Mercurial > repos > chemteam > gmx_setup
view setup.xml @ 3:4c48f2526697 draft
"planemo upload for repository https://github.com/galaxycomputationalchemistry/galaxy-tools-compchem/tools/gromacs commit b1b74e91a242f2de250761a79b17d77e68b1045f"
author | chemteam |
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date | Fri, 30 Aug 2019 15:06:44 -0400 |
parents | 644ca8dfdf28 |
children | b43abebffad6 |
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<tool id="gmx_setup" name="GROMACS initial setup" version="@VERSION@"> <description>of topology and GRO structure file</description> <macros> <import>macros.xml</import> </macros> <expand macro="requirements" /> <command detect_errors="exit_code"><![CDATA[ ln -s '$pdb_input' ./pdb_input.pdb && gmx pdb2gmx -f ./pdb_input.pdb -o processed.gro -p topol.top -i posres.itp -water $water -ff $ff -${ignore_h}ignh &>> verbose.txt && gmx editconf -f processed.gro -o newbox.gro -c -d $box_d -bt $box_type &>> verbose.txt ]]></command> <inputs> <!-- PDB2GMX VARS --> <param argument="pdb_input" type="data" format='pdb' label="PDB input file."/> <param argument="water" type="select" label="Water model" help=""> <option value="tip3p" selected="true">TIP3P</option> <option value="tip4p">TIP4P</option> <option value="tips3p">TIPS3P</option> <option value="tip5p">TIP5P</option> <option value="spc">SPC</option> <option value="spce">SPC/E</option> <option value="none">None</option> </param> <param argument="ff" type="select" label="Force field"> <option value="oplsaa" selected="true">OPLS/AA</option> <option value="gromos43a1">GROMOS43A1</option> <option value="amber96">AMBER96</option> <option value="gromos53a6">GROMOS53A6</option> <option value="amber99sb-ildn">AMBER99SB-ILDN</option> <option value="amber99sb">AMBER99SB</option> <option value="gromos53a5">GROMOS53A5</option> <option value="gromos43a2">GROMOS43A2</option> <option value="amberGS">AMBERGS</option> <option value="charmm27">CHARMM27</option> <option value="amber03">AMBER03</option> <option value="gromos54a7">GROMOS54A7</option> <option value="gromos45a3">GROMOS45A3</option> <option value="amber99">AMBER99</option> <option value="amber94">AMBER94</option> </param> <param argument="ignore_h" type="boolean" label="Ignore hydrogens" truevalue="" falsevalue="no" help="Ignore hydrogen atoms that are in the coordinate file." /> <!-- EDITCONF VARS --> <param argument="box_d" type="float" label="Box dimensions in nanometers." value="0.0" min="0.0" max="10.0" help="Box dimensions" /> <param argument="box_type" type="select" label="Box type" help="triclinic is a triclinic box, cubic is a rectangular box with all sides equal dodecahedron represents a rhombic dodecahedron and octahedron is a truncated octahedron. The last two are special cases of a triclinic box. The length of the three box vectors of the truncated octahedron is the shortest distance between two opposite hexagons. Relative to a cubic box with some periodic image distance, the volume of a dodecahedron with this same periodic distance is 0.71 times that of the cube, and that of a truncated octahedron is 0.77 times."> <option value="cubic">Rectangular box with all sides equal</option> <option value="triclinic">Triclinic</option> <option value="dodecahedron">represents a rhombic dodecahedron</option> <option value="octahedron">truncated octahedron</option> </param> <param name="capture_log" type="boolean" value="false" label="Generate Detailed Log" help="Generate detailed log information that can be summarized with ParseLog."/> </inputs> <outputs> <data name="output1" format="top" from_work_dir="topol.top"/> <data name="output2" format="gro" from_work_dir="newbox.gro"/> <data name="output3" format="itp" from_work_dir="posres.itp"/> <data name="report" format="txt" from_work_dir="verbose.txt"> <filter>capture_log</filter> </data> </outputs> <tests> <test> <param name="pdb_input" value="1AKI.pdb" /> <param name="water" value="spce" /> <param name="ff" value="oplsaa" /> <param name="ignore_h" value="no" /> <param name="box_d" value="1.0" /> <param name="box_type" value="cubic" /> <output name="output1" file="topol.top" ftype="top" compare="diff" lines_diff="20"/> <output name="output2" file="newbox.gro" ftype="gro"/> <output name="output3" file="posres.itp" ftype="itp"/> </test> </tests> <help><![CDATA[ Initial GROMACS setup. Upload a structure in PDB format and produce a topology and a structure in GRO format contained in a box of defined shape and dimensions. ]]></help> <expand macro="citations" /> </tool>