#!./perl # Tests counting number of FETCHes. # # See Bugs #76814 and #87708. BEGIN { chdir 't' if -d 't'; require './test.pl'; set_up_inc('../lib'); } plan (tests => 345); use strict; use warnings; my $count = 0; # Usage: # tie $var, "main", $val; # FETCH returns $val # tie $var, "main", $val1, $val2; # FETCH returns the values in order, # # one at a time, repeating the last # # when the list is exhausted. sub TIESCALAR {my $pack = shift; bless [@_], $pack;} sub FETCH {$count ++; @{$_ [0]} == 1 ? ${$_ [0]}[0] : shift @{$_ [0]}} sub STORE { unshift @{$_[0]}, $_[1] } sub check_count { my $op = shift; my $expected = shift() // 1; local $::Level = $::Level + 1; is $count, $expected, "FETCH called " . ( $expected == 1 ? "just once" : $expected == 2 ? "twice" : "$count times" ) . " using '$op'"; $count = 0; } my ($dummy, @dummy); tie my $var => 'main', 1; # Assignment. $dummy = $var ; check_count "="; *dummy = $var ; check_count '*glob = $tied'; # Unary +/- $dummy = +$var ; check_count "unary +"; $dummy = -$var ; check_count "unary -"; # Basic arithmetic and string operators. $dummy = $var + 1 ; check_count '+'; $dummy = $var - 1 ; check_count '-'; $dummy = $var / 1 ; check_count '/'; $dummy = $var * 1 ; check_count '*'; $dummy = $var % 1 ; check_count '%'; $dummy = $var ** 1 ; check_count '**'; $dummy = $var << 1 ; check_count '<<'; $dummy = $var >> 1 ; check_count '>>'; $dummy = $var x 1 ; check_count 'x'; @dummy = ($var) x 1 ; check_count 'x'; $dummy = $var . 1 ; check_count '.'; @dummy = $var .. 1 ; check_count '$tied..1'; @dummy = 1 .. $var; check_count '1..$tied'; tie my $v42 => 'main', "z"; @dummy = $v42 .. "a"; check_count '$tied.."a"'; @dummy = "a" .. $v42; check_count '"a"..$tied'; # Pre/post in/decrement $var ++ ; check_count 'post ++'; $var -- ; check_count 'post --'; ++ $var ; check_count 'pre ++'; -- $var ; check_count 'pre --'; # Numeric comparison $dummy = $var < 1 ; check_count '<'; $dummy = $var <= 1 ; check_count '<='; $dummy = $var == 1 ; check_count '=='; $dummy = $var >= 1 ; check_count '>='; $dummy = $var > 1 ; check_count '>'; $dummy = $var != 1 ; check_count '!='; $dummy = $var <=> 1 ; check_count '<=>'; # String comparison $dummy = $var lt 1 ; check_count 'lt'; $dummy = $var le 1 ; check_count 'le'; $dummy = $var eq 1 ; check_count 'eq'; $dummy = $var ge 1 ; check_count 'ge'; $dummy = $var gt 1 ; check_count 'gt'; $dummy = $var ne 1 ; check_count 'ne'; $dummy = $var cmp 1 ; check_count 'cmp'; # Bitwise operators $dummy = $var & 1 ; check_count '&'; $dummy = $var ^ 1 ; check_count '^'; $dummy = $var | 1 ; check_count '|'; $dummy = ~$var ; check_count '~'; # Logical operators $dummy = !$var ; check_count '!'; tie my $v_1, "main", 0; $dummy = $v_1 || 1 ; check_count '||'; $dummy = ($v_1 or 1); check_count 'or'; $dummy = $var && 1 ; check_count '&&'; $dummy = ($var and 1); check_count 'and'; $dummy = ($var xor 1); check_count 'xor'; $dummy = $var ? 1 : 1 ; check_count '?:'; # Overloadable functions $dummy = sin $var ; check_count 'sin'; $dummy = cos $var ; check_count 'cos'; $dummy = exp $var ; check_count 'exp'; $dummy = abs $var ; check_count 'abs'; $dummy = log $var ; check_count 'log'; $dummy = sqrt $var ; check_count 'sqrt'; $dummy = int $var ; check_count 'int'; $var = "inf" for 1..5; $dummy = int $var ; check_count 'int $tied_inf'; $dummy = atan2 $var, 1 ; check_count 'atan2'; # Readline/glob tie my $var0, "main", \*DATA; $dummy = <$var0> ; check_count ''; $var = \1; $var .= ; check_count '$tiedref .= '; $var = "tied"; $var .= ; check_count '$tiedstr .= '; $var = *foo; $var .= ; check_count '$tiedglob .= '; { no warnings "glob"; $dummy = <${var}> ; check_count ''; } # File operators for (split //, 'rwxoRWXOezsfdpSbctugkTBMAC') { no warnings 'unopened'; $dummy = eval "-$_ \$var"; check_count "-$_"; # Make $var hold a glob: $var = *dummy; $dummy = $var; $count = 0; $dummy = eval "-$_ \$var"; check_count "-$_ \$tied_glob"; next if /[guk]/; $var = *dummy; $dummy = $var; $count = 0; eval "\$dummy = -$_ \\\$var"; check_count "-$_ \\\$tied_glob"; } $dummy = -l $var ; check_count '-l'; $var = "test.pl"; $dummy = -e -e -e $var ; check_count '-e -e'; # Matching $_ = "foo"; $dummy = $var =~ m/ / ; check_count 'm//'; $dummy = $var =~ s/ //; check_count 's///'; { no warnings 'experimental::smartmatch'; $dummy = $var ~~ 1 ; check_count '~~'; } $dummy = $var =~ y/ //; check_count 'y///'; $var = \1; $dummy = $var =~y/ /-/; check_count '$ref =~ y///'; /$var/ ; check_count 'm/pattern/'; /$var foo/ ; check_count 'm/$tied foo/'; s/$var// ; check_count 's/pattern//'; s/$var foo// ; check_count 's/$tied foo//'; s/./$var/ ; check_count 's//replacement/'; # Dereferencing tie my $var1 => 'main', \1; $dummy = $$var1 ; check_count '${}'; tie my $var2 => 'main', []; $dummy = @$var2 ; check_count '@{}'; tie my $var3 => 'main', {}; $dummy = %$var3 ; check_count '%{}'; { no strict 'refs'; tie my $var4 => 'main', *]; $dummy = *$var4 ; check_count '*{}'; } tie my $var5 => 'main', sub {1}; $dummy = &$var5 ; check_count '&{}'; { no strict 'refs'; tie my $var1 => 'main', 1; $dummy = $$var1 ; check_count 'symbolic ${}'; $dummy = @$var1 ; check_count 'symbolic @{}'; $dummy = %$var1 ; check_count 'symbolic %{}'; $dummy = *$var1 ; check_count 'symbolic *{}'; local *1 = sub{}; $dummy = &$var1 ; check_count 'symbolic &{}'; # This test will not be a complete test if *988 has been created # already. If this dies, change it to use another built-in variable. # In 5.10-14, rv2gv calls get-magic more times for built-in vars, which # is why we need the test this way. if (exists $::{988}) { die "*988 already exists. Please adjust this test" } tie my $var6 => main => 988; no warnings; readdir $var6 ; check_count 'symbolic readdir'; if (exists $::{973}) { # Need a different variable here die "*973 already exists. Please adjust this test" } tie my $var7 => main => 973; defined $$var7 ; check_count 'symbolic defined ${}'; } # Constructors $dummy = {$var,$var} ; check_count '{}', 2; $dummy = [$var] ; check_count '[]'; tie my $var8 => 'main', 'main'; sub bolgy {} $var8->bolgy ; check_count '->method'; { no warnings 'once'; () = *swibble; # This must be the name of an existing glob to trigger the maximum # number of fetches in 5.14: tie my $var9 => 'main', 'swibble'; no strict 'refs'; use constant glumscrin => 'shreggleboughet'; *$var9 = \&{"glumscrin"}; check_count '*$tied = \&{"name of const"}'; } # Functions that operate on filenames or filehandles for ([chdir=>''],[chmod=>'0,'],[chown=>'0,0,'],[utime=>'0,0,'], [truncate=>'',',0'],[stat=>''],[lstat=>''],[open=>'my $fh,"<&",'], ['()=sort'=>'',' 1,2,3']) { my($op,$args,$postargs) = @$_; $postargs //= ''; # This line makes $var8 hold a glob: $var8 = *dummy; $dummy = $var8; $count = 0; eval "$op $args \$var8 $postargs"; check_count "$op $args\$tied_glob$postargs"; $var8 = *dummy; $dummy = $var8; $count = 0; my $ref = \$var8; eval "$op $args \$ref $postargs"; check_count "$op $args\\\$tied_glob$postargs"; } my $can_config = eval { require Config; 1 }; SKIP: { skip "No Config", 4 unless $can_config; skip "No crypt()", 4 unless $Config::Config{d_crypt}; $dummy = crypt $var,0; check_count 'crypt $tied, ...'; $dummy = crypt 0,$var; check_count 'crypt ..., $tied'; $var = substr(chr 256,0,0); $dummy = crypt $var,0; check_count 'crypt $tied_utf8, ...'; $var = substr(chr 256,0,0); $dummy = crypt 0,$var; check_count 'crypt ..., $tied_utf8'; } SKIP: { skip "select not implemented on Win32 miniperl", 3 if $^O eq "MSWin32" and is_miniperl; no warnings; $var = *foo; $dummy = select $var, undef, undef, 0 ; check_count 'select $tied_glob, ...'; $var = \1; $dummy = select $var, undef, undef, 0 ; check_count 'select $tied_ref, ...'; $var = undef; $dummy = select $var, undef, undef, 0 ; check_count 'select $tied_undef, ...'; } chop(my $u = "\xff\x{100}"); tie $var, "main", $u; $dummy = pack "u", $var; check_count 'pack "u", $utf8'; $var = 0; $dummy = pack "w", $var; check_count 'pack "w", $tied_int'; $var = "111111111111111111111111111111111111111111111111111111111111111"; $dummy = eval { pack "w", $var }; check_count 'pack "w", $tied_huge_int_as_str'; tie $var, "main", "\x{100}"; pos$var = 0 ; check_count 'lvalue pos $utf8'; $dummy=sprintf"%1s",$var; check_count 'sprintf "%1s", $utf8'; $dummy=sprintf"%.1s",$var; check_count 'sprintf "%.1s", $utf8'; tie $var, "main", 23; for (qw(B b c D d i O o p u U X x)) { $dummy=sprintf"%$_",$var; check_count "sprintf '%$_'" } tie $var, "main", "Inf"; for (qw(B b c D d i O o p u U X x)) { $dummy = eval { sprintf "%$_", $var }; check_count "sprintf '%$_', \$tied_inf" } tie $var, "main", "\x{100}"; $dummy = substr$var,0,1; check_count 'substr $utf8'; my $l =\substr$var,0,1; $dummy = $$l ; check_count 'reading lvalue substr($utf8)'; $$l = 0 ; check_count 'setting lvalue substr($utf8)'; tie $var, "main", "a"; $$l = "\x{100}" ; check_count 'assigning $utf8 to lvalue substr'; tie $var1, "main", "a"; substr$var1,0,0,"\x{100}"; check_count '4-arg substr with utf8 replacement'; { local $SIG{__WARN__} = sub {}; $dummy = warn $var ; check_count 'warn $tied'; tie $@, => 'main', 1; $dummy = warn ; check_count 'warn() with $@ tied (num)'; tie $@, => 'main', \1; $dummy = warn ; check_count 'warn() with $@ tied (ref)'; tie $@, => 'main', "foo\n"; $dummy = warn ; check_count 'warn() with $@ tied (str)'; untie $@; } ############################################### # Tests for $foo binop $foo # ############################################### # These test that binary ops call FETCH twice if the same scalar is used # for both operands. They also test that both return values from # FETCH are used. my %mutators = map { ($_ => 1) } qw(. + - * / % ** << >> & | ^); sub _bin_test { my $int = shift; my $op = shift; my $exp = pop; my @fetches = @_; $int = $int ? 'use integer; ' : ''; tie my $var, "main", @fetches; is(eval "$int\$var $op \$var", $exp, "retval of $int\$var $op \$var"); check_count "$int$op", 2; return unless $mutators{$op}; tie my $var2, "main", @fetches; is(eval "$int \$var2 $op= \$var2", $exp, "retval of $int \$var2 $op= \$var2"); check_count "$int$op=", 3; } sub bin_test { _bin_test(0, @_); } sub bin_int_test { _bin_test(1, @_); } bin_test '**', 2, 3, 8; bin_test '*' , 2, 3, 6; bin_test '/' , 10, 2, 5; bin_test '%' , 11, 2, 1; bin_test 'x' , 11, 2, 1111; bin_test '-' , 11, 2, 9; bin_test '<<', 11, 2, 44; bin_test '>>', 44, 2, 11; bin_test '<' , 1, 2, 1; bin_test '>' , 44, 2, 1; bin_test '<=', 44, 2, ""; bin_test '>=', 1, 2, ""; bin_test '!=', 1, 2, 1; bin_test '<=>', 1, 2, -1; bin_test 'le', 4, 2, ""; bin_test 'lt', 1, 2, 1; bin_test 'gt', 4, 2, 1; bin_test 'ge', 1, 2, ""; bin_test 'eq', 1, 2, ""; bin_test 'ne', 1, 2, 1; bin_test 'cmp', 1, 2, -1; bin_test '&' , 1, 2, 0; bin_test '|' , 1, 2, 3; bin_test '^' , 3, 5, 6; bin_test '.' , 1, 2, 12; bin_test '==', 1, 2, ""; bin_test '+' , 1, 2, 3; bin_int_test '*' , 2, 3, 6; bin_int_test '/' , 10, 2, 5; bin_int_test '%' , 11, 2, 1; bin_int_test '+' , 1, 2, 3; bin_int_test '-' , 11, 2, 9; bin_int_test '<' , 1, 2, 1; bin_int_test '>' , 44, 2, 1; bin_int_test '<=', 44, 2, ""; bin_int_test '>=', 1, 2, ""; bin_int_test '==', 1, 2, ""; bin_int_test '!=', 1, 2, 1; bin_int_test '<=>', 1, 2, -1; tie $var, "main", 1, 4; cmp_ok(atan2($var, $var), '<', .3, 'retval of atan2 $var, $var'); check_count 'atan2', 2; __DATA__