Mercurial > repos > ximgchess > neper
comparison neper_meshing.xml @ 0:03bbcfd3d708 draft default tip
"planemo upload for repository https://github.com/ximg-chess/galaxytools/tree/master/tools/neper commit 9f77ab5ee7831c00b3a27e02ec8e59d95e6fb9cf"
| author | ximgchess |
|---|---|
| date | Thu, 07 Jul 2022 12:31:10 +0000 |
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| children |
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| -1:000000000000 | 0:03bbcfd3d708 |
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| 1 <tool id="neper_meshing" name="Neper Meshing" version="@TOOL_VERSION@+galaxy@VERSION_SUFFIX@" profile="@PROFILE@" python_template_version="3.5"> | |
| 2 <description>scalar and raster tessellations</description> | |
| 3 <macros> | |
| 4 <import>macros.xml</import> | |
| 5 <token name="@VERSION_SUFFIX@">0</token> | |
| 6 <xml name="meshing"> | |
| 7 <section name="meshing" expanded="false" title="Meshing Options"> | |
| 8 <param argument="-elttype" type="select" optional="true" label="Set element type"> | |
| 9 <help>Default value: tetrahedral in 3D and triangular in 2D</help> | |
| 10 <option value="tri">triangular</option> | |
| 11 <option value="quad">quadrangular</option> | |
| 12 <option value="quad9">9-node quadrangular</option> | |
| 13 <option value="tet">tetrahedral</option> | |
| 14 <option value="hex">hexahedral</option> | |
| 15 </param> | |
| 16 <!-- cl,rcl --> | |
| 17 <param argument="-dim" type="select" multiple="true" optional="true" label="Set the meshing dimension"> | |
| 18 <help>Default value: inputdim</help> | |
| 19 <option value="inputdim">inputdim</option> | |
| 20 <option value="all">all</option> | |
| 21 <option value="none">none</option> | |
| 22 <option value="0">0</option> | |
| 23 <option value="1">1</option> | |
| 24 <option value="2">2</option> | |
| 25 <option value="3">3</option> | |
| 26 </param> | |
| 27 <param argument="-order" type="select" optional="true" label="Set the mesh order"> | |
| 28 <help>Default value: 1 | |
| 29 A value of 1 corresponds to 2-node linear elements, 3-node triangular elements, | |
| 30 4-node quadrangular elements, 4-node tetrahedral elements and 8-node hexahedral elements, | |
| 31 A value of 2 corresponds to 3-node linear elements, 6-node triangular elements, | |
| 32 8-node or 9-node quadrangular elements, 10-node tetrahedral elements | |
| 33 and 20-node hexahedral elements. | |
| 34 </help> | |
| 35 <option value="1">1 - 2-node linear...</option> | |
| 36 <option value="2">2 - 3-node linear...</option> | |
| 37 </param> | |
| 38 | |
| 39 <!-- | |
| 40 <expand macro="set_ny" name="elttype" label="Set element typescale"> | |
| 41 <expand macro="tx3d" label="scale" lx="x factor" ly="y factor" lz="z factor"/> | |
| 42 </expand> | |
| 43 --> | |
| 44 </section> | |
| 45 </xml> | |
| 46 <token name="@MESHING@"> | |
| 47 #if $meshing.elttype | |
| 48 -elttype $meshing.elttype | |
| 49 #end if | |
| 50 #if $meshing.dim | |
| 51 -dim $meshing.dim | |
| 52 #end if | |
| 53 #if $meshing.order | |
| 54 -order $meshing.order | |
| 55 #end if | |
| 56 </token> | |
| 57 | |
| 58 <xml name="meshing_output"> | |
| 59 <section name="meshing_output" expanded="false" title="Meshing Output Options"> | |
| 60 <param argument="-nset" type="text" value="" optional="true" label="Specify the node sets"> | |
| 61 <option value="faces">faces</option> | |
| 62 <option value="edges">edges</option> | |
| 63 <option value="vertices">vertices</option> | |
| 64 <option value="facebodies">facebodies</option> | |
| 65 <option value="edgebodies">edgebodies</option> | |
| 66 <option value="all">all</option> | |
| 67 <option value="none">none</option> | |
| 68 <!-- | |
| 69 <validator type="regex" message="">^all|none|(faces|edges|vertices|facebodies|edgebodies)*|([x-z][01]|[x-z][01][x-z][01]|[x-z][01][x-z][01][x-z][01]|z[0,1]f[1-9][0-9]*|f[1-9][0-9]*)*$</validator> | |
| 70 --> | |
| 71 </param> | |
| 72 <param argument="-faset" type="text" value="" optional="true" label="Specify the element surface meshes"> | |
| 73 <option value="faces">faces</option> | |
| 74 <option value="internal">internal</option> | |
| 75 <!-- | |
| 76 <validator type="regex" message="">^(faces|internal|([x-z][01]|[x-z][01][x-z][01]|[x-z][01][x-z][01][x-z][01]|z[0,1]f[1-9][0-9]*|f[1-9][0-9]*)?$</validator> | |
| 77 --> | |
| 78 </param> | |
| 79 </section> | |
| 80 </xml> | |
| 81 <token name="@MESHING_OUTPUT@"> | |
| 82 #if $meshing_output.nset | |
| 83 -nset "$meshing_output.nset" | |
| 84 #end if | |
| 85 #if $meshing_output.faset | |
| 86 -faset "$meshing_output.faset" | |
| 87 #end if | |
| 88 </token> | |
| 89 | |
| 90 </macros> | |
| 91 <expand macro="requirements" /> | |
| 92 <expand macro="version_command" /> | |
| 93 <command detect_errors="exit_code"><![CDATA[ | |
| 94 neper -M | |
| 95 '$input' | |
| 96 @MESHING@ | |
| 97 @MESHING_OUTPUT@ | |
| 98 @TRANSFORM@ | |
| 99 -format "$format" | |
| 100 -part "\${GALAXY_SLOTS:-4}" | |
| 101 -o output | |
| 102 | grep -v '%$' | tee 'neper.log' | |
| 103 ]]></command> | |
| 104 <inputs> | |
| 105 <param name="input" type="data" format="neper.tesr,neper.tess,gmsh.msh" label="Input tessellation or mesh file"/> | |
| 106 <expand macro="meshing"/> | |
| 107 <expand macro="meshing_output"/> | |
| 108 <expand macro="transform"/> | |
| 109 <param name="format" argument="-format" type="select" multiple="true" optional="false" label="Output formats"> | |
| 110 <option value="msh" selected="true">Gmsh-style msh ascii</option> | |
| 111 <option value="msh:binary">Gmsh-style msh binary</option> | |
| 112 <option value="msh4">Gmsh v4</option> | |
| 113 <option value="vtk">VTK</option> | |
| 114 </param> | |
| 115 </inputs> | |
| 116 <outputs> | |
| 117 <data name="log" format="txt" label="${tool.name} on ${on_string} log" from_work_dir="neper.log"/> | |
| 118 <data name="output_msh" format="gmsh.msh" label="${tool.name} on ${on_string} msh" from_work_dir="output.msh"> | |
| 119 <filter>'msh' in format.split(',') or 'mshi:binary' in format.split(',')</filter> | |
| 120 </data> | |
| 121 <data name="output_msh4" format="gmsh.msh" label="${tool.name} on ${on_string} msh4" from_work_dir="output.tesr"> | |
| 122 <filter>'msh4' in format</filter> | |
| 123 </data> | |
| 124 <data name="output_vtk" format="vtkascii" label="${tool.name} on ${on_string} vtk" from_work_dir="output.vtk"> | |
| 125 <filter>'vtk' in format</filter> | |
| 126 </data> | |
| 127 </outputs> | |
| 128 <tests> | |
| 129 <!-- Test-1 neper -M defaults --> | |
| 130 <test> | |
| 131 <param name="input" ftype="neper.tess" value="neper.tess"/> | |
| 132 <output name="log"> | |
| 133 <assert_contents> | |
| 134 <has_text text="Wrote file `output.msh'." /> | |
| 135 </assert_contents> | |
| 136 </output> | |
| 137 <output name="output_msh"> | |
| 138 <assert_contents> | |
| 139 <has_text text="$MeshFormat" /> | |
| 140 <has_text text="2.2" /> | |
| 141 </assert_contents> | |
| 142 </output> | |
| 143 </test> | |
| 144 </tests> | |
| 145 <help><![CDATA[ | |
| 146 **Neper Meshing** | |
| 147 | |
| 148 @NEPER_HELP@ | |
| 149 | |
| 150 Neper Mesahing Module *-M* is the module for meshing scalar and raster tessellations. The two meshing strategies are: | |
| 151 | |
| 152 (i) Free (or unstructured) meshing creates a conforming mesh into tetrahedral elements (triangular in 2D). | |
| 153 (ii) Mapped (or structured) meshing generates a non-conforming mesh into regular hexahedral elements (quadrangular in 2D). | |
| 154 | |
| 155 The output is a Gmsh msh format and/or VTK format. | |
| 156 | |
| 157 ]]></help> | |
| 158 <expand macro="citations" /> | |
| 159 </tool> |