Description Constructor Coercion Accessor-like methods Subsetting Concatenation Other methods Author(s) See Also Examples
The Views virtual class is a general container for storing a set of views on an arbitrary Vector object, called the "subject".
Its primary purpose is to introduce concepts and provide some facilities that can be shared by the concrete classes that derive from it.
Some direct subclasses of the Views class are: RleViews, XIntegerViews (defined in the XVector package), XStringViews (defined in the Biostrings package), etc...
Views(subject, start=NULL, end=NULL, width=NULL, names=NULL)
:
This constructor is a generic function with dispatch on argument
subject
. Specific methods must be defined for the subclasses
of the Views class. For example a method for
XString subjects is defined
in the Biostrings package that returns an
XStringViews
object. There is no default method.
The treatment of the start
, end
and width
arguments is the same as with the IRanges
constructor,
except that, in addition, Views
allows start
to be an
IntegerRanges object. With this feature,
Views(subject, IRanges(my_starts, my_ends, my_widths, my_names))
and Views(subject, my_starts, my_ends, my_widths, my_names)
are equivalent (except when my_starts
is itself a
IntegerRanges object).
In the code snippets below, from
is a Views object:
as(from, "IRanges")
: Creates an IRanges
object
containing the view locations in from
.
All the accessor-like methods defined for IRanges
objects
work on Views objects. In addition, the following accessors are defined
for Views objects:
subject(x)
:
Return the subject of the views.
x[i]
: Select the views specified by i
.
x[[i]]
:
Extracts the view selected by i
as an object of the same class
as subject(x)
. Subscript i
can be a single integer
or a character string.
The result is the subsequence of subject(x)
defined by
window(subject(x), start=start(x)[i], end=end(x)[i])
or an error if the view is "out of limits" (i.e. start(x)[i] < 1
or end(x)[i] > length(subject(x))
).
c(x, ..., ignore.mcols=FALSE)
: Concatenate Views
objects.
They must have the same subject.
trim(x, use.names=TRUE)
:
Equivalent to
restrict(x, start=1L, end=length(subject(x)), keep.all.ranges=TRUE,
use.names=use.names)
.
subviews(x, start=NA, end=NA, width=NA, use.names=TRUE)
:
start
, end
, and width
arguments must be vectors
of integers, eventually with NAs, that contain coordinates relative
to the current ranges. Equivalent to
trim(narrow(x, start=start, end=end, width=width, use.names=use.names))
.
successiveViews(subject, width, gapwidth=0, from=1)
:
Equivalent to Views(subject, successiveIRanges(width, gapwidth, from))
.
See ?successiveIRanges
for a description of the width
,
gapwidth
and from
arguments.
Hervé Pagès
IRanges-class, Vector-class, IRanges-utils, XVector.
Some direct subclasses of the Views class: RleViews-class, XIntegerViews-class, XDoubleViews-class, XStringViews-class.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 | showClass("Views") # shows (some of) the known subclasses
## Create a set of 4 views on an XInteger subject of length 10:
subject <- Rle(3:-6)
v1 <- Views(subject, start=4:1, end=4:7)
## Extract the 2nd view:
v1[[2]]
## Some views can be "out of limits"
v2 <- Views(subject, start=4:-1, end=6)
trim(v2)
subviews(v2, end=-2)
## See ?`XIntegerViews-class` in the XVector package for more examples.
|
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