Mercurial > repos > recetox > waveica
view macros.xml @ 9:6fc9f6dbcef5 draft
planemo upload for repository https://github.com/RECETOX/galaxytools/tree/master/tools/waveica commit bbcbf9c32acaedffb78f0caef47faeed8f68cb52
| author | recetox |
|---|---|
| date | Fri, 16 May 2025 10:14:27 +0000 |
| parents | 1a2aeb8137bf |
| children | 821062fc5782 |
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<macros> <token name="@TOOL_VERSION@">0.2.0</token> <xml name="creator"> <creator> <person givenName="Maksym" familyName="Skoryk" url="https://github.com/maximskorik" identifier="0000-0003-2056-8018" /> <person givenName="Zargham" familyName="Ahmad" url="https://github.com/zargham-ahmad" identifier="0000-0002-6096-224X" /> <organization url="https://www.recetox.muni.cz/" email="GalaxyToolsDevelopmentandDeployment@space.muni.cz" name="RECETOX MUNI" /> </creator> </xml> <xml name="annotation"> <xrefs> <xref type="bio.tools">waveica</xref> </xrefs> </xml> <xml name="input_data"> <param type="data" name="data" label="Feature table" format="csv,tsv,tabular,parquet" help=""/> </xml> <xml name="wf"> <conditional name="wf"> <param type="select" name="wavelet_filter" label="Wavelet transform filter" help="wavelet function and filter length [1] (see footnotes for more details)"> <option value="d" selected="True">Daubechies</option> <option value="la" >Least Asymetric</option> <option value="bl" >Best Localized</option> <option value="c" >Coiflet</option> </param> <when value="d"> <param name="wavelet_length" type="select" label="filter length"> <option value="2" selected="True">2</option> <option value="4">4</option> <option value="6">6</option> <option value="8">8</option> <option value="10">10</option> <option value="12">12</option> <option value="14">14</option> <option value="16">16</option> <option value="18">18</option> <option value="20">20</option> </param> </when> <when value="la"> <param name="wavelet_length" type="select" label="filter length"> <option value="8">8</option> <option value="10">10</option> <option value="12">12</option> <option value="14">14</option> <option value="16">16</option> <option value="18">18</option> <option value="20">20</option> </param> </when> <when value="bl"> <param name="wavelet_length" type="select" label="filter length"> <option value="14">14</option> <option value="18">18</option> <option value="20">20</option> </param> </when> <when value="c"> <param name="wavelet_length" type="select" label="filter length"> <option value="6">6</option> <option value="12">12</option> <option value="18">18</option> <option value="24">24</option> <option value="30">30</option> </param> </when> </conditional> </xml> <xml name="split_output"> <param name = "keep_two_output" label="Output metadata and data matrix as separate files" type="boolean" checked="false" truevalue="TRUE" falsevalue="FALSE" help="Keep two output files, one being the data matrix (feature table) and the second being the metadata table." /> </xml> <xml name="outputs"> <outputs> <data name="normalized_data" format="tabular" label="Normalized table of ${on_string}"> <change_format> <when input_dataset="data" attribute="ext" value="parquet" format="parquet" /> </change_format> </data> <data name="metadata" format="tabular" label="Metadata table of ${on_string}"> <filter>keep_two_output</filter> <change_format> <when input_dataset="data" attribute="ext" value="parquet" format="parquet" /> </change_format> </data> </outputs> </xml> <token name="@HELP@"><![CDATA[ **Description** Removal of batch effects for large-scale untargeted metabolomics data based on wavelet analysis and independent component analysis. The WaveICA method uses the time trend of samples over the injection order, decomposes the original data into new multi-scale features, extracts and removes the batch effect resulting in normalized intensities across samples. The input is an intensity-by-feature table with metadata in the following format: +---------------+--------+------------+----------------+-------+------------+--------------+-------------+-------------+-----+ | sampleName | class | sampleType | injectionOrder | batch | M85T34 | M86T41 | M86T518 | M86T539 | ... | +===============+========+============+================+=======+============+==============+=============+=============+=====+ | VT_160120_002 | sample | sample | 1 | 1 | 228520.064 | 35646729.215 | 2386896.979 | 1026645.836 | ... | +---------------+--------+------------+----------------+-------+------------+--------------+-------------+-------------+-----+ | QC1 | sample | QC | 2 | 1 | 90217.384 | 35735702.457 | 2456290.696 | 1089246.460 | ... | +---------------+--------+------------+----------------+-------+------------+--------------+-------------+-------------+-----+ | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | +---------------+--------+------------+----------------+-------+------------+--------------+-------------+-------------+-----+ + The required columns are **sampleName**, **class**, **sampleType**, **injectionOrder**, and the **features** that you want to normalize. + The **batch** column is required if batch correction mode is **Multiple batches** and optional otherwise. + The presence of any additional columns (except features) will result in incorrect batch correction or job failure. + the input table must not contain missing values. Missing intensities must be filled with 0. + **sampleType** column accepts three possible values: [QC, sample, blank] (case insensitive). + **class** column is used to denote a biological group of a sample (e.g., positive/negative species). The column accepts any values. + the **output** is the same table with corrected feature intensities. .. rubric:: **Footnotes** .. [1] for details on wavelet-filter parameters refer to R `wavelets::wt.filter <https://www.rdocumentation.org/packages/wavelets/versions/0.3-0.2/topics/wt.filter>`_; .. [2] when using 'Multiple batches', please cite the WaveICA (2019) paper; else, cite WaveICA 2.0 (2021) paper; ]]> </token> </macros>