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| author | artbio |
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| date | Tue, 11 Jul 2017 11:44:36 -0400 |
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<tool id="artbio_size_histogram" name="Generate read size histograms" version="1.0.0"> <description>from alignment files</description> <requirements> <requirement type="package" version="1.2.0=py27_0">bowtie</requirement> <requirement type="package" version="0.11.2.1=py27_0">pysam</requirement> <requirement type="package" version="1.9.3">numpy</requirement> <requirement type="package" version="1.3.2=r3.3.2_0">r-optparse</requirement> <requirement type="package" version="0.6_28=r3.3.2_0">r-latticeextra</requirement> <requirement type="package" version="2.2.1=r3.3.2_0">r-gridextra</requirement> </requirements> <command detect_errors="exit_code"><![CDATA[ python '$__tool_directory__'/size_histogram.py #if $refGenomeSource.genomeSource == "history": --reference_fasta ## sys.argv[2] '$refGenomeSource.ownFile' ## index source #else: #silent reference= filter( lambda x: str( x[0] ) == str( $refGenomeSource.series[0].input.dbkey ), $__app__.tool_data_tables[ 'bowtie_indexes' ].get_fields() )[0][-1] --reference_bowtie_index '$reference' #end if --output_size_distribution '$size_distribution_dataframe' --minquery $minquery --maxquery $maxquery --input #for $i in $refGenomeSource.series '$i.input' #end for --ext #for $i in $refGenomeSource.series '$i.input.ext' #end for --label #for $i in $refGenomeSource.series "$i.input.element_identifier" #end for #if $gff: --gff '$gff' #end if #if $global.value == 'yes': --global_size #end if #if $collapsestrands.value == 'yes': --collapse #end if --normalization_factor #for $i in $refGenomeSource.series $i.norm #end for && Rscript '$__tool_directory__'/size_histogram.r --global '$global' --size_distribution_tab '$size_distribution_dataframe' --size_distribution_pdf '$size_PDF' --title '$title' --ylabel '$ylabel' --yrange '$yrange' --rows_per_page '$rows_per_page' ]]></command> <inputs> <conditional name="refGenomeSource"> <param name="genomeSource" type="select" label="Will you select a reference genome 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"> <repeat name="series" title="Add alignment files"> <param name="input" type="data" label="Select multiple alignments to parse" format="tabular,sam,bam"> <validator type="dataset_metadata_in_data_table" table_name="bowtie_indexes" metadata_name="dbkey" metadata_column="0" message="database not set for this bowtie output. Select the database(=genome used for matching) manually, or select a reference fasta from your history."/> </param> <param name="norm" type="float" value="1" label="Indicate a normalization factor to compare multiple aligments"/> </repeat> </when> <when value="history"> <param name="ownFile" type="data" format="fasta" label="Select a fasta file, to serve as index reference" /> <repeat name="series" title="Add alignment files"> <param name="input" type="data" label="Select multiple alignments to parse" format="tabular,sam,bam"/> <param name="norm" type="float" value="1" label="Indicate a normalization factor to compare multiple aligments"/> </repeat> </when> </conditional> <param name="gff" type="data" format="gff,gff3" optional="true" label="Optional: select a GFF to investigate regions of interest" help="GFF must match genome build"/> <!-- <validator type="dataset_metadata_in_data_table" table_name="bowtie_indexes" metadata_name="dbkey" metadata_column="0" message="GFF database and alignment file databse do not match!"/> --> <param name="global" type="select" label="Generate size distribution for each item, or generate a global alignment"> <option value="no">for each item</option> <option value="yes">global</option> </param> <param name="collapsestrands" type="select" label="Whether + and - reads should be collapsed or not"> <option value="no">Do not collapse</option> <option value="yes">Collapse + and - reads</option> </param> <param name="minquery" type="integer" size="3" value="18" label="Min size of reads to plot" help="'15' = 15 nucleotides"/> <param name="maxquery" type="integer" size="3" value="28" label="Max size of reads to plot" help="'30' = 30 nucleotides"/> <param name="title" type="text" size="15" value="Size distribution" label="Main Titles"/> <param name="xlabel" type="text" size="15" value="Size in nucleotides" label="x axis label"/> <param name="ylabel" type="text" size="15" value="Number of reads" label="y axis label"/> <param name="yrange" type="integer" size="3" value="0" label="y axis range for size distributions. 0 means auto-scaling."/> <param name="rows_per_page" type="text" size="9" value="8" label="How many items to display per page?"> <validator type="in_range" min="6" max="20" message="Select between 6 and 20 rows, as the readability will suffer otherwise."/> </param> </inputs> <outputs> <data format="tabular" name="size_distribution_dataframe" label="Size_distribution_dataframe.tab"/> <data format="pdf" name="size_PDF" label="Size_distribution.pdf"/> </outputs> <help> **What it does** Takes one or more alignment files (BAM, SAM or tabular bowtie output) as input and produces a histogram of read sizes, where by default for each "chromosome" a histogram of read sizes is drawn. Reads that map in sense are on the top (red), reads that map antisense are on the bottom (blue). .. class:: warningmark '''TIP''' The input data can be produced using the sRbowtie tool. ---- '''Example''' Query sequence:: For a SAM file as the following: 5 16 2L_79 24393 255 17M * 0 0 CCTTCATCTTTTTTTTT IIIIIIIIIIIIIIIII XA:i:0 MD:Z:17 NM:i:0 11 0 2R_1 12675 255 21M * 0 0 AAAAAAAACGCGTCCTTGTGC IIIIIIIIIIIIIIIIIIIII XA:i:0 MD:Z:21 NM:i:0 2 16 2L_5 669 255 23M * 0 0 TGTTGCTGCATTTCTTTTTTTTT IIIIIIIIIIIIIIIIIIIIIII XA:i:0 MD:Z:23 NM:i:0 produce a plot like this: ---- .. image:: static/images/size_histogram.png :height: 800 :width: 500 </help> <tests> <test> <param name="genomeSource" value="history" /> <param name="ownFile" value="transposons.fasta" ftype="fasta" /> <param name="series_0|input" value="sample1.srbowtie_out" ftype="tabular"/> <param name="series_0|norm" value="1" /> <param name="series_1|input" value="sample2.srbowtie_out" ftype="tabular"/> <param name="series_1|norm" value="1" /> <param name="series_2|input" value="sample3.srbowtie_out" ftype="tabular"/> <param name="series_2|norm" value="1" /> <param name="global" value="no" /> <param name="collapsestrands" value="no" /> <param name="minquery" value="18"/> <param name="maxquery" value="30"/> <param name="title" value="Size distribution"/> <param name="xlabel" value="Size in nucleotides"/> <param name="ylabel" value="Number of reads"/> <param name="rows_per_page" value="10"/> <output name="size_distribution_dataframe" ftype="tabular" file="Size_distribution_dataframe.tab" /> <output name="size_PDF" ftype="pdf" file="Size_distribution.pdf" /> </test> </tests> </tool>