Mercurial > repos > bgruening > ctb_rdkit_descriptors
view rdkit_descriptors.xml @ 9:0993ac4f4a23 draft default tip
"planemo upload for repository https://github.com/bgruening/galaxytools/tree/master/chemicaltoolbox/rdkit commit c1d813d3f0fec60ea6efe8a11e59d98bfdc1636f"
| author | bgruening |
|---|---|
| date | Sat, 04 Dec 2021 16:40:00 +0000 |
| parents | a1c53f0533b0 |
| children |
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<tool id="ctb_rdkit_descriptors" name="Descriptors" version="@TOOL_VERSION@+galaxy@GALAXY_VERSION@"> <description>calculated with RDKit</description> <macros> <token name="@TOOL_VERSION@">2020.03.4</token> <token name="@GALAXY_VERSION@">1</token> </macros> <!--parallelism method="multi" split_inputs="infile" split_mode="to_size" split_size="10000" shared_inputs="" merge_outputs="outfile"></parallelism--> <requirements> <requirement type="package" version="@TOOL_VERSION@">rdkit</requirement> </requirements> <command detect_errors="exit_code"> <![CDATA[ python '$__tool_directory__/rdkit_descriptors.py' -i '${infile}' --iformat '${infile.ext}' -o '${outfile}' #if $select_multiple: -s '${select_multiple}' #end if $header ]]> </command> <inputs> <param name="infile" format="smi,sdf,mol2,pdb,inchi" type="data" label="Molecule data" help="In SDF, SMILES, MOL2, PDB or InChI format"/> <param name="header" type="boolean" label="Include the descriptor name as header" truevalue="--header" falsevalue="" checked="false" /> <param name="select_multiple" type="select" label="Calculate only a subset of the descriptors" multiple="true" help="If left blank, all descriptors will be calculated"> <option value="BalabanJ">BalabanJ</option> <option value="BertzCT">BertzCT</option> <option value="Chi0">Chi0</option> <option value="Chi0n">Chi0n</option> <option value="Chi0v">Chi0v</option> <option value="Chi1">Chi1</option> <option value="Chi1n">Chi1n</option> <option value="Chi1v">Chi1v</option> <option value="Chi2n">Chi2n</option> <option value="Chi2v">Chi2v</option> <option value="Chi3n">Chi3n</option> <option value="Chi3v">Chi3v</option> <option value="Chi4n">Chi4n</option> <option value="Chi4v">Chi4v</option> <option value="EState_VSA1">EState_VSA1</option> <option value="EState_VSA10">EState_VSA10</option> <option value="EState_VSA11">EState_VSA11</option> <option value="EState_VSA2">EState_VSA2</option> <option value="EState_VSA3">EState_VSA3</option> <option value="EState_VSA4">EState_VSA4</option> <option value="EState_VSA5">EState_VSA5</option> <option value="EState_VSA6">EState_VSA6</option> <option value="EState_VSA7">EState_VSA7</option> <option value="EState_VSA8">EState_VSA8</option> <option value="EState_VSA9">EState_VSA9</option> <option value="ExactMolWt">ExactMolWt</option> <option value="FormalCharge">FormalCharge</option> <option value="FpDensityMorgan1">FpDensityMorgan1</option> <option value="FpDensityMorgan2">FpDensityMorgan2</option> <option value="FpDensityMorgan3">FpDensityMorgan3</option> <option value="FractionCSP3">FractionCSP3</option> <option value="HallKierAlpha">HallKierAlpha</option> <option value="HeavyAtomCount">HeavyAtomCount</option> <option value="HeavyAtomMolWt">HeavyAtomMolWt</option> <option value="Ipc">Ipc</option> <option value="Kappa1">Kappa1</option> <option value="Kappa2">Kappa2</option> <option value="Kappa3">Kappa3</option> <option value="LabuteASA">LabuteASA</option> <option value="MaxAbsEStateIndex">MaxAbsEStateIndex</option> <option value="MaxAbsPartialCharge">MaxAbsPartialCharge</option> <option value="MaxEStateIndex">MaxEStateIndex</option> <option value="MaxPartialCharge">MaxPartialCharge</option> <option value="MinAbsEStateIndex">MinAbsEStateIndex</option> <option value="MinAbsPartialCharge">MinAbsPartialCharge</option> <option value="MinEStateIndex">MinEStateIndex</option> <option value="MinPartialCharge">MinPartialCharge</option> <option value="MolLogP">MolLogP</option> <option value="MolMR">MolMR</option> <option value="MolWt">MolWt</option> <option value="NHOHCount">NHOHCount</option> <option value="NOCount">NOCount</option> <option value="NumAliphaticCarbocycles">NumAliphaticCarbocycles</option> <option value="NumAliphaticHeterocycles">NumAliphaticHeterocycles</option> <option value="NumAliphaticRings">NumAliphaticRings</option> <option value="NumAromaticCarbocycles">NumAromaticCarbocycles</option> <option value="NumAromaticHeterocycles">NumAromaticHeterocycles</option> <option value="NumAromaticRings">NumAromaticRings</option> <option value="NumHAcceptors">NumHAcceptors</option> <option value="NumHDonors">NumHDonors</option> <option value="NumHeteroatoms">NumHeteroatoms</option> <option value="NumRadicalElectrons">NumRadicalElectrons</option> <option value="NumRotatableBonds">NumRotatableBonds</option> <option value="NumSaturatedCarbocycles">NumSaturatedCarbocycles</option> <option value="NumSaturatedHeterocycles">NumSaturatedHeterocycles</option> <option value="NumSaturatedRings">NumSaturatedRings</option> <option value="NumValenceElectrons">NumValenceElectrons</option> <option value="PEOE_VSA1">PEOE_VSA1</option> <option value="PEOE_VSA10">PEOE_VSA10</option> <option value="PEOE_VSA11">PEOE_VSA11</option> <option value="PEOE_VSA12">PEOE_VSA12</option> <option value="PEOE_VSA13">PEOE_VSA13</option> <option value="PEOE_VSA14">PEOE_VSA14</option> <option value="PEOE_VSA2">PEOE_VSA2</option> <option value="PEOE_VSA3">PEOE_VSA3</option> <option value="PEOE_VSA4">PEOE_VSA4</option> <option value="PEOE_VSA5">PEOE_VSA5</option> <option value="PEOE_VSA6">PEOE_VSA6</option> <option value="PEOE_VSA7">PEOE_VSA7</option> <option value="PEOE_VSA8">PEOE_VSA8</option> <option value="PEOE_VSA9">PEOE_VSA9</option> <option value="RingCount">RingCount</option> <option value="SMR_VSA1">SMR_VSA1</option> <option value="SMR_VSA10">SMR_VSA10</option> <option value="SMR_VSA2">SMR_VSA2</option> <option value="SMR_VSA3">SMR_VSA3</option> <option value="SMR_VSA4">SMR_VSA4</option> <option value="SMR_VSA5">SMR_VSA5</option> <option value="SMR_VSA6">SMR_VSA6</option> <option value="SMR_VSA7">SMR_VSA7</option> <option value="SMR_VSA8">SMR_VSA8</option> <option value="SMR_VSA9">SMR_VSA9</option> <option value="SSSR">SSSR</option> <option value="SlogP_VSA1">SlogP_VSA1</option> <option value="SlogP_VSA10">SlogP_VSA10</option> <option value="SlogP_VSA11">SlogP_VSA11</option> <option value="SlogP_VSA12">SlogP_VSA12</option> <option value="SlogP_VSA2">SlogP_VSA2</option> <option value="SlogP_VSA3">SlogP_VSA3</option> <option value="SlogP_VSA4">SlogP_VSA4</option> <option value="SlogP_VSA5">SlogP_VSA5</option> <option value="SlogP_VSA6">SlogP_VSA6</option> <option value="SlogP_VSA7">SlogP_VSA7</option> <option value="SlogP_VSA8">SlogP_VSA8</option> <option value="SlogP_VSA9">SlogP_VSA9</option> <option value="TPSA">TPSA</option> <option value="VSA_EState1">VSA_EState1</option> <option value="VSA_EState10">VSA_EState10</option> <option value="VSA_EState2">VSA_EState2</option> <option value="VSA_EState3">VSA_EState3</option> <option value="VSA_EState4">VSA_EState4</option> <option value="VSA_EState5">VSA_EState5</option> <option value="VSA_EState6">VSA_EState6</option> <option value="VSA_EState7">VSA_EState7</option> <option value="VSA_EState8">VSA_EState8</option> <option value="VSA_EState9">VSA_EState9</option> <option value="fr_Al_COO">fr_Al_COO</option> <option value="fr_Al_OH">fr_Al_OH</option> <option value="fr_Al_OH_noTert">fr_Al_OH_noTert</option> <option value="fr_ArN">fr_ArN</option> <option value="fr_Ar_COO">fr_Ar_COO</option> <option value="fr_Ar_N">fr_Ar_N</option> <option value="fr_Ar_NH">fr_Ar_NH</option> <option value="fr_Ar_OH">fr_Ar_OH</option> <option value="fr_COO">fr_COO</option> <option value="fr_COO2">fr_COO2</option> <option value="fr_C_O">fr_C_O</option> <option value="fr_C_O_noCOO">fr_C_O_noCOO</option> <option value="fr_C_S">fr_C_S</option> <option value="fr_HOCCN">fr_HOCCN</option> <option value="fr_Imine">fr_Imine</option> <option value="fr_NH0">fr_NH0</option> <option value="fr_NH1">fr_NH1</option> <option value="fr_NH2">fr_NH2</option> <option value="fr_N_O">fr_N_O</option> <option value="fr_Ndealkylation1">fr_Ndealkylation1</option> <option value="fr_Ndealkylation2">fr_Ndealkylation2</option> <option value="fr_Nhpyrrole">fr_Nhpyrrole</option> <option value="fr_SH">fr_SH</option> <option value="fr_aldehyde">fr_aldehyde</option> <option value="fr_alkyl_carbamate">fr_alkyl_carbamate</option> <option value="fr_alkyl_halide">fr_alkyl_halide</option> <option value="fr_allylic_oxid">fr_allylic_oxid</option> <option value="fr_amide">fr_amide</option> <option value="fr_amidine">fr_amidine</option> <option value="fr_aniline">fr_aniline</option> <option value="fr_aryl_methyl">fr_aryl_methyl</option> <option value="fr_azide">fr_azide</option> <option value="fr_azo">fr_azo</option> <option value="fr_barbitur">fr_barbitur</option> <option value="fr_benzene">fr_benzene</option> <option value="fr_benzodiazepine">fr_benzodiazepine</option> <option value="fr_bicyclic">fr_bicyclic</option> <option value="fr_diazo">fr_diazo</option> <option value="fr_dihydropyridine">fr_dihydropyridine</option> <option value="fr_epoxide">fr_epoxide</option> <option value="fr_ester">fr_ester</option> <option value="fr_ether">fr_ether</option> <option value="fr_furan">fr_furan</option> <option value="fr_guanido">fr_guanido</option> <option value="fr_halogen">fr_halogen</option> <option value="fr_hdrzine">fr_hdrzine</option> <option value="fr_hdrzone">fr_hdrzone</option> <option value="fr_imidazole">fr_imidazole</option> <option value="fr_imide">fr_imide</option> <option value="fr_isocyan">fr_isocyan</option> <option value="fr_isothiocyan">fr_isothiocyan</option> <option value="fr_ketone">fr_ketone</option> <option value="fr_ketone_Topliss">fr_ketone_Topliss</option> <option value="fr_lactam">fr_lactam</option> <option value="fr_lactone">fr_lactone</option> <option value="fr_methoxy">fr_methoxy</option> <option value="fr_morpholine">fr_morpholine</option> <option value="fr_nitrile">fr_nitrile</option> <option value="fr_nitro">fr_nitro</option> <option value="fr_nitro_arom">fr_nitro_arom</option> <option value="fr_nitro_arom_nonortho">fr_nitro_arom_nonortho</option> <option value="fr_nitroso">fr_nitroso</option> <option value="fr_oxazole">fr_oxazole</option> <option value="fr_oxime">fr_oxime</option> <option value="fr_para_hydroxylation">fr_para_hydroxylation</option> <option value="fr_phenol">fr_phenol</option> <option value="fr_phenol_noOrthoHbond">fr_phenol_noOrthoHbond</option> <option value="fr_phos_acid">fr_phos_acid</option> <option value="fr_phos_ester">fr_phos_ester</option> <option value="fr_piperdine">fr_piperdine</option> <option value="fr_piperzine">fr_piperzine</option> <option value="fr_priamide">fr_priamide</option> <option value="fr_prisulfonamd">fr_prisulfonamd</option> <option value="fr_pyridine">fr_pyridine</option> <option value="fr_quatN">fr_quatN</option> <option value="fr_sulfide">fr_sulfide</option> <option value="fr_sulfonamd">fr_sulfonamd</option> <option value="fr_sulfone">fr_sulfone</option> <option value="fr_term_acetylene">fr_term_acetylene</option> <option value="fr_tetrazole">fr_tetrazole</option> <option value="fr_thiazole">fr_thiazole</option> <option value="fr_thiocyan">fr_thiocyan</option> <option value="fr_thiophene">fr_thiophene</option> <option value="fr_unbrch_alkane">fr_unbrch_alkane</option> <option value="fr_urea">fr_urea</option> <option value="qed">qed</option> </param> </inputs> <outputs> <data format="tabular" name="outfile" /> </outputs> <tests> <test> <param name="infile" ftype='sdf' value="CID_3037.sdf" /> <param name="header" value="True" /> <output name="outfile" ftype='tabular' file="rdkit_descriptors_result1.tab" /> </test> <test> <param name="infile" ftype='sdf' value="CID_3037.sdf" /> <param name="header" value="True" /> <param name="select_multiple" value="qed,FormalCharge,MolWt" /> <output name="outfile" ftype='tabular' file="rdkit_descriptors_subset.tab" /> </test> <test> <param name="infile" ftype='pdb' value="mol.pdb" /> <param name="header" value="False" /> <param name="select_multiple" value="FormalCharge" /> <output name="outfile" ftype='tabular' file="mol_pdb_charges.tab" /> </test> </tests> <help> <![CDATA[ .. class:: infomark **What this tool does** | RDKit is an open source toolkit for cheminformatics and machine learning. | This tool calculates various molecular descriptors for the input data. The table below shows a brief overview of the descriptors (or families of related descriptors) which are calculated. | | - Gasteiger/Marsili Partial Charges | - BalabanJ | - BertzCT | - Ipc | - HallKierAlpha | - Kappa1 - Kappa3 | - Chi0, Chi1 | - Chi0n - Chi4n | - Chi0v - Chi4v | - FormalCharge | - MolLogP | - MolMR | - MolWt | - HeavyAtomCount | - HeavyAtomMolWt | - NHOHCount | - NOCount | - NumHAcceptors | - NumHDonors | - NumHeteroatoms | - NumRotatableBonds | - NumValenceElectrons | - RingCount | - SSSR | - TPSA | - LabuteASA | - PEOE_VSA1 - PEOE_VSA14 | - SMR_VSA1 - SMR_VSA10 | - SlogP_VSA1 - SlogP_VSA12 | - EState_VSA1 - EState_VSA11 | - VSA_EState1 - VSA_EState10 | - Topliss fragments | | A full list of the descriptors can be obtained here_. .. _here: https://rdkit.readthedocs.org/en/latest/GettingStartedInPython.html#list-of-available-descriptors ----- .. class:: warningmark **Hint** Use the **cut columns from a table** tool to select just the desired descriptors. Alternatively, if you just want to calculate a subset of the descriptors, there is an option available to do so. ----- .. class:: infomark **Input** | - `SDF Format`_ | - `SMILES Format`_ | - `Corina MOL2`_ | - PDB | - InChi .. _SDF Format: http://en.wikipedia.org/wiki/Chemical_table_file .. _SMILES Format: http://en.wikipedia.org/wiki/Simplified_molecular_input_line_entry_specification .. _Corina MOL2: http://www.molecular-networks.com/products/corina ----- .. class:: infomark **Output** Tabular file, where each descriptor (value) is shown in a separate column. ]]> </help> <citations> <citation type="bibtex"> @article{rdkit, author = {Greg Landrum and others}, title = {RDKit: Open-source cheminformatics}, url ={http://www.rdkit.org} }</citation> </citations> </tool>