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R/makeGRangesFromDataFrame.R
In GenomicRanges: Representation and manipulation of genomic intervals
Defines functions
makeGRangesFromDataFrame
.get_data_frame_col_as_numeric
.find_GRanges_cols
.find_strand_col
.find_seqnames_col
.find_width_col
.find_start_end_cols
.collect_prefixes
.normarg_field
Documented in
makeGRangesFromDataFrame
### =========================================================================
### makeGRangesFromDataFrame()
### -------------------------------------------------------------------------
.normarg_field <- function(field, what)
{
if (!is.character(field) || any(is.na(field)))
stop("'", what, ".field' must be a character vector with no NAs")
tolower(field)
}
.collect_prefixes <- function(df_colnames, field)
{
df_colnames_nc <- nchar(df_colnames)
prefixes <- lapply(field,
function(suf) {
pref_nc <- df_colnames_nc - nchar(suf)
idx <- which(substr(df_colnames, pref_nc + 1L, df_colnames_nc) ==
suf)
substr(df_colnames[idx], 1L, pref_nc[idx])
})
unique(unlist(prefixes))
}
.find_start_end_cols <- function(df_colnames, start.field, end.field)
{
idx1 <- which(df_colnames %in% start.field)
idx2 <- which(df_colnames %in% end.field)
if (length(idx1) == 1L && length(idx2) == 1L)
return(list(c(start=idx1, end=idx2), ""))
if (length(idx1) == 0L && length(idx2) == 0L) {
prefixes1 <- .collect_prefixes(df_colnames, start.field)
prefixes2 <- .collect_prefixes(df_colnames, end.field)
if (length(prefixes1) == 1L && length(prefixes2) == 1L
&& prefixes1 == prefixes2)
{
prefix <- prefixes1
idx1 <- which(df_colnames %in% paste0(prefix, start.field))
idx2 <- which(df_colnames %in% paste0(prefix, end.field))
if (length(idx1) == 1L && length(idx2) == 1L)
return(list(c(start=idx1, end=idx2), prefix))
}
}
stop("cannnot determine start/end columns")
}
.find_width_col <- function(df_colnames, width.field, prefix)
{
idx <- which(df_colnames %in% paste0(prefix, width.field))
if (length(idx) == 0L)
idx <- which(df_colnames %in% width.field)
if (length(idx) == 0L)
return(NA_integer_)
if (length(idx) >= 2L) {
warning("cannnot determine width column unambiguously")
return(idx[[1L]])
}
idx
}
.find_seqnames_col <- function(df_colnames, seqnames.field, prefix)
{
idx <- which(df_colnames %in% paste0(prefix, seqnames.field))
if (length(idx) == 0L)
idx <- which(df_colnames %in% seqnames.field)
if (length(idx) == 0L)
stop("cannnot find seqnames column")
if (length(idx) >= 2L)
stop("cannnot determine seqnames column unambiguously")
idx
}
.find_strand_col <- function(df_colnames, strand.field, prefix)
{
idx <- which(df_colnames %in% paste0(prefix, strand.field))
if (length(idx) == 0L)
idx <- which(df_colnames %in% strand.field)
if (length(idx) == 0L)
return(NA_integer_)
if (length(idx) >= 2L)
stop("Cannnot determine strand column unambiguously. ",
"(You can use\n 'ignore.strand=TRUE' to ignore ",
"strand information.)")
idx
}
### Returns a named integer vector of length 5. Names are: seqnames, start,
### end, width, and strand. The values must be valid column numbers, except
### for the width and strand elements that can also be NAs.
.find_GRanges_cols <- function(df_colnames,
seqnames.field=c("seqnames", "seqname",
"chromosome", "chrom",
"chr", "chromosome_name",
"seqid"),
start.field="start",
end.field=c("end", "stop"),
strand.field="strand",
ignore.strand=FALSE)
{
## Automatic detection of seqnames/start/end/strand columns is case
## insensitive.
df_colnames0 <- tolower(df_colnames)
seqnames.field0 <- .normarg_field(seqnames.field, "seqnames")
start.field0 <- .normarg_field(start.field, "start")
end.field0 <- .normarg_field(end.field, "end")
start_end_cols <- .find_start_end_cols(df_colnames0,
start.field0,
end.field0)
prefix <- start_end_cols[[2L]]
## Name of "width" field is not under user control for now (until we need
## need that).
width_col <- .find_width_col(df_colnames0, "width", prefix)
seqnames_col <- .find_seqnames_col(df_colnames0,
seqnames.field0,
prefix)
if (ignore.strand) {
strand_col <- NA_integer_
} else {
strand.field0 <- .normarg_field(strand.field, "strand")
strand_col <- .find_strand_col(df_colnames0,
strand.field0,
prefix)
}
c(seqnames=seqnames_col, start_end_cols[[1L]], width=width_col,
strand=strand_col)
}
.get_data_frame_col_as_numeric <- function(df, col)
{
ans <- df[[col]]
if (is(ans, "Rle"))
ans <- S4Vectors:::decodeRle(ans)
if (!is.numeric(ans)) {
if (is.factor(ans))
ans <- as.character(ans)
ans <- suppressWarnings(as.numeric(ans))
if (anyNA(ans))
stop(wmsg("some values in the ",
"\"", names(df)[[col]], "\" ",
"column cannot be turned into numeric values"))
}
ans
}
### 'df' must be a data.frame or DataFrame object.
makeGRangesFromDataFrame <- function(df,
keep.extra.columns=FALSE,
ignore.strand=FALSE,
seqinfo=NULL,
seqnames.field=c("seqnames", "seqname",
"chromosome", "chrom",
"chr", "chromosome_name",
"seqid"),
start.field="start",
end.field=c("end", "stop"),
strand.field="strand",
starts.in.df.are.0based=FALSE)
{
## Check args.
if (is.character(df)) # for people that provide the path to a file
stop("'df' must be a data.frame or DataFrame object")
if (!(is.data.frame(df) || is(df, "DataFrame")))
df <- as.data.frame(df)
if (!isTRUEorFALSE(keep.extra.columns))
stop("'keep.extra.columns' must be TRUE or FALSE")
if (!isTRUEorFALSE(ignore.strand))
stop("'ignore.strand' must be TRUE or FALSE")
ans_seqinfo <- normarg_seqinfo1(seqinfo)
if (!isTRUEorFALSE(starts.in.df.are.0based))
stop("'starts.in.df.are.0based' must be TRUE or FALSE")
granges_cols <- .find_GRanges_cols(names(df),
seqnames.field=seqnames.field,
start.field=start.field,
end.field=end.field,
strand.field=strand.field,
ignore.strand=ignore.strand)
## Prepare 'ans_seqnames'.
ans_seqnames <- df[[granges_cols[["seqnames"]]]]
## Prepare 'ans_ranges'.
ans_start <- .get_data_frame_col_as_numeric(df, granges_cols[["start"]])
ans_end <- .get_data_frame_col_as_numeric(df, granges_cols[["end"]])
if (starts.in.df.are.0based)
ans_start <- ans_start + 1L
ans_names <- rownames(df)
if (identical(ans_names, as.character(seq_len(nrow(df)))))
ans_names <- NULL
ans_ranges <- IRanges(ans_start, ans_end, names=ans_names)
## Prepare 'ans_strand'.
if (is.na(granges_cols[["strand"]]) || ignore.strand) {
ans_strand <- "*"
} else {
ans_strand <- as.character(df[[granges_cols[["strand"]]]])
ans_strand[ans_strand %in% "."] <- "*"
}
## Prepare 'ans_mcols'.
if (keep.extra.columns) {
drop_idx <- c(granges_cols[["seqnames"]],
granges_cols[["start"]],
granges_cols[["end"]])
if (!is.na(granges_cols[["width"]]))
drop_idx <- c(drop_idx, granges_cols[["width"]])
if (!is.na(granges_cols[["strand"]]))
drop_idx <- c(drop_idx, granges_cols[["strand"]])
ans_mcols <- df[-drop_idx]
} else {
ans_mcols <- NULL
}
## Prepare 'ans_seqinfo'.
if (is.null(ans_seqinfo)) {
## Only if 'ans_seqnames' is a factor-Rle, we preserve the seqlevels
## in the order they are in 'levels(ans_seqnames)'. Otherwise, we
## order them according to rankSeqlevels().
seqlevels <- levels(ans_seqnames)
if (is.null(seqlevels)) {
seqlevels <- unique(ans_seqnames)
if (!is.character(seqlevels))
seqlevels <- as.character(seqlevels)
}
if (!(is(ans_seqnames, "Rle") && is.factor(runValue(ans_seqnames))))
seqlevels[rankSeqlevels(seqlevels)] <- seqlevels
ans_seqinfo <- Seqinfo(seqlevels)
}
## Make and return the GRanges object.
GRanges(ans_seqnames, ans_ranges, strand=ans_strand,
ans_mcols, seqinfo=ans_seqinfo)
}
setAs("data.frame", "GRanges",
function(from) makeGRangesFromDataFrame(from, keep.extra.columns=TRUE)
)
setAs("DataFrame", "GRanges",
function(from) makeGRangesFromDataFrame(from, keep.extra.columns=TRUE)
)
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GenomicRanges documentation built on Nov. 8, 2020, 5:46 p.m.
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Defines functions makeGRangesFromDataFrame .get_data_frame_col_as_numeric .find_GRanges_cols .find_strand_col .find_seqnames_col .find_width_col .find_start_end_cols .collect_prefixes .normarg_field
Documented in makeGRangesFromDataFrame
### =========================================================================
### makeGRangesFromDataFrame()
### -------------------------------------------------------------------------
.normarg_field <- function(field, what)
{
if (!is.character(field) || any(is.na(field)))
stop("'", what, ".field' must be a character vector with no NAs")
tolower(field)
}
.collect_prefixes <- function(df_colnames, field)
{
df_colnames_nc <- nchar(df_colnames)
prefixes <- lapply(field,
function(suf) {
pref_nc <- df_colnames_nc - nchar(suf)
idx <- which(substr(df_colnames, pref_nc + 1L, df_colnames_nc) ==
suf)
substr(df_colnames[idx], 1L, pref_nc[idx])
})
unique(unlist(prefixes))
}
.find_start_end_cols <- function(df_colnames, start.field, end.field)
{
idx1 <- which(df_colnames %in% start.field)
idx2 <- which(df_colnames %in% end.field)
if (length(idx1) == 1L && length(idx2) == 1L)
return(list(c(start=idx1, end=idx2), ""))
if (length(idx1) == 0L && length(idx2) == 0L) {
prefixes1 <- .collect_prefixes(df_colnames, start.field)
prefixes2 <- .collect_prefixes(df_colnames, end.field)
if (length(prefixes1) == 1L && length(prefixes2) == 1L
&& prefixes1 == prefixes2)
{
prefix <- prefixes1
idx1 <- which(df_colnames %in% paste0(prefix, start.field))
idx2 <- which(df_colnames %in% paste0(prefix, end.field))
if (length(idx1) == 1L && length(idx2) == 1L)
return(list(c(start=idx1, end=idx2), prefix))
}
}
stop("cannnot determine start/end columns")
}
.find_width_col <- function(df_colnames, width.field, prefix)
{
idx <- which(df_colnames %in% paste0(prefix, width.field))
if (length(idx) == 0L)
idx <- which(df_colnames %in% width.field)
if (length(idx) == 0L)
return(NA_integer_)
if (length(idx) >= 2L) {
warning("cannnot determine width column unambiguously")
return(idx[[1L]])
}
idx
}
.find_seqnames_col <- function(df_colnames, seqnames.field, prefix)
{
idx <- which(df_colnames %in% paste0(prefix, seqnames.field))
if (length(idx) == 0L)
idx <- which(df_colnames %in% seqnames.field)
if (length(idx) == 0L)
stop("cannnot find seqnames column")
if (length(idx) >= 2L)
stop("cannnot determine seqnames column unambiguously")
idx
}
.find_strand_col <- function(df_colnames, strand.field, prefix)
{
idx <- which(df_colnames %in% paste0(prefix, strand.field))
if (length(idx) == 0L)
idx <- which(df_colnames %in% strand.field)
if (length(idx) == 0L)
return(NA_integer_)
if (length(idx) >= 2L)
stop("Cannnot determine strand column unambiguously. ",
"(You can use\n 'ignore.strand=TRUE' to ignore ",
"strand information.)")
idx
}
### Returns a named integer vector of length 5. Names are: seqnames, start,
### end, width, and strand. The values must be valid column numbers, except
### for the width and strand elements that can also be NAs.
.find_GRanges_cols <- function(df_colnames,
seqnames.field=c("seqnames", "seqname",
"chromosome", "chrom",
"chr", "chromosome_name",
"seqid"),
start.field="start",
end.field=c("end", "stop"),
strand.field="strand",
ignore.strand=FALSE)
{
## Automatic detection of seqnames/start/end/strand columns is case
## insensitive.
df_colnames0 <- tolower(df_colnames)
seqnames.field0 <- .normarg_field(seqnames.field, "seqnames")
start.field0 <- .normarg_field(start.field, "start")
end.field0 <- .normarg_field(end.field, "end")
start_end_cols <- .find_start_end_cols(df_colnames0,
start.field0,
end.field0)
prefix <- start_end_cols[[2L]]
## Name of "width" field is not under user control for now (until we need
## need that).
width_col <- .find_width_col(df_colnames0, "width", prefix)
seqnames_col <- .find_seqnames_col(df_colnames0,
seqnames.field0,
prefix)
if (ignore.strand) {
strand_col <- NA_integer_
} else {
strand.field0 <- .normarg_field(strand.field, "strand")
strand_col <- .find_strand_col(df_colnames0,
strand.field0,
prefix)
}
c(seqnames=seqnames_col, start_end_cols[[1L]], width=width_col,
strand=strand_col)
}
.get_data_frame_col_as_numeric <- function(df, col)
{
ans <- df[[col]]
if (is(ans, "Rle"))
ans <- S4Vectors:::decodeRle(ans)
if (!is.numeric(ans)) {
if (is.factor(ans))
ans <- as.character(ans)
ans <- suppressWarnings(as.numeric(ans))
if (anyNA(ans))
stop(wmsg("some values in the ",
"\"", names(df)[[col]], "\" ",
"column cannot be turned into numeric values"))
}
ans
}
### 'df' must be a data.frame or DataFrame object.
makeGRangesFromDataFrame <- function(df,
keep.extra.columns=FALSE,
ignore.strand=FALSE,
seqinfo=NULL,
seqnames.field=c("seqnames", "seqname",
"chromosome", "chrom",
"chr", "chromosome_name",
"seqid"),
start.field="start",
end.field=c("end", "stop"),
strand.field="strand",
starts.in.df.are.0based=FALSE)
{
## Check args.
if (is.character(df)) # for people that provide the path to a file
stop("'df' must be a data.frame or DataFrame object")
if (!(is.data.frame(df) || is(df, "DataFrame")))
df <- as.data.frame(df)
if (!isTRUEorFALSE(keep.extra.columns))
stop("'keep.extra.columns' must be TRUE or FALSE")
if (!isTRUEorFALSE(ignore.strand))
stop("'ignore.strand' must be TRUE or FALSE")
ans_seqinfo <- normarg_seqinfo1(seqinfo)
if (!isTRUEorFALSE(starts.in.df.are.0based))
stop("'starts.in.df.are.0based' must be TRUE or FALSE")
granges_cols <- .find_GRanges_cols(names(df),
seqnames.field=seqnames.field,
start.field=start.field,
end.field=end.field,
strand.field=strand.field,
ignore.strand=ignore.strand)
## Prepare 'ans_seqnames'.
ans_seqnames <- df[[granges_cols[["seqnames"]]]]
## Prepare 'ans_ranges'.
ans_start <- .get_data_frame_col_as_numeric(df, granges_cols[["start"]])
ans_end <- .get_data_frame_col_as_numeric(df, granges_cols[["end"]])
if (starts.in.df.are.0based)
ans_start <- ans_start + 1L
ans_names <- rownames(df)
if (identical(ans_names, as.character(seq_len(nrow(df)))))
ans_names <- NULL
ans_ranges <- IRanges(ans_start, ans_end, names=ans_names)
## Prepare 'ans_strand'.
if (is.na(granges_cols[["strand"]]) || ignore.strand) {
ans_strand <- "*"
} else {
ans_strand <- as.character(df[[granges_cols[["strand"]]]])
ans_strand[ans_strand %in% "."] <- "*"
}
## Prepare 'ans_mcols'.
if (keep.extra.columns) {
drop_idx <- c(granges_cols[["seqnames"]],
granges_cols[["start"]],
granges_cols[["end"]])
if (!is.na(granges_cols[["width"]]))
drop_idx <- c(drop_idx, granges_cols[["width"]])
if (!is.na(granges_cols[["strand"]]))
drop_idx <- c(drop_idx, granges_cols[["strand"]])
ans_mcols <- df[-drop_idx]
} else {
ans_mcols <- NULL
}
## Prepare 'ans_seqinfo'.
if (is.null(ans_seqinfo)) {
## Only if 'ans_seqnames' is a factor-Rle, we preserve the seqlevels
## in the order they are in 'levels(ans_seqnames)'. Otherwise, we
## order them according to rankSeqlevels().
seqlevels <- levels(ans_seqnames)
if (is.null(seqlevels)) {
seqlevels <- unique(ans_seqnames)
if (!is.character(seqlevels))
seqlevels <- as.character(seqlevels)
}
if (!(is(ans_seqnames, "Rle") && is.factor(runValue(ans_seqnames))))
seqlevels[rankSeqlevels(seqlevels)] <- seqlevels
ans_seqinfo <- Seqinfo(seqlevels)
}
## Make and return the GRanges object.
GRanges(ans_seqnames, ans_ranges, strand=ans_strand,
ans_mcols, seqinfo=ans_seqinfo)
}
setAs("data.frame", "GRanges",
function(from) makeGRangesFromDataFrame(from, keep.extra.columns=TRUE)
)
setAs("DataFrame", "GRanges",
function(from) makeGRangesFromDataFrame(from, keep.extra.columns=TRUE)
)
Try the GenomicRanges package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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