#!perl
BEGIN {
unshift @INC, 't';
require Config;
if (($Config::Config{'extensions'} !~ /\bB\b/) ){
print "1..0 # Skip -- Perl configured without B module\n";
exit 0;
}
if (!$Config::Config{useperlio}) {
print "1..0 # Skip -- need perlio to walk the optree\n";
exit 0;
}
}
use OptreeCheck; # ALSO DOES @ARGV HANDLING !!!!!!
use Config;
plan tests => 67;
#################################
use constant { # see also t/op/gv.t line 358
myaref => [ 1,2,3 ],
myfl => 1.414213,
myglob => \*STDIN,
myhref => { a => 1 },
myint => 42,
myrex => qr/foo/,
mystr => 'hithere',
mysub => \&ok,
myundef => undef,
myunsub => \&nosuch,
};
sub myyes() { 1==1 }
sub myno () { return 1!=1 }
sub pi () { 3.14159 };
my $RV_class = $] >= 5.011 ? 'IV' : 'RV';
my $want = { # expected types, how value renders in-line, todos (maybe)
mystr => [ 'PV', '"'.mystr.'"' ],
myhref => [ $RV_class, '\\\\HASH'],
pi => [ 'NV', pi ],
myglob => [ $RV_class, '\\\\' ],
mysub => [ $RV_class, '\\\\' ],
myunsub => [ $RV_class, '\\\\' ],
# these are not inlined, at least not per BC::Concise
#myyes => [ $RV_class, ],
#myno => [ $RV_class, ],
myaref => [ $RV_class, '\\\\' ],
myfl => [ 'NV', myfl ],
myint => [ 'IV', myint ],
$] >= 5.011 ? (
myrex => [ $RV_class, '\\\\"\\(?^:Foo\\)"' ],
) : (
myrex => [ $RV_class, '\\\\' ],
),
myundef => [ 'NULL', ],
};
use constant WEEKDAYS
=> qw ( Sunday Monday Tuesday Wednesday Thursday Friday Saturday );
$::{napier} = \2.71828; # counter-example (doesn't get optimized).
eval "sub napier ();";
# should be able to undefine constant::import here ???
INIT {
# eval 'sub constant::import () {}';
# undef *constant::import::{CODE};
};
#################################
pass("RENDER CONSTANT SUBS RETURNING SCALARS");
for $func (sort keys %$want) {
# no strict 'refs'; # why not needed ?
checkOptree ( name => "$func() as a coderef",
code => \&{$func},
noanchors => 1,
expect => <<EOT_EOT, expect_nt => <<EONT_EONT);
is a constant sub, optimized to a $want->{$func}[0]
EOT_EOT
is a constant sub, optimized to a $want->{$func}[0]
EONT_EONT
}
pass("RENDER CALLS TO THOSE CONSTANT SUBS");
for $func (sort keys %$want) {
# print "# doing $func\n";
checkOptree ( name => "call $func",
code => "$func",
($want->{$func}[2]) ? ( todo => $want->{$func}[2]) : (),
bc_opts => '-nobanner',
expect => <<EOT_EOT, expect_nt => <<EONT_EONT);
3 <1> leavesub[2 refs] K/REFC,1 ->(end)
- <\@> lineseq KP ->3
1 <;> dbstate(main 833 (eval 44):1) v ->2
2 <\$> const[$want->{$func}[0] $want->{$func}[1]] s* ->3 < 5.017002
2 <\$> const[$want->{$func}[0] $want->{$func}[1]] s*/FOLD ->3 >=5.017002
EOT_EOT
3 <1> leavesub[2 refs] K/REFC,1 ->(end)
- <\@> lineseq KP ->3
1 <;> dbstate(main 833 (eval 44):1) v ->2
2 <\$> const($want->{$func}[0] $want->{$func}[1]) s* ->3 < 5.017002
2 <\$> const($want->{$func}[0] $want->{$func}[1]) s*/FOLD ->3 >=5.017002
EONT_EONT
}
##############
pass("MORE TESTS");
checkOptree ( name => 'myyes() as coderef',
code => sub () { 1==1 },
noanchors => 1,
expect => <<'EOT_EOT', expect_nt => <<'EONT_EONT');
is a constant sub, optimized to a SPECIAL
EOT_EOT
is a constant sub, optimized to a SPECIAL
EONT_EONT
checkOptree ( name => 'myyes() as coderef',
prog => 'sub a() { 1==1 }; print a',
noanchors => 1,
strip_open_hints => 1,
expect => <<'EOT_EOT', expect_nt => <<'EONT_EONT');
# 6 <@> leave[1 ref] vKP/REFC ->(end)
# 1 <0> enter ->2
# 2 <;> nextstate(main 2 -e:1) v:>,<,%,{ ->3
# 5 <@> print vK ->6
# 3 <0> pushmark s ->4
# 4 <$> const[SPECIAL sv_yes] s* ->5 < 5.017002
# 4 <$> const[SPECIAL sv_yes] s*/FOLD ->5 >=5.017002
EOT_EOT
# 6 <@> leave[1 ref] vKP/REFC ->(end)
# 1 <0> enter ->2
# 2 <;> nextstate(main 2 -e:1) v:>,<,%,{ ->3
# 5 <@> print vK ->6
# 3 <0> pushmark s ->4
# 4 <$> const(SPECIAL sv_yes) s* ->5 < 5.017002
# 4 <$> const(SPECIAL sv_yes) s*/FOLD ->5 >=5.017002
EONT_EONT
# Need to do this as a prog, not code, as only the first constant to use
# PL_sv_no actually gets to use the real thing - every one following is
# copied.
checkOptree ( name => 'myno() as coderef',
prog => 'sub a() { 1!=1 }; print a',
noanchors => 1,
strip_open_hints => 1,
expect => <<'EOT_EOT', expect_nt => <<'EONT_EONT');
# 6 <@> leave[1 ref] vKP/REFC ->(end)
# 1 <0> enter ->2
# 2 <;> nextstate(main 2 -e:1) v:>,<,%,{ ->3
# 5 <@> print vK ->6
# 3 <0> pushmark s ->4
# 4 <$> const[SPECIAL sv_no] s* ->5 < 5.017002
# 4 <$> const[SPECIAL sv_no] s*/FOLD ->5 >=5.017002
EOT_EOT
# 6 <@> leave[1 ref] vKP/REFC ->(end)
# 1 <0> enter ->2
# 2 <;> nextstate(main 2 -e:1) v:>,<,%,{ ->3
# 5 <@> print vK ->6
# 3 <0> pushmark s ->4
# 4 <$> const(SPECIAL sv_no) s* ->5 < 5.017002
# 4 <$> const(SPECIAL sv_no) s*/FOLD ->5 >=5.017002
EONT_EONT
my ($expect, $expect_nt) =
$] >= 5.019003
? (" is a constant sub, optimized to a AV\n") x 2
: (<<'EOT_EOT', <<'EONT_EONT');
# 3 <1> leavesub[2 refs] K/REFC,1 ->(end)
# - <@> lineseq K ->3
# 1 <;> nextstate(constant 61 constant.pm:118) v:*,&,x*,x&,x$ ->2
# 2 <0> padav[@list:FAKE:m:96] ->3
EOT_EOT
# 3 <1> leavesub[2 refs] K/REFC,1 ->(end)
# - <@> lineseq K ->3
# 1 <;> nextstate(constant 61 constant.pm:118) v:*,&,x*,x&,x$ ->2
# 2 <0> padav[@list:FAKE:m:71] ->3
EONT_EONT
checkOptree ( name => 'constant sub returning list',
code => \&WEEKDAYS,
noanchors => 1,
expect => $expect, expect_nt => $expect_nt);
sub printem {
printf "myint %d mystr %s myfl %f pi %f\n"
, myint, mystr, myfl, pi;
}
my ($expect, $expect_nt) = (<<'EOT_EOT', <<'EONT_EONT');
# 9 <1> leavesub[1 ref] K/REFC,1 ->(end)
# - <@> lineseq KP ->9
# 1 <;> nextstate(main 635 optree_constants.t:163) v:>,<,% ->2
# 8 <@> prtf sK ->9
# 2 <0> pushmark sM ->3
# 3 <$> const[PV "myint %d mystr %s myfl %f pi %f\n"] sM/FOLD ->4
# 4 <$> const[IV 42] sM* ->5 < 5.017002
# 5 <$> const[PV "hithere"] sM* ->6 < 5.017002
# 6 <$> const[NV 1.414213] sM* ->7 < 5.017002
# 7 <$> const[NV 3.14159] sM* ->8 < 5.017002
# 4 <$> const[IV 42] sM*/FOLD ->5 >=5.017002
# 5 <$> const[PV "hithere"] sM*/FOLD ->6 >=5.017002
# 6 <$> const[NV 1.414213] sM*/FOLD ->7 >=5.017002
# 7 <$> const[NV 3.14159] sM*/FOLD ->8 >=5.017002
EOT_EOT
# 9 <1> leavesub[1 ref] K/REFC,1 ->(end)
# - <@> lineseq KP ->9
# 1 <;> nextstate(main 635 optree_constants.t:163) v:>,<,% ->2
# 8 <@> prtf sK ->9
# 2 <0> pushmark sM ->3
# 3 <$> const(PV "myint %d mystr %s myfl %f pi %f\n") sM/FOLD ->4
# 4 <$> const(IV 42) sM* ->5 < 5.017002
# 5 <$> const(PV "hithere") sM* ->6 < 5.017002
# 6 <$> const(NV 1.414213) sM* ->7 < 5.017002
# 7 <$> const(NV 3.14159) sM* ->8 < 5.017002
# 4 <$> const(IV 42) sM*/FOLD ->5 >=5.017002
# 5 <$> const(PV "hithere") sM*/FOLD ->6 >=5.017002
# 6 <$> const(NV 1.414213) sM*/FOLD ->7 >=5.017002
# 7 <$> const(NV 3.14159) sM*/FOLD ->8 >=5.017002
EONT_EONT
if($] < 5.015) {
s/M(?=\*? ->)//g for $expect, $expect_nt;
}
if($] < 5.017002 || $] >= 5.019004) {
s|\\n"[])] sM\K/FOLD|| for $expect, $expect_nt;
}
checkOptree ( name => 'call many in a print statement',
code => \&printem,
strip_open_hints => 1,
expect => $expect, expect_nt => $expect_nt);
# test constant expression folding
checkOptree ( name => 'arithmetic constant folding in print',
code => 'print 1+2+3',
strip_open_hints => 1,
expect => <<'EOT_EOT', expect_nt => <<'EONT_EONT');
# 5 <1> leavesub[1 ref] K/REFC,1 ->(end)
# - <@> lineseq KP ->5
# 1 <;> nextstate(main 937 (eval 53):1) v ->2
# 4 <@> print sK ->5
# 2 <0> pushmark s ->3
# 3 <$> const[IV 6] s ->4 < 5.017002
# 3 <$> const[IV 6] s/FOLD ->4 >=5.017002
EOT_EOT
# 5 <1> leavesub[1 ref] K/REFC,1 ->(end)
# - <@> lineseq KP ->5
# 1 <;> nextstate(main 937 (eval 53):1) v ->2
# 4 <@> print sK ->5
# 2 <0> pushmark s ->3
# 3 <$> const(IV 6) s ->4 < 5.017002
# 3 <$> const(IV 6) s/FOLD ->4 >=5.017002
EONT_EONT
checkOptree ( name => 'string constant folding in print',
code => 'print "foo"."bar"',
strip_open_hints => 1,
expect => <<'EOT_EOT', expect_nt => <<'EONT_EONT');
# 5 <1> leavesub[1 ref] K/REFC,1 ->(end)
# - <@> lineseq KP ->5
# 1 <;> nextstate(main 942 (eval 55):1) v ->2
# 4 <@> print sK ->5
# 2 <0> pushmark s ->3
# 3 <$> const[PV "foobar"] s ->4 < 5.017002
# 3 <$> const[PV "foobar"] s/FOLD ->4 >=5.017002
EOT_EOT
# 5 <1> leavesub[1 ref] K/REFC,1 ->(end)
# - <@> lineseq KP ->5
# 1 <;> nextstate(main 942 (eval 55):1) v ->2
# 4 <@> print sK ->5
# 2 <0> pushmark s ->3
# 3 <$> const(PV "foobar") s ->4 < 5.017002
# 3 <$> const(PV "foobar") s/FOLD ->4 >=5.017002
EONT_EONT
checkOptree ( name => 'boolean or folding',
code => 'print "foobar" if 1 or 0',
strip_open_hints => 1,
expect => <<'EOT_EOT', expect_nt => <<'EONT_EONT');
# 5 <1> leavesub[1 ref] K/REFC,1 ->(end)
# - <@> lineseq KP ->5
# 1 <;> nextstate(main 942 (eval 55):1) v ->2
# 4 <@> print sK ->5 < 5.019004
# 4 <@> print sK/FOLD ->5 >=5.019004
# 2 <0> pushmark s ->3
# 3 <$> const[PV "foobar"] s ->4
EOT_EOT
# 5 <1> leavesub[1 ref] K/REFC,1 ->(end)
# - <@> lineseq KP ->5
# 1 <;> nextstate(main 942 (eval 55):1) v ->2
# 4 <@> print sK ->5 < 5.019004
# 4 <@> print sK/FOLD ->5 >=5.019004
# 2 <0> pushmark s ->3
# 3 <$> const(PV "foobar") s ->4
EONT_EONT
checkOptree ( name => 'lc*,uc*,gt,lt,ge,le,cmp',
code => sub {
$s = uc('foo.').ucfirst('bar.').lc('LOW.').lcfirst('LOW');
print "a-lt-b" if "a" lt "b";
print "b-gt-a" if "b" gt "a";
print "a-le-b" if "a" le "b";
print "b-ge-a" if "b" ge "a";
print "b-cmp-a" if "b" cmp "a";
print "a-gt-b" if "a" gt "b"; # should be suppressed
},
strip_open_hints => 1,
expect => <<'EOT_EOT', expect_nt => <<'EONT_EONT');
# r <1> leavesub[1 ref] K/REFC,1 ->(end)
# - <@> lineseq KP ->r
# 1 <;> nextstate(main 916 optree_constants.t:307) v:>,<,%,{ ->2
# 4 <2> sassign vKS/2 ->5
# 2 <$> const[PV "FOO.Bar.low.lOW"] s ->3 < 5.017002
# 2 <$> const[PV "FOO.Bar.low.lOW"] s/FOLD ->3 >=5.017002
# - <1> ex-rv2sv sKRM*/1 ->4
# 3 <#> gvsv[*s] s ->4
# 5 <;> nextstate(main 916 optree_constants.t:308) v:>,<,%,{ ->6
# 8 <@> print vK ->9 < 5.019004
# 8 <@> print vK/FOLD ->9 >=5.019004
# 6 <0> pushmark s ->7
# 7 <$> const[PV "a-lt-b"] s ->8
# 9 <;> nextstate(main 916 optree_constants.t:309) v:>,<,%,{ ->a
# c <@> print vK ->d < 5.019004
# c <@> print vK/FOLD ->d >=5.019004
# a <0> pushmark s ->b
# b <$> const[PV "b-gt-a"] s ->c
# d <;> nextstate(main 916 optree_constants.t:310) v:>,<,%,{ ->e
# g <@> print vK ->h < 5.019004
# g <@> print vK/FOLD ->h >=5.019004
# e <0> pushmark s ->f
# f <$> const[PV "a-le-b"] s ->g
# h <;> nextstate(main 916 optree_constants.t:311) v:>,<,%,{ ->i
# k <@> print vK ->l < 5.019004
# k <@> print vK/FOLD ->l >=5.019004
# i <0> pushmark s ->j
# j <$> const[PV "b-ge-a"] s ->k
# l <;> nextstate(main 916 optree_constants.t:312) v:>,<,%,{ ->m
# o <@> print vK ->p < 5.019004
# o <@> print vK/FOLD ->p >=5.019004
# m <0> pushmark s ->n
# n <$> const[PV "b-cmp-a"] s ->o
# p <;> nextstate(main 916 optree_constants.t:313) v:>,<,%,{ ->q
# q <$> const[PVNV 0] s/SHORT ->r < 5.017002
# q <$> const[PVNV 0] s/FOLD,SHORT ->r >=5.017002 < 5.019003
# q <$> const[SPECIAL sv_no] s/SHORT,FOLD ->r >=5.019003
EOT_EOT
# r <1> leavesub[1 ref] K/REFC,1 ->(end)
# - <@> lineseq KP ->r
# 1 <;> nextstate(main 916 optree_constants.t:307) v:>,<,%,{ ->2
# 4 <2> sassign vKS/2 ->5
# 2 <$> const(PV "FOO.Bar.low.lOW") s ->3 < 5.017002
# 2 <$> const(PV "FOO.Bar.low.lOW") s/FOLD ->3 >=5.017002
# - <1> ex-rv2sv sKRM*/1 ->4
# 3 <$> gvsv(*s) s ->4
# 5 <;> nextstate(main 916 optree_constants.t:308) v:>,<,%,{ ->6
# 8 <@> print vK ->9 < 5.019004
# 8 <@> print vK/FOLD ->9 >=5.019004
# 6 <0> pushmark s ->7
# 7 <$> const(PV "a-lt-b") s ->8
# 9 <;> nextstate(main 916 optree_constants.t:309) v:>,<,%,{ ->a
# c <@> print vK ->d < 5.019004
# c <@> print vK/FOLD ->d >=5.019004
# a <0> pushmark s ->b
# b <$> const(PV "b-gt-a") s ->c
# d <;> nextstate(main 916 optree_constants.t:310) v:>,<,%,{ ->e
# g <@> print vK ->h < 5.019004
# g <@> print vK/FOLD ->h >=5.019004
# e <0> pushmark s ->f
# f <$> const(PV "a-le-b") s ->g
# h <;> nextstate(main 916 optree_constants.t:311) v:>,<,%,{ ->i
# k <@> print vK ->l < 5.019004
# k <@> print vK/FOLD ->l >=5.019004
# i <0> pushmark s ->j
# j <$> const(PV "b-ge-a") s ->k
# l <;> nextstate(main 916 optree_constants.t:312) v:>,<,%,{ ->m
# o <@> print vK ->p < 5.019004
# o <@> print vK/FOLD ->p >=5.019004
# m <0> pushmark s ->n
# n <$> const(PV "b-cmp-a") s ->o
# p <;> nextstate(main 916 optree_constants.t:313) v:>,<,%,{ ->q
# q <$> const(SPECIAL sv_no) s/SHORT ->r < 5.017002
# q <$> const(SPECIAL sv_no) s/SHORT,FOLD ->r >=5.017002
EONT_EONT
checkOptree ( name => 'mixed constant folding, with explicit braces',
code => 'print "foo"."bar".(2+3)',
strip_open_hints => 1,
expect => <<'EOT_EOT', expect_nt => <<'EONT_EONT');
# 5 <1> leavesub[1 ref] K/REFC,1 ->(end)
# - <@> lineseq KP ->5
# 1 <;> nextstate(main 977 (eval 28):1) v ->2
# 4 <@> print sK ->5
# 2 <0> pushmark s ->3
# 3 <$> const[PV "foobar5"] s ->4 < 5.017002
# 3 <$> const[PV "foobar5"] s/FOLD ->4 >=5.017002
EOT_EOT
# 5 <1> leavesub[1 ref] K/REFC,1 ->(end)
# - <@> lineseq KP ->5
# 1 <;> nextstate(main 977 (eval 28):1) v ->2
# 4 <@> print sK ->5
# 2 <0> pushmark s ->3
# 3 <$> const(PV "foobar5") s ->4 < 5.017002
# 3 <$> const(PV "foobar5") s/FOLD ->4 >=5.017002
EONT_EONT
__END__
=head NB
Optimized constant subs are stored as bare scalars in the stash
(package hash), which formerly held only GVs (typeglobs).
But you cant create them manually - you cant assign a scalar to a
stash element, and expect it to work like a constant-sub, even if you
provide a prototype.
This is a feature; alternative is too much action-at-a-distance. The
following test demonstrates - napier is not seen as a function at all,
much less an optimized one.
=cut
checkOptree ( name => 'not evertnapier',
code => \&napier,
noanchors => 1,
expect => <<'EOT_EOT', expect_nt => <<'EONT_EONT');
has no START
EOT_EOT
has no START
EONT_EONT