Mercurial > repos > bgruening > diamond
view diamond.xml @ 7:62c9df8382c2 draft
"planemo upload for repository https://github.com/bgruening/galaxytools/tree/master/tools/diamond commit b2d290a8b609ebbc7f4b93716370143c41062ad4"
author | bgruening |
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date | Tue, 03 Dec 2019 17:40:05 -0500 |
parents | 64be1ac21109 |
children | 54f751e413f4 |
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<tool id="bg_diamond" name="Diamond" version="@VERSION@.0" profile="19.01"> <description>alignment tool for short sequences against a protein database</description> <macros> <import>macros.xml</import> </macros> <expand macro="requirements" /> <expand macro="stdio" /> <expand macro="version_command" /> <command> <![CDATA[ #if $ref_db_source.db_source == "history": ln -s $ref_db_source.reference_database ./database.dmnd #else: ln -s ${ref_db_source.index.fields.db_path} ./database.dmnd #end if && diamond $method_cond.method_select --threads "\${GALAXY_SLOTS:-12}" --db ./database --query '$query' #if $method_cond.method_select == "blastx" --query-gencode '$method_cond.query_gencode' --strand '$method_cond.query_strand' --min-orf $method_cond.min_orf #if $method_cond.frameshift_cond.frameshift_select == 'yes' --frameshift $method_cond.frameshift_cond.frameshift $method_cond.frameshift_cond.range_culling #end if #end if @OUTPUT_ARGS@ --compress '0' #if $sensitivity == "1" --sensitive #else if $sensitivity == "2" --more-sensitive #end if #if str($gapopen) != "": --gapopen '$gapopen' #end if #if str($gapextend) != "": --gapextend '$gapextend' #end if --matrix '$matrix' --comp-based-stats '$comp_based_stats' --masking '$masking' @HITFILTER_ARGS@ #if str($filter_score.filter_score_select) == 'evalue': --evalue '$filter_score.evalue' #else: --min-score '$filter_score.min_score' #end if --id '$id' --query-cover '$query_cover' --subject-cover '$subject_cover' --block-size '$block_size' #if str($unal) == '1': --unal 1 --un '$unalqueries' #end if $no_self_hits #if $tax_cond.tax_select == 'file': --taxonlist `cat '$tax_cond.taxonlistfile' | grep -v "^#" | grep -v "^$" | tr "\n" "," | sed 's/,$//'` #else if $tax_cond.tax_select == 'list': --taxonlist '$tax_cond.taxonlist' #end if ]]> </command> <inputs> <conditional name="method_cond"> <param name="method_select" type="select" label="What do you want to align?" help="(blastp/blastx)"> <option value="blastp">Align amino acid query sequences (blastp)</option> <option value="blastx">Align DNA query sequences (blastx)</option> </param> <when value="blastx"> <param name="query_gencode" argument="--query-gencode" type="select" label="Genetic code used for translation of query in BLASTX mode" help=""> <option value="1">The Standard Code</option> <option value="2">The Vertebrate Mitochondrial Code</option> <option value="3">The Yeast Mitochondrial Code</option> <option value="4">The Mold, Protozoan, and Coelenterate Mitochondrial Code and the Mycoplasma/Spiroplasma Code</option> <option value="5">The Invertebrate Mitochondrial Code</option> <option value="6">The Ciliate, Dasycladacean and Hexamita Nuclear Code</option> <option value="9">The Echinoderm and Flatworm Mitochondrial Code</option> <option value="10">The Euplotid Nuclear Code</option> <option value="11">The Bacterial, Archaeal and Plant Plastid Code</option> <option value="12">The Alternative Yeast Nuclear Code</option> <option value="13">The Ascidian Mitochondrial Code</option> <option value="14">The Alternative Flatworm Mitochondrial Code</option> <option value="16">Chlorophycean Mitochondrial Code</option> <option value="21">Trematode Mitochondrial Code</option> <option value="22">Scenedesmus obliquus Mitochondrial Code</option> <option value="23">Thraustochytrium Mitochondrial Code</option> <option value="24">Pterobranchia Mitochondrial Code</option> <option value="25">Candidate Division SR1 and Gracilibacteria Code</option> <option value="26">Pachysolen tannophilus Nuclear Code</option> </param> <param argument="--min-orf" name="min_orf" type="integer" value="1" label="ignore translated sequences without an open reading frame of at least this length" help="By default this feature is disabled for sequences of length below 30, set to 20 for sequences of length below 100, and set to 40 otherwise. Setting this option to 1 will disable this feature" /> <param name="query_strand" argument="--strand" type="select" label="query strands to search" help=""> <option value="both" selected="True">Both</option> <option value="plus">Plus</option> <option value="minus">Minus</option> </param> <conditional name="frameshift_cond"> <param name="frameshift_select" type="select" label="Allow for frameshifts?" help=""> <option value="yes">yes</option> <option value="no" selected="true">no</option> </param> <when value="yes"> <param argument="--range-culling" name="range_culling" type="boolean" truevalue="--range-culling" falsevalue="" checked="false" label="restrict hit culling to overlapping query ranges" help="This feature is designed for long query DNA sequences that may span several genes. In these cases, the default of reporting the 25 best overall hits could cause hits to a lower scoring gene to be overshadowed. But just increasing the number of alignments reported will bloat the output size and reduce performance. Using this feature along with -k 25 (default), a hit will only be deleted if at least 50% of its query range is spanned by at least 25 higher or equal scoring hits. Using this feature along with --top 10, a hit will only be deleted if its score is more than 10% lower than that of a higher scoring hit over at least 50% of its query range. The percentage is configurable using --range-cover. Note that this feature is currently only available in frameshift alignment mode"/> <param argument="--frameshift" type="integer" value="0" label="frame shift penalty" help="Values around 15 are reasonable for this parameter. Enabling this feature will have the aligner tolerate missing bases in DNA sequences and is most recommended for long, error-prone sequences like MinION reads. In the pairwise output format, frameshifts will be indicated by \ and / for a shift by +1 and -1 nucleotide in the direction of translation respectively." /> </when> <when value="no"/> </conditional> </when> <when value="blastp"> </when> </conditional> <param argument="--query" type="data" format="fasta,fastq" label="Input query file in FASTA or FASTQ format" /> <conditional name="ref_db_source"> <param name="db_source" type="select" label="Will you select a reference database from your history or use a built-in index?" help="Built-ins were indexed using default options"> <option value="indexed">Use a built-in index</option> <option value="history">Use one from the history</option> </param> <when value="indexed"> <param name="index" type="select" label="Select a reference database" help="If your database of interest is not listed, contact your Galaxy admin"> <options from_data_table="diamond_database"> <filter type="sort_by" column="2"/> <validator type="no_options" message="No indexes are available for the selected input dataset"/> </options> </param> </when> <when value="history"> <param name="reference_database" type="data" format="dmnd" label="Select the reference database" /> </when> </conditional> <expand macro="output_type_macro" /> <param name="no_self_hits" argument="--no-self-hits" type="boolean" truevalue="--no-self-hits" falsevalue="" checked="true" label="suppress reporting of identical self hits?" help=""/> <param name='sensitivity' type="select" label="Sensitivity Mode" help="Choose one of the sensitivity modes. The default mode is mainly designed for short read alignment, i.e. finding significant matches of >50 bits on 30-40aa fragments. The sensitive mode is a lot more sensitive than the default and generally recommended for aligning longer sequences. The more sensitive mode provides even more sensitivity. More sensitivity may increase computation time."> <option value="0" selected="True">Default</option> <option value="1">Sensitive</option> <option value="2">More Sensitive</option> </param> <param argument="--matrix" type="select" label="Scoring matrix" help="In parentheses are the supported values for (gap open)/(gap extend). In brackets are default gap penalties"> <option value="BLOSUM45">BLOSUM45 ((10-13)/3; (12-16)/2; (16-19)/1) [14/2]</option> <option value="BLOSUM50">BLOSUM50 ((9-13)/3; (12-16)/2; (15-19)/1) [13/2]</option> <option value="BLOSUM62" selected="True">BLOSUM62 ((6-11)/2; (9-13)/1) [11/1]</option> <option value="BLOSUM80">BLOSUM80 ((6-9)/2; 13/2; 25/2; (9-11)/1) [10/1]</option> <option value="BLOSUM90">BLOSUM90 ((6-9)/2; (9-11)/1) [10/1]</option> <option value="PAM250">PAM250 ((11-15)/3; (13-17)/2; (17-21)/1) [14/2]</option> <option value="PAM70">PAM70 ((6-8)/2; (9-11)/1) [10/1]</option> <option value="PAM30">PAM30 ((5-7)/2; (8-10)/1) [9/1]</option> </param> <param argument="--gapopen" type="integer" optional="True" value="" label="Gap open penalty" help="leave empty for default (see scoring matrix)" /> <param argument="--gapextend" type="integer" optional="True" value="" label="Gap extension penalty" help="leave empty for default (see scoring matrix)" /> <param name="comp_based_stats" argument="--comp-based-stats" type="boolean" truevalue="1" falsevalue="0" checked="true" label="enable composition based statistics?" help="Compositionally biased sequences often cause false positive matches, which are effectively filtered by this algorithm in a way similar to the composition based statistics used by BLAST"/> <param argument="--masking" type="boolean" truevalue="1" falsevalue="0" checked="true" label="enable masking of low complexity regions?" help="Masked residues appear in the output as X"/> <conditional name="tax_cond"> <param name="tax_select" type="select" label="Restrict search taxonomically?" help="Any taxonomic rank can be used, and only reference sequences matching one of the specified taxon ids will be searched against"> <option value="no" selected="True">No</option> <option value="list">list of taxids entered manually</option> <option value="file">list of taxids from single column tabular file</option> </param> <when value="no"/> <when value="list"> <param name="taxonlist" argument="--taxonlist" type="text" value="" label="comma separated list of taxon ids" help="" /> </when> <when value="file"> <param name="taxonlistfile" argument="--taxonlist" type="data" format="tabular" label="Keep alignments within the given percentage range of the top alignment score for a quer" help="" /> </when> </conditional> <conditional name="filter_score"> <param name="filter_score_select" type="select" label="Method to filter?" help="(--evalue/--min-score)"> <option value="evalue" selected="True">Maximum e-value to report alignments</option> <option value="min-score">Minimum bit score to report alignments</option> </param> <when value="evalue"> <param argument="--evalue" type="float" value="0.001" label="Maximum expected value to keep an alignment" /> </when> <when value="min-score"> <param name="min_score" argument="--min-score" type="integer" value="0" label="Minimum bit score to keep an alignment" help="(--min-score)" /> </when> </conditional> <expand macro="hit_filter_macro" /> <param argument="--id" type="integer" value="0" label="Minimum identity percentage to report an alignment" help="" /> <param name="query_cover" argument="--query-cover" type="integer" value="0" label="Minimum query cover percentage to report an alignment" help="" /> <param name="subject_cover" argument="--subject-cover" type="integer" value="0" label="Minimum subject cover percentage to report an alignment" help="" /> <param name="block_size" argument="--block-size" type="float" value="2" label="Block size in billions of sequence letters to be processed at a time" help="" /> <param argument="--unal" type="boolean" truevalue="1" falsevalue="0" checked="false" label="report unaligned queries" help=""/> </inputs> <outputs> <expand macro="output_macro" /> <data format="fasta" name="unalqueries" label="${tool.name} on ${on_string} (unaligned queries)"> <filter>unal == "1"</filter> </data> </outputs> <tests> <test> <conditional name="method_cond"> <param name="method_select" value="blastp" /> </conditional> <param name="query" value="protein.fasta" ftype="fasta"/> <conditional name="ref_db_source"> <param name="db_source" value="history"/> <param name="reference_database" value="db.dmnd"/> </conditional> <conditional name="output"> <param name="outfmt" value="6"/> <param name="fields" value="qseqid,sseqid,pident,length,mismatch,gapopen,qstart,qend,sstart,send,evalue,bitscore"/> </conditional> <param name="sensitivity" value="0"/> <param name="matrix" value="BLOSUM62"/> <param name="comp-based-stat" value="1"/> <param name="masking" value="1"/> <conditional name="hit_filter"> <param name="hit_filter_select" value="max"/> <param name="max_target_seqs" value="25" /> </conditional> <conditional name="filter_score"> <param name="filter_score_select" value="evalue"/> <param name="evalue" value="0.001" /> </conditional> <param name="id" value="0"/> <param name="query_cover" value="0"/> <param name="block_size" value="2"/> <output name="blast_tabular" file="diamond_results.tabular"/> </test> <test> <conditional name="method_cond"> <param name="method_select" value="blastp" /> </conditional> <param name="query" value="protein.fasta" ftype="fasta"/> <conditional name="ref_db_source"> <param name="db_source" value="history"/> <param name="reference_database" value="db-wtax.dmnd"/> </conditional> <conditional name="tax_cond"> <param name="tax_select" value="list"/> <param name="taxonlist" value="2" /> </conditional> <conditional name="output"> <param name="outfmt" value="6"/> <param name="fields" value="qseqid,sseqid,pident,length,mismatch,gapopen,qstart,qend,sstart,send,evalue,bitscore"/> </conditional> <param name="sensitivity" value="0"/> <param name="matrix" value="BLOSUM62"/> <param name="comp-based-stat" value="1"/> <param name="masking" value="1"/> <conditional name="hit_filter"> <param name="hit_filter_select" value="max"/> <param name="max_target_seqs" value="25" /> </conditional> <conditional name="filter_score"> <param name="filter_score_select" value="evalue"/> <param name="evalue" value="0.001" /> </conditional> <param name="id" value="0"/> <param name="query_cover" value="0"/> <param name="block_size" value="2"/> <output name="blast_tabular" file="diamond_results.wtax.tabular"/> </test> <test> <conditional name="method_cond"> <param name="method_select" value="blastx" /> <conditional name="frameshift_cond"> <param name="frameshift_select" value="yes"/> </conditional> </conditional> <param name="query" value="nucleotide.fasta" ftype="fasta"/> <conditional name="ref_db_source"> <param name="db_source" value="history"/> <param name="reference_database" value="db.dmnd"/> </conditional> <conditional name="output"> <param name="outfmt" value="0"/> </conditional> <param name="sensitivity" value="0"/> <param name="matrix" value="BLOSUM62"/> <param name="comp-based-stat" value="1"/> <param name="masking" value="1"/> <conditional name="hit_filter"> <param name="hit_filter_select" value="top"/> <param name="top" value="10" /> </conditional> <conditional name="filter_score"> <param name="filter_score_select" value="score"/> <param name="evalue" value="1" /> </conditional> <param name="id" value="0"/> <param name="query_cover" value="0"/> <param name="block_size" value="2"/> <output name="blast_tabular" file="diamond_results.pairwise"/> </test> <test> <conditional name="method_cond"> <param name="method_select" value="blastp" /> </conditional> <param name="query" value="protein.fasta" ftype="fasta"/> <conditional name="ref_db_source"> <param name="db_source" value="history"/> <param name="reference_database" value="db-wtax.dmnd"/> </conditional> <conditional name="output"> <param name="outfmt" value="100"/> </conditional> <output name="daa_output" file="diamond_results.daa" compare="sim_size" delta="10"/> </test> </tests> <help> <![CDATA[ **What it does** DIAMOND_ is a new alignment tool for aligning short DNA sequencing reads to a protein reference database such as NCBI-NR. On Illumina reads of length 100-150bp, in fast mode, DIAMOND is about 20,000 times faster than BLASTX, while reporting about 80-90% of all matches that BLASTX finds, with an e-value of at most 1e-5. In sensitive mode, DIAMOND ist about 2,500 times faster than BLASTX, finding more than 94% of all matches. The DIAMOND algorithm is designed for the alignment of large datasets. The algorithm is not efficient for a small number of query sequences or only a single one of them, and speed will be low. BLAST is recommended for small datasets. .. _DIAMOND: http://ab.inf.uni-tuebingen.de/software/diamond/ **Input** Input data is a large protein or nucleotide sequence file. **Output** Diamond gives you a tabular output file with 12 columns: Column Description 1 Query Seq-id (ID of your sequence) 2 Subject Seq-id (ID of the database hit) 3 Percentage of identical matches 4 Alignment length 5 Number of mismatches 6 Number of gap openings 7 Start of alignment in query 8 End of alignment in query 9 Start of alignment in subject (database hit) 10 End of alignment in subject (database hit) 11 Expectation value (E-value) 12 Bit score Supported values for gap open and gap extend parameters depending on the selected scoring matrix. ======== ============================================ Matrix Supported values for (gap open)/(gap extend) ======== ============================================ BLOSUM45 (10-13)/3; (12-16)/2; (16-19)/1 BLOSUM50 (9-13)/3; (12-16)/2; (15-19)/1 BLOSUM62 (6-11)/2; (9-13)/1 BLOSUM80 (6-9)/2; 13/2; 25/2; (9-11)/1 BLOSUM90 (6-9)/2; (9-11)/1 PAM250 (11-15)/3; (13-17)/2; (17-21)/1 PAM70 (6-8)/2; (9-11)/1 PAM30 (5-7)/2; (8-10)/1 ======== ============================================ ]]> </help> <expand macro="citations" /> </tool>