Nothing
R/gr_positions.R
In ORFik: Open Reading Frames in Genomics
Defines functions
upstreamFromPerGroup
upstreamOfPerGroup
downstreamFromPerGroup
downstreamOfPerGroup
assignLastExonsStopSite
assignFirstExonsStartSite
Documented in
assignFirstExonsStartSite
assignLastExonsStopSite
downstreamFromPerGroup
downstreamOfPerGroup
upstreamFromPerGroup
upstreamOfPerGroup
#' Reassign the start positions of the first exons per group in grl
#'
#' Per group in GRangesList, assign the most upstream site.
#'
#' make sure your grl is sorted, since start of "-" strand
#' objects should be the
#' max end in group, use ORFik:::sortPerGroup(grl) to get sorted grl.
#' @param grl a \code{\link{GRangesList}} object
#' @param newStarts an integer vector of same length as grl, with new start
#' values (absolute coordinates, not relative)
#' @inheritParams extendLeaders
#' @return the same GRangesList with new start sites
#' @family GRanges
#'
assignFirstExonsStartSite <- function(grl, newStarts, is.circular =
all(isCircular(grl) %in% TRUE)) {
if (length(grl) != length(newStarts)) stop("length of grl and newStarts ",
"are not equal!")
posIndices <- strandBool(grl)
if (!is.circular) {
if (any(newStarts < 1)) {
message("Transcript found that would be extended below coordinate position 0, setting to 1.")
newStarts <- pmax(newStarts, 1)
}
}
dt <- as.data.table(grl)
dt[!duplicated(dt$group),]$start[posIndices] <- newStarts[posIndices]
dt[!duplicated(dt$group),]$end[!posIndices] <- newStarts[!posIndices]
ngrl <-
GenomicRanges::makeGRangesListFromDataFrame(dt,
split.field = "group",
names.field = "group_name",
keep.extra.columns = TRUE)
names(ngrl) <- names(grl)
return(ngrl)
}
#' Reassign the stop positions of the last exons per group
#'
#' Per group in GRangesList, assign the most upstream site.
#'
#' make sure your grl is sorted, since stop of "-" strand objects
#' should be the min start in group, use ORFik:::sortPerGroup(grl) to get
#' sorted grl.
#' @param grl a \code{\link{GRangesList}} object
#' @param newStops an integer vector of same length as grl,
#' with new start values (absolute coordinates, not relative)
#' @inheritParams extendLeaders
#' @return the same GRangesList with new stop sites
#' @importFrom data.table .N .I
#' @family GRanges
#'
assignLastExonsStopSite <- function(grl, newStops, is.circular =
all(isCircular(grl) %in% TRUE)) {
if (length(grl) != length(newStops)) stop("length of grl and newStops ",
"are not equal!")
posIndices <- strandBool(grl)
if (!is.circular) {
if (any(newStops < 1)) {
message("Transcript found that would be extended below coordinate position 0, setting to 1.")
newStops <- pmax(newStops, 1)
}
}
dt <- as.data.table(grl)
group <- NULL # avoid check warning
idx = dt[, .I[.N], by = group]
dt[idx$V1]$end[posIndices] <- newStops[posIndices]
dt[idx$V1]$start[!posIndices] <- newStops[!posIndices]
ngrl <-
GenomicRanges::makeGRangesListFromDataFrame(dt,
split.field = "group",
names.field = "group_name",
keep.extra.columns = TRUE)
names(ngrl) <- names(grl)
return(ngrl)
}
#' Get rest of objects downstream (exclusive)
#'
#' Per group get the part downstream of position.
#' downstreamOfPerGroup(tx, stopSites(cds, asGR = TRUE))
#' will return the 3' utrs per transcript as GRangesList,
#' usually used for interesting
#' parts of the transcripts.
#'
#' If you want to include the points given in the region,
#' use downstreamFromPerGroup
#' @param tx a \code{\link{GRangesList}},
#' usually of Transcripts to be changed
#' @param downstreamOf a vector of integers, for each group in tx, where
#' is the new start point of first valid exon. Can also be a GRangesList,
#' then stopsites will be used.
#' @return a GRangesList of downstream part
#' @family GRanges
#'
downstreamOfPerGroup <- function(tx, downstreamOf) {
if (is.grl(downstreamOf)) {
downstreamOf <- stopSites(downstreamOf, asGR = TRUE, is.sorted = TRUE,
keep.names = TRUE)
} else if (is.numeric(downstreamOf) & length(downstreamOf) == length(tx)) {
downstreamOf <- IRanges(downstreamOf, width = 1)
if (is.null(names(tx))) names(tx) <- seq_along(tx)
names(downstreamOf) <- names(tx)
} else stop("downstreamOf must be GRangesList, or numeric of equal",
"size to tx")
return(windowPerGroup(downstreamOf, tx, upstream = -1,
downstream = max(widthPerGroup(tx, FALSE))))
}
#' Get rest of objects downstream (inclusive)
#'
#' Per group get the part downstream of position.
#' downstreamFromPerGroup(tx, startSites(threeUTRs, asGR = TRUE))
#' will return the 3' utrs per transcript as GRangesList,
#' usually used for interesting
#' parts of the transcripts.
#'
#' If you don't want to include the points given in the region,
#' use \code{\link{downstreamOfPerGroup}}
#' @param tx a \code{\link{GRangesList}},
#' usually of Transcripts to be changed
#' @param downstreamFrom a vector of integers, for each group in tx, where
#' is the new start point of first valid exon.
#' @inheritParams extendLeaders
#' @return a GRangesList of downstream part
#' @family GRanges
#'
downstreamFromPerGroup <- function(tx, downstreamFrom, is.circular =
all(isCircular(tx) %in% TRUE)) {
# Needs speed update!
posIndices <- strandBool(tx)
posEnds <- end(tx[posIndices])
negEnds <- start(tx[!posIndices])
posDown <- downstreamFrom[posIndices]
negDown <- downstreamFrom[!posIndices]
pos <- posEnds >= posDown
neg <- negEnds <= negDown
posTx <- tx[posIndices][pos]
negTx <- tx[!posIndices][neg]
downTx <- tx
downTx[posIndices] <- posTx
downTx[!posIndices] <- negTx
#check if anyone hits boundary, set those to boundary
if (anyNA(strandPerGroup(downTx, FALSE))) {
boundaryHits <- which(is.na(strandPerGroup(downTx, FALSE)))
downTx[boundaryHits] <- firstExonPerGroup(tx[boundaryHits])
ir <- IRanges(start = downstreamFrom[boundaryHits],
end = downstreamFrom[boundaryHits])
irl <- split(ir, seq_along(ir))
names(irl) <- names(tx[boundaryHits])
ranges(downTx[boundaryHits]) <- irl
}
return(assignFirstExonsStartSite(downTx, downstreamFrom, is.circular))
}
#' Get rest of objects upstream (exclusive)
#'
#' Per group get the part upstream of position
#' upstreamOfPerGroup(tx, startSites(cds, asGR = TRUE))
#' will return the 5' utrs per transcript, usually used for interesting
#' parts of the transcripts.
#'
#' @param tx a \code{\link{GRangesList}},
#' usually of Transcripts to be changed
#' @param upstreamOf a vector of integers, for each group in tx, where
#' is the the base after the new stop point of last valid exon.
#' @param allowOutside a logical (T), can upstreamOf extend outside
#' range of tx, can set boundary as a false hit, so beware.
#' @inheritParams extendLeaders
#' @return a GRangesList of upstream part
#' @family GRanges
#'
upstreamOfPerGroup <- function(tx, upstreamOf, allowOutside = TRUE,
is.circular = all(isCircular(tx) %in% TRUE)) {
posIndices <- strandBool(tx)
posStarts <- start(tx[posIndices])
negStarts <- end(tx[!posIndices])
posGrlStarts <- upstreamOf[posIndices]
negGrlStarts <- upstreamOf[!posIndices]
pos <- posStarts < posGrlStarts
neg <- negStarts > negGrlStarts
posTx <- tx[posIndices]
negTx <- tx[!posIndices]
# Usually from pos/neg with possible cage extensions
if (allowOutside) {
outside <- which(sum(pos) == 0)
pos[outside] = TRUE
posTx[outside] <- firstExonPerGroup(posTx[outside])
outside <- which(sum(neg) == 0)
neg[outside] = TRUE
negTx[outside] <- firstExonPerGroup(negTx[outside])
}
upTx <- tx
upTx[posIndices] <- posTx[pos]
upTx[!posIndices] <- negTx[neg]
nonZero <- widthPerGroup(upTx) > 0
if (all(!nonZero)) { # if no ranges exists
return(upTx)
}
upstreamOf <- upstreamOf[nonZero]
oldPosIndices <- posIndices
posIndices <- posIndices[nonZero]
stopSites <- stopSites(upTx[nonZero], FALSE, FALSE, TRUE)
# check boundaries within group exons
if (any(posIndices)){
posChecks <- stopSites[posIndices] < upstreamOf[posIndices] &
any(!pos[nonZero[oldPosIndices]])
} else {
posChecks <- FALSE
}
if(any(!posIndices)){
negChecks <- stopSites[!posIndices] > upstreamOf[!posIndices] &
any(!neg[nonZero[!oldPosIndices]])
} else {
negChecks <- FALSE
}
if (any(posChecks)) {
upstreamOf[posIndices][posChecks] <- stopSites[posIndices][posChecks]
}
if (any(negChecks)) {
upstreamOf[!posIndices][negChecks] <- stopSites[!posIndices][negChecks]
}
upTx[nonZero] <- assignLastExonsStopSite(upTx[nonZero], upstreamOf,
is.circular = is.circular)
return(upTx)
}
#' Get rest of objects upstream (inclusive)
#'
#' Per group get the part upstream of position.
#' upstreamFromPerGroup(tx, stopSites(fiveUTRs, asGR = TRUE))
#' will return the 5' utrs per transcript as GRangesList,
#' usually used for interesting
#' parts of the transcripts.
#'
#' If you don't want to include the points given in the region,
#' use \code{\link{upstreamOfPerGroup}}
#' @param tx a \code{\link{GRangesList}},
#' usually of Transcripts to be changed
#' @param upstreamFrom a vector of integers, for each group in tx, where
#' is the new start point of first valid exon.
#' @return a GRangesList of upstream part
#' @family GRanges
#'
upstreamFromPerGroup <- function(tx, upstreamFrom) {
posIndices <- strandBool(tx)
posStarts <- start(tx[posIndices])
negStarts <- end(tx[!posIndices])
posGrlStarts <- upstreamFrom[posIndices]
negGrlStarts <- upstreamFrom[!posIndices]
pos <- posStarts <= posGrlStarts
neg <- negStarts >= negGrlStarts
upTx <- tx
upTx[posIndices] <- upTx[posIndices][pos]
upTx[!posIndices] <- upTx[!posIndices][neg]
# check if any hits boundary, set those to boundary
if (anyNA(strandPerGroup(upTx, FALSE))) {
boundaryHits <- which(is.na(strandPerGroup(upTx, FALSE)))
upTx[boundaryHits] <- firstExonPerGroup(tx[boundaryHits])
ir <- IRanges(start = upstreamFrom[boundaryHits],
end = upstreamFrom[boundaryHits])
irl <- split(ir, seq_along(ir))
names(irl) <- names(tx[boundaryHits])
ranges(upTx[boundaryHits]) <- irl
}
return(assignLastExonsStopSite(upTx, upstreamFrom))
}
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ORFik documentation built on March 27, 2021, 6 p.m.
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Defines functions upstreamFromPerGroup upstreamOfPerGroup downstreamFromPerGroup downstreamOfPerGroup assignLastExonsStopSite assignFirstExonsStartSite
Documented in assignFirstExonsStartSite assignLastExonsStopSite downstreamFromPerGroup downstreamOfPerGroup upstreamFromPerGroup upstreamOfPerGroup
#' Reassign the start positions of the first exons per group in grl
#'
#' Per group in GRangesList, assign the most upstream site.
#'
#' make sure your grl is sorted, since start of "-" strand
#' objects should be the
#' max end in group, use ORFik:::sortPerGroup(grl) to get sorted grl.
#' @param grl a \code{\link{GRangesList}} object
#' @param newStarts an integer vector of same length as grl, with new start
#' values (absolute coordinates, not relative)
#' @inheritParams extendLeaders
#' @return the same GRangesList with new start sites
#' @family GRanges
#'
assignFirstExonsStartSite <- function(grl, newStarts, is.circular =
all(isCircular(grl) %in% TRUE)) {
if (length(grl) != length(newStarts)) stop("length of grl and newStarts ",
"are not equal!")
posIndices <- strandBool(grl)
if (!is.circular) {
if (any(newStarts < 1)) {
message("Transcript found that would be extended below coordinate position 0, setting to 1.")
newStarts <- pmax(newStarts, 1)
}
}
dt <- as.data.table(grl)
dt[!duplicated(dt$group),]$start[posIndices] <- newStarts[posIndices]
dt[!duplicated(dt$group),]$end[!posIndices] <- newStarts[!posIndices]
ngrl <-
GenomicRanges::makeGRangesListFromDataFrame(dt,
split.field = "group",
names.field = "group_name",
keep.extra.columns = TRUE)
names(ngrl) <- names(grl)
return(ngrl)
}
#' Reassign the stop positions of the last exons per group
#'
#' Per group in GRangesList, assign the most upstream site.
#'
#' make sure your grl is sorted, since stop of "-" strand objects
#' should be the min start in group, use ORFik:::sortPerGroup(grl) to get
#' sorted grl.
#' @param grl a \code{\link{GRangesList}} object
#' @param newStops an integer vector of same length as grl,
#' with new start values (absolute coordinates, not relative)
#' @inheritParams extendLeaders
#' @return the same GRangesList with new stop sites
#' @importFrom data.table .N .I
#' @family GRanges
#'
assignLastExonsStopSite <- function(grl, newStops, is.circular =
all(isCircular(grl) %in% TRUE)) {
if (length(grl) != length(newStops)) stop("length of grl and newStops ",
"are not equal!")
posIndices <- strandBool(grl)
if (!is.circular) {
if (any(newStops < 1)) {
message("Transcript found that would be extended below coordinate position 0, setting to 1.")
newStops <- pmax(newStops, 1)
}
}
dt <- as.data.table(grl)
group <- NULL # avoid check warning
idx = dt[, .I[.N], by = group]
dt[idx$V1]$end[posIndices] <- newStops[posIndices]
dt[idx$V1]$start[!posIndices] <- newStops[!posIndices]
ngrl <-
GenomicRanges::makeGRangesListFromDataFrame(dt,
split.field = "group",
names.field = "group_name",
keep.extra.columns = TRUE)
names(ngrl) <- names(grl)
return(ngrl)
}
#' Get rest of objects downstream (exclusive)
#'
#' Per group get the part downstream of position.
#' downstreamOfPerGroup(tx, stopSites(cds, asGR = TRUE))
#' will return the 3' utrs per transcript as GRangesList,
#' usually used for interesting
#' parts of the transcripts.
#'
#' If you want to include the points given in the region,
#' use downstreamFromPerGroup
#' @param tx a \code{\link{GRangesList}},
#' usually of Transcripts to be changed
#' @param downstreamOf a vector of integers, for each group in tx, where
#' is the new start point of first valid exon. Can also be a GRangesList,
#' then stopsites will be used.
#' @return a GRangesList of downstream part
#' @family GRanges
#'
downstreamOfPerGroup <- function(tx, downstreamOf) {
if (is.grl(downstreamOf)) {
downstreamOf <- stopSites(downstreamOf, asGR = TRUE, is.sorted = TRUE,
keep.names = TRUE)
} else if (is.numeric(downstreamOf) & length(downstreamOf) == length(tx)) {
downstreamOf <- IRanges(downstreamOf, width = 1)
if (is.null(names(tx))) names(tx) <- seq_along(tx)
names(downstreamOf) <- names(tx)
} else stop("downstreamOf must be GRangesList, or numeric of equal",
"size to tx")
return(windowPerGroup(downstreamOf, tx, upstream = -1,
downstream = max(widthPerGroup(tx, FALSE))))
}
#' Get rest of objects downstream (inclusive)
#'
#' Per group get the part downstream of position.
#' downstreamFromPerGroup(tx, startSites(threeUTRs, asGR = TRUE))
#' will return the 3' utrs per transcript as GRangesList,
#' usually used for interesting
#' parts of the transcripts.
#'
#' If you don't want to include the points given in the region,
#' use \code{\link{downstreamOfPerGroup}}
#' @param tx a \code{\link{GRangesList}},
#' usually of Transcripts to be changed
#' @param downstreamFrom a vector of integers, for each group in tx, where
#' is the new start point of first valid exon.
#' @inheritParams extendLeaders
#' @return a GRangesList of downstream part
#' @family GRanges
#'
downstreamFromPerGroup <- function(tx, downstreamFrom, is.circular =
all(isCircular(tx) %in% TRUE)) {
# Needs speed update!
posIndices <- strandBool(tx)
posEnds <- end(tx[posIndices])
negEnds <- start(tx[!posIndices])
posDown <- downstreamFrom[posIndices]
negDown <- downstreamFrom[!posIndices]
pos <- posEnds >= posDown
neg <- negEnds <= negDown
posTx <- tx[posIndices][pos]
negTx <- tx[!posIndices][neg]
downTx <- tx
downTx[posIndices] <- posTx
downTx[!posIndices] <- negTx
#check if anyone hits boundary, set those to boundary
if (anyNA(strandPerGroup(downTx, FALSE))) {
boundaryHits <- which(is.na(strandPerGroup(downTx, FALSE)))
downTx[boundaryHits] <- firstExonPerGroup(tx[boundaryHits])
ir <- IRanges(start = downstreamFrom[boundaryHits],
end = downstreamFrom[boundaryHits])
irl <- split(ir, seq_along(ir))
names(irl) <- names(tx[boundaryHits])
ranges(downTx[boundaryHits]) <- irl
}
return(assignFirstExonsStartSite(downTx, downstreamFrom, is.circular))
}
#' Get rest of objects upstream (exclusive)
#'
#' Per group get the part upstream of position
#' upstreamOfPerGroup(tx, startSites(cds, asGR = TRUE))
#' will return the 5' utrs per transcript, usually used for interesting
#' parts of the transcripts.
#'
#' @param tx a \code{\link{GRangesList}},
#' usually of Transcripts to be changed
#' @param upstreamOf a vector of integers, for each group in tx, where
#' is the the base after the new stop point of last valid exon.
#' @param allowOutside a logical (T), can upstreamOf extend outside
#' range of tx, can set boundary as a false hit, so beware.
#' @inheritParams extendLeaders
#' @return a GRangesList of upstream part
#' @family GRanges
#'
upstreamOfPerGroup <- function(tx, upstreamOf, allowOutside = TRUE,
is.circular = all(isCircular(tx) %in% TRUE)) {
posIndices <- strandBool(tx)
posStarts <- start(tx[posIndices])
negStarts <- end(tx[!posIndices])
posGrlStarts <- upstreamOf[posIndices]
negGrlStarts <- upstreamOf[!posIndices]
pos <- posStarts < posGrlStarts
neg <- negStarts > negGrlStarts
posTx <- tx[posIndices]
negTx <- tx[!posIndices]
# Usually from pos/neg with possible cage extensions
if (allowOutside) {
outside <- which(sum(pos) == 0)
pos[outside] = TRUE
posTx[outside] <- firstExonPerGroup(posTx[outside])
outside <- which(sum(neg) == 0)
neg[outside] = TRUE
negTx[outside] <- firstExonPerGroup(negTx[outside])
}
upTx <- tx
upTx[posIndices] <- posTx[pos]
upTx[!posIndices] <- negTx[neg]
nonZero <- widthPerGroup(upTx) > 0
if (all(!nonZero)) { # if no ranges exists
return(upTx)
}
upstreamOf <- upstreamOf[nonZero]
oldPosIndices <- posIndices
posIndices <- posIndices[nonZero]
stopSites <- stopSites(upTx[nonZero], FALSE, FALSE, TRUE)
# check boundaries within group exons
if (any(posIndices)){
posChecks <- stopSites[posIndices] < upstreamOf[posIndices] &
any(!pos[nonZero[oldPosIndices]])
} else {
posChecks <- FALSE
}
if(any(!posIndices)){
negChecks <- stopSites[!posIndices] > upstreamOf[!posIndices] &
any(!neg[nonZero[!oldPosIndices]])
} else {
negChecks <- FALSE
}
if (any(posChecks)) {
upstreamOf[posIndices][posChecks] <- stopSites[posIndices][posChecks]
}
if (any(negChecks)) {
upstreamOf[!posIndices][negChecks] <- stopSites[!posIndices][negChecks]
}
upTx[nonZero] <- assignLastExonsStopSite(upTx[nonZero], upstreamOf,
is.circular = is.circular)
return(upTx)
}
#' Get rest of objects upstream (inclusive)
#'
#' Per group get the part upstream of position.
#' upstreamFromPerGroup(tx, stopSites(fiveUTRs, asGR = TRUE))
#' will return the 5' utrs per transcript as GRangesList,
#' usually used for interesting
#' parts of the transcripts.
#'
#' If you don't want to include the points given in the region,
#' use \code{\link{upstreamOfPerGroup}}
#' @param tx a \code{\link{GRangesList}},
#' usually of Transcripts to be changed
#' @param upstreamFrom a vector of integers, for each group in tx, where
#' is the new start point of first valid exon.
#' @return a GRangesList of upstream part
#' @family GRanges
#'
upstreamFromPerGroup <- function(tx, upstreamFrom) {
posIndices <- strandBool(tx)
posStarts <- start(tx[posIndices])
negStarts <- end(tx[!posIndices])
posGrlStarts <- upstreamFrom[posIndices]
negGrlStarts <- upstreamFrom[!posIndices]
pos <- posStarts <= posGrlStarts
neg <- negStarts >= negGrlStarts
upTx <- tx
upTx[posIndices] <- upTx[posIndices][pos]
upTx[!posIndices] <- upTx[!posIndices][neg]
# check if any hits boundary, set those to boundary
if (anyNA(strandPerGroup(upTx, FALSE))) {
boundaryHits <- which(is.na(strandPerGroup(upTx, FALSE)))
upTx[boundaryHits] <- firstExonPerGroup(tx[boundaryHits])
ir <- IRanges(start = upstreamFrom[boundaryHits],
end = upstreamFrom[boundaryHits])
irl <- split(ir, seq_along(ir))
names(irl) <- names(tx[boundaryHits])
ranges(upTx[boundaryHits]) <- irl
}
return(assignLastExonsStopSite(upTx, upstreamFrom))
}
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