1999-05-02 14:33:17 +00:00
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=head1 NAME
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perlreftut - Mark's very short tutorial about references
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=head1 DESCRIPTION
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One of the most important new features in Perl 5 was the capability to
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manage complicated data structures like multidimensional arrays and
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nested hashes. To enable these, Perl 5 introduced a feature called
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`references', and using references is the key to managing complicated,
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structured data in Perl. Unfortunately, there's a lot of funny syntax
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to learn, and the main manual page can be hard to follow. The manual
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is quite complete, and sometimes people find that a problem, because
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it can be hard to tell what is important and what isn't.
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Fortunately, you only need to know 10% of what's in the main page to get
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90% of the benefit. This page will show you that 10%.
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=head1 Who Needs Complicated Data Structures?
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One problem that came up all the time in Perl 4 was how to represent a
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hash whose values were lists. Perl 4 had hashes, of course, but the
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values had to be scalars; they couldn't be lists.
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Why would you want a hash of lists? Let's take a simple example: You
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have a file of city and country names, like this:
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Chicago, USA
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Frankfurt, Germany
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Berlin, Germany
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Washington, USA
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Helsinki, Finland
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New York, USA
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and you want to produce an output like this, with each country mentioned
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once, and then an alphabetical list of the cities in that country:
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Finland: Helsinki.
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Germany: Berlin, Frankfurt.
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USA: Chicago, New York, Washington.
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The natural way to do this is to have a hash whose keys are country
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names. Associated with each country name key is a list of the cities in
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that country. Each time you read a line of input, split it into a country
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and a city, look up the list of cities already known to be in that
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country, and append the new city to the list. When you're done reading
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the input, iterate over the hash as usual, sorting each list of cities
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before you print it out.
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If hash values can't be lists, you lose. In Perl 4, hash values can't
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be lists; they can only be strings. You lose. You'd probably have to
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combine all the cities into a single string somehow, and then when
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time came to write the output, you'd have to break the string into a
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list, sort the list, and turn it back into a string. This is messy
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and error-prone. And it's frustrating, because Perl already has
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perfectly good lists that would solve the problem if only you could
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use them.
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=head1 The Solution
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By the time Perl 5 rolled around, we were already stuck with this
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design: Hash values must be scalars. The solution to this is
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references.
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A reference is a scalar value that I<refers to> an entire array or an
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entire hash (or to just about anything else). Names are one kind of
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reference that you're already familiar with. Think of the President:
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a messy, inconvenient bag of blood and bones. But to talk about him,
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or to represent him in a computer program, all you need is the easy,
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convenient scalar string "Bill Clinton".
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References in Perl are like names for arrays and hashes. They're
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Perl's private, internal names, so you can be sure they're
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unambiguous. Unlike "Bill Clinton", a reference only refers to one
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thing, and you always know what it refers to. If you have a reference
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to an array, you can recover the entire array from it. If you have a
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reference to a hash, you can recover the entire hash. But the
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reference is still an easy, compact scalar value.
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You can't have a hash whose values are arrays; hash values can only be
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scalars. We're stuck with that. But a single reference can refer to
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an entire array, and references are scalars, so you can have a hash of
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references to arrays, and it'll act a lot like a hash of arrays, and
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it'll be just as useful as a hash of arrays.
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We'll come back to this city-country problem later, after we've seen
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some syntax for managing references.
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=head1 Syntax
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There are just two ways to make a reference, and just two ways to use
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it once you have it.
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=head2 Making References
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B<Make Rule 1>
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If you put a C<\> in front of a variable, you get a
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reference to that variable.
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$aref = \@array; # $aref now holds a reference to @array
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$href = \%hash; # $href now holds a reference to %hash
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Once the reference is stored in a variable like $aref or $href, you
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can copy it or store it just the same as any other scalar value:
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$xy = $aref; # $xy now holds a reference to @array
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$p[3] = $href; # $p[3] now holds a reference to %hash
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$z = $p[3]; # $z now holds a reference to %hash
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These examples show how to make references to variables with names.
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Sometimes you want to make an array or a hash that doesn't have a
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name. This is analogous to the way you like to be able to use the
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string C<"\n"> or the number 80 without having to store it in a named
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variable first.
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B<Make Rule 2>
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C<[ ITEMS ]> makes a new, anonymous array, and returns a reference to
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that array. C<{ ITEMS }> makes a new, anonymous hash. and returns a
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reference to that hash.
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$aref = [ 1, "foo", undef, 13 ];
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# $aref now holds a reference to an array
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$href = { APR => 4, AUG => 8 };
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# $href now holds a reference to a hash
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The references you get from rule 2 are the same kind of
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references that you get from rule 1:
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# This:
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$aref = [ 1, 2, 3 ];
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# Does the same as this:
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@array = (1, 2, 3);
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$aref = \@array;
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The first line is an abbreviation for the following two lines, except
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that it doesn't create the superfluous array variable C<@array>.
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=head2 Using References
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What can you do with a reference once you have it? It's a scalar
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value, and we've seen that you can store it as a scalar and get it back
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again just like any scalar. There are just two more ways to use it:
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B<Use Rule 1>
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If C<$aref> contains a reference to an array, then you
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can put C<{$aref}> anywhere you would normally put the name of an
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array. For example, C<@{$aref}> instead of C<@array>.
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Here are some examples of that:
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Arrays:
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@a @{$aref} An array
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reverse @a reverse @{$aref} Reverse the array
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$a[3] ${$aref}[3] An element of the array
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$a[3] = 17; ${$aref}[3] = 17 Assigning an element
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On each line are two expressions that do the same thing. The
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left-hand versions operate on the array C<@a>, and the right-hand
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versions operate on the array that is referred to by C<$aref>, but
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once they find the array they're operating on, they do the same things
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to the arrays.
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Using a hash reference is I<exactly> the same:
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%h %{$href} A hash
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keys %h keys %{$href} Get the keys from the hash
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$h{'red'} ${$href}{'red'} An element of the hash
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$h{'red'} = 17 ${$href}{'red'} = 17 Assigning an element
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B<Use Rule 2>
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2000-06-25 11:04:01 +00:00
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C<${$aref}[3]> is too hard to read, so you can write C<< $aref->[3] >>
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instead.
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C<${$href}{red}> is too hard to read, so you can write
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C<< $href->{red} >> instead.
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1999-05-02 14:33:17 +00:00
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Most often, when you have an array or a hash, you want to get or set a
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single element from it. C<${$aref}[3]> and C<${$href}{'red'}> have
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too much punctuation, and Perl lets you abbreviate.
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2000-06-25 11:04:01 +00:00
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If C<$aref> holds a reference to an array, then C<< $aref->[3] >> is
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the fourth element of the array. Don't confuse this with C<$aref[3]>,
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which is the fourth element of a totally different array, one
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deceptively named C<@aref>. C<$aref> and C<@aref> are unrelated the
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same way that C<$item> and C<@item> are.
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2000-06-25 11:04:01 +00:00
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Similarly, C<< $href->{'red'} >> is part of the hash referred to by
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the scalar variable C<$href>, perhaps even one with no name.
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C<$href{'red'}> is part of the deceptively named C<%href> hash. It's
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easy to forget to leave out the C<< -> >>, and if you do, you'll get
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bizarre results when your program gets array and hash elements out of
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totally unexpected hashes and arrays that weren't the ones you wanted
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to use.
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=head1 An Example
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Let's see a quick example of how all this is useful.
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First, remember that C<[1, 2, 3]> makes an anonymous array containing
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C<(1, 2, 3)>, and gives you a reference to that array.
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Now think about
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@a = ( [1, 2, 3],
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[4, 5, 6],
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[7, 8, 9]
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);
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@a is an array with three elements, and each one is a reference to
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another array.
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C<$a[1]> is one of these references. It refers to an array, the array
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containing C<(4, 5, 6)>, and because it is a reference to an array,
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B<USE RULE 2> says that we can write C<< $a[1]->[2] >> to get the
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third element from that array. C<< $a[1]->[2] >> is the 6.
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Similarly, C<< $a[0]->[1] >> is the 2. What we have here is like a
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two-dimensional array; you can write C<< $a[ROW]->[COLUMN] >> to get
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or set the element in any row and any column of the array.
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The notation still looks a little cumbersome, so there's one more
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abbreviation:
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=head1 Arrow Rule
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In between two B<subscripts>, the arrow is optional.
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2000-06-25 11:04:01 +00:00
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Instead of C<< $a[1]->[2] >>, we can write C<$a[1][2]>; it means the
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same thing. Instead of C<< $a[0]->[1] >>, we can write C<$a[0][1]>;
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it means the same thing.
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Now it really looks like two-dimensional arrays!
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You can see why the arrows are important. Without them, we would have
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had to write C<${$a[1]}[2]> instead of C<$a[1][2]>. For
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three-dimensional arrays, they let us write C<$x[2][3][5]> instead of
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the unreadable C<${${$x[2]}[3]}[5]>.
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=head1 Solution
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Here's the answer to the problem I posed earlier, of reformatting a
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file of city and country names.
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1 while (<>) {
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2 chomp;
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3 my ($city, $country) = split /, /;
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4 push @{$table{$country}}, $city;
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5 }
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6
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7 foreach $country (sort keys %table) {
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8 print "$country: ";
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9 my @cities = @{$table{$country}};
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10 print join ', ', sort @cities;
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11 print ".\n";
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12 }
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The program has two pieces: Lines 1--5 read the input and build a
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data structure, and lines 7--12 analyze the data and print out the
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report.
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In the first part, line 4 is the important one. We're going to have a
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hash, C<%table>, whose keys are country names, and whose values are
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(references to) arrays of city names. After acquiring a city and
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country name, the program looks up C<$table{$country}>, which holds (a
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reference to) the list of cities seen in that country so far. Line 4 is
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totally analogous to
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push @array, $city;
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except that the name C<array> has been replaced by the reference
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C<{$table{$country}}>. The C<push> adds a city name to the end of the
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referred-to array.
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In the second part, line 9 is the important one. Again,
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C<$table{$country}> is (a reference to) the list of cities in the country, so
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we can recover the original list, and copy it into the array C<@cities>,
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by using C<@{$table{$country}}>. Line 9 is totally analogous to
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@cities = @array;
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except that the name C<array> has been replaced by the reference
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C<{$table{$country}}>. The C<@> tells Perl to get the entire array.
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The rest of the program is just familiar uses of C<chomp>, C<split>, C<sort>,
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C<print>, and doesn't involve references at all.
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There's one fine point I skipped. Suppose the program has just read
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the first line in its input that happens to mention Greece.
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Control is at line 4, C<$country> is C<'Greece'>, and C<$city> is
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C<'Athens'>. Since this is the first city in Greece,
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C<$table{$country}> is undefined---in fact there isn't an C<'Greece'> key
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in C<%table> at all. What does line 4 do here?
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4 push @{$table{$country}}, $city;
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This is Perl, so it does the exact right thing. It sees that you want
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to push C<Athens> onto an array that doesn't exist, so it helpfully
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makes a new, empty, anonymous array for you, installs it in the table,
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and then pushes C<Athens> onto it. This is called `autovivification'.
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=head1 The Rest
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I promised to give you 90% of the benefit with 10% of the details, and
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that means I left out 90% of the details. Now that you have an
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overview of the important parts, it should be easier to read the
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L<perlref> manual page, which discusses 100% of the details.
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Some of the highlights of L<perlref>:
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=over 4
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=item *
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You can make references to anything, including scalars, functions, and
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other references.
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=item *
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In B<USE RULE 1>, you can omit the curly brackets whenever the thing
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inside them is an atomic scalar variable like C<$aref>. For example,
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C<@$aref> is the same as C<@{$aref}>, and C<$$aref[1]> is the same as
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C<${$aref}[1]>. If you're just starting out, you may want to adopt
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the habit of always including the curly brackets.
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=item *
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To see if a variable contains a reference, use the `ref' function.
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It returns true if its argument is a reference. Actually it's a
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little better than that: It returns HASH for hash references and
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ARRAY for array references.
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=item *
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If you try to use a reference like a string, you get strings like
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ARRAY(0x80f5dec) or HASH(0x826afc0)
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If you ever see a string that looks like this, you'll know you
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printed out a reference by mistake.
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A side effect of this representation is that you can use C<eq> to see
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if two references refer to the same thing. (But you should usually use
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C<==> instead because it's much faster.)
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=item *
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You can use a string as if it were a reference. If you use the string
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C<"foo"> as an array reference, it's taken to be a reference to the
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array C<@foo>. This is called a I<soft reference> or I<symbolic reference>.
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=back
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You might prefer to go on to L<perllol> instead of L<perlref>; it
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discusses lists of lists and multidimensional arrays in detail. After
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that, you should move on to L<perldsc>; it's a Data Structure Cookbook
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that shows recipes for using and printing out arrays of hashes, hashes
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of arrays, and other kinds of data.
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=head1 Summary
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Everyone needs compound data structures, and in Perl the way you get
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them is with references. There are four important rules for managing
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references: Two for making references and two for using them. Once
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you know these rules you can do most of the important things you need
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to do with references.
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=head1 Credits
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Author: Mark-Jason Dominus, Plover Systems (C<mjd-perl-ref@plover.com>)
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This article originally appeared in I<The Perl Journal>
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(http://tpj.com) volume 3, #2. Reprinted with permission.
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The original title was I<Understand References Today>.
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=head2 Distribution Conditions
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Copyright 1998 The Perl Journal.
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When included as part of the Standard Version of Perl, or as part of
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its complete documentation whether printed or otherwise, this work may
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be distributed only under the terms of Perl's Artistic License. Any
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distribution of this file or derivatives thereof outside of that
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package require that special arrangements be made with copyright
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holder.
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Irrespective of its distribution, all code examples in these files are
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hereby placed into the public domain. You are permitted and
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encouraged to use this code in your own programs for fun or for profit
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as you see fit. A simple comment in the code giving credit would be
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courteous but is not required.
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=cut
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