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taxprofiler/subworkflows/local/profiling.nf
James A. Fellows Yates 6c2ce4a1c9
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Co-authored-by: Sofia Stamouli <91951607+sofstam@users.noreply.github.com>
2023-03-03 08:37:31 +01:00

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//
// Run profiling
//
include { MALT_RUN } from '../../modules/nf-core/malt/run/main'
include { MEGAN_RMA2INFO as MEGAN_RMA2INFO_TSV } from '../../modules/nf-core/megan/rma2info/main'
include { KRAKEN2_KRAKEN2 } from '../../modules/nf-core/kraken2/kraken2/main'
include { KRAKEN2_STANDARD_REPORT } from '../../modules/local/kraken2_standard_report'
include { BRACKEN_BRACKEN } from '../../modules/nf-core/bracken/bracken/main'
include { CENTRIFUGE_CENTRIFUGE } from '../../modules/nf-core/centrifuge/centrifuge/main'
include { CENTRIFUGE_KREPORT } from '../../modules/nf-core/centrifuge/kreport/main'
include { METAPHLAN3_METAPHLAN3 } from '../../modules/nf-core/metaphlan3/metaphlan3/main'
include { KAIJU_KAIJU } from '../../modules/nf-core/kaiju/kaiju/main'
include { KAIJU_KAIJU2TABLE } from '../../modules/nf-core/kaiju/kaiju2table/main'
include { DIAMOND_BLASTX } from '../../modules/nf-core/diamond/blastx/main'
include { MOTUS_PROFILE } from '../../modules/nf-core/motus/profile/main'
include { KRAKENUNIQ_PRELOADEDKRAKENUNIQ } from '../../modules/nf-core/krakenuniq/preloadedkrakenuniq/main'
workflow PROFILING {
take:
reads // [ [ meta ], [ reads ] ]
databases // [ [ meta ], path ]
main:
ch_versions = Channel.empty()
ch_multiqc_files = Channel.empty()
ch_raw_classifications = Channel.empty()
ch_raw_profiles = Channel.empty()
/*
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 = reads
.map {
meta, reads ->
def meta_new = meta.clone()
pairtype = meta_new['single_end'] ? '_se' : '_pe'
meta_new['id'] = meta_new['id'] + pairtype
[meta_new, reads]
}
.combine(databases)
.branch {
centrifuge: it[2]['tool'] == 'centrifuge'
diamond: it[2]['tool'] == 'diamond'
kaiju: it[2]['tool'] == 'kaiju'
kraken2: it[2]['tool'] == 'kraken2' || it[2]['tool'] == 'bracken' // to reuse the kraken module to produce the input data for bracken
krakenuniq: it[2]['tool'] == 'krakenuniq'
malt: it[2]['tool'] == 'malt'
metaphlan3: it[2]['tool'] == 'metaphlan3'
motus: it[2]['tool'] == 'motus'
unknown: true
}
/*
PREPARE PROFILER INPUT CHANNELS & RUN PROFILING
*/
// Each tool as a slightly different input structure and generally separate
// input channels for reads vs databases. We restructure the channel tuple
// for each tool and make liberal use of multiMap to keep reads/databases
// channel element order in sync with each other
if ( params.run_malt ) {
// MALT: 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 {
meta, reads, db_meta, db ->
// Reset entire input meta for MALT to just database name,
// as we don't run run on a per-sample basis due to huge datbaases
// so all samples are in one run and so sample-specific metadata
// unnecessary. Set as database name to prevent `null` job ID and prefix.
def temp_meta = [ id: meta['db_name'] ]
// Extend database parameters to specify whether to save alignments or not
def new_db_meta = db_meta.clone()
def sam_format = params.malt_save_reads ? ' --alignments ./ -za false' : ""
new_db_meta['db_params'] = db_meta['db_params'] + sam_format
// Combine reduced sample metadata with updated database parameters metadata,
// make sure id is db_name for publishing purposes.
def new_meta = temp_meta + new_db_meta
new_meta['id'] = new_meta['db_name']
[ new_meta, reads, db ]
}
.groupTuple(by: [0,2])
.multiMap {
it ->
reads: [ it[0], it[1].flatten() ]
db: it[2]
}
MALT_RUN ( ch_input_for_malt.reads, ch_input_for_malt.db )
ch_maltrun_for_megan = MALT_RUN.out.rma6
.transpose()
.map{
meta, rma ->
// re-extract meta from file names, use filename without rma to
// ensure we keep paired-end information in downstream filenames
// when no pair-merging
def meta_new = meta.clone()
meta_new['db_name'] = meta.id
meta_new['id'] = rma.baseName
[ meta_new, rma ]
}
MEGAN_RMA2INFO_TSV (ch_maltrun_for_megan, params.malt_generate_megansummary )
ch_multiqc_files = ch_multiqc_files.mix( MALT_RUN.out.log )
ch_versions = ch_versions.mix( MALT_RUN.out.versions.first(), MEGAN_RMA2INFO_TSV.out.versions.first() )
ch_raw_classifications = ch_raw_classifications.mix( ch_maltrun_for_megan )
ch_raw_profiles = ch_raw_profiles.mix( MEGAN_RMA2INFO_TSV.out.txt )
}
if ( params.run_kraken2 ) {
// Have to pick first element of db_params if using bracken,
// as db sheet for bracken must have ; sep list to
// distinguish between kraken and bracken parameters
ch_input_for_kraken2 = ch_input_for_profiling.kraken2
.dump(tag: "ch_input_for_kraken2_b4")
.map {
meta, reads, db_meta, db ->
def db_meta_new = db_meta.clone()
// Only take second element if one exists
def parsed_params = db_meta_new['db_params'].split(";")
if ( parsed_params.size() == 2 ) {
db_meta_new['db_params'] = parsed_params[0]
} else if ( parsed_params.size() == 0 ) {
db_meta_new['db_params'] = ""
} else {
db_meta_new['db_params'] = parsed_params[0]
}
[ meta, reads, db_meta_new, db ]
}
.multiMap {
it ->
reads: [ it[0] + it[2], it[1] ]
db: it[3]
}
KRAKEN2_KRAKEN2 ( ch_input_for_kraken2.reads, ch_input_for_kraken2.db, params.kraken2_save_reads, params.kraken2_save_readclassification )
ch_multiqc_files = ch_multiqc_files.mix( KRAKEN2_KRAKEN2.out.report )
ch_versions = ch_versions.mix( KRAKEN2_KRAKEN2.out.versions.first() )
ch_raw_classifications = ch_raw_classifications.mix( KRAKEN2_KRAKEN2.out.classified_reads_assignment )
ch_raw_profiles = ch_raw_profiles.mix(
KRAKEN2_KRAKEN2.out.report
// Set the tool to be strictly 'kraken2' instead of potentially 'bracken' for downstream use.
// Will remain distinct from 'pure' Kraken2 results due to distinct database names in file names.
.map { meta, report -> [meta + [tool: 'kraken2'], report]}
)
}
if ( params.run_kraken2 && params.run_bracken ) {
// Remove files from 'pure' kraken2 runs, so only those aligned against Bracken & kraken2 database are used.
def ch_kraken2_output = KRAKEN2_KRAKEN2.out.report
.filter {
meta, report ->
if ( meta['instrument_platform'] == 'OXFORD_NANOPORE' ) log.warn "[nf-core/taxprofiler] Bracken has not been evaluated for Nanopore data. Skipping Bracken for sample ${meta.id}."
meta['tool'] == 'bracken' && meta['instrument_platform'] != 'OXFORD_NANOPORE'
}
// If necessary, convert the eight column output to six column output.
if (params.kraken2_save_minimizers) {
ch_kraken2_output = KRAKEN2_STANDARD_REPORT(ch_kraken2_output).report
}
// Extract the database name to combine by.
ch_bracken_databases = databases
.filter { meta, db -> meta['tool'] == 'bracken' }
.map { meta, db -> [meta['db_name'], meta, db] }
// Combine back with the reads
ch_input_for_bracken = ch_kraken2_output
.map { meta, report -> [meta['db_name'], meta, report] }
.combine(ch_bracken_databases, by: 0)
.map {
key, meta, reads, db_meta, db ->
def db_meta_new = db_meta.clone()
// Have to pick second element if using bracken, as first element
// contains kraken parameters
if ( db_meta['tool'] == 'bracken' ) {
// Only take second element if one exists
def parsed_params = db_meta_new['db_params'].split(";")
if ( parsed_params.size() == 2 ) {
db_meta_new['db_params'] = parsed_params[1]
} else {
db_meta_new['db_params'] = ""
}
} else {
db_meta_new['db_params']
}
[ key, meta, reads, db_meta_new, db ]
}
.multiMap { key, meta, report, db_meta, db ->
report: [meta + db_meta, report]
db: db
}
BRACKEN_BRACKEN(ch_input_for_bracken.report, ch_input_for_bracken.db)
ch_versions = ch_versions.mix(BRACKEN_BRACKEN.out.versions.first())
ch_raw_profiles = ch_raw_profiles.mix(BRACKEN_BRACKEN.out.reports)
}
if ( params.run_centrifuge ) {
ch_input_for_centrifuge = ch_input_for_profiling.centrifuge
.filter{
if (it[0].is_fasta) log.warn "[nf-core/taxprofiler] Centrifuge currently does not accept FASTA files as input. Skipping Centrifuge for sample ${it[0].id}."
!it[0].is_fasta
}
.multiMap {
it ->
reads: [ it[0] + it[2], it[1] ]
db: it[3]
}
CENTRIFUGE_CENTRIFUGE ( ch_input_for_centrifuge.reads, ch_input_for_centrifuge.db, params.centrifuge_save_reads, params.centrifuge_save_reads, params.centrifuge_save_reads )
CENTRIFUGE_KREPORT (CENTRIFUGE_CENTRIFUGE.out.report, ch_input_for_centrifuge.db)
ch_versions = ch_versions.mix( CENTRIFUGE_CENTRIFUGE.out.versions.first() )
ch_raw_classifications = ch_raw_classifications.mix( CENTRIFUGE_CENTRIFUGE.out.results )
ch_raw_profiles = ch_raw_profiles.mix( CENTRIFUGE_KREPORT.out.kreport )
ch_multiqc_files = ch_multiqc_files.mix( CENTRIFUGE_KREPORT.out.kreport )
}
if ( params.run_metaphlan3 ) {
ch_input_for_metaphlan3 = ch_input_for_profiling.metaphlan3
.filter{
if (it[0].is_fasta) log.warn "[nf-core/taxprofiler] MetaPhlAn3 currently does not accept FASTA files as input. Skipping MetaPhlAn3 for sample ${it[0].id}."
!it[0].is_fasta
}
.multiMap {
it ->
reads: [it[0] + it[2], it[1]]
db: it[3]
}
METAPHLAN3_METAPHLAN3 ( ch_input_for_metaphlan3.reads, ch_input_for_metaphlan3.db )
ch_versions = ch_versions.mix( METAPHLAN3_METAPHLAN3.out.versions.first() )
ch_raw_profiles = ch_raw_profiles.mix( METAPHLAN3_METAPHLAN3.out.profile )
}
if ( params.run_kaiju ) {
ch_input_for_kaiju = ch_input_for_profiling.kaiju
.multiMap {
it ->
reads: [it[0] + it[2], it[1]]
db: it[3]
}
KAIJU_KAIJU ( ch_input_for_kaiju.reads, ch_input_for_kaiju.db)
ch_versions = ch_versions.mix( KAIJU_KAIJU.out.versions.first() )
ch_raw_classifications = ch_raw_classifications.mix( KAIJU_KAIJU.out.results )
KAIJU_KAIJU2TABLE ( KAIJU_KAIJU.out.results, ch_input_for_kaiju.db, params.kaiju_taxon_rank)
ch_versions = ch_versions.mix( KAIJU_KAIJU2TABLE.out.versions )
ch_multiqc_files = ch_multiqc_files.mix( KAIJU_KAIJU2TABLE.out.summary )
ch_raw_profiles = ch_raw_profiles.mix( KAIJU_KAIJU2TABLE.out.summary )
}
if ( params.run_diamond ) {
ch_input_for_diamond = ch_input_for_profiling.diamond
.multiMap {
it ->
reads: [it[0] + it[2], it[1]]
db: it[3]
}
// diamond only accepts single output file specification, therefore
// this will replace output file!
ch_diamond_reads_format = params.diamond_save_reads ? 'sam' : params.diamond_output_format
DIAMOND_BLASTX ( ch_input_for_diamond.reads, ch_input_for_diamond.db, ch_diamond_reads_format , [] )
ch_versions = ch_versions.mix( DIAMOND_BLASTX.out.versions.first() )
ch_raw_profiles = ch_raw_profiles.mix( DIAMOND_BLASTX.out.tsv )
ch_multiqc_files = ch_multiqc_files.mix( DIAMOND_BLASTX.out.log )
}
if ( params.run_motus ) {
ch_input_for_motus = ch_input_for_profiling.motus
.filter{
if (it[0].is_fasta) log.warn "[nf-core/taxprofiler] mOTUs currently does not accept FASTA files as input. Skipping mOTUs for sample ${it[0].id}."
!it[0].is_fasta
}
.multiMap {
it ->
reads: [it[0] + it[2], it[1]]
db: it[3]
}
MOTUS_PROFILE ( ch_input_for_motus.reads, ch_input_for_motus.db )
ch_versions = ch_versions.mix( MOTUS_PROFILE.out.versions.first() )
ch_raw_profiles = ch_raw_profiles.mix( MOTUS_PROFILE.out.out )
ch_multiqc_files = ch_multiqc_files.mix( MOTUS_PROFILE.out.log )
}
if ( params.run_krakenuniq ) {
ch_input_for_krakenuniq = ch_input_for_profiling.krakenuniq
.map {
meta, reads, db_meta, db ->
[[id: db_meta.db_name, single_end: meta.single_end], reads, db_meta, db]
}
.groupTuple(by: [0,2,3])
.multiMap {
single_meta, reads, db_meta, db ->
reads: [ single_meta + db_meta, reads.flatten() ]
db: db
}
// Hardcode to _always_ produce the report file (which is our basic output, and goes into)
KRAKENUNIQ_PRELOADEDKRAKENUNIQ ( ch_input_for_krakenuniq.reads, ch_input_for_krakenuniq.db, params.krakenuniq_ram_chunk_size, params.krakenuniq_save_reads, true, params.krakenuniq_save_readclassifications )
ch_multiqc_files = ch_multiqc_files.mix( KRAKENUNIQ_PRELOADEDKRAKENUNIQ.out.report )
ch_versions = ch_versions.mix( KRAKENUNIQ_PRELOADEDKRAKENUNIQ.out.versions.first() )
ch_raw_classifications = ch_raw_classifications.mix( KRAKENUNIQ_PRELOADEDKRAKENUNIQ.out.classified_assignment )
ch_raw_profiles = ch_raw_profiles.mix( KRAKENUNIQ_PRELOADEDKRAKENUNIQ.out.report )
}
emit:
classifications = ch_raw_classifications
profiles = ch_raw_profiles // channel: [ val(meta), [ reads ] ] - should be text files or biom
versions = ch_versions // channel: [ versions.yml ]
motus_version = params.run_motus ? MOTUS_PROFILE.out.versions.first() : Channel.empty()
mqc = ch_multiqc_files
}