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planemo upload for repository https://github.com/galaxyproteomics/tools-galaxyp/tree/master/tools/msconvert commit dc0103e36b921e9bcb86f9e9a402d8e6b4c47345-dirty
author | galaxyp |
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date | Fri, 08 Apr 2016 15:46:25 -0400 |
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children | b00023193f6e |
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<macros> <xml name="generic_requirements"> <requirements> <requirement type="package" version="3.0.9016">proteowizard</requirement> </requirements> </xml> <token name="@VERSION@">3.0</token> <xml name="msconvertCommand"> <command interpreter="python"> <![CDATA[ #import re #set $ext = $input.ext msconvert_wrapper.py #if $ext == 'wiff': #set basename = 'absciex' #if hasattr($input, 'display_name') #set basename = $re.sub('\W','_',$input.display_name) #end if --input=${input.extra_files_path}/wiff --input_name='${basename}.wiff --implicit=${input.extra_files_path}/wiff_scan --input=${input.extra_files_path}/wiff_scan --input_name='${basename}.wiff.scan #else --input=${input} #if hasattr($input, 'display_name') --input_name='${input.display_name}' #end if #end if --output=${output} ## BEGIN_VERSION_DEFAULT --fromextension=$ext ## END_VERSION_DEFAULT --toextension=${output_type} ## DATA PROCESSING FILTERS (NOTE: FOR VENDOR METHOD TO WORK, PEAK PICKING MUST BE THE FIRST FILTER!) #if $data_processing.precursor_refinement.use_mzrefinement #set $input_ident_name = $re.sub('\W','_',$data_processing.precursor_refinement.input_ident.display_name) #if $data_processing.precursor_refinement.input_ident.ext == 'mzid': #set $input_ident_name = $re.sub('(?i)([.]?mzid)*$','.mzid',$input_ident_name) #elif $data_processing.precursor_refinement.input_ident.ext == 'pepxml': #set $input_ident_name = $re.sub('(?i)([.]?pep[.]?xml)*$','.pep.xml',$input_ident_name) #end if --ident=$data_processing.precursor_refinement.input_ident --ident_name=$input_ident_name --refinement=$output_refinement --filter "mzRefiner $input_ident_name msLevels=$data_processing.precursor_refinement.precursor_refinement_ms_levels thresholdScore=$data_processing.precursor_refinement.thresholdScore thresholdValue=$data_processing.precursor_refinement.thresholdValue thresholdStep=$data_processing.precursor_refinement.thresholdStep maxSteps=$data_processing.precursor_refinement.thresholdMaxSteps" #end if #if $data_processing.peak_picking.pick_peaks --filter "peakPicking $data_processing.peak_picking.pick_peaks_algorithm msLevel=$data_processing.peak_picking.pick_peaks_ms_levels" #end if #if str($data_processing.charge_state_calculation.charge_state_calculation_method) == "predictor" --filter "chargeStatePredictor overrideExistingCharge=$data_processing.charge_state_calculation.predictor_overrideExistingCharge minMultipleCharge=$data_processing.charge_state_calculation.minMultipleCharge maxMultipleCharge=$data_processing.charge_state_calculation.maxMultipleCharge singleChargeFractionTIC=$data_processing.charge_state_calculation.singleChargeFractionTIC maxKnownCharge=$data_processing.charge_state_calculation.maxKnownCharge" #else if str($data_processing.charge_state_calculation.charge_state_calculation_method) == "turbocharger" --filter "turbocharger minCharge=$data_processing.charge_state_calculation.minCharge maxCharge=$data_processing.charge_state_calculation.maxCharge precursorsBefore=$data_processing.charge_state_calculation.precursorsBefore precursorsAfter=$data_processing.charge_state_calculation.precursorsAfter halfIsoWidth=$data_processing.charge_state_calculation.halfIsoWidth defaultMinCharge=$data_processing.charge_state_calculation.defaultMinCharge defaultMaxCharge=$data_processing.charge_state_calculation.defaultMaxCharge" #end if #for threshold_entry in $data_processing.thresholds --filter "threshold $threshold_entry.threshold_type $threshold_entry.value $threshold_entry.orientation" #end for #if $data_processing.filter_mz_windows.do_mzwindow_filter --filter "mzWindow [$data_processing.filter_mz_windows.mz_window_from,$data_processing.filter_mz_windows.mz_window_to]" #end if #if $data_processing.etd_filtering.do_etd_filtering --filter "ETDFilter $data_processing.etd_filtering.remove_precursor $data_processing.etd_filtering.remove_charge_reduced $data_processing.etd_filtering.remove_neutral_loss $data_processing.etd_filtering.blanket_removal $data_processing.etd_filtering.matching_tolerance $data_processing.etd_filtering.matching_tolerance_units" #end if #if $data_processing.ms2denoise.denoise --filter "MS2Denoise $data_processing.ms2denoise.num_peaks $data_processing.ms2denoise.window_width $data_processing.ms2denoise.relax" #end if #if str($data_processing.ms2deisotope) == "true" --filter "MS2Deisotope" #end if ## SCAN INCLUSION/EXCLUSION FILTERS #if str($filtering.activation) != "false" --filter "activation $filtering.activation" #end if #if len($filtering.indices) > 0 --filter "index #for $index in $filtering.indices [${index.from},${index.to}] #end for " #end if #if len($filtering.scan_numbers) > 0 --filter "scanNumber #for $scan_number in $filtering.scan_numbers [${scan_number.from},${scan_number.to}] #end for " #end if #if $filtering.strip_it.value --filter "stripIT" #end if #if $filtering.filter_ms_levels.do_ms_level_filter --filter "msLevel [$filtering.filter_ms_levels.ms_level_from, $filtering.filter_ms_levels.ms_level_to]" #end if #if str($filtering.polarity) != "false" --filter "polarity $filtering.polarity" #end if #if str($filtering.analyzer) != "false" --filter "analyzer $filtering.analyzer" #end if ## OUTPUT ENCODING -- #set $mz_encoding = str($settings.mz_encoding) #set $intensity_encoding = str($settings.intensity_encoding) #if $mz_encoding == $intensity_encoding #if $mz_encoding == "64" --64 #else --32 #end if #else --mz${mz_encoding} --inten${intensity_encoding} #end if #set binary_compression = str($settings.binary_compression) #if $binary_compression == "zlib" --zlib #else if $binary_compression == "numpressLinearPic" --numpressLinear --numpressPic #else if $binary_compression == "numpressLinearSlof" --numpressLinear --numpressSlof #else if $binary_compression == "numpressLinear" --numpressLinear #else if $binary_compression == "numpressPic" --numpressPic #else if $binary_compression == "numpressSlof" --numpressSlof #end if #if $settings.gzip_compression --gzip #end if ]]> </command> </xml> <xml name="msconvertInputParameters"> <param name="output_type" type="select" label="Output Type"> <option value="mz5" selected="true">mz5</option> <option value="mzML">mzML</option> <option value="mzXML">mzXML</option> <option value="mgf">mgf</option> <option value="ms2">ms2</option> </param> <section name="data_processing" title="Data Processing Filters"> <conditional name="peak_picking"> <param type="boolean" name="pick_peaks" label="Apply peak picking?" truevalue="true" falsevalue="false" /> <when value="false" /> <when value="true"> <param name="pick_peaks_ms_levels" type="select" label="Peak Peaking - Apply to MS Levels"> <option value="1">MS1 Only (1)</option> <option value="2">MS2 Only (2)</option> <option value="2-">MS2 and on (2-)</option> <option value="1-" selected="true">All Levels (1-)</option> </param> <param type="select" name="pick_peaks_algorithm" label="Peak Picking - Algorithm" help="The vendor method only works on Agilent, Bruker, Sciex, Thermo data, and only on Windows (although some vendors work on Wine)"> <option value="vendor" selected="true">Prefer vendor algorithm, fallback to local-maximum</option> <option value="cwt">CantWaiT - continuous wavelet transform</option> </param> </when> </conditional> <conditional name="precursor_refinement" title="MZRefinery Precursor Refinement" expanded="true"> <param type="boolean" name="use_mzrefinement" label="Apply m/z refinement with identification data?" truevalue="true" falsevalue="false" checked="False" /> <when value="false"></when> <when value="true"> <param name="input_ident" type="data" format="pepxml,mzid" label="MZRefinery - Input identification data" /> <param name="thresholdScore" type="text" value="mvh" label="MZRefinery - Threshold Score Name" help="E.g. 'mvh' for MyriMatch, 'xcorr' for Sequest, 'specevalue' for MS-GF+" /> <param name="thresholdValue" type="text" value="50-" label="MZRefinery - Threshold Score Value" help="MZRefinery uses peptide-spectrum-matches with scores from this range to build its model. '100-' means score equal to or greater than 100. '-1e-10' means less than or equal to 1e-10." /> <param name="thresholdStep" type="float" value="0" label="MZRefinery - Threshold Score Step" help="If there are not enough quality hits at the given score threshold value, the threshold can be increased by this step (until maxSteps is reached)." /> <param name="thresholdMaxSteps" type="integer" value="0" label="MZRefinery - At most, how many steps to widen the threshold?" /> <param name="precursor_refinement_ms_levels" type="select" label="MZRefinery - Apply to MS Levels"> <option value="1">MS1 Only (1)</option> <option value="2">MS2 Only (2)</option> <option value="2-">MS2 and on (2-)</option> <option value="1-" selected="true">All Levels (1-)</option> </param> </when> </conditional> <conditional name="charge_state_calculation"> <param name="charge_state_calculation_method" type="select" label="(Re-)calculate charge states?"> <option value="false">no</option> <option value="predictor">Based on how much intensity is above vs. below the precursor m/z in the MS/MS scan</option> <option value="turbocharger">Based on isotopic distribution of the precursor in nearby survey scans</option> </param> <when value="false" /> <when value="predictor"> <param name="predictor_overrideExistingCharge" type="boolean" label="Always override existing charge?" value="false" /> <param name="minMultipleCharge" type="integer" label="Minimum multiple charge state" value="2" /> <param name="maxMultipleCharge" type="integer" label="Maximum multiple charge state" value="3" /> <param name="singleChargeFractionTIC" type="float" label="Fraction of intensity below the precursor to be considered singly charged" max="1" min="0" value="0.9" /> <param name="maxKnownCharge" type="integer" label="Maximum charge allowed for "known" charges" help="This is applied even when not overriding existing charges (i.e. it overrides only obviously bogus charge states)" value="0" /> </when> <when value="turbocharger"> <param name="minCharge" type="integer" label="Minimum possible charge state" value="1" min="1" help="Charge states lower than this will not be considered." /> <param name="maxCharge" type="integer" label="Maximum possible charge state" value="8" min="2" help="Charge states greater than this will not be considered." /> <param name="precursorsBefore" type="integer" label="Number of preceding survey scans to check for precursor isotopes" value="2" min="1" /> <param name="precursorsAfter" type="integer" label="Number of succeeding survey scans to check for precursor isotopes" value="0" min="0" /> <param name="halfIsoWidth" type="float" label="Half-width of isolation window" min="0.0001" value="1.25" /> <param name="defaultMinCharge" type="integer" label="Minimum possible charge state to apply if no isotope is found" value="0" /> <param name="defaultMaxCharge" type="integer" label="Maximum possible charge state to apply if no isotope is found" value="0" /> </when> </conditional> <repeat name="thresholds" title="Filter by Threshold"> <param type="select" label="Specify threshold on" name="threshold_type" help=""> <option value="count">Peak count</option> <option value="count-after-ties">Peak count (after ties)</option> <option value="absolute">Peak absolute intensity</option> <option value="bpi-relative">Fraction of base peak intensity</option> <option value="tic-relative">Fraction of total ion current</option> <option value="tic-fraction">Aggregate fraction of total ion current</option> </param> <param type="float" name="value" label="Threshold" value="1" help="For count methods, this is the number of peaks to keep. For the absolute method, this is the raw intensity above/below which peak will be accepted. For the "Aggregated fraction" method, peaks are accepted until this fraction of the TIC is accounted for." /> <param type="select" label="Keep" name="orientation"> <option value="most-intense">Most intense peaks</option> <option value="least-intense">Least intense peaks</option> </param> </repeat> <conditional name="filter_mz_windows"> <param name="do_mzwindow_filter" type="boolean" truevalue="true" falsevalue="false" label="Filter m/z Window" help="" /> <when value="false" /> <when value="true"> <param name="mz_window_from" type="float" label="Filter m/z From" value="0.0" optional="false" /> <param name="mz_window_to" type="float" label="Filter m/z To" value="0.0" optional="true" /> </when> </conditional> <conditional name="etd_filtering"> <param type="boolean" name="do_etd_filtering" label="Filter out ETD precursor peaks?" truevalue="true" falsevalue="false" /> <when value="false" /> <when value="true"> <param name="remove_precursor" type="select" label="ETD Remove Unreacted Precursor"> <option value="true" selected="true">yes</option> <option value="false">no</option> </param> <param name="remove_charge_reduced" type="select" label="ETD Remove Charge Reduced Precursors"> <option value="true" selected="true">yes</option> <option value="false">no</option> </param> <param name="remove_neutral_loss" type="select" label="ETD Remove Neutral Losses" help="Remove neutral loss species from nominal and charge reduced precursors"> <option value="true" selected="true">yes</option> <option value="false">no</option> </param> <param name="blanket_removal" type="select" label="ETD Blanket Removal of Neutral Losses" help="Remove neutral losses in a charge-scaled 60 Da swath (rather than only around known loss species)"> <option value="true" selected="true">yes</option> <option value="false">no</option> </param> <param name="matching_tolerance" type="float" label="ETD Matching Tolerance" value="3.1" /> <param name="matching_tolerance_units" type="select" label="Units for ETD Matching Tolerance"> <option value="MZ" selected="true">mz</option> <option value="PPM">ppm</option> </param> </when> </conditional> <conditional name="ms2denoise"> <param name="denoise" type="boolean" label="De-noise MS2 with moving window filter" /> <when value="true"> <param name="num_peaks" label="De-noise: Number of peaks in window" value="6" type="integer" /> <param name="window_width" type="float" label="De-noise: Window width (Daltons)" value="30" /> <param name="relax" label="De-noise: Multicharge fragment relaxation" checked="true" type="boolean" truevalue="true" falsevalue="false" /> </when> <when value="false" /> </conditional> <param name="ms2deisotope" type="boolean" label="Deisotope MS2 using Markey method" help="" truevalue="true" falsevalue="false" /> </section> <section name="filtering" title="Scan Inclusion/Exclusion Filters"> <param name="activation" type="select" label="Filter by Activation"> <option value="false" selected="true">no</option> <option value="ETD">ETD</option> <option value="CID">CID</option> <option value="SA">SA</option> <option value="HCD">HCD</option> <option>BIRD</option> <option>ECD</option> <option>IRMPD</option> <option>PD</option> <option>PSD</option> <option>PQD</option> <option>SID</option> <option>SORI</option> </param> <repeat name="indices" title="Filter Scan Indices"> <param name="from" type="integer" label="Filter Scan Index From" value="0" optional="false" /> <param name="to" type="integer" label="Filter Scan Index To" value="0" optional="true" /> </repeat> <repeat name="scan_numbers" title="Filter Scan Numbers"> <param name="from" type="integer" label="Filter Scan Number From" value="0" optional="false" /> <param name="to" type="integer" label="Filter Scan Number To" value="0" optional="true" /> </repeat> <param type="boolean" name="strip_it" label="Strip Ion Trap MS1 Scans" /> <conditional name="filter_ms_levels"> <param name="do_ms_level_filter" type="boolean" label="Filter MS Levels" /> <when value="false" /> <when value="true"> <param name="ms_level_from" type="integer" label="Filter MS Level From" value="0" optional="false" /> <param name="ms_level_to" type="integer" label="Filter MS Level To" value="0" optional="true" /> </when> </conditional> <param name="polarity" type="select" label="Filter by Polarity"> <option value="false" selected="true">no</option> <option value="positive">positive</option> <option value="negative">negative</option> </param> <param name="analyzer" type="select" label="Filter by Analyzer"> <option value="false" selected="true">no</option> <option value="quad">Quadrupole</option> <option value="orbi">Orbitrap</option> <option value="FT">Fourier-transform</option> <option value="IT">Ion trap</option> <option value="TOF">Time of flight</option> </param> </section> <section name="settings" title="Output Encoding Settings"> <param type="select" name="mz_encoding" label="m/z Encoding Precision"> <option value="64" selected="true">64</option> <option value="32">32</option> </param> <param type="select" name="intensity_encoding" label="Intensity Encoding Precision"> <option value="64">64</option> <option value="32" selected="true">32</option> </param> <param type="select" name="binary_compression" label="Binary data compression"> <option value="false">None</option> <option value="zlib" selected="true">zlib</option> <option value="numpressLinearPic">numpressLinear/numpressPic</option> <option value="numpressLinearSlof">numpressLinear/numpressSlof</option> <option value="numpressLinear">numpressLinear only</option> <option value="numpressPic">numpressPic only</option> <option value="numpressSlof">numpressSlof only</option> </param> <param type="boolean" name="gzip_compression" label="Compress output file with gzip" truevalue="true" falsevalue="false" /> </section> </xml> <xml name="msconvertOutput"> <outputs> <data format="mzml" name="output" label="${input.name.rsplit('.',1)[0]}.${output_type}" > <change_format> <when input="output_type" value="mz5" format="mz5" /> <when input="output_type" value="mzXML" format="mzxml" /> <when input="output_type" value="ms2" format="ms2" /> <when input="output_type" value="mgf" format="mgf" /> </change_format> </data> <data format="csv" name="output_refinement" label="${input.name.rsplit('.',1)[0]}.mzRefinement.tsv"> <filter>data_processing['precursor_refinement']['use_mzrefinement'] == True</filter> </data> </outputs> </xml> <xml name="msconvert_tests"> <test> <param name="input" value="small.mzML" /> <param name="output_type" value="mzML" /> <param name="pick_peaks" value="true" /> <param name="pick_peaks_algorithm" value="cwt" /> <param name="pick_peaks_ms_levels" value="1-" /> <output name="output" file="small-peakpicking-cwt-allMS.mzML" /> </test> <!-- this data file only has profile MS1, so the result is the same --> <test> <param name="input" value="small.mzML" /> <param name="output_type" value="mzML" /> <param name="pick_peaks" value="true" /> <param name="pick_peaks_algorithm" value="cwt" /> <param name="pick_peaks_ms_levels" value="1" /> <output name="output" file="small-peakpicking-cwt-allMS.mzML" /> </test> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mz5" /> <param name="mz_encoding" value="64" /> <param name="intensity_encoding" value="64" /> <output name="output" file="small-zlib-64.mz5" compare="sim_size" delta="100" /> </test> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzXML" /> <param name="mz_encoding" value="32" /> <param name="intensity_encoding" value="32" /> <output name="output" file="small-zlib-32.mzXML" /> </test> <!-- TODO: how to test gzipped output? <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzXML" /> <param name="mz_encoding" value="32" /> <param name="intensity_encoding" value="32" /> <param name="binary_compression" value="false" /> <param name="gzip_compression" value="true" /> <output name="output" file="small-off-32.mzXML.gz" compare="sim_size" delta="100" /> </test> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzML" /> <param name="mz_encoding" value="32" /> <param name="intensity_encoding" value="32" /> <param name="binary_compression" value="false" /> <param name="gzip_compression" value="true" /> <output name="output" file="small-off-32.mzML.gz" compare="sim_size" delta="100" /> </test>--> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzML" /> <param name="binary_compression" value="numpressLinearPic" /> <output name="output" file="small-numpressLP.mzML" /> </test> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzML" /> <param name="binary_compression" value="numpressLinearSlof" /> <output name="output" file="small-numpressLS.mzML" /> </test> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzML" /> <param name="binary_compression" value="numpressLinear" /> <output name="output" file="small-numpressL.mzML" /> </test> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzML" /> <param name="binary_compression" value="numpressPic" /> <output name="output" file="small-numpressP.mzML" /> </test> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzML" /> <param name="binary_compression" value="numpressSlof" /> <output name="output" file="small-numpressS.mzML" /> </test> <test> <param name="input" value="Rpal_01.mz5" /> <param name="output_type" value="mzML" /> <param name="binary_compression" value="numpressLinearPic" /> <param name="use_mzrefinement" value="true" /> <param name="input_ident" value="Rpal_01.pepXML.gz" /> <param name="thresholdScore" value="mvh" /> <param name="thresholdValue" value="40-" /> <output name="output" file="Rpal_01-mzRefinement.mzML" compare="sim_size" delta="0" /> <output name="output.refinement" file="Rpal_01.pepXML.mzRefinement.tsv" /> </test> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzML" /> <param name="binary_compression" value="numpressLinearPic" /> <param name="charge_state_calculation_method" value="predictor" /> <param name="predictor_overrideExistingCharge" value="true" /> <param name="minMultipleCharge" value="2" /> <param name="maxMultipleCharge" value="5" /> <param name="singleChargeFractionTIC" value="0.95" /> <param name="maxKnownCharge" value="8" /> <output name="output" file="small-chargeStatePredictor.mzML" /> </test> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzML" /> <param name="binary_compression" value="numpressLinearPic" /> <param name="charge_state_calculation_method" value="turbocharger" /> <param name="minCharge" value="1" /> <param name="maxCharge" value="5" /> <param name="precursorsBefore" value="1" /> <param name="precursorsAfter" value="1" /> <param name="halfIsoWidth" value="1.5" /> <param name="defaultMinCharge" value="1" /> <param name="defaultMaxCharge" value="5" /> <output name="output" file="small-turbocharger.mzML" /> </test> <test> <param name="input" value="D100930_yeast_SCX10S_rak_ft8E_pc_01.mz5" /> <param name="output_type" value="mzML" /> <param name="do_etd_filtering" value="true" /> <param name="remove_precursor" value="true" /> <param name="remove_charge_reduced" value="true" /> <param name="remove_neutral_loss" value="false" /> <param name="blanket_removal" value="false" /> <param name="matching_tolerance" value="50" /> <param name="matching_tolerance_units" value="ppm" /> <param name="binary_compression" value="numpressLinearPic" /> <output name="output" file="D100930_yeast_SCX10S_rak_ft8E_pc_01-etdfilter.mzML" /> </test> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzML" /> <param name="thresholds_0|threshold_type" value="count" /> <param name="thresholds_0|value" value="100" /> <param name="thresholds_0|orientation" value="most-intense" /> <param name="thresholds_1|threshold_type" value="absolute" /> <param name="thresholds_1|value" value="1" /> <param name="thresholds_1|orientation" value="most-intense" /> <param name="binary_compression" value="numpressLinearPic" /> <output name="output" file="small-threshold.mzML" /> </test> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzML" /> <param name="do_mzwindow_filter" value="true" /> <param name="mz_window_from" value="420" /> <param name="mz_window_to" value="840" /> <param name="binary_compression" value="numpressLinearPic" /> <output name="output" file="small-mzWindow.mzML" /> </test> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzML" /> <param name="denoise" value="true" /> <param name="num_peaks" value="10" /> <param name="window_width" value="40" /> <param name="relax" value="false" /> <param name="binary_compression" value="numpressLinearPic" /> <output name="output" file="small-denoise.mzML" /> </test> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzML" /> <param name="ms2deisotope" value="true" /> <param name="binary_compression" value="numpressLinearPic" /> <output name="output" file="small-deisotope.mzML" /> </test> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzML" /> <param name="activation" value="CID" /> <param name="binary_compression" value="numpressLinearPic" /> <output name="output" file="small-activation.mzML" /> </test> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzML" /> <param name="indices_0|from" value="2" /> <param name="indices_0|to" value="4" /> <param name="indices_1|from" value="10" /> <param name="indices_1|to" value="10" /> <param name="indices_2|from" value="13" /> <param name="indices_2|to" value="15" /> <param name="binary_compression" value="numpressLinearPic" /> <output name="output" file="small-index-filter.mzML" /> </test> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzML" /> <param name="strip_it" value="true" /> <param name="binary_compression" value="numpressLinearPic" /> <output name="output" file="small-strip-it.mzML" /> </test> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzML" /> <param name="do_ms_level_filter" value="true" /> <param name="ms_level_from" value="2" /> <param name="ms_level_to" value="2" /> <param name="binary_compression" value="numpressLinearPic" /> <output name="output" file="small-ms-level-filter.mzML" /> </test> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzML" /> <param name="polarity" value="positive" /> <param name="binary_compression" value="numpressLinearPic" /> <output name="output" file="small-polarity-filter.mzML" /> </test> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzML" /> <param name="analyzer" value="IT" /> <param name="binary_compression" value="numpressLinearPic" /> <output name="output" file="small-analyzer-filter.mzML" /> </test> <test> <param name="input" value="small-peakpicking-cwt-allMS.mzML" /> <param name="output_type" value="mzML" /> <param name="scan_numbers_0|from" value="3" /> <param name="scan_numbers_0|to" value="5" /> <param name="scan_numbers_1|from" value="11" /> <param name="scan_numbers_1|to" value="11" /> <param name="scan_numbers_2|from" value="14" /> <param name="scan_numbers_2|to" value="16" /> <param name="binary_compression" value="numpressLinearPic" /> <output name="output" file="small-index-filter.mzML" /> <!-- the scan numbers here produce the same output as the index test above --> </test> <!--<test> <param name="input" value="small.mzML" /> <param name="output_type" value="mzML" /> <param name="binary_compression" value="numpressLinearPic" /> <output name="output" file="small-deisotope-poisson.mzML" /> </test>--> </xml> <xml name="msconvert_help"> **What it does** Allows interconversion within various mass spectrometry peak list formats. Additional options such as filtering and/or precursor recalculation are available. You can view the original documentation here_. .. _here: http://proteowizard.sourceforge.net/tools/msconvert.html </xml> <xml name="citations"> <citations> <citation type="doi">10.1093/bioinformatics/btn323</citation> <citation type="bibtex">@misc{toolsGalaxyP, author = {Chilton, J, Chambers MC, et al.}, title = {Galaxy Proteomics Tools}, publisher = {GitHub}, journal = {GitHub repository}, year = {2015}, url = {https://github.com/galaxyproteomics/tools-galaxyp}}</citation> <!-- TODO: fix substitution of commit ", commit = {$sha1$}" --> </citations> </xml> </macros>