import "./tasks/BQSR.wdl" as Sentieon_BQSR import "./tasks/TNseq.wdl" as TNseq import "./tasks/TNscope.wdl" as TNscope import "./tasks/manta.wdl" as manta_calling import "./tasks/strelka.wdl" as strelka_calling import "./tasks/bcftools.wdl" as bcftools import "./tasks/bcftools_concat.wdl" as bcftools_concat import "./tasks/annovar.wdl" as annovar import "./tasks/Haplotyper.wdl" as Haplotyper import "./tasks/MSIsensor.wdl" as MSIsensor import "./tasks/tmb.wdl" as tmb #VIP客户(只用TNseq进行call) workflow {{ project_name }} { #sample info File? normal_deduped_bam File? normal_deduped_bam_bai File? tumor_deduped_bam File? tumor_deduped_bam_bai String sample_id String Seq_platform #reference fasta String ref_fasta File ref_fasta_dir File annot_gff File dbsnp_dir File dbmills_dir String dbsnp String db_mills File germline_resource File germline_resource_tbi File annovar_database File? regions File baseline File hg38_CDS #docker String docker_fastp String docker_sentieon String SENTIEON_LICENSE String docker_qualimap String docker_manta String docker_strelka String docker_bcftools String docker_annovar String docker_tmb String docker_MSIsensor #config String cluster_config String disk_size Boolean? fastqc Boolean bamqc Boolean Annovar Boolean AF_filter call MSIsensor.MSIsensor as MSIsensor { input: sample=sample_id, fasta=ref_fasta, ref_dir=ref_fasta_dir, normal_bam=normal_deduped_bam, normal_bam_index=normal_deduped_bam_bai, tumor_bam=tumor_deduped_bam, tumor_bam_index=tumor_deduped_bam_bai, baseline=baseline, docker=docker_MSIsensor, cluster_config=cluster_config, disk_size=disk_size } call Haplotyper.Haplotyper as Haplotyper { input: SENTIEON_LICENSE=SENTIEON_LICENSE, sample=sample_id + '.N', fasta=ref_fasta, ref_dir=ref_fasta_dir, recaled_bam=normal_deduped_bam, recaled_bam_index=normal_deduped_bam_bai, dbsnp=dbsnp, dbsnp_dir=dbsnp_dir, regions=regions, docker=docker_sentieon, disk_size=disk_size, cluster_config=cluster_config } call bcftools.bcftools as Haplotyper_bcftools { input: vcf=Haplotyper.vcf, fasta=ref_fasta, ref_dir=ref_fasta_dir, docker=docker_bcftools, cluster_config=cluster_config, disk_size=disk_size } call TNseq.sentieon_TNseq as sentieon_TNseq{ input: sample_id = sample_id, tumor_bam = tumor_deduped_bam, tumor_bam_bai = tumor_deduped_bam_bai, normal_bam = normal_deduped_bam, normal_bam_bai = normal_deduped_bam_bai, tumor_name = sample_id+'_T', normal_name = sample_id+'_N', ref_dir = ref_fasta_dir, ref_fasta = ref_fasta, germline_resource = germline_resource, germline_resource_tbi = germline_resource_tbi, docker = docker_sentieon, cluster_config = cluster_config, disk_size = disk_size, SENTIEON_LICENSE = SENTIEON_LICENSE } call bcftools.bcftools as TNseq_bcftools { input: vcf=sentieon_TNseq.vcf, fasta=ref_fasta, ref_dir=ref_fasta_dir, docker=docker_bcftools, cluster_config=cluster_config, disk_size=disk_size } if (Annovar){ call annovar.ANNOVAR as TNseq_ANNOVAR { input: vcf=TNseq_bcftools.norm_vcf, annovar_database=annovar_database, docker=docker_annovar, cluster_config=cluster_config, disk_size=disk_size } call tmb.TMB as TMB{ input: sample=sample_id, hg38_CDS=hg38_CDS, regions=regions, snpindel_txt=TNseq_ANNOVAR.multianno_txt, docker=docker_tmb, cluster_config=cluster_config, disk_size=disk_size, AF_filter=AF_filter } call annovar.ANNOVAR as Haplotyper_ANNOVAR { input: vcf=Haplotyper_bcftools.norm_vcf, annovar_database=annovar_database, docker=docker_annovar, cluster_config=cluster_config, disk_size=disk_size } } }