NAME¶
next, nextto - invoke superclass method implementations
SYNOPSIS¶
package require TclOO
next ?arg ...?
nextto class ?arg ...?
DESCRIPTION¶
The
next command is used to call implementations of a method by a class,
superclass or mixin that are overridden by the current method. It can only be
used from within a method. It is also used within filters to indicate the
point where a filter calls the actual implementation (the filter may decide to
not go along the chain, and may process the results of going along the chain
of methods as it chooses). The result of the
next command is the result
of the next method in the method chain; if there are no further methods in the
method chain, the result of
next will be an error. The arguments,
arg, to
next are the arguments to pass to the next method in the
chain.
The
nextto command is the same as the
next command, except that it
takes an additional
class argument that identifies a class whose
implementation of the current method chain (see
info object
call) should be used; the method implementation selected will be the
one provided by the given class, and it must refer to an existing non-filter
invocation that lies further along the chain than the current implementation.
THE METHOD CHAIN¶
When a method of an object is invoked, things happen in several stages:
- [1]
- The structure of the object, its class, superclasses, filters, and mixins,
are examined to build a method chain, which contains a list of
method implementations to invoke.
- [2]
- The first method implementation on the chain is invoked.
- [3]
- If that method implementation invokes the next command, the next
method implementation is invoked (with its arguments being those that were
passed to next).
- [4]
- The result from the overall method call is the result from the outermost
method implementation; inner method implementations return their results
through next.
- [5]
- The method chain is cached for future use.
METHOD SEARCH ORDER¶
When constructing the method chain, method implementations are searched for in
the following order:
- [1]
- In the classes mixed into the object, in class traversal order. The list
of mixins is checked in natural order.
- [2]
- In the classes mixed into the classes of the object, with sources of
mixing in being searched in class traversal order. Within each class, the
list of mixins is processed in natural order.
- [3]
- In the object itself.
- [4]
- In the object's class.
- [5]
- In the superclasses of the class, following each superclass in a
depth-first fashion in the natural order of the superclass list.
Any particular method implementation always comes as
late in the
resulting list of implementations as possible; this means that if some class,
A, is both mixed into a class, B, and is also a superclass of B, the instances
of B will always treat A as a superclass from the perspective of inheritance.
This is true even when the multiple inheritance is processed indirectly.
FILTERS¶
When an object has a list of filter names set upon it, or is an instance of a
class (or has mixed in a class) that has a list of filter names set upon it,
before every invocation of any method the filters are processed. Filter
implementations are found in class traversal order, as are the lists of filter
names (each of which is traversed in natural list order). Explicitly invoking
a method used as a filter will cause that method to be invoked twice, once as
a filter and once as a normal method.
Each filter should decide for itself whether to permit the execution to go
forward to the proper implementation of the method (which it does by invoking
the
next command as filters are inserted into the front of the method
call chain) and is responsible for returning the result of
next.
Filters are not invoked when processing an invocation of the
unknown
method because of a failure to locate a method implementation, or when
invoking either constructors or destructors.
EXAMPLES¶
This example demonstrates how to use the
next command to call the
(super)class's implementation of a method. The script:
oo::class create theSuperclass {
method example {args} {
puts "in the superclass, args = $args"
}
}
oo::class create theSubclass {
superclass theSuperclass
method example {args} {
puts "before chaining from subclass, args = $args"
next a {*}$args b
next pureSynthesis
puts "after chaining from subclass"
}
}
theSubclass create obj
oo::define obj method example args {
puts "per-object method, args = $args"
next x {*}$args y
next
}
obj example 1 2 3
prints the following:
per-object method, args = 1 2 3
before chaining from subclass, args = x 1 2 3 y
in the superclass, args = a x 1 2 3 y b
in the superclass, args = pureSynthesis
after chaining from subclass
before chaining from subclass, args =
in the superclass, args = a b
in the superclass, args = pureSynthesis
after chaining from subclass
This example demonstrates how to build a simple cache class that applies
memoization to all the method calls of the objects it is mixed into, and shows
how it can make a difference to computation times:
oo::class create cache {
filter Memoize
method Memoize args {
# Do not filter the core method implementations
if {[lindex [self target] 0] eq "::oo::object"} {
return [ next {*}$args]
}
# Check if the value is already in the cache
my variable ValueCache
set key [self target],$args
if {[info exist ValueCache($key)]} {
return $ValueCache($key)
}
# Compute value, insert into cache, and return it
return [set ValueCache($key) [ next {*}$args]]
}
method flushCache {} {
my variable ValueCache
unset ValueCache
# Skip the caching
return -level 2 ""
}
}
oo::object create demo
oo::define demo {
mixin cache
method compute {a b c} {
after 3000 ;# Simulate deep thought
return [expr {$a + $b * $c}]
}
method compute2 {a b c} {
after 3000 ;# Simulate deep thought
return [expr {$a * $b + $c}]
}
}
puts [demo compute 1 2 3] → prints "7" after delay
puts [demo compute2 4 5 6] → prints "26" after delay
puts [demo compute 1 2 3] → prints "7" instantly
puts [demo compute2 4 5 6] → prints "26" instantly
puts [demo compute 4 5 6] → prints "34" after delay
puts [demo compute 4 5 6] → prints "34" instantly
puts [demo compute 1 2 3] → prints "7" instantly
demo flushCache
puts [demo compute 1 2 3] → prints "7" after delay
SEE ALSO¶
oo::class(3tcl), oo::define(3tcl), oo::object(3tcl), self(3tcl)
KEYWORDS¶
call, method, method chain