inst/unitTests/batchChisqTest_test.R
In amstilp/GWASTools: Tools for Genome Wide Association Studies
.expChisq <- function(geno, snpID, batch, correct=TRUE, male=FALSE) {
# expected values
exp.batch <- sort(unique(batch))
nbatch <- length(exp.batch)
nsnp <- length(snpID)
nA <- matrix(0, nrow=nsnp, ncol=nbatch)
nB <- matrix(0, nrow=nsnp, ncol=nbatch)
for (i in 1:nbatch) {
thisbatch <- batch == exp.batch[i]
nA[,i] <- rowSums(geno[,thisbatch], na.rm=TRUE)
nB[,i] <- rowSums(ifelse(male, 1, 2) - geno[,thisbatch], na.rm=TRUE)
}
# get chisq
if (nbatch == 2) {
exp.chisq <- rep(NA, nsnp)
for (i in 1:nsnp) {
tbl <- matrix(c(nA[i,1], nB[i,1], nA[i,2], nB[i,2]), nrow=2, ncol=2)
try({
chisq <- chisq.test(tbl, correct=correct)
exp.chisq[i] <- chisq[["statistic"]]
})
}
exp.chisq[pmin(rowSums(nA), rowSums(nB)) == 0] <- NA
exp.ave <- rep(mean(exp.chisq, na.rm=TRUE), 2)
exp.lam <- rep(median(exp.chisq, na.rm=TRUE) / qchisq(0.5, 1), 2)
} else {
exp.chisq <- matrix(NA, nrow=nsnp, ncol=nbatch, dimnames=list(snpID, exp.batch))
for (i in 1:nsnp) {
for (j in 1:nbatch) {
tbl <- matrix(c(nA[i,j], nB[i,j], sum(nA[i,-j]), sum(nB[i,-j])),
nrow=2, ncol=2)
try({
chisq <- chisq.test(tbl, correct=correct)
exp.chisq[i,j] <- chisq[["statistic"]]
})
}
}
exp.chisq[pmin(rowSums(nA), rowSums(nB)) == 0,] <- NA
exp.ave <- rep(NA, nbatch)
exp.lam <- rep(NA, nbatch)
for (i in 1:nbatch) {
exp.ave[i] <- mean(exp.chisq[,i], na.rm=TRUE)
exp.lam[i] <- median(exp.chisq[,i], na.rm=TRUE) / qchisq(0.5, 1)
}
}
exp.chisq[!is.finite(exp.chisq)] <- NA
names(exp.ave) <- exp.batch
names(exp.lam) <- exp.batch
list(ave=exp.ave, lam=exp.lam, chisq=exp.chisq)
}
check2batches <- function(nc) {
# define batches - only 2
scanID <- 1:20
batch <- rep(paste("batch", 1:2, sep=""), 10)
sex <- c(rep("M", 10), rep("F", 10))
scandf <- data.frame(scanID=scanID, sex=sex, batch=batch)
scanAnnot <- ScanAnnotationDataFrame(scandf)
data <- GenotypeData(nc, scanAnnot=scanAnnot)
# expected values
geno <- getGenotype(data)
snpID <- getSnpID(data)
exp <- .expChisq(geno, snpID, batch)
# test function
res <- batchChisqTest(data, batchVar="batch", return.by.snp=TRUE)
checkEquals(exp$ave, res$mean.chisq)
checkEquals(exp$lam, res$lambda)
checkEquals(exp$chisq, res$chisq[,1], tolerance=1e-7, checkNames=FALSE)
checkEquals(exp$chisq, res$chisq[,2], tolerance=1e-7, checkNames=FALSE)
}
check4batches <- function(nc) {
# define batches - 4
scanID <- 1:20
batch <- rep(paste("batch", 1:4, sep=""), 5)
sex <- c(rep("M", 10), rep("F", 10))
scandf <- data.frame(scanID=scanID, sex=sex, batch=batch)
scanAnnot <- ScanAnnotationDataFrame(scandf)
data <- GenotypeData(nc, scanAnnot=scanAnnot)
# expected values
geno <- getGenotype(data)
snpID <- getSnpID(data)
exp <- .expChisq(geno, snpID, batch)
# test function
res <- batchChisqTest(data, batchVar="batch", return.by.snp=TRUE)
checkEquals(exp$ave, res$mean.chisq)
checkEquals(exp$lam, res$lambda)
checkEquals(exp$chisq, res$chisq, tolerance=1e-7)
}
# test without Yates correction
checkNoYates <- function(nc) {
# define batches - 4
scanID <- 1:20
batch <- rep(paste("batch", 1:4, sep=""), 5)
sex <- c(rep("M", 10), rep("F", 10))
scandf <- data.frame(scanID=scanID, sex=sex, batch=batch)
scanAnnot <- ScanAnnotationDataFrame(scandf)
data <- GenotypeData(nc, scanAnnot=scanAnnot)
# expected values
geno <- getGenotype(data)
snpID <- getSnpID(data)
exp <- .expChisq(geno, snpID, batch, correct=FALSE)
# test function
res <- batchChisqTest(data, batchVar="batch", return.by.snp=TRUE, correct=FALSE)
checkEquals(exp$ave, res$mean.chisq)
checkEquals(exp$lam, res$lambda)
checkEquals(exp$chisq, res$chisq, tolerance=1e-7)
}
# test autosomes only
checkAuto <- function(nc) {
# define batches - 4
scanID <- 1:20
batch <- rep(paste("batch", 1:4, sep=""), 5)
sex <- c(rep("M", 10), rep("F", 10))
scandf <- data.frame(scanID=scanID, sex=sex, batch=batch)
scanAnnot <- ScanAnnotationDataFrame(scandf)
data <- GenotypeData(nc, scanAnnot=scanAnnot)
# expected values
chr <- getChromosome(data)
geno <- getGenotype(data)[chr <= 22,]
snpID <- getSnpID(data)[chr <= 22]
exp <- .expChisq(geno, snpID, batch)
# test function
res <- batchChisqTest(data, batchVar="batch", return.by.snp=TRUE)
checkEquals(exp$ave, res$mean.chisq)
checkEquals(exp$lam, res$lambda)
checkEquals(exp$chisq, res$chisq, tolerance=1e-7)
}
# test X and Y chroms for males
checkXYM <- function(nc) {
# define batches - 4
scanID <- 1:20
batch <- rep(paste("batch", 1:4, sep=""), 5)
sex <- c(rep("M", 10), rep("F", 10))
scandf <- data.frame(scanID=scanID, sex=sex, batch=batch)
scanAnnot <- ScanAnnotationDataFrame(scandf)
data <- GenotypeData(nc, scanAnnot=scanAnnot)
# expected values
chr <- getChromosome(data)
geno <- getGenotype(data)[chr %in% c(23,25), sex == "M"]
snpID <- getSnpID(data)[chr %in% c(23,25)]
# recode
geno[geno == 1] <- NA
geno[geno == 2] <- 1
exp <- .expChisq(geno, snpID, batch[sex == "M"], male=TRUE)
# test function
res <- batchChisqTest(data, batchVar="batch", return.by.snp=TRUE,
chrom.include=c(23,25), sex.include="M")
checkEquals(exp$ave, res$mean.chisq)
checkEquals(exp$lam, res$lambda)
checkEquals(exp$chisq, res$chisq, tolerance=1e-7)
}
# test X chrom for females
checkXF <- function(nc) {
# define batches - 4
scanID <- 1:20
batch <- rep(paste("batch", 1:4, sep=""), 5)
sex <- c(rep("M", 10), rep("F", 10))
scandf <- data.frame(scanID=scanID, sex=sex, batch=batch)
scanAnnot <- ScanAnnotationDataFrame(scandf)
data <- GenotypeData(nc, scanAnnot=scanAnnot)
# expected values
chr <- getChromosome(data)
geno <- getGenotype(data)[chr == 23, sex == "F"]
snpID <- getSnpID(data)[chr == 23]
exp <- .expChisq(geno, snpID, batch[sex == "F"])
# test function
res <- batchChisqTest(data, batchVar="batch", return.by.snp=TRUE,
chrom.include=23, sex.include="F")
checkEquals(exp$ave, res$mean.chisq)
checkEquals(exp$lam, res$lambda)
checkEquals(exp$chisq, res$chisq, tolerance=1e-7)
}
# test X and Y for males and females combined (should be error)
checkXYMF <- function(nc) {
# define batches - 4
scanID <- 1:20
batch <- rep(paste("batch", 1:4, sep=""), 5)
sex <- c(rep("M", 10), rep("F", 10))
scandf <- data.frame(scanID=scanID, sex=sex, batch=batch)
scanAnnot <- ScanAnnotationDataFrame(scandf)
data <- GenotypeData(nc, scanAnnot=scanAnnot)
checkException(batchChisqTest(data, batchVar="batch", chrom.include=23))
}
checkExclude <- function(nc) {
# define batches - 4
scanID <- 1:20
batch <- rep(paste("batch", 1:4, sep=""), 5)
sex <- c(rep("M", 10), rep("F", 10))
scandf <- data.frame(scanID=scanID, sex=sex, batch=batch)
scanAnnot <- ScanAnnotationDataFrame(scandf)
data <- GenotypeData(nc, scanAnnot=scanAnnot)
scan.exclude <- c(1,2,10)
# expected values
snpID <- getSnpID(data)
geno <- getGenotype(data)[, !(scanID %in% scan.exclude)]
batch <- batch[!(scanID %in% scan.exclude)]
exp <- .expChisq(geno, snpID, batch)
# test function
res <- batchChisqTest(data, batchVar="batch", return.by.snp=TRUE,
scan.exclude=scan.exclude)
checkEquals(exp$ave, res$mean.chisq)
checkEquals(exp$lam, res$lambda)
checkEquals(exp$chisq, res$chisq, tolerance=1e-7)
}
checkSnpInclude <- function(nc) {
# define batches - 4
scanID <- 1:20
batch <- rep(paste("batch", 1:4, sep=""), 5)
sex <- c(rep("M", 10), rep("F", 10))
scandf <- data.frame(scanID=scanID, sex=sex, batch=batch)
scanAnnot <- ScanAnnotationDataFrame(scandf)
data <- GenotypeData(nc, scanAnnot=scanAnnot)
snpID <- getSnpID(data)
snp.include <- sample(snpID, 10)
# expected values
geno <- getGenotype(data)[snpID %in% snp.include,]
exp <- .expChisq(geno, sort(snp.include), batch)
# test function
res <- batchChisqTest(data, batchVar="batch", return.by.snp=TRUE,
snp.include=snp.include)
checkEquals(exp$ave, res$mean.chisq)
checkEquals(exp$lam, res$lambda)
checkEquals(exp$chisq, res$chisq, tolerance=1e-7)
}
checkNoSnp <- function(nc) {
# define batches - 4
scanID <- 1:20
batch <- rep(paste("batch", 1:4, sep=""), 5)
sex <- c(rep("M", 10), rep("F", 10))
scandf <- data.frame(scanID=scanID, sex=sex, batch=batch)
scanAnnot <- ScanAnnotationDataFrame(scandf)
data <- GenotypeData(nc, scanAnnot=scanAnnot)
# test function
res <- batchChisqTest(data, batchVar="batch", return.by.snp=FALSE)
checkEquals(2, length(res))
checkIdentical(c("mean.chisq", "lambda"), names(res))
}
test_batchChisqTest <- function() {
# simulate data - autosomes only
ncfile <- tempfile()
simulateGenotypeMatrix(n.snps=10, n.chromosomes=22,
n.samples=20, filename=ncfile)
nc <- GdsGenotypeReader(ncfile)
# run tests
check2batches(nc)
check4batches(nc)
checkNoYates(nc)
checkExclude(nc)
checkSnpInclude(nc)
checkNoSnp(nc)
# clean up
close(nc)
file.remove(ncfile)
# simulate data - 26 chroms
ncfile <- tempfile()
simulateGenotypeMatrix(n.snps=10, n.chromosomes=26,
n.samples=20, filename=ncfile)
nc <- GdsGenotypeReader(ncfile)
# run tests
checkAuto(nc)
checkXYM(nc)
checkXF(nc)
checkXYMF(nc)
# clean up
close(nc)
file.remove(ncfile)
}
amstilp/GWASTools documentation built on May 10, 2019, 1:08 a.m.
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.expChisq <- function(geno, snpID, batch, correct=TRUE, male=FALSE) {
# expected values
exp.batch <- sort(unique(batch))
nbatch <- length(exp.batch)
nsnp <- length(snpID)
nA <- matrix(0, nrow=nsnp, ncol=nbatch)
nB <- matrix(0, nrow=nsnp, ncol=nbatch)
for (i in 1:nbatch) {
thisbatch <- batch == exp.batch[i]
nA[,i] <- rowSums(geno[,thisbatch], na.rm=TRUE)
nB[,i] <- rowSums(ifelse(male, 1, 2) - geno[,thisbatch], na.rm=TRUE)
}
# get chisq
if (nbatch == 2) {
exp.chisq <- rep(NA, nsnp)
for (i in 1:nsnp) {
tbl <- matrix(c(nA[i,1], nB[i,1], nA[i,2], nB[i,2]), nrow=2, ncol=2)
try({
chisq <- chisq.test(tbl, correct=correct)
exp.chisq[i] <- chisq[["statistic"]]
})
}
exp.chisq[pmin(rowSums(nA), rowSums(nB)) == 0] <- NA
exp.ave <- rep(mean(exp.chisq, na.rm=TRUE), 2)
exp.lam <- rep(median(exp.chisq, na.rm=TRUE) / qchisq(0.5, 1), 2)
} else {
exp.chisq <- matrix(NA, nrow=nsnp, ncol=nbatch, dimnames=list(snpID, exp.batch))
for (i in 1:nsnp) {
for (j in 1:nbatch) {
tbl <- matrix(c(nA[i,j], nB[i,j], sum(nA[i,-j]), sum(nB[i,-j])),
nrow=2, ncol=2)
try({
chisq <- chisq.test(tbl, correct=correct)
exp.chisq[i,j] <- chisq[["statistic"]]
})
}
}
exp.chisq[pmin(rowSums(nA), rowSums(nB)) == 0,] <- NA
exp.ave <- rep(NA, nbatch)
exp.lam <- rep(NA, nbatch)
for (i in 1:nbatch) {
exp.ave[i] <- mean(exp.chisq[,i], na.rm=TRUE)
exp.lam[i] <- median(exp.chisq[,i], na.rm=TRUE) / qchisq(0.5, 1)
}
}
exp.chisq[!is.finite(exp.chisq)] <- NA
names(exp.ave) <- exp.batch
names(exp.lam) <- exp.batch
list(ave=exp.ave, lam=exp.lam, chisq=exp.chisq)
}
check2batches <- function(nc) {
# define batches - only 2
scanID <- 1:20
batch <- rep(paste("batch", 1:2, sep=""), 10)
sex <- c(rep("M", 10), rep("F", 10))
scandf <- data.frame(scanID=scanID, sex=sex, batch=batch)
scanAnnot <- ScanAnnotationDataFrame(scandf)
data <- GenotypeData(nc, scanAnnot=scanAnnot)
# expected values
geno <- getGenotype(data)
snpID <- getSnpID(data)
exp <- .expChisq(geno, snpID, batch)
# test function
res <- batchChisqTest(data, batchVar="batch", return.by.snp=TRUE)
checkEquals(exp$ave, res$mean.chisq)
checkEquals(exp$lam, res$lambda)
checkEquals(exp$chisq, res$chisq[,1], tolerance=1e-7, checkNames=FALSE)
checkEquals(exp$chisq, res$chisq[,2], tolerance=1e-7, checkNames=FALSE)
}
check4batches <- function(nc) {
# define batches - 4
scanID <- 1:20
batch <- rep(paste("batch", 1:4, sep=""), 5)
sex <- c(rep("M", 10), rep("F", 10))
scandf <- data.frame(scanID=scanID, sex=sex, batch=batch)
scanAnnot <- ScanAnnotationDataFrame(scandf)
data <- GenotypeData(nc, scanAnnot=scanAnnot)
# expected values
geno <- getGenotype(data)
snpID <- getSnpID(data)
exp <- .expChisq(geno, snpID, batch)
# test function
res <- batchChisqTest(data, batchVar="batch", return.by.snp=TRUE)
checkEquals(exp$ave, res$mean.chisq)
checkEquals(exp$lam, res$lambda)
checkEquals(exp$chisq, res$chisq, tolerance=1e-7)
}
# test without Yates correction
checkNoYates <- function(nc) {
# define batches - 4
scanID <- 1:20
batch <- rep(paste("batch", 1:4, sep=""), 5)
sex <- c(rep("M", 10), rep("F", 10))
scandf <- data.frame(scanID=scanID, sex=sex, batch=batch)
scanAnnot <- ScanAnnotationDataFrame(scandf)
data <- GenotypeData(nc, scanAnnot=scanAnnot)
# expected values
geno <- getGenotype(data)
snpID <- getSnpID(data)
exp <- .expChisq(geno, snpID, batch, correct=FALSE)
# test function
res <- batchChisqTest(data, batchVar="batch", return.by.snp=TRUE, correct=FALSE)
checkEquals(exp$ave, res$mean.chisq)
checkEquals(exp$lam, res$lambda)
checkEquals(exp$chisq, res$chisq, tolerance=1e-7)
}
# test autosomes only
checkAuto <- function(nc) {
# define batches - 4
scanID <- 1:20
batch <- rep(paste("batch", 1:4, sep=""), 5)
sex <- c(rep("M", 10), rep("F", 10))
scandf <- data.frame(scanID=scanID, sex=sex, batch=batch)
scanAnnot <- ScanAnnotationDataFrame(scandf)
data <- GenotypeData(nc, scanAnnot=scanAnnot)
# expected values
chr <- getChromosome(data)
geno <- getGenotype(data)[chr <= 22,]
snpID <- getSnpID(data)[chr <= 22]
exp <- .expChisq(geno, snpID, batch)
# test function
res <- batchChisqTest(data, batchVar="batch", return.by.snp=TRUE)
checkEquals(exp$ave, res$mean.chisq)
checkEquals(exp$lam, res$lambda)
checkEquals(exp$chisq, res$chisq, tolerance=1e-7)
}
# test X and Y chroms for males
checkXYM <- function(nc) {
# define batches - 4
scanID <- 1:20
batch <- rep(paste("batch", 1:4, sep=""), 5)
sex <- c(rep("M", 10), rep("F", 10))
scandf <- data.frame(scanID=scanID, sex=sex, batch=batch)
scanAnnot <- ScanAnnotationDataFrame(scandf)
data <- GenotypeData(nc, scanAnnot=scanAnnot)
# expected values
chr <- getChromosome(data)
geno <- getGenotype(data)[chr %in% c(23,25), sex == "M"]
snpID <- getSnpID(data)[chr %in% c(23,25)]
# recode
geno[geno == 1] <- NA
geno[geno == 2] <- 1
exp <- .expChisq(geno, snpID, batch[sex == "M"], male=TRUE)
# test function
res <- batchChisqTest(data, batchVar="batch", return.by.snp=TRUE,
chrom.include=c(23,25), sex.include="M")
checkEquals(exp$ave, res$mean.chisq)
checkEquals(exp$lam, res$lambda)
checkEquals(exp$chisq, res$chisq, tolerance=1e-7)
}
# test X chrom for females
checkXF <- function(nc) {
# define batches - 4
scanID <- 1:20
batch <- rep(paste("batch", 1:4, sep=""), 5)
sex <- c(rep("M", 10), rep("F", 10))
scandf <- data.frame(scanID=scanID, sex=sex, batch=batch)
scanAnnot <- ScanAnnotationDataFrame(scandf)
data <- GenotypeData(nc, scanAnnot=scanAnnot)
# expected values
chr <- getChromosome(data)
geno <- getGenotype(data)[chr == 23, sex == "F"]
snpID <- getSnpID(data)[chr == 23]
exp <- .expChisq(geno, snpID, batch[sex == "F"])
# test function
res <- batchChisqTest(data, batchVar="batch", return.by.snp=TRUE,
chrom.include=23, sex.include="F")
checkEquals(exp$ave, res$mean.chisq)
checkEquals(exp$lam, res$lambda)
checkEquals(exp$chisq, res$chisq, tolerance=1e-7)
}
# test X and Y for males and females combined (should be error)
checkXYMF <- function(nc) {
# define batches - 4
scanID <- 1:20
batch <- rep(paste("batch", 1:4, sep=""), 5)
sex <- c(rep("M", 10), rep("F", 10))
scandf <- data.frame(scanID=scanID, sex=sex, batch=batch)
scanAnnot <- ScanAnnotationDataFrame(scandf)
data <- GenotypeData(nc, scanAnnot=scanAnnot)
checkException(batchChisqTest(data, batchVar="batch", chrom.include=23))
}
checkExclude <- function(nc) {
# define batches - 4
scanID <- 1:20
batch <- rep(paste("batch", 1:4, sep=""), 5)
sex <- c(rep("M", 10), rep("F", 10))
scandf <- data.frame(scanID=scanID, sex=sex, batch=batch)
scanAnnot <- ScanAnnotationDataFrame(scandf)
data <- GenotypeData(nc, scanAnnot=scanAnnot)
scan.exclude <- c(1,2,10)
# expected values
snpID <- getSnpID(data)
geno <- getGenotype(data)[, !(scanID %in% scan.exclude)]
batch <- batch[!(scanID %in% scan.exclude)]
exp <- .expChisq(geno, snpID, batch)
# test function
res <- batchChisqTest(data, batchVar="batch", return.by.snp=TRUE,
scan.exclude=scan.exclude)
checkEquals(exp$ave, res$mean.chisq)
checkEquals(exp$lam, res$lambda)
checkEquals(exp$chisq, res$chisq, tolerance=1e-7)
}
checkSnpInclude <- function(nc) {
# define batches - 4
scanID <- 1:20
batch <- rep(paste("batch", 1:4, sep=""), 5)
sex <- c(rep("M", 10), rep("F", 10))
scandf <- data.frame(scanID=scanID, sex=sex, batch=batch)
scanAnnot <- ScanAnnotationDataFrame(scandf)
data <- GenotypeData(nc, scanAnnot=scanAnnot)
snpID <- getSnpID(data)
snp.include <- sample(snpID, 10)
# expected values
geno <- getGenotype(data)[snpID %in% snp.include,]
exp <- .expChisq(geno, sort(snp.include), batch)
# test function
res <- batchChisqTest(data, batchVar="batch", return.by.snp=TRUE,
snp.include=snp.include)
checkEquals(exp$ave, res$mean.chisq)
checkEquals(exp$lam, res$lambda)
checkEquals(exp$chisq, res$chisq, tolerance=1e-7)
}
checkNoSnp <- function(nc) {
# define batches - 4
scanID <- 1:20
batch <- rep(paste("batch", 1:4, sep=""), 5)
sex <- c(rep("M", 10), rep("F", 10))
scandf <- data.frame(scanID=scanID, sex=sex, batch=batch)
scanAnnot <- ScanAnnotationDataFrame(scandf)
data <- GenotypeData(nc, scanAnnot=scanAnnot)
# test function
res <- batchChisqTest(data, batchVar="batch", return.by.snp=FALSE)
checkEquals(2, length(res))
checkIdentical(c("mean.chisq", "lambda"), names(res))
}
test_batchChisqTest <- function() {
# simulate data - autosomes only
ncfile <- tempfile()
simulateGenotypeMatrix(n.snps=10, n.chromosomes=22,
n.samples=20, filename=ncfile)
nc <- GdsGenotypeReader(ncfile)
# run tests
check2batches(nc)
check4batches(nc)
checkNoYates(nc)
checkExclude(nc)
checkSnpInclude(nc)
checkNoSnp(nc)
# clean up
close(nc)
file.remove(ncfile)
# simulate data - 26 chroms
ncfile <- tempfile()
simulateGenotypeMatrix(n.snps=10, n.chromosomes=26,
n.samples=20, filename=ncfile)
nc <- GdsGenotypeReader(ncfile)
# run tests
checkAuto(nc)
checkXYM(nc)
checkXF(nc)
checkXYMF(nc)
# clean up
close(nc)
file.remove(ncfile)
}
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