BEGIN {
chdir 't' if -d 't';
- @INC = '../lib';
require './test.pl';
+ set_up_inc('../lib')
}
use warnings;
SKIP: {
use Config;
# debugging builds will detect this failure and panic
- skip "DEBUGGING build" if $::Config{ccflags} =~ /DEBUGGING/
+ skip "DEBUGGING build" if $::Config{ccflags} =~ /(?<!\S)-DDEBUGGING(?!\S)/
or $^O eq 'VMS' && $::Config{usedebugging_perl} eq 'Y';
local $::TODO = 'cheat and optimise my (....) = @_';
local @_ = 1..3;
# (...) = (f())[0,0]
# the same TEMP RHS element may be used more than once, so when copying
# it, we mustn't steal its buffer.
+# DAPM 10/2016 - but in that case the SvTEMP flag is sometimes getting
+# cleared: using split() instead as a source of temps seems more reliable,
+# so I've added splut variants too.
{
# a string long enough for COW and buffer stealing to be enabled
# a sub that is intended to return a TEMP string that isn't COW
# the concat returns a non-COW PADTMP; pp_leavesub sees a long
# stealable string, so creates a TEMP with the stolen buffer from the
- # PADTMP - hence it returns a non-COW string
+ # PADTMP - hence it returns a non-COW string. It also returns a couple
+ # of key strings for the hash tests
sub f18 {
my $x = "abc";
- $x . $long;
+ ($x . $long, "key1", "key2");
}
- my @a;
+ my (@a, %h);
# with @a initially empty,the code path creates a new copy of each
# RHS element to store in the array
@a = (f18())[0,0];
- is (substr($a[0], 0, 7), "abcdefx", 'NOSTEAL empty $a[0]');
- is (substr($a[1], 0, 7), "abcdefx", 'NOSTEAL empty $a[1]');
+ is (substr($a[0], 0, 7), "abcdefx", 'NOSTEAL f18 empty $a[0]');
+ is (substr($a[1], 0, 7), "abcdefx", 'NOSTEAL f18 empty $a[1]');
+ @a = (split /-/, "abc-def")[0,0];
+ is ($a[0], "abc", 'NOSTEAL split empty $a[0]');
+ is ($a[1], "abc", 'NOSTEAL split empty $a[1]');
# with @a initially non-empty, it takes a different code path that
# makes a mortal copy of each RHS element
@a = 1..3;
@a = (f18())[0,0];
- is (substr($a[0], 0, 7), "abcdefx", 'NOSTEAL non-empty $a[0]');
- is (substr($a[1], 0, 7), "abcdefx", 'NOSTEAL non-empty $a[1]');
+ is (substr($a[0], 0, 7), "abcdefx", 'NOSTEAL f18 non-empty $a[0]');
+ is (substr($a[1], 0, 7), "abcdefx", 'NOSTEAL f18 non-empty $a[1]');
+ @a = 1..3;
+ @a = (split /-/, "abc-def")[0,0];
+ is ($a[0], "abc", 'NOSTEAL split non-empty $a[0]');
+ is ($a[1], "abc", 'NOSTEAL split non-empty $a[1]');
+
+ # similarly with PADTMPs
+ @a = ();
+ @a = ($long . "x")[0,0];
+ is (substr($a[0], 0, 4), "defx", 'NOSTEAL PADTMP empty $a[0]');
+ is (substr($a[1], 0, 4), "defx", 'NOSTEAL PADTMP empty $a[1]');
+
+ @a = 1..3;
+ @a = ($long . "x")[0,0];
+ is (substr($a[0], 0, 4), "defx", 'NOSTEAL PADTMP non-empty $a[0]');
+ is (substr($a[1], 0, 4), "defx", 'NOSTEAL PADTMP non-empty $a[1]');
+
+ # as above, but assigning to a hash
+
+ %h = (f18())[1,0,2,0];
+ is (substr($h{key1}, 0, 7), "abcdefx", 'NOSTEAL f18 empty $h{key1}');
+ is (substr($h{key2}, 0, 7), "abcdefx", 'NOSTEAL f18 empty $h{key2}');
+ %h = (split /-/, "key1-val-key2")[0,1,2,1];
+ is ($h{key1}, "val", 'NOSTEAL split empty $h{key1}');
+ is ($h{key2}, "val", 'NOSTEAL split empty $h{key2}');
+
+ %h = qw(key1 foo key2 bar key3 baz);
+ %h = (f18())[1,0,2,0];
+ is (substr($h{key1}, 0, 7), "abcdefx", 'NOSTEAL f18 non-empty $h{key1}');
+ is (substr($h{key2}, 0, 7), "abcdefx", 'NOSTEAL f18 non-empty $h{key2}');
+ %h = qw(key1 foo key2 bar key3 baz);
+ %h = (split /-/, "key1-val-key2")[0,1,2,1];
+ is ($h{key1}, "val", 'NOSTEAL split non-empty $h{key1}');
+ is ($h{key2}, "val", 'NOSTEAL split non-empty $h{key2}');
+
+ %h = ();
+ %h = ($long . "x", "key1", "key2")[1,0,2,0];
+ is (substr($h{key1}, 0, 4), "defx", 'NOSTEAL PADTMP empty $h{key1}');
+ is (substr($h{key2}, 0, 4), "defx", 'NOSTEAL PADTMP empty $h{key2}');
+
+ %h = qw(key1 foo key2 bar key3 baz);
+ %h = ($long . "x", "key1", "key2")[1,0,2,0];
+ is (substr($h{key1}, 0, 4), "defx", 'NOSTEAL PADTMP non-empty $h{key1}');
+ is (substr($h{key2}, 0, 4), "defx", 'NOSTEAL PADTMP non-empty $h{key2}');
+
+ # both keys and values stealable
+ @a = (%h = (split /-/, "abc-def")[0,1,0,1]);
+ is (join(':', keys %h), "abc", "NOSTEAL split G_ARRAY keys");
+ is (join(':', values %h), "def", "NOSTEAL split G_ARRAY values");
+ is (join(':', @a), "abc:def", "NOSTEAL split G_ARRAY result");
}
{
{ # magic handling, see #126633
use v5.22;
+ my $set;
package ArrayProxy {
sub TIEARRAY { bless [ $_[1] ] }
- sub STORE { $_[0][0]->[$_[1]] = $_[2] }
+ sub STORE { $_[0][0]->[$_[1]] = $_[2]; $set = 1 }
sub FETCH { $_[0][0]->[$_[1]] }
sub CLEAR { @{$_[0][0]} = () }
sub EXTEND {}
tie @proxy, "ArrayProxy", \@real;
@proxy[0, 1] = @real[1, 0];
is($real[0], "b", "tied left first");
- { local $::TODO = "#126633";
is($real[1], "a", "tied left second");
- }
@real = @base;
@real[0, 1] = @proxy[1, 0];
is($real[0], "b", "tied right first");
- { local $::TODO = "#126633";
is($real[1], "a", "tied right second");
- }
@real = @base;
@proxy[0, 1] = @proxy[1, 0];
is($real[0], "b", "tied both first");
- { local $::TODO = "#126633";
- is($real[1], "a", "tied both b");
- }
+ is($real[1], "a", "tied both second");
@real = @base;
($temp, @real) = @proxy[1, 0];
is($real[0], "a", "scalar/array tied right");
@real = @base;
($temp, @proxy) = @proxy[1, 0];
is($real[0], "a", "scalar/array tied both");
+ $set = 0;
+ my $orig;
+ ($proxy[0], $orig) = (1, $set);
+ is($orig, 0, 'previous value of $set');
+
+ # from cpan #110278
+ SKIP: {
+ skip "no List::Util::min on miniperl", 2, if is_miniperl;
+ require List::Util;
+ my $x = 1;
+ my $y = 2;
+ ( $x, $y ) = ( List::Util::min($y), List::Util::min($x) );
+ is($x, 2, "check swap for \$x");
+ is($y, 1, "check swap for \$y");
+ }
+}
+
+{
+ # check that a second aggregate is empted but doesn't suck up
+ # anything random
+
+ my (@a, @b) = qw(x y);
+ is(+@a, 2, "double array A len");
+ is(+@b, 0, "double array B len");
+ is("@a", "x y", "double array A contents");
+
+ @a = 1..10;
+ @b = 100..200;
+ (@a, @b) = qw(x y);
+ is(+@a, 2, "double array non-empty A len");
+ is(+@b, 0, "double array non-empty B len");
+ is("@a", "x y", "double array non-empty A contents");
+
+ my (%a, %b) = qw(k1 v1 k2 v2);
+ is(+(keys %a), 2, "double hash A len");
+ is(+(keys %b), 0, "double hash B len");
+ is(join(' ', sort keys %a), "k1 k2", "double hash A keys");
+ is(join(' ', sort values %a), "v1 v2", "double hash A values");
+
+ %a = 1..10;
+ %b = 101..200;
+ (%a, %b) = qw(k1 v1 k2 v2);
+ is(+(keys %a), 2, "double hash non-empty A len");
+ is(+(keys %b), 0, "double hash non-empty B len");
+ is(join(' ', sort keys %a), "k1 k2", "double hash non-empty A keys");
+ is(join(' ', sort values %a), "v1 v2", "double hash non-empty A values");
+}
+
+# list and lval context: filling of missing elements, returning correct
+# lvalues.
+# ( Note that these partially duplicate some tests in hashassign.t which
+# I didn't spot at first - DAPM)
+
+{
+ my ($x, $y, $z);
+ my (@a, %h);
+
+ sub lval {
+ my $n = shift;
+ my $desc = shift;
+ is($x, $n >= 1 ? "assign1" : undef, "lval: X pre $n $desc");
+ is($y, $n >= 2 ? "assign2" : undef, "lval: Y pre $n $desc");
+ is($z, undef, "lval: Z pre $n $desc");
+
+ my $i = 0;
+ for (@_) {
+ $_ = "lval$i";
+ $i++;
+ }
+ is($x, "lval0", "lval: a post $n $desc");
+ is($y, "lval1", "lval: b post $n $desc");
+ is($z, "lval2", "lval: c post $n $desc");
+ }
+ lval(0, "XYZ", (($x,$y,$z) = ()));
+ lval(1, "XYZ", (($x,$y,$z) = (qw(assign1))));
+ lval(2, "XYZ", (($x,$y,$z) = (qw(assign1 assign2))));
+
+ lval(0, "XYZA", (($x,$y,$z,@a) = ()));
+ lval(1, "XYZA", (($x,$y,$z,@a) = (qw(assign1))));
+ lval(2, "XYZA", (($x,$y,$z,@a) = (qw(assign1 assign2))));
+
+ lval(0, "XYAZ", (($x,$y,@a,$z) = ()));
+ lval(1, "XYAZ", (($x,$y,@a,$z) = (qw(assign1))));
+ lval(2, "XYAZ", (($x,$y,@a,$z) = (qw(assign1 assign2))));
+
+ lval(0, "XYZH", (($x,$y,$z,%h) = ()));
+ lval(1, "XYZH", (($x,$y,$z,%h) = (qw(assign1))));
+ lval(2, "XYZH", (($x,$y,$z,%h) = (qw(assign1 assign2))));
+
+ lval(0, "XYHZ", (($x,$y,%h,$z) = ()));
+ lval(1, "XYHZ", (($x,$y,%h,$z) = (qw(assign1))));
+ lval(2, "XYHZ", (($x,$y,%h,$z) = (qw(assign1 assign2))));
+
+ # odd number of hash elements
+
+ {
+ no warnings 'misc';
+ @a = ((%h) = qw(X));
+ is (join(":", map $_ // "u", @a), "X:u", "lval odd singleton");
+ @a = (($x, $y, %h) = qw(X Y K));
+ is (join(":", map $_ // "u", @a), "X:Y:K:u", "lval odd");
+ @a = (($x, $y, %h, $z) = qw(X Y K));
+ is (join(":", map $_ // "u", @a), "X:Y:K:u:u", "lval odd with z");
+ }
+
+ # undef on LHS uses RHS as lvalue instead
+ # Note this this just codifies existing behaviour - it may not be
+ # correct. See http://nntp.perl.org/group/perl.perl5.porters/240358.
+
+ {
+ ($x, $y, $z) = (0, 10, 20);
+ $_++ for ((undef, $x) = ($y, $z));
+ is "$x:$y:$z", "21:11:20", "undef as lvalue";
+ }
+
+}
+
+{
+ # [perl #129991] assert failure in S_aassign_copy_common
+ # the LHS of a list assign can be aliased to an immortal SV;
+ # we used to assert that this couldn't happen
+ eval { ($_,$0)=(1,0) for 0 gt 0 };
+ like($@, qr//, "RT #129991");
+}
+
+{
+ # [perl #130132]
+ # lexical refs on LHS, dereffed on the RHS
+
+ my $fill;
+
+ my $sref = do { my $tmp = 2; \$tmp };
+ ($sref, $fill) = (1, $$sref);
+ is ($sref, 1, "RT #130132 scalar 1");
+ is ($fill, 2, "RT #130132 scalar 2");
+
+ my $x = 1;
+ $sref = \$x;
+ ($sref, $$sref) = (2, 3);
+ is ($sref, 2, "RT #130132 scalar derefffed 1");
+ is ($x, 3, "RT #130132 scalar derefffed 2");
+
+ $x = 1;
+ $sref = \$x;
+ ($sref, $$sref) = (2);
+ is ($sref, 2, "RT #130132 scalar undef 1");
+ is ($x, undef, "RT #130132 scalar undef 2");
+
+ my @a;
+ $sref = do { my $tmp = 2; \$tmp };
+ @a = (($sref) = (1, $$sref));
+ is ($sref, 1, "RT #130132 scalar list cxt 1");
+ is ($a[0], 1, "RT #130132 scalar list cxt a[0]");
+
+ my $aref = [ 1, 2 ];
+ ($aref, $fill) = @$aref;
+ is ($aref, 1, "RT #130132 array 1");
+ is ($fill, 2, "RT #130132 array 2");
}
done_testing();