use Test::Exception;
use Test::Warn;
use Time::HiRes 'time';
-use Config;
+use Math::BigInt;
use lib qw(t/lib);
use DBICTest;
-use DBIx::Class::_Util 'modver_gt_or_eq';
+use DBIx::Class::_Util qw(sigwarn_silencer modver_gt_or_eq);
# savepoints test
{
# FIXME warning won't help us for the time being
# perhaps when (if ever) DBD::SQLite gets fixed,
# we can do something extra here
- local $SIG{__WARN__} = sub { warn @_ if $_[0] !~ /Internal transaction state .+? does not seem to match/ }
+ local $SIG{__WARN__} = sigwarn_silencer( qr/Internal transaction state .+? does not seem to match/ )
if ( $lit_txn_todo && !$ENV{TEST_VERBOSE} );
my ($c_begin, $c_commit) = map { $prefix_comment =~ $_ ? 1 : 0 } (qr/Begin/, qr/Commit/);
$_[1]->do('ALTER TABLE artist ADD COLUMN bigint BIGINT');
});
+my $sqlite_broken_bigint = (
+ modver_gt_or_eq('DBD::SQLite', '1.34') and ! modver_gt_or_eq('DBD::SQLite', '1.37')
+);
+
+# 63 bit integer
+my $many_bits = (Math::BigInt->new(2) ** 62);
+
# test upper/lower boundaries for sqlite and some values inbetween
# range is -(2**63) .. 2**63 - 1
-SKIP: {
- skip 'This perl does not seem to have 64bit int support - DBI roundtrip of large int will fail with DBD::SQLite < 1.37', 1
- if ($Config{ivsize} < 8 and ! modver_gt_or_eq('DBD::SQLite', '1.37') );
-
- for my $bi (qw/
- -9223372036854775808
- -9223372036854775807
- -8694837494948124658
- -6848440844435891639
- -5664812265578554454
- -5380388020020483213
- -2564279463598428141
- 2442753333597784273
- 4790993557925631491
- 6773854980030157393
- 7627910776496326154
- 8297530189347439311
- 9223372036854775806
- 9223372036854775807
- /) {
+#
+# Not testing -0 - it seems to overflow to ~0 on some combinations,
+# thus not triggering the >32 bit guards
+# interesting read: https://en.wikipedia.org/wiki/Signed_zero#Representations
+for my $bi ( qw(
+ -2
+ -1
+ 0
+ +0
+ 1
+ 2
+
+ -9223372036854775808
+ -9223372036854775807
+ -8694837494948124658
+ -6848440844435891639
+ -5664812265578554454
+ -5380388020020483213
+ -2564279463598428141
+ 2442753333597784273
+ 4790993557925631491
+ 6773854980030157393
+ 7627910776496326154
+ 8297530189347439311
+ 9223372036854775806
+ 9223372036854775807
+
+ 4294967295
+ 4294967296
+
+ -4294967296
+ -4294967295
+ -4294967294
+
+ -2147483649
+ -2147483648
+ -2147483647
+ -2147483646
+
+ 2147483646
+ 2147483647
+),
+ # these values cause exceptions even with all workarounds in place on these
+ # fucked DBD::SQLite versions *regardless* of ivsize >.<
+ $sqlite_broken_bigint
+ ? ()
+ : ( '2147483648', '2147483649' )
+) {
+ # unsigned 32 bit ints have a range of −2,147,483,648 to 2,147,483,647
+ # alternatively expressed as the hexadecimal numbers below
+ # the comparison math will come out right regardless of ivsize, since
+ # we are operating within 31 bits
+ # P.S. 31 because one bit is lost for the sign
+ my $v_bits = ($bi > 0x7fff_ffff || $bi < -0x8000_0000) ? 64 : 32;
+
+ my $v_desc = sprintf '%s (%d bit signed int)', $bi, $v_bits;
+
+ my @w;
+ local $SIG{__WARN__} = sub { $_[0] =~ /datatype mismatch/ ? push @w, @_ : warn @_ };
+
+ # some combinations of SQLite 1.35 and older 5.8 faimly is wonky
+ # instead of a warning we get a full exception. Sod it
+ eval {
$row = $schema->resultset('BigIntArtist')->create({ bigint => $bi });
- is ($row->bigint, $bi, "value in object correct ($bi)");
+ } or do {
+ fail("Exception on inserting $v_desc") unless $sqlite_broken_bigint;
+ next;
+ };
+
+ # explicitly using eq, to make sure we did not nummify the argument
+ # which can be an issue on 32 bit ivsize
+ cmp_ok ($row->bigint, 'eq', $bi, "value in object correct ($v_desc)");
+
+ $row->discard_changes;
+
+ cmp_ok (
+ $row->bigint,
+ # the test will not pass an == if we are running under 32 bit ivsize
+ # use 'eq' on the numified (and possibly "scientificied") returned value
+ (DBIx::Class::_ENV_::IV_SIZE < 8 and $v_bits > 32) ? 'eq' : '==',
+
+ # in 1.37 DBD::SQLite switched to proper losless representation of bigints
+ # regardless of ivize
+ # before this use 'eq' (from above) on the numified (and possibly
+ # "scientificied") returned value
+ (DBIx::Class::_ENV_::IV_SIZE < 8 and ! modver_gt_or_eq('DBD::SQLite', '1.37')) ? $bi+0 : $bi,
+
+ "value in database correct ($v_desc)"
+ );
+
+# FIXME - temporary smoke-only escape
+SKIP: {
+ skip 'Potential for false negatives - investigation pending', 1
+ if DBICTest::RunMode->is_plain;
+
+ # check if math works
+ # start by adding/subtracting a 50 bit integer, and then divide by 2 for good measure
+ my ($sqlop, $expect) = $bi < 0
+ ? ( '(bigint + ? )', ($bi + $many_bits) )
+ : ( '(bigint - ? )', ($bi - $many_bits) )
+ ;
+
+ $expect = ($expect + ($expect % 2)) / 2;
+
+ # read https://en.wikipedia.org/wiki/Modulo_operation#Common_pitfalls
+ # and check the tables on the right side of the article for an
+ # enlightening journey on why a mere bigint % 2 won't work
+ $sqlop = "( $sqlop + ( ((bigint % 2)+2)%2 ) ) / 2";
+
+ for my $dtype (undef, \'int', \'bigint') {
+
+ # FIXME - the double-load should not be needed
+ # will fix in the future
+ $row->update({ bigint => $bi });
$row->discard_changes;
- is ($row->bigint, $bi, "value in database correct ($bi)");
+ $row->update({ bigint => \[ $sqlop, [ $dtype => $many_bits ] ] });
+ $row->discard_changes;
+
+ # can't use cmp_ok - will not engage the M::BI overload of $many_bits
+ ok (
+ $row->bigint
+
+ ==
+
+ (DBIx::Class::_ENV_::IV_SIZE < 8 and ! modver_gt_or_eq('DBD::SQLite', '1.37')) ? $expect->bstr + 0 : $expect
+ , "simple integer math with@{[ $dtype ? '' : 'out' ]} bindtype in database correct (base $v_desc)")
+ or diag sprintf '%s != %s', $row->bigint, $expect;
}
+# end of fixme
+}
+
+ is_deeply (\@w, [], "No mismatch warnings on bigint operations ($v_desc)" );
}
done_testing;