nf-core_modules/tests/modules/gatk4/printsvevidence/main.nf

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#!/usr/bin/env nextflow
nextflow.enable.dsl = 2
include { GATK4_PRINTSVEVIDENCE as GATK4_PRINTSVEVIDENCE_PE } from '../../../../modules/gatk4/printsvevidence/main.nf'
include { GATK4_PRINTSVEVIDENCE as GATK4_PRINTSVEVIDENCE_SR } from '../../../../modules/gatk4/printsvevidence/main.nf'
include { GATK4_COLLECTSVEVIDENCE } from '../../../../modules/gatk4/collectsvevidence/main.nf'
workflow test_gatk4_printsvevidence {
input = Channel.of(
[
[ id:'normal', single_end:false ], // meta map
file(params.test_data['homo_sapiens']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true),
file(params.test_data['homo_sapiens']['illumina']['test_paired_end_sorted_bam_bai'], checkIfExists: true),
[],
[]
],
[
[ id:'tumour', single_end:false ], // meta map
file(params.test_data['homo_sapiens']['illumina']['test2_paired_end_sorted_bam'], checkIfExists: true),
file(params.test_data['homo_sapiens']['illumina']['test2_paired_end_sorted_bam_bai'], checkIfExists: true),
[],
[]
]
)
fasta = file(params.test_data['homo_sapiens']['genome']['genome_fasta'], checkIfExists: true)
fasta_fai = file(params.test_data['homo_sapiens']['genome']['genome_fasta_fai'], checkIfExists: true)
dict = file(params.test_data['homo_sapiens']['genome']['genome_dict'], checkIfExists: true)
GATK4_COLLECTSVEVIDENCE(
input,
fasta,
fasta_fai,
dict
)
pe_files = GATK4_COLLECTSVEVIDENCE.out.paired_end_evidence
.combine(GATK4_COLLECTSVEVIDENCE.out.paired_end_evidence_index, by:0)
sr_files = GATK4_COLLECTSVEVIDENCE.out.split_read_evidence
.combine(GATK4_COLLECTSVEVIDENCE.out.split_read_evidence_index, by:0)
GATK4_PRINTSVEVIDENCE_PE(
pe_files,
[],
fasta,
fasta_fai,
dict
)
GATK4_PRINTSVEVIDENCE_SR(
sr_files,
[],
fasta,
fasta_fai,
dict
)
}
workflow test_gatk4_printsvevidence_bed_no_fasta {
input = Channel.of(
[
[ id:'normal', single_end:false ], // meta map
file(params.test_data['homo_sapiens']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true),
file(params.test_data['homo_sapiens']['illumina']['test_paired_end_sorted_bam_bai'], checkIfExists: true),
[],
[]
],
[
[ id:'tumour', single_end:false ], // meta map
file(params.test_data['homo_sapiens']['illumina']['test2_paired_end_sorted_bam'], checkIfExists: true),
file(params.test_data['homo_sapiens']['illumina']['test2_paired_end_sorted_bam_bai'], checkIfExists: true),
[],
[]
]
)
fasta = []
fasta_fai = []
dict = file(params.test_data['homo_sapiens']['genome']['genome_dict'], checkIfExists: true)
bed = file(params.test_data['homo_sapiens']['genome']['genome_bed'], checkIfExists: true)
GATK4_COLLECTSVEVIDENCE(
input,
fasta,
fasta_fai,
dict
)
pe_files = GATK4_COLLECTSVEVIDENCE.out.paired_end_evidence
.combine(GATK4_COLLECTSVEVIDENCE.out.paired_end_evidence_index, by:0)
sr_files = GATK4_COLLECTSVEVIDENCE.out.split_read_evidence
.combine(GATK4_COLLECTSVEVIDENCE.out.split_read_evidence_index, by:0)
GATK4_PRINTSVEVIDENCE_PE(
pe_files,
bed,
fasta,
fasta_fai,
dict
)
GATK4_PRINTSVEVIDENCE_SR(
sr_files,
bed,
fasta,
fasta_fai,
dict
)
}