I find myself doing this pattern a lot in perl
sub fun {
my $line = $_[0];
my ( $this, $that, $the_other_thing ) = split /\t/, $line;
return { 'this' => $this, 'that' => $that, 'the_other_thing' => $the_other_thing};
}
Obviously I can simplify this pattern by returning the output of a function which transforms a given array of variables into a map, where the keys are the same names as the variables eg
sub fun {
my $line = $_[0];
my ( $this, $that, $the_other_thing ) = split /\t/, $line;
return &to_hash( $this, $that, $the_other_thing );
}
It helps as the quantity of elements get larger. How do I do this? It looks like I could combine PadWalker & closures, but I would like a way to do this using only the core language.
EDIT: thb provided a clever solution to this problem, but I've not checked it because it bypasses a lot of the hard parts(tm). How would you do it if you wanted to rely on the core language's destructuring semantics and drive your reflection off the actual variables?
EDIT2: Here's the solution I hinted at using PadWalker & closures:
use PadWalker qw( var_name );
# Given two arrays, we build a hash by treating the first set as keys and
# the second as values
sub to_hash {
my $keys = $_[0];
my $vals = $_[1];
my %hash;
@hash{@$keys} = @$vals;
return \%hash;
}
# Given a list of variables, and a callback function, retrieves the
# symbols for the variables in the list. It calls the function with
# the generated syms, followed by the original variables, and returns
# that output.
# Input is: Function, var1, var2, var3, etc....
sub with_syms {
my $fun = shift @_;
my @syms = map substr( var_name(1, \$_), 1 ), @_;
$fun->(\@syms, \@_);
}
sub fun {
my $line = $_[0];
my ( $this, $that, $other) = split /\t/, $line;
return &with_syms(\&to_hash, $this, $that, $other);
}