tests/testthat/test-extensions-VCF.R
In d-cameron/StructuralVariantAnnotation: Variant annotations for structural variants
context('main functions')
example <- readVcf(.testfile("vcf4.2.example.sv.vcf"), "")
simple <- readVcf(.testfile("simple.vcf"), "")
breakend <- readVcf(.testfile("breakend.vcf"), "")
multipleAlleles <- readVcf(.testfile("multipleAltSVs.vcf"), "")
representations <- readVcf(.testfile("representations.vcf"))
breakdancer <- readVcf(.testfile("breakdancer-1.4.5.vcf"), "")
#cortex <- readVcf(.testfile("cortex-1.0.5.14.vcf"), "")
#crest <- readVcf(.testfile("crest.vcf"), "")
delly <- readVcf(.testfile("delly-0.6.8.vcf"), "")
#gasv <- readVcf(.testfile("gasv-20140228.vcf"), "")
gridss <- readVcf(.testfile("gridss.vcf"), "")
gridss_missing_partner <- readVcf(.testfile("gridss-missingPartner.vcf"), "")
#lumpy <- readVcf(.testfile("lumpy-0.2.11.vcf"), "")
pindel <- readVcf(.testfile("pindel-0.2.5b6.vcf"), "")
#socrates <- readVcf(.testfile("socrates-1.13.vcf"), "")
tigra <- readVcf(.testfile("tigra-0.3.7.vcf"), "")
manta <- readVcf(.testfile("manta-0.29.6.vcf"), "")
manta111 <- readVcf(.testfile("manta-1.1.1.vcf"), "")
longranger <- readVcf(.testfile("COLO829.10X.longranger.largeSVs.vcf"), "")
test_that("INFO column import", {
gr <- breakpointRanges(simple, info_columns=c("SVTYPE", "MATEID"))
expect_equal("BNDBF", as.character(gr["BNDFB"]$MATEID))
gr <- breakpointRanges(.testrecord(c("chr10 2991435 INV N <INV> . LowQual SVTYPE=INV;CHR2=chr1;END=19357517;CT=3to5")))
})
test_that("longranger UNK", {
gr <- breakpointRanges(longranger)[c("call_2416_1", "call_2416_2")]
expect_equal(as.character(strand(gr)), c("*", "*"))
})
test_that("longranger IMPRECISE_DIR", {
gr <- breakpointRanges(longranger)[c("call_534_bp1", "call_534_bp2")]
expect_equal(c(2632546-10, 2632545-10+57120), start(gr))
expect_equal(as.character(strand(gr)), c("*", "*"))
})
test_that("Delly TRA", {
# https://groups.google.com/forum/#!msg/delly-users/6Mq2juBraRY/BjmMrBh3GAAJ
# Sorry, I forgot to post this to the delly-users list:
# For a translocation, you have 2 double strand breaks, one on chrA and one on chrB.
# This creates 4 "dangling" ends, chrA_left, chrA_right, chrB_left, chrB_right.
# For a translocation you can join chrA_left with chrB_left (3to3), chrA_left with chrB_right (3to5),
# chrA_right with chrB_left (5to3) and chrA_right with chrB_right (5to5).
# In fact for a typical reciprocal translocation in prostate cancer (where two chromosomes exchange their end)
# Delly calls 2 translocations at the breakpoint, one 3to5 and one 5to3. But obviously not all translocations are reciprocal.
# -Tobias
gr <- breakpointRanges(.testrecord(c("chr10 2991435 TRA00000001 N <TRA> . LowQual CIEND=0,100;CIPOS=0,50;SVTYPE=TRA;CHR2=chr1;END=19357517;CT=3to5")))
expect_equal(2, length(gr))
expect_equal(c(2991435, 19357517), start(gr))
expect_equal(c(2991485, 19357617), end(gr))
expect_equal(c("+", "-"), as.character(strand(gr)))
expect_equal(c("chr10", "chr1"), as.character(seqnames(gr)))
gr <- breakpointRanges(delly)
})
test_that("tigra CTX", {
gr <- breakpointRanges(tigra[3,])
expect_equal(c(102520604 - 10, 70284 - 10), start(gr))
expect_equal(c(102520604 + 10, 70284 + 10), end(gr))
expect_equal(c("*", "*"), as.character(strand(gr)))
expect_equal(c("chr12", "chrUn_gl000223"), as.character(seqnames(gr)))
})
test_that("pindel RPL", {
gr <- breakpointRanges(pindel[5,])
expect_equal(c(1029142, 1029183), start(gr))
expect_equal(c("+", "-"), as.character(strand(gr)))
expect_equal(c(51, 51), gr$insLen)
})
test_that("empty VCF", {
expect_equal(0, length(breakpointRanges(.testrecord(c()))))
})
test_that(".hasSingleAllelePerRecord", {
expect_false(.hasSingleAllelePerRecord(multipleAlleles))
expect_true(.hasSingleAllelePerRecord(expand(multipleAlleles)))
})
test_that("isSymbolic", {
expect_equal(
c(FALSE, FALSE, FALSE, FALSE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE),
isSymbolic(simple))
})
test_that("isStructural", {
expect_equal(
c(FALSE, FALSE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE),
isStructural(simple))
expect_true(isStructural(.testrecord("chr1 1 . ATT AGGA . . ")))
expect_false(isStructural(.testrecord("chr1 1 . ATT NNN . . ")))
})
test_that(".svLen", {
expect_equal(c(0, 0, 1, -1, 1, -2, NA, NA, NA, NA), .svLen(simple))
expect_equal(.svLen(.testrecord("chr1 100 . A <DEL> . . SVLEN=-1")), c(-1))
expect_equal(.svLen(.testrecord("chr1 100 . A <DUP> . . END=101")), c(1))
})
# unpaired breakend
test_that("partner fails if missing mate", {
expect_error(partner(breakpointRanges(simple)[1,]))
})
test_that("breakpointRanges convert to breakend pairs", {
gr <- breakpointRanges(simple)
pairId <- c("INS", "DEL", "SYMINS", "SYMDEL")
expect_true(all(paste0(pairId, "_bp1") %in% names(gr)))
expect_true(all(paste0(pairId, "_bp2") %in% names(gr)))
expect_equal(names(partner(gr))[names(gr) %in% paste0(pairId, "_bp1")], paste0(pairId, "_bp2"))
expect_equal(names(partner(gr))[names(gr) %in% c("BNDFB", "BNDBF")], c("BNDBF", "BNDFB"))
})
test_that("breakpointRanges creates placeholder names", {
expect_warning(expect_named(breakpointRanges(.testrecord(c(
"chr1 100 . A <DEL> . . SVLEN=-1",
"chr1 100 . A <DEL> . . SVLEN=-1")))),
regex="Found 1 duplicate row names")
})
test_that("breakpointRanges non-symbolic alleles", {
gr <- breakpointRanges(simple[c("INS", "DEL"),])
expect_equal(4, length(gr))
gr <- breakpointRanges(.testrecord("chr1 1 . ATT AGGA . . "))
expect_equal(start(gr), c(1, 4))
expect_equal(gr$insSeq, c("GGA", "GGA"))
expect_equal(gr$svLen, c(1, 1))
gr <- breakpointRanges(.testrecord("chr1 2 . TTT AGGA . . "))
expect_equal(start(gr), c(1, 5))
expect_equal(gr$insSeq, c("AGGA", "AGGA"))
expect_equal(gr$svLen, c(1, 1))
gr <- breakpointRanges(.testrecord("chr1 2 . AGT AGGA . . "))
expect_equal(start(gr), c(3, 5))
expect_equal(gr$insSeq, c("GA", "GA"))
expect_equal(gr$insLen, c(2, 2))
expect_equal(gr$svLen, c(1, 1))
gr <- breakpointRanges(.testrecord("chr1 2 . AGGA AG . . "))
expect_equal(start(gr), c(3, 6))
expect_equal(as.character(strand(gr)), c("+", "-"))
expect_equal(gr$insLen, c(0, 0))
expect_equal(gr$svLen, c(-2, -2))
})
test_that("breakpointRanges intervals", {
# Position assumed to the left aligned
gr <- breakpointRanges(.testrecord("chr1 100 . A AT . . HOMLEN=0"))
expect_equal(start(gr), c(100, 101))
expect_equal(end(gr), c(100, 101))
gr <- breakpointRanges(.testrecord("chr1 100 . A AT . . HOMLEN=1"))
expect_equal(start(gr), c(100, 101))
expect_equal(end(gr), c(101, 102))
gr <- breakpointRanges(.testrecord("chr1 100 . A AT . . HOMLEN=2"))
expect_equal(start(gr), c(100, 101))
expect_equal(end(gr), c(102, 103))
gr <- breakpointRanges(.testrecord("chr1 100 . A AT . . HOMSEQ=AAAAAAAAAA"))
expect_equal(start(gr), c(100, 101))
expect_equal(end(gr), c(110, 111))
gr <- breakpointRanges(.testrecord("chr1 100 . A AT . . CIPOS=-5,10"))
expect_equal(start(gr), c(95, 96))
expect_equal(end(gr), c(110, 111))
# CIPOS over homology
gr <- breakpointRanges(.testrecord("chr1 100 . A AT . . CIPOS=-5,10;HOMLEN=50;HOMESEQ=A"))
expect_equal(start(gr), c(95, 96))
expect_equal(end(gr), c(110, 111))
# HOMLEN over HOMSEQ
gr <- breakpointRanges(.testrecord("chr1 100 . A AT . . HOMLEN=50;HOMESEQ=A"))
expect_equal(start(gr), c(100, 101))
expect_equal(end(gr), c(150, 151))
})
test_that("breakpointRanges DEL", {
gr <- breakpointRanges(.testrecord("chr1 100 . A <DEL> . . SVLEN=-1"))
expect_equal(start(gr), c(100, 102))
expect_equal(gr$insLen, c(0, 0))
gr <- breakpointRanges(.testrecord("chr1 100 . A <DEL> . . END=101"))
expect_equal(start(gr), c(100, 102))
breakpointRanges(.testrecord("chr1 100 . A <DEL:WITH:SUBTYPE> . . END=101"))
breakpointRanges(.testrecord("chr1 100 . A <DEL> . . SVTYPE=DEL:WITH:SUBTYPE;END=101"))
# warning about incompatable SVLEN and END fields
#expect_warning(breakpointRanges(.testrecord("chr1 100 . A <DEL> . . END=101;SVLEN=-10")), "SVLEN")
})
test_that("breakpointRanges should fix positive DEL event size", {
gr <- breakpointRanges(.testrecord("chr1 100 . A <DEL> . . SVLEN=10"))
expect_equal(start(gr), c(100, 111))
expect_equal(gr$insLen, c(0, 0))
})
test_that("breakpointRanges breakend", {
expect_warning(gr <- breakpointRanges(breakend))
expect_equal("parid_b", gr["parid_a",]$partner)
expect_equal("mateid_b", gr["mateid_a",]$partner)
expect_equal(partner(gr[c("parid_a", "parid_b"),]), gr[c("parid_b", "parid_a"),])
expect_warning(breakpointRanges(breakend[c("mateid_a", "mateid_b", "multi_mateid")]), "Ignoring additional mate breakends")
expect_warning(breakpointRanges(breakend[c("unpaired")]), "Removing [0-9]+ unpaired breakend variants")
expect_equal(breakpointRanges(.testrecord(c(
"chr1 100 a N N[chr1:105[ . . SVTYPE=BND;CIPOS=0,1;PARID=b",
"chr1 105 b N ]chr1:100]N . . SVTYPE=BND;CIPOS=0,1;PARID=a"
)))$svLen, c(-4, -4))
expect_equal(breakpointRanges(.testrecord(c(
"chr1 100 a N NAAAA[chr1:101[ . . SVTYPE=BND;CIPOS=0,1;PARID=b",
"chr1 101 b N ]chr1:100]TTTTN . . SVTYPE=BND;CIPOS=0,1;PARID=a"
)))$svLen, c(4, 4))
})
test_that("breakpointRanges INV", {
# VCF example
gr <- breakpointRanges(.testrecord("chr1 321682 INV0 T <INV> 6 PASS SVTYPE=INV;END=421681"))
expect_equal(4, length(gr))
expect_equal(start(gr), c(321682+1, 421681+1, 321682, 421681))
expect_equal(as.character(strand(gr)), c("-", "-", "+", "+"))
expect_equal(names(gr), c("INV0_bp1", "INV0_bp2", "INV0_bp3", "INV0_bp4"))
gr <- breakpointRanges(.testrecord("chr1 321682 INV0 T <INV> 6 PASS SVTYPE=INV;END=421681;CIPOS=-2,1;CIEND=-3,4"))
expect_equal(4, length(gr))
expect_equal(start(gr), c(321682+1, 421681+1, 321682, 421681) + c(-2, -3, -2 ,-3))
expect_equal( end(gr), c(321682+1, 421681+1, 321682, 421681) + c( 1, 4, 1, 4))
expect_error(breakpointRanges(.testrecord("chr1 321682 INV0 T <INV> 6 PASS SVTYPE=INV")))
})
test_that("breakpointRanges DUP", {
# VCF example
gr <- breakpointRanges(.testrecord(c(
"chr1 12665100 . A <DUP> 14 PASS SVTYPE=DUP;END=12686200;SVLEN=21100",
"chr1 18665128 . T <DUP:TANDEM> 11 PASS SVTYPE=DUP;END=18665204;SVLEN=76")))
expect_equal(4, length(gr))
expect_equal(start(gr), c(12665100+1, 18665128+1,
12686200, 18665204))
expect_equal(as.character(strand(gr)), c("-", "-", "+", "+"))
expect_equal(c(0,0,0,0), gr$insLen)
gr <- breakpointRanges(.testrecord("chr1 12665100 . A <DUP> 14 PASS SVTYPE=DUP;END=12686200;SVLEN=21100;CIPOS=-2,1;CIEND=-3,4"))
expect_equal(2, length(gr))
expect_equal(start(gr), c(12665100+1, 12686200) + c(-2,-3))
expect_equal( end(gr), c(12665100+1, 12686200) + c( 1, 4))
expect_error(breakpointRanges(.testrecord("chr1 321682 . T <DUP> . . SVTYPE=DUP")))
gr <- breakpointRanges(.testrecord("chr12 5616362 chr12.5616362.DUP65536 A <DUP> . . SVLEN=65536;SVTYPE=DUP"))
expect_equal(2, length(gr))
expect_equal(start(gr), c(5616362+1, 5616362+65536))
expect_equal(c("-", "+"), as.character(strand(gr)))
})
# test_that("manta merge should retain only unique events", {
# # VCF example
# gr <- breakpointRanges(manta)
# expect_equal(4, length(gr))
# })
test_that("manta 1.1.1", {
gr <- breakpointRanges(manta111)
expect_equal(2*10, length(gr))
})
test_that("manta INV3 should only have 1 breakpoint", {
gr <- breakpointRanges(manta111[info(manta111)$INV3])
expect_equal(c("+", "+"), as.character(strand(gr)))
})
test_that("nominalPosition should ignore confidence intervals", {
# VCF example
vcfExact <- .testrecord(c("chr1 100 . A <DEL> 14 PASS SVTYPE=DEL;END=200"))
vcfCI <- .testrecord(c("chr1 100 . A <DEL> 14 PASS SVTYPE=DEL;END=200;CIEND=-10,10;CIPOS=-5,5"))
expect_equal(breakpointRanges(vcfCI, nominalPosition=TRUE), breakpointRanges(vcfExact, nominalPosition=TRUE))
expect_equal(ranges(breakpointRanges(vcfCI, nominalPosition=TRUE)), ranges(breakpointRanges(vcfExact, nominalPosition=TRUE)))
})
test_that("nominalPosition should ignore micro-homology", {
# VCF example
vcfExact <- .testrecord(c("chr1 100 . A <DEL> 14 PASS SVTYPE=DEL;END=200"))
vcfHOM <- .testrecord(c("chr1 100 . A <DEL> 14 PASS SVTYPE=DEL;END=200;HOMLEN=15"))
expect_equal(ranges(breakpointRanges(vcfHOM, nominalPosition=TRUE)), ranges(breakpointRanges(vcfExact, nominalPosition=TRUE)))
})
test_that("breakpointRanges should not include breakends", {
expect_true(isSymbolic(.testrecord(c("chr1 100 . A AAA. 14 PASS SVTYPE=BND"))))
expect_equal(0, length(breakpointRanges(.testrecord(c("chr1 100 . A AAA. 14 PASS SVTYPE=BND")))))
expect_equal(0, length(breakpointRanges(.testrecord(c("chr1 1541062 gridss0_2065b G .GGTGGG 262.69 . SVTYPE=BND")))))
})
test_that("breakendRanges should include breakends", {
gr <- breakendRanges(.testrecord(c("chr1 100 . A TGC. 14 PASS SVTYPE=BND")))
expect_equal(1, length(gr))
expect_equal("GC", gr$insSeq)
})
test_that("align_breakpoint should handle all orientations", {
noname = function(x) { names(x) = NULL; return(x)}
vcf = .testrecord(c(
"chr1 1000 a N A[chr1:2000[ . . SVTYPE=BND;CIPOS=0,4;PARID=b",
"chr1 2000 b N ]chr1:1000]G . . SVTYPE=BND;CIPOS=0,4;PARID=a"))
vcf = align_breakpoints(vcf)
expect_equal(c(1002, 2002), start(rowRanges(vcf)))
expect_equal(c(-2,2, -2,2), noname(unlist(info(vcf)$CIPOS)))
expect_equal(c("N[chr1:2002[", "]chr1:1002]N"), unlist(rowRanges(vcf)$ALT))
expect_equal(c("+-", "-+"), .vcfAltToStrandPair(rowRanges(vcf)$ALT))
vcf = .testrecord(c(
"chr1 1000 a N ]chr1:2000]A . . SVTYPE=BND;CIPOS=0,4;PARID=b",
"chr1 2000 b N G[chr1:1000[ . . SVTYPE=BND;CIPOS=0,4;PARID=a"))
vcf = align_breakpoints(vcf)
expect_equal(c(1002, 2002), start(rowRanges(vcf)))
expect_equal(c(-2,2, -2,2), noname(unlist(info(vcf)$CIPOS)))
expect_equal(c("]chr1:2002]N", "N[chr1:1002["), unlist(rowRanges(vcf)$ALT))
expect_equal(c("-+", "+-"), .vcfAltToStrandPair(rowRanges(vcf)$ALT))
vcf = .testrecord(c(
"chr1 1000 a N A]chr1:2000] . . SVTYPE=BND;CIPOS=-4,0;PARID=b",
"chr1 2000 b N G]chr1:1000] . . SVTYPE=BND;CIPOS=0,4;PARID=a"))
vcf = align_breakpoints(vcf)
expect_equal(c(998, 2002), start(rowRanges(vcf)))
expect_equal(c(-2,2, -2,2), noname(unlist(info(vcf)$CIPOS)))
expect_equal(c("N]chr1:2002]", "N]chr1:998]"), unlist(rowRanges(vcf)$ALT))
expect_equal(c("++", "++"), .vcfAltToStrandPair(rowRanges(vcf)$ALT))
vcf = .testrecord(c(
"chr1 1000 a N [chr1:2000[A . . SVTYPE=BND;CIPOS=-4,0;PARID=b",
"chr1 2000 b N [chr1:1000[G . . SVTYPE=BND;CIPOS=0,4;PARID=a"))
vcf = align_breakpoints(vcf)
expect_equal(c(998, 2002), start(rowRanges(vcf)))
expect_equal(c(-2,2, -2,2), noname(unlist(info(vcf)$CIPOS)))
expect_equal(c("[chr1:2002[N", "[chr1:998[N"), unlist(rowRanges(vcf)$ALT))
expect_equal(c("--", "--"), .vcfAltToStrandPair(rowRanges(vcf)$ALT))
})
test_that("align_breakpoint centre should ensure odd length homology is consistent on both sides", {
noname = function(x) { names(x) = NULL; return(x)}
vcf = .testrecord(c(
"chr1 1000 a N A[chr1:2000[ . . SVTYPE=BND;CIPOS=0,5;PARID=b",
"chr1 2000 b N ]chr1:1000]G . . SVTYPE=BND;CIPOS=0,5;PARID=a"))
vcf = align_breakpoints(vcf)
expect_equal(c(1002, 2002), start(rowRanges(vcf)))
expect_equal(c(-2,3, -2,3), noname(unlist(info(vcf)$CIPOS)))
expect_equal(c("N[chr1:2002[", "]chr1:1002]N"), unlist(rowRanges(vcf)$ALT))
vcf = .testrecord(c(
"chr1 1000 a N ]chr1:2000]A . . SVTYPE=BND;CIPOS=0,5;PARID=b",
"chr1 2000 b N G[chr1:1000[ . . SVTYPE=BND;CIPOS=0,5;PARID=a"))
vcf = align_breakpoints(vcf)
expect_equal(c(1002, 2002), start(rowRanges(vcf)))
expect_equal(c(-2,3, -2,3), noname(unlist(info(vcf)$CIPOS)))
expect_equal(c("]chr1:2002]N", "N[chr1:1002["), unlist(rowRanges(vcf)$ALT))
vcf = .testrecord(c(
"chr1 1000 a N A]chr1:2000] . . SVTYPE=BND;CIPOS=-5,0;PARID=b",
"chr1 2000 b N G]chr1:1000] . . SVTYPE=BND;CIPOS=0,5;PARID=a"))
vcf = align_breakpoints(vcf)
expect_equal(c(998, 2002), start(rowRanges(vcf)))
expect_equal(c(-3,2, -2,3), noname(unlist(info(vcf)$CIPOS)))
expect_equal(c("N]chr1:2002]", "N]chr1:998]"), unlist(rowRanges(vcf)$ALT))
vcf = .testrecord(c(
"chr1 1000 a N [chr1:2000[A . . SVTYPE=BND;CIPOS=-5,0;PARID=b",
"chr1 2000 b N [chr1:1000[G . . SVTYPE=BND;CIPOS=0,5;PARID=a"))
vcf = align_breakpoints(vcf)
expect_equal(c(998, 2002), start(rowRanges(vcf)))
expect_equal(c(-3,2, -2,3), noname(unlist(info(vcf)$CIPOS)))
expect_equal(c("[chr1:2002[N", "[chr1:998[N"), unlist(rowRanges(vcf)$ALT))
})
test_that("align_breakpoint should not touch other variants", {
vcf = .testrecord(c(
"chr1 1000 be1 N AGT. . . SVTYPE=BND;CIPOS=-5,0",
"chr1 1000 b21 N .AGT . . SVTYPE=BND;CIPOS=-5,0",
"chr1 1000 b21 N <DEL> . . SVTYPE=DEL;CIPOS=-5,0"))
vcf = align_breakpoints(vcf)
expect_equal(c("AGT.", ".AGT", "<DEL>"), unlist(rowRanges(vcf)$ALT))
})
test_that("breakpointRanges() should default to drop unpaired records.", {
gr = expect_warning(breakpointRanges(gridss_missing_partner))
expect_equal(2, length(gr))
})
test_that("breakpointRanges(inferMissingBreakends=TRUE) should add missing breakends.", {
gr = breakpointRanges(gridss_missing_partner, inferMissingBreakends=TRUE)
expect_equal(4, length(gr))
expect_equal(c(18992158, 84963533, 84350, 4886681), start(gr))
expect_equal(c("+", "-"), as.character(strand(gr))[1:2])
})
# CGTGTtgtagtaCCGTAA
# ------- 7bp del
# 0 1
# 123456789012345678
# Important symbolic allele info from the VCF specifications:
#
# 1.6.1.4 If any of the ALT alleles is a symbolic allele (an angle-bracketed ID String “<ID>”) then the padding base is required and POS denotes the coordinate of the base preceding the polymorphism.
# 1.6.1.8 End reference position (1-based), indicating the variant spans positions POS–END on reference/contig CHROM. Normally this is the position of the last base in the REF allele
test_that("representations are equivalent", {
bpgr = breakpointRanges(representations)
expect_equal(rep(-7, 6), bpgr$svLen)
expect_equal(rep(c(5, 13), 3), start(bpgr))
expect_equal(rep(c(5, 13), 3), end(bpgr))
})
# TODO: VCFv4.4 support
# - filter DEL/DUP on SVCLAIM
# - Basic support for CNV?
# - Deprecate SVTYPE
# VCFv4.4 PR: CIEND deprecate - use CILEN
# need to define how CILEN interacts with CIPOS - there are multiple possible interpretation
# [CIPOS_start, CIPOS_end], [CIEND_start, CIEND_end] implies CILEN=[CIPOS_end-CIEND_start, CIEND_end, CIPOS_start]
# but the actual CILEN could be less. Homology
# bonus: usually doesn't need to be written!
# VCFv4.4 PR: HOMLEN deprecate and replace with HOMPOS
# Exact calls shouldn't have a CIPOS - they should use HOMPOS instead.
# VCFv4.4 PR: Event/Type should be type=A, not type=1
# VCFv4.4 PR: line 196: ALT=<BND> is not valid
# VCFv4.4 PR: update the \subsection{Encoding Structural Variants} example
# The SV example should not include non-reserved subtypes
# VCFv4.4 PR: line 208: reserve all IUPAC ambiguity codes
# VCFv4.4 PR: line 208: can symoblic alleles be mixed with non-symbolic ones?
# VCFv4.4 TODO: why is the FORMAT CN field TYPE=1 ? Is it just the CN? Why Integer, not Float?
test_that("VCFv4.4 use ALT instead of SVTYPE", {
vcf44 = .testrecordv44(c(
# we'll ignore that the mate orientations are actually incorrect for now - we're just testing missing SVTYPE
"chrA 1000 bp1 N A]chrA:2000] . . PARID=bp2",
"chrA 2000 bp2 N ]chrA:1000]G . . PARID=bp1",
"chrA 1000 bp4 N [chrA:2000[A . . PARID=bp4",
"chrA 2000 bp3 N G[chrA:1000[ . . PARID=bp3",
"chrA 2000 be1 N .G . . ",
"chrA 2000 be2 N .G . . ",
"chrA 1 del A <DEL> 0 . SVLEN=10;SVCLAIM=J",
"chrA 1 dup A <DUP> 0 . SVLEN=10;SVCLAIM=J",
"chrA 1 ins A <INS> 0 . SVLEN=10",
"chrA 1 inv A <INV> 0 . SVLEN=10"))
bpgr = breakpointRanges(vcf44)
begr = breakendRanges(vcf44)
expect_equal(sort(c(
"bp1", "bp2", "bp3", "bp4",
"del_bp1", "dup_bp1", "ins_bp1", "inv_bp1",
"del_bp2", "dup_bp2", "ins_bp2", "inv_bp2",
"inv_bp3", "inv_bp4")), sort(names(bpgr)))
expect_equal(sort(c("be1", "be2")), sort(names(begr)))
})
test_that("VCFv4.4 CNV & SVCLAIM", {
bpgr = breakpointRanges(.testrecordv44(c(
"chrA 1 cnv_del A <DEL> 0 . SVLEN=10;SVCLAIM=D",
"chrA 1 cnv_dup A <DUP> 0 . SVLEN=10;SVCLAIM=D",
"chrA 1 cnv A <CNV> 0 . SVLEN=10",
"chrA 1 del_actual A <DEL> 0 . SVLEN=10;SVCLAIM=DJ",
"chrA 1 dup_actual A <DUP> 0 . SVLEN=10;SVCLAIM=DJ",
"chrA 1 del A <DEL> 0 . SVLEN=10;SVCLAIM=J",
"chrA 1 dup A <DUP> 0 . SVLEN=10;SVCLAIM=J",
"chrA 1 ins A <INS> 0 . SVLEN=10")))
expected_names = c("del_actual", "dup_actual", "del", "dup", "ins")
expect_equal(c(paste0(expected_names, "_bp1"), paste0(expected_names, "_bp2")), names(bpgr))
})
test_that("VCFv4.4 SVLEN>END", {
bpgr = breakpointRanges(.testrecordv44(c(
"chrA 1 end A <DEL> 0 . SVCLAIM=J;END=3",
"chrA 1 svlen A <DEL> 0 . SVCLAIM=J;SVLEN=5",
"chrA 1 both A <DEL> 0 . SVCLAIM=J;END=10;SVLEN=5")))
expect_equal(4, start(bpgr["end_bp2"]))
expect_equal(7, start(bpgr["svlen_bp2"]))
expect_equal(7, start(bpgr["both_bp2"]))
})
test_that("VCFv4.4 CIEND>CILEN DEL", {
bpgr = breakpointRanges(.testrecordv44(c(
"chrA 10 both1 A <DEL> 0 . SVLEN=5;END=15;CIPOS=-2,2;CILEN=-2,2;CIEND=0,0",
"chrA 10 both2 A <DEL> 0 . SVLEN=5;END=15;CIPOS=-2,2;CILEN=0,0;CIEND=-2,2",
"chrA 10 cilen A <DEL> 0 . SVLEN=7;CIPOS=-2,2;CILEN=-3,3", #END=17
"chrA 10 ciend A <DEL> 0 . END=14;CIPOS=-2,2;CIEND=-1,3",
"chrA 10 inferred_end_bounds A <DEL> 0 . SVLEN=7;CIPOS=-2,2")))
expect_equal(c(10,16) + c(-2, 0), start(bpgr[c("both1_bp1", "both1_bp2")]))
expect_equal(c(10,16) + c( 2, 0), end(bpgr[c("both1_bp1", "both1_bp2")]))
expect_equal(c(10,16) + c(-2, -2), start(bpgr[c("both2_bp1", "both2_bp2")]))
expect_equal(c(10,16) + c( 2, 2), end(bpgr[c("both2_bp1", "both2_bp2")]))
# widest end bounds is [leftmost start & shortest, rightmost start + longest]
expect_equal(c(10,18) + c(-2, -2-3), start(bpgr[c("cilen_bp1", "cilen_bp2")]))
expect_equal(c(10,18) + c( 2, +2+3), end(bpgr[c("cilen_bp1", "cilen_bp2")]))
expect_equal(c(10,15) + c(-2, -1), start(bpgr[c("ciend_bp1", "ciend_bp2")]))
expect_equal(c(10,15) + c( 2, 3), end(bpgr[c("ciend_bp1", "ciend_bp2")]))
# inferred end bounds should match start since SVLEN is known and fixed
expect_equal(c(10,18) + c(-2, -2), start(bpgr[c("inferred_end_bounds_bp1", "inferred_end_bounds_bp2")]))
expect_equal(c(10,18) + c( 2, 2), end(bpgr[c("inferred_end_bounds_bp1", "inferred_end_bounds_bp2")]))
})
test_that("VCFv4.4 CIEND CILEN INV", {
# inversion has a different codepath
bpgr = breakpointRanges(.testrecordv44(c(
"chrA 10 inv1 A <INV> 0 . SVLEN=5;CIPOS=-1,1;CILEN=-2,2;CIEND=0,0",
"chrA 10 inv2 A <INV> 0 . SVLEN=5;CIPOS=-1,1;CILEN=-2,2")))
expect_equal(c(16, 15) + 0, start(bpgr[c("inv1_bp2", "inv1_bp4")]))
expect_equal(c(16, 15) + 0, end(bpgr[c("inv1_bp2", "inv1_bp4")]))
expect_equal(c(16, 15) + -1-2,start(bpgr[c("inv2_bp2", "inv2_bp4")]))
expect_equal(c(16, 15) + 1+2, end(bpgr[c("inv2_bp2", "inv2_bp4")]))
})
test_that("VCFv4.4 CIEND CILEN INS", {
bpgr = breakpointRanges(.testrecordv44(c(
"chrA 10 inv1 A <INS> 0 . SVLEN=5;CIPOS=-1,1;CILEN=-2,2;CIEND=0,0",
"chrA 10 inv2 A <INS> 0 . SVLEN=5;CIPOS=-1,1;CILEN=-2,2")))
# CILEN doesn't impact INS bounds
expect_equal(11 + c(0,-1),start(bpgr[c("inv1_bp2", "inv2_bp2")]))
expect_equal(11 + c(0, 1), end(bpgr[c("inv1_bp2", "inv2_bp2")]))
})
test_that("VCFv4.4 ALT symbolic subtypes", {
bpgr = breakpointRanges(.testrecordv44(c(
"chrA 1 ins A <INS:ME:ALU> 0 . SVLEN=5",
"chrA 1 dup A <DUP:TANDEM> 0 . SVLEN=3"
)))
expect_equal(1, start(bpgr["ins_bp1"]))
expect_equal(1, end(bpgr["ins_bp1"]))
expect_equal(2, start(bpgr["ins_bp2"]))
expect_equal(2, end(bpgr["ins_bp2"]))
expect_equal(2, start(bpgr["dup_bp1"]))
expect_equal(4, start(bpgr["dup_bp2"]))
expect_equal("-", as.character(strand(bpgr["dup_bp1"])))
expect_equal("+", as.character(strand(bpgr["dup_bp2"])))
})
test_that("VCFv4.4 EVENT", {
bpgr = breakpointRanges(.testrecordv44(c(
"chrA 1 e1 A <DEL> 0 . SVLEN=5;SVCLAIM=J;EVENT=complex;EVENTTYPE=chromothripsis",
"chrA 10 e2 A <DEL> 0 . SVLEN=5;SVCLAIM=J;EVENT=complex;EVENTTYPE=chromothripsis",
"chrA 20 untagged A <DEL> 0 . SVLEN=5;SVCLAIM=J")))
expect_equal(c("complex", "complex", NA_character_), bpgr[c("e1_bp1", "e2_bp1", "untagged_bp1")]$event)
})
test_that("VCFv4.4 non-SV symbolic alleles", {
bpgr = breakpointRanges(.testrecordv44(c(
"chrA 1 sym1 A <*> 0 . END=10",
"chrA 10 sym2 A <NON_REF> 0 . ")))
expect_equal(0, length(bpgr))
})
test_that("SVLEN", {
bpgr = breakpointRanges(.testrecordv44(c(
"chrA 2 ins A <INS> 0 . SVLEN=3",
"chrA 2 dup A <DUP> 0 . SVLEN=3",
"chrA 2 del A <DEL> 0 . SVLEN=3",
"chrA 2 inv A <INV> 0 . SVLEN=3",
"chrA 2 cnv A <CNV> 0 . SVLEN=3")))
expect_equal(end(bpgr)-start(bpgr), rep(0, length(bpgr)))
expect_equal(c(2, 3), start(bpgr[c("ins_bp1", "ins_bp2")]))
expect_equal(c(3, 5), start(bpgr[c("dup_bp1", "dup_bp2")]))
expect_equal(c(2, 6), start(bpgr[c("del_bp1", "del_bp2")]))
expect_equal(c(3, 6, 2, 5), start(bpgr[c("inv_bp1", "inv_bp2", "inv_bp3", "inv_bp4")]))
expect_equal(c("+", "-"), as.character(strand(bpgr[c("ins_bp1", "ins_bp2")])))
expect_equal(c("-", "+"), as.character(strand(bpgr[c("dup_bp1", "dup_bp2")])))
expect_equal(c("+", "-"), as.character(strand(bpgr[c("del_bp1", "del_bp2")])))
expect_equal(c("-", "-", "+", "+"), as.character(strand(bpgr[c("inv_bp1", "inv_bp2", "inv_bp3", "inv_bp4")])))
})
# test_that("VCFv4.4 support multiple SV ALT alleles", {
# bpgr = breakpointRanges(.testrecordv44(c(
# "chrA 10 multi A <DEL>,<DUP> 0 . SVLEN=5,10;CIPOS=-1,1,-2,2;SVCLAIM=J")))
# expect_equal(4, length(bpgr))
# expect_equal(c("multi_bp1", "multi_bp2", "multi_alt2_bp1", "multi_alt2_bp2"), names(bpgr))
# expect_equal(c(10-1, 10+5-1), start(bpgr[c("multi_bp1", "multi_bp2")]))
# expect_equal(c(10+1, 10+5+1), end(bpgr[c("multi_bp1", "multi_bp2")]))
# expect_equal(c(10-2, 10+10-2), start(bpgr[c("multi_alt2_bp1", "multi_alt2_bp2")]))
# expect_equal(c(10+2, 10+10+2), end(bpgr[c("multi_alt2_bp1", "multi_alt2_bp2")]))
# })
d-cameron/StructuralVariantAnnotation documentation built on Dec. 26, 2021, 6:14 p.m.
R Package Documentation
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context('main functions')
example <- readVcf(.testfile("vcf4.2.example.sv.vcf"), "")
simple <- readVcf(.testfile("simple.vcf"), "")
breakend <- readVcf(.testfile("breakend.vcf"), "")
multipleAlleles <- readVcf(.testfile("multipleAltSVs.vcf"), "")
representations <- readVcf(.testfile("representations.vcf"))
breakdancer <- readVcf(.testfile("breakdancer-1.4.5.vcf"), "")
#cortex <- readVcf(.testfile("cortex-1.0.5.14.vcf"), "")
#crest <- readVcf(.testfile("crest.vcf"), "")
delly <- readVcf(.testfile("delly-0.6.8.vcf"), "")
#gasv <- readVcf(.testfile("gasv-20140228.vcf"), "")
gridss <- readVcf(.testfile("gridss.vcf"), "")
gridss_missing_partner <- readVcf(.testfile("gridss-missingPartner.vcf"), "")
#lumpy <- readVcf(.testfile("lumpy-0.2.11.vcf"), "")
pindel <- readVcf(.testfile("pindel-0.2.5b6.vcf"), "")
#socrates <- readVcf(.testfile("socrates-1.13.vcf"), "")
tigra <- readVcf(.testfile("tigra-0.3.7.vcf"), "")
manta <- readVcf(.testfile("manta-0.29.6.vcf"), "")
manta111 <- readVcf(.testfile("manta-1.1.1.vcf"), "")
longranger <- readVcf(.testfile("COLO829.10X.longranger.largeSVs.vcf"), "")
test_that("INFO column import", {
gr <- breakpointRanges(simple, info_columns=c("SVTYPE", "MATEID"))
expect_equal("BNDBF", as.character(gr["BNDFB"]$MATEID))
gr <- breakpointRanges(.testrecord(c("chr10 2991435 INV N <INV> . LowQual SVTYPE=INV;CHR2=chr1;END=19357517;CT=3to5")))
})
test_that("longranger UNK", {
gr <- breakpointRanges(longranger)[c("call_2416_1", "call_2416_2")]
expect_equal(as.character(strand(gr)), c("*", "*"))
})
test_that("longranger IMPRECISE_DIR", {
gr <- breakpointRanges(longranger)[c("call_534_bp1", "call_534_bp2")]
expect_equal(c(2632546-10, 2632545-10+57120), start(gr))
expect_equal(as.character(strand(gr)), c("*", "*"))
})
test_that("Delly TRA", {
# https://groups.google.com/forum/#!msg/delly-users/6Mq2juBraRY/BjmMrBh3GAAJ
# Sorry, I forgot to post this to the delly-users list:
# For a translocation, you have 2 double strand breaks, one on chrA and one on chrB.
# This creates 4 "dangling" ends, chrA_left, chrA_right, chrB_left, chrB_right.
# For a translocation you can join chrA_left with chrB_left (3to3), chrA_left with chrB_right (3to5),
# chrA_right with chrB_left (5to3) and chrA_right with chrB_right (5to5).
# In fact for a typical reciprocal translocation in prostate cancer (where two chromosomes exchange their end)
# Delly calls 2 translocations at the breakpoint, one 3to5 and one 5to3. But obviously not all translocations are reciprocal.
# -Tobias
gr <- breakpointRanges(.testrecord(c("chr10 2991435 TRA00000001 N <TRA> . LowQual CIEND=0,100;CIPOS=0,50;SVTYPE=TRA;CHR2=chr1;END=19357517;CT=3to5")))
expect_equal(2, length(gr))
expect_equal(c(2991435, 19357517), start(gr))
expect_equal(c(2991485, 19357617), end(gr))
expect_equal(c("+", "-"), as.character(strand(gr)))
expect_equal(c("chr10", "chr1"), as.character(seqnames(gr)))
gr <- breakpointRanges(delly)
})
test_that("tigra CTX", {
gr <- breakpointRanges(tigra[3,])
expect_equal(c(102520604 - 10, 70284 - 10), start(gr))
expect_equal(c(102520604 + 10, 70284 + 10), end(gr))
expect_equal(c("*", "*"), as.character(strand(gr)))
expect_equal(c("chr12", "chrUn_gl000223"), as.character(seqnames(gr)))
})
test_that("pindel RPL", {
gr <- breakpointRanges(pindel[5,])
expect_equal(c(1029142, 1029183), start(gr))
expect_equal(c("+", "-"), as.character(strand(gr)))
expect_equal(c(51, 51), gr$insLen)
})
test_that("empty VCF", {
expect_equal(0, length(breakpointRanges(.testrecord(c()))))
})
test_that(".hasSingleAllelePerRecord", {
expect_false(.hasSingleAllelePerRecord(multipleAlleles))
expect_true(.hasSingleAllelePerRecord(expand(multipleAlleles)))
})
test_that("isSymbolic", {
expect_equal(
c(FALSE, FALSE, FALSE, FALSE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE),
isSymbolic(simple))
})
test_that("isStructural", {
expect_equal(
c(FALSE, FALSE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE),
isStructural(simple))
expect_true(isStructural(.testrecord("chr1 1 . ATT AGGA . . ")))
expect_false(isStructural(.testrecord("chr1 1 . ATT NNN . . ")))
})
test_that(".svLen", {
expect_equal(c(0, 0, 1, -1, 1, -2, NA, NA, NA, NA), .svLen(simple))
expect_equal(.svLen(.testrecord("chr1 100 . A <DEL> . . SVLEN=-1")), c(-1))
expect_equal(.svLen(.testrecord("chr1 100 . A <DUP> . . END=101")), c(1))
})
# unpaired breakend
test_that("partner fails if missing mate", {
expect_error(partner(breakpointRanges(simple)[1,]))
})
test_that("breakpointRanges convert to breakend pairs", {
gr <- breakpointRanges(simple)
pairId <- c("INS", "DEL", "SYMINS", "SYMDEL")
expect_true(all(paste0(pairId, "_bp1") %in% names(gr)))
expect_true(all(paste0(pairId, "_bp2") %in% names(gr)))
expect_equal(names(partner(gr))[names(gr) %in% paste0(pairId, "_bp1")], paste0(pairId, "_bp2"))
expect_equal(names(partner(gr))[names(gr) %in% c("BNDFB", "BNDBF")], c("BNDBF", "BNDFB"))
})
test_that("breakpointRanges creates placeholder names", {
expect_warning(expect_named(breakpointRanges(.testrecord(c(
"chr1 100 . A <DEL> . . SVLEN=-1",
"chr1 100 . A <DEL> . . SVLEN=-1")))),
regex="Found 1 duplicate row names")
})
test_that("breakpointRanges non-symbolic alleles", {
gr <- breakpointRanges(simple[c("INS", "DEL"),])
expect_equal(4, length(gr))
gr <- breakpointRanges(.testrecord("chr1 1 . ATT AGGA . . "))
expect_equal(start(gr), c(1, 4))
expect_equal(gr$insSeq, c("GGA", "GGA"))
expect_equal(gr$svLen, c(1, 1))
gr <- breakpointRanges(.testrecord("chr1 2 . TTT AGGA . . "))
expect_equal(start(gr), c(1, 5))
expect_equal(gr$insSeq, c("AGGA", "AGGA"))
expect_equal(gr$svLen, c(1, 1))
gr <- breakpointRanges(.testrecord("chr1 2 . AGT AGGA . . "))
expect_equal(start(gr), c(3, 5))
expect_equal(gr$insSeq, c("GA", "GA"))
expect_equal(gr$insLen, c(2, 2))
expect_equal(gr$svLen, c(1, 1))
gr <- breakpointRanges(.testrecord("chr1 2 . AGGA AG . . "))
expect_equal(start(gr), c(3, 6))
expect_equal(as.character(strand(gr)), c("+", "-"))
expect_equal(gr$insLen, c(0, 0))
expect_equal(gr$svLen, c(-2, -2))
})
test_that("breakpointRanges intervals", {
# Position assumed to the left aligned
gr <- breakpointRanges(.testrecord("chr1 100 . A AT . . HOMLEN=0"))
expect_equal(start(gr), c(100, 101))
expect_equal(end(gr), c(100, 101))
gr <- breakpointRanges(.testrecord("chr1 100 . A AT . . HOMLEN=1"))
expect_equal(start(gr), c(100, 101))
expect_equal(end(gr), c(101, 102))
gr <- breakpointRanges(.testrecord("chr1 100 . A AT . . HOMLEN=2"))
expect_equal(start(gr), c(100, 101))
expect_equal(end(gr), c(102, 103))
gr <- breakpointRanges(.testrecord("chr1 100 . A AT . . HOMSEQ=AAAAAAAAAA"))
expect_equal(start(gr), c(100, 101))
expect_equal(end(gr), c(110, 111))
gr <- breakpointRanges(.testrecord("chr1 100 . A AT . . CIPOS=-5,10"))
expect_equal(start(gr), c(95, 96))
expect_equal(end(gr), c(110, 111))
# CIPOS over homology
gr <- breakpointRanges(.testrecord("chr1 100 . A AT . . CIPOS=-5,10;HOMLEN=50;HOMESEQ=A"))
expect_equal(start(gr), c(95, 96))
expect_equal(end(gr), c(110, 111))
# HOMLEN over HOMSEQ
gr <- breakpointRanges(.testrecord("chr1 100 . A AT . . HOMLEN=50;HOMESEQ=A"))
expect_equal(start(gr), c(100, 101))
expect_equal(end(gr), c(150, 151))
})
test_that("breakpointRanges DEL", {
gr <- breakpointRanges(.testrecord("chr1 100 . A <DEL> . . SVLEN=-1"))
expect_equal(start(gr), c(100, 102))
expect_equal(gr$insLen, c(0, 0))
gr <- breakpointRanges(.testrecord("chr1 100 . A <DEL> . . END=101"))
expect_equal(start(gr), c(100, 102))
breakpointRanges(.testrecord("chr1 100 . A <DEL:WITH:SUBTYPE> . . END=101"))
breakpointRanges(.testrecord("chr1 100 . A <DEL> . . SVTYPE=DEL:WITH:SUBTYPE;END=101"))
# warning about incompatable SVLEN and END fields
#expect_warning(breakpointRanges(.testrecord("chr1 100 . A <DEL> . . END=101;SVLEN=-10")), "SVLEN")
})
test_that("breakpointRanges should fix positive DEL event size", {
gr <- breakpointRanges(.testrecord("chr1 100 . A <DEL> . . SVLEN=10"))
expect_equal(start(gr), c(100, 111))
expect_equal(gr$insLen, c(0, 0))
})
test_that("breakpointRanges breakend", {
expect_warning(gr <- breakpointRanges(breakend))
expect_equal("parid_b", gr["parid_a",]$partner)
expect_equal("mateid_b", gr["mateid_a",]$partner)
expect_equal(partner(gr[c("parid_a", "parid_b"),]), gr[c("parid_b", "parid_a"),])
expect_warning(breakpointRanges(breakend[c("mateid_a", "mateid_b", "multi_mateid")]), "Ignoring additional mate breakends")
expect_warning(breakpointRanges(breakend[c("unpaired")]), "Removing [0-9]+ unpaired breakend variants")
expect_equal(breakpointRanges(.testrecord(c(
"chr1 100 a N N[chr1:105[ . . SVTYPE=BND;CIPOS=0,1;PARID=b",
"chr1 105 b N ]chr1:100]N . . SVTYPE=BND;CIPOS=0,1;PARID=a"
)))$svLen, c(-4, -4))
expect_equal(breakpointRanges(.testrecord(c(
"chr1 100 a N NAAAA[chr1:101[ . . SVTYPE=BND;CIPOS=0,1;PARID=b",
"chr1 101 b N ]chr1:100]TTTTN . . SVTYPE=BND;CIPOS=0,1;PARID=a"
)))$svLen, c(4, 4))
})
test_that("breakpointRanges INV", {
# VCF example
gr <- breakpointRanges(.testrecord("chr1 321682 INV0 T <INV> 6 PASS SVTYPE=INV;END=421681"))
expect_equal(4, length(gr))
expect_equal(start(gr), c(321682+1, 421681+1, 321682, 421681))
expect_equal(as.character(strand(gr)), c("-", "-", "+", "+"))
expect_equal(names(gr), c("INV0_bp1", "INV0_bp2", "INV0_bp3", "INV0_bp4"))
gr <- breakpointRanges(.testrecord("chr1 321682 INV0 T <INV> 6 PASS SVTYPE=INV;END=421681;CIPOS=-2,1;CIEND=-3,4"))
expect_equal(4, length(gr))
expect_equal(start(gr), c(321682+1, 421681+1, 321682, 421681) + c(-2, -3, -2 ,-3))
expect_equal( end(gr), c(321682+1, 421681+1, 321682, 421681) + c( 1, 4, 1, 4))
expect_error(breakpointRanges(.testrecord("chr1 321682 INV0 T <INV> 6 PASS SVTYPE=INV")))
})
test_that("breakpointRanges DUP", {
# VCF example
gr <- breakpointRanges(.testrecord(c(
"chr1 12665100 . A <DUP> 14 PASS SVTYPE=DUP;END=12686200;SVLEN=21100",
"chr1 18665128 . T <DUP:TANDEM> 11 PASS SVTYPE=DUP;END=18665204;SVLEN=76")))
expect_equal(4, length(gr))
expect_equal(start(gr), c(12665100+1, 18665128+1,
12686200, 18665204))
expect_equal(as.character(strand(gr)), c("-", "-", "+", "+"))
expect_equal(c(0,0,0,0), gr$insLen)
gr <- breakpointRanges(.testrecord("chr1 12665100 . A <DUP> 14 PASS SVTYPE=DUP;END=12686200;SVLEN=21100;CIPOS=-2,1;CIEND=-3,4"))
expect_equal(2, length(gr))
expect_equal(start(gr), c(12665100+1, 12686200) + c(-2,-3))
expect_equal( end(gr), c(12665100+1, 12686200) + c( 1, 4))
expect_error(breakpointRanges(.testrecord("chr1 321682 . T <DUP> . . SVTYPE=DUP")))
gr <- breakpointRanges(.testrecord("chr12 5616362 chr12.5616362.DUP65536 A <DUP> . . SVLEN=65536;SVTYPE=DUP"))
expect_equal(2, length(gr))
expect_equal(start(gr), c(5616362+1, 5616362+65536))
expect_equal(c("-", "+"), as.character(strand(gr)))
})
# test_that("manta merge should retain only unique events", {
# # VCF example
# gr <- breakpointRanges(manta)
# expect_equal(4, length(gr))
# })
test_that("manta 1.1.1", {
gr <- breakpointRanges(manta111)
expect_equal(2*10, length(gr))
})
test_that("manta INV3 should only have 1 breakpoint", {
gr <- breakpointRanges(manta111[info(manta111)$INV3])
expect_equal(c("+", "+"), as.character(strand(gr)))
})
test_that("nominalPosition should ignore confidence intervals", {
# VCF example
vcfExact <- .testrecord(c("chr1 100 . A <DEL> 14 PASS SVTYPE=DEL;END=200"))
vcfCI <- .testrecord(c("chr1 100 . A <DEL> 14 PASS SVTYPE=DEL;END=200;CIEND=-10,10;CIPOS=-5,5"))
expect_equal(breakpointRanges(vcfCI, nominalPosition=TRUE), breakpointRanges(vcfExact, nominalPosition=TRUE))
expect_equal(ranges(breakpointRanges(vcfCI, nominalPosition=TRUE)), ranges(breakpointRanges(vcfExact, nominalPosition=TRUE)))
})
test_that("nominalPosition should ignore micro-homology", {
# VCF example
vcfExact <- .testrecord(c("chr1 100 . A <DEL> 14 PASS SVTYPE=DEL;END=200"))
vcfHOM <- .testrecord(c("chr1 100 . A <DEL> 14 PASS SVTYPE=DEL;END=200;HOMLEN=15"))
expect_equal(ranges(breakpointRanges(vcfHOM, nominalPosition=TRUE)), ranges(breakpointRanges(vcfExact, nominalPosition=TRUE)))
})
test_that("breakpointRanges should not include breakends", {
expect_true(isSymbolic(.testrecord(c("chr1 100 . A AAA. 14 PASS SVTYPE=BND"))))
expect_equal(0, length(breakpointRanges(.testrecord(c("chr1 100 . A AAA. 14 PASS SVTYPE=BND")))))
expect_equal(0, length(breakpointRanges(.testrecord(c("chr1 1541062 gridss0_2065b G .GGTGGG 262.69 . SVTYPE=BND")))))
})
test_that("breakendRanges should include breakends", {
gr <- breakendRanges(.testrecord(c("chr1 100 . A TGC. 14 PASS SVTYPE=BND")))
expect_equal(1, length(gr))
expect_equal("GC", gr$insSeq)
})
test_that("align_breakpoint should handle all orientations", {
noname = function(x) { names(x) = NULL; return(x)}
vcf = .testrecord(c(
"chr1 1000 a N A[chr1:2000[ . . SVTYPE=BND;CIPOS=0,4;PARID=b",
"chr1 2000 b N ]chr1:1000]G . . SVTYPE=BND;CIPOS=0,4;PARID=a"))
vcf = align_breakpoints(vcf)
expect_equal(c(1002, 2002), start(rowRanges(vcf)))
expect_equal(c(-2,2, -2,2), noname(unlist(info(vcf)$CIPOS)))
expect_equal(c("N[chr1:2002[", "]chr1:1002]N"), unlist(rowRanges(vcf)$ALT))
expect_equal(c("+-", "-+"), .vcfAltToStrandPair(rowRanges(vcf)$ALT))
vcf = .testrecord(c(
"chr1 1000 a N ]chr1:2000]A . . SVTYPE=BND;CIPOS=0,4;PARID=b",
"chr1 2000 b N G[chr1:1000[ . . SVTYPE=BND;CIPOS=0,4;PARID=a"))
vcf = align_breakpoints(vcf)
expect_equal(c(1002, 2002), start(rowRanges(vcf)))
expect_equal(c(-2,2, -2,2), noname(unlist(info(vcf)$CIPOS)))
expect_equal(c("]chr1:2002]N", "N[chr1:1002["), unlist(rowRanges(vcf)$ALT))
expect_equal(c("-+", "+-"), .vcfAltToStrandPair(rowRanges(vcf)$ALT))
vcf = .testrecord(c(
"chr1 1000 a N A]chr1:2000] . . SVTYPE=BND;CIPOS=-4,0;PARID=b",
"chr1 2000 b N G]chr1:1000] . . SVTYPE=BND;CIPOS=0,4;PARID=a"))
vcf = align_breakpoints(vcf)
expect_equal(c(998, 2002), start(rowRanges(vcf)))
expect_equal(c(-2,2, -2,2), noname(unlist(info(vcf)$CIPOS)))
expect_equal(c("N]chr1:2002]", "N]chr1:998]"), unlist(rowRanges(vcf)$ALT))
expect_equal(c("++", "++"), .vcfAltToStrandPair(rowRanges(vcf)$ALT))
vcf = .testrecord(c(
"chr1 1000 a N [chr1:2000[A . . SVTYPE=BND;CIPOS=-4,0;PARID=b",
"chr1 2000 b N [chr1:1000[G . . SVTYPE=BND;CIPOS=0,4;PARID=a"))
vcf = align_breakpoints(vcf)
expect_equal(c(998, 2002), start(rowRanges(vcf)))
expect_equal(c(-2,2, -2,2), noname(unlist(info(vcf)$CIPOS)))
expect_equal(c("[chr1:2002[N", "[chr1:998[N"), unlist(rowRanges(vcf)$ALT))
expect_equal(c("--", "--"), .vcfAltToStrandPair(rowRanges(vcf)$ALT))
})
test_that("align_breakpoint centre should ensure odd length homology is consistent on both sides", {
noname = function(x) { names(x) = NULL; return(x)}
vcf = .testrecord(c(
"chr1 1000 a N A[chr1:2000[ . . SVTYPE=BND;CIPOS=0,5;PARID=b",
"chr1 2000 b N ]chr1:1000]G . . SVTYPE=BND;CIPOS=0,5;PARID=a"))
vcf = align_breakpoints(vcf)
expect_equal(c(1002, 2002), start(rowRanges(vcf)))
expect_equal(c(-2,3, -2,3), noname(unlist(info(vcf)$CIPOS)))
expect_equal(c("N[chr1:2002[", "]chr1:1002]N"), unlist(rowRanges(vcf)$ALT))
vcf = .testrecord(c(
"chr1 1000 a N ]chr1:2000]A . . SVTYPE=BND;CIPOS=0,5;PARID=b",
"chr1 2000 b N G[chr1:1000[ . . SVTYPE=BND;CIPOS=0,5;PARID=a"))
vcf = align_breakpoints(vcf)
expect_equal(c(1002, 2002), start(rowRanges(vcf)))
expect_equal(c(-2,3, -2,3), noname(unlist(info(vcf)$CIPOS)))
expect_equal(c("]chr1:2002]N", "N[chr1:1002["), unlist(rowRanges(vcf)$ALT))
vcf = .testrecord(c(
"chr1 1000 a N A]chr1:2000] . . SVTYPE=BND;CIPOS=-5,0;PARID=b",
"chr1 2000 b N G]chr1:1000] . . SVTYPE=BND;CIPOS=0,5;PARID=a"))
vcf = align_breakpoints(vcf)
expect_equal(c(998, 2002), start(rowRanges(vcf)))
expect_equal(c(-3,2, -2,3), noname(unlist(info(vcf)$CIPOS)))
expect_equal(c("N]chr1:2002]", "N]chr1:998]"), unlist(rowRanges(vcf)$ALT))
vcf = .testrecord(c(
"chr1 1000 a N [chr1:2000[A . . SVTYPE=BND;CIPOS=-5,0;PARID=b",
"chr1 2000 b N [chr1:1000[G . . SVTYPE=BND;CIPOS=0,5;PARID=a"))
vcf = align_breakpoints(vcf)
expect_equal(c(998, 2002), start(rowRanges(vcf)))
expect_equal(c(-3,2, -2,3), noname(unlist(info(vcf)$CIPOS)))
expect_equal(c("[chr1:2002[N", "[chr1:998[N"), unlist(rowRanges(vcf)$ALT))
})
test_that("align_breakpoint should not touch other variants", {
vcf = .testrecord(c(
"chr1 1000 be1 N AGT. . . SVTYPE=BND;CIPOS=-5,0",
"chr1 1000 b21 N .AGT . . SVTYPE=BND;CIPOS=-5,0",
"chr1 1000 b21 N <DEL> . . SVTYPE=DEL;CIPOS=-5,0"))
vcf = align_breakpoints(vcf)
expect_equal(c("AGT.", ".AGT", "<DEL>"), unlist(rowRanges(vcf)$ALT))
})
test_that("breakpointRanges() should default to drop unpaired records.", {
gr = expect_warning(breakpointRanges(gridss_missing_partner))
expect_equal(2, length(gr))
})
test_that("breakpointRanges(inferMissingBreakends=TRUE) should add missing breakends.", {
gr = breakpointRanges(gridss_missing_partner, inferMissingBreakends=TRUE)
expect_equal(4, length(gr))
expect_equal(c(18992158, 84963533, 84350, 4886681), start(gr))
expect_equal(c("+", "-"), as.character(strand(gr))[1:2])
})
# CGTGTtgtagtaCCGTAA
# ------- 7bp del
# 0 1
# 123456789012345678
# Important symbolic allele info from the VCF specifications:
#
# 1.6.1.4 If any of the ALT alleles is a symbolic allele (an angle-bracketed ID String “<ID>”) then the padding base is required and POS denotes the coordinate of the base preceding the polymorphism.
# 1.6.1.8 End reference position (1-based), indicating the variant spans positions POS–END on reference/contig CHROM. Normally this is the position of the last base in the REF allele
test_that("representations are equivalent", {
bpgr = breakpointRanges(representations)
expect_equal(rep(-7, 6), bpgr$svLen)
expect_equal(rep(c(5, 13), 3), start(bpgr))
expect_equal(rep(c(5, 13), 3), end(bpgr))
})
# TODO: VCFv4.4 support
# - filter DEL/DUP on SVCLAIM
# - Basic support for CNV?
# - Deprecate SVTYPE
# VCFv4.4 PR: CIEND deprecate - use CILEN
# need to define how CILEN interacts with CIPOS - there are multiple possible interpretation
# [CIPOS_start, CIPOS_end], [CIEND_start, CIEND_end] implies CILEN=[CIPOS_end-CIEND_start, CIEND_end, CIPOS_start]
# but the actual CILEN could be less. Homology
# bonus: usually doesn't need to be written!
# VCFv4.4 PR: HOMLEN deprecate and replace with HOMPOS
# Exact calls shouldn't have a CIPOS - they should use HOMPOS instead.
# VCFv4.4 PR: Event/Type should be type=A, not type=1
# VCFv4.4 PR: line 196: ALT=<BND> is not valid
# VCFv4.4 PR: update the \subsection{Encoding Structural Variants} example
# The SV example should not include non-reserved subtypes
# VCFv4.4 PR: line 208: reserve all IUPAC ambiguity codes
# VCFv4.4 PR: line 208: can symoblic alleles be mixed with non-symbolic ones?
# VCFv4.4 TODO: why is the FORMAT CN field TYPE=1 ? Is it just the CN? Why Integer, not Float?
test_that("VCFv4.4 use ALT instead of SVTYPE", {
vcf44 = .testrecordv44(c(
# we'll ignore that the mate orientations are actually incorrect for now - we're just testing missing SVTYPE
"chrA 1000 bp1 N A]chrA:2000] . . PARID=bp2",
"chrA 2000 bp2 N ]chrA:1000]G . . PARID=bp1",
"chrA 1000 bp4 N [chrA:2000[A . . PARID=bp4",
"chrA 2000 bp3 N G[chrA:1000[ . . PARID=bp3",
"chrA 2000 be1 N .G . . ",
"chrA 2000 be2 N .G . . ",
"chrA 1 del A <DEL> 0 . SVLEN=10;SVCLAIM=J",
"chrA 1 dup A <DUP> 0 . SVLEN=10;SVCLAIM=J",
"chrA 1 ins A <INS> 0 . SVLEN=10",
"chrA 1 inv A <INV> 0 . SVLEN=10"))
bpgr = breakpointRanges(vcf44)
begr = breakendRanges(vcf44)
expect_equal(sort(c(
"bp1", "bp2", "bp3", "bp4",
"del_bp1", "dup_bp1", "ins_bp1", "inv_bp1",
"del_bp2", "dup_bp2", "ins_bp2", "inv_bp2",
"inv_bp3", "inv_bp4")), sort(names(bpgr)))
expect_equal(sort(c("be1", "be2")), sort(names(begr)))
})
test_that("VCFv4.4 CNV & SVCLAIM", {
bpgr = breakpointRanges(.testrecordv44(c(
"chrA 1 cnv_del A <DEL> 0 . SVLEN=10;SVCLAIM=D",
"chrA 1 cnv_dup A <DUP> 0 . SVLEN=10;SVCLAIM=D",
"chrA 1 cnv A <CNV> 0 . SVLEN=10",
"chrA 1 del_actual A <DEL> 0 . SVLEN=10;SVCLAIM=DJ",
"chrA 1 dup_actual A <DUP> 0 . SVLEN=10;SVCLAIM=DJ",
"chrA 1 del A <DEL> 0 . SVLEN=10;SVCLAIM=J",
"chrA 1 dup A <DUP> 0 . SVLEN=10;SVCLAIM=J",
"chrA 1 ins A <INS> 0 . SVLEN=10")))
expected_names = c("del_actual", "dup_actual", "del", "dup", "ins")
expect_equal(c(paste0(expected_names, "_bp1"), paste0(expected_names, "_bp2")), names(bpgr))
})
test_that("VCFv4.4 SVLEN>END", {
bpgr = breakpointRanges(.testrecordv44(c(
"chrA 1 end A <DEL> 0 . SVCLAIM=J;END=3",
"chrA 1 svlen A <DEL> 0 . SVCLAIM=J;SVLEN=5",
"chrA 1 both A <DEL> 0 . SVCLAIM=J;END=10;SVLEN=5")))
expect_equal(4, start(bpgr["end_bp2"]))
expect_equal(7, start(bpgr["svlen_bp2"]))
expect_equal(7, start(bpgr["both_bp2"]))
})
test_that("VCFv4.4 CIEND>CILEN DEL", {
bpgr = breakpointRanges(.testrecordv44(c(
"chrA 10 both1 A <DEL> 0 . SVLEN=5;END=15;CIPOS=-2,2;CILEN=-2,2;CIEND=0,0",
"chrA 10 both2 A <DEL> 0 . SVLEN=5;END=15;CIPOS=-2,2;CILEN=0,0;CIEND=-2,2",
"chrA 10 cilen A <DEL> 0 . SVLEN=7;CIPOS=-2,2;CILEN=-3,3", #END=17
"chrA 10 ciend A <DEL> 0 . END=14;CIPOS=-2,2;CIEND=-1,3",
"chrA 10 inferred_end_bounds A <DEL> 0 . SVLEN=7;CIPOS=-2,2")))
expect_equal(c(10,16) + c(-2, 0), start(bpgr[c("both1_bp1", "both1_bp2")]))
expect_equal(c(10,16) + c( 2, 0), end(bpgr[c("both1_bp1", "both1_bp2")]))
expect_equal(c(10,16) + c(-2, -2), start(bpgr[c("both2_bp1", "both2_bp2")]))
expect_equal(c(10,16) + c( 2, 2), end(bpgr[c("both2_bp1", "both2_bp2")]))
# widest end bounds is [leftmost start & shortest, rightmost start + longest]
expect_equal(c(10,18) + c(-2, -2-3), start(bpgr[c("cilen_bp1", "cilen_bp2")]))
expect_equal(c(10,18) + c( 2, +2+3), end(bpgr[c("cilen_bp1", "cilen_bp2")]))
expect_equal(c(10,15) + c(-2, -1), start(bpgr[c("ciend_bp1", "ciend_bp2")]))
expect_equal(c(10,15) + c( 2, 3), end(bpgr[c("ciend_bp1", "ciend_bp2")]))
# inferred end bounds should match start since SVLEN is known and fixed
expect_equal(c(10,18) + c(-2, -2), start(bpgr[c("inferred_end_bounds_bp1", "inferred_end_bounds_bp2")]))
expect_equal(c(10,18) + c( 2, 2), end(bpgr[c("inferred_end_bounds_bp1", "inferred_end_bounds_bp2")]))
})
test_that("VCFv4.4 CIEND CILEN INV", {
# inversion has a different codepath
bpgr = breakpointRanges(.testrecordv44(c(
"chrA 10 inv1 A <INV> 0 . SVLEN=5;CIPOS=-1,1;CILEN=-2,2;CIEND=0,0",
"chrA 10 inv2 A <INV> 0 . SVLEN=5;CIPOS=-1,1;CILEN=-2,2")))
expect_equal(c(16, 15) + 0, start(bpgr[c("inv1_bp2", "inv1_bp4")]))
expect_equal(c(16, 15) + 0, end(bpgr[c("inv1_bp2", "inv1_bp4")]))
expect_equal(c(16, 15) + -1-2,start(bpgr[c("inv2_bp2", "inv2_bp4")]))
expect_equal(c(16, 15) + 1+2, end(bpgr[c("inv2_bp2", "inv2_bp4")]))
})
test_that("VCFv4.4 CIEND CILEN INS", {
bpgr = breakpointRanges(.testrecordv44(c(
"chrA 10 inv1 A <INS> 0 . SVLEN=5;CIPOS=-1,1;CILEN=-2,2;CIEND=0,0",
"chrA 10 inv2 A <INS> 0 . SVLEN=5;CIPOS=-1,1;CILEN=-2,2")))
# CILEN doesn't impact INS bounds
expect_equal(11 + c(0,-1),start(bpgr[c("inv1_bp2", "inv2_bp2")]))
expect_equal(11 + c(0, 1), end(bpgr[c("inv1_bp2", "inv2_bp2")]))
})
test_that("VCFv4.4 ALT symbolic subtypes", {
bpgr = breakpointRanges(.testrecordv44(c(
"chrA 1 ins A <INS:ME:ALU> 0 . SVLEN=5",
"chrA 1 dup A <DUP:TANDEM> 0 . SVLEN=3"
)))
expect_equal(1, start(bpgr["ins_bp1"]))
expect_equal(1, end(bpgr["ins_bp1"]))
expect_equal(2, start(bpgr["ins_bp2"]))
expect_equal(2, end(bpgr["ins_bp2"]))
expect_equal(2, start(bpgr["dup_bp1"]))
expect_equal(4, start(bpgr["dup_bp2"]))
expect_equal("-", as.character(strand(bpgr["dup_bp1"])))
expect_equal("+", as.character(strand(bpgr["dup_bp2"])))
})
test_that("VCFv4.4 EVENT", {
bpgr = breakpointRanges(.testrecordv44(c(
"chrA 1 e1 A <DEL> 0 . SVLEN=5;SVCLAIM=J;EVENT=complex;EVENTTYPE=chromothripsis",
"chrA 10 e2 A <DEL> 0 . SVLEN=5;SVCLAIM=J;EVENT=complex;EVENTTYPE=chromothripsis",
"chrA 20 untagged A <DEL> 0 . SVLEN=5;SVCLAIM=J")))
expect_equal(c("complex", "complex", NA_character_), bpgr[c("e1_bp1", "e2_bp1", "untagged_bp1")]$event)
})
test_that("VCFv4.4 non-SV symbolic alleles", {
bpgr = breakpointRanges(.testrecordv44(c(
"chrA 1 sym1 A <*> 0 . END=10",
"chrA 10 sym2 A <NON_REF> 0 . ")))
expect_equal(0, length(bpgr))
})
test_that("SVLEN", {
bpgr = breakpointRanges(.testrecordv44(c(
"chrA 2 ins A <INS> 0 . SVLEN=3",
"chrA 2 dup A <DUP> 0 . SVLEN=3",
"chrA 2 del A <DEL> 0 . SVLEN=3",
"chrA 2 inv A <INV> 0 . SVLEN=3",
"chrA 2 cnv A <CNV> 0 . SVLEN=3")))
expect_equal(end(bpgr)-start(bpgr), rep(0, length(bpgr)))
expect_equal(c(2, 3), start(bpgr[c("ins_bp1", "ins_bp2")]))
expect_equal(c(3, 5), start(bpgr[c("dup_bp1", "dup_bp2")]))
expect_equal(c(2, 6), start(bpgr[c("del_bp1", "del_bp2")]))
expect_equal(c(3, 6, 2, 5), start(bpgr[c("inv_bp1", "inv_bp2", "inv_bp3", "inv_bp4")]))
expect_equal(c("+", "-"), as.character(strand(bpgr[c("ins_bp1", "ins_bp2")])))
expect_equal(c("-", "+"), as.character(strand(bpgr[c("dup_bp1", "dup_bp2")])))
expect_equal(c("+", "-"), as.character(strand(bpgr[c("del_bp1", "del_bp2")])))
expect_equal(c("-", "-", "+", "+"), as.character(strand(bpgr[c("inv_bp1", "inv_bp2", "inv_bp3", "inv_bp4")])))
})
# test_that("VCFv4.4 support multiple SV ALT alleles", {
# bpgr = breakpointRanges(.testrecordv44(c(
# "chrA 10 multi A <DEL>,<DUP> 0 . SVLEN=5,10;CIPOS=-1,1,-2,2;SVCLAIM=J")))
# expect_equal(4, length(bpgr))
# expect_equal(c("multi_bp1", "multi_bp2", "multi_alt2_bp1", "multi_alt2_bp2"), names(bpgr))
# expect_equal(c(10-1, 10+5-1), start(bpgr[c("multi_bp1", "multi_bp2")]))
# expect_equal(c(10+1, 10+5+1), end(bpgr[c("multi_bp1", "multi_bp2")]))
# expect_equal(c(10-2, 10+10-2), start(bpgr[c("multi_alt2_bp1", "multi_alt2_bp2")]))
# expect_equal(c(10+2, 10+10+2), end(bpgr[c("multi_alt2_bp1", "multi_alt2_bp2")]))
# })
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