comparison CADDSuite-1.6/galaxyconfigs/tools/SimilarityAnalyzer.xml @ 8:dbb480e39d95 draft

Uploaded
author marcel
date Sat, 15 Dec 2012 13:15:46 -0500
parents
children
comparison
equal deleted inserted replaced
7:bfab27640f5e 8:dbb480e39d95
1
2 <!--This is a configuration file for the integration of a CADDSuite tool into Galaxy (http://usegalaxy.org). This file was automatically generated using GalaxyConfigGenerator, so do not bother to make too many manual modifications.-->
3 <tool id="similarityanalyzer" name="SimilarityAnalyzer" version="1.6">
4 <description>analyze similarity between molecule files</description>
5 <command interpreter="bash"><![CDATA[../../SimilarityAnalyzer
6 #if str( $i1 ) != '' and str( $i1 ) != 'None' :
7 -i1 "$i1"
8 #end if
9 #if str( $i2 ) != '' and str( $i2 ) != 'None' :
10 -i2 "$i2"
11 #end if
12 #if str( $o ) != '' and str( $o ) != 'None' :
13 -o "$o"
14 #end if
15 #if str( $title ) != '' and str( $title ) != 'None' :
16 -title "$title"
17 #end if
18 -quiet
19 | tail -n 5
20 ]]></command>
21 <inputs>
22 <param name="i1" optional="false" label="input molecule file 1" type="data" format="mol2/sdf/drf"/>
23 <param name="i2" optional="false" label="input molecule file 2" type="data" format="mol2/sdf/drf"/>
24 <param name="title" optional="true" label="Optional: plot title" area="true" type="text" size="1x15"/>
25 </inputs>
26 <outputs>
27 <data name="o" format="png"/>
28 </outputs>
29 <help>This tool evaluates the similarity between molecules in two input files and creates a distribution plot to visualize the result.
30
31 Therefore, for each molecule a pathway-based, hashed binary fingerprint is generated and compared to the fingerprint of other molecules by use of the Tanimoto similarity measure.
32 The output graphic will created by use of gnuplot, so make sure to have it installed and in your PATH environment variable.
33
34 The resulting plot (in form of an eps-, png- or pdf-file; as chosen) shows the distribution of similarity values obtained by comparing each molecule in input file 1 against each molecule in input file 2.</help>
35 </tool>