Nothing
inst/unitTests/dupDosageCorAcrossDatasets_test.R
In GWASTools: Tools for Genome Wide Association Studies
test_dosCorSelectGenotype <- function() {
# make GenotypeData object
# using test Illumina dataset
gds.file <- system.file("extdata", "illumina_geno.gds", package="GWASdata")
gds <- GdsGenotypeReader(gds.file)
# select random 20 SNPs - make sure 2 are Y chr
snp.selA <- sample(getSnpID(gds),18)
snp.selY <- sample(getSnpID(gds)[which(getChromosome(gds, char=TRUE) %in% "Y")],2)
snp.sel <- c(snp.selA, snp.selY)
table(getChromosome(gds, char=TRUE)[getSnpID(gds) %in% snp.sel])
# select random 10 scans
samp.sel <- sample(getScanID(gds),10)
close(gds)
# get scan annotation to keep track of M vs F
scan.file <- system.file("data", "illuminaScanADF.RData", package="GWASdata")
scanIlm <- pData(getobj(scan.file))
scanIlm.sel <- scanIlm[scanIlm$scanID %in% samp.sel,]
# set one M to F to check Y SNP behavior (females may already be set to NA)
male.sel <- sample(scanIlm.sel$scanID[scanIlm.sel$sex %in% "M"],1)
scanIlm.sel$sex[scanIlm.sel$scanID %in% male.sel] <- "F"
# subset to 20 SNPs and 10 samples
gds.sub <- tempfile()
gdsSubset(gds.file, gds.sub,
snp.include=snp.sel,
sample.include=samp.sel)
gds <- GdsGenotypeReader(gds.sub)
# create snpAnnot
snpAnnot <- SnpAnnotationDataFrame(data.frame(snpID=getSnpID(gds),
chromosome=getChromosome(gds),
position=getPosition(gds),
alleleA=getAlleleA(gds),
alleleB=getAlleleB(gds)))
# create scanAnnot
scanAnnot <- ScanAnnotationDataFrame(scanIlm.sel)
genoData <- GenotypeData(gds, snpAnnot, scanAnnot)
# shuffle scan order
scan.order <- getScanID(gds)[c(5:10,1:4)]
# exclude Y chr SNPs
snp.order <- getSnpID(gds)[!is.element(getChromosome(gds,char=TRUE),"Y")]
geno.sel <- GWASTools:::.dosCorSelectGenotype(genoData,
scanIDs=scan.order,
snpIDs=snp.order)
# now check selection
rownames(geno.sel) <- NULL # remove snpIDs as row names
# loop over scans (columns)
for (i in getScanID(gds)){
geno.allsnps <- getGenotype(gds,snp=c(1,-1),scan=c(which(getScanID(gds)==i),1))
geno.chk <- geno.allsnps[!is.element(getChromosome(gds,char=TRUE),"Y")]
checkIdentical(geno.sel[,as.character(i)],geno.chk)
}
# check female genotypes on the Y - select all females on the Y chr SNPs
scan.F <- getScanID(genoData)[getSex(genoData) %in% "F"]
snp.Y <- getSnpID(genoData)[getChromosome(genoData, char=TRUE) %in% "Y"]
geno.femY.sel <- GWASTools:::.dosCorSelectGenotype(genoData,
scanIDs=scan.F,
snpIDs=snp.Y)
checkEquals(sum(!is.na(geno.femY.sel)), 0)
# checkException - check error conditions. question - should these only happen for checks that are explicit in the function itself?
# non integer scanIDs
checkException(GWASTools:::.dosCorSelectGenotype(genoData, scanIDs=letters[1:3], snpIDs=snp.order), silent=TRUE)
# non integer snpIDs
checkException(GWASTools:::.dosCorSelectGenotype(genoData, scanIDs=scan.order, snpIDs=letters[1:3]), silent=TRUE)
# unlink tempfile
unlink(gds.sub)
}
test_dupDosageCorAcrossDatasets <- function() {
# make first GenotypeData object
# using test Illumina dataset
gds.file <- system.file("extdata", "illumina_geno.gds", package="GWASdata")
gds <- GdsGenotypeReader(gds.file)
# select random 20 SNPs
snp.sel <- sample(getSnpID(gds),20)
# select random 10 scans
samp.sel <- sample(getScanID(gds),10)
close(gds)
# get scan annotation to keep track of M vs F
scan.file <- system.file("data", "illuminaScanADF.RData", package="GWASdata")
scanIlm <- pData(getobj(scan.file))
scanIlm.sel <- scanIlm[scanIlm$scanID %in% samp.sel,]
# table(scanIlm.sel$sex)
# subset to 20 SNPs and 10 scans
gds.sub <- tempfile()
gdsSubset(gds.file, gds.sub,
snp.include=snp.sel,
sample.include=samp.sel)
gds <- GdsGenotypeReader(gds.sub)
# create snpAnnot
snpAnnot <- SnpAnnotationDataFrame(data.frame(snpID=getSnpID(gds),
chromosome=getChromosome(gds),
position=getPosition(gds),
alleleA=getAlleleA(gds),
alleleB=getAlleleB(gds),
stringsAsFactors=FALSE))
# create scanAnnot
# use sex information from Illumina scan annot
scanAnnot <- ScanAnnotationDataFrame(data.frame(scanID=getScanID(gds),
subjectID=letters[1:nscan(gds)],
sex=scanIlm.sel$sex,
stringsAsFactors=FALSE))
genoData1 <- GenotypeData(gds, snpAnnot, scanAnnot)
# make second GenotypeData as variation on genoData1
geno1.matx <- getGenotype(gds,snp=c(1,-1), scan=c(1,-1))
geno2.matx <- abs(geno1.matx-0.1)
# remove one of the overlapping SNPs by changing the position
pos.init <- getPosition(gds)
pos.init[5] <- pos.init[5]+10
mgr <- MatrixGenotypeReader(genotype=geno2.matx,snpID=getSnpID(gds),
chromosome=getChromosome(gds),
position=as.integer(pos.init),
scanID=1:nscan(gds))
# change scanIDs in second dataset
scan1 <- pData(scanAnnot)
scan2 <- scan1
scan2$scanID <- 1:nrow(scan2)
# remove one of the overlapping samples
scan2$subjectID[4] <- "z"
snp1 <- pData(snpAnnot)
snp2 <- snp1
# change allele A and alleleB mapping for one SNP
snp2$position[5] <- as.integer(snp2$position[5] + 10)
snp2$alleleA[3] <- snp1$alleleB[3]
snp2$alleleB[3] <- snp1$alleleA[3]
genoData2 <- GenotypeData(mgr, SnpAnnotationDataFrame(snp2),
scanAnnot=ScanAnnotationDataFrame(scan2))
## test genoData1 vs genoData1 --
message("\nComparing identical datasets\n")
out.equal <- dupDosageCorAcrossDatasets(genoData1=genoData1,
genoData2=genoData1,
snp.block.size=18,
scan.block.size=9)
snp.equal <- out.equal$snp
samp.equal <- out.equal$samps
# dosage correlation (r) should be 1 or NA
checkEquals(snp.equal$dosageR[!is.na(snp.equal$dosageR)],
rep(1,sum(!is.na(snp.equal$dosageR))))
checkTrue(max(snp.equal$nsamp.dosageR)<=nrow(samp.equal))
checkEquals(samp.equal$dosageR[!is.na(samp.equal$dosageR)],
rep(1,sum(!is.na(samp.equal$dosageR))))
checkTrue(max(samp.equal$nsnp.dosageR)<=nrow(snp.equal))
# check exception - no matching samples
message("\nComparing no matching samples\n")
scan3 <- scan1
scan3$subjectID <- paste0(scan3$subjectID,"x")
genoData3 <- GenotypeData(gds, snpAnnot, ScanAnnotationDataFrame(scan3))
checkIdentical(NULL, dupDosageCorAcrossDatasets(genoData1=genoData1, genoData2=genoData3))
# or check warnings - convert warnings to errors
# options(warn=2)
# checkException(dupDosageCorAcrossDatasets(genoData1=genoData1, genoData2=genoData3))
# options(warn=0)
# check > 1 dup pair per sample - should still work, but select 1 dup pair per sample
message("\nComparing >1 dup pair\n")
scan4 <- pData(scanAnnot)
scan4$subjectID[5] <- scan4$subjectID[4]
genoData4 <- GenotypeData(gds, snpAnnot, ScanAnnotationDataFrame(scan4))
out.twopair <- dupDosageCorAcrossDatasets(genoData1=genoData1,
genoData2=genoData4)
snp.twopair <- out.twopair$snp
samp.twopair <- out.twopair$samps
npair <- length(intersect(unique(scan4$subjectID), getVariable(scanAnnot,"subjectID")))
checkEquals(npair, nrow(samp.twopair))
# test genoData1 vs genoData2
message("\nComparing different datasets\n")
out.diff <- dupDosageCorAcrossDatasets(genoData1=genoData1,
genoData2=genoData2)
snp.diff <- out.diff$snp
samp.diff <- out.diff$samp
# check there are 19 matching snps
checkEquals(nrow(snp.diff), 19)
# check there are 9 sample dup pairs
checkEquals(nrow(samp.diff), 9)
# check output r values to manual calculations
# use .dosCorSelectGenotype function to get genoData1 and genoData2 in the same snp and sample order
message("\tselecting genotypes from genoData1")
geno1.srt <- GWASTools:::.dosCorSelectGenotype(genoData1,
scanIDs=samp.diff$scanID1,
snpIDs=snp.diff$snpID1)
message("\tselecting genotypes from genoData2")
geno2.srt <- GWASTools:::.dosCorSelectGenotype(genoData2,
scanIDs=samp.diff$scanID2,
snpIDs=snp.diff$snpID2)
## row and col names are snpID and scanID, respectively
# replace rownames with chrom + position
# [reminder: match returns a vector of the positions of (first) matches of its first argument in its second]
row1 <- with(snp1[match(rownames(geno1.srt),snp1$snpID),],
paste(chromosome, position))
row2 <- with(snp2[match(rownames(geno2.srt),snp2$snpID),],
paste(chromosome, position))
rownames(geno1.srt) <- row1
rownames(geno2.srt) <- row2
# replace colnames with subjectID
col1 <- scan1$subjectID[match(colnames(geno1.srt),scan1$scanID)]
col2 <- scan2$subjectID[match(colnames(geno2.srt),scan2$scanID)]
colnames(geno1.srt) <- col1
colnames(geno2.srt) <- col2
# check that the two matrices are in the same snp and scan order
snp.diff$rownames <- paste(snp.diff$chromosome, snp.diff$position)
stopifnot(allequal(rownames(geno1.srt),rownames(geno2.srt)))
stopifnot(allequal(rownames(geno1.srt),snp.diff$rownames))
stopifnot(allequal(colnames(geno1.srt),colnames(geno2.srt)))
stopifnot(allequal(colnames(geno1.srt),samp.diff$subjectID))
# adjust for SNPs with flipped A/B
swapAB <- snp.diff$alleleA1!=snp.diff$alleleA2
geno2.srt[swapAB,] <- 2-geno2.srt[swapAB,]
# loop over SNPs
for (i in 1:nrow(snp.diff)){
r <- cor(geno1.srt[i,], geno2.srt[i,],use="pairwise.complete.obs")
# r2 <- r*r
checkEquals(r, snp.diff$dosageR[i])
}
# loop over samples
for (i in 1:nrow(samp.diff)){
r <- cor(geno1.srt[,i], geno2.srt[,i],use="pairwise.complete.obs")
# r2 <- r*r
checkEquals(r, samp.diff$dosageR[i])
}
# unlink tempfile
close(gds)
unlink(gds.sub)
}
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GWASTools documentation built on Nov. 8, 2020, 7:49 p.m.
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test_dosCorSelectGenotype <- function() {
# make GenotypeData object
# using test Illumina dataset
gds.file <- system.file("extdata", "illumina_geno.gds", package="GWASdata")
gds <- GdsGenotypeReader(gds.file)
# select random 20 SNPs - make sure 2 are Y chr
snp.selA <- sample(getSnpID(gds),18)
snp.selY <- sample(getSnpID(gds)[which(getChromosome(gds, char=TRUE) %in% "Y")],2)
snp.sel <- c(snp.selA, snp.selY)
table(getChromosome(gds, char=TRUE)[getSnpID(gds) %in% snp.sel])
# select random 10 scans
samp.sel <- sample(getScanID(gds),10)
close(gds)
# get scan annotation to keep track of M vs F
scan.file <- system.file("data", "illuminaScanADF.RData", package="GWASdata")
scanIlm <- pData(getobj(scan.file))
scanIlm.sel <- scanIlm[scanIlm$scanID %in% samp.sel,]
# set one M to F to check Y SNP behavior (females may already be set to NA)
male.sel <- sample(scanIlm.sel$scanID[scanIlm.sel$sex %in% "M"],1)
scanIlm.sel$sex[scanIlm.sel$scanID %in% male.sel] <- "F"
# subset to 20 SNPs and 10 samples
gds.sub <- tempfile()
gdsSubset(gds.file, gds.sub,
snp.include=snp.sel,
sample.include=samp.sel)
gds <- GdsGenotypeReader(gds.sub)
# create snpAnnot
snpAnnot <- SnpAnnotationDataFrame(data.frame(snpID=getSnpID(gds),
chromosome=getChromosome(gds),
position=getPosition(gds),
alleleA=getAlleleA(gds),
alleleB=getAlleleB(gds)))
# create scanAnnot
scanAnnot <- ScanAnnotationDataFrame(scanIlm.sel)
genoData <- GenotypeData(gds, snpAnnot, scanAnnot)
# shuffle scan order
scan.order <- getScanID(gds)[c(5:10,1:4)]
# exclude Y chr SNPs
snp.order <- getSnpID(gds)[!is.element(getChromosome(gds,char=TRUE),"Y")]
geno.sel <- GWASTools:::.dosCorSelectGenotype(genoData,
scanIDs=scan.order,
snpIDs=snp.order)
# now check selection
rownames(geno.sel) <- NULL # remove snpIDs as row names
# loop over scans (columns)
for (i in getScanID(gds)){
geno.allsnps <- getGenotype(gds,snp=c(1,-1),scan=c(which(getScanID(gds)==i),1))
geno.chk <- geno.allsnps[!is.element(getChromosome(gds,char=TRUE),"Y")]
checkIdentical(geno.sel[,as.character(i)],geno.chk)
}
# check female genotypes on the Y - select all females on the Y chr SNPs
scan.F <- getScanID(genoData)[getSex(genoData) %in% "F"]
snp.Y <- getSnpID(genoData)[getChromosome(genoData, char=TRUE) %in% "Y"]
geno.femY.sel <- GWASTools:::.dosCorSelectGenotype(genoData,
scanIDs=scan.F,
snpIDs=snp.Y)
checkEquals(sum(!is.na(geno.femY.sel)), 0)
# checkException - check error conditions. question - should these only happen for checks that are explicit in the function itself?
# non integer scanIDs
checkException(GWASTools:::.dosCorSelectGenotype(genoData, scanIDs=letters[1:3], snpIDs=snp.order), silent=TRUE)
# non integer snpIDs
checkException(GWASTools:::.dosCorSelectGenotype(genoData, scanIDs=scan.order, snpIDs=letters[1:3]), silent=TRUE)
# unlink tempfile
unlink(gds.sub)
}
test_dupDosageCorAcrossDatasets <- function() {
# make first GenotypeData object
# using test Illumina dataset
gds.file <- system.file("extdata", "illumina_geno.gds", package="GWASdata")
gds <- GdsGenotypeReader(gds.file)
# select random 20 SNPs
snp.sel <- sample(getSnpID(gds),20)
# select random 10 scans
samp.sel <- sample(getScanID(gds),10)
close(gds)
# get scan annotation to keep track of M vs F
scan.file <- system.file("data", "illuminaScanADF.RData", package="GWASdata")
scanIlm <- pData(getobj(scan.file))
scanIlm.sel <- scanIlm[scanIlm$scanID %in% samp.sel,]
# table(scanIlm.sel$sex)
# subset to 20 SNPs and 10 scans
gds.sub <- tempfile()
gdsSubset(gds.file, gds.sub,
snp.include=snp.sel,
sample.include=samp.sel)
gds <- GdsGenotypeReader(gds.sub)
# create snpAnnot
snpAnnot <- SnpAnnotationDataFrame(data.frame(snpID=getSnpID(gds),
chromosome=getChromosome(gds),
position=getPosition(gds),
alleleA=getAlleleA(gds),
alleleB=getAlleleB(gds),
stringsAsFactors=FALSE))
# create scanAnnot
# use sex information from Illumina scan annot
scanAnnot <- ScanAnnotationDataFrame(data.frame(scanID=getScanID(gds),
subjectID=letters[1:nscan(gds)],
sex=scanIlm.sel$sex,
stringsAsFactors=FALSE))
genoData1 <- GenotypeData(gds, snpAnnot, scanAnnot)
# make second GenotypeData as variation on genoData1
geno1.matx <- getGenotype(gds,snp=c(1,-1), scan=c(1,-1))
geno2.matx <- abs(geno1.matx-0.1)
# remove one of the overlapping SNPs by changing the position
pos.init <- getPosition(gds)
pos.init[5] <- pos.init[5]+10
mgr <- MatrixGenotypeReader(genotype=geno2.matx,snpID=getSnpID(gds),
chromosome=getChromosome(gds),
position=as.integer(pos.init),
scanID=1:nscan(gds))
# change scanIDs in second dataset
scan1 <- pData(scanAnnot)
scan2 <- scan1
scan2$scanID <- 1:nrow(scan2)
# remove one of the overlapping samples
scan2$subjectID[4] <- "z"
snp1 <- pData(snpAnnot)
snp2 <- snp1
# change allele A and alleleB mapping for one SNP
snp2$position[5] <- as.integer(snp2$position[5] + 10)
snp2$alleleA[3] <- snp1$alleleB[3]
snp2$alleleB[3] <- snp1$alleleA[3]
genoData2 <- GenotypeData(mgr, SnpAnnotationDataFrame(snp2),
scanAnnot=ScanAnnotationDataFrame(scan2))
## test genoData1 vs genoData1 --
message("\nComparing identical datasets\n")
out.equal <- dupDosageCorAcrossDatasets(genoData1=genoData1,
genoData2=genoData1,
snp.block.size=18,
scan.block.size=9)
snp.equal <- out.equal$snp
samp.equal <- out.equal$samps
# dosage correlation (r) should be 1 or NA
checkEquals(snp.equal$dosageR[!is.na(snp.equal$dosageR)],
rep(1,sum(!is.na(snp.equal$dosageR))))
checkTrue(max(snp.equal$nsamp.dosageR)<=nrow(samp.equal))
checkEquals(samp.equal$dosageR[!is.na(samp.equal$dosageR)],
rep(1,sum(!is.na(samp.equal$dosageR))))
checkTrue(max(samp.equal$nsnp.dosageR)<=nrow(snp.equal))
# check exception - no matching samples
message("\nComparing no matching samples\n")
scan3 <- scan1
scan3$subjectID <- paste0(scan3$subjectID,"x")
genoData3 <- GenotypeData(gds, snpAnnot, ScanAnnotationDataFrame(scan3))
checkIdentical(NULL, dupDosageCorAcrossDatasets(genoData1=genoData1, genoData2=genoData3))
# or check warnings - convert warnings to errors
# options(warn=2)
# checkException(dupDosageCorAcrossDatasets(genoData1=genoData1, genoData2=genoData3))
# options(warn=0)
# check > 1 dup pair per sample - should still work, but select 1 dup pair per sample
message("\nComparing >1 dup pair\n")
scan4 <- pData(scanAnnot)
scan4$subjectID[5] <- scan4$subjectID[4]
genoData4 <- GenotypeData(gds, snpAnnot, ScanAnnotationDataFrame(scan4))
out.twopair <- dupDosageCorAcrossDatasets(genoData1=genoData1,
genoData2=genoData4)
snp.twopair <- out.twopair$snp
samp.twopair <- out.twopair$samps
npair <- length(intersect(unique(scan4$subjectID), getVariable(scanAnnot,"subjectID")))
checkEquals(npair, nrow(samp.twopair))
# test genoData1 vs genoData2
message("\nComparing different datasets\n")
out.diff <- dupDosageCorAcrossDatasets(genoData1=genoData1,
genoData2=genoData2)
snp.diff <- out.diff$snp
samp.diff <- out.diff$samp
# check there are 19 matching snps
checkEquals(nrow(snp.diff), 19)
# check there are 9 sample dup pairs
checkEquals(nrow(samp.diff), 9)
# check output r values to manual calculations
# use .dosCorSelectGenotype function to get genoData1 and genoData2 in the same snp and sample order
message("\tselecting genotypes from genoData1")
geno1.srt <- GWASTools:::.dosCorSelectGenotype(genoData1,
scanIDs=samp.diff$scanID1,
snpIDs=snp.diff$snpID1)
message("\tselecting genotypes from genoData2")
geno2.srt <- GWASTools:::.dosCorSelectGenotype(genoData2,
scanIDs=samp.diff$scanID2,
snpIDs=snp.diff$snpID2)
## row and col names are snpID and scanID, respectively
# replace rownames with chrom + position
# [reminder: match returns a vector of the positions of (first) matches of its first argument in its second]
row1 <- with(snp1[match(rownames(geno1.srt),snp1$snpID),],
paste(chromosome, position))
row2 <- with(snp2[match(rownames(geno2.srt),snp2$snpID),],
paste(chromosome, position))
rownames(geno1.srt) <- row1
rownames(geno2.srt) <- row2
# replace colnames with subjectID
col1 <- scan1$subjectID[match(colnames(geno1.srt),scan1$scanID)]
col2 <- scan2$subjectID[match(colnames(geno2.srt),scan2$scanID)]
colnames(geno1.srt) <- col1
colnames(geno2.srt) <- col2
# check that the two matrices are in the same snp and scan order
snp.diff$rownames <- paste(snp.diff$chromosome, snp.diff$position)
stopifnot(allequal(rownames(geno1.srt),rownames(geno2.srt)))
stopifnot(allequal(rownames(geno1.srt),snp.diff$rownames))
stopifnot(allequal(colnames(geno1.srt),colnames(geno2.srt)))
stopifnot(allequal(colnames(geno1.srt),samp.diff$subjectID))
# adjust for SNPs with flipped A/B
swapAB <- snp.diff$alleleA1!=snp.diff$alleleA2
geno2.srt[swapAB,] <- 2-geno2.srt[swapAB,]
# loop over SNPs
for (i in 1:nrow(snp.diff)){
r <- cor(geno1.srt[i,], geno2.srt[i,],use="pairwise.complete.obs")
# r2 <- r*r
checkEquals(r, snp.diff$dosageR[i])
}
# loop over samples
for (i in 1:nrow(samp.diff)){
r <- cor(geno1.srt[,i], geno2.srt[,i],use="pairwise.complete.obs")
# r2 <- r*r
checkEquals(r, samp.diff$dosageR[i])
}
# unlink tempfile
close(gds)
unlink(gds.sub)
}
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