Mercurial > repos > bimib > cobraxy
view COBRAxy/flux_to_map.xml @ 178:824b1ecc29db draft
Uploaded
| author | francesco_lapi |
|---|---|
| date | Wed, 20 Nov 2024 14:59:42 +0000 |
| parents | d717f69d460e |
| children | f9deb464e6a6 |
line wrap: on
line source
<tool id="FluxToMap" name="Metabolic Flux Enrichment Analysis" version="2.0.0"> <macros> <import>marea_macros.xml</import> </macros> <requirements> <requirement type="package" version="1.24.4">numpy</requirement> <requirement type="package" version="2.0.3">pandas</requirement> <requirement type="package" version="0.13.0">seaborn</requirement> <requirement type="package" version="1.10.1">scipy</requirement> <requirement type="package" version="1.5.1">svglib</requirement> <requirement type="package" version="2.2.3">pyvips</requirement> <requirement type="package" version="2.7.1">cairosvg</requirement> <requirement type="package" version="0.29.0">cobra</requirement> <requirement type="package" version="5.2.2">lxml</requirement> </requirements> <command detect_errors="exit_code"> <![CDATA[ python $__tool_directory__/flux_to_map.py --tool_dir $__tool_directory__ --option $cond.type_selector --out_log $log --color_map $color_map #if $cond.type_selector == 'datasets': --input_datas_fluxes #for $data in $cond.input_datasets_fluxes: ${data.input_fluxes} #end for --names_fluxes #for $data in $cond.input_datasets_fluxes: ${data.input_name_fluxes} #end for #elif $cond.type_selector == 'dataset_class': --input_data_fluxes $input_data_fluxes --input_class_fluxes $input_class_fluxes #end if --comparison ${comparis.comparison} #if $comparis.comparison == 'onevsmany' --control '${cond.comparis.controlgroup}' #end if --choice_map '${cond_choice_map.choice_map}' #if $cond_choice_map.choice_map == 'Custom': --custom_map ${cond_choice_map.custom_map} #end if #if $advanced.choice == 'true': --pValue ${advanced.pValue} --fChange ${advanced.fChange} --generate_svg ${advanced.generateSvg} --generate_pdf ${advanced.generatePdf} #else --pValue 0.05 --fChange 1.2 --generate_svg false --generate_pdf true #end if ]]> </command> <inputs> <conditional name="cond"> <param name="type_selector" argument="--option" type="select" label="Input format:"> <option value="datasets" selected="true">Fluxes of group 1 + Fluxes of group 2 + ... + Fluxes of group N</option> <option value="dataset_class">All fluxes + sample group specification</option> </param> <when value="datasets"> <repeat name="input_datasets_fluxes" title="Fluxes dataset" min="2"> <param name="input_fluxes" argument="--input_datas_fluxes" type="data" format="tabular, csv, tsv" label="add dataset" /> <param name="input_name_fluxes" argument="--names_fluxes" type="text" label="Dataset's name:" value="Dataset" help="Default: Dataset" /> </repeat> </when> <when value="dataset_class"> <param name="input_data_fluxes" argument="--input_data_fluxes" type="data" format="tabular, csv, tsv" label="All fluxes" /> <param name="input_class_fluxes" argument="--input_class_fluxes" type="data" format="tabular, csv, tsv" label="Sample group specification" /> </when> </conditional> <conditional name="comparis"> <param name="comparison" argument="--comparison" type="select" label="Groups comparison:"> <option value="manyvsmany" selected="true">One vs One</option> <option value="onevsrest">One vs All</option> <option value="onevsmany">One vs Control</option> </param> <when value="onevsmany"> <param name="controlgroup" argument="--controlgroup" type="text" label="Control group label:" value="0" help="Name of group label to be compared to others"/> </when> </conditional> <conditional name="cond_choice_map"> <param name="choice_map" argument="--choice_map" type="select" label="Choose metabolic map:"> <option value="ENGRO2" selected="true">ENGRO2</option> <option value="HMRcore" >HMRcore</option> <option value="Custom">Custom</option> </param> <when value="Custom"> <param name="custom_map" argument="--custom_map" type="data" format="xml, svg" label="custom-map.svg"/> </when> </conditional> <param name="color_map" argument="--color_map" type="select" label="Color map:"> <option value="viridis" selected="true">Viridis</option> <option value="jet">Jet</option> </param> <conditional name="advanced"> <param name="choice" type="boolean" checked="false" label="Use advanced options?" help="Use this options to choose custom parameters for evaluation: pValue, Fold-Change threshold, how to solve (A and NaN) and specify output maps."> <option value="true" selected="true">No</option> <option value="false">Yes</option> </param> <when value="true"> <param name="pValue" argument="--pValue" type="float" size="20" value="0.05" max="1" min="0" label="P-value threshold:" help="min value 0" /> <param name="fChange" argument="--fChange" type="float" size="20" value="1.2" min="1" label="Fold-Change threshold:" help="min value 1" /> <param name="generateSvg" argument="--generateSvg" type="boolean" checked="false" label="Generate SVG map" help="should the program generate an editable svg map of the processes?" /> <param name="generatePdf" argument="--generatePdf" type="boolean" checked="true" label="Generate PDF map" help="should the program return a non editable (but displayble) pdf map of the processes?" /> </when> </conditional> </inputs> <outputs> <data format="txt" name="log" label="FluxToMap - Log" /> <collection name="results" type="list" label="FluxToMap - Results"> <discover_datasets pattern="__name_and_ext__" directory="result"/> </collection> </outputs> <help> <![CDATA[ What it does ------------- This tool analyzes and visualizes differences in reactions fluxes of groups of samples, returned by the Flux Simulation tool, of groups of samples. Accepted files are: - option 1) two or more fluxes datasets, each referring to samples in a given group. The user can specify a label for each group; - option 2) one fluxes dataset and one group-file specifying the group each sample belongs to (e.g. the accepted group file is thought to be the one returned by the Clustering tool). Optional files: - custom svg map. Graphical elements must have the same IDs of reactions. See HmrCore svg map for an example. The tool generates: - A tab-separated file: reporting fold-change and p-values of fluxes between a pair of conditions/classes; - A metabolic map file (downloadable as .svg and .png): visualizing up- and down-regulated reactions between a pair of conditions/classes; - Two metabolic maps to visualize the mean and median fluxes normalized amongst all classes. The associated color map is also generated (absolute ranges); - A log file (.txt). Output options: - To calculate P-Values and Fold-Changes and to enrich maps, comparisons are performed for each possible pair of groups (default option ‘One vs One’). Alternative options are: - comparison of each group vs. the rest of samples (option ‘One vs Rest’) - comparison of each group vs. a control group (option ‘One vs Control). If this option is selected the user must indicate the control group label. Output files will be named as classA_vs_classB. Reactions will conventionally be reported as up-regulated (down-regulated) if they are significantly more (less) active in class having label "classA". Example input ------------- "Fluxes of group 1 + Fluxes of group 2 + ... + Fluxes of group N" option: Fluxes Dataset 1: +------------+----------------+----------------+----------------+ | Reaction ID| TCGAA62670 | TCGAA62671 | TCGAA62672 | +============+================+================+================+ | r1642 | 0.523167 | 0.371355 | 0.925661 | +------------+----------------+----------------+----------------+ | r1643 | 0.568765 | 0.765567 | 0.456789 | +------------+----------------+----------------+----------------+ | r1640 | 0.876545 | 0.768933 | 0.987654 | +------------+----------------+----------------+----------------+ | r1641 | 0.456788 | 0.876543 | 0.876542 | +------------+----------------+----------------+----------------+ | r1646 | 0.876543 | 0.786543 | 0.897654 | +------------+----------------+----------------+----------------+ Fluxes Dataset 2: +------------+----------------+----------------+----------------+ | Reaction ID| TCGAA62670 | TCGAA62671 | TCGAA62672 | +============+================+================+================+ | r1642 | 0.523167 | 0.371355 | 0.925661 | +------------+----------------+----------------+----------------+ | r1643 | 0.568765 | 0.765567 | 0.456789 | +------------+----------------+----------------+----------------+ | r1640 | 0.876545 | 0.768933 | 0.987654 | +------------+----------------+----------------+----------------+ | r1641 | 0.456788 | 0.876543 | 0.876542 | +------------+----------------+----------------+----------------+ | r1646 | 0.876543 | 0.786543 | 0.897654 | +------------+----------------+----------------+----------------+ "Fluxes of all samples + sample group specification" option: Fluxes Dataset: +------------+----------------+----------------+----------------+ | Reaction ID| TCGAA62670 | TCGAA62671 | TCGAA62672 | +============+================+================+================+ | r1642 | 0.523167 | 0.371355 | 0.925661 | +------------+----------------+----------------+----------------+ | r1643 | 0.568765 | 0.765567 | 0.456789 | +------------+----------------+----------------+----------------+ | r1640 | 0.876545 | 0.768933 | 0.987654 | +------------+----------------+----------------+----------------+ | r1641 | 0.456788 | 0.876543 | 0.876542 | +------------+----------------+----------------+----------------+ | r1646 | 0.876543 | 0.786543 | 0.897654 | +------------+----------------+----------------+----------------+ Group-file +---------------+-----------+ | Patient ID | Class | +===============+===========+ | TCGAAA3529 | MSI | +---------------+-----------+ | TCGAA62671 | MSS | +---------------+-----------+ | TCGAA62672 | MSI | +---------------+-----------+ **TIP**: If your dataset is not split into classes, use MaREA cluster analysis. ]]> </help> <expand macro="citations" /> </tool>