#!./perl -w # # Copyright 2002, Larry Wall. # # You may redistribute only under the same terms as Perl 5, as specified # in the README file that comes with the distribution. # # I ought to keep this test easily backwards compatible to 5.004, so no # qr//; # This test checks downgrade behaviour on pre-5.8 perls when new 5.8 features # are encountered. sub BEGIN { if ($ENV{PERL_CORE}){ chdir('t') if -d 't'; @INC = ('.', '../lib'); } else { unshift @INC, 't'; } require Config; import Config; if ($ENV{PERL_CORE} and $Config{'extensions'} !~ /\bStorable\b/) { print "1..0 # Skip: Storable was not built\n"; exit 0; } } use Test::More; use Storable qw (dclone store retrieve freeze thaw nstore nfreeze); use strict; my $max_uv = ~0; my $max_uv_m1 = ~0 ^ 1; # Express it in this way so as not to use any addition, as 5.6 maths would # do this in NVs on 64 bit machines, and we're overflowing IVs so can't use # use integer. my $max_iv_p1 = $max_uv ^ ($max_uv >> 1); my $lots_of_9C = do { my $temp = sprintf "%X", ~0; $temp =~ s/FF/9C/g; local $^W; hex $temp; }; my $max_iv = ~0 >> 1; my $min_iv = do {use integer; -$max_iv-1}; # 2s complement assumption my @processes = (["dclone", \&do_clone], ["freeze/thaw", \&freeze_and_thaw], ["nfreeze/thaw", \&nfreeze_and_thaw], ["store/retrieve", \&store_and_retrieve], ["nstore/retrieve", \&nstore_and_retrieve], ); my @numbers = (# IV bounds of 8 bits -1, 0, 1, -127, -128, -129, 42, 126, 127, 128, 129, 254, 255, 256, 257, # IV bounds of 32 bits -2147483647, -2147483648, -2147483649, 2147483646, 2147483647, 2147483648, # IV bounds $min_iv, do {use integer; $min_iv + 1}, do {use integer; $max_iv - 1}, $max_iv, # UV bounds at 32 bits 0x7FFFFFFF, 0x80000000, 0x80000001, 0xFFFFFFFF, 0xDEADBEEF, # UV bounds $max_iv_p1, $max_uv_m1, $max_uv, $lots_of_9C, ); plan tests => @processes * @numbers * 5; my $file = "integer.$$"; die "Temporary file '$file' already exists" if -e $file; END { while (-f $file) {unlink $file or die "Can't unlink '$file': $!" }} sub do_clone { my $data = shift; my $copy = eval {dclone $data}; is ($@, '', 'Should be no error dcloning'); ok (1, "dlcone is only 1 process, not 2"); return $copy; } sub freeze_and_thaw { my $data = shift; my $frozen = eval {freeze $data}; is ($@, '', 'Should be no error freezing'); my $copy = eval {thaw $frozen}; is ($@, '', 'Should be no error thawing'); return $copy; } sub nfreeze_and_thaw { my $data = shift; my $frozen = eval {nfreeze $data}; is ($@, '', 'Should be no error nfreezing'); my $copy = eval {thaw $frozen}; is ($@, '', 'Should be no error thawing'); return $copy; } sub store_and_retrieve { my $data = shift; my $frozen = eval {store $data, $file}; is ($@, '', 'Should be no error storing'); my $copy = eval {retrieve $file}; is ($@, '', 'Should be no error retrieving'); return $copy; } sub nstore_and_retrieve { my $data = shift; my $frozen = eval {nstore $data, $file}; is ($@, '', 'Should be no error storing'); my $copy = eval {retrieve $file}; is ($@, '', 'Should be no error retrieving'); return $copy; } foreach (@processes) { my ($process, $sub) = @$_; foreach my $number (@numbers) { # as $number is an alias into @numbers, we don't want any side effects of # conversion macros affecting later runs, so pass a copy to Storable: my $copy1 = my $copy0 = $number; my $copy_s = &$sub (\$copy0); if (is (ref $copy_s, "SCALAR", "got back a scalar ref?")) { # Test inside use integer to see if the bit pattern is identical # and outside to see if the sign is right. # On 5.8 we don't need this trickery anymore. # We really do need 2 copies here, as conversion may have side effect # bugs. In particular, I know that this happens: # perl5.00503 -le '$a = "-2147483649"; $a & 0; print $a; print $a+1' # -2147483649 # 2147483648 my $copy_s1 = my $copy_s2 = $$copy_s; # On 5.8 can do this with a straight ==, due to the integer/float maths # on 5.6 can't do this with # my $eq = do {use integer; $copy_s1 == $copy1} && $copy_s1 == $copy1; # because on builds with IV as long long it tickles bugs. # (Uncomment it and the Devel::Peek line below to see the messed up # state of the scalar, with PV showing the correct string for the # number, and IV holding a bogus value which has been truncated to 32 bits # So, check the bit patterns are identical, and check that the sign is the # same. This works on all the versions in all the sizes. # $eq = && (($copy_s1 <=> 0) == ($copy1 <=> 0)); # Split this into 2 tests, to cater for 5.005_03 my $bit = ok (($copy_s1 ^ $copy1 == 0), "$process $copy1 (bitpattern)"); # This is sick. 5.005_03 survives without the IV/UV flag, and somehow # gets it right, providing you don't have side effects of conversion. # local $TODO; # $TODO = "pre 5.6 doesn't have flag to distinguish IV/UV" # if $[ < 5.005_56 and $copy1 > $max_iv; my $sign = ok (($copy_s2 <=> 0) == ($copy1 <=> 0), "$process $copy1 (sign)"); unless ($bit and $sign) { printf "# Passed in %s (%#x, %i)\n# got back '%s' (%#x, %i)\n", $copy1, $copy1, $copy1, $copy_s1, $copy_s1, $copy_s1; # use Devel::Peek; Dump $copy_s1; Dump $$copy_s; } # unless ($bit) { use Devel::Peek; Dump $copy_s1; Dump $$copy_s; } } else { fail ("$process $copy1"); fail ("$process $copy1"); } } }