X-Git-Url: http://git.vpit.fr/?a=blobdiff_plain;f=lib%2FSub%2FPrototype%2FUtil.pm;h=b2f67a7f81aa703868e3d5217232265446aeaa87;hb=909c371df9ff98e4f100b9451219275970a93dbd;hp=315224076b3a393c4656bb67b1a6abb3acdbb93f;hpb=a3206d42a03b8e1e09b5f2bdddcbbfeca6ffe40f;p=perl%2Fmodules%2FSub-Prototype-Util.git diff --git a/lib/Sub/Prototype/Util.pm b/lib/Sub/Prototype/Util.pm index 3152240..b2f67a7 100644 --- a/lib/Sub/Prototype/Util.pm +++ b/lib/Sub/Prototype/Util.pm @@ -29,10 +29,17 @@ $VERSION = '0.10'; my @a = qw; my @args = ( \@a, 1, { d => 2 }, undef, 3 ); - my @flat = flatten '\@$;$', @args; # ('a', 'b', 'c', 1, { d => 2 }) - recall 'CORE::push', @args; # @a contains 'a', 'b', 'c', 1, { d => 2 }, undef, 3 + my @flat = flatten '\@$;$', @args; + # @flat contains now ('a', 'b', 'c', 1, { d => 2 }) + + my $res = recall 'CORE::push', @args; + # @a contains now 'a', 'b', 'c', 1, { d => 2 }, undef, 3 + # and $res is 7 + my $splice = wrap 'CORE::splice'; - my @b = $splice->(\@a, 4, 2); # @a is now ('a', 'b', 'c', 1, 3) and @b is ({ d => 2 }, undef) + my @b = $splice->(\@a, 4, 2); + # @a contains now ('a', 'b', 'c', 1, 3) + # and @b is ({ d => 2 }, undef) =head1 DESCRIPTION @@ -72,7 +79,9 @@ sub _clean_msg { $msg; } -=head2 C +=head2 C + + my @flattened = flatten($proto, @args); Flattens the array C<@args> according to the prototype C<$proto>. When C<@args> is what C<@_> is after calling a subroutine with prototype C<$proto>, C returns the list of what C<@_> would have been if there were no prototype. @@ -118,7 +127,10 @@ sub flatten { return @args; } -=head2 C +=head2 C + + my $wrapper = wrap($name, %opts); + my $wrapper = wrap({ $name => $proto }, %opts); Generates a wrapper that calls the function C<$name> with a prototyped argument list. That is, the wrapper's arguments should be what C<@_> is when you define a subroutine with the same prototype as C<$name>. @@ -132,29 +144,37 @@ In this case, C<$name> must be a hash reference that holds exactly one key / val my $push = wrap { 'CORE::push' => '\@$' }; # only pushes 1 arg -Others arguments are seen as key / value pairs that are meant to tune the code generated by L. +The remaining arguments C<%opts> are treated as key / value pairs that are meant to tune the code generated by L. Valid keys are : =over 4 -=item C<< ref => $func >> +=item * + +C<< ref => $func >> Specifies the function used in the generated code to test the reference type of scalars. Defaults to C<'ref'>. You may also want to use L. -=item C<< wrong_ref => $code >> +=item * + +C<< wrong_ref => $code >> The code executed when a reference of incorrect type is encountered. The result of this snippet is also the result of the generated code, hence it defaults to C<'undef'>. It's a good place to C or C too. -=item C<< sub => $bool >> +=item * + +C<< sub => $bool >> Encloses the code into a C block. Default is true. -=item C<< compile => $bool >> +=item * + +C<< compile => $bool >> Makes L compile the code generated and return the resulting code reference. Be careful that in this case C must be a fully qualified function name. @@ -165,7 +185,8 @@ Defaults to true, but turned off when C is false. For example, this allows you to recall into C and C by using the C<\&@> prototype : my $grep = wrap { 'CORE::grep' => '\&@' }; - sub mygrep (&@) { $grep->(@_) } # the prototypes are intentionally different + # the prototypes are intentionally different + sub mygrep (&@) { $grep->(@_) } =cut @@ -279,7 +300,10 @@ sub wrap { return $call; } -=head2 C +=head2 C + + my @res = recall($name, @args); + my @res = recall({ $name => $proto }, @args); Calls the function C<$name> with the prototyped argument list C<@args>. That is, C<@args> should be what C<@_> is when you call a subroutine with C<$name> as prototype.