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=pod
=encoding utf-8
=head1 PURPOSE
Basic tests for B<StrMatch> from L<Types::Standard>.
=head1 SEE ALSO
StrMatch-more.t
=head1 AUTHOR
Toby Inkster E<lt>tobyink@cpan.orgE<gt>.
=head1 COPYRIGHT AND LICENCE
This software is copyright (c) 2019-2023 by Toby Inkster.
This is free software; you can redistribute it and/or modify it under
the same terms as the Perl 5 programming language system itself.
=cut
use strict;
use warnings;
use Test::More;
use Test::Fatal;
use Test::TypeTiny;
use Types::Standard qw( StrMatch );
isa_ok(StrMatch, 'Type::Tiny', 'StrMatch');
is(StrMatch->name, 'StrMatch', 'StrMatch has correct name');
is(StrMatch->display_name, 'StrMatch', 'StrMatch has correct display_name');
is(StrMatch->library, 'Types::Standard', 'StrMatch knows it is in the Types::Standard library');
ok(Types::Standard->has_type('StrMatch'), 'Types::Standard knows it has type StrMatch');
ok(!StrMatch->deprecated, 'StrMatch is not deprecated');
ok(!StrMatch->is_anon, 'StrMatch is not anonymous');
ok(StrMatch->can_be_inlined, 'StrMatch can be inlined');
is(exception { StrMatch->inline_check(q/$xyz/) }, undef, "Inlining StrMatch doesn't throw an exception");
ok(!StrMatch->has_coercion, "StrMatch doesn't have a coercion");
ok(StrMatch->is_parameterizable, "StrMatch is parameterizable");
isnt(StrMatch->type_default, undef, "StrMatch has a type_default");
is(StrMatch->type_default->(), '', "StrMatch type_default is the empty string");
#
# The @tests array is a list of triples:
#
# 1. Expected result - pass, fail, or xxxx (undefined).
# 2. A description of the value being tested.
# 3. The value being tested.
#
my @tests = (
fail => 'undef' => undef,
pass => 'false' => !!0,
pass => 'true' => !!1,
pass => 'zero' => 0,
pass => 'one' => 1,
pass => 'negative one' => -1,
pass => 'non integer' => 3.1416,
pass => 'empty string' => '',
pass => 'whitespace' => ' ',
pass => 'line break' => "\n",
pass => 'random string' => 'abc123',
pass => 'loaded package name' => 'Type::Tiny',
pass => 'unloaded package name' => 'This::Has::Probably::Not::Been::Loaded',
fail => 'a reference to undef' => do { my $x = undef; \$x },
fail => 'a reference to false' => do { my $x = !!0; \$x },
fail => 'a reference to true' => do { my $x = !!1; \$x },
fail => 'a reference to zero' => do { my $x = 0; \$x },
fail => 'a reference to one' => do { my $x = 1; \$x },
fail => 'a reference to empty string' => do { my $x = ''; \$x },
fail => 'a reference to random string' => do { my $x = 'abc123'; \$x },
fail => 'blessed scalarref' => bless(do { my $x = undef; \$x }, 'SomePkg'),
fail => 'empty arrayref' => [],
fail => 'arrayref with one zero' => [0],
fail => 'arrayref of integers' => [1..10],
fail => 'arrayref of numbers' => [1..10, 3.1416],
fail => 'blessed arrayref' => bless([], 'SomePkg'),
fail => 'empty hashref' => {},
fail => 'hashref' => { foo => 1 },
fail => 'blessed hashref' => bless({}, 'SomePkg'),
fail => 'coderef' => sub { 1 },
fail => 'blessed coderef' => bless(sub { 1 }, 'SomePkg'),
fail => 'glob' => do { no warnings 'once'; *SOMETHING },
fail => 'globref' => do { no warnings 'once'; my $x = *SOMETHING; \$x },
fail => 'blessed globref' => bless(do { no warnings 'once'; my $x = *SOMETHING; \$x }, 'SomePkg'),
fail => 'regexp' => qr/./,
fail => 'blessed regexp' => bless(qr/./, 'SomePkg'),
fail => 'filehandle' => do { open my $x, '<', $0 or die; $x },
fail => 'filehandle object' => do { require IO::File; 'IO::File'->new($0, 'r') },
fail => 'ref to scalarref' => do { my $x = undef; my $y = \$x; \$y },
fail => 'ref to arrayref' => do { my $x = []; \$x },
fail => 'ref to hashref' => do { my $x = {}; \$x },
fail => 'ref to coderef' => do { my $x = sub { 1 }; \$x },
fail => 'ref to blessed hashref' => do { my $x = bless({}, 'SomePkg'); \$x },
fail => 'object stringifying to ""' => do { package Local::OL::StringEmpty; use overload q[""] => sub { "" }; bless [] },
fail => 'object stringifying to "1"' => do { package Local::OL::StringOne; use overload q[""] => sub { "1" }; bless [] },
fail => 'object numifying to 0' => do { package Local::OL::NumZero; use overload q[0+] => sub { 0 }; bless [] },
fail => 'object numifying to 1' => do { package Local::OL::NumOne; use overload q[0+] => sub { 1 }; bless [] },
fail => 'object overloading arrayref' => do { package Local::OL::Array; use overload q[@{}] => sub { $_[0]{array} }; bless {array=>[]} },
fail => 'object overloading hashref' => do { package Local::OL::Hash; use overload q[%{}] => sub { $_[0][0] }; bless [{}] },
fail => 'object overloading coderef' => do { package Local::OL::Code; use overload q[&{}] => sub { $_[0][0] }; bless [sub { 1 }] },
#TESTS
);
while (@tests) {
my ($expect, $label, $value) = splice(@tests, 0 , 3);
if ($expect eq 'xxxx') {
note("UNDEFINED OUTCOME: $label");
}
elsif ($expect eq 'pass') {
should_pass($value, StrMatch, ucfirst("$label should pass StrMatch"));
}
elsif ($expect eq 'fail') {
should_fail($value, StrMatch, ucfirst("$label should fail StrMatch"));
}
else {
fail("expected '$expect'?!");
}
}
#
# This should be pretty obvious.
#
my $type1 = StrMatch[ qr/a[b]c/i ];
should_pass('abc', $type1);
should_pass('ABC', $type1);
should_pass('fooabcbar', $type1);
should_pass('fooABCbar', $type1);
should_fail('a[b]c', $type1);
is($type1->type_default, undef, "$type1 has no type_default");
#
# StrMatch only accepts true strings.
#
{
package Local::OL::Stringy;
use overload q[""] => sub { ${$_[0]} };
sub new { my ($class, $str) = @_; bless(\$str, $class) }
}
my $abc_obj = Local::OL::Stringy->new('abc');
is("$abc_obj", "abc");
should_fail($abc_obj, $type1);
#
# But you can do this to create a type accepting a overloaded objects
# that stringify to a string matching $type1.
#
use Types::Standard qw(Overload);
my $type2 = Overload->of(q[""])->stringifies_to($type1);
should_pass($abc_obj, $type2);
should_fail('abc', $type2); # ... though that doesn't accept real strings.
#
# Union type constraint to the rescue!
#
my $type3 = $type1 | $type2;
should_pass($abc_obj, $type3);
should_pass('abc', $type3);
#
# Okay, it was fun looking at overloaded objects, but let's look at
# something else...
#
use Types::Standard qw( +Num Enum Tuple );
my $metric_distance = StrMatch[
# Strings must match this regexp
qr/^(\S+) (\S+)$/,
# Captures get checked against this constraint
Tuple[
Num,
Enum[qw/ mm cm m km /],
],
];
should_pass('1 km', $metric_distance);
should_pass('-1.6 cm', $metric_distance);
should_fail('xyz km', $metric_distance);
should_fail('7 miles', $metric_distance);
should_fail('7 km ', $metric_distance);
#
# You could implement it like this instead because a coderef
# returning a boolean can be used like a type constraint.
#
$metric_distance = StrMatch[
# Strings must match this regexp
qr/^(\S+) (\S+)$/,
sub {
my $captures = shift;
return !!0 unless is_Num $captures->[0];
return !!1 if $captures->[1] eq 'mm';
return !!1 if $captures->[1] eq 'cm';
return !!1 if $captures->[1] eq 'm';
return !!1 if $captures->[1] eq 'km';
return !!0;
}
];
should_pass('1 km', $metric_distance);
should_pass('-1.6 cm', $metric_distance);
should_fail('xyz km', $metric_distance);
should_fail('7 miles', $metric_distance);
should_fail('7 km ', $metric_distance);
done_testing;
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