NAME
Lexical::Attributes - Proper encapsulation
SYNOPSIS
use Lexical::Attributes;
has $.scalar;
has $.key ro;
has (@.array, %.hash) is rw;
sub method {
$self -> another_method;
print $.scalar;
}
DESCRIPTION
NOTE: This module has changed significantly between releases 1.3 and
1.4. Code that works with version 1.3 or earlier *will not* work with
version 1.4 or later.
NOTE: This is experimental software! Certain things will change,
specially if they are marked FIXME or mentioned on the TODO list.
This module was created out of frustration with Perl's default OO
mechanism, which doesn't offer good data encapsulation. I designed the
technique of *Inside-Out Objects* several years ago, but I was not
really satisfied with it, as it still required a lot of typing. This
module uses a source filter to hide the details of the Inside-Out
technique from the user.
Attributes, the variables that belong to an object, are stored in
lexical hashes, instead of piggy-backing on the reference that makes the
object. The lexical hashes, one for each attribute, are indexed using
the object. However, the details of this technique are hidden behind a
source filter. Instead, attributes are declared in a similar way as
lexical variables. Except that instead of "my", a Perl6 keyword, "has"
is used. Another thing is borrowed from Perl6, and that's the second
sigil. Attributes have a dot separating the sigil from the name of
attribute.
Attributes
To declare an attribute, use the Perl6 keyword "has". The simplest way
to declare an attribute is:
has $.colour; # Gives the object a 'colour' attribute.
Now your object has an attribute *colour*. Note the way the attribute is
written, in a Perl6 style, it has the sigil (a "$"), a period, and then
the attribute name. Attribute names are strings of letters, digits and
underscores, and cannot start with a digit. Attribute names are
case-sensitive. You can use this attribute in the same way as a normal
Perl scalar (except for interpolation). Here's a sub that prints out the
colour of the object:
sub print_colour {
print $.colour;
}
Array and hash attributes work in a similar way:
has @.array; # Gives the object an array attribute.
has %.hash; # Gives the object a hash attribute.
And you can use them in a similar way as you can with "normal" Perl
variables:
sub first_element {
return $.array [0];
}
sub pop_element {
return pop @.array;
}
sub last_index {
return $#.array;
}
sub gimme_key {
my $key = shift;
return $.hash {$key};
}
sub gimme_all_keys {
return keys %.hash;
}
Note however that you *cannot* have a scalar and an array (or a scalar
and a hash, or an array and a hash) with the same name. Using both "has
$.key;" and "has @.key;" will result in a warning, and the second (and
third, fourth, etc) declaration of the attibute will be ignored.
If you have several attributes you want to declare, you can use "has" in
a similar way as you can "my" and "local". "has" takes a list as
argument as well (parenthesis are required):
has ($.key1, @.key2, %.key3);
Note that the declaration, that is, the "has" keyword followed by an
attribute, or a list of attributes, can be followed by an optional
*trait* (as discussed below), must be followed by a semi-colon (after
optional whitespace). The following will not work:
has $.does_not_work = 1;
Traits
Since inspecting and setting the attributes of an object is a commonly
requested action, it's possible to give the attributes *traits* that
will achieve this. Traits are given by following the "has" declaration
with the keyword "is" and the name of the trait (with the keyword being
optional). Examples include:
has $.get_set is rw;
has $.get ro;
has (@.array, %.hash) is priv; # Trait applies to both attributes.
The following traits can be given:
"pr" or "priv"
Using "pr" or "priv" has the same effect as not giving any traits,
no accessor for this attribute is generated.
"ro" This trait generates an accessor for the attribute, with the same
name as the attribute.
For scalar attributes, calling the accessor returns the value of
the attribute. Any parameters given to the accessor will be
ignored.
package MyObject;
use Lexical::Attributes;
has $.colour is ro;
sub new {bless \do {my $obj} => shift}
sub some_sub {
... # Some code that sets the 'colour' attribute.
}
1;
# Main program
my $obj = MyObject -> new;
$obj -> some_sub (...);
print $obj -> colour; # Prints the colour.
__END__
Accessors for arrays and hashes take optional arguments. If no
arguments are given, the accessor will return the array or hash in
list context (as a list - just as if you'd use an array or hash in
list context). In scalar context, the number of elements of the
array or hash are returned.
If one or more arguments are given, the corresponding arguments are
returned. Some examples:
package MyObject;
use Lexical::Attributes;
has @.colours is ro;
has %.fruit is ro;
sub new {bless \do {my $obj} => shift}
method init { # See below for discussion of 'method'.
@.colours = qw /red white blue green yellow/;
%.fruit = (cherry => 'red',
peach => 'pink',
apple => 'green',
);
$self;
}
1;
# Main program
my $obj = MyObject -> new -> init;
local $, = " ";
print $obj -> colours; # red white blue green yellow
print $obj -> colours (2); # blue
print $obj -> colours (1, 3); # white green
print sort $obj -> fruit; # apple cherry green peach pink red
print $obj -> fruit ('cherry'); # red
print $obj -> fruit ('apple', 'peach') # green pink
__END__
"rw" Attributes with the "rw" trait have two accessors generated for
them. One accessor, with the same name as the attribute is used to
fetch the value - it's identical to the accessor discussed at
above, for "ro" attributes. The second accessor is used to store
values; its name will be the name of the attribute, prepended by
"set_".
For scalar values, calling the setting accessor sets the attribute
to the first argument. Any other argument are ignored.
package MyObject;
use Lexical::Attributes;
has $.name is rw;
sub new {bless \do {my $var} => shift}
1;
# Main program
my $obj = MyObject -> new;
$obj -> set_name ("Abigail");
print $obj -> name; # Prints 'Abigail'.
__END__
For aggregates, the situation is a bit more complex. There are four
possibilities:
No arguments
If the settable accessor was called without arguments, the
array or hash this accessor is associated with is cleared -
that is, set to an empty array or hash.
One argument, a reference of the appropriate type
If one argument is given, and the argument is a reference of
the appropriate type (a reference to an array for array
attributes, and a reference to a hash for hash attributes), the
array or hash is set to the given argument. Note that the
actual reference is stored - no copies are made.
One argument, not a reference of the appropriate type
In this case, the argument is taken to be an index in the array
or hash (so, for array attributes, the argument is cast to an
integer if necessary, and to a string for hash attributes), and
the corresponding element is deleted, in a similar way "delete"
is called on regular arrays and hashes. Note that for arrays,
"deleting" something that's in the middle of the array doesn't
cause the array to shrink - the element is just undefined.
More than one argument
Then it's assumed a list of key (or index)/value pairs are
given. Values are set to the corresponding keys or indices.
Arrays and hashes will grow if needed.
package MyObject;
use Lexical::Attributes;
has @.colours is rw;
has %.fruit is rw;
sub new {bless \do {my $obj} => shift}
1;
# Main program.
my $obj = MyObject -> new;
local $, = " ";
# Set the colours to a specific array.
$obj -> set_colours (['red', 'white', 'blue']);
print $obj -> colours; # 'red white blue'.
print $obj -> colours (1); # 'white'.
# Change colour on index 1.
$obj -> set_colours (1, 'yellow');
print $obj -> colours; # 'red yellow blue'.
# Change/add multiple colours.
$obj -> set_colours (1, 'green', 3, 'brown');
print $obj -> colours; # 'red green blue brown'.
# Delete colour on index 3.
$obj -> set_colours (3);
print $obj -> colours; # 'red green blue'.
# Clear the array.
$obj -> set_colour;
print $obj -> colours; # Nothing, array is empty.
# Set the fruits to a specific hash.
$obj -> set_fruit ({apple => 'green', cherry => 'red',
peach => 'pink'});
print $obj -> fruit; # 'apple green peach pink cherry red'.
print $obj -> fruit ("apple"); # 'green'.
# Change the colour of the apple.
$obj -> set_fruit (apple => 'yellow');
print $obj -> fruit; # 'apple yellow peach pink cherry red'.
# Change/add multiple fruits.
$obj -> set_fruit (apple => 'red', lemon => 'yellow');
print $obj -> fruit; # 'apple red peach pink
# cherry red lemon yellow'.
# Delete a fruit
$obj -> set_fruit ("peach");
print $obj -> fruit; # 'apple red cherry red lemon yellow'.
# Delete all fruits.
$obj -> set_fruit;
print $obj -> fruit; # Nothing, hash is empty.
All settable accessors return the object, regardless of the number
or types of arguments. This gives the caller the option of chaining
modifications:
my $obj = Class -> new
-> set_age (25)
-> set_name ("Jane Doe")
-> set_hair_colour ("auburn");
Methods
In order for the module to access the attributes, it needs access to the
variable holding the current object. It will assume this variable is
called $self. This is not likely to be a problem, as it seems to be
quite common to name the variable holding the current object $self.
To further add the programmer, if a subroutine uses the keyword "method"
instead of "sub", it will have a variable called $self, in which the
first element of @_ is shifted. Essentially, the line "my $self =
shift;" is prepended to the body of the subroutine.
Subroutines that do not use the keyword "method" are left as is - these
subroutines are typically reserved for class methods, or private
subroutines.
Examples:
# Don't need to declare $self.
sub my_method {
$.attribute + $self -> other_method;
}
If you do not use the "method" keyword, you do not put the current
object into a variable called $self, and you use one of the lexical
attributes, your code is unlikely to work.
DESTROY
Since the attributes are stored in lexical hashes, attributes do not get
garbage collected via a reference counting mechanism when the object
goes out of scope. In order to clean up attribute data, action triggered
by the call of "DESTROY" is needed. Hence, this module will insert a
"DESTROY" subroutine which will take care of cleaning up the attribute
data. It will also propagate calling "DESTROY" methods in any inherited
classes.
If you want to do any other action you'd normally put into "DESTROY",
create a method called "DESTRUCT". This method will be called on when
the object goes out of scope. The method will be called before
attributes values have been cleaned up. There is no need to manually
call "DESTRUCT" in inherited classes, as "Lexical::Attributes" will do
that for you. In fact, calling "DESTRUCT" in a super class yourself is
likely to cause unwanted effects, because that will mean "DESTRUCT" in a
superclass is called more than once.
Inheritance
Inheritance just works. Classes using this technique require *nothing*
from their super class implementation, and demand *nothing* from the
classes that will inherit them. Super classes can use this technique, or
traditional hash based objects, or something else entirely. And it's the
same for classes that will inherit our classes.
Interpolation
Interpolation of scalars and array is possible in "", ``, "//", "m//",
"s///", "qq {}" "qr {}", and "qx {}" strings. There's no interpolation
in '', "m''", "s'''", "tr//" nor in "qw {}" strings.
Overloading
Overloading of objects should work in the same way as other types of
objects.
TODO
o Compiling a module is slow. This is probably caused by FILTER_ONLY
being slow.
o Consider more traits. Methods for pop/push/shift/unshift for arrays,
and keys/values/each for hashes would be useful. So are
getting/setting keys by index.
DEVELOPMENT
The current sources of this module are found on github,
<git://github.com/Abigail/lexical--attributes.git>.
AUTHOR
Abigail, <mailto:
[email protected]>.
COPYRIGHT and LICENSE
This program is copyright 2004, 2005, 2009 by Abigail.
Permission is hereby granted, free of charge, to any person obtaining a
copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be included
in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
DEALINGS IN THE SOFTWARE.
INSTALLATION
To install this module type the following:
perl Makefile.PL
make
make test
make install
