#!./perl -w
BEGIN {
unshift @INC, 't/CORE/lib';
require 't/CORE/test.pl';
}
use strict;
tie my $c => 'Tie::Monitor';
sub expected_tie_calls {
my ($obj, $rexp, $wexp) = @_;
local $::Level = $::Level + 1;
my ($rgot, $wgot) = $obj->init();
is ($rgot, $rexp);
is ($wgot, $wexp);
}
# Use ok() instead of is(), cmp_ok() etc, to strictly control number of accesses
my($r, $s);
ok($r = $c + 0 == 0, 'the thing itself');
expected_tie_calls(tied $c, 1, 0);
ok($r = "$c" eq '0', 'the thing itself');
expected_tie_calls(tied $c, 1, 0);
ok($c . 'x' eq '0x', 'concat');
expected_tie_calls(tied $c, 1, 0);
ok('x' . $c eq 'x0', 'concat');
expected_tie_calls(tied $c, 1, 0);
$s = $c . $c;
ok($s eq '00', 'concat');
expected_tie_calls(tied $c, 2, 0);
$r = 'x';
$s = $c = $r . 'y';
ok($s eq 'xy', 'concat');
expected_tie_calls(tied $c, 1, 1);
$s = $c = $c . 'x';
ok($s eq '0x', 'concat');
expected_tie_calls(tied $c, 2, 1);
$s = $c = 'x' . $c;
ok($s eq 'x0', 'concat');
expected_tie_calls(tied $c, 2, 1);
$s = $c = $c . $c;
ok($s eq '00', 'concat');
expected_tie_calls(tied $c, 3, 1);
$s = chop($c);
ok($s eq '0', 'multiple magic in core functions');
expected_tie_calls(tied $c, 1, 1);
# was a glob
my $tied_to = tied $c;
$c = *strat;
$s = $c;
ok($s eq *strat,
'Assignment should not ignore magic when the last thing assigned was a glob');
expected_tie_calls($tied_to, 1, 1);
# A plain *foo should not call get-magic on *foo.
# This method of scalar-tying an immutable glob relies on details of the
# current implementation that are subject to change. This test may need to
# be rewritten if they do change.
my $tyre = tie $::{gelp} => 'Tie::Monitor';
# Compilation of this eval autovivifies the *gelp glob.
eval '$tyre->init(0); () = \*gelp';
my($rgot, $wgot) = $tyre->init(0);
ok($rgot == 0, 'a plain *foo causes no get-magic');
ok($wgot == 0, 'a plain *foo causes no set-magic');
done_testing();
# adapted from Tie::Counter by Abigail
package Tie::Monitor;
sub TIESCALAR {
my($class, $value) = @_;
bless {
read => 0,
write => 0,
values => [ 0 ],
};
}
sub FETCH {
my $self = shift;
++$self->{read};
$self->{values}[$#{ $self->{values} }];
}
sub STORE {
my($self, $value) = @_;
++$self->{write};
push @{ $self->{values} }, $value;
}
sub init {
my $self = shift;
my @results = ($self->{read}, $self->{write});
$self->{read} = $self->{write} = 0;
$self->{values} = [ 0 ];
@results;
}