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"planemo upload for repository https://github.com/galaxycomputationalchemistry/galaxy-tools-compchem/ commit 4a3f58846bcad26240ccdc6b76e8f4d2cbe63631"
author | chemteam |
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date | Mon, 25 Jan 2021 11:15:06 +0000 |
parents | 6c6cecf51bd0 |
children | 2b82fc7bec67 |
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<tool id="parmconv" name="Convert Parameters" version="@TOOL_VERSION@+galaxy@GALAXY_VERSION@"> <description>to AMBER prmtop in preparation for MMPBSA</description> <macros> <import>macros.xml</import> <token name="@GALAXY_VERSION@">0</token> </macros> <expand macro="requirements"> <requirement type="package" version="3.2.0">parmed</requirement> <requirement type="package" version="2020.4">gromacs</requirement> <requirement type="package" version="2.11.2">jinja2</requirement> </expand> <command detect_errors="exit_code"> <![CDATA[ python '$templating_script' '$inputs' && PATH_TO_PARMED=\$(dirname `which parmed`) && export AMBERHOME=\$(dirname \$PATH_TO_PARMED) && export GMXDATA=\$AMBERHOME/share/gromacs/top/ && parmed -i ligand.script -O && parmed -i receptor.script -O && parmed -i complex.script -O && parmed -i solvatedcomplex.script -O ]]> </command> <configfiles> <inputs name="inputs"/> <configfile name="templating_script"> <![CDATA[ import os import sys import json from jinja2 import Environment, FileSystemLoader input_json_path = sys.argv[1] params = json.load(open(input_json_path, "r")) currentpath = "$__tool_directory__" # should work generally template_environment = Environment(loader=FileSystemLoader(currentpath),lstrip_blocks=True, trim_blocks=True) template = template_environment.get_template('template_parmconv.j2') params['fmt'] = '$param_inputs.fmt' #if str($param_inputs.fmt) == 'AMBER': params["top_in"] = '$param_inputs.top_in' #else: params["top_in"] = '$param_inputs.top_in' params["str_in"] = '$param_inputs.str_in' #end if params['prmtop_ligand'] = '$prmtop_ligand' params['prmtop_receptor'] = '$prmtop_receptor' params['prmtop_complex'] = '$prmtop_complex' params['prmtop_solvatedcomplex'] = '$prmtop_solvatedcomplex' print(params) def unescape(cond_text): """ # Unescape if input has been escaped - credit @bgruening //github.com/bgruening/galaxytools.git get_online_data.py """ mapped_chars = { '>' :'__gt__', '<' :'__lt__', "'" :'__sq__', '"' :'__dq__', '[' :'__ob__', ']' :'__cb__', '{' :'__oc__', '}' :'__cc__', '@' : '__at__', '\n' : '__cn__', '\r' : '__cr__', '\t' : '__tc__', '&' : '__and__' } for key, value in mapped_chars.items(): cond_text = cond_text.replace( value, key ) return cond_text def run_template(params=params, system="ligand"): """ # Render template on a selected system using a local parameter copy """ localparams=params.copy() # shallow copy ok for simple variables localparams['stripmask']=unescape(localparams['stripmask_'+system]) localparams['prmtop_out']=localparams['prmtop_'+system] print(localparams) with open(system+'.script','w+') as f: f.write(template.render(localparams)) systems = ['ligand', 'receptor', 'complex', 'solvatedcomplex'] for system in systems: run_template(system=system) ]]> </configfile> </configfiles> <inputs> <conditional name="param_inputs"> <param name="fmt" type="select" label="Force Field format"> <option selected="True" value="AMBER">AMBER</option> <option value="GROMACS">GROMACS</option> </param> <when value="AMBER"> <param name="top_in" type="data" label="Input topology (prmtop) file" format="txt"/> </when> <when value="GROMACS"> <param name="top_in" type="data" label="Input topology (top) file" format="top"/> <param name="str_in" type="data" label="Input structure (gro) file" format="gro"/> </when> </conditional> <param name="stripmask_ligand" type="text" label="Ligand selection" value="!:UNL" help="Define a valid AMBER stripmask that will select only the ligand"> <sanitizer> <valid initial="string.printable"> <remove value="&"/> </valid> <mapping initial="none"> <add source="&" target="__and__"/> </mapping> </sanitizer> </param> <param name="stripmask_receptor" type="text" label="Receptor selection" value=":NA,SOL,UNL" help="Define a valid AMBER stripmask that will select only the receptor"> <sanitizer> <valid initial="string.printable"> <remove value="&"/> </valid> <mapping initial="none"> <add source="&" target="__and__"/> </mapping> </sanitizer> </param> <param name="stripmask_complex" type="text" label="Complex selection" value=":NA,SOL" help="Define a valid AMBER stripmask that will select the complex (receptor with ligand)"> <sanitizer> <valid initial="string.printable"> <remove value="&"/> </valid> <mapping initial="none"> <add source="&" target="__and__"/> </mapping> </sanitizer> </param> <param name="stripmask_solvatedcomplex" type="text" label="Solvated complex selection" help="Define a valid AMBER stripmask that will select the solvated complex (includes water and ions)"> <sanitizer> <valid initial="string.printable"> <remove value="&"/> </valid> <mapping initial="none"> <add source="&" target="__and__"/> </mapping> </sanitizer> </param> </inputs> <outputs> <data format="txt" name="prmtop_ligand" label="ligand prmtop"/> <data format="txt" name="prmtop_receptor" label="receptor prmtop"/> <data format="txt" name="prmtop_complex" label="complex prmtop"/> <data format="txt" name="prmtop_solvatedcomplex" label="solvated complex prmtop"/> </outputs> <tests> <test> <!--example in this test is not solvated but sufficient --> <param name="fmt" value="AMBER"/> <conditional name="param_inputs"> <param name="top_in" value="complex.prmtop"/> </conditional> <param name="stripmask_ligand" value="!:RAL"/> <param name="stripmask_receptor" value=":NA,CL,SOL,WAT,RAL"/> <param name="stripmask_complex" value=":NA,CL,SOL,WAT"/> <output name="prmtop_ligand"> <assert_contents> <has_text text=" 61 15"/> <has_text text="%FLAG MASS"/> <has_text text="RAL"/> </assert_contents> </output> <output name="prmtop_receptor"> <assert_contents> <has_text text=" 3880 15"/> <has_text text="%FLAG MASS"/> <has_text text="ALA LEU"/> <not_has_text text="RAL "/> </assert_contents> </output> <output name="prmtop_complex"> <assert_contents> <has_text text=" 3941 15"/> <has_text text="%FLAG MASS"/> <has_text text="ALA LEU"/> <has_text text="RAL"/> </assert_contents> </output> </test> <test> <!--example in this test is from @sbrays' gromacs tests. It has no ligand but is sufficient and will not take extra space in the repo! --> <param name="fmt" value="GROMACS"/> <conditional name="param_inputs"> <param name="top_in" value="topol_solv.top"/> <param name="str_in" value="solv_ions.gro"/> </conditional> <!-- pretending CL is a ligand --> <param name="stripmask_ligand" value="!:CL"/> <param name="stripmask_receptor" value=":NA,CL,SOL,WAT"/> <!-- test a fairly complex selection. All backbone oxygens in residues 1-500 but not in water, lysine or arginine --> <param name="stripmask_solvatedcomplex" value=":1-500@O&!(:WAT|:LYS,ARG)"/> <output name="prmtop_ligand"> <assert_contents> <has_text text=" 8 59"/> <has_text text="%FLAG MASS"/> <has_text text="CL"/> </assert_contents> </output> <output name="prmtop_receptor"> <assert_contents> <has_text text=" 1960 59"/> <has_text text="%FLAG MASS"/> <has_text text="LYS VAL PHE "/> <not_has_text text="CL "/> </assert_contents> </output> <output name="prmtop_solvatedcomplex"> <assert_contents> <has_text text=" 38265 59"/> <has_text text="%FLAG MASS"/> <has_text text="LYS VAL PHE"/> </assert_contents> </output> </test> </tests> <help> <![CDATA[ .. class:: infomark **What it does** This tool converts parameter and topology files that represent a solvated complex into parameter files for the ligand, receptor, complex and solvated complex in AMBER prmtop format. These files are needed for MMPBSA calculations. .. class:: infomark **How it works** AmberTools ParmEd is used to strip unneeded atoms and save out the parameter files. The stripmasks are defined by the user. .. class:: infomark **Outputs created** prmtop files for the ligand, receptor, complex and solvated complex. .. class:: infomark **User guide and documentation** - The `AmberTools Manual`_ - The `Parmed Documentation`_ .. _`AmberTools Manual`: https://ambermd.org/doc12/Amber18.pdf .. _`Parmed Documentation`: https://parmed.github.io/ParmEd/html/index.html ]]> </help> <expand macro="citations"> <citation type="bibtex">@misc{parmed_2020, author = {ParmEd}, title = {ParmEd/ParmEd}, url={https://github.com/ParmEd/ParmEd}, abstract = {Parameter/topology editor and molecular simulator. Contribute to ParmEd/ParmEd development by creating an account on GitHub.}, urldate = {2020-04-03}, publisher = {GitHub}, year = {2020}, month = mar, }</citation> </expand> </tool>