UseMethod {base} | R Documentation |
R possesses a simple generic function mechanism which can be used for
an object-oriented style of programming. Method dispatch takes place
based on the class(es) of the first argument to the generic function or of
the object supplied as an argument to UseMethod
or NextMethod
.
UseMethod(generic, object) NextMethod(generic = NULL, object = NULL, ...)
generic |
a character string naming a function (and not a
built-in operator). Required for UseMethod . |
object |
for UseMethod : an object whose class will
determine the method to be dispatched. Defaults to the first
argument of the enclosing function. |
... |
further arguments to be passed to the next method. |
An R “object” is a data object which has a class
attribute.
A class attribute is a character vector giving the names of
the classes which the object “inherits” from.
If the object does not have a class attribute, it has an implicit
class. Matrices and arrays have class "matrix"
or"array"
followed by the class of the underlying vector.
Most vectors have class the result of mode(x)
, except
that integer vectors have class c("integer", "numeric")
and
real vectors have class c("double", "numeric")
.
When a function calling UseMethod("fun")
is applied to an
object with class attribute c("first", "second")
, the system
searches for a function called fun.first
and, if it finds it,
applies it to the object. If no such function is found a function
called fun.second
is tried. If no class name produces a
suitable function, the function fun.default
is used, if it
exists, or an error results.
Function methods
can be used to find out about the
methods for a particular generic function or class.
UseMethod
is a primitive function so positional matching is
used and names of supplied arguments are ignored. It is not the only
means of dispatch of methods, for there are internal generic
functions.
NextMethod
invokes the next method (determined by the
class vector, either of the object supplied to the generic, or of
the first argument to the function containing NextMethod
if a
method was invoked directly). Normally NextMethod
is used with
only one argument, generic
, but if further arguments are
supplied these modify the call to the next method.
NextMethod
should not be called except in methods called by
UseMethod
or from internal generics (see
InternalGenerics). In particular it will not work inside
anonymous calling functions (e.g. get("print.ts")(AirPassengers)
).
Name spaces can register methods for generic functions. To support
this, UseMethod
and NextMethod
search for methods in
two places: first in the environment in which the generic function
is called, and then in the registration data base for the
environment in which the generic is defined (typically a name space).
So methods for a generic function need to be available in the
environment of the call to the generic, or they must be registered.
(It does not matter whether they are visible in the environment in
which the generic is defined.)
Now for some obscure details that need to appear somewhere. These
comments will be slightly different than those in Chambers(1992).
(See also the draft ‘R Language Definition’.)
UseMethod
creates a “new” function call with
arguments matched as they came in to the generic. Any local variables
defined before the call to UseMethod
are retained (unlike S). Any
statements after the call to UseMethod
will not be evaluated as
UseMethod
does not return. UseMethod
can be called with
more than two arguments: a warning will be given and additional
arguments ignored. (They are not completely ignored in S.) If it is
called with just one argument, the class of the first argument of the
enclosing function is used as object
: unlike S this is the first
actual argument passed and not the current value of the object of that
name.
NextMethod
works by creating a special call frame for the next
method. If no new arguments are supplied, the arguments will be the
same in number, order and name as those to the current method but
their values will be promises to evaluate their name in the current
method and environment. Any named arguments matched to ...
are handled specially: they either replace existing arguments of the
same name or are appended to the argument list. They are passed on as
the promise that was supplied as an argument to the current
environment. (S does this differently!) If they have been evaluated
in the current (or a previous environment) they remain evaluated.
(This is a complex area, and subject to change: see the draft
‘R Language Definition’.)
The search for methods for NextMethod
is slightly different
from that for UseMethod
. Finding no fun.default
is not
necessarily an error, as the search continues to the generic
itself. This is to pick up an internal generic like [
which has no separate default method, and succeeds only if the generic
is a primitive function or a wrapper for a
.Internal
function of the same name. (When a primitive
is called as the default method, argument matching may not work as
described above due to the different semantics of primitives.)
You will see objects such as .Generic
, .Method
, and
.Class
used in methods. These are set in the environment
within which the method is evaluated by the dispatch mechanism, which
is as follows:
.Generic
is a length-one character vector naming the generic function.
.Method
is a character vector (normally of length one) naming
the method function. (For functions in the group generic
Ops
it is of length two.)
.Class
is a character vector of classes used to find the next
method. NextMethod
adds an attribute "previous"
to
.Class
giving the .Class
last used for dispatch, and
shifts .Class
along to that used for dispatch.
.GenericCallEnv
and .GenericDefEnv
are the environments
of the call to be generic and defining the generic respectively. (The
latter is used to find methods registered for the generic.)
Note that .Class
is set when the generic is called, and is
unchanged if the class of the dispatching argument is changed in a
method. It is possible to change the method that NextMethod
would dispatch by manipulating .Class
, but ‘this is not
recommended unless you understand the inheritance mechanism
thoroughly’ (Chambers & Hastie, 1992, p. 469).
Prior to R 2.1.0 UseMethod
accepted a call with no arguments
and tried to deduce the generic from the context. This was
undocumented on the help page. It is allowed but
‘strongly discouraged’ in S-PLUS, and is no longer allowed in R.
This scheme is called S3 (S version 3). For new projects, it is recommended to use the more flexible and robust S4 scheme provided in the methods package.
Chambers, J. M. (1992) Classes and methods: object-oriented programming in S. Appendix A of Statistical Models in S eds J. M. Chambers and T. J. Hastie, Wadsworth & Brooks/Cole.
The draft ‘R Language Definition’.