X-Git-Url: http://git.shadowcat.co.uk/gitweb/gitweb.cgi?a=blobdiff_plain;f=t%2Fop%2Fnumconvert.t;h=fedef70d40d84014b42e858dad772fa8cd6e1615;hb=3480a8d2d46562b783befbcecf951d5a2b4067d7;hp=3db280bbfd179dac89ef3ddd078560ccf8edabcd;hpb=16b7a9a47be196cb33bf757faad24e73ceffc2fc;p=p5sagit%2Fp5-mst-13.2.git diff --git a/t/op/numconvert.t b/t/op/numconvert.t index 3db280b..fedef70 100755 --- a/t/op/numconvert.t +++ b/t/op/numconvert.t @@ -48,9 +48,11 @@ my $max_chain = $ENV{PERL_TEST_NUMCONVERTS} || 2; my $max_uv1 = ~0; my $max_uv2 = sprintf "%u", $max_uv1 ** 6; # 6 is an arbitrary number here my $big_iv = do {use integer; $max_uv1 * 16}; # 16 is an arbitrary number here +my $max_uv_less3 = $max_uv1 - 3; print "# max_uv1 = $max_uv1, max_uv2 = $max_uv2, big_iv = $big_iv\n"; -if ($max_uv1 ne $max_uv2 or $big_iv > $max_uv1) { +print "# max_uv_less3 = $max_uv_less3\n"; +if ($max_uv1 ne $max_uv2 or $big_iv > $max_uv1 or $max_uv1 == $max_uv_less3) { print "1..0 # skipped: unsigned perl arithmetic is not sane"; eval { require Config; import Config }; use vars qw(%Config); @@ -60,6 +62,10 @@ if ($max_uv1 ne $max_uv2 or $big_iv > $max_uv1) { print "\n"; exit 0; } +if ($max_uv_less3 =~ tr/0-9//c) { + print "1..0 # skipped: this perl stringifies large unsigned integers using E notation\n"; + exit 0; +} my $st_t = 4*4; # We try 4 initializers and 4 reporters @@ -95,6 +101,15 @@ print "# @list\n"; my $max_uv_pp = "$max_uv"; $max_uv_pp++; my $max_uv_p1 = "$max_uv"; $max_uv_p1+=0; $max_uv_p1++; +# Also need to cope with %g notation for max_uv_p1 that actually gives an +# integer less than max_uv because of correct rounding for the limited +# precisision. This bites for 12 byte long doubles and 8 byte UVs + +my $temp = $max_uv_p1; +my $max_uv_p1_as_iv; +{use integer; $max_uv_p1_as_iv = 0 + sprintf "%s", $temp} +my $max_uv_p1_as_uv = 0 | sprintf "%s", $temp; + my @opnames = split //, "-+UINPuinp"; # @list = map { 2->($_), 3->($_), 4->($_), 5->($_), } @list; # Prepare input @@ -193,13 +208,48 @@ for my $num_chain (1..$max_chain) { # string ++ versus numeric ++. Tolerate this little # bit of insanity print "# ok, as string ++ of max_uv is \"$max_uv_pp\", numeric is $max_uv_p1\n" + } elsif ($opnames[$last] eq 'I' and $ans[1] eq "-1" + and $ans[0] eq $max_uv_p1_as_iv) { + # Max UV plus 1 is NV. This NV may stringify in E notation. + # And the number of decimal digits shown in E notation will depend + # on the binary digits in the mantissa. And it may be that + # (say) 18446744073709551616 in E notation is truncated to + # (say) 1.8446744073709551e+19 (say) which gets converted back + # as 1.8446744073709551000e+19 + # ie 18446744073709551000 + # which isn't the integer we first had. + # But each step of conversion is correct. So it's not an error. + # (Only shows up for 64 bit UVs and NVs with 64 bit mantissas, + # and on Crays (64 bit integers, 48 bit mantissas) IIRC) + print "# ok, \"$max_uv_p1\" correctly converts to IV \"$max_uv_p1_as_iv\"\n"; + } elsif ($opnames[$last] eq 'U' and $ans[1] eq ~0 + and $ans[0] eq $max_uv_p1_as_uv) { + # as aboce + print "# ok, \"$max_uv_p1\" correctly converts to UV \"$max_uv_p1_as_uv\"\n"; + } elsif (grep {/^N$/} @opnames[@{$curops[0]}] + and $ans[0] == $ans[1] and $ans[0] <= ~0 + # First must be in E notation (ie not just digits) and + # second must still be an integer. + # eg 1.84467440737095516e+19 + # 1.84467440737095516e+19 for 64 bit mantissa is in the + # integer range, so 1.84467440737095516e+19 + 0 is treated + # as integer addition. [should it be?] + # and 18446744073709551600 + 0 is 18446744073709551600 + # Which isn't the string you first thought of. + # I can't remember why there isn't symmetry in this + # exception, ie why only the first ops are tested for 'N' + and $ans[0] != /^-?\d+$/ and $ans[1] !~ /^-?\d+$/) { + print "# ok, numerically equal - notation changed due to adding zero\n"; } else { $nok++, } } } - print "not " if $nok; - print "ok $test\n"; + if ($nok) { + print "not ok $test\n"; + } else { + print "ok $test\n"; + } #print $txt if $nok; $test++; }