Provided by: libdata-alias-perl_1.28-1_amd64 bug

NAME

       Data::Alias - Comprehensive set of aliasing operations

SYNOPSIS

           use Data::Alias;

           alias {
                   # aliasing instead of copying whenever possible
           };

           alias $x = $y;              # alias $x to $y
           alias @x = @y;              # alias @x to @y
           alias $x[0] = $y;           # similar for array and hash elements
           alias push @x, $y;          # push alias to $y onto @x
           $x = alias [ $y, $z ];      # construct array of aliases
           alias my ($x, $y) = @_;     # named aliases to arguments
           alias { ($x, $y) = ($y, $x) };              # swap $x and $y
           alias { my @t = @x; @x = @y; @y = @t };     # swap @x and @y

           use Data::Alias qw/ alias copy /;

           alias { copy $x = $y };     # force copying inside alias-BLOCK

           use Data::Alias qw/ deref /;

           my @refs = (\$x, \@y, \%z);
           foo(deref @refs)            # same as foo($x, @y, %z)

DESCRIPTION

       Aliasing is the phenomenon where two different expressions actually refer to the same
       thing.  Modifying one will modify the other, and if you take a reference to both, the two
       values are the same.

       Aliasing occurs in Perl for example in for-loops and sub-calls:

           for $var ($x) {
                   # here $var is an alias to $x
           }

           foo($y);
           sub foo {
                   # here $_[0] is an alias to $y
           }

       Data::Alias is a module that allows you to apply "aliasing semantics" to a section of
       code, causing aliases to be made wherever Perl would normally make copies instead.  You
       can use this to improve efficiency and readability, when compared to using references.

       The exact details of aliasing semantics are below under "DETAILS".

       Perl 5.22 added some support for aliasing to the Perl core.  It has a different syntax,
       and a different set of operations, from that supplied by this module; see "Assigning to
       References" in perlref.  The core's aliasing facilities are implemented more robustly than
       this module and are better supported.  If you can rely on having a sufficiently recent
       Perl version, you should prefer to use the core facility rather than use this module.  If
       you are already using this module and are now using a sufficiently recent Perl, you should
       attempt to migrate to the core facility.

SYNTAX

   alias EXPR | alias BLOCK
       Exported by default.

       Enables aliasing semantics within the expression or block.  Returns an alias to the
       expression, or the block's return value.

       "alias" is context-transparent, meaning that whichever context it is placed in (list,
       scalar, void), the expression/block is evaluated in the same context.

   copy EXPR | copy BLOCK
       Restores normal (copying) semantics within the expression or block, and makes a copy of
       the result value (unless in void context).

       Like "alias", "copy" is context-transparent.

   deref LIST
       Accepts a list of references to scalars, arrays, or hashes.  Applies the applicable
       dereferencing operator to each.  This means that:

           deref $scalarref, $arrayref, $hashref

       behaves like:

           $$scalarref, @$arrayref, %$hashref

       Where an array or hash reference is given, the returned list does not include the array or
       hash as an lvalue; the array/hash is expanded and the list includes its elements.
       Scalars, including the elements of an array/hash, are treated as lvalues, and can be
       enreferenced using the "\" operator or aliased to using the "alias" operator.  This is
       slightly different from what you'd get using the built-in dereference operators:
       @$arrayref references the array as an lvalue, so "\" or "alias" can operate on the array
       itself rather than just its elements.

EXAMPLES

       A common usage of aliasing is to make an abbreviation for an expression, to avoid having
       to repeat that (possibly verbose or ugly) expression over and over:

           alias my $fi = $self->{FrobnitzIndex};
           $fi = $fi > 0 ? $fi - $adj : $fi + $adj;

           sub rc4 {
                   alias my ($i, $j, $S) = @_;
                   my $a = $S->[($i += 1) &= 255];
                   my $b = $S->[($j += $S->[$i]) &= 255];
                   $S->[(($S->[$j] = $a) + ($S->[$i] = $b)) & 255]
           }

       In the second example, the rc4 function updates its first two arguments (two state values)
       in addition to returning a value.

       Aliasing can also be used to avoid copying big strings.  This example would work fine
       without "alias" but would be much slower when passed a big string:

           sub middlesection ($) {
                   alias my $s = shift;
                   substr $s, length($s)/4, length($s)/2
           }

       You can also apply aliasing semantics to an entire block.  Here this is used to swap two
       arrays in O(1) time:

           alias {
                   my @temp = @x;
                   @x = @y;
                   @y = @temp;
           };

       The "copy" function is typically used to temporarily reinstate normal semantics, but can
       also be used to explicitly copy a value when perl would normally not do so:

           my $ref = \copy $x;

DETAILS

       This section describes exactly what the aliasing semantics are of operations.  Anything
       not listed below has unaltered behaviour.

       scalar assignment to variable or element.
           Makes the left-side of the assignment an alias to the right-side expression, which can
           be anything.

               alias my $lexvar = $foo;
               alias $pkgvar = $foo;
               alias $array[$i] = $foo;
               alias $hash{$k} = $foo;

           An attempt to do alias-assignment to an element of a tied (or "magical") array or hash
           will result in a "Can't put alias into tied array/hash" error.

       scalar assignment to dereference
           If $ref is a reference or undef, this simply does "$ref = \$foo".  Otherwise, the
           indicated package variable (via glob or symbolic reference) is made an alias to the
           right-side expression.

               alias $$ref = $foo;

       scalar assignment to glob
           Works mostly the same as normal glob-assignment, however it does not set the import-
           flag.  (If you don't know what this means, you probably don't care)

               alias *glob = $reference;

       scalar assignment to anything else
           Not supported.

               alias substr(...) = $foo;   # ERROR!
               alias lvalsub() = $foo;     # ERROR!

       conditional scalar assignment
           Here $var (and $var2) are aliased to $foo if the applicable condition is satisfied.
           $bool and $foo can be any expression.  $var and $var2 can be anything that is valid on
           the left-side of an alias-assignment.

               alias $bool ? $var : $var2 = $foo;
               alias $var &&= $foo;
               alias $var ||= $foo;
               alias $var //= $foo; # (perl 5.9.x or later)

       whole aggregate assignment from whole aggregate
           This occurs where the expressions on both sides of the assignment operator are purely
           complete arrays or hashes.  The entire aggregate is aliased, not merely the contents.
           This means for example that "\@lexarray == \@foo".

               alias my @lexarray = @foo;
               alias my %lexhash = %foo;
               alias @pkgarray = @foo;
               alias %pkghash = %foo;

           Making the left-side a dereference is also supported:

               alias @$ref = @foo;
               alias %$ref = %foo;

           and analogously to assignment to scalar dereference, these will change $ref to
           reference the aggregate, if $ref was undef or already a reference.  If $ref is a
           string or glob, the corresponding package variable is aliased.

           Anything more complex than a whole-aggregate expression on either side, even just
           enclosing the aggregate expression in parentheses, will prevent the assignment
           qualifying for this category.  It will instead go into one of the following two
           categories.  Parenthesisation is the recommended way to avoid whole-aggregate aliasing
           where it is unwanted.  If you want to merely replace the contents of the left-side
           aggregate with aliases to the contents of the right-side aggregate, parenthesise the
           left side.

       whole aggregate assignment from list
           If the left-side expression is purely a complete array or hash, and the right-side
           expression is not purely a matching aggregate, then a new aggregate is implicitly
           constructed.  This means:

               alias my @lexfoo = (@foo);
               alias my @array = ($x, $y, $z);
               alias my %hash = (x => $x, y => $y);

           is translated to:

               alias my @lexfoo = @{ [@foo] };
               alias my @array = @{ [$x, $y, $z] };
               alias my %hash = %{ {x => $x, y => $y} };

           If you want to merely replace the contents of the aggregate with aliases to the
           contents of another aggregate, rather than create a new aggregate, you can force list-
           assignment by parenthesizing the left side, see below.

       list assignment
           List assignment is any assignment where the left-side is an array-slice, hash-slice,
           or list in parentheses.  This behaves essentially like many scalar assignments in
           parallel.

               alias my (@array) = ($x, $y, $z);
               alias my (%hash) = (x => $x, y => $y);
               alias my ($x, $y, @rest) = @_;
               alias @x[0, 1] = @x[1, 0];

           Any scalars that appear on the left side must be valid targets for scalar assignment.
           When an array or hash appears on the left side, normally as the last item, its
           contents are replaced by the list of all remaining right-side elements.  "undef" can
           also appear on the left side to skip one corresponding item in the right-side list.

           Beware when putting a parenthesised list on the left side.  Just like Perl parses
           "print (1+2)*10" as "(print(1+2))*10", it would parse "alias ($x, $y) = ($y, $x)" as
           "(alias($x, $y)) = ($y, $x)" which does not do any aliasing, and results in the
           "Useless use of alias" warning, if warnings are enabled.

           To circumvent this issue, you can either one of the following:

               alias +($x, $y) = ($y, $x);
               alias { ($x, $y) = ($y, $x) };

       Anonymous aggregate constructors
           Return a reference to a new anonymous array or hash, populated with aliases.  This
           means that for example "\$hashref->{x} == \$x".

               my $arrayref = alias [$x, $y, $z];
               my $hashref = alias {x => $x, y => $y};

           Note that this also works:

               alias my $arrayref = [$x, $y, $z];
               alias my $hashref = {x => $x, y => $y};

           but this makes the lhs an alias to the temporary, and therefore read-only, reference
           made by "[]" or "{}".  Therefore later attempts to assign to $arrayref or $hashref
           results in an error.  The anonymous aggregate that is referenced behaves the same in
           both cases obviously.

       Array insertions
           These work as usual, except the inserted elements are aliases.

               alias push @array, $foo;
               alias unshift @array, $foo;
               alias splice @array, 1, 2, $foo;

           An attempt to do any of these on tied (or "magical") array will result in a "Can't
           push/unshift/splice alias onto tied array" error.

       Returning an alias
           Returns aliases from the current "sub" or "eval".  Normally this only happens for
           lvalue subs, but "alias return" can be used in any sub.  Lvalue subs only work for
           scalar return values, but "alias return" can handle a list of return values.

           A sub call will very often copy the return value(s) immediately after they have been
           returned.  "alias return" can't prevent that.  To pass an alias through a sub return
           and into something else, the call site must process the return value using an aliasing
           operation, or at least a non-copying one.  For example, ordinary assignment with the
           sub call on the right hand side will copy, but if the call site is in the scope of an
           "alias" pragma then the assignment will instead alias the return value.

           When alias-returning a list of values from a subroutine, each individual value in the
           list is aliased.  The list as a whole is not aliasable; it is not an array.  At the
           call site, a list of aliases can be captured into separate variables or into an array,
           by an aliasing list assignment.

       Subroutines and evaluations
           Placing a subroutine or "eval STRING" inside "alias" causes it to be compiled with
           aliasing semantics entirely.  Additionally, the return from such a sub or eval,
           whether explicit using "return" or implicitly the last statement, will be an alias
           rather than a copy.

               alias { sub foo { $x } };

               my $subref = alias sub { $x };

               my $xref1 = \foo;
               my $xref2 = \alias eval '$x';
               my $xref3 = \$subref->();

           Explicitly returning an alias can also be done using "alias return" inside any
           subroutine or evaluation.

               sub foo { alias return $x; }
               my $xref = \foo;

       Localization
           Use of local inside "alias" usually behaves the same as local does in general, however
           there is a difference if the variable is tied:  in this case, Perl doesn't localise
           the variable at all but instead preserves the tie by saving a copy of the current
           value, and restoring this value at end of scope.

               alias local $_ = $string;

           The aliasing semantics of "local" avoids copying by always localizing the variable
           itself, regardless of whether it is tied.

IMPLEMENTATION

       This module does not use a source filter, and is therefore safe to use within eval STRING.
       Instead, Data::Alias hooks into the Perl parser, and replaces operations within the scope
       of "alias" by aliasing variants.

       For those familiar with perl's internals:  it triggers on a ck_rv2cv which resolves to the
       imported "alias" sub, and does a parser hack to allow the "alias BLOCK" syntax.  When the
       ck_entersub is triggered that corresponds to it, the op is marked to be found later.  The
       actual work is done in a peep-hook, which processes the marked entersub and its children,
       replacing the pp_addrs with aliasing replacements.  The peep hook will also take care of
       any subs defined within the lexical (but not dynamical) scope between the ck_rv2cv and the
       ck_entersub.

KNOWN ISSUES

       Lexical variables
           When aliasing existing lexical variables, the effect is limited in scope to the
           current subroutine and any closures create after the aliasing is done, even if the
           variable itself has wider scope.  While partial fixes are possible, it cannot be fixed
           in any reliable or consistent way, and therefore I'm keeping the current behaviour.

           When aliasing a lexical that was declared outside the current subroutine, a compile-
           time warning is generated "Aliasing of outer lexical variable has limited scope"
           (warnings category "closure").

ACKNOWLEDGEMENTS

       Specials thanks go to Elizabeth Mattijsen, Juerd Waalboer, and other members of the
       Amsterdam Perl Mongers, for their valuable feedback.

AUTHOR

       Matthijs van Duin <xmath@cpan.org> developed the module originally, and maintained it
       until 2007.  Andrew Main (Zefram) <zefram@fysh.org> updated it to work with Perl versions
       5.11.0 and later.

LICENSE

       Copyright (C) 2003-2007  Matthijs van Duin.  Copyright (C) 2010, 2011, 2013, 2015, 2017
       Andrew Main (Zefram) <zefram@fysh.org>.  All rights reserved.  This program is free
       software; you can redistribute it and/or modify it under the same terms as Perl itself.