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"planemo upload for repository https://git.ufz.de/lehmanju/rnaquast commit 89fd73a81e54e9f5722b0a83ee00dc47ab0cb1e3"
| author | iuc |
|---|---|
| date | Mon, 19 Oct 2020 08:04:52 +0000 |
| parents | |
| children | e989670c7fc7 |
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<tool id="rna_quast" name="rnaQUAST" version="@TOOL_VERSION@"> <description>A Quality Assessment Tool for De Novo Transcriptome Assemblies</description> <macros> <token name="@TOOL_VERSION@">2.1.0</token> <xml name="element_matching_line" token_name="" token_expression=""> <element name="@NAME@"> <assert_contents><has_line_matching expression="@EXPRESSION@"/></assert_contents> </element> </xml> <xml name="element_has_text" token_name="" token_text=""> <element name="@NAME@"> <assert_contents><has_text text="@TEXT@"/></assert_contents> </element> </xml> <xml name="details_output_test" token_assembler=""> <element name="@ASSEMBLER@"> <element name="5000%-assembled.list"><assert_contents><has_n_lines n="0"/></assert_contents></element> <element name="9500%-assembled.list"><assert_contents><has_n_lines n="0"/></assert_contents></element> <expand macro="element_matching_line" name="alignment_metrics" expression="\s*== ALIGNMENT METRICS \(calculated with reference genome but without gene database\) ==\s*"/> <expand macro="element_matching_line" name="alignment_multiplicity" expression="unaligned=\d+ aligned=\d+ alignments=\d+\s*"/> <expand macro="element_matching_line" name="alignments_per_isoform" expression="avg=[\d.]+\s*"/> <expand macro="element_matching_line" name="basic_metrics" expression="\s*== BASIC TRANSCRIPTS METRICS \(calculated without reference genome and gene database\) ==\s*"/> <expand macro="element_matching_line" name="block_length" expression="avg=[\d.]+\s*"/> <expand macro="element_matching_line" name="blocks_per_alignment" expression="avg=[\d.]+\s+tot=\d+\s*"/> <expand macro="element_matching_line" name="database_metrics" expression="\s*== GENE DATABASE METRICS ==\s*"/> <expand macro="element_matching_line" name="misassemblies" expression="\s*== ALIGNMENT METRICS FOR MISASSEMBLED \(CHIMERIC\) TRANSCRIPTS \(calculated with reference genome or with gene database\) ==\s*"/> <expand macro="element_matching_line" name="mismatch_rate" expression="avg=[\d.]+\s+tot=\d+\s*"/> <expand macro="element_matching_line" name="sensitivity" expression="\s*== ASSEMBLY COMPLETENESS \(SENSITIVITY\) ==\s*"/> <expand macro="element_matching_line" name="specificity" expression="\s*== ASSEMBLY SPECIFICITY ==\s*"/> <expand macro="element_matching_line" name="transcript_length" expression="avg=[\d.]+\s*"/> <expand macro="element_matching_line" name="x-aligned" expression="avg=[\d.]+\s*"/> <expand macro="element_matching_line" name="x-assembled" expression="avg=[\d.]+\s*"/> <expand macro="element_matching_line" name="x-assembled_exons" expression="avg=[\d.]+\s*"/> <expand macro="element_matching_line" name="x-covered" expression="avg=[\d.]+\s*"/> <expand macro="element_matching_line" name="x-covered_exons" expression="avg=[\d.]+\s*"/> <expand macro="element_matching_line" name="x-matched" expression="avg=[\d.]+\s*"/> <expand macro="element_matching_line" name="x-matched_blocks" expression="avg=[\d.]+\s*"/> </element> </xml> <xml name="txt_output_test" token_assembler=""> <output name="short_report_txt"> <assert_contents> <has_text text="SHORT SUMMARY REPORT"/> </assert_contents> </output> </xml> <xml name="tex_output_test" token_assembler=""> <output name="short_report_tex"> <assert_contents> <has_text text="Short summary report"/> <has_text text="end{document}"/> </assert_contents> </output> </xml> <xml name="tsv_output_test" token_assembler=""> <output name="short_report_tsv"> <assert_contents> <has_line_matching expression="^METRICS/TRANSCRIPTS\t.+$"/> </assert_contents> </output> </xml> <xml name="pdf_output_test" token_assembler=""> <output name="short_report_pdf"> <assert_contents> <has_text text="rnaQUAST short report"/> </assert_contents> </output> </xml> </macros> <requirements> <requirement type="package" version="@TOOL_VERSION@">rnaquast</requirement> </requirements> <stdio> <regex match="Traceback " source="both" level="fatal" description="rnaQuast failed" /> </stdio> <command detect_errors="exit_code"><![CDATA[ #import re #for $i in $in_fasta ln -s '$i' '${re.sub('[^\w\-.]', '_', i.element_identifier)}' && #end for #if $r #for $rf in $r ln -s '$rf' '${re.sub('[^\w\-.]', '_', rf.element_identifier)}' && #end for #end if #if $gene_coordinates.use_gtf == "true" #for $g in $gene_coordinates.gtf ln -s '$g' '${re.sub('[^\w\-.]', '_', g.element_identifier)}' && #end for #end if mkdir outputdir && rnaQUAST.py --threads \${GALAXY_SLOTS:-1} --transcripts #for $i in $in_fasta '${re.sub('[^\w\-.]', '_', i.element_identifier)}' #end for $strand_specific #if $r -r #for $rf in $r '${re.sub('[^\w\-.]', '_', rf.element_identifier)}' #end for #end if #if $gene_coordinates.use_gtf == "true" --gtf #for $g in $gene_coordinates.gtf '${re.sub('[^\w\-.]', '_', g.element_identifier)}' #end for $gene_coordinates.disable_infer_genes $gene_coordinates.disable_infer_transcripts #end if $prokaryote --min_alignment '$min_alignment' #if "pdf" not in $out_sr and "plots" not in $out_add --no_plots #end if $blat $busco_lineage ##GeneMarkS-T is not available in conda $gene_mark $meta --lower_threshold $lower_threshold --upper_threshold $upper_threshold -o outputdir && mkdir details ## move per outputs that are generated for each input (outputdir/ASSEMBLER_output) ## to a joint dir (details) to make them discoverable ## also remove "ASSEMBLER." prefixes from files (otherwise the test macros don't work) #for $i in $in_fasta #set basename = os.path.splitext(re.sub('[^\w\-.]', '_', $i.element_identifier))[0] && (for f in \$(find 'outputdir/'$basename'_output' -type f); do d=\$(dirname \$f | cut -d"/" -f2 | cut -d'_' -f1) && mv \$f details/"\$d"_____"\$(basename \$f | sed 's/$basename\.//')"; done) #end for ## rename .list files to .txt files to make them detectable (format detection by extension) ## the final `true` seems needed since otherwise the `;` at the end is swallowed && find details/ -name "*.list" -exec mv {} {}.txt \; && true ]]></command> <inputs> <param name="in_fasta" type="data" format="fasta" multiple="true" label="Chromosomes/scaffolds file"/> <param name="strand_specific" argument="-ss" type="boolean" truevalue="-ss" falsevalue="" checked="false" label="Strand-specific"/> <param name="r" optional="true" argument="-r" type="data" format="fasta" multiple="true" label="Reference genome" /> <conditional name="gene_coordinates"> <param name="use_gtf" type="select" label="Use file with gene coordinates in GTF/GFF format?" help="We recommend to use files downloaded from GENCODE or Ensembl."> <option value="true" selected="true">Yes</option> <option value="false">No</option> </param> <when value="true"> <param name="gtf" argument="--gtf" type="data" format="gtf,gff,gff3" multiple="true" label="GTF/GFF file"/> <param argument="--disable_infer_genes" type="boolean" truevalue="--disable_infer_genes" falsevalue="" checked="false" label=" GTF file contains genes records?"/> <param argument="--disable_infer_transcripts" type="boolean" truevalue="--disable_infer_transcripts" falsevalue="" checked="false" label="GTF file contains transcripts records?"/> </when> <when value="false"> </when> </conditional> <param argument="--prokaryote" type="boolean" truevalue="--prokaryote" falsevalue="" checked="false" label="Is genome prokararyotic?"/> <param argument="--min_alignment" type="integer" value="50" label="Minimal alignment length to be used"/> <param argument="--blat" type="boolean" truevalue="--blat" falsevalue="" checked="false" label="Run with BLAT alignment tool instead of GMAP?" /> <param argument="--busco_lineage" type="boolean" truevalue="--busco_lineage" falsevalue="" checked="false" label="Run BUSCO tool?" help="The BUSCO tool detects core genes in the assembly. Use this option to provide path to the BUSCO lineage data (Eukaryota, Metazoa, Arthropoda, Vertebrata or Fungi)."/> <!-- GeneMarkS-T is not available in conda <param argument="\-\-gene_mark" type="boolean" truevalue="\-\-gene_mark" falsevalue="" checked="false" label="Run with GeneMarkS-T gene prediction tool?"/>--> <param argument="--meta" type="boolean" truevalue="--meta" falsevalue="" checked="false" label="Meta Transcriptome" help="Run quality asessment for Meta Transcriptome"/> <param argument="--lower_threshold" type="integer" value="50" label="Lower threshold for x_assembled/covered/matched metrics."/> <param argument="--upper_threshold" type="integer" value="95" label="Upper threshold for x_assembled/covered/matched metrics."/> <param name="out_sr" type="select" multiple="true" label="Short report formats"> <option value="tsv" selected="true">tabular</option> <option value="txt">txt</option> <option value="tex">tex</option> <option value="pdf" selected="true">pdf</option> </param> <param name="out_add" type="select" multiple="true" label="Additional outputs"> <option value="logs">Logs</option> <option value="plots" selected="true">Plots (only for n>1)</option> <option value="comparison" selected="true">Comparison for Chromosomes/scaffolds files (only for n>1)</option> <option value="details" selected="true">Details per Chromosomes/scaffolds file</option> <option value="details_plots" selected="true">Details per Chromosomes/scaffolds file as plot</option> </param> </inputs> <outputs> <data name="short_report_pdf" format="pdf" label="${tool.name} on ${on_string}: pdf report" from_work_dir="outputdir/short_report.pdf"> <filter>"pdf" in out_sr</filter> </data> <data name="short_report_txt" format="txt" label="${tool.name} on ${on_string}: txt report" from_work_dir="outputdir/short_report.txt"> <filter>"txt" in out_sr</filter> </data> <data name="short_report_tex" format="txt" label="${tool.name} on ${on_string}: tex report" from_work_dir="outputdir/short_report.tex"> <filter>"tex" in out_sr</filter> </data> <data name="short_report_tsv" format="tabular" label="${tool.name} on ${on_string}: tsv report" from_work_dir="outputdir/short_report.tsv"> <filter>"tsv" in out_sr</filter> </data> <collection name="list_logs" type="list" label="${tool.name} on ${on_string}: logs" > <discover_datasets ext="txt" pattern="(?P<name>.+)\.log" directory="outputdir/logs/" visible="false" /> <filter>"logs" in out_add</filter> </collection> <!-- note the output filter of the next two outputs checks if there is more than 1 input for in_fasta (for 1 its a HDA, for more list or HDAs) --> <collection name="comparison_png" type="list" label="${tool.name} on ${on_string}: comparison plots" > <discover_datasets ext="png" pattern="(?P<name>.+)\.png" directory="outputdir/comparison_output/" visible="false" recurse="true"/> <filter> isinstance(in_fasta, list) and "plots" in out_add</filter> </collection> <collection name="comparison" type="list" label="${tool.name} on ${on_string}: comparison" > <discover_datasets ext="txt" pattern="(?P<name>.+)\.txt" directory="outputdir/comparison_output/" visible="false" recurse="true" /> <filter> isinstance(in_fasta, list) and "comparison" in out_add</filter> </collection> <collection name="details" type="list:list" label="${tool.name} on ${on_string}: detailed output"> <discover_datasets pattern="(?P<identifier_0>.+)_____(?P<identifier_1>.+)\.(?P<ext>txt)" directory="details/" visible="false"/> <filter>"details" in out_add</filter> </collection> <collection name="details_png" type="list:list" label="${tool.name} on ${on_string}: detailed output plots"> <discover_datasets pattern="(?P<identifier_0>.+)_____(?P<identifier_1>.+)\.(?P<ext>png)" directory="details/" visible="false"/> <filter>"details_plots" in out_add</filter> </collection> </outputs> <tests> <test expect_num_outputs="7"> <param name="in_fasta" value="idba.fasta,Trinity.fasta" ftype="fasta" /> <param name="r" value="Saccharomyces_cerevisiae.R64-1-1.75.dna.toplevel.fa" ftype="fasta" /> <conditional name="gene_coordinates"> <param name="use_gtf" value="true" /> <param name="gtf" value="Saccharomyces_cerevisiae.R64-1-1.75.gtf" ftype="gtf" /> <param name="disable_infer_genes" value="true"/> <param name="disable_infer_transcripts" value="true"/> </conditional> <param name="out_sr" value="txt,tex,tsv" /> <param name="out_add" value="logs,comparison,plots,details" /> <expand macro="txt_output_test"/> <expand macro="tex_output_test"/> <expand macro="tsv_output_test"/> <output_collection name="comparison_png" type="list" count="15"/> <output_collection name="comparison" type="list" count="19"/> <output_collection name="list_logs" type="list" count="8"/> <output_collection name="details" type="list:list" count="2"> <expand macro="details_output_test" assembler="Trinity"/> <expand macro="details_output_test" assembler="idba"/> </output_collection> </test> <test expect_num_outputs="6"> <param name="in_fasta" value="Trinity.fasta" ftype="fasta" /> <conditional name="gene_coordinates"> <param name="use_gtf" value="false" /> </conditional> <param name="min_alignment" value="30" /> <param name="lower_threshold" value="45" /> <param name="upper_threshold" value="95"/> <param name="out_sr" value="txt,tex,tsv,pdf" /> <param name="out_add" value="logs,details_plots" /> <expand macro="pdf_output_test"/> <expand macro="tex_output_test"/> <expand macro="tsv_output_test"/> <expand macro="txt_output_test"/> <output_collection name="list_logs" type="list"> <expand macro="element_has_text" name="Trinity.GeneMarkS_T.err" text=""/> <expand macro="element_matching_line" name="rnaQUAST" expression="Thank you for using rnaQUAST!"/> </output_collection> <output_collection name="details_png" type="list:list" count="1"> <element name="Trinity"> <expand macro="element_has_text" name="Nx" text="PNG"/> <expand macro="element_has_text" name="transcript_length" text="PNG"/> </element> </output_collection> </test> </tests> <help><![CDATA[ **What is rnaQUAST** - a quality assessment tool for de novo transcriptome assemblies - evaluating RNA-Seq assembly quality and benchmarking transcriptome assemblers using reference genome and gene database - calculates various metrics that demonstrate completeness and correctness levels of the assembled transcripts **Using rnaQuast without reference** you wont get: - x-assembled (Exons) - Alignments per Isoform - x-covered (Exons) - x-matched (Blocks) - gmap build logs **Using rnaQuast with reference** you will get: - Reports - Logs - Alignement/Basic Metrics - Misassemblies/ Specificity/ Sensitivity - Alignment multiplicity - Block/ Transcript Lentgh - Blocks per alignment - Mismatch rate - x-aligned - Nx - Blocks per alignment - gmap build logs **Using rnaQuast without gene coordinates** you wont get: - x-assembled (Exons) - Alignments per Isoform - x-covered (Exons) - x-matched (Blocks) - gmap build logs - Database Metrics - Alignment multiplicity - Mismatch rate - NAx - x-aligned **Using rnaQuast with gene coordinates** you will get: - Reports - Logs - Alignement/Basic Metrics - Misassemblies/Specificity/Sensitivity - Alignment multiplicity - Block/Transcript length - Blocks per alignment - Mismatch rate - x-aligned - Nx/NAx - gmap build logs - Database Metrics - Alignment multiplicity More informations, see citations. ]]></help> <citations> <citation type="doi">10.1093/bioinformatics/btw218 </citation> </citations> </tool>