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main.nf
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#!/usr/bin/env nextflow
/*
========================================================================================
nf-core/nanoclust
========================================================================================
nf-core/nanoclust Analysis Pipeline.
#### Homepage / Documentation
https://github.com/nf-core/nanoclust
----------------------------------------------------------------------------------------
*/
log.info nfcoreHeader()
def helpMessage() {
log.info"""
Usage:
The typical command for running the pipeline is as follows:
nextflow run nf-core/nanoclust --reads 'reads.fastq' --db "path/to/db" --tax "path/to/taxdb" -profile conda
Mandatory arguments:
--reads Path to input data (must be surrounded with quotes)
-profile Configuration profile to use. Can use multiple (comma separated)
Available: conda, docker, singularity, awsbatch, test and more.
UMAP and HDBSCAN clustering parameters:
--umap_set_size Number of reads used to perform the UMAP+HDBSCAN clustering (100000)
--cluster_sel_epsilon Minimun distance to separate clusters. (0.5)
--min_cluster_size Minimum number of reads to call a independent cluster (100)
--min_read_length Minimum number of base pair in sequence reads (1400)
--max_read_length Maximum number of base pair in sequence reads (1700)
--avg_amplicon_size Average size for the sequenced amplicon (ie: 1.5k for 16S/1.8k for 18S)
Other options:
--demultiplex Set this parameter if you file is a pooled sample
--demultiplex_porechop Same as --demultiplex but uses Porechop for the task
--kit (Only with --demultiplex) Barcoding kit (RAB204) {Auto,PBC096,RBK004,NBD104/NBD114,PBK004/LWB001,RBK001,RAB204,VMK001,PBC001,NBD114,NBD103/NBD104,DUAL,RPB004/RLB001}
--umap_set_size Number of reads used to perform the UMAP+HDBSCAN clustering (100000)
--cluster_sel_epsilon Minimun distance to separate clusters. (0.5)
--min_cluster_size Minimum number of reads to call a independent cluster (100)
--polishing_reads Number of reads used for polishing (100)
--db Path to local BLAST database. If not specified, search will be done againts NCBI 16S Microbial
--tax Path to taxdb database which contains the names for the --db entries
--outdir The output directory where the results will be saved
--email Set this parameter to your e-mail address to get a summary e-mail with details of the run sent to you when the workflow exits
--email_on_fail Same as --email, except only send mail if the workflow is not successful
--maxMultiqcEmailFileSize Theshold size for MultiQC report to be attached in notification email. If file generated by pipeline exceeds the threshold, it will not be attached (Default: 25MB)
-name Name for the pipeline run. If not specified, Nextflow will automatically generate a random mnemonic.
""".stripIndent()
}
// Show help message
if (params.help) {
helpMessage()
exit 0
}
/*
* SET UP CONFIGURATION VARIABLES
*/
def racon_warnings = []
if(params.demultiplex) {
Channel.fromPath(params.reads).set { multiplexed_reads }
}
else if(params.demultiplex_porechop){
Channel.fromPath(params.reads).set { multiplexed_reads_porechop }
}
else{
Channel.fromPath(params.reads).set { reads }
}
// Has the run name been specified by the user?
// this has the bonus effect of catching both -name and --name
custom_runName = params.name
if (!(workflow.runName ==~ /[a-z]+_[a-z]+/)) {
custom_runName = workflow.runName
}
// Stage config files
ch_multiqc_config = file(params.multiqc_config, checkIfExists: true)
ch_output_docs = file("$baseDir/docs/3pipeline_output.md", checkIfExists: true)
// Header log info
//log.info nfcoreHeader()
def summary = [:]
if (workflow.revision) summary['Pipeline Release'] = workflow.revision
summary['Run Name'] = custom_runName ?: workflow.runName
// TODO nf-core: Report custom parameters here
summary['Reads'] = params.reads
summary['Max Resources'] = "$params.max_memory memory, $params.max_cpus cpus, $params.max_time time per job"
if (workflow.containerEngine) summary['Container'] = "$workflow.containerEngine - $workflow.container"
summary['Output dir'] = params.outdir
summary['Launch dir'] = workflow.launchDir
summary['Working dir'] = workflow.workDir
summary['Script dir'] = workflow.projectDir
summary['User'] = workflow.userName
summary['Config Profile'] = workflow.profile
if (params.config_profile_description) summary['Config Description'] = params.config_profile_description
if (params.config_profile_contact) summary['Config Contact'] = params.config_profile_contact
if (params.config_profile_url) summary['Config URL'] = params.config_profile_url
if (params.email || params.email_on_fail) {
summary['E-mail Address'] = params.email
summary['E-mail on failure'] = params.email_on_fail
summary['MultiQC maxsize'] = params.maxMultiqcEmailFileSize
}
log.info summary.collect { k,v -> "${k.padRight(18)}: $v" }.join("\n")
log.info "-\033[2m--------------------------------------------------\033[0m-"
// Check the hostnames against configured profiles
checkHostname()
def create_workflow_summary(summary) {
def yaml_file = workDir.resolve('workflow_summary_mqc.yaml')
yaml_file.text = """
id: 'nf-core-nanoclust-summary'
description: " - this information is collected when the pipeline is started."
section_name: 'nf-core/nanoclust Workflow Summary'
section_href: 'https://github.com/nf-core/nanoclust'
plot_type: 'html'
data: |
<dl class=\"dl-horizontal\">
${summary.collect { k,v -> " <dt>$k</dt><dd><samp>${v ?: '<span style=\"color:#999999;\">N/A</a>'}</samp></dd>" }.join("\n")}
</dl>
""".stripIndent()
return yaml_file
}
/*
* Parse software version numbers
*/
/*
process get_software_versions {
publishDir "${params.outdir}/pipeline_info", mode: 'copy',
saveAs: { filename ->
if (filename.indexOf(".csv") > 0) filename
else null
}
output:
file 'software_versions_mqc.yaml' into software_versions_yaml
file "software_versions.csv"
script:
// TODO nf-core: Get all tools to print their version number here
"""
echo $workflow.manifest.version > v_pipeline.txt
echo $workflow.nextflow.version > v_nextflow.txt
"""
} */
/*
* STEP 1 - Quality control
*/
good_reads = 0
cluster_count = []
if(params.demultiplex) {
process demultiplex {
publishDir "${params.outdir}/demultiplexed_samples", mode: 'copy'
input:
file(reads) from multiplexed_reads
output:
file("barcode*.fastq") into reads mode flatten
script:
kit = params.kit
"""
qcat -f $reads -k $kit --trim -t ${task.cpus} -b .
"""
}
}
if(params.demultiplex_porechop){
process demultiplex_porechop {
input:
file(reads) from multiplexed_reads_porechop
output:
file("BC*.fastq") into reads mode flatten
script:
"""
porechop -i "${reads}" -t 4 -b .
"""
}
}
process QC {
input:
file(reads) from reads
output:
tuple env(barcode), file("*qced_reads_set.fastq") into reads_fastqc, qc_results
script:
"""
barcode=${reads.baseName}
fastp -i $reads -q 8 -l ${params.min_read_length} --length_limit ${params.max_read_length} -o \$barcode\\_qced_reads.fastq
#perl prinseq-lite.pl -fastq $reads -out_good qced_reads -min_len 1400 -max_len 1700 -log qc_log -min_qual_mean 8
head -n\$(( ${params.umap_set_size}*4 )) \$barcode\\_qced_reads.fastq > \$barcode\\_qced_reads_set.fastq
"""
}
process fastqc {
publishDir "${params.outdir}/fastqc_rawdata", mode: 'copy',
saveAs: {filename -> filename.indexOf(".zip") > 0 ? "zips/$filename" : "$filename"}
input:
set val(name), file(reads) from reads_fastqc
output:
file "*_fastqc.{zip,html}" into fastqc_results
script:
"""
fastqc -q $reads
"""
}
if(params.multiqc){
process multiqc {
publishDir "${params.outdir}/MultiQC", mode: 'copy'
input:
file ('fastqc/*') from fastqc_results.collect().ifEmpty([])
output:
file "*multiqc_report.html"
file "*_data"
script:
"""
multiqc .
"""
}
}
process kmer_freqs {
memory { 7.GB * task.attempt }
time { 1.hour * task.attempt }
errorStrategy { task.exitStatus in 137..140 ? 'retry' : 'terminate' }
maxRetries 3
input:
tuple val(barcode), file(qced_reads) from qc_results
output:
file "freqs.txt" into freqs
tuple val(barcode), file(qced_reads) into freqs_qc_results
script:
"""
kmer_freq.py -r $qced_reads > freqs.txt
"""
}
process read_clustering {
time { 1.hour * task.attempt }
errorStrategy { task.exitStatus in 137..140 ? 'retry' : 'terminate' }
maxRetries 3
publishDir "${params.outdir}/${barcode}/", mode: 'copy', pattern: 'hdbscan.output.*'
input:
file(kmer_freqs) from freqs
tuple val(barcode), file(qced_reads) from freqs_qc_results
output:
tuple val(barcode), file('hdbscan.output.tsv'), file(qced_reads) into clustering_out
file('*.png')
script:
template "umap_hdbscan.py"
}
process split_by_cluster {
input:
tuple val(barcode), file(clusters), file(qced_reads) from clustering_out
output:
tuple val(barcode), file('*[0-9]*.log'), file('*[0-9]*.fastq') into cluster_reads mode flatten
script:
"""
sed 's/\\srunid.*//g' $qced_reads > only_id_header_readfile.fastq
CLUSTERS_CNT=\$(awk '(\$5 ~ /[0-9]/) {print \$5}' $clusters | sort -nr | uniq | head -n1)
for ((i = 0 ; i <= \$CLUSTERS_CNT ; i++));
do
cluster_id=\$i
awk -v cluster="\$cluster_id" '(\$5 == cluster) {print \$1}' $clusters > \$cluster_id\\_ids.txt
seqtk subseq only_id_header_readfile.fastq \$cluster_id\\_ids.txt > \$cluster_id.fastq
READ_COUNT=\$(( \$(awk '{print \$1/4}' <(wc -l \$cluster_id.fastq)) ))
echo -n "\$cluster_id;\$READ_COUNT" > \$cluster_id.log
done
"""
}
process read_correction {
memory { 7.GB * task.attempt }
time { 1.hour * task.attempt }
errorStrategy { task.exitStatus in 137..140 ? 'retry' : 'terminate' }
maxRetries 3
input:
tuple val(barcode), file(cluster_log), file(reads) from cluster_reads
output:
tuple val(barcode), val(cluster_id), file('*_racon_.log'), file('corrected_reads.correctedReads.fasta') into corrected_reads
script:
count=params.polishing_reads
cluster_id=cluster_log.baseName
"""
head -n\$(( $count*4 )) $reads > subset.fastq
canu -correct -p corrected_reads -nanopore-raw subset.fastq genomeSize=${params.avg_amplicon_size} stopOnLowCoverage=1 minInputCoverage=2 minReadLength=500 minOverlapLength=200
gunzip corrected_reads.correctedReads.fasta.gz
READ_COUNT=\$(( \$(awk '{print \$1/2}' <(wc -l corrected_reads.correctedReads.fasta)) ))
cat $cluster_log > ${cluster_id}_racon.log
echo -n ";$count;\$READ_COUNT;" >> ${cluster_id}_racon.log && cp ${cluster_id}_racon.log ${cluster_id}_racon_.log
"""
}
process draft_selection {
publishDir "${params.outdir}/${barcode}/cluster${cluster_id}", mode: 'copy', pattern: 'draft_read.fasta'
errorStrategy 'retry'
input:
tuple val(barcode), val(cluster_id), file(cluster_log), file(reads) from corrected_reads
output:
tuple val(barcode), val(cluster_id), file('*_draft.log'), file('draft_read.fasta'), file(reads) into draft
script:
"""
split -l 2 $reads split_reads
find split_reads* > read_list.txt
fastANI --ql read_list.txt --rl read_list.txt -o fastani_output.ani -t 48 -k 16 --fragLen 160
DRAFT=\$(awk 'NR>1{name[\$1] = \$1; arr[\$1] += \$3; count[\$1] += 1} END{for (a in arr) {print arr[a] / count[a], name[a] }}' fastani_output.ani | sort -rg | cut -d " " -f2 | head -n1)
cat \$DRAFT > draft_read.fasta
ID=\$(head -n1 draft_read.fasta | sed 's/>//g')
cat $cluster_log > ${cluster_id}_draft.log
echo -n \$ID >> ${cluster_id}_draft.log
"""
}
process racon_pass {
memory { 7.GB * task.attempt }
time { 1.hour * task.attempt }
errorStrategy { task.exitStatus in 137..140 ? 'retry' : 'terminate' }
maxRetries 3
input:
tuple val(barcode), val(cluster_id), file(cluster_log), file(draft_read), file(corrected_reads) from draft
output:
tuple val(barcode), val(cluster_id), file(cluster_log), file('racon_consensus.fasta'), file(corrected_reads), env(success) into racon_output
script:
"""
success=1
minimap2 -ax map-ont --no-long-join -r100 -a $draft_read $corrected_reads -o aligned.sam
if racon --quality-threshold=9 -w 250 $corrected_reads aligned.sam $draft_read > racon_consensus.fasta ; then
success=1
else
success=0
cat $draft_read > racon_consensus.fasta
fi
"""
}
process medaka_pass {
memory { 7.GB * task.attempt }
time { 1.hour * task.attempt }
errorStrategy { task.exitStatus in 137..140 ? 'retry' : 'terminate' }
maxRetries 3
publishDir "${params.outdir}/${barcode}/cluster${cluster_id}", mode: 'copy', pattern: 'consensus_medaka.fasta/consensus.fasta'
input:
tuple val(barcode), val(cluster_id), file(cluster_log), file(draft), file(corrected_reads), val(success) from racon_output
output:
tuple val(barcode), val(cluster_id), file(cluster_log), file('consensus_medaka.fasta/consensus.fasta') into final_consensus
script:
if(success == "0"){
log.warn """Sample $barcode : Racon correction for cluster $cluster_id failed due to not enough overlaps. Taking draft read as consensus"""
racon_warnings.add("""Sample $barcode : Racon correction for cluster $cluster_id failed due to not enough overlaps. Taking draft read as consensus""")
}
"""
if medaka_consensus -i $corrected_reads -d $draft -o consensus_medaka.fasta -t 4 -m r941_min_high_g303 ; then
echo "Command succeeded"
else
cat $draft > consensus_medaka.fasta
fi
"""
}
def resolve_blast_db_path (path) {
if(path ==~ /^\/.*/)
path
else if(path ==~ /^\.\/.*/)
"$projectDir/" + path
else if(workflow.profile == 'conda' || workflow.profile == 'test,conda')
"$baseDir/" + path
else
"/tmp/" + path
}
process consensus_classification {
publishDir "${params.outdir}/${barcode}/cluster${cluster_id}", mode: 'copy', pattern: 'consensus_classification.csv'
time '3m'
errorStrategy { sleep(1000); return 'retry' }
maxRetries 5
input:
tuple val(barcode), val(cluster_id), file(cluster_log), file(consensus) from final_consensus
output:
file('consensus_classification.csv')
tuple val(barcode), file('*_blast.log') into classifications_ch
script:
db = resolve_blast_db_path(params.db)
taxdb = resolve_blast_db_path(params.tax)
if(!params.db)
"""
blastn -query $consensus -db nr -remote -entrez_query "Bacteria [Organism]" -task blastn -dust no -outfmt "10 staxids sscinames evalue length score pident" -evalue 11 -max_hsps 50 -max_target_seqs 5 > consensus_classification.csv
cat $cluster_log > ${cluster_id}_blast.log
echo -n ";" >> ${cluster_id}_blast.log
BLAST_OUT=\$(cut -d";" -f1,2,4,5 consensus_classification.csv | head -n1)
echo \$BLAST_OUT >> ${cluster_id}_blast.log
"""
else
"""
export BLASTDB=
export BLASTDB=\$BLASTDB:$taxdb
blastn -query $consensus -db $db -task blastn -dust no -outfmt "10 sscinames staxids evalue length pident" -evalue 11 -max_hsps 50 -max_target_seqs 5 | sed 's/,/;/g' > consensus_classification.csv
#DECIDE FINAL CLASSIFFICATION
cat $cluster_log > ${cluster_id}_blast.log
echo -n ";" >> ${cluster_id}_blast.log
BLAST_OUT=\$(cut -d";" -f1,2,4,5 consensus_classification.csv | head -n1)
echo \$BLAST_OUT >> ${cluster_id}_blast.log
"""
}
process join_results {
publishDir "${params.outdir}/${barcode}", mode: 'copy'
input:
tuple val(barcode), file(logs) from classifications_ch.groupTuple()
output:
tuple val(barcode), file('*.nanoclust_out.txt') into output_table_ch
script:
"""
echo "id;reads_in_cluster;used_for_consensus;reads_after_corr;draft_id;sciname;taxid;length;per_ident" > ${barcode}.nanoclust_out.txt
for i in $logs; do
cat \$i >> ${barcode}.nanoclust_out.txt
done
"""
}
process get_abundances {
publishDir "${params.outdir}/${barcode}", mode: 'copy'
input:
tuple val(barcode), file(table) from output_table_ch
output:
tuple val(barcode), file('*.csv') into abundance_table_ch mode flatten
script:
template "get_abundance.py"
}
process plot_abundances {
publishDir "${params.outdir}/${barcode}", mode: 'copy'
input:
tuple val(barcode), file(table) from abundance_table_ch
output:
file("*.png")
script:
template "plot_abundances_pool.py"
}
process output_documentation {
publishDir "${params.outdir}/pipeline_info", mode: 'copy'
input:
file output_docs from ch_output_docs
output:
file "results_description.html"
script:
"""
markdown_to_html.py $output_docs -o results_description.html
"""
}
/*
* Completion e-mail notification
*/
workflow.onComplete {
// Set up the e-mail variables
def subject = "[nf-core/nanoclust] Successful: $workflow.runName"
if (!workflow.success) {
subject = "[nf-core/nanoclust] FAILED: $workflow.runName"
}
def email_fields = [:]
email_fields['version'] = workflow.manifest.version
email_fields['runName'] = custom_runName ?: workflow.runName
email_fields['success'] = workflow.success
email_fields['dateComplete'] = workflow.complete
email_fields['duration'] = workflow.duration
email_fields['exitStatus'] = workflow.exitStatus
email_fields['errorMessage'] = (workflow.errorMessage ?: 'None')
email_fields['errorReport'] = (workflow.errorReport ?: 'None')
email_fields['commandLine'] = workflow.commandLine
email_fields['projectDir'] = workflow.projectDir
email_fields['summary'] = summary
email_fields['summary']['Date Started'] = workflow.start
email_fields['summary']['Date Completed'] = workflow.complete
email_fields['summary']['Pipeline script file path'] = workflow.scriptFile
email_fields['summary']['Pipeline script hash ID'] = workflow.scriptId
if (workflow.repository) email_fields['summary']['Pipeline repository Git URL'] = workflow.repository
if (workflow.commitId) email_fields['summary']['Pipeline repository Git Commit'] = workflow.commitId
if (workflow.revision) email_fields['summary']['Pipeline Git branch/tag'] = workflow.revision
if (workflow.container) email_fields['summary']['Docker image'] = workflow.container
email_fields['summary']['Nextflow Version'] = workflow.nextflow.version
email_fields['summary']['Nextflow Build'] = workflow.nextflow.build
email_fields['summary']['Nextflow Compile Timestamp'] = workflow.nextflow.timestamp
// TODO nf-core: If not using MultiQC, strip out this code (including params.maxMultiqcEmailFileSize)
// On success try attach the multiqc report
def mqc_report = null
try {
if (workflow.success) {
mqc_report = multiqc_report.getVal()
if (mqc_report.getClass() == ArrayList) {
log.warn "[nf-core/nanoclust] Found multiple reports from process 'multiqc', will use only one"
mqc_report = mqc_report[0]
}
}
} catch (all) {
log.warn "[nf-core/nanoclust] Could not attach MultiQC report to summary email"
}
// Check if we are only sending emails on failure
email_address = params.email
if (!params.email && params.email_on_fail && !workflow.success) {
email_address = params.email_on_fail
}
// Render the TXT template
def engine = new groovy.text.GStringTemplateEngine()
def tf = new File("$baseDir/assets/email_template.txt")
def txt_template = engine.createTemplate(tf).make(email_fields)
def email_txt = txt_template.toString()
// Render the HTML template
def hf = new File("$baseDir/assets/email_template.html")
def html_template = engine.createTemplate(hf).make(email_fields)
def email_html = html_template.toString()
// Render the sendmail template
def smail_fields = [ email: email_address, subject: subject, email_txt: email_txt, email_html: email_html, baseDir: "$baseDir", mqcFile: mqc_report, mqcMaxSize: params.maxMultiqcEmailFileSize.toBytes() ]
def sf = new File("$baseDir/assets/sendmail_template.txt")
def sendmail_template = engine.createTemplate(sf).make(smail_fields)
def sendmail_html = sendmail_template.toString()
// Send the HTML e-mail
if (email_address) {
try {
if ( params.plaintext_email ){ throw GroovyException('Send plaintext e-mail, not HTML') }
// Try to send HTML e-mail using sendmail
[ 'sendmail', '-t' ].execute() << sendmail_html
log.info "[nf-core/nanoclust] Sent summary e-mail to $email_address (sendmail)"
} catch (all) {
// Catch failures and try with plaintext
[ 'mail', '-s', subject, email_address ].execute() << email_txt
log.info "[nf-core/nanoclust] Sent summary e-mail to $email_address (mail)"
}
}
// Write summary e-mail HTML to a file
def output_d = new File( "${params.outdir}/pipeline_info/" )
if (!output_d.exists()) {
output_d.mkdirs()
}
def output_hf = new File( output_d, "pipeline_report.html" )
output_hf.withWriter { w -> w << email_html }
def output_tf = new File( output_d, "pipeline_report.txt" )
output_tf.withWriter { w -> w << email_txt }
c_reset = params.monochrome_logs ? '' : "\033[0m";
c_purple = params.monochrome_logs ? '' : "\033[0;35m";
c_green = params.monochrome_logs ? '' : "\033[0;32m";
c_red = params.monochrome_logs ? '' : "\033[0;31m";
if (workflow.stats.ignoredCount > 0 && workflow.success) {
log.info "${c_purple}Warning, pipeline completed, but with errored process(es) ${c_reset}"
log.info "${c_red}Number of ignored errored process(es) : ${workflow.stats.ignoredCount} ${c_reset}"
log.info "${c_green}Number of successfully ran process(es) : ${workflow.stats.succeedCount} ${c_reset}"
}
if (workflow.success) {
log.info "${c_purple}[nf-core/nanoclust]${c_green} Pipeline completed successfully${c_reset}"
if(!racon_warnings.isEmpty()){
racon_warnings.each{log.warn "$it"}
}
} else {
checkHostname()
log.info "${c_purple}[nf-core/nanoclust]${c_red} Pipeline completed with errors${c_reset}"
}
}
def nfcoreHeader(){
// Log colors ANSI codes
c_reset = params.monochrome_logs ? '' : "\033[0m";
c_dim = params.monochrome_logs ? '' : "\033[2m";
c_black = params.monochrome_logs ? '' : "\033[0;30m";
c_green = params.monochrome_logs ? '' : "\033[0;32m";
c_yellow = params.monochrome_logs ? '' : "\033[0;33m";
c_blue = params.monochrome_logs ? '' : "\033[0;34m";
c_purple = params.monochrome_logs ? '' : "\033[0;35m";
c_cyan = params.monochrome_logs ? '' : "\033[0;36m";
c_white = params.monochrome_logs ? '' : "\033[0;37m";
c_red = params.monochrome_logs ? '' : "\033[0;31m";
return """
-${c_dim}--------------------------------------------------${c_reset}-
${c_green} _ __ ${c_red} ________ __ _____________${c_reset}
${c_green} / | / /___ _____ ____ ${c_red} / ____/ / / / / / ___/_ __/${c_reset}
${c_green} / |/ / __ `/ __ \\/ __ \\ ${c_red} / / / / / / / /\\__ \\ / / ${c_reset}
${c_green} / /| / /_/ / / / / /_/ / ${c_red} / /___/ /___/ /_/ /___/ // / ${c_reset}
${c_green} /_/ |_/\\__,_/_/ /_/\\____/ ${c_red} \\____/_____/\\____//____//_/ ${c_reset}
${c_purple} NanoCLUST v${workflow.manifest.version}${c_reset}
-${c_dim}--------------------------------------------------${c_reset}-
""".stripIndent()
}
def checkHostname(){
def c_reset = params.monochrome_logs ? '' : "\033[0m"
def c_white = params.monochrome_logs ? '' : "\033[0;37m"
def c_red = params.monochrome_logs ? '' : "\033[1;91m"
def c_yellow_bold = params.monochrome_logs ? '' : "\033[1;93m"
if (params.hostnames) {
def hostname = "hostname".execute().text.trim()
params.hostnames.each { prof, hnames ->
hnames.each { hname ->
if (hostname.contains(hname) && !workflow.profile.contains(prof)) {
log.error "====================================================\n" +
" ${c_red}WARNING!${c_reset} You are running with `-profile $workflow.profile`\n" +
" but your machine hostname is ${c_white}'$hostname'${c_reset}\n" +
" ${c_yellow_bold}It's highly recommended that you use `-profile $prof${c_reset}`\n" +
"============================================================"
}
}
}
}
}