view ivar_trim.xml @ 13:f0cc9cf99407 draft

planemo upload for repository https://github.com/galaxyproject/tools-iuc/tree/master/tools/ivar/ commit a16957b7f6cb8687daafb005c0036abebce59b26
author iuc
date Fri, 10 Feb 2023 17:32:03 +0000
parents e3bb03cf207a
children bcaa0d571ce2
line wrap: on
line source

<tool id="ivar_trim" name="ivar trim" version="@TOOL_VERSION@+galaxy6" profile="@PROFILE@">
    <description>Trim reads in aligned BAM</description>
    <macros>
        <import>macros.xml</import>
    </macros>
    <expand macro="requirements"/>
    <expand macro="version_command"/>
    <command detect_errors="exit_code"><![CDATA[
        #if $primer.source == 'history'
            cp '$primer.input_bed' bed.bed &&
        #else
            cp '$primer.cached_bed.fields.path' bed.bed &&
        #end if
        python '$__tool_directory__/sanitize_bed.py' bed.bed &&
        #if $amplicons.filter_by == 'yes' or $amplicons.filter_by == 'yes_compute'
            #if $amplicons.filter_by == 'yes_compute':
                python '$__tool_directory__/write_amplicon_info_file.py' bed.bed amplicon_info_raw.tsv &&
            #else
                ln -s '$amplicons.amplicon_info' amplicon_info_raw.tsv &&
            #end if
            python '$__tool_directory__/prepare_amplicon_info.py' bed.bed amplicon_info_raw.tsv amplicon_info.tsv &&
        #end if
        ln -s '$input_bam' sorted.bam &&
        ln -s '${input_bam.metadata.bam_index}' sorted.bam.bai &&

        ivar trim
        -i sorted.bam
        -b bed.bed
        #if $amplicons.filter_by == 'yes' or $amplicons.filter_by == 'yes_compute'
            -f amplicon_info.tsv
        #end if
        -x $primer_pos_wiggle
        $inc_primers
        -m $min_len
        -q $min_qual
        -s $window_width
        -p trimmed &&
        samtools sort -@ \${GALAXY_SLOTS:-1} -o trimmed.sorted.bam trimmed.bam
    ]]>    </command>
    <inputs>
        <param name="input_bam" argument="-i" type="data" format="bam" label="Bam file" help="Aligned reads, to trim primers and quality"/>
        <conditional name="primer">
            <param label="Source of primer information" name="source" type="select">
                <option value="history" selected="true">History</option>
                <option value="cached">Built-in</option>
            </param>
            <when value="history">
                <param name="input_bed" argument="-b" type="data" format="bed" label="BED file with primer sequences and positions"/>
            </when>
            <when value="cached">
                <param name="cached_bed" type="select" label="Primer scheme name" help="Select primer scheme bed file from a list">
                    <options from_data_table="primer_scheme_bedfiles">
                        <filter type="sort_by" column="1" />
                    <validator type="no_options" message="No primer schemes are available" />
                    </options>
                </param>
            </when>
        </conditional>
        <conditional name="amplicons">
            <param name="filter_by" type="select"
            label="Filter reads based on amplicon info"
            help="When you select Yes, reads that are not fully contained in any amplicon will be dropped before primer trimming. This option is currently marked as [Experimental] in ivar, but nevertheless recommended here. Info on amplicons can be computed from suitable primer BED files (see tool help below) or provided by the user. ">
                <option value="">No, allow reads to extend beyond amplicon boundaries</option>
                <option value="yes_compute">Yes, drop reads that extend beyond amplicon boundaries</option>
                <option value="yes">Yes, drop reads that extend beyond amplicon boundaries and use my amplicon info file</option>
            </param>
            <when value="yes_compute" />
            <when value="yes">
                <param name="amplicon_info" argument="-f" type="data" format="tabular" />
            </when>
            <when value="" />
        </conditional>
        <param name="primer_pos_wiggle" argument="-x" type="integer" min="0" value="0"
        label="Wiggling room for read ends relative to primer binding sites"
        help="Reads that occur at the specified offset positions relative to primer positions (as annotated in the primer information dataset) will also be trimmed (default: 0)" />
        <param name="inc_primers" argument="-e" type="boolean" truevalue="-e" falsevalue="" checked="false" label="Include reads not ending in any primer binding sites?"/>
        <param name="min_len" argument="-m" type="integer" min="0" value="30" label="Minimum length of read to retain after trimming"/>
        <param name="min_qual" argument="-q" type="integer" min="0" max="255" value="20" label="Minimum quality threshold for sliding window to pass"/>
        <param name="window_width" argument="-s" type="integer" min="0" max="255" value="4" label="Width of sliding window"/>
    </inputs>
    <outputs>
        <data name="output_bam" format="bam" label="${tool.name} on ${on_string} Trimmed bam" from_work_dir="trimmed.sorted.bam"/>
    </outputs>
    <tests>
        <!-- #1: SARS-Cov data-->
        <test>
            <param name="input_bam" value="covid19/PC00101P_sub.sorted.bam" />
            <param name="input_bed" value="covid19/ARTIC-V1.bed" />
            <param name="inc_primers" value="true" />
            <output name="output_bam" file="covid19/PC00101P_sub.sorted.bam" compare="sim_size" delta="300000"/>
        </test>
        <test>
            <!-- Test with primer bed file that needs to be sanitized -->
            <param name="input_bam" value="covid19/PC00101P_sub.sorted.bam" />
            <param name="input_bed" value="covid19/ARTIC-V1-bad.bed" />
            <param name="inc_primers" value="true" />
            <output name="output_bam" file="covid19/PC00101P_sub.sorted.bam" compare="sim_size" delta="300000"/>
        </test>
        <!-- #1: Zika data-->
        <test>
            <conditional name="primer">
                <param name="source" value="history" />
                <param name="input_bed" value="zika/db/zika_primers.bed" />
            </conditional>
            <param name="input_bam" value="zika/Z52_a.sorted.bam" />
            <output name="output_bam" file="zika/Z52_a.trimmed.sorted.bam" compare="sim_size" delta="100000"/>
        </test>
        <test>
            <conditional name="primer">
                <param name="source" value="history" />
                <param name="input_bed" value="zika/db/zika_primers.bed" />
            </conditional>
            <param name="input_bam" value="zika/Z52_b.sorted.bam" />
            <output name="output_bam" ftype="bam">
                <assert_contents>
                    <has_size value="4023965" delta="1000"/>
                </assert_contents>
            </output>
            <assert_stdout>
                <has_text text="Found 68 primers in BED file"/>
                <has_text text="Using Region: PRV"/>
                <has_text text="Found 40964 mapped reads"/>
                <has_text text="reads were quality trimmed below the minimum length of 30 bp and were not written to file"/>
                <has_text text="reads that started outside of primer regions were not written to file"/>
            </assert_stdout>
        </test>
        <test>
            <conditional name="primer">
                <param name="source" value="cached" />
                <param name="cached_bed" value="SARS-CoV-2-ARTICv1" />
            </conditional>
            <param name="input_bam" value="sars-cov-2/sars_cov2_untrimmed.bam" ftype="bam" />
            <output name="output_bam" file="sars-cov-2/sars_cov2_trimmed.bam" compare="sim_size" delta="100000"/>
        </test>
        <test>
            <conditional name="primer">
                <param name="source" value="cached" />
                <param name="cached_bed" value="SARS-CoV-2-ARTICv1" />
            </conditional>
            <conditional name="amplicons">
                <param name="filter_by" value="yes_compute" />
            </conditional>
            <param name="input_bam" value="sars-cov-2/sars_cov2_untrimmed.bam" ftype="bam" />
            <assert_command>
                <has_text text="write_amplicon_info_file" />
            </assert_command>
            <output name="output_bam" file="sars-cov-2/sars_cov2_trimmed.bam" compare="sim_size" delta="100000"/>
        </test>
    </tests>
    <help><![CDATA[
iVar uses primer positions supplied in a BED file to soft clip primer
sequences from an aligned and sorted BAM file. Following this, the reads are
trimmed further based on a quality threshold.

**Primer and Amplicon info**

The tool requires information about primers and their binding sites in 6-column
BED format. The information from this file is used to decide whether any mapped
read in the BAM input ends with a primer sequence and should, thus, be
soft-clipped.

Optionally, the tool can also discard reads that do not fully map to within any
amplicon. Such reads are likely to be wet-lab or mapping artefacts and removing
them can increase variant calling precision. To calculate the extent of
expected amplicons the tool needs to know which primers work together to form
an amplicon. The tool can try to deduce this info from the names of the primers
found in the primer info dataset. This will require a primer naming scheme
following the regex pattern::

  .*_(?P<amplicon_number>\d+).*_(?P<primer_orientation>L(?:EFT)?|R(?:IGHT)?)

*i.e.*, the following schemes will work (and get parsed as):

- ``nCoV-2019_1_LEFT`` (forward primer of amplicon 1)

- ``400_2_out_R`` (reverse primer of amplicon 2)

- ``QIAseq_163-2_LEFT`` (forward primer of amplicon 163)

Alternatively, you can specify the amplicon information explicitly through a
dataset that lists the names of primers that together form any given amplicon.
In it, primer names (exactly matching those in the primer info dataset) need to
be TAB-separated with one line per amplicon.
If the primer scheme has more than two primers contributing to a given amplicon
(in schemes using alternate primers), you can (in this Galaxy tool only)
specify all of them on one line and the tool will calculate the maximum extent
of the amplicon.

**Quality trimming details**

To do the quality trimming, iVar uses a sliding window approach. The window
slides from the 5' end to the 3' end and if at any point the average base
quality in the window falls below the threshold, the remaining read is soft
clipped. If after trimming, the length of the read is greater than the minimum
length specified, the read is written to the new trimmed BAM file.

Documentation can be found at `<https://andersen-lab.github.io/ivar/html/manualpage.html>`_.
    ]]></help>
    <expand macro="citations" />
</tool>