{ lib , stdenv , fetchFromGitHub , boost , bzip2 , htslib , llvmPackages , xz , zlib , delly , runCommand }: stdenv.mkDerivation (finalAttrs: { pname = "delly"; version = "1.2.6"; src = fetchFromGitHub { owner = "dellytools"; repo = "delly"; rev = "v${finalAttrs.version}"; hash = "sha256-OO5nnaIcfNAV8pc03Z8YS5kE96bFOrJXA9QTiLi7vPc="; }; buildInputs = [ boost bzip2 htslib xz zlib ] ++ lib.optional stdenv.isDarwin llvmPackages.openmp; makeFlags = [ "EBROOTHTSLIB=${htslib}" "PARALLEL=1" ]; installPhase = '' runHook preInstall install -Dm555 src/delly $out/bin/delly runHook postInstall ''; passthru.tests = { simple = runCommand "${finalAttrs.pname}-test" { } '' mkdir $out ${lib.getExe delly} call -g ${delly.src}/example/ref.fa ${delly.src}/example/sr.bam > $out/sr.vcf ${lib.getExe delly} lr -g ${delly.src}/example/ref.fa ${delly.src}/example/lr.bam > $out/lr.vcf ${lib.getExe delly} cnv -g ${delly.src}/example/ref.fa -m ${delly.src}/example/map.fa.gz ${delly.src}/example/sr.bam > cnv.vcf ''; }; meta = with lib; { description = "Structural variant caller for mapped DNA sequenced data"; mainProgram = "delly"; license = licenses.bsd3; maintainers = with maintainers; [ scalavision ]; platforms = platforms.unix; longDescription = '' Delly is an integrated structural variant (SV) prediction method that can discover, genotype and visualize deletions, tandem duplications, inversions and translocations at single-nucleotide resolution in short-read massively parallel sequencing data. It uses paired-ends, split-reads and read-depth to sensitively and accurately delineate genomic rearrangements throughout the genome. ''; }; })