#!perl BEGIN { if ($ENV{PERL_CORE}){ chdir('t') if -d 't'; @INC = ('.', '../lib', '../ext/B/t'); } else { unshift @INC, 't'; push @INC, "../../t"; } require Config; if (($Config::Config{'extensions'} !~ /\bB\b/) ){ print "1..0 # Skip -- Perl configured without B module\n"; exit 0; } # require 'test.pl'; # now done by OptreeCheck } use OptreeCheck; =head1 OptreeCheck selftest harness This file is primarily to test services of OptreeCheck itself, ie checkOptree(). %gOpts provides test-state info, it is 'exported' into main:: doing use OptreeCheck runs import(), which processes @ARGV to process cmdline args in 'standard' way across all clients of OptreeCheck. =cut my $tests = 5 + 15 + 16 * $gOpts{selftest}; # pass()s + $#tests plan tests => $tests; SKIP: { skip "no perlio in this build", $tests unless $Config::Config{useperlio}; pass("REGEX TEST HARNESS SELFTEST"); checkOptree ( name => "bare minimum opcode search", bcopts => '-exec', code => sub {my $a}, noanchors => 1, # unanchored match expect => 'leavesub', expect_nt => 'leavesub'); checkOptree ( name => "found print opcode", bcopts => '-exec', code => sub {print 1}, noanchors => 1, # unanchored match expect => 'print', expect_nt => 'leavesub'); checkOptree ( name => 'test skip itself', skip => 'this is skip-reason', bcopts => '-exec', code => sub {print 1}, expect => 'dont-care, skipping', expect_nt => 'this insures failure'); # This test 'unexpectedly succeeds', but that is "expected". Theres # no good way to expect a successful todo, and inducing a failure # causes the harness to print verbose errors, which is NOT helpful. checkOptree ( name => 'test todo itself', todo => "your excuse here ;-)", bcopts => '-exec', code => sub {print 1}, noanchors => 1, # unanchored match expect => 'print', expect_nt => 'print') if 0; checkOptree ( name => 'impossible match, remove skip to see failure', todo => "see! it breaks!", skip => 'skip the failure', code => sub {print 1}, expect => 'look out ! Boy Wonder', expect_nt => 'holy near earth asteroid Batman !'); pass ("TEST FATAL ERRS"); if (1) { # test for fatal errors. Im unsettled on fail vs die. # calling fail isnt good enough by itself. $@=''; eval { checkOptree ( name => 'test against empty expectations', bcopts => '-exec', code => sub {print 1}, expect => '', expect_nt => ''); }; like($@, /no '\w+' golden-sample found/, "empty expectations prevented"); $@=''; eval { checkOptree ( name => 'prevent whitespace only expectations', bcopts => '-exec', code => sub {my $a}, #skip => 1, expect_nt => "\n", expect => "\n"); }; like($@, /no '\w+' golden-sample found/, "just whitespace expectations prevented"); } pass ("TEST -e \$srcCode"); checkOptree ( name => 'empty code or prog', skip => 'or fails', todo => "your excuse here ;-)", code => '', prog => '', ); checkOptree ( name => "self strict, catch err", prog => 'use strict; bogus', errs => 'Bareword "bogus" not allowed while "strict subs" in use at -e line 1.', expect => "nextstate", # simple expectations expect_nt => "nextstate", noanchors => 1, # allow them to work ); checkOptree ( name => "sort lK - flag specific search", prog => 'our (@a,@b); @b = sort @a', noanchors => 1, expect => '<@> sort lK ', expect_nt => '<@> sort lK '); checkOptree ( name => "sort vK - flag specific search", prog => 'sort our @a', errs => 'Useless use of sort in void context at -e line 1.', noanchors => 1, expect => '<@> sort vK', expect_nt => '<@> sort vK'); checkOptree ( name => "'code' => 'sort our \@a'", code => 'sort our @a', noanchors => 1, expect => '<@> sort K', expect_nt => '<@> sort K'); pass ("REFTEXT FIXUP TESTS"); checkOptree ( name => 'fixup nextstate (in reftext)', bcopts => '-exec', code => sub {my $a}, expect => <<'EOT_EOT', expect_nt => <<'EONT_EONT'); # 1 <;> nextstate( NOTE THAT THIS CAN BE ANYTHING ) v # 2 <0> padsv[$a:54,55] M/LVINTRO # 3 <1> leavesub[1 ref] K/REFC,1 EOT_EOT # 1 <;> nextstate(main 54 optree_concise.t:84) v # 2 <0> padsv[$a:54,55] M/LVINTRO # 3 <1> leavesub[1 ref] K/REFC,1 EONT_EONT checkOptree ( name => 'fixup opcode args', bcopts => '-exec', #fail => 1, # uncomment to see real padsv args: [$a:491,492] code => sub {my $a}, expect => <<'EOT_EOT', expect_nt => <<'EONT_EONT'); # 1 <;> nextstate(main 56 optree_concise.t:96) v # 2 <0> padsv[$a:56,57] M/LVINTRO # 3 <1> leavesub[1 ref] K/REFC,1 EOT_EOT # 1 <;> nextstate(main 56 optree_concise.t:96) v # 2 <0> padsv[$a:56,57] M/LVINTRO # 3 <1> leavesub[1 ref] K/REFC,1 EONT_EONT ################################# pass("CANONICAL B::Concise EXAMPLE"); checkOptree ( name => 'canonical example w -basic', bcopts => '-basic', code => sub{$a=$b+42}, crossfail => 1, debug => 1, expect => <<'EOT_EOT', expect_nt => <<'EONT_EONT'); # 7 <1> leavesub[1 ref] K/REFC,1 ->(end) # - <@> lineseq KP ->7 # 1 <;> nextstate(main 380 optree_selftest.t:139) v ->2 # 6 <2> sassign sKS/2 ->7 # 4 <2> add[t3] sK/2 ->5 # - <1> ex-rv2sv sK/1 ->3 # 2 <#> gvsv[*b] s ->3 # 3 <$> const[IV 42] s ->4 # - <1> ex-rv2sv sKRM*/1 ->6 # 5 <#> gvsv[*a] s ->6 EOT_EOT # 7 <1> leavesub[1 ref] K/REFC,1 ->(end) # - <@> lineseq KP ->7 # 1 <;> nextstate(main 60 optree_concise.t:122) v ->2 # 6 <2> sassign sKS/2 ->7 # 4 <2> add[t1] sK/2 ->5 # - <1> ex-rv2sv sK/1 ->3 # 2 <$> gvsv(*b) s ->3 # 3 <$> const(IV 42) s ->4 # - <1> ex-rv2sv sKRM*/1 ->6 # 5 <$> gvsv(*a) s ->6 EONT_EONT checkOptree ( code => '$a=$b+42', bcopts => '-exec', expect => <<'EOT_EOT', expect_nt => <<'EONT_EONT'); # 1 <;> nextstate(main 61 optree_concise.t:139) v # 2 <#> gvsv[*b] s # 3 <$> const[IV 42] s # 4 <2> add[t3] sK/2 # 5 <#> gvsv[*a] s # 6 <2> sassign sKS/2 # 7 <1> leavesub[1 ref] K/REFC,1 EOT_EOT # 1 <;> nextstate(main 61 optree_concise.t:139) v # 2 <$> gvsv(*b) s # 3 <$> const(IV 42) s # 4 <2> add[t1] sK/2 # 5 <$> gvsv(*a) s # 6 <2> sassign sKS/2 # 7 <1> leavesub[1 ref] K/REFC,1 EONT_EONT } # skip __END__