README
NAME
AttrX::Mooish
- extend attributes with ideas from Moo/Moose (laziness!)
SYNOPSIS
use AttrX::Mooish;
class Foo {
has $.bar1 is mooish(:lazy, :clearer, :predicate) is rw;
has $!bar2 is mooish(:lazy, :clearer, :predicate, :trigger);
has Num $.bar3 is rw is mooish(:lazy, :filter);
method build-bar1 {
"lazy init value"
}
method !build-bar2 {
"this is private mana!"
}
method !trigger-bar2 ( $value ) {
# do something after attribute changed.
}
method build-bar3 {
rand;
}
method filter-bar3 ( $value, *%params ) {
if %params<old-value>:exists {
# Only allow the value to grow
return ( !%params<old-value>.defined || $value > %params<old-value> ) ?? $value !! %params<old-value>;
}
# Only allow inital values from 0.5 and higher
return $value < 0.5 ?? Nil !! $value;
}
method baz {
# Yes, works with private too! Isn't it magical? ;)
"Take a look at the magic: ยซ{ $!bar2 }ยป";
}
}
my $foo = Foo.new;
say $foo.bar1;
say $foo.bar3.defined ?? "DEF" !! "UNDEF";
for 1..10 { $foo.bar3 = rand; say $foo.bar3 }
The above would generate a output similar to the following:
lazy init value
UNDEF
0.08662089602505263
0.49049512098324255
0.49049512098324255
0.5983833081770437
0.9367804461546302
0.9367804461546302
0.9367804461546302
0.9367804461546302
0.9367804461546302
0.9367804461546302
DESCRIPTION
This module is aiming at providing some functionality we're all missing from Moo/Moose. It implements laziness, accompanying methods and adds attribute value filter on top of what standard Moo/Moose provide.
What makes this module different from previous versions one could find in the Raku modules repository is that it implements true laziness allowing Nil to be a first-class value of a lazy attribute. In other words, if you look at the SYNOPSIS section, $.bar3
value could randomly be either undefined or 3.1415926.
Laziness for beginners
This section is inteded for beginners and could be skipped by experienced lazybones.
What is "lazy attribute"
As always, more information could be found by Google. In few simple words: a lazy attribute is the one which gets its first value on demand, i.e. โ on first read operation. Consider the following code:
class Foo {
has $.bar is mooish(:lazy, :predicate);
method build-bar { ฯ }
}
my $foo = Foo.new
say $foo.has-bar; # False
say $foo.bar; # 3.1415926...
say $foo.has-bar; # True
When is it useful?
Laziness becomes very handy in cases where intializing an attribute is very expensive operation yet it is not certain if attribute is gonna be used later or not. For example, imagine a monitoring code which raises an alert when a failure is detected:
class Monitor {
has $.notifier;
has $!failed-object;
submethod BUILD {
$!notifier = Notifier.new;
}
method report-failure {
$.notifier.alert( :$!failed-object );
}
...
}
Now, imagine that notifier is a memory-consuming object, which is capable of sending notification over different kinds of media (SMTP, SMS, messengers, etc...). Besides, preparing handlers for all those media takes time. Yet, failures are rare and we may need the object, say, once in 10000 times. So, here is the solution:
class Monitor {
has $.notifier is mooish(:lazy);
has $!failed-object;
method build-notifier { Notifier.new( :$!failed-object ) }
method report-failure {
$.notifier.alert;
}
...
}
Now, it would only be created when we really need it.
Such approach also works well in interactive code where many wuch objects are created only the moment a user action requires them. This way overall responsiveness of a program could be significally incresed so that instead of waiting long once a user would experience many short delays which sometimes are even hard to impossible to be aware of.
Laziness has another interesting application in the area of taking care of attribute dependency. Say, $.bar1
value depend on $.bar2
, which, in turn, depends either on $.bar3
or $.bar4
. In this case instead of manually defining the order of initialization in a BUILD
submethod, we just have the following code in our attribute builders:
method build-bar2 {
if $some-condition {
return self.prepare( $.bar3 );
}
self.prepare( $.bar4 );
}
This module would take care of the rest.
USAGE
The SYNOPSIS is a very good example of how to use the trait mooish
.
Trait parameters
lazy
Bool
, defines wether attribute is lazy. Can haveBool
,Str
, orCallable
value. The later two have the same meaning, as forbuilder
parameter.builder
Defines builder method for a lazy attribute. The value returned by the method will be used to initialize the attribute.
This parameter can have
Str
orCallable
values or be not defined at all. In the latter case we expect a method with a name composed of "build-" prefix followed by attribute name to be defined in our class. For example, for a attribute named$!bar
the method name is expected to be build-bar.A string value defines builder's method name.
A callable value is used as-is and invoked as an object method. For example:
class Foo { has $.bar is mooish(:lazy, :builder( -> $,*% {"in-place"} ); } $inst = Foo.new; say $inst.bar;
This would output 'in-place'.
Note the use of slurpy
*%
in the pointy block. Read about callback parameters below.predicate
Could be
Bool
orStr
. When defined trait will add a method to determine if attribute is set or not. Note that it doesn't matter wether it was set with a builder or by an assignment.If parameter is
Bool
True then method name is made of attribute name prefixed with has-. See [What is "lazy attribute"](#What is "lazy attribute") section for example.If parameter is
Str
then the string contains predicate method name:has $.bar is mooish(:lazy, :predicate<bar-is-ready>); ... method baz { if self.bar-is-ready { ... } }
clearer
Could be
Bool
orStr
. When defined trait will add a method to reset the attribute to uninitialzed state. This is not equivalent to undefined because, as was stated above, Nil is a valid value of initialized attribute.Similarly to
predicate
, when True the method name is formed with clear- prefix followed by attribute's name. AStr
value defines method name:has $.bar is mooish(:lazy, :clearer<reset-bar>, :predicate); ... method baz { $.bar = "a value"; say self.has-bar; # True self.reset-bar; say self.has-bar; # False }
filter
A filter is a method which is executed right before storing a value to an attribute. What is returned by the method will actually be stored into the attribute. This allows us to manipulate with a user-supplied value in any necessary way.
The parameter can have values of
Bool
,Str
,Callable
. All values are treated similarly to thebuilder
parameter except that prefix 'filter-' is used when value is True.The filter method is passed with user-supplied value and the following named parameters:
attribute
- contains full attribute name.builder
- passed if filter is called as a stage of attribute building.old-value
- passed with the previous attribute value if it had one; i.e. if attribute has been initialized.Note that it is not recommended for a filter method to use the corresponding attribute directly as it may cause unforseen side-effects like deep recursion. The
old-value
parameter is the right way to do it.trigger
A trigger is a method which is executed right after attribute value has been changed.
Allowed values for this parameter are
Bool
,Str
,Callable
. All values are treated similarly to thebuilder
parameter except that prefix 'trigger-' is used when value is True.Trigger method gets passed with the stored value as first positional parameter. If there is also a
filter
defined for the attribute then trigger receives the value returned by the filter, not the initial. I.e. it always get what's eventually stored in the attribute. It also receives the same named parameters asfilter
method:attribute
,builder
,old-value
.alias
,aliases
,init-arg
,init-args
Those are four different names for the same parameter which allows defining attribute aliases. So, whereas Internally you would have single container for an attribute that container would be accessible via different names. And it means not only attribute accessors but also clearer and predicate methods:
class Foo { has $.bar is rw is mooish(:clearer, :lazy, :aliases<fubar baz>); method build-bar { "The Answer" } } my $inst = Foo.new( fubar => 42 ); say $inst.bar; # 42 $inst.clear-baz; say $inst.bar; # The Answer $inst.fubar = pi; say $inst.baz; # 3.1415926
Aliases are not applicable to methods called by the module like builders, triggers, etc.
no-init
This parameter will prevent the attribute from being initialized by the constructor:
class Foo { has $.bar is mooish(:lazy, :no-init); method build-bar { 42 } } my $inst = Foo.new( bar => "wrong answer" ); note $inst.bar; # 42
composer
This is a very specific option mostly useful until role
COMPOSE
phaser is implemented. Method of this option is called upon class composition time.
Public/Private
For all the trait parameters, if it is applied to a private attribute then all auto-generated methods will be private too.
The call-back style options such as builder
, trigger
, filter
are expected to share the privace mode of their respective attribute:
class Foo {
has $!bar is rw is mooish(:lazy, :clearer<reset-bar>, :predicate, :filter<wrap-filter>);
method !build-bar { "a private value" }
method baz {
if self!has-bar {
self!reset-bar;
}
}
method !wrap-filter ( $value, :$attribute ) {
"filtered $attribute: ($value)"
}
}
Though if a callback option is defined with method name instead of Bool
True then if method wit the same privacy mode is not found then opposite mode would be tried before failing:
class Foo {
has $.bar is mooish( :trigger<on_change> );
has $!baz is mooish( :trigger<on_change> );
has $!fubar is mooish( :lazy<set-fubar> );
method !on_change ( $val ) { say "changed! ({$val})"; }
method set-baz { $!baz = "new pvt" }
method use-fubar { $!fubar }
}
$inst = Foo.new;
$inst.bar = "new"; # changed! (new)
$inst.set-baz; # changed! (new pvt)
$inst.use-fubar; # Dies with "No such private method '!set-fubar' for invocant of type 'Foo'" message
User method's (callbacks) options
User defined (callback-type) methods receive additional named parameters (options) to help them understand their context. For example, a class might have a couple of attributes for which it's ok to have same trigger method if only it knows what attribute it is applied to:
class Foo {
has $.foo is rw is mooish(:trigger('on_fubar'));
has $.bar is rw is mooish(:trigger('on_fubar'));
method on_fubar ( $value, *%opt ) {
say "Triggered for {%opt<attribute>} with {$value}";
}
}
my $inst = Foo.new;
$inst.foo = "ABC";
$inst.bar = "123";
The expected output would be:
Triggered for $!foo with with ABC
Triggered for $!bar with with 123
NOTE: If a method doesn't care about named parameters it may only have positional arguments in its signature. This doesn't work for pointy blocks where anonymous slurpy hash would be required:
class Foo {
has $.bar is rw is mooish(:trigger(-> $, $val, *% {...}));
}
Options
attribute
Full attribute name with twigil. Passed to all callbacks.
builder
Only set to True for
filter
andtrigger
methods when attribute value is generated by lazy builder. Otherwise no this parameter is not passed to the method.old-value
Set for
filter
only. See its description above.
Some magic
Note that use of this trait doesn't change attribute accessors. More than that, accessors are not required for private attributes. Consider the $!bar2
attribute from SYNOPSIS.
Performance
Module versions prior to v0.5.0 were pretty much costly perfomance-wise. This was happening due to use of Proxy
to handle all attribute read/writes. Since v0.5.0 only the first read/write operation would be handled by this module unless filter
or trigger
parameters are used. When AttrX::Mooish
is assured that the attribute is properly initialized it steps aside and lets the Raku core to do its job without intervention.
The only exception takes place if clearer
parameter is used and clear-<attribute>
method is called. In this case the attribute state is reverted back to uninitialized state and Proxy
is getting installed again โ until the next read/write operation.
filter
and trigger
are exceptional here because they require permanent monitoring of attribute operations making it effectively impossible to drop Proxy
. For this reason use of these parameters must be very carefully considered and highly discouraged for any code where performance is of the high precedence.
CAVEATS
Due to the magical nature of attribute behaviour conflicts with other traits are possible. None is known to the author yet.
Internally Proxy
is used as attribute container. It was told that the class has a number of unpleasant side effects including multiplication of FETCH operation. Though generally this bug is harmles it could be workarounded by assigning an attribute value to a temporary variable.
SEE
ALSO
AUTHOR
Vadim Belman [email protected]
LICENSE
Artistic License 2.0
See the LICENSE file in this distribution.