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815 lines
26 KiB
815 lines
26 KiB
=head1 NAME
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perlboot - Beginner's Object-Oriented Tutorial
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=head1 DESCRIPTION
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If you're not familiar with objects from other languages, some of the
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other Perl object documentation may be a little daunting, such as
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L<perlobj>, a basic reference in using objects, and L<perltoot>, which
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introduces readers to the peculiarities of Perl's object system in a
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tutorial way.
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So, let's take a different approach, presuming no prior object
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experience. It helps if you know about subroutines (L<perlsub>),
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references (L<perlref> et. seq.), and packages (L<perlmod>), so become
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familiar with those first if you haven't already.
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=head2 If we could talk to the animals...
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Let's let the animals talk for a moment:
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sub Cow::speak {
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print "a Cow goes moooo!\n";
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}
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sub Horse::speak {
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print "a Horse goes neigh!\n";
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}
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sub Sheep::speak {
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print "a Sheep goes baaaah!\n"
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}
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Cow::speak;
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Horse::speak;
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Sheep::speak;
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This results in:
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a Cow goes moooo!
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a Horse goes neigh!
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a Sheep goes baaaah!
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Nothing spectacular here. Simple subroutines, albeit from separate
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packages, and called using the full package name. So let's create
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an entire pasture:
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# Cow::speak, Horse::speak, Sheep::speak as before
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@pasture = qw(Cow Cow Horse Sheep Sheep);
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foreach $animal (@pasture) {
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&{$animal."::speak"};
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}
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This results in:
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a Cow goes moooo!
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a Cow goes moooo!
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a Horse goes neigh!
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a Sheep goes baaaah!
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a Sheep goes baaaah!
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Wow. That symbolic coderef de-referencing there is pretty nasty.
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We're counting on C<no strict subs> mode, certainly not recommended
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for larger programs. And why was that necessary? Because the name of
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the package seems to be inseparable from the name of the subroutine we
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want to invoke within that package.
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Or is it?
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=head2 Introducing the method invocation arrow
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For now, let's say that C<< Class->method >> invokes subroutine
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C<method> in package C<Class>. (Here, "Class" is used in its
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"category" meaning, not its "scholastic" meaning.) That's not
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completely accurate, but we'll do this one step at a time. Now let's
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use it like so:
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# Cow::speak, Horse::speak, Sheep::speak as before
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Cow->speak;
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Horse->speak;
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Sheep->speak;
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And once again, this results in:
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a Cow goes moooo!
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a Horse goes neigh!
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a Sheep goes baaaah!
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That's not fun yet. Same number of characters, all constant, no
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variables. But yet, the parts are separable now. Watch:
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$a = "Cow";
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$a->speak; # invokes Cow->speak
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Ahh! Now that the package name has been parted from the subroutine
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name, we can use a variable package name. And this time, we've got
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something that works even when C<use strict refs> is enabled.
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=head2 Invoking a barnyard
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Let's take that new arrow invocation and put it back in the barnyard
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example:
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sub Cow::speak {
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print "a Cow goes moooo!\n";
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}
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sub Horse::speak {
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print "a Horse goes neigh!\n";
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}
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sub Sheep::speak {
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print "a Sheep goes baaaah!\n"
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}
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@pasture = qw(Cow Cow Horse Sheep Sheep);
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foreach $animal (@pasture) {
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$animal->speak;
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}
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There! Now we have the animals all talking, and safely at that,
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without the use of symbolic coderefs.
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But look at all that common code. Each of the C<speak> routines has a
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similar structure: a C<print> operator and a string that contains
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common text, except for two of the words. It'd be nice if we could
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factor out the commonality, in case we decide later to change it all
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to C<says> instead of C<goes>.
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And we actually have a way of doing that without much fuss, but we
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have to hear a bit more about what the method invocation arrow is
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actually doing for us.
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=head2 The extra parameter of method invocation
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The invocation of:
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Class->method(@args)
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attempts to invoke subroutine C<Class::method> as:
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Class::method("Class", @args);
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(If the subroutine can't be found, "inheritance" kicks in, but we'll
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get to that later.) This means that we get the class name as the
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first parameter (the only parameter, if no arguments are given). So
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we can rewrite the C<Sheep> speaking subroutine as:
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sub Sheep::speak {
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my $class = shift;
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print "a $class goes baaaah!\n";
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}
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And the other two animals come out similarly:
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sub Cow::speak {
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my $class = shift;
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print "a $class goes moooo!\n";
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}
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sub Horse::speak {
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my $class = shift;
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print "a $class goes neigh!\n";
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}
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In each case, C<$class> will get the value appropriate for that
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subroutine. But once again, we have a lot of similar structure. Can
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we factor that out even further? Yes, by calling another method in
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the same class.
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=head2 Calling a second method to simplify things
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Let's call out from C<speak> to a helper method called C<sound>.
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This method provides the constant text for the sound itself.
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{ package Cow;
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sub sound { "moooo" }
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sub speak {
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my $class = shift;
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print "a $class goes ", $class->sound, "!\n"
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}
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}
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Now, when we call C<< Cow->speak >>, we get a C<$class> of C<Cow> in
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C<speak>. This in turn selects the C<< Cow->sound >> method, which
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returns C<moooo>. But how different would this be for the C<Horse>?
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{ package Horse;
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sub sound { "neigh" }
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sub speak {
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my $class = shift;
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print "a $class goes ", $class->sound, "!\n"
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}
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}
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Only the name of the package and the specific sound change. So can we
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somehow share the definition for C<speak> between the Cow and the
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Horse? Yes, with inheritance!
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=head2 Inheriting the windpipes
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We'll define a common subroutine package called C<Animal>, with the
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definition for C<speak>:
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{ package Animal;
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sub speak {
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my $class = shift;
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print "a $class goes ", $class->sound, "!\n"
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}
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}
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Then, for each animal, we say it "inherits" from C<Animal>, along
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with the animal-specific sound:
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{ package Cow;
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@ISA = qw(Animal);
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sub sound { "moooo" }
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}
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Note the added C<@ISA> array. We'll get to that in a minute.
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But what happens when we invoke C<< Cow->speak >> now?
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First, Perl constructs the argument list. In this case, it's just
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C<Cow>. Then Perl looks for C<Cow::speak>. But that's not there, so
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Perl checks for the inheritance array C<@Cow::ISA>. It's there,
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and contains the single name C<Animal>.
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Perl next checks for C<speak> inside C<Animal> instead, as in
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C<Animal::speak>. And that's found, so Perl invokes that subroutine
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with the already frozen argument list.
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Inside the C<Animal::speak> subroutine, C<$class> becomes C<Cow> (the
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first argument). So when we get to the step of invoking
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C<< $class->sound >>, it'll be looking for C<< Cow->sound >>, which
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gets it on the first try without looking at C<@ISA>. Success!
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=head2 A few notes about @ISA
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This magical C<@ISA> variable (pronounced "is a" not "ice-uh"), has
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declared that C<Cow> "is a" C<Animal>. Note that it's an array,
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not a simple single value, because on rare occasions, it makes sense
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to have more than one parent class searched for the missing methods.
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If C<Animal> also had an C<@ISA>, then we'd check there too. The
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search is recursive, depth-first, left-to-right in each C<@ISA>.
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Typically, each C<@ISA> has only one element (multiple elements means
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multiple inheritance and multiple headaches), so we get a nice tree of
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inheritance.
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When we turn on C<use strict>, we'll get complaints on C<@ISA>, since
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it's not a variable containing an explicit package name, nor is it a
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lexical ("my") variable. We can't make it a lexical variable though
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(it has to belong to the package to be found by the inheritance mechanism),
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so there's a couple of straightforward ways to handle that.
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The easiest is to just spell the package name out:
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@Cow::ISA = qw(Animal);
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Or allow it as an implicitly named package variable:
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package Cow;
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use vars qw(@ISA);
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@ISA = qw(Animal);
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If you're bringing in the class from outside, via an object-oriented
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module, you change:
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package Cow;
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use Animal;
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use vars qw(@ISA);
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@ISA = qw(Animal);
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into just:
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package Cow;
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use base qw(Animal);
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And that's pretty darn compact.
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=head2 Overriding the methods
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Let's add a mouse, which can barely be heard:
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# Animal package from before
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{ package Mouse;
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@ISA = qw(Animal);
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sub sound { "squeak" }
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sub speak {
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my $class = shift;
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print "a $class goes ", $class->sound, "!\n";
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print "[but you can barely hear it!]\n";
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}
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}
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Mouse->speak;
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which results in:
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a Mouse goes squeak!
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[but you can barely hear it!]
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Here, C<Mouse> has its own speaking routine, so C<< Mouse->speak >>
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doesn't immediately invoke C<< Animal->speak >>. This is known as
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"overriding". In fact, we didn't even need to say that a C<Mouse> was
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an C<Animal> at all, since all of the methods needed for C<speak> are
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completely defined with C<Mouse>.
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But we've now duplicated some of the code from C<< Animal->speak >>,
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and this can once again be a maintenance headache. So, can we avoid
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that? Can we say somehow that a C<Mouse> does everything any other
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C<Animal> does, but add in the extra comment? Sure!
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First, we can invoke the C<Animal::speak> method directly:
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# Animal package from before
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{ package Mouse;
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@ISA = qw(Animal);
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sub sound { "squeak" }
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sub speak {
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my $class = shift;
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Animal::speak($class);
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print "[but you can barely hear it!]\n";
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}
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}
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Note that we have to include the C<$class> parameter (almost surely
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the value of C<"Mouse">) as the first parameter to C<Animal::speak>,
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since we've stopped using the method arrow. Why did we stop? Well,
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if we invoke C<< Animal->speak >> there, the first parameter to the
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method will be C<"Animal"> not C<"Mouse">, and when time comes for it
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to call for the C<sound>, it won't have the right class to come back
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to this package.
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Invoking C<Animal::speak> directly is a mess, however. What if
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C<Animal::speak> didn't exist before, and was being inherited from a
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class mentioned in C<@Animal::ISA>? Because we are no longer using
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the method arrow, we get one and only one chance to hit the right
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subroutine.
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Also note that the C<Animal> classname is now hardwired into the
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subroutine selection. This is a mess if someone maintains the code,
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changing C<@ISA> for <Mouse> and didn't notice C<Animal> there in
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C<speak>. So, this is probably not the right way to go.
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=head2 Starting the search from a different place
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A better solution is to tell Perl to search from a higher place
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in the inheritance chain:
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# same Animal as before
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{ package Mouse;
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# same @ISA, &sound as before
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sub speak {
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my $class = shift;
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$class->Animal::speak;
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print "[but you can barely hear it!]\n";
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}
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}
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Ahh. This works. Using this syntax, we start with C<Animal> to find
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C<speak>, and use all of C<Animal>'s inheritance chain if not found
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immediately. And yet the first parameter will be C<$class>, so the
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found C<speak> method will get C<Mouse> as its first entry, and
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eventually work its way back to C<Mouse::sound> for the details.
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But this isn't the best solution. We still have to keep the C<@ISA>
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and the initial search package coordinated. Worse, if C<Mouse> had
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multiple entries in C<@ISA>, we wouldn't necessarily know which one
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had actually defined C<speak>. So, is there an even better way?
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=head2 The SUPER way of doing things
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By changing the C<Animal> class to the C<SUPER> class in that
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invocation, we get a search of all of our super classes (classes
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listed in C<@ISA>) automatically:
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# same Animal as before
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{ package Mouse;
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# same @ISA, &sound as before
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sub speak {
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my $class = shift;
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$class->SUPER::speak;
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print "[but you can barely hear it!]\n";
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}
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}
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So, C<SUPER::speak> means look in the current package's C<@ISA> for
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C<speak>, invoking the first one found.
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=head2 Where we're at so far...
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So far, we've seen the method arrow syntax:
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Class->method(@args);
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or the equivalent:
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$a = "Class";
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$a->method(@args);
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which constructs an argument list of:
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("Class", @args)
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and attempts to invoke
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Class::method("Class", @Args);
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However, if C<Class::method> is not found, then C<@Class::ISA> is examined
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(recursively) to locate a package that does indeed contain C<method>,
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and that subroutine is invoked instead.
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Using this simple syntax, we have class methods, (multiple)
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inheritance, overriding, and extending. Using just what we've seen so
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far, we've been able to factor out common code, and provide a nice way
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to reuse implementations with variations. This is at the core of what
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objects provide, but objects also provide instance data, which we
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haven't even begun to cover.
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=head2 A horse is a horse, of course of course -- or is it?
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Let's start with the code for the C<Animal> class
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and the C<Horse> class:
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{ package Animal;
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sub speak {
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my $class = shift;
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print "a $class goes ", $class->sound, "!\n"
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}
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}
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{ package Horse;
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@ISA = qw(Animal);
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sub sound { "neigh" }
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}
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This lets us invoke C<< Horse->speak >> to ripple upward to
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C<Animal::speak>, calling back to C<Horse::sound> to get the specific
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sound, and the output of:
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a Horse goes neigh!
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But all of our Horse objects would have to be absolutely identical.
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If I add a subroutine, all horses automatically share it. That's
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great for making horses the same, but how do we capture the
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distinctions about an individual horse? For example, suppose I want
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to give my first horse a name. There's got to be a way to keep its
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name separate from the other horses.
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We can do that by drawing a new distinction, called an "instance".
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An "instance" is generally created by a class. In Perl, any reference
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can be an instance, so let's start with the simplest reference
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that can hold a horse's name: a scalar reference.
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my $name = "Mr. Ed";
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my $talking = \$name;
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So now C<$talking> is a reference to what will be the instance-specific
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data (the name). The final step in turning this into a real instance
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is with a special operator called C<bless>:
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bless $talking, Horse;
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This operator stores information about the package named C<Horse> into
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the thing pointed at by the reference. At this point, we say
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C<$talking> is an instance of C<Horse>. That is, it's a specific
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horse. The reference is otherwise unchanged, and can still be used
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with traditional dereferencing operators.
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=head2 Invoking an instance method
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The method arrow can be used on instances, as well as names of
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packages (classes). So, let's get the sound that C<$talking> makes:
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my $noise = $talking->sound;
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To invoke C<sound>, Perl first notes that C<$talking> is a blessed
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reference (and thus an instance). It then constructs an argument
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list, in this case from just C<($talking)>. (Later we'll see that
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arguments will take their place following the instance variable,
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just like with classes.)
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Now for the fun part: Perl takes the class in which the instance was
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blessed, in this case C<Horse>, and uses that to locate the subroutine
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to invoke the method. In this case, C<Horse::sound> is found directly
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(without using inheritance), yielding the final subroutine invocation:
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Horse::sound($talking)
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Note that the first parameter here is still the instance, not the name
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of the class as before. We'll get C<neigh> as the return value, and
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that'll end up as the C<$noise> variable above.
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If Horse::sound had not been found, we'd be wandering up the
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C<@Horse::ISA> list to try to find the method in one of the
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superclasses, just as for a class method. The only difference between
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a class method and an instance method is whether the first parameter
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is an instance (a blessed reference) or a class name (a string).
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=head2 Accessing the instance data
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Because we get the instance as the first parameter, we can now access
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the instance-specific data. In this case, let's add a way to get at
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the name:
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{ package Horse;
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@ISA = qw(Animal);
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sub sound { "neigh" }
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sub name {
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my $self = shift;
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$$self;
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}
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}
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Now we call for the name:
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print $talking->name, " says ", $talking->sound, "\n";
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Inside C<Horse::name>, the C<@_> array contains just C<$talking>,
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which the C<shift> stores into C<$self>. (It's traditional to shift
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the first parameter off into a variable named C<$self> for instance
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methods, so stay with that unless you have strong reasons otherwise.)
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Then, C<$self> gets de-referenced as a scalar ref, yielding C<Mr. Ed>,
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and we're done with that. The result is:
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Mr. Ed says neigh.
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=head2 How to build a horse
|
|
|
|
Of course, if we constructed all of our horses by hand, we'd most
|
|
likely make mistakes from time to time. We're also violating one of
|
|
the properties of object-oriented programming, in that the "inside
|
|
guts" of a Horse are visible. That's good if you're a veterinarian,
|
|
but not if you just like to own horses. So, let's let the Horse class
|
|
build a new horse:
|
|
|
|
{ package Horse;
|
|
@ISA = qw(Animal);
|
|
sub sound { "neigh" }
|
|
sub name {
|
|
my $self = shift;
|
|
$$self;
|
|
}
|
|
sub named {
|
|
my $class = shift;
|
|
my $name = shift;
|
|
bless \$name, $class;
|
|
}
|
|
}
|
|
|
|
Now with the new C<named> method, we can build a horse:
|
|
|
|
my $talking = Horse->named("Mr. Ed");
|
|
|
|
Notice we're back to a class method, so the two arguments to
|
|
C<Horse::named> are C<Horse> and C<Mr. Ed>. The C<bless> operator
|
|
not only blesses C<$name>, it also returns the reference to C<$name>,
|
|
so that's fine as a return value. And that's how to build a horse.
|
|
|
|
We've called the constructor C<named> here, so that it quickly denotes
|
|
the constructor's argument as the name for this particular C<Horse>.
|
|
You can use different constructors with different names for different
|
|
ways of "giving birth" to the object (like maybe recording its
|
|
pedigree or date of birth). However, you'll find that most people
|
|
coming to Perl from more limited languages use a single constructor
|
|
named C<new>, with various ways of interpreting the arguments to
|
|
C<new>. Either style is fine, as long as you document your particular
|
|
way of giving birth to an object. (And you I<were> going to do that,
|
|
right?)
|
|
|
|
=head2 Inheriting the constructor
|
|
|
|
But was there anything specific to C<Horse> in that method? No. Therefore,
|
|
it's also the same recipe for building anything else that inherited from
|
|
C<Animal>, so let's put it there:
|
|
|
|
{ package Animal;
|
|
sub speak {
|
|
my $class = shift;
|
|
print "a $class goes ", $class->sound, "!\n"
|
|
}
|
|
sub name {
|
|
my $self = shift;
|
|
$$self;
|
|
}
|
|
sub named {
|
|
my $class = shift;
|
|
my $name = shift;
|
|
bless \$name, $class;
|
|
}
|
|
}
|
|
{ package Horse;
|
|
@ISA = qw(Animal);
|
|
sub sound { "neigh" }
|
|
}
|
|
|
|
Ahh, but what happens if we invoke C<speak> on an instance?
|
|
|
|
my $talking = Horse->named("Mr. Ed");
|
|
$talking->speak;
|
|
|
|
We get a debugging value:
|
|
|
|
a Horse=SCALAR(0xaca42ac) goes neigh!
|
|
|
|
Why? Because the C<Animal::speak> routine is expecting a classname as
|
|
its first parameter, not an instance. When the instance is passed in,
|
|
we'll end up using a blessed scalar reference as a string, and that
|
|
shows up as we saw it just now.
|
|
|
|
=head2 Making a method work with either classes or instances
|
|
|
|
All we need is for a method to detect if it is being called on a class
|
|
or called on an instance. The most straightforward way is with the
|
|
C<ref> operator. This returns a string (the classname) when used on a
|
|
blessed reference, and C<undef> when used on a string (like a
|
|
classname). Let's modify the C<name> method first to notice the change:
|
|
|
|
sub name {
|
|
my $either = shift;
|
|
ref $either
|
|
? $$either # it's an instance, return name
|
|
: "an unnamed $either"; # it's a class, return generic
|
|
}
|
|
|
|
Here, the C<?:> operator comes in handy to select either the
|
|
dereference or a derived string. Now we can use this with either an
|
|
instance or a class. Note that I've changed the first parameter
|
|
holder to C<$either> to show that this is intended:
|
|
|
|
my $talking = Horse->named("Mr. Ed");
|
|
print Horse->name, "\n"; # prints "an unnamed Horse\n"
|
|
print $talking->name, "\n"; # prints "Mr Ed.\n"
|
|
|
|
and now we'll fix C<speak> to use this:
|
|
|
|
sub speak {
|
|
my $either = shift;
|
|
print $either->name, " goes ", $either->sound, "\n";
|
|
}
|
|
|
|
And since C<sound> already worked with either a class or an instance,
|
|
we're done!
|
|
|
|
=head2 Adding parameters to a method
|
|
|
|
Let's train our animals to eat:
|
|
|
|
{ package Animal;
|
|
sub named {
|
|
my $class = shift;
|
|
my $name = shift;
|
|
bless \$name, $class;
|
|
}
|
|
sub name {
|
|
my $either = shift;
|
|
ref $either
|
|
? $$either # it's an instance, return name
|
|
: "an unnamed $either"; # it's a class, return generic
|
|
}
|
|
sub speak {
|
|
my $either = shift;
|
|
print $either->name, " goes ", $either->sound, "\n";
|
|
}
|
|
sub eat {
|
|
my $either = shift;
|
|
my $food = shift;
|
|
print $either->name, " eats $food.\n";
|
|
}
|
|
}
|
|
{ package Horse;
|
|
@ISA = qw(Animal);
|
|
sub sound { "neigh" }
|
|
}
|
|
{ package Sheep;
|
|
@ISA = qw(Animal);
|
|
sub sound { "baaaah" }
|
|
}
|
|
|
|
And now try it out:
|
|
|
|
my $talking = Horse->named("Mr. Ed");
|
|
$talking->eat("hay");
|
|
Sheep->eat("grass");
|
|
|
|
which prints:
|
|
|
|
Mr. Ed eats hay.
|
|
an unnamed Sheep eats grass.
|
|
|
|
An instance method with parameters gets invoked with the instance,
|
|
and then the list of parameters. So that first invocation is like:
|
|
|
|
Animal::eat($talking, "hay");
|
|
|
|
=head2 More interesting instances
|
|
|
|
What if an instance needs more data? Most interesting instances are
|
|
made of many items, each of which can in turn be a reference or even
|
|
another object. The easiest way to store these is often in a hash.
|
|
The keys of the hash serve as the names of parts of the object (often
|
|
called "instance variables" or "member variables"), and the
|
|
corresponding values are, well, the values.
|
|
|
|
But how do we turn the horse into a hash? Recall that an object was
|
|
any blessed reference. We can just as easily make it a blessed hash
|
|
reference as a blessed scalar reference, as long as everything that
|
|
looks at the reference is changed accordingly.
|
|
|
|
Let's make a sheep that has a name and a color:
|
|
|
|
my $bad = bless { Name => "Evil", Color => "black" }, Sheep;
|
|
|
|
so C<< $bad->{Name} >> has C<Evil>, and C<< $bad->{Color} >> has
|
|
C<black>. But we want to make C<< $bad->name >> access the name, and
|
|
that's now messed up because it's expecting a scalar reference. Not
|
|
to worry, because that's pretty easy to fix up:
|
|
|
|
## in Animal
|
|
sub name {
|
|
my $either = shift;
|
|
ref $either ?
|
|
$either->{Name} :
|
|
"an unnamed $either";
|
|
}
|
|
|
|
And of course C<named> still builds a scalar sheep, so let's fix that
|
|
as well:
|
|
|
|
## in Animal
|
|
sub named {
|
|
my $class = shift;
|
|
my $name = shift;
|
|
my $self = { Name => $name, Color => $class->default_color };
|
|
bless $self, $class;
|
|
}
|
|
|
|
What's this C<default_color>? Well, if C<named> has only the name,
|
|
we still need to set a color, so we'll have a class-specific initial color.
|
|
For a sheep, we might define it as white:
|
|
|
|
## in Sheep
|
|
sub default_color { "white" }
|
|
|
|
And then to keep from having to define one for each additional class,
|
|
we'll define a "backstop" method that serves as the "default default",
|
|
directly in C<Animal>:
|
|
|
|
## in Animal
|
|
sub default_color { "brown" }
|
|
|
|
Now, because C<name> and C<named> were the only methods that
|
|
referenced the "structure" of the object, the rest of the methods can
|
|
remain the same, so C<speak> still works as before.
|
|
|
|
=head2 A horse of a different color
|
|
|
|
But having all our horses be brown would be boring. So let's add a
|
|
method or two to get and set the color.
|
|
|
|
## in Animal
|
|
sub color {
|
|
$_[0]->{Color}
|
|
}
|
|
sub set_color {
|
|
$_[0]->{Color} = $_[1];
|
|
}
|
|
|
|
Note the alternate way of accessing the arguments: C<$_[0]> is used
|
|
in-place, rather than with a C<shift>. (This saves us a bit of time
|
|
for something that may be invoked frequently.) And now we can fix
|
|
that color for Mr. Ed:
|
|
|
|
my $talking = Horse->named("Mr. Ed");
|
|
$talking->set_color("black-and-white");
|
|
print $talking->name, " is colored ", $talking->color, "\n";
|
|
|
|
which results in:
|
|
|
|
Mr. Ed is colored black-and-white
|
|
|
|
=head2 Summary
|
|
|
|
So, now we have class methods, constructors, instance methods,
|
|
instance data, and even accessors. But that's still just the
|
|
beginning of what Perl has to offer. We haven't even begun to talk
|
|
about accessors that double as getters and setters, destructors,
|
|
indirect object notation, subclasses that add instance data, per-class
|
|
data, overloading, "isa" and "can" tests, C<UNIVERSAL> class, and so
|
|
on. That's for the rest of the Perl documentation to cover.
|
|
Hopefully, this gets you started, though.
|
|
|
|
=head1 SEE ALSO
|
|
|
|
For more information, see L<perlobj> (for all the gritty details about
|
|
Perl objects, now that you've seen the basics), L<perltoot> (the
|
|
tutorial for those who already know objects), L<perltootc> (dealing
|
|
with class data), L<perlbot> (for some more tricks), and books such as
|
|
Damian Conway's excellent I<Object Oriented Perl>.
|
|
|
|
Some modules which might prove interesting are Class::Accessor,
|
|
Class::Class, Class::Contract, Class::Data::Inheritable,
|
|
Class::MethodMaker and Tie::SecureHash
|
|
|
|
=head1 COPYRIGHT
|
|
|
|
Copyright (c) 1999, 2000 by Randal L. Schwartz and Stonehenge
|
|
Consulting Services, Inc. Permission is hereby granted to distribute
|
|
this document intact with the Perl distribution, and in accordance
|
|
with the licenses of the Perl distribution; derived documents must
|
|
include this copyright notice intact.
|
|
|
|
Portions of this text have been derived from Perl Training materials
|
|
originally appearing in the I<Packages, References, Objects, and
|
|
Modules> course taught by instructors for Stonehenge Consulting
|
|
Services, Inc. and used with permission.
|
|
|
|
Portions of this text have been derived from materials originally
|
|
appearing in I<Linux Magazine> and used with permission.
|