R/methods-genotypeToSnpMatrix.R
In Jiefei-Wang/VariantAnnotation: Annotation of Genetic Variants
Defines functions
.emptySnpMatrix
.createMap
probabilityToSnpMatrix
GLtoGP
PLtoGP
.listMatrixToArray
.matrixOfListsToArray
Documented in
GLtoGP
PLtoGP
probabilityToSnpMatrix
### =========================================================================
### genotypeToSnpMatrix methods
### =========================================================================
## Coding for snpMatrix :
## 0 = missing OR multiallelic OR multi-ALT values
## 1 = homozygous reference (0|0 or 0/0)
## 2 = heterozygous (0|1 or 0/1 or 1|0 or 1/0)
## 3 = homozygous alternate (risk) allele (1|1 or 1/1)
## empty matrix to return if conditions not met
.emptySnpMatrix <- function() {
list(genotype=new("SnpMatrix"),
map=DataFrame(snp.names=character(),
allele.1=DNAStringSet(),
allele.2=DNAStringSetList(),
ignore=character()))
}
setMethod("genotypeToSnpMatrix", "CollapsedVCF",
function(x, uncertain=FALSE, ...)
{
ok <- suppressWarnings(require("snpStats", quietly=TRUE,
character.only=TRUE))
ok || stop("'snpStats' required; try BiocManager::install('snpStats')", call.=FALSE)
alt <- alt(x)
if (is(alt, "CompressedCharacterList")) {
alt <- .toDNAStringSetList(alt)
if (all(elementNROWS(alt) == 0L)) {
warning("No nucleotide ALT values were detected.")
return(.emptySnpMatrix())
}
}
ref <- ref(x)
if (ncol(x) == 0) {
warning("no samples in VCF")
}
if (!uncertain) {
gt <- geno(x)$GT
} else {
geno.cols <- row.names(geno(metadata(x)[["header"]]))
if ("GP" %in% geno.cols) {
gt <- geno(x)$GP
if (storage.mode(gt) == "list") {
gt <- .matrixOfListsToArray(gt)
}
} else if ("GL" %in% geno.cols) {
gt <- geno(x)$GL
if (storage.mode(gt) == "list") {
gt <- .matrixOfListsToArray(gt)
}
gt <- GLtoGP(gt)
} else if ("PL" %in% geno.cols) {
gt <- geno(x)$PL
if (mode(gt) == "list") {
gt <- .matrixOfListsToArray(gt)
}
gt <- PLtoGP(gt)
} else {
warning("uncertain=TRUE requires GP, GL or PL; returning NULL")
return(.emptySnpMatrix())
}
}
callGeneric(gt, ref, alt)
})
setMethod("genotypeToSnpMatrix", "array",
function(x, ref, alt, ...)
{
if (!is(ref, "DNAStringSet"))
stop("'ref' must be a DNAStringSet")
if (!is(alt, "DNAStringSetList"))
stop("'alt' must be a DNAStringSetList")
# query ref and alt alleles for valid SNPs
altelt <- elementNROWS(alt) == 1L
snv <- .testForSNV(ref, alt)
# if x is a matrix, we have GT with a single value for each snp
if (is.matrix(x)) {
if (!all(altelt)) {
warning("variants with >1 ALT allele are set to NA")
x[!altelt,] <- ".|."
}
if (!all(snv)) {
message("non-single nucleotide variations are set to NA")
x[!snv,] <- ".|."
}
map <- .genotypeToIntegerSNV(TRUE)
diploid <- x %in% names(map)
if (!all(diploid)) {
warning("non-diploid variants are set to NA")
x[!diploid] <- ".|."
}
mat <- matrix(map[x], nrow=ncol(x), ncol=nrow(x),
byrow=TRUE, dimnames=rev(dimnames(x)))
genotypes <- new("SnpMatrix", mat)
} else {
# if x is a 3D array, we have GP with multiple values for each snp
if (!all(altelt)) {
warning("variants with >1 ALT allele are set to NA")
x[!altelt,,] <- NA
}
if (!all(snv)) {
message("non-single nucleotide variations are set to NA")
x[!snv,,] <- NA
}
# if there is more than one ALT allele for any variant,
# the 3rd dimension of the array will be too big
# any values here should already have been set to NA above
if (dim(x)[3] > 3) {
x <- x[,,1:3]
}
# for each sample, call probabilityToSnpMatrix
smlist <- list()
for (s in 1:ncol(x)) {
sm <- probabilityToSnpMatrix(x[,s,])
rownames(sm) <- colnames(x)[s]
smlist[[s]] <- sm
}
genotypes <- do.call(rbind, smlist)
}
flt <- !(snv & altelt)
map <- .createMap(rownames(x), ref, alt, flt)
list(genotypes = genotypes, map = map)
})
.createMap <- function(nms, ref, alt, flt)
{
if (is.null(ref))
DataFrame(snp.names=character(0),
allele.1=DNAStringSet(),
allele.2=DNAStringSetList(),
ignore=logical())
else
DataFrame(snp.names=nms,
allele.1=ref,
allele.2=alt,
ignore=flt)
}
probabilityToSnpMatrix <- function(probs) {
ok <- suppressWarnings(require("snpStats", quietly=TRUE,
character.only=TRUE))
ok || stop("'snpStats' required; try BiocManager::install('snpStats')", call.=FALSE)
if (ncol(probs) != 3)
stop("input matrix should have 3 columns: P(A/A), P(A/B), P(B/B)")
# skip missing values when checking for validity of probabilities
missing <- rowSums(is.na(probs)) > 0
if (!isTRUE(all.equal(rowSums(probs[!missing,,drop=FALSE]),
rep(1,sum(!missing)),
check.attributes=FALSE,
check.names=FALSE)))
stop("sum of probabilities in each row of input matrix should = 1")
# post2g can't handle missing data
if (sum(missing) > 0) {
probs[missing,] <- 0
g <- post2g(probs)
g[missing] <- as.raw(0)
} else {
g <- post2g(probs)
}
g <- matrix(g, nrow=1, dimnames=list(NULL, rownames(probs)))
new("SnpMatrix", g)
}
GLtoGP <- function(gl) {
if (is.matrix(gl) && storage.mode(gl) == "list") {
gp <- gl
for (i in 1:length(gp)) {
gp[[i]] <- 10^gl[[i]] / sum(10^gl[[i]], na.rm=TRUE)
}
gp
} else if (is.array(gl) & length(dim(gl)) == 3) {
aperm(apply(gl, c(1,2), function(x)
10^x / sum(10^x, na.rm=TRUE)),
c(2,3,1))
} else {
stop("gl must be a matrix of lists or a 3D array")
}
}
## PL is same as GL except for a factor of -10
## GL = log10(L), PL = -10*log10(L) (phred-scaled)
PLtoGP <- function(pl) {
if (is.matrix(pl) && storage.mode(pl) == "list") {
gl <- pl
for (i in 1:length(gl)) {
gl[[i]] <- pl[[i]]/(-10)
}
} else {
gl <- pl/(-10)
}
GLtoGP(gl)
}
.listMatrixToArray <- function(x) {
n <- elementNROWS(x)
maxn <- max(n)
v <- unlist(x, use.names=FALSE)
a <- array(as(NA, class(v)), dim=c(maxn, nrow(x), ncol(x)),
dimnames=list(NULL, rownames(x), colnames(x)))
a[as.integer(IRanges(seq(1L, length(a), maxn), width=n))] <- v
aperm(a, c(2,3,1))
}
.matrixOfListsToArray <- function(x) {
# find number of elements of each cell of x
n <- elementNROWS(x)
maxn <- max(n)
# for cells with less than the max number of elements, add NAs
idx <- n < maxn
x[idx] <- lapply(x[idx], function(a){c(a, rep(NA, maxn-length(a)))})
# unlist and convert to array
x <- array(unlist(x), dim=c(maxn, nrow(x), ncol(x)),
dimnames=list(NULL, rownames(x), colnames(x)))
x <- aperm(x, c(2,3,1))
x
}
Jiefei-Wang/VariantAnnotation documentation built on March 19, 2020, 12:03 a.m.
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Defines functions .emptySnpMatrix .createMap probabilityToSnpMatrix GLtoGP PLtoGP .listMatrixToArray .matrixOfListsToArray
Documented in GLtoGP PLtoGP probabilityToSnpMatrix
### =========================================================================
### genotypeToSnpMatrix methods
### =========================================================================
## Coding for snpMatrix :
## 0 = missing OR multiallelic OR multi-ALT values
## 1 = homozygous reference (0|0 or 0/0)
## 2 = heterozygous (0|1 or 0/1 or 1|0 or 1/0)
## 3 = homozygous alternate (risk) allele (1|1 or 1/1)
## empty matrix to return if conditions not met
.emptySnpMatrix <- function() {
list(genotype=new("SnpMatrix"),
map=DataFrame(snp.names=character(),
allele.1=DNAStringSet(),
allele.2=DNAStringSetList(),
ignore=character()))
}
setMethod("genotypeToSnpMatrix", "CollapsedVCF",
function(x, uncertain=FALSE, ...)
{
ok <- suppressWarnings(require("snpStats", quietly=TRUE,
character.only=TRUE))
ok || stop("'snpStats' required; try BiocManager::install('snpStats')", call.=FALSE)
alt <- alt(x)
if (is(alt, "CompressedCharacterList")) {
alt <- .toDNAStringSetList(alt)
if (all(elementNROWS(alt) == 0L)) {
warning("No nucleotide ALT values were detected.")
return(.emptySnpMatrix())
}
}
ref <- ref(x)
if (ncol(x) == 0) {
warning("no samples in VCF")
}
if (!uncertain) {
gt <- geno(x)$GT
} else {
geno.cols <- row.names(geno(metadata(x)[["header"]]))
if ("GP" %in% geno.cols) {
gt <- geno(x)$GP
if (storage.mode(gt) == "list") {
gt <- .matrixOfListsToArray(gt)
}
} else if ("GL" %in% geno.cols) {
gt <- geno(x)$GL
if (storage.mode(gt) == "list") {
gt <- .matrixOfListsToArray(gt)
}
gt <- GLtoGP(gt)
} else if ("PL" %in% geno.cols) {
gt <- geno(x)$PL
if (mode(gt) == "list") {
gt <- .matrixOfListsToArray(gt)
}
gt <- PLtoGP(gt)
} else {
warning("uncertain=TRUE requires GP, GL or PL; returning NULL")
return(.emptySnpMatrix())
}
}
callGeneric(gt, ref, alt)
})
setMethod("genotypeToSnpMatrix", "array",
function(x, ref, alt, ...)
{
if (!is(ref, "DNAStringSet"))
stop("'ref' must be a DNAStringSet")
if (!is(alt, "DNAStringSetList"))
stop("'alt' must be a DNAStringSetList")
# query ref and alt alleles for valid SNPs
altelt <- elementNROWS(alt) == 1L
snv <- .testForSNV(ref, alt)
# if x is a matrix, we have GT with a single value for each snp
if (is.matrix(x)) {
if (!all(altelt)) {
warning("variants with >1 ALT allele are set to NA")
x[!altelt,] <- ".|."
}
if (!all(snv)) {
message("non-single nucleotide variations are set to NA")
x[!snv,] <- ".|."
}
map <- .genotypeToIntegerSNV(TRUE)
diploid <- x %in% names(map)
if (!all(diploid)) {
warning("non-diploid variants are set to NA")
x[!diploid] <- ".|."
}
mat <- matrix(map[x], nrow=ncol(x), ncol=nrow(x),
byrow=TRUE, dimnames=rev(dimnames(x)))
genotypes <- new("SnpMatrix", mat)
} else {
# if x is a 3D array, we have GP with multiple values for each snp
if (!all(altelt)) {
warning("variants with >1 ALT allele are set to NA")
x[!altelt,,] <- NA
}
if (!all(snv)) {
message("non-single nucleotide variations are set to NA")
x[!snv,,] <- NA
}
# if there is more than one ALT allele for any variant,
# the 3rd dimension of the array will be too big
# any values here should already have been set to NA above
if (dim(x)[3] > 3) {
x <- x[,,1:3]
}
# for each sample, call probabilityToSnpMatrix
smlist <- list()
for (s in 1:ncol(x)) {
sm <- probabilityToSnpMatrix(x[,s,])
rownames(sm) <- colnames(x)[s]
smlist[[s]] <- sm
}
genotypes <- do.call(rbind, smlist)
}
flt <- !(snv & altelt)
map <- .createMap(rownames(x), ref, alt, flt)
list(genotypes = genotypes, map = map)
})
.createMap <- function(nms, ref, alt, flt)
{
if (is.null(ref))
DataFrame(snp.names=character(0),
allele.1=DNAStringSet(),
allele.2=DNAStringSetList(),
ignore=logical())
else
DataFrame(snp.names=nms,
allele.1=ref,
allele.2=alt,
ignore=flt)
}
probabilityToSnpMatrix <- function(probs) {
ok <- suppressWarnings(require("snpStats", quietly=TRUE,
character.only=TRUE))
ok || stop("'snpStats' required; try BiocManager::install('snpStats')", call.=FALSE)
if (ncol(probs) != 3)
stop("input matrix should have 3 columns: P(A/A), P(A/B), P(B/B)")
# skip missing values when checking for validity of probabilities
missing <- rowSums(is.na(probs)) > 0
if (!isTRUE(all.equal(rowSums(probs[!missing,,drop=FALSE]),
rep(1,sum(!missing)),
check.attributes=FALSE,
check.names=FALSE)))
stop("sum of probabilities in each row of input matrix should = 1")
# post2g can't handle missing data
if (sum(missing) > 0) {
probs[missing,] <- 0
g <- post2g(probs)
g[missing] <- as.raw(0)
} else {
g <- post2g(probs)
}
g <- matrix(g, nrow=1, dimnames=list(NULL, rownames(probs)))
new("SnpMatrix", g)
}
GLtoGP <- function(gl) {
if (is.matrix(gl) && storage.mode(gl) == "list") {
gp <- gl
for (i in 1:length(gp)) {
gp[[i]] <- 10^gl[[i]] / sum(10^gl[[i]], na.rm=TRUE)
}
gp
} else if (is.array(gl) & length(dim(gl)) == 3) {
aperm(apply(gl, c(1,2), function(x)
10^x / sum(10^x, na.rm=TRUE)),
c(2,3,1))
} else {
stop("gl must be a matrix of lists or a 3D array")
}
}
## PL is same as GL except for a factor of -10
## GL = log10(L), PL = -10*log10(L) (phred-scaled)
PLtoGP <- function(pl) {
if (is.matrix(pl) && storage.mode(pl) == "list") {
gl <- pl
for (i in 1:length(gl)) {
gl[[i]] <- pl[[i]]/(-10)
}
} else {
gl <- pl/(-10)
}
GLtoGP(gl)
}
.listMatrixToArray <- function(x) {
n <- elementNROWS(x)
maxn <- max(n)
v <- unlist(x, use.names=FALSE)
a <- array(as(NA, class(v)), dim=c(maxn, nrow(x), ncol(x)),
dimnames=list(NULL, rownames(x), colnames(x)))
a[as.integer(IRanges(seq(1L, length(a), maxn), width=n))] <- v
aperm(a, c(2,3,1))
}
.matrixOfListsToArray <- function(x) {
# find number of elements of each cell of x
n <- elementNROWS(x)
maxn <- max(n)
# for cells with less than the max number of elements, add NAs
idx <- n < maxn
x[idx] <- lapply(x[idx], function(a){c(a, rep(NA, maxn-length(a)))})
# unlist and convert to array
x <- array(unlist(x), dim=c(maxn, nrow(x), ncol(x)),
dimnames=list(NULL, rownames(x), colnames(x)))
x <- aperm(x, c(2,3,1))
x
}
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