use strict;
use warnings;
use Test::More tests => 100;
BEGIN { use_ok('cpp11_std_unique_ptr') }
require_ok('cpp11_std_unique_ptr');

# adapted from ../java/cpp11_std_unique_ptr_runme.java

sub checkCount {
  my($expected_count) = @_;
  my $actual_count = cpp11_std_unique_ptr::Klass::getTotal_count();
  is($actual_count, $expected_count, "Counts incorrect, expected: $expected_count actual: $actual_count");
}

# Test raw pointer handling involving virtual inheritance
{
  my $kini = new cpp11_std_unique_ptr::KlassInheritance("KlassInheritanceInput");
  checkCount(1);
  my $s = cpp11_std_unique_ptr::useKlassRawPtr($kini);
  is($s, "KlassInheritanceInput", "Incorrect string: $s");
  undef $kini;
  checkCount(0);
}


# #### INPUT BY VALUE ####
# unique_ptr as input
{
  my $kin = new cpp11_std_unique_ptr::Klass("KlassInput");
  checkCount(1);
  my $s = cpp11_std_unique_ptr::takeKlassUniquePtr($kin);
  checkCount(0);
  is($s, "KlassInput", "Incorrect string: $s");
  is(cpp11_std_unique_ptr::is_nullptr($kin), 1, "is_nullptr check");
  undef $kin; # Should not fail, even though already deleted
  checkCount(0);
}

{
  my $kin = new cpp11_std_unique_ptr::Klass("KlassInput");
  checkCount(1);
  my $s = cpp11_std_unique_ptr::takeKlassUniquePtr($kin);
  checkCount(0);
  is($s, "KlassInput", "Incorrect string: $s");
  is(cpp11_std_unique_ptr::is_nullptr($kin), 1, "is_nullptr check");
  eval {
    cpp11_std_unique_ptr::takeKlassUniquePtr($kin);
  };
  like($@, qr/\bcannot release ownership as memory is not owned\b/, "double usage of takeKlassUniquePtr should be an error");
  undef $kin; # Should not fail, even though already deleted
  checkCount(0);
}

{
  my $kin = new cpp11_std_unique_ptr::Klass("KlassInput");
  my $notowned = cpp11_std_unique_ptr::get_not_owned_ptr($kin);
  eval {
    cpp11_std_unique_ptr::takeKlassUniquePtr($notowned);
  };
  like($@, qr/\bcannot release ownership as memory is not owned\b/, "double usage of takeKlassUniquePtr should be an error");
  checkCount(1);
  undef $kin;
  checkCount(0);
}

{
  my $kini = new cpp11_std_unique_ptr::KlassInheritance("KlassInheritanceInput");
  checkCount(1);
  my $s = cpp11_std_unique_ptr::takeKlassUniquePtr($kini);
  checkCount(0);
  is($s, "KlassInheritanceInput", "Incorrect string: $s");
  is(cpp11_std_unique_ptr::is_nullptr($kini), 1, "is_nullptr failed");
  undef $kini; # Should not fail, even though already deleted
  checkCount(0);
}

cpp11_std_unique_ptr::takeKlassUniquePtr(undef);
cpp11_std_unique_ptr::takeKlassUniquePtr(cpp11_std_unique_ptr::make_null());
checkCount(0);

# overloaded parameters
is(cpp11_std_unique_ptr::overloadTest(), 0, "overloadTest failed");
is(cpp11_std_unique_ptr::overloadTest(undef), 1, "overloadTest failed");
is(cpp11_std_unique_ptr::overloadTest(new cpp11_std_unique_ptr::Klass("over")), 1, "overloadTest failed");
checkCount(0);


# #### INPUT BY RVALUE REF ####
# unique_ptr as input
{
  my $kin = new cpp11_std_unique_ptr::Klass("KlassInput");
  checkCount(1);
  my $s = cpp11_std_unique_ptr::moveKlassUniquePtr($kin);
  checkCount(0);
  is($s, "KlassInput", "Incorrect string: $s");
  is(cpp11_std_unique_ptr::is_nullptr($kin), 1, "is_nullptr check");
  undef $kin; # Should not fail, even though already deleted
  checkCount(0);
}

{
  my $kin = new cpp11_std_unique_ptr::Klass("KlassInput");
  checkCount(1);
  my $s = cpp11_std_unique_ptr::moveKlassUniquePtr($kin);
  checkCount(0);
  is($s, "KlassInput", "Incorrect string: $s");
  is(cpp11_std_unique_ptr::is_nullptr($kin), 1, "is_nullptr check");
  eval {
    cpp11_std_unique_ptr::moveKlassUniquePtr($kin);
  };
  like($@, qr/\bcannot release ownership as memory is not owned\b/, "double usage of moveKlassUniquePtr should be an error");
  undef $kin; # Should not fail, even though already deleted
  checkCount(0);
}

{
  my $kin = new cpp11_std_unique_ptr::Klass("KlassInput");
  my $notowned = cpp11_std_unique_ptr::get_not_owned_ptr($kin);
  eval {
    cpp11_std_unique_ptr::moveKlassUniquePtr($notowned);
  };
  like($@, qr/\bcannot release ownership as memory is not owned\b/, "double usage of moveKlassUniquePtr should be an error");
  checkCount(1);
  undef $kin;
  checkCount(0);
}

{
  my $kini = new cpp11_std_unique_ptr::KlassInheritance("KlassInheritanceInput");
  checkCount(1);
  my $s = cpp11_std_unique_ptr::moveKlassUniquePtr($kini);
  checkCount(0);
  is($s, "KlassInheritanceInput", "Incorrect string: $s");
  is(cpp11_std_unique_ptr::is_nullptr($kini), 1, "is_nullptr failed");
  undef $kini; # Should not fail, even though already deleted
  checkCount(0);
}

cpp11_std_unique_ptr::moveKlassUniquePtr(undef);
cpp11_std_unique_ptr::moveKlassUniquePtr(cpp11_std_unique_ptr::make_null());
checkCount(0);

# overloaded parameters
is(cpp11_std_unique_ptr::moveOverloadTest(), 0, "moveOverloadTest failed");
is(cpp11_std_unique_ptr::moveOverloadTest(undef), 1, "moveOverloadTest failed");
is(cpp11_std_unique_ptr::moveOverloadTest(new cpp11_std_unique_ptr::Klass("over")), 1, "moveOverloadTest failed");
checkCount(0);


# #### INPUT BY NON-CONST LVALUE REF ####
# unique_ptr as input
{
  my $kin = new cpp11_std_unique_ptr::Klass("KlassInput");
  checkCount(1);
  my $s = cpp11_std_unique_ptr::moveRefKlassUniquePtr($kin);
  checkCount(0);
  is($s, "KlassInput", "Incorrect string: $s");
  is(cpp11_std_unique_ptr::is_nullptr($kin), 1, "is_nullptr check");
  undef $kin; # Should not fail, even though already deleted
  checkCount(0);
}

{
  my $kin = new cpp11_std_unique_ptr::Klass("KlassInput");
  checkCount(1);
  my $s = cpp11_std_unique_ptr::moveRefKlassUniquePtr($kin);
  checkCount(0);
  is($s, "KlassInput", "Incorrect string: $s");
  is(cpp11_std_unique_ptr::is_nullptr($kin), 1, "is_nullptr check");
  eval {
    cpp11_std_unique_ptr::moveRefKlassUniquePtr($kin);
  };
  like($@, qr/\bcannot release ownership as memory is not owned\b/, "double usage of moveRefKlassUniquePtr should be an error");
  undef $kin; # Should not fail, even though already deleted
  checkCount(0);
}

{
  my $kin = new cpp11_std_unique_ptr::Klass("KlassInput");
  my $notowned = cpp11_std_unique_ptr::get_not_owned_ptr($kin);
  eval {
    cpp11_std_unique_ptr::moveRefKlassUniquePtr($notowned);
  };
  like($@, qr/\bcannot release ownership as memory is not owned\b/, "double usage of moveRefKlassUniquePtr should be an error");
  checkCount(1);
  undef $kin;
  checkCount(0);
}

{
  my $kini = new cpp11_std_unique_ptr::KlassInheritance("KlassInheritanceInput");
  checkCount(1);
  my $s = cpp11_std_unique_ptr::moveRefKlassUniquePtr($kini);
  checkCount(0);
  is($s, "KlassInheritanceInput", "Incorrect string: $s");
  is(cpp11_std_unique_ptr::is_nullptr($kini), 1, "is_nullptr failed");
  undef $kini; # Should not fail, even though already deleted
  checkCount(0);
}

cpp11_std_unique_ptr::moveRefKlassUniquePtr(undef);
cpp11_std_unique_ptr::moveRefKlassUniquePtr(cpp11_std_unique_ptr::make_null());
checkCount(0);

# overloaded parameters
is(cpp11_std_unique_ptr::moveRefOverloadTest(), 0, "moveRefOverloadTest failed");
is(cpp11_std_unique_ptr::moveRefOverloadTest(undef), 1, "moveRefOverloadTest failed");
is(cpp11_std_unique_ptr::moveRefOverloadTest(new cpp11_std_unique_ptr::Klass("over")), 1, "moveRefOverloadTest failed");
checkCount(0);


# #### INPUT BY CONST LVALUE REF ####
# unique_ptr as input
{
  my $kin = new cpp11_std_unique_ptr::Klass("KlassInput");
  checkCount(1);
  my $s = cpp11_std_unique_ptr::useRefKlassUniquePtr($kin);
  checkCount(1);
  is($s, "KlassInput", "Incorrect string: $s");
  undef $kin;
  checkCount(0);
}

{
  my $kini = new cpp11_std_unique_ptr::KlassInheritance("KlassInheritanceInput");
  checkCount(1);
  my $s = cpp11_std_unique_ptr::useRefKlassUniquePtr($kini);
  checkCount(1);
  is($s, "KlassInheritanceInput", "Incorrect string: $s");
  undef $kini;
  checkCount(0);
}

cpp11_std_unique_ptr::useRefKlassUniquePtr(undef);
cpp11_std_unique_ptr::useRefKlassUniquePtr(cpp11_std_unique_ptr::make_null());
checkCount(0);

# overloaded parameters
is(cpp11_std_unique_ptr::useRefOverloadTest(), 0, "useRefOverloadTest failed");
is(cpp11_std_unique_ptr::useRefOverloadTest(undef), 1, "useRefOverloadTest failed");
my $kin = new cpp11_std_unique_ptr::Klass("over");
is(cpp11_std_unique_ptr::useRefOverloadTest($kin), 1, "useRefOverloadTest failed");
checkCount(1);
undef $kin;
checkCount(0);


# unique_ptr as output
my $k1 = cpp11_std_unique_ptr::makeKlassUniquePtr("first");
my $k2 = cpp11_std_unique_ptr::makeKlassUniquePtr("second");
checkCount(2);

undef $k1;
checkCount(1);

is($k2->getLabel, "second", "proper label");

undef $k2;
checkCount(0);

is(cpp11_std_unique_ptr::makeNullUniquePtr(), undef);

# unique_ptr as output (rvalue ref)
my $k1 = cpp11_std_unique_ptr::makeRVRKlassUniquePtr("first");
is($k1->getLabel, "first", "proper label");
is(cpp11_std_unique_ptr::makeRVRKlassUniquePtr(undef), undef);

# unique_ptr as output (lvalue ref)
my $k1 = cpp11_std_unique_ptr::makeRefKlassUniquePtr("lvalueref");
is($k1->getLabel, "lvalueref", "proper label");
is(cpp11_std_unique_ptr::makeRefKlassUniquePtr(undef), undef);