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| author | muon-spectroscopy-computational-project |
|---|---|
| date | Fri, 26 Jul 2024 12:58:09 +0000 |
| parents | 03f4f2aaa91c |
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<tool id="pm_yaml_config" name="PyMuonSuite AIRSS Configure" version="@TOOL_VERSION@+galaxy@WRAPPER_VERSION@" python_template_version="3.5" profile="22.05" license="MIT"> <description>define AIRSS parameters</description> <macros> <!-- version of underlying tool (PEP 440) --> <!-- this wrapper doesn't have pymuonsuite as a dependency, but it will change according to the pymuonsuite interface, so follow the same versioning pattern --> <token name="@TOOL_VERSION@">0.3.0</token> <!-- version of this tool wrapper (integer) --> <token name="@WRAPPER_VERSION@">1</token> <!-- citation should be updated with every underlying tool version --> <token name="@TOOL_CITATION@">10.5281/zenodo.8026711</token> <import>muon_macros.xml</import> </macros> <creator> <person givenName="Jyothish" familyName="Thomas" identifier="https://orcid.org/0000-0003-4724-6924"/> <person givenName="Eli" familyName="Chadwick" url="https://github.com/elichad" identifier="https://orcid.org/0000-0002-0035-6475"/> <person givenName="Patrick" familyName="Austin" url="https://github.com/patrick-austin" identifier="https://orcid.org/0000-0002-6279-7823"/> <organization url="https://muon-spectroscopy-computational-project.github.io/index.html" name="The Muon Spectroscopy Computational Project"/> </creator> <requirements> </requirements> <command detect_errors="exit_code"><![CDATA[ cat $params_yaml > $out_yaml ]]></command> <configfiles> <configfile name="params_yaml">poisson_r: $general_params.poisson_r name: $general_params.name charged: $general_params.charged geom_steps: $general_params.geom_steps vdw_scale: $general_params.vdw_scale calculator: $calculator_params.calculator_cond.calculator geom_force_tol: $general_params.geom_force_tol #if $general_params.out_folder: out_folder: $general_params.out_folder #else out_folder: muon-airss-out #end if #if $general_params.random_seed: random_seed: $general_params.random_seed #end if supercell: $clustering_params.supercell.replace('__ob__', '[').replace('__cb__', ']') k_points_grid: $clustering_params.k_points_grid.replace('__ob__', '[').replace('__cb__', ']') #if $clustering_params.max_scc_steps: max_scc_steps: $clustering_params.max_scc_steps #end if #if str($calculator_params.calculator_cond.calculator)=="uep": uep_gw_factor: $calculator_params.calculator_cond.uep_gw_factor #if $calculator_params.calculator_cond.uep_chden.value: uep_chden: $calculator_params.calculator_cond.uep_chden.value #end if #else if str($calculator_params.calculator_cond.calculator)=="CASTEP": #if $calculator_params.calculator_cond.castep_command: castep_command: $calculator_params.calculator_cond.castep_command #end if #if $calculator_params.calculator_cond.castep_param: castep_param: $calculator_params.calculator_cond.castep_param #end if #if $calculator_params.calculator_cond.mu_symbol: mu_symbol: $calculator_params.calculator_cond.mu_symbol #end if #else if str($calculator_params.calculator_cond.calculator)=="dftb+": #if $calculator_params.calculator_cond.dftb_set: dftb_set: $calculator_params.calculator_cond.dftb_set #end if #if $calculator_params.calculator_cond.dftb_optionals: dftb_optionals: $calculator_params.calculator_cond.dftb_optionals.replace('__ob__', '[').replace('__cb__', ']') #end if #if $calculator_params.calculator_cond.dftb_pbc: dftb_pbc: $calculator_params.calculator_cond.dftb_pbc #end if #else if str($calculator_params.calculator_cond.calculator)=="all": #if $calculator_params.calculator_cond.uep_gw_factor: uep_gw_factor: $calculator_params.calculator_cond.uep_gw_factor #end if #if $calculator_params.calculator_cond.uep_chden: uep_chden: $calculator_params.calculator_cond.uep_chden #end if #if $calculator_params.calculator_cond.castep_command: castep_command: $calculator_params.calculator_cond.castep_command #end if #if $calculator_params.calculator_cond.castep_param: castep_param: $calculator_params.calculator_cond.castep_param #end if #if $calculator_params.calculator_cond.mu_symbol: mu_symbol: $calculator_params.calculator_cond.mu_symbol #end if #if $calculator_params.calculator_cond.dftb_set: dftb_set: $calculator_params.calculator_cond.dftb_set #end if #if $calculator_params.calculator_cond.dftb_optionals: dftb_optionals: $calculator_params.calculator_cond.dftb_optionals.replace('__ob__', '[').replace('__cb__', ']') #end if #if $calculator_params.calculator_cond.dftb_pbc: dftb_pbc: $calculator_params.calculator_cond.dftb_pbc #end if #end if clustering_method: $clustering_params.clustering.clustering_method #if str($clustering_params.clustering.clustering_method)=="hier": clustering_hier_t: $clustering_params.clustering.clustering_hier_t #else if str($clustering_params.clustering.clustering_method)=="kmeans": clustering_kmeans_k: $clustering_params.clustering.clustering_kmeans_k #end if</configfile> </configfiles> <inputs> <section name="general_params" expanded="true" title="General Parameters"> <param type="float" argument="poisson_r" value="0.8" min="0.0" label="Poisson radius" help=" Poisson sphere radius to use for random generation. No two starting muon positions will be closer than this distance. Smaller values make for bigger structure sets."/> <param type="text" argument="name" value="struct" label="Name" help="Name of the structure. This name will be postfixed with a unique number, e.g. struct_001 for each generated structure."/> <param argument="charged" type="boolean" checked="true" label="Charged muon" help="If true, the muon will be charged. Otherwise, will be muonium (with an accompanying electron). Must be true for UEP calculations."/> <param type="integer" argument="geom_steps" value="30" min="0" label="Geometry optimization steps" help="Maximum number of geometry optimisation steps."/> <param type="float" argument="vdw_scale" value="0.5" min="0.0" label="Van der Waals scale" help="Van der Waals scaling factor to use when generating muon sites to avoid existing atoms. Smaller values will allow muons to get closer to the other ions."/> <param type="text" argument="out_folder" optional="true" value="muon-airss-out" label="Output folder name" help="Name to call the output folder used to store the files that the script generates."/> <param type="float" argument="geom_force_tol" value="0.05" min="0.0" label="Geometry optimization tolerance" help="Tolerance on geometry optimisation in units of eV/Å."/> <param type="integer" argument="random_seed" label="Random Seed" optional="true" help="Seed used to randomise the positions of the muons in the generated structures."/> </section> <section name="calculator_params" expanded="true" title="Calculator parameters"> <conditional name="calculator_cond"> <param type="select" display="radio" label="Optimization calculator" argument="calculator" value="uep" help="Calculator to generate structure files for. Must be a single word or a comma seperated list of values. Currently supported calculators are CASTEP, DFTB+ and UEP. Can also select 'all' to generate files for all calculators."> <option value="uep">UEP</option> <option value="castep">CASTEP</option> <option value="dftb+">DFTB+</option> <option value="all">all</option> </param> <when value="uep"> <param type="float" argument="uep_gw_factor" optional="true" value="5.0" min="0.0" label="Gaussian width factor" help="Gaussian width factor for UEP calculation. Higher values will make the potential of atomic nuclei closer to the point-like approximation but may introduce artifacts."/> <param type="text" argument="uep_chden" optional="true" label="Path to .den_fmt and .castep files" help="Name of the .den_fmt file containing the electronic density for an Unperturbed Electrostatic Potential optimisation. The corresponding .castep file must be with the same seedname. Only required for use outside Muon Galaxy"/> </when> <when value="castep"> <param type="text" argument="castep_command" optional="true" value="castep.serial" label="CASTEP command" help="Command to use to run CASTEP."/> <param type="text" argument="castep_param" optional="true" label="PARAM path" help="File path to the CASTEP parameter file."/> <param type="text" argument="mu_symbol" optional="true" label="Muon symbol" value="H:mu" help="The symbol to use for the muon when writing out the CASTEP custom species."/> </when> <when value="dftb+"> <expand macro="dftb+"/> <expand macro="dftb_optionals"/> </when> <when value="all"> <param type="float" argument="uep_gw_factor" optional="true" value="5.0" min="0.0" label="Gaussian width factor" help="Gaussian width factor for UEP calculation. Higher values will make the potential of atomic nuclei closer to the point-like approximation but may introduce artifacts."/> <param type="text" argument="uep_chden" optional="true" label="Path to .den_fmt and CASTEP files" help="Name of the .den_fmt file containing the electronic density for an Unperturbed Electrostatic Potential optimisation. The corresponding .castep file must be with the same seedname. Only required for use outside Muon Galaxy"/> <param type="text" argument="castep_command" optional="true" value="castep.serial" label="CASTEP command" help="Command to use to run CASTEP."/> <param type="text" argument="castep_param" optional="true" label="PARAM path" help="File path to the CASTEP parameter file."/> <param type="text" argument="mu_symbol" optional="true" label="Muon symbol" value="H:mu" help="The symbol to use for the muon when writing out the CASTEP custom species."/> <expand macro="dftb+"/> <expand macro="dftb_optionals"/> </when> </conditional> </section> <section name="clustering_params" expanded="true" title="Clustering Parameters"> <conditional name="clustering"> <param type="select" argument="clustering_method" display="radio" label="Clustering method" value="hier"> <option value="hier">hierarchical</option> <option value="kmeans">k-means</option> </param> <when value="hier"> <param type="float" argument="clustering_hier_t" value="0.3" min="0.0" optional="true" label="t parameter for hierarchical clustering"/> </when> <when value="kmeans"> <param type="integer" argument="clustering_kmeans_k" value="4" min="0" optional="true" label="Number of clusters for k-means clustering"/> </when> </conditional> <param type="text" argument="supercell" value="1" label="Supercell" help="Supercell size and shape to use. This can either be a single int, a list of three integers or a 3x3 matrix of integers. For a single number a diagonal matrix will be generated with the integer repeated on the diagonals. For a list of three numbers a diagonal matrix will be generated where the diagonal elements are set to the list. A matrix will be used directly as is. Default is a 3x3 identity matrix."> <validator type="regex" message="Input should only contain whitespace, '[', ']', ',' and digits.">^[\s\d,\[\]]+$</validator> </param> <expand macro="k_points_grid"/> <param type="integer" argument="max_scc_steps" value="200" min="0" optional="true" label="Max SCC steps" help="If applicable, max number of SCC steps to perform before giving up. Default is 200 for DFTB+ and 30 for CASTEP."/> </section> </inputs> <outputs> <data name="out_yaml" format="yaml"/> </outputs> <tests> <test expect_num_outputs="1"> <section name="general_params"> <param name="poisson_r" value="0.8"/> <param name="name" value="Si"/> <param name="charged" value="true"/> <param name="geom_steps" value="300"/> <param name="vwd_scale" value="0.25"/> <param name="out_folder" value="Si-out"/> <param name="geom_force_tol" value="0.05"/> </section> <section name="calculator_params"> <conditional name="calculator_cond"> <param name="calculator" value="uep"/> <param name="uep_gw_factor" value="0.4"/> <param name="uep_chden" value="test.den_fmt"/> </conditional> </section> <section name="clustering_params"> <conditional name="clustering"> <param name="clustering_method" value="hier"/> <param name="clustering_hier_t" value="0.2"/> </conditional> <param name="supercell" value="1"/> <param name="k_points_grid" value="[1,1,1]"/> <param name="max_scc_steps" value="200"/> </section> <output name="out_yaml" file="config.yaml" ftype="yaml"/> </test> <test expect_num_outputs="1"> <section name="general_params"> </section> <section name="calculator_params"> </section> <section name="clustering_params"> </section> <output name="out_yaml" file="config-default.yaml" ftype="yaml"/> </test> <test expect_num_outputs="1"> <section name="general_params"> </section> <section name="calculator_params"> <conditional name="calculator_cond"> <param name="calculator" value="dftb+"/> </conditional> </section> <section name="clustering_params"> </section> <output name="out_yaml" file="config-dftb.yaml" ftype="yaml"/> </test> <test expect_num_outputs="1"> <section name="general_params"> </section> <section name="calculator_params"> <conditional name="calculator_cond"> <param name="calculator" value="all"/> </conditional> </section> <section name="clustering_params"> </section> <output name="out_yaml" file="config-all.yaml" ftype="yaml"/> </test> <test expect_failure="true"> <section name="general_params"> </section> <section name="calculator_params"> </section> <section name="clustering_params"> <param name="supercell" value="bad format"/> </section> </test> <test expect_failure="true"> <section name="general_params"> </section> <section name="calculator_params"> </section> <section name="clustering_params"> <param name="k_points_grid" value="bad format"/> </section> </test> </tests> <help><![CDATA[ Creates a YAML configuration file from input parameters. PyMuonSuite is distributed under the GPLv3 license. This tool wrapper is distributed under the MIT license. **DFTB+ parameter sets:** +------------+-------------------------------------+-----------------------------------+ | set | elements | context | +============+=====================================+===================================+ | 3ob-3-1 | Br-C-Ca-Cl-F-H-I-K-Mg-N-Na-O-P-S-Zn | DFTB3 files for bio and organic | | | | molecules | +------------+-------------------------------------+-----------------------------------+ | pbc-0-3 | Si - F - O - N - C - H / Fe | SCC files for solids and surfaces | +------------+-------------------------------------+-----------------------------------+ ]]></help> <citations> <citation type="doi">@TOOL_CITATION@</citation> </citations> </tool>