setClass {methods} | R Documentation |
Functions to create (setClass
) and manipulate class definitions.
setClass(Class, representation, prototype, contains=character(), validity, access, where, version, sealed, package) removeClass(Class, where) isClass(Class, formal=TRUE, where) getClasses(where, inherits = missing(where)) findClass(Class, where, unique = "") resetClass(Class, classDef, where) sealClass(Class, where)
Class |
character string name for the class. Other than
setClass , the functions will usually take a class definition
instead of the string (allowing the caller to identify the class uniquely). |
representation |
the slots that the new class should have
and/or other classes that this class extends. Usually a call to
the representation function. |
prototype |
an object (usually a list) providing the default data for the slots specified in the representation. |
contains |
what classes does this class extend? (These are called superclasses in some languages.) When these classes have slots, all their slots will be contained in the new class as well. |
where |
For setClass and removeClass , the
environment in which to store or remove the
definition. Defaults to the top-level environment of the calling function
(the global environment for ordinary computations, but the
environment or namespace of a package when loading that package).
For other functions, where defines where to do the search
for the class definition, and the default is to search from the top-level
environment or namespace of the caller to this function.
|
unique |
if findClass expects a unique location for the
class, unique is a character string explaining the purpose
of the search (and is used in warning and error messages). By
default, multiple locations are possible and the function always
returns a list.
|
inherits |
in a call to getClasses , should the value
returned include all parent environments of where , or that
environment only? Defaults to TRUE if where is
omitted, and to FALSE otherwise.
|
validity |
if supplied, should be a validity-checking method
for objects from this class (a function that returns TRUE if
its argument is a valid object of this class and one or more strings
describing the failures otherwise). See validObject
for details. |
access |
Access list for the class. Saved in the definition, but not currently used. |
version |
A version indicator for this definition. Saved in the definition, but not currently used. |
sealed |
If TRUE , the class definition will be sealed,
so that another call to setClass will fail on this class name.
|
package |
An optional package name for the class. By default (and usually) the package where the class definition is assigned will be used. |
formal |
Should a formal definition be required? |
classDef |
For removeClass , the optional class
definition (but usually it's better for Class to be the
class definition, and to omit classDef ).
|
These are the functions that create and manipulate formal class definitions. Brief documentation is provided below. See the references for an introduction and for more details.
setClass
:Class
to be an S-style class. The effect is to
create an object, of class "classRepEnvironment"
, and store
this (hidden) in the specified environment or database. Objects
can be created from the class (e.g., by calling
new
), manipulated (e.g., by accessing the object's
slots), and methods may be defined including the class name in the
signature (see setMethod
).
removeClass
:where
if this argument is supplied; if not,
removeClass
will search for a definition, starting in the
top-level environment of the call to removeClass
, and
remove the (first) definition found.
isClass
:formal
is for compatibility and is ignored.)
getClasses
:where
. If
called with no argument, all the classes visible from the
calling function (if called from the top-level, all the classes
in any of the environments on the search list). The
inherits
argument can be used to search a particular
environment and all its parents, but usually the default setting
is what you want.
findClass
:Class
is found. If
where
is supplied, this is an environment (or namespace)
from which the search takes place; otherwise the top-level
environment of the caller is used. If unique
is supplied
as a character string, findClass
returns a single
environment or position. By default, it always returns a list.
The calling function should select, say, the first element as a
position or environment for functions such as get
.
If unique
is supplied as a character string,
findClass
will warn if there is more than one definition
visible (using the string to identify the purpose of the call),
and will generate an error if no definition can be found.
resetClass
:setClass
.
This function is called when aspects of the class definition are changed. You would need to call it explicitly if you changed the definition of a class that this class extends (but doing that in the middle of a session is living dangerously, since it may invalidate existing objects).
sealClass
:setClass
, but sometimes further changes have
to be made (e.g., by calls to setIs
). If so, call
sealClass
after all the relevant changes have been made.
Defining new classes that inherit from (“extend”) other classes is a powerful technique, but has to be used carefully and not over-used. Otherwise, you will often get unintended results when you start to compute with objects from the new class.
As shown in the examples below, the simplest and safest form of inheritance is to start with an explicit class, with some slots, that does not extend anything else. It only does what we say it does.
Then extensions will add some new slots and new behavior.
Another variety of extension starts with one of the built-in data types, perhaps with the intension of modifying R's standard behavior for that class. In this case, the new class inherits the built-in data type as its “data” part. See the “numWithId” example below.
When such a class definition is printed, the data part shows up as a pseudo-slot named “.Data”.
Earlier, informal classes of objects (usually referred to as
“S3” classes) are used by many R functions. It's natural to
consider including them as the class for a slot in a formal class,
or even as a class to be extended by the new class. This isn't
prohibited but there are some disadvantages, and if you do want to
include S3 classes, they should be declared by including them in a
call to setOldClass
. Here are some considerations:
But there is no guarantee whatever about the data in an object from an S3 class. It's entirely up to the functions that create or modify such objects. If you want to provide guarantees to your users, you will need a valdity method that explicitly checks the contents of S3-class objects.
setOldClass
for the S3 classes used.
Otherwise, the S3 class is undefined (and the code used by
setClass
will issue a warning). Slot assignments, for
example, will not then check for possible errors.
numeric
,
list
, etc.) are generally fine as slots or for
contains=
classes (see the previous section). These data
types don't have formal slots, but the base code in the system
essentially forces them to contain the type of data they claim to
have.
The data types matrix
and array
are somewhat in
between. They do not have an explicit S3 class, but do have one or
two attributes. There is no general problem in having these as
slots, but because there is no guarantee of a dimnames slot, they
don't work as formal classes. The ts
class is treated as a
formal class, extending class vector
.
Certain slot names are not allowed in the current implementation, as
they correspond to attributes which are treated
specially. These are class
, comment
, dim
,
dimnames
, names
, (from R 2.4.0) row.names
and tsp
.
The R package methods implements, with a few exceptions, the programming interface for classes and methods in the book Programming with Data (John M. Chambers, Springer, 1998), in particular sections 1.6, 2.7, 2.8, and chapters 7 and 8.
While the programming interface for the methods package follows
the reference, the R software is an original implementation, so
details in the reference that reflect the S4 implementation may appear
differently in R. Also, there are extensions to the programming
interface developed more recently than the reference. For a
discussion of details see ?Methods
and the links from that documentation.
setClassUnion
,
Methods
,
makeClassRepresentation
## A simple class with two slots setClass("track", representation(x="numeric", y="numeric")) ## A class extending the previous, adding one more slot setClass("trackCurve", representation("track", smooth = "numeric")) ## A class similar to "trackCurve", but with different structure ## allowing matrices for the "y" and "smooth" slots setClass("trackMultiCurve", representation(x="numeric", y="matrix", smooth="matrix"), prototype = list(x=numeric(), y=matrix(0,0,0), smooth= matrix(0,0,0))) ## ## Suppose we want trackMultiCurve to be like trackCurve when there's ## only one column. ## First, the wrong way. try(setIs("trackMultiCurve", "trackCurve", test = function(obj) {ncol(slot(obj, "y")) == 1})) ## Why didn't that work? You can only override the slots "x", "y", ## and "smooth" if you provide an explicit coerce function to correct ## any inconsistencies: setIs("trackMultiCurve", "trackCurve", test = function(obj) {ncol(slot(obj, "y")) == 1}, coerce = function(obj) { new("trackCurve", x = slot(obj, "x"), y = as.numeric(slot(obj,"y")), smooth = as.numeric(slot(obj, "smooth"))) }) ## A class that extends the built-in data type "numeric" setClass("numWithId", representation(id = "character"), contains = "numeric") new("numWithId", 1:3, id = "An Example")