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taxprofiler/workflows/taxprofiler.nf
2022-03-24 14:10:58 +01:00

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/*
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
VALIDATE INPUTS
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
*/
def summary_params = NfcoreSchema.paramsSummaryMap(workflow, params)
// Validate input parameters
WorkflowTaxprofiler.initialise(params, log)
// TODO nf-core: Add all file path parameters for the pipeline to the list below
// Check input path parameters to see if they exist
def checkPathParamList = [ params.input, params.databases, params.multiqc_config ]
for (param in checkPathParamList) { if (param) { file(param, checkIfExists: true) } }
// Check mandatory parameters
if (params.input ) { ch_input = file(params.input) } else { exit 1, 'Input samplesheet not specified!' }
if (params.databases) { ch_databases = file(params.databases) } else { exit 1, 'Input database sheet not specified!' }
/*
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
CONFIG FILES
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
*/
ch_multiqc_config = file("$projectDir/assets/multiqc_config.yml", checkIfExists: true)
ch_multiqc_custom_config = params.multiqc_config ? Channel.fromPath(params.multiqc_config) : Channel.empty()
/*
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
IMPORT LOCAL MODULES/SUBWORKFLOWS
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
*/
//
// SUBWORKFLOW: Consisting of a mix of local and nf-core/modules
//
include { INPUT_CHECK } from '../subworkflows/local/input_check'
include { DB_CHECK } from '../subworkflows/local/db_check'
include { SHORTREAD_PREPROCESSING } from '../subworkflows/local/shortread_preprocessing'
include { LONGREAD_PREPROCESSING } from '../subworkflows/local/longread_preprocessing'
/*
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
IMPORT NF-CORE MODULES/SUBWORKFLOWS
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
*/
//
// MODULE: Installed directly from nf-core/modules
//
include { FASTQC } from '../modules/nf-core/modules/fastqc/main'
include { MULTIQC } from '../modules/nf-core/modules/multiqc/main'
include { CUSTOM_DUMPSOFTWAREVERSIONS } from '../modules/nf-core/modules/custom/dumpsoftwareversions/main'
include { CAT_FASTQ } from '../modules/nf-core/modules/cat/fastq/main'
include { MALT_RUN } from '../modules/nf-core/modules/malt/run/main'
include { KRAKEN2_KRAKEN2 } from '../modules/nf-core/modules/kraken2/kraken2/main'
/*
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
RUN MAIN WORKFLOW
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
*/
// Info required for completion email and summary
def multiqc_report = []
workflow TAXPROFILER {
ch_versions = Channel.empty()
//
// SUBWORKFLOW: Read in samplesheet, validate and stage input files
//
INPUT_CHECK (
ch_input
)
ch_versions = ch_versions.mix(INPUT_CHECK.out.versions)
DB_CHECK (
ch_databases
)
//
// MODULE: Run FastQC
//
FASTQC (
INPUT_CHECK.out.fastq.mix( INPUT_CHECK.out.nanopore )
)
ch_versions = ch_versions.mix(FASTQC.out.versions.first())
CUSTOM_DUMPSOFTWAREVERSIONS (
ch_versions.unique().collectFile(name: 'collated_versions.yml')
)
//
// PERFORM PREPROCESSING
//
if ( params.shortread_clipmerge ) {
ch_shortreads_preprocessed = SHORTREAD_PREPROCESSING ( INPUT_CHECK.out.fastq ).reads
} else {
ch_shortreads_preprocessed = INPUT_CHECK.out.fastq
}
if ( params.longread_clip ) {
ch_longreads_preprocessed = LONGREAD_PREPROCESSING ( INPUT_CHECK.out.nanopore ).reads
.map { it -> [ it[0], [it[1]] ] }
ch_versions = ch_versions.mix(LONGREAD_PREPROCESSING.out.versions.first())
} else {
ch_longreads_preprocessed = INPUT_CHECK.out.nanopore
}
//
// PERFORM SHORT READ RUN MERGING
// TODO: Check not necessary for long reads too?
//
ch_processed_for_combine = ch_shortreads_preprocessed
.dump(tag: "prep_for_combine_grouping")
.map {
meta, reads ->
def meta_new = meta.clone()
meta_new['run_accession'] = 'combined'
[ meta_new, reads ]
}
.groupTuple ( by: 0 )
.branch{
combine: it[1].size() >= 2
skip: it[1].size() < 2
}
CAT_FASTQ ( ch_processed_for_combine.combine )
ch_reads_for_profiling = ch_processed_for_combine.skip
.dump(tag: "skip_combine")
.mix( CAT_FASTQ.out.reads )
.dump(tag: "files_for_profiling")
//
// COMBINE READS WITH POSSIBLE DATABASES
//
// e.g. output [DUMP: reads_plus_db] [['id':'2612', 'run_accession':'combined', 'instrument_platform':'ILLUMINA', 'single_end':1], <reads_path>/2612.merged.fastq.gz, ['tool':'malt', 'db_name':'mal95', 'db_params':'"-id 90"'], <db_path>/malt90]
ch_input_for_profiling = ch_reads_for_profiling
.mix( ch_longreads_preprocessed )
.combine(DB_CHECK.out.dbs)
.dump(tag: "reads_plus_db")
.branch {
malt: it[2]['tool'] == 'malt'
kraken2: it[2]['tool'] == 'kraken2'
unknown: true
}
//
// PREPARE PROFILER INPUT CHANNELS
//
// We groupTuple to have all samples in one channel for MALT as database
// loading takes a long time, so we only want to run it once per database
ch_input_for_malt = ch_input_for_profiling.malt
.map {
it ->
def temp_meta = [ id: it[2]['db_name']] + it[2]
def db = it[3]
[ temp_meta, it[1], db ]
}
.groupTuple(by: [0,2])
.dump(tag: "input for malt")
.multiMap {
it ->
reads: [ it[0], it[1].flatten() ]
db: it[2]
}
// We can run Kraken2 one-by-one sample-wise
ch_input_for_kraken2 = ch_input_for_profiling.kraken2
.dump(tag: "input for kraken")
.multiMap {
it ->
reads: [ it[0] + it[2], it[1] ]
db: it[3]
}
//
// RUN PROFILING
//
if ( params.run_malt ) {
MALT_RUN ( ch_input_for_malt.reads, params.malt_mode, ch_input_for_malt.db )
}
if ( params.run_kraken2 ) {
KRAKEN2_KRAKEN2 ( ch_input_for_kraken2.reads, ch_input_for_kraken2.db )
}
//
// MODULE: MultiQC
//
workflow_summary = WorkflowTaxprofiler.paramsSummaryMultiqc(workflow, summary_params)
ch_workflow_summary = Channel.value(workflow_summary)
ch_multiqc_files = Channel.empty()
ch_multiqc_files = ch_multiqc_files.mix(Channel.from(ch_multiqc_config))
ch_multiqc_files = ch_multiqc_files.mix(ch_multiqc_custom_config.collect().ifEmpty([]))
ch_multiqc_files = ch_multiqc_files.mix(ch_workflow_summary.collectFile(name: 'workflow_summary_mqc.yaml'))
ch_multiqc_files = ch_multiqc_files.mix(CUSTOM_DUMPSOFTWAREVERSIONS.out.mqc_yml.collect())
ch_multiqc_files = ch_multiqc_files.mix(FASTQC.out.zip.collect{it[1]}.ifEmpty([]))
if (params.shortread_clipmerge) {
ch_multiqc_files = ch_multiqc_files.mix(SHORTREAD_PREPROCESSING.out.mqc)
}
if (params.longread_clip) {
ch_multiqc_files = ch_multiqc_files.mix(LONGREAD_PREPROCESSING.out.mqc)
}
if (params.run_kraken2) {
ch_multiqc_files = ch_multiqc_files.mix(KRAKEN2_KRAKEN2.out.txt.collect{it[1]}.ifEmpty([]))
ch_versions = ch_versions.mix(KRAKEN2_KRAKEN2.out.versions.first())
}
if (params.run_malt) {
ch_multiqc_files = ch_multiqc_files.mix(MALT_RUN.out.log.collect{it[1]}.ifEmpty([]))
ch_versions = ch_versions.mix(MALT_RUN.out.versions.first())
}
// TODO MALT results overwriting per database?
// TODO Versions for Karken/MALT not report?
MULTIQC (
ch_multiqc_files.collect()
)
multiqc_report = MULTIQC.out.report.toList()
ch_versions = ch_versions.mix(MULTIQC.out.versions)
}
/*
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
COMPLETION EMAIL AND SUMMARY
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
*/
workflow.onComplete {
if (params.email || params.email_on_fail) {
NfcoreTemplate.email(workflow, params, summary_params, projectDir, log, multiqc_report)
}
NfcoreTemplate.summary(workflow, params, log)
}
/*
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
THE END
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
*/