Mercurial > repos > galaxyp > openms_idmassaccuracy
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planemo upload for repository https://github.com/galaxyproteomics/tools-galaxyp/tree/master/tools/openms commit 5c080b1e2b99f1c88f4557e9fec8c45c9d23b906
| author | galaxyp |
|---|---|
| date | Fri, 14 Jun 2024 21:31:46 +0000 |
| parents | 585f8235da7e |
| children |
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<!--This is a configuration file for the integration of a tools into Galaxy (https://galaxyproject.org/). This file was automatically generated using CTDConverter.--> <!--Proposed Tool Section: [Identification Processing]--> <tool id="IDMassAccuracy" name="IDMassAccuracy" version="@TOOL_VERSION@+galaxy@VERSION_SUFFIX@" profile="21.05"> <description>Calculates a distribution of the mass error from given mass spectra and IDs</description> <macros> <token name="@EXECUTABLE@">IDMassAccuracy</token> <import>macros.xml</import> </macros> <expand macro="requirements"/> <expand macro="stdio"/> <command detect_errors="exit_code"><![CDATA[@QUOTE_FOO@ @EXT_FOO@ #import re ## Preprocessing mkdir in_cond.in && #if $in_cond.in_select == "no" mkdir ${' '.join(["'in_cond.in/%s'" % (i) for i, f in enumerate($in_cond.in) if f])} && ${' '.join(["cp '%s' 'in_cond.in/%s/%s.%s' && " % (f, i, re.sub('[^\w\-_]', '_', f.element_identifier), $gxy2omsext(f.ext)) for i, f in enumerate($in_cond.in) if f])} #else cp '$in_cond.in' 'in_cond.in/${re.sub("[^\w\-_]", "_", $in_cond.in.element_identifier)}.$gxy2omsext($in_cond.in.ext)' && #end if mkdir id_in_cond.id_in && #if $id_in_cond.id_in_select == "no" mkdir ${' '.join(["'id_in_cond.id_in/%s'" % (i) for i, f in enumerate($id_in_cond.id_in) if f])} && ${' '.join(["cp '%s' 'id_in_cond.id_in/%s/%s.%s' && " % (f, i, re.sub('[^\w\-_]', '_', f.element_identifier), $gxy2omsext(f.ext)) for i, f in enumerate($id_in_cond.id_in) if f])} #else cp '$id_in_cond.id_in' 'id_in_cond.id_in/${re.sub("[^\w\-_]", "_", $id_in_cond.id_in.element_identifier)}.$gxy2omsext($id_in_cond.id_in.ext)' && #end if #if "out_precursor_FLAG" in str($OPTIONAL_OUTPUTS).split(',') mkdir out_precursor && #end if #if "out_fragment_FLAG" in str($OPTIONAL_OUTPUTS).split(',') mkdir out_fragment && #end if #if "out_precursor_fit_FLAG" in str($OPTIONAL_OUTPUTS).split(',') mkdir out_precursor_fit && #end if #if "out_fragment_fit_FLAG" in str($OPTIONAL_OUTPUTS).split(',') mkdir out_fragment_fit && #end if ## Main program call set -o pipefail && @EXECUTABLE@ -write_ctd ./ && python3 '$__tool_directory__/fill_ctd.py' '@EXECUTABLE@.ctd' '$args_json' '$hardcoded_json' && @EXECUTABLE@ -ini @EXECUTABLE@.ctd -in #if $in_cond.in_select == "no" ${' '.join(["'in_cond.in/%s/%s.%s'"%(i, re.sub('[^\w\-_]', '_', f.element_identifier), $gxy2omsext(f.ext)) for i, f in enumerate($in_cond.in) if f])} #else 'in_cond.in/${re.sub("[^\w\-_]", "_", $in_cond.in.element_identifier)}.$gxy2omsext($in_cond.in.ext)' #end if -id_in #if $id_in_cond.id_in_select == "no" ${' '.join(["'id_in_cond.id_in/%s/%s.%s'"%(i, re.sub('[^\w\-_]', '_', f.element_identifier), $gxy2omsext(f.ext)) for i, f in enumerate($id_in_cond.id_in) if f])} #else 'id_in_cond.id_in/${re.sub("[^\w\-_]", "_", $id_in_cond.id_in.element_identifier)}.$gxy2omsext($id_in_cond.id_in.ext)' #end if #if "out_precursor_FLAG" in str($OPTIONAL_OUTPUTS).split(',') -out_precursor 'out_precursor/output.${gxy2omsext("tabular")}' #end if #if "out_fragment_FLAG" in str($OPTIONAL_OUTPUTS).split(',') -out_fragment 'out_fragment/output.${gxy2omsext("tabular")}' #end if #if "out_precursor_fit_FLAG" in str($OPTIONAL_OUTPUTS).split(',') -out_precursor_fit 'out_precursor_fit/output.${gxy2omsext("tabular")}' #end if #if "out_fragment_fit_FLAG" in str($OPTIONAL_OUTPUTS).split(',') -out_fragment_fit 'out_fragment_fit/output.${gxy2omsext("tabular")}' #end if #if len(str($OPTIONAL_OUTPUTS).split(',')) == 0 | tee '$stdout' #end if ## Postprocessing #if "out_precursor_FLAG" in str($OPTIONAL_OUTPUTS).split(',') && mv 'out_precursor/output.${gxy2omsext("tabular")}' '$out_precursor' #end if #if "out_fragment_FLAG" in str($OPTIONAL_OUTPUTS).split(',') && mv 'out_fragment/output.${gxy2omsext("tabular")}' '$out_fragment' #end if #if "out_precursor_fit_FLAG" in str($OPTIONAL_OUTPUTS).split(',') && mv 'out_precursor_fit/output.${gxy2omsext("tabular")}' '$out_precursor_fit' #end if #if "out_fragment_fit_FLAG" in str($OPTIONAL_OUTPUTS).split(',') && mv 'out_fragment_fit/output.${gxy2omsext("tabular")}' '$out_fragment_fit' #end if #if "ctd_out_FLAG" in $OPTIONAL_OUTPUTS && mv '@EXECUTABLE@.ctd' '$ctd_out' #end if]]></command> <configfiles> <inputs name="args_json" data_style="paths"/> <configfile name="hardcoded_json"><![CDATA[{"log": "log.txt", "threads": "\${GALAXY_SLOTS:-1}", "no_progress": true}]]></configfile> </configfiles> <inputs> <conditional name="in_cond"> <param name="in_select" type="select" label="Run tool in batch mode for -in"> <option value="no">No: process all datasets jointly</option> <option value="yes">Yes: process each dataset in an independent job</option> </param> <when value="no"> <param argument="-in" type="data" format="mzml" multiple="true" label="Input mzML file list, containing the spectra" help=" select mzml data sets(s)"/> </when> <when value="yes"> <param argument="-in" type="data" format="mzml" label="Input mzML file list, containing the spectra" help=" select mzml data sets(s)"/> </when> </conditional> <conditional name="id_in_cond"> <param name="id_in_select" type="select" label="Run tool in batch mode for -id_in"> <option value="no">No: process all datasets jointly</option> <option value="yes">Yes: process each dataset in an independent job</option> </param> <when value="no"> <param argument="-id_in" type="data" format="idxml" multiple="true" label="Input idXML file list, containing the identifications" help=" select idxml data sets(s)"/> </when> <when value="yes"> <param argument="-id_in" type="data" format="idxml" label="Input idXML file list, containing the identifications" help=" select idxml data sets(s)"/> </when> </conditional> <param argument="-precursor_error_ppm" type="boolean" truevalue="true" falsevalue="false" checked="false" label="If this flag is used, the precursor mass tolerances are estimated in ppm instead of Da" help=""/> <param argument="-fragment_error_ppm" type="boolean" truevalue="true" falsevalue="false" checked="false" label="If this flag is used, the fragment mass tolerances are estimated in ppm instead of Da" help=""/> <param argument="-fragment_mass_tolerance" type="float" value="0.5" label="Maximal fragment mass tolerance which is allowed for MS/MS spectra, used for the calculation of matching ions" help=""/> <expand macro="adv_opts_macro"> <param argument="-number_of_bins" type="integer" min="10" value="100" label="Number of bins that should be used to calculate the histograms for the fitting" help=""/> <param argument="-force" type="boolean" truevalue="true" falsevalue="false" checked="false" label="Overrides tool-specific checks" help=""/> <param argument="-test" type="hidden" value="False" label="Enables the test mode (needed for internal use only)" help="" optional="true"> <expand macro="list_string_san" name="test"/> </param> </expand> <param name="OPTIONAL_OUTPUTS" type="select" optional="true" multiple="true" label="Optional outputs"> <option value="out_precursor_FLAG">out_precursor (Output file which contains the deviations from the precursors)</option> <option value="out_fragment_FLAG">out_fragment (Output file which contains the fragment ion m/z deviations)</option> <option value="out_precursor_fit_FLAG">out_precursor_fit (Gaussian fit to the histogram of mass deviations from the precursors)</option> <option value="out_fragment_fit_FLAG">out_fragment_fit (Gaussian fit to the histogram of mass deviations from the fragments)</option> <option value="ctd_out_FLAG">Output used ctd (ini) configuration file</option> </param> </inputs> <outputs> <data name="out_precursor" label="${tool.name} on ${on_string}: out_precursor" format="tabular"> <filter>OPTIONAL_OUTPUTS is not None and "out_precursor_FLAG" in OPTIONAL_OUTPUTS</filter> </data> <data name="out_fragment" label="${tool.name} on ${on_string}: out_fragment" format="tabular"> <filter>OPTIONAL_OUTPUTS is not None and "out_fragment_FLAG" in OPTIONAL_OUTPUTS</filter> </data> <data name="out_precursor_fit" label="${tool.name} on ${on_string}: out_precursor_fit" format="tabular"> <filter>OPTIONAL_OUTPUTS is not None and "out_precursor_fit_FLAG" in OPTIONAL_OUTPUTS</filter> </data> <data name="out_fragment_fit" label="${tool.name} on ${on_string}: out_fragment_fit" format="tabular"> <filter>OPTIONAL_OUTPUTS is not None and "out_fragment_fit_FLAG" in OPTIONAL_OUTPUTS</filter> </data> <data name="stdout" format="txt" label="${tool.name} on ${on_string}: stdout"> <filter>OPTIONAL_OUTPUTS is None</filter> </data> <data name="ctd_out" format="xml" label="${tool.name} on ${on_string}: ctd"> <filter>OPTIONAL_OUTPUTS is not None and "ctd_out_FLAG" in OPTIONAL_OUTPUTS</filter> </data> </outputs> <tests> <!-- TOPP_IDMassAccuracy_1 --> <test expect_num_outputs="5"> <section name="adv_opts"> <param name="number_of_bins" value="10"/> <param name="force" value="false"/> <param name="test" value="true"/> </section> <conditional name="in_cond"> <param name="in" value="spectra.mzML"/> </conditional> <conditional name="id_in_cond"> <param name="id_in" value="MSGFPlusAdapter_1_out.idXML"/> </conditional> <output name="out_precursor" value="IDMassAccuracy_1_out_precursor.tsv" compare="sim_size" delta_frac="0.7" ftype="tabular"/> <param name="precursor_error_ppm" value="false"/> <output name="out_fragment" value="IDMassAccuracy_1_out_fragment.tsv" compare="sim_size" delta_frac="0.7" ftype="tabular"/> <param name="fragment_error_ppm" value="false"/> <param name="fragment_mass_tolerance" value="0.5"/> <output name="out_precursor_fit" value="IDMassAccuracy_1_out_precursor_fit.tsv" compare="sim_size" delta_frac="0.7" ftype="tabular"/> <output name="out_fragment_fit" value="IDMassAccuracy_1_out_fragment_fit.tsv" compare="sim_size" delta_frac="0.7" ftype="tabular"/> <param name="OPTIONAL_OUTPUTS" value="ctd_out_FLAG,out_precursor_FLAG,out_fragment_FLAG,out_precursor_fit_FLAG,out_fragment_fit_FLAG"/> <output name="ctd_out" ftype="xml"> <assert_contents> <is_valid_xml/> </assert_contents> </output> <assert_stdout> <has_text_matching expression="@EXECUTABLE@ took .* \(wall\), .* \(CPU\), .* \(system\), .* \(user\)(; Peak Memory Usage: 32 MB)?."/> </assert_stdout> </test> </tests> <help><![CDATA[Calculates a distribution of the mass error from given mass spectra and IDs. For more information, visit https://openms.de/doxygen/release/3.1.0/html/TOPP_IDMassAccuracy.html]]></help> <expand macro="references"/> </tool>