Mercurial > repos > fwuennemann > kb_python
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author | fwuennemann |
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date | Fri, 16 Apr 2021 18:18:21 +0000 |
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children | dbcb26e2a1db |
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<tool id="kb_python" name="kb_python" version="@VERSION@+galaxy0"> <description>performs gene and feature quantification on single-cell sequencing data.</description> <macros> <import>macros.xml</import> </macros> <requirements> <requirement type="package" version="0.25.1">kb-python</requirement> </requirements> <stdio> <exit_code range="1:" /> <exit_code range=":-1" /> <regex match="Error:" /> <regex match="Exception:" /> <regex match="Exception :" /> </stdio> <command detect_errors="exit_code"><![CDATA[ mkdir ./index && mkdir ./kb_outs #if $refTranscriptSource.TranscriptSource == "history": && ln -s '${refTranscriptSource.h_index.index_file}' './index/kb_ref.idx' && ln -s '${refTranscriptSource.h_index.t2g_file}' './index/t2g.txt' #if $workflow == "lamanno" or $workflow == "nucleus": && ln -s '${refTranscriptSource.h_index.history_lamanno.cdna_t2c}' './index/cdna_t2c.txt' && ln -s '${refTranscriptSource.h_index.history_lamanno.intron_t2c}' './index/intron_t2c.txt' #end if #set $index_path = './index' #else if $refTranscriptSource.TranscriptSource == "built": && kb ref -i ./index/kb_ref.idx -g ./index/t2g.txt -f1 ./index/cdna.fa --workflow $workflow #if $workflow == "lamanno" or $workflow == "nucleus": -f2 ./index/intron.fa -c1 ./index/cdna_t2c.txt -c2 ./index/intron_t2c.txt --workflow $workflow #end if #if $workflow != "kite": '${refTranscriptSource.s_index.genomic_fasta}' '${refTranscriptSource.s_index.genomic_gtf}' #else: '${refTranscriptSource.s_index.kite_table}' #end if #set $index_path = './index' #end if && kb count -t \${GALAXY_SLOTS:-1} -i $index_path/kb_ref.idx -g $index_path/t2g.txt #if $workflow == "lamanno" or $workflow == "nucleus": -c1 $index_path/cdna_t2c.txt -c2 $index_path/intron_t2c.txt #end if -x $technology #if $whitelist: --whitelist '${optional.whitelist}' #end if #if $optional.multimap: --mm #end if --workflow $workflow #if $extra_dtype != "none": $extra_dtype #end if -o ./kb_outs --cellranger $FASTQ1 $FASTQ2 ]]> </command> <inputs> <param name="workflow" label="Select the workflow you want to use:" type="select" multiple="false" format="text" help="Type of workflow. Use `lamanno` for RNA velocity based on La Manno et al. 2018 logic. Use `nucleus` for RNA velocity on single-nucleus RNA-seq reads. Use `kite` for feature barcoding. Use `kite:10xFB` for 10x Genomics Feature Barcoding technology."> <option value="standard">standard</option> <option value="lamanno">lamanno</option> <option value="nucleus">nucleus</option> <option value="kite">kite</option> </param> <expand macro="index"/> <param name="technology" label="Select the scRNA-seq technology:" type="select" multiple="false" format="text" help="Choose the scRNA-seq technology used to generate the fastq data."> <option value="10XV1">10XV1</option> <option value="10XV2">10XV2</option> <option value="10XV3">10XV3</option> <option value="CELSEQ">CELSEQ</option> <option value="CELSEQ2">CELSEQ2</option> <option value="DROPSEQ">DROPSEQ</option> <option value="INDROPSV1">INDROPSV1</option> <option value="INDROPSV2">INDROPSV2</option> <option value="INDROPSV3">INDROPSV3</option> <option value="SCRUBSEQ">SCRUBSEQ</option> <option value="SURECELL">SURECELL</option> </param> <param name="FASTQ1" label="Select the R1 fastq file:" type="data" format="fastqsanger.gz" multiple="false"/> <param name="FASTQ2" label="Select the R2 fastq file:" type="data" format="fastqsanger.gz" multiple="false"/> <param name="extra_dtype" type="select" label="Do you want any additional output data type beside CellRanger?"> <option value="none" selected = "true">No</option> <option value="--loom">Loom</option> <option value="--h5ad">H5ad</option> </param> <section name="optional" title="Optional commands" expanded="false"> <param name="whitelist" type="data" format="tsv,tabular" optional="true" label="Whitelist file" help="Whitelisted barcodes to correct to. If not provided and bustools supports the technology, a pre-packaged whitelist is used. If not, the bustools whitelist command is used."/> <param name="multimap" type="boolean" optional="true" label="Include multi pseudoaligned reads?" help="Do you want to include reads that pseudoalign to multiple genes?"/> </section> </inputs> <outputs> <data name="barcodes" label="cellranger barcodes" format="txt" from_work_dir="kb_outs/counts_unfiltered/cellranger/barcodes.tsv"/> <data name="genes" label="cellranger genes" format="txt" from_work_dir="kb_outs/counts_unfiltered/cellranger/genes.tsv"/> <data name="matrix" label="cellranger matrix" format="mtx" from_work_dir="kb_outs/counts_unfiltered/cellranger/matrix.mtx" /> <data name="inspect" label="inspect_report" format="json" from_work_dir="kb_outs/inspect.json"/> <data name="runinfo" label="run info" format="json" from_work_dir="kb_outs/run_info.json"/> <data name="kbinfo" label="kb info" format="json" from_work_dir="kb_outs/kb_info.json"/> <data name="kb_ref" label="kb_ref.idx" format="kallisto.idx" from_work_dir="index/kb_ref.idx"/> <data name="t2g" label="t2g.txt" format="txt" from_work_dir="index/t2g.txt"/> <data name="cdna_t2c" label="-c1 cdna_t2c.txt" format="txt" from_work_dir="index/cdna_t2c.txt"> <filter>workflow == "lamanno"</filter> </data> <data name="intron_t2c" label="-c2 intron_t2c.txt" format="txt" from_work_dir="index/intron_t2c.txt"> <filter>workflow == "lamanno"</filter> </data> <data name="adata" label="adata.h5ad" format="h5ad" from_work_dir="kb_outs/counts_unfiltered/adata.h5ad"> <filter >extra_dtype == "--h5ad"</filter> </data> <data name="adata" label="adata.loom" format="loom" from_work_dir="kb_outs/counts_unfiltered/adata.loom"> <filter>extra_dtype == "--loom"</filter> </data> </outputs> <tests> <expand macro="tests"/> </tests> <help><![CDATA[ This is a galaxy wrapper for kallisto-bustools (kb) for quantification of different types of single-cell sequencing data. The main kallisto-bustools homepage can be found under: 'kallisto-bustools<https://www.kallistobus.tools/>'. The kb count command runs the kallisto and bustools programs. It can be used for pre-processing of data from a variety of single-cell RNA-seq technologies, and for a number of different workflows (e.g. production of gene count matrices, RNA velocity analyses, etc.). The kb package is developed and maintained by the Pachterlab under the MIT License. ]]></help> <citations> <citation type="doi">https://doi.org/10.1101/673285</citation> </citations> </tool>