaxy-tools-compchem/tree/master/tools/gromacs commit 7120a24dbb365d0a06595018a3b6f27dad0961e0"
author | chemteam |
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date | Mon, 14 Mar 2022 10:36:56 +0000 |
parents | 16fad30d566a |
children | 72459c3ea5f6 |
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<tool id="gmx_trj" name="Modify/convert GROMACS trajectories" version="@TOOL_VERSION@+galaxy@GALAXY_VERSION@"> <description>using trjconv and trjcat</description> <macros> <import>macros.xml</import> <token name="@GALAXY_VERSION@">0</token> <xml name="fit_when" token_option="none"> <when value="@OPTION@"> <param name="index_fit" type="text" label="Index of group to use for fitting" help="Index of group to use for fitting - i.e. the group's position in the ndx file (using zero-based numbering, so the first group has index 0)."> <validator type="regex" message="Only numeric values allowed">^[0-9]*$</validator> </param> </when> </xml> </macros> <expand macro="requirements" /> <command detect_errors="exit_code"><![CDATA[ #if $trj.trj_op == 'trjcat': mkdir trajs && #for $value, $file in enumerate($trj_input): ln -s '$file' trajs/traj_${value}.${file.ext} && #end for gmx trjcat -f trajs/traj* ## here we assume that they all have the same ext, probably reasonable $trj.cat -e '$time.e' #elif $trj.trj_op == 'trjconv': ln -s '$ndx_input' ./index.ndx && ln -s '$str_input' ./str.${str_input.ext} && ln -s '$trj_input' ./traj.${trj_input.ext} && echo ## optionally pipe in the following #if $trj.fit.fit != 'none': '$trj.fit.index_fit' #end if #if $trj.pbc.pbc == 'cluster': '$trj.pbc.index_cluster' #end if '$trj.index_center' '$trj.index_output' | gmx trjconv -f ./traj.${trj_input.ext} -s ./str.${str_input.ext} #if $ndx_input: -n ./index.ndx #end if #if $trj.index_center: -center #end if #if $trj.sep: -sep -nzero 9 ## hopefully the traj has < 1 bn frames, or collection order will be wrong #end if -pbc $trj.pbc.pbc -ur $trj.ur -boxcenter $trj.boxcenter -fit $trj.fit.fit #if $time.e != -1: -e '$time.e' #end if #end if -b '$time.b' -dt '$time.dt' -o ./output.${output_format} && &>> verbose.txt #if not $trj.sep: && mv ./output.${output_format} '$output' #end if ]]></command> <inputs> <conditional name="trj"> <param name="trj_op" type="select" label="Modify a trajectory or concatenate multiple trajectories?"> <option value="trjconv">Modify (trjconv)</option> <option value="trjcat">Concatenate (trjcat)</option> </param> <when value="trjconv"> <param name="trj_input" type="data" format='xtc,trr,pdb,gro' label="Input trajectory" help="In XTC or TRR format; structure files with PDB or GRO format can also be used."/> <param name="str_input" type="data" format='pdb,gro,tpr' label="Input structure" help="In PDB, GRO or TPR format."/> <param name="ndx_input" type="data" format='ndx' label="Index (NDX) file" optional="true" help="In NDX format. Optional."/> <param name="index_output" value="0" type="text" label="Index of group to save in the output" help="Index of group to save in the output - i.e. the group's position in the ndx file (using zero-based numbering, so the first group has index 0)."> <validator type="regex" message="Only numeric values allowed">^[0-9]*$</validator> </param> <param name="index_center" type="text" label="Index of group for centering" optional="true" help="Index of group for centering - i.e. the group's position in the ndx file (using zero-based numbering, so the first group has index 0). Leave blank if centering is not required."> <validator type="regex" message="Only numeric values allowed">^[0-9]*$</validator> </param> <param name="sep" type="select" label="Write each trajectory frame to a separate GRO or PDB file?" help="Results will be stored as a Galaxy collection. Only has effect with PDB or GRO output, otherwise ignored"> <option value="" selected="true">No</option> <option value="sep">Yes, write each frame separately</option> </param> <conditional name="pbc"> <param name="pbc" type="select" label="PBC treatment" > <option value="none">none</option> <option value="mol">mol</option> <option value="res">res</option> <option value="atom">atom</option> <option value="nojump">nojump</option> <option value="cluster">cluster</option> <option value="whole">whole</option> </param> <when value="cluster"> <param name="index_cluster" type="text" label="Index of group to use for clustering" help="Index of group to use for clustering - i.e. the group's position in the ndx file (using zero-based numbering, so the first group has index 0)."> <validator type="regex" message="Only numeric values allowed">^[0-9]*$</validator> </param> </when> <when value="none" /> <when value="mol" /> <when value="res" /> <when value="atom" /> <when value="nojump" /> <when value="whole" /> </conditional> <param name="ur" type="select" label="Unit cell representation" help="Only has effect in combination with PBC treatment of mol, res or atom"> <option value="rect" selected="true">rect</option> <option value="tric">tric</option> <option value="compact">compact</option> </param> <param name="boxcenter" type="select" label="Center for PBC and centering treatment" > <option value="rect">rect</option> <option value="tric" selected="true">tric</option> <option value="zero">zero</option> </param> <conditional name="fit"> <param name="fit" type="select" label="Fit molecule to reference structure in the reference file?" > <option value="none" selected="true">No fitting</option> <option value="rot+trans">rot+trans</option> <option value="rotxy+transxy">rotxy+transxy</option> <option value="translation">translation</option> <option value="transxy">transxy</option> <option value="progressive">progressive</option> </param> <when value="none"/> <expand macro="fit_when" option="rot+trans"/> <expand macro="fit_when" option="rotxy+transxy"/> <expand macro="fit_when" option="translation"/> <expand macro="fit_when" option="transxy"/> <expand macro="fit_when" option="progressive"/> </conditional> </when> <when value="trjcat"> <param name="trj_input" type="data" format='xtc,trr' label="Input trajectories" help="In XTC or TRR format, but please do not mix the two. Please note this tool does not currently take order into account when concatenating." multiple="true"/> <param name="cat" type="boolean" label="Do not discard double time frames" truevalue="-cat" falsevalue="-nocat"/> <param name="sep" type="hidden" value="" /> </when> </conditional> <param name="output_format" type="select" label="Output format" > <option value="xtc">XTC</option> <option value="trr">TRR</option> <option value="pdb">PDB</option> <option value="gro">GRO</option> </param> <section title="Time" name='time' expanded="true"> <param name="b" type="integer" label="Start time" help="Time (ps) of first frame to read from trajectory" value="0" min="0"/> <param name="e" type="integer" label="End time" help="Time (ps) of last frame to read from trajectory" value="-1" min="-1"/> <!-- stupidly this has different default values for trjconv and trjcat --> <param name="dt" type="integer" label="Write frames at this time interval (ps)" help="Only write frame when t is exactly divisible by this value. Leave as 0 to record all frames." value="0" min="0"/> </section> <expand macro="log" /> </inputs> <outputs> <data name="output" format="xtc"> <filter>not trj.get("sep") or output_format in ["xtc", "trr"]</filter> <change_format> <when input="output_format" value="trr" format="trr"/> <when input="output_format" value="xtc" format="xtc"/> <when input="output_format" value="gro" format="gro"/> <when input="output_format" value="pdb" format="pdb"/> </change_format> </data> <collection type="list" name="gro_frames" label="Trajectory frames"> <filter>trj.get("sep") and output_format == "gro"</filter> <discover_datasets pattern="(?P<designation>^output[0-9]{9}\.gro$)" ext="gro"/> </collection> <collection type="list" name="pdb_frames" label="Trajectory frames"> <filter>trj.get("sep") and output_format == 'pdb'</filter> <discover_datasets pattern="(?P<designation>^output[0-9]{9}\.pdb$)" ext="pdb"/> </collection> <expand macro="log_outputs" /> </outputs> <tests> <test> <!-- gmx trjcat -f npt.xtc nvt.xtc -cat -o test.xtc --> <param name="trj_op" value="trjcat" /> <param name="trj_input" value="npt.xtc,nvt.xtc" /> <param name="b" value="0" /> <param name="e" value="-1" /> <param name="dt" value="0" /> <param name="cat" value="true" /> <output name="output" file="trjcat.xtc" ftype="xtc"/> </test> <test> <!-- echo '1 1' | gmx trjconv -f npt.xtc -s npt.tpr -n -center -pbc mol -ur compact -o npt_c.xtc --> <!-- <param name="trj_op" value="trjconv" /> --> <param name="trj_input" value="npt.xtc" /> <param name="str_input" value="npt.tpr" ftype="tpr"/> <param name="ndx_input" value="index.ndx" /> <param name="b" value="0" /> <param name="e" value="-1" /> <param name="dt" value="0" /> <param name="index_output" value="1" /> <param name="index_center" value="1" /> <param name="pbc" value="mol" /> <param name="ur" value="tric" /> <output name="output" file="trjconv.xtc" ftype="xtc"/> </test> <test> <!-- test sep flag --> <param name="trj_input" value="npt.xtc" /> <param name="str_input" value="npt.tpr" ftype="tpr"/> <param name="ndx_input" value="index.ndx" /> <param name="b" value="0" /> <param name="e" value="-1" /> <param name="dt" value="0" /> <param name="index_output" value="0" /> <param name="sep" value="sep" /> <param name="output_format" value="pdb" /> <output_collection name="pdb_frames" type="list"> <element name="output000000007.pdb" ftype="pdb" file="frame7.pdb"/> </output_collection> </test> </tests> <help><![CDATA[ .. class:: infomark **What it does** This tool allows manipulation of GROMACS trajectories, drawing on the trjcat and trjconv commands. _____ .. class:: infomark **Input** - One or more trajectory files (XTC or TRR) - Structure file (optional) - Various options can be set _____ .. class:: infomark **Output** - GROMACS trajectory or structure file (XTC, TRR, PDB, GRO) ]]></help> <expand macro="citations" /> </tool>