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view gemini_stats.xml @ 5:86d4303cc3ca draft
planemo upload for repository https://github.com/galaxyproject/tools-iuc/tree/master/tools/gemini commit 62ed732cba355e695181924a8ed4cce49ca21c59
| author | iuc |
|---|---|
| date | Fri, 11 Jan 2019 17:43:48 -0500 |
| parents | cdd90678004a |
| children | b92cfa44f5be |
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<tool id="gemini_@BINARY@" name="GEMINI @BINARY@" version="@VERSION@"> <description>Compute useful variant statistics</description> <macros> <import>gemini_macros.xml</import> <token name="@BINARY@">stats</token> </macros> <expand macro="requirements" /> <expand macro="stdio" /> <expand macro="version_command" /> <command> <![CDATA[ gemini @BINARY@ #if str($stats.type) == "gts-stats": #set $multiline_sql_expr = $stats.variants.gt_filter #set $cmdln_param = "--gt-filter" @MULTILN_SQL_EXPR_TO_CMDLN@ #if str($stats.variants.constraint).strip(): #set $multiline_sql_expr = "select * from variants WHERE " + str($stats.variants.constraint) #else: #set $multiline_sql_expr = "select * from variants" #end if #set $cmdln_param = "--summarize" @MULTILN_SQL_EXPR_TO_CMDLN@ #else: ${stats.stats_option} #end if '$infile' > '$outfile' ]]> </command> <inputs> <expand macro="infile" /> <conditional name="stats"> <param name="type" type="select" label="Select the type of statistics you are interested in" help=""> <option value="gts-stats">Genotype counts tabulated by sample (--summarize)</option> <option value="snp-counts">Counts of SNPs by nucleotide change (--snp-counts)</option> <option value="tstv-stats">Transition / transversion statistics for the SNPs in the dataset</option> <option value="aaf">Alternate allele frequency spectrum of all variants (--sfs)</option> <option value="sample-distance">Pair-wise genetic distances between for all samples (--mds)</option> </param> <when value="snp-counts"> <param name="stats_option" type="hidden" value="--snp-counts" /> </when> <when value="aaf"> <param name="stats_option" type="hidden" value="--sfs" /> </when> <when value="sample-distance"> <param name="stats_option" type="hidden" value="--mds" /> </when> <when value="tstv-stats"> <param name="stats_option" type="select" label="Calculate Ts/Tv statistics based on" help="Restricting the calculation to coding/noncoding regions will only produce meaningful results with preannotated variants. If you haven't annotated your variants with SnpEff or VEP before loading them into GEMINI, select All SNPs."> <option value="--tstv">All SNPs (--tstv)</option> <option value="--tstv-coding">SNPs in coding regions (--tstv-coding)</option> <option value="--tstv-noncoding">SNPs in non-coding regions (--tstv-noncoding)</option> </param> </when> <when value="gts-stats"> <param name="stats_option" type="hidden" value="" /> <conditional name="variants"> <param name="keep" type="select" label="Compute the genotype counts table based on" help="If you select All variants the genotype counts will be produced using --summarize with the wildcard query "select * from variants"."> <option value="all">All variants</option> <option value="custom">Custom filtered variants</option> </param> <when value="all"> <param name="gt_filter" type="hidden" value="" /> <param name="constraint" type="hidden" value="" /> </when> <when value="custom"> <param argument="--gt-filter" name="gt_filter" type="text" area="True" size="5x50" label="Restrictions to apply to genotype values" help=""> <expand macro="sanitize_query" /> </param> <param name="constraint" type="text" area="True" size="5x50" label="Additional constraints on the variants" help="Enter valid constraints for the WHERE clause of a GEMINI query here. You could use, for example: chrom = 'chr1' or impact_severity = 'HIGH', to include only high-impact variants on chromosome 1 in the counts table."> <expand macro="sanitize_query" /> </param> </when> </conditional> </when> </conditional> </inputs> <outputs> <data name="outfile" format="tabular" /> </outputs> <tests> <test> <!-- test vars-by-sample report --> <param name="infile" value="gemini_load_result1.db" ftype="gemini.sqlite" /> <conditional name="stats"> <param name="type" value="tstv-stats" /> <param name="stats_option" value="--tstv-coding" /> </conditional> <output name="outfile"> <assert_contents> <!-- since the input file is not annotated no variants will be considered to be in coding regions --> <has_line line="ts	tv	ts/tv" /> <has_line line="0	0	0" /> </assert_contents> </output> </test> <test> <!-- test gts-by-sample report --> <param name="infile" value="gemini_de_novo_input.db" ftype="gemini.sqlite" /> <conditional name="stats"> <param name="type" value="gts-stats" /> <conditional name="variants"> <param name="keep" value="all" /> </conditional> </conditional> <output name="outfile"> <assert_contents> <has_line_matching expression="sample	total	num_het	num_hom_alt	num_hom_ref" /> </assert_contents> </output> </test> </tests> <help><![CDATA[ **What it does** The stats tool computes one of the following useful variant statistics for a GEMINI database: **Genotype counts tabulated by sample**: This mode uses the ``gemini stats --summarize`` option to produce a table with one row per sample, which tabulates the numbers of sites, for which a given sample shows a: - non-reference genotype (*total* column; the sum of the *num_het* and *num_hom_alt* columns next to it) - heterozygous genotype (*num_het* column) - homozygous variant genotype (*num_hom_alt* column) - homozygous reference genotype (*num_hom_ref* column) You can choose to calculate the table based on all variants in your database, or to filter the variants before the calculation using GEMINI genotype filter expressions and/or WHERE clauses of GEMINI queries. **Counts of SNPs by nucleotide change**: This runs ``gemini stats`` with the ``--snp-count`` option. The result is a simple table listing the number of occurences of each observed REF->ALT change in your database, e.g.:: type count A->G 2 C->T 1 G->A 1 **Transition / transversion statistics** This mode uses ``gemini stats`` with the ``--tstv``, ``--tstv-coding``, or ``--tstv-noncoding`` option to compute the transition/transversion ratios for all SNPs, for SNPs in coding, or SNPs in non-coding regions, respectively. The result is presented in a 1x3 table listing the number of transitions (*ts* column), transversions (*tv* column) and the ratio of the two (*ts/tv* column), e.g.:: ts tv ts/tv 126 39 3.2307 **Alternate allele frequency spectrum** Runs ``gemini stats --sfs`` to produce binned alternate allele frequency counts in a table like:: aaf count 0.125 2 0.375 1 **Pairwise genetic distances** Runs ``gemini stats --mds`` and tabulates all pairwise genetic distance for the samples in your database. An example could look like this:: sample1 sample2 distance M10500 M10500 0.0 M10475 M10478 1.25 M10500 M10475 2.0 M10500 M10478 0.5714 ]]></help> <expand macro="citations"/> </tool>