2 # Copyright (c) 1998, 1999, 2000 Stephen McCamant. All rights reserved.
3 # This module is free software; you can redistribute and/or modify
4 # it under the same terms as Perl itself.
6 # This is based on the module of the same name by Malcolm Beattie,
7 # but essentially none of his code remains.
11 use B qw(class main_root main_start main_cv svref_2object opnumber perlstring
12 OPf_WANT OPf_WANT_VOID OPf_WANT_SCALAR OPf_WANT_LIST
13 OPf_KIDS OPf_REF OPf_STACKED OPf_SPECIAL OPf_MOD
14 OPpLVAL_INTRO OPpOUR_INTRO OPpENTERSUB_AMPER OPpSLICE OPpCONST_BARE
15 OPpTRANS_SQUASH OPpTRANS_DELETE OPpTRANS_COMPLEMENT OPpTARGET_MY
16 OPpCONST_ARYBASE OPpEXISTS_SUB OPpSORT_NUMERIC OPpSORT_INTEGER
18 SVf_IOK SVf_NOK SVf_ROK SVf_POK SVpad_OUR
19 CVf_METHOD CVf_LOCKED CVf_LVALUE
20 PMf_KEEP PMf_GLOBAL PMf_CONTINUE PMf_EVAL PMf_ONCE PMf_SKIPWHITE
21 PMf_MULTILINE PMf_SINGLELINE PMf_FOLD PMf_EXTENDED);
24 use vars qw/$AUTOLOAD/;
27 # Changes between 0.50 and 0.51:
28 # - fixed nulled leave with live enter in sort { }
29 # - fixed reference constants (\"str")
30 # - handle empty programs gracefully
31 # - handle infinte loops (for (;;) {}, while (1) {})
32 # - differentiate between `for my $x ...' and `my $x; for $x ...'
33 # - various minor cleanups
34 # - moved globals into an object
35 # - added `-u', like B::C
36 # - package declarations using cop_stash
37 # - subs, formats and code sorted by cop_seq
38 # Changes between 0.51 and 0.52:
39 # - added pp_threadsv (special variables under USE_5005THREADS)
40 # - added documentation
41 # Changes between 0.52 and 0.53:
42 # - many changes adding precedence contexts and associativity
43 # - added `-p' and `-s' output style options
44 # - various other minor fixes
45 # Changes between 0.53 and 0.54:
46 # - added support for new `for (1..100)' optimization,
48 # Changes between 0.54 and 0.55:
49 # - added support for new qr// construct
50 # - added support for new pp_regcreset OP
51 # Changes between 0.55 and 0.56:
52 # - tested on base/*.t, cmd/*.t, comp/*.t, io/*.t
53 # - fixed $# on non-lexicals broken in last big rewrite
54 # - added temporary fix for change in opcode of OP_STRINGIFY
55 # - fixed problem in 0.54's for() patch in `for (@ary)'
56 # - fixed precedence in conditional of ?:
57 # - tweaked list paren elimination in `my($x) = @_'
58 # - made continue-block detection trickier wrt. null ops
59 # - fixed various prototype problems in pp_entersub
60 # - added support for sub prototypes that never get GVs
61 # - added unquoting for special filehandle first arg in truncate
62 # - print doubled rv2gv (a bug) as `*{*GV}' instead of illegal `**GV'
63 # - added semicolons at the ends of blocks
64 # - added -l `#line' declaration option -- fixes cmd/subval.t 27,28
65 # Changes between 0.56 and 0.561:
66 # - fixed multiply-declared my var in pp_truncate (thanks to Sarathy)
67 # - used new B.pm symbolic constants (done by Nick Ing-Simmons)
68 # Changes between 0.561 and 0.57:
69 # - stylistic changes to symbolic constant stuff
70 # - handled scope in s///e replacement code
71 # - added unquote option for expanding "" into concats, etc.
72 # - split method and proto parts of pp_entersub into separate functions
73 # - various minor cleanups
75 # - added parens in \&foo (patch by Albert Dvornik)
76 # Changes between 0.57 and 0.58:
77 # - fixed `0' statements that weren't being printed
78 # - added methods for use from other programs
79 # (based on patches from James Duncan and Hugo van der Sanden)
80 # - added -si and -sT to control indenting (also based on a patch from Hugo)
81 # - added -sv to print something else instead of '???'
82 # - preliminary version of utf8 tr/// handling
84 # - uses of $op->ppaddr changed to new $op->name (done by Sarathy)
85 # - added support for Hugo's new OP_SETSTATE (like nextstate)
86 # Changes between 0.58 and 0.59
87 # - added support for Chip's OP_METHOD_NAMED
88 # - added support for Ilya's OPpTARGET_MY optimization
89 # - elided arrows before `()' subscripts when possible
90 # Changes between 0.59 and 0.60
91 # - support for method attribues was added
92 # - some warnings fixed
93 # - separate recognition of constant subs
94 # - rewrote continue block handling, now recoginizing for loops
95 # - added more control of expanding control structures
96 # Changes between 0.60 and 0.61 (mostly by Robin Houston)
98 # - support for pragmas and 'use'
99 # - support for the little-used $[ variable
100 # - support for __DATA__ sections
102 # - BEGIN, CHECK, INIT and END blocks
103 # - scoping of subroutine declarations fixed
104 # - compile-time output from the input program can be suppressed, so that the
105 # output is just the deparsed code. (a change to O.pm in fact)
106 # - our() declarations
107 # - *all* the known bugs are now listed in the BUGS section
108 # - comprehensive test mechanism (TEST -deparse)
109 # Changes between 0.62 and 0.63 (mostly by Rafael Garcia-Suarez)
112 # - support for command-line switches (-l, -0, etc.)
115 # (See also BUGS section at the end of this file)
117 # - finish tr/// changes
118 # - add option for even more parens (generalize \&foo change)
119 # - left/right context
120 # - treat top-level block specially for incremental output
121 # - copy comments (look at real text with $^P?)
122 # - avoid semis in one-statement blocks
123 # - associativity of &&=, ||=, ?:
124 # - ',' => '=>' (auto-unquote?)
125 # - break long lines ("\r" as discretionary break?)
126 # - configurable syntax highlighting: ANSI color, HTML, TeX, etc.
127 # - more style options: brace style, hex vs. octal, quotes, ...
128 # - print big ints as hex/octal instead of decimal (heuristic?)
129 # - handle `my $x if 0'?
130 # - coordinate with Data::Dumper (both directions? see previous)
131 # - version using op_next instead of op_first/sibling?
132 # - avoid string copies (pass arrays, one big join?)
135 # Tests that will always fail:
136 # (see t/TEST for the short list)
138 # Object fields (were globals):
141 # (local($a), local($b)) and local($a, $b) have the same internal
142 # representation but the short form looks better. We notice we can
143 # use a large-scale local when checking the list, but need to prevent
144 # individual locals too. This hash holds the addresses of OPs that
145 # have already had their local-ness accounted for. The same thing
149 # CV for current sub (or main program) being deparsed
152 # Cached hash of lexical variables for curcv: keys are names,
153 # each value is an array of pairs, indicating the cop_seq of scopes
154 # in which a var of that name is valid.
157 # COP for statement being deparsed
160 # name of the current package for deparsed code
163 # array of [cop_seq, CV, is_format?] for subs and formats we still
167 # as above, but [name, prototype] for subs that never got a GV
169 # subs_done, forms_done:
170 # keys are addresses of GVs for subs and formats we've already
171 # deparsed (or at least put into subs_todo)
174 # keys are names of subs for which we've printed declarations.
175 # That means we can omit parentheses from the arguments.
178 # Keeps track of fully qualified names of all deparsed subs.
183 # cuddle: ` ' or `\n', depending on -sC
188 # A little explanation of how precedence contexts and associativity
191 # deparse() calls each per-op subroutine with an argument $cx (short
192 # for context, but not the same as the cx* in the perl core), which is
193 # a number describing the op's parents in terms of precedence, whether
194 # they're inside an expression or at statement level, etc. (see
195 # chart below). When ops with children call deparse on them, they pass
196 # along their precedence. Fractional values are used to implement
197 # associativity (`($x + $y) + $z' => `$x + $y + $y') and related
198 # parentheses hacks. The major disadvantage of this scheme is that
199 # it doesn't know about right sides and left sides, so say if you
200 # assign a listop to a variable, it can't tell it's allowed to leave
201 # the parens off the listop.
204 # 26 [TODO] inside interpolation context ("")
205 # 25 left terms and list operators (leftward)
209 # 21 right ! ~ \ and unary + and -
214 # 16 nonassoc named unary operators
215 # 15 nonassoc < > <= >= lt gt le ge
216 # 14 nonassoc == != <=> eq ne cmp
223 # 7 right = += -= *= etc.
225 # 5 nonassoc list operators (rightward)
229 # 1 statement modifiers
232 # Also, lineseq may pass a fourth parameter to the pp_ routines:
233 # if present, the fourth parameter is passed on by deparse.
235 # If present and true, it means that the op exists directly as
236 # part of a lineseq. Currently it's only used by scopeop to
237 # decide whether its results need to be enclosed in a do {} block.
239 # Nonprinting characters with special meaning:
240 # \cS - steal parens (see maybe_parens_unop)
241 # \n - newline and indent
242 # \t - increase indent
243 # \b - decrease indent (`outdent')
244 # \f - flush left (no indent)
245 # \cK - kill following semicolon, if any
249 return class($op) eq "NULL";
254 my($cv, $is_form) = @_;
255 return unless ($cv->FILE eq $0 || exists $self->{files}{$cv->FILE});
257 if (!null($cv->START) and is_state($cv->START)) {
258 $seq = $cv->START->cop_seq;
262 push @{$self->{'subs_todo'}}, [$seq, $cv, $is_form];
263 unless ($is_form || class($cv->STASH) eq 'SPECIAL') {
264 $self->{'subs_deparsed'}{$cv->STASH->NAME."::".$cv->GV->NAME} = 1;
270 my $ent = shift @{$self->{'subs_todo'}};
273 my $name = $self->gv_name($gv);
275 return "format $name =\n"
276 . $self->deparse_format($ent->[1]). "\n";
278 $self->{'subs_declared'}{$name} = 1;
279 if ($name eq "BEGIN") {
280 my $use_dec = $self->begin_is_use($cv);
281 if (defined ($use_dec)) {
282 return () if 0 == length($use_dec);
287 if ($self->{'linenums'}) {
288 my $line = $gv->LINE;
289 my $file = $gv->FILE;
290 $l = "\n\f#line $line \"$file\"\n";
292 return "${l}sub $name " . $self->deparse_sub($cv);
296 # Return a "use" declaration for this BEGIN block, if appropriate
298 my ($self, $cv) = @_;
299 my $root = $cv->ROOT;
300 local @$self{qw'curcv curcvlex'} = ($cv);
302 #B::walkoptree($cv->ROOT, "debug");
303 my $lineseq = $root->first;
304 return if $lineseq->name ne "lineseq";
306 my $req_op = $lineseq->first->sibling;
307 return if $req_op->name ne "require";
310 if ($req_op->first->private & OPpCONST_BARE) {
311 # Actually it should always be a bareword
312 $module = $self->const_sv($req_op->first)->PV;
313 $module =~ s[/][::]g;
317 $module = const($self->const_sv($req_op->first));
321 my $version_op = $req_op->sibling;
322 return if class($version_op) eq "NULL";
323 if ($version_op->name eq "lineseq") {
324 # We have a version parameter; skip nextstate & pushmark
325 my $constop = $version_op->first->next->next;
327 return unless $self->const_sv($constop)->PV eq $module;
328 $constop = $constop->sibling;
329 $version = $self->const_sv($constop)->int_value;
330 $constop = $constop->sibling;
331 return if $constop->name ne "method_named";
332 return if $self->const_sv($constop)->PV ne "VERSION";
335 $lineseq = $version_op->sibling;
336 return if $lineseq->name ne "lineseq";
337 my $entersub = $lineseq->first->sibling;
338 if ($entersub->name eq "stub") {
339 return "use $module $version ();\n" if defined $version;
340 return "use $module ();\n";
342 return if $entersub->name ne "entersub";
344 # See if there are import arguments
347 my $svop = $entersub->first->sibling; # Skip over pushmark
348 return unless $self->const_sv($svop)->PV eq $module;
350 # Pull out the arguments
351 for ($svop=$svop->sibling; $svop->name ne "method_named";
352 $svop = $svop->sibling) {
353 $args .= ", " if length($args);
354 $args .= $self->deparse($svop, 6);
358 my $method_named = $svop;
359 return if $method_named->name ne "method_named";
360 my $method_name = $self->const_sv($method_named)->PV;
362 if ($method_name eq "unimport") {
366 # Certain pragmas are dealt with using hint bits,
367 # so we ignore them here
368 if ($module eq 'strict' || $module eq 'integer'
369 || $module eq 'bytes' || $module eq 'warnings') {
373 if (defined $version && length $args) {
374 return "$use $module $version ($args);\n";
375 } elsif (defined $version) {
376 return "$use $module $version;\n";
377 } elsif (length $args) {
378 return "$use $module ($args);\n";
380 return "$use $module;\n";
385 my ($self, $pack) = @_;
387 if (!defined $pack) {
392 $pack =~ s/(::)?$/::/;
396 my %stash = svref_2object($stash)->ARRAY;
397 while (my ($key, $val) = each %stash) {
398 next if $key eq 'main::'; # avoid infinite recursion
399 my $class = class($val);
400 if ($class eq "PV") {
401 # Just a prototype. As an ugly but fairly effective way
402 # to find out if it belongs here is to see if the AUTOLOAD
403 # (if any) for the stash was defined in one of our files.
404 my $A = $stash{"AUTOLOAD"};
405 if (defined ($A) && class($A) eq "GV" && defined($A->CV)
406 && class($A->CV) eq "CV") {
408 next unless $AF eq $0 || exists $self->{'files'}{$AF};
410 push @{$self->{'protos_todo'}}, [$pack . $key, $val->PV];
411 } elsif ($class eq "IV") {
412 # Just a name. As above.
413 my $A = $stash{"AUTOLOAD"};
414 if (defined ($A) && class($A) eq "GV" && defined($A->CV)
415 && class($A->CV) eq "CV") {
417 next unless $AF eq $0 || exists $self->{'files'}{$AF};
419 push @{$self->{'protos_todo'}}, [$pack . $key, undef];
420 } elsif ($class eq "GV") {
421 if (class(my $cv = $val->CV) ne "SPECIAL") {
422 next if $self->{'subs_done'}{$$val}++;
423 next if $$val != ${$cv->GV}; # Ignore imposters
426 if (class(my $cv = $val->FORM) ne "SPECIAL") {
427 next if $self->{'forms_done'}{$$val}++;
428 next if $$val != ${$cv->GV}; # Ignore imposters
431 if (class($val->HV) ne "SPECIAL" && $key =~ /::$/) {
432 $self->stash_subs($pack . $key);
442 foreach $ar (@{$self->{'protos_todo'}}) {
443 my $proto = (defined $ar->[1] ? " (". $ar->[1] . ")" : "");
444 push @ret, "sub " . $ar->[0] . "$proto;\n";
446 delete $self->{'protos_todo'};
454 while (length($opt = substr($opts, 0, 1))) {
456 $self->{'cuddle'} = " ";
457 $opts = substr($opts, 1);
458 } elsif ($opt eq "i") {
459 $opts =~ s/^i(\d+)//;
460 $self->{'indent_size'} = $1;
461 } elsif ($opt eq "T") {
462 $self->{'use_tabs'} = 1;
463 $opts = substr($opts, 1);
464 } elsif ($opt eq "v") {
465 $opts =~ s/^v([^.]*)(.|$)//;
466 $self->{'ex_const'} = $1;
473 my $self = bless {}, $class;
474 $self->{'subs_todo'} = [];
475 $self->{'files'} = {};
476 $self->{'curstash'} = "main";
477 $self->{'curcop'} = undef;
478 $self->{'cuddle'} = "\n";
479 $self->{'indent_size'} = 4;
480 $self->{'use_tabs'} = 0;
481 $self->{'expand'} = 0;
482 $self->{'unquote'} = 0;
483 $self->{'linenums'} = 0;
484 $self->{'parens'} = 0;
485 $self->{'ex_const'} = "'???'";
487 $self->{'ambient_arybase'} = 0;
488 $self->{'ambient_warnings'} = undef; # Assume no lexical warnings
489 $self->{'ambient_hints'} = 0;
492 while (my $arg = shift @_) {
493 if ($arg =~ /^-f(.*)/) {
494 $self->{'files'}{$1} = 1;
495 } elsif ($arg eq "-p") {
496 $self->{'parens'} = 1;
497 } elsif ($arg eq "-P") {
498 $self->{'noproto'} = 1;
499 } elsif ($arg eq "-l") {
500 $self->{'linenums'} = 1;
501 } elsif ($arg eq "-q") {
502 $self->{'unquote'} = 1;
503 } elsif (substr($arg, 0, 2) eq "-s") {
504 $self->style_opts(substr $arg, 2);
505 } elsif ($arg =~ /^-x(\d)$/) {
506 $self->{'expand'} = $1;
513 # Mask out the bits that L<warnings::register> uses
516 $WARN_MASK = $warnings::Bits{all} | $warnings::DeadBits{all};
523 # Initialise the contextual information, either from
524 # defaults provided with the ambient_pragmas method,
525 # or from perl's own defaults otherwise.
529 $self->{'arybase'} = $self->{'ambient_arybase'};
530 $self->{'warnings'} = defined ($self->{'ambient_warnings'})
531 ? $self->{'ambient_warnings'} & WARN_MASK
533 $self->{'hints'} = $self->{'ambient_hints'} & 0xFF;
535 # also a convenient place to clear out subs_declared
536 delete $self->{'subs_declared'};
542 my $self = B::Deparse->new(@args);
543 # First deparse command-line args
544 if (defined $^I) { # deparse -i
545 print q(BEGIN { $^I = ).perlstring($^I).qq(; }\n);
547 if ($^W) { # deparse -w
548 print qq(BEGIN { \$^W = $^W; }\n);
550 if ($/ ne "\n" or defined $O::savebackslash) { # deparse -l and -0
551 my $fs = perlstring($/) || 'undef';
552 my $bs = perlstring($O::savebackslash) || 'undef';
553 print qq(BEGIN { \$/ = $fs; \$\\ = $bs; }\n);
555 my @BEGINs = B::begin_av->isa("B::AV") ? B::begin_av->ARRAY : ();
556 my @CHECKs = B::check_av->isa("B::AV") ? B::check_av->ARRAY : ();
557 my @INITs = B::init_av->isa("B::AV") ? B::init_av->ARRAY : ();
558 my @ENDs = B::end_av->isa("B::AV") ? B::end_av->ARRAY : ();
559 for my $block (@BEGINs, @CHECKs, @INITs, @ENDs) {
560 $self->todo($block, 0);
563 $self->{'curcv'} = main_cv;
564 $self->{'curcvlex'} = undef;
565 print $self->print_protos;
566 @{$self->{'subs_todo'}} =
567 sort {$a->[0] <=> $b->[0]} @{$self->{'subs_todo'}};
568 print $self->indent($self->deparse(main_root, 0)), "\n"
569 unless null main_root;
571 while (scalar(@{$self->{'subs_todo'}})) {
572 push @text, $self->next_todo;
574 print $self->indent(join("", @text)), "\n" if @text;
576 # Print __DATA__ section, if necessary
578 my $laststash = defined $self->{'curcop'}
579 ? $self->{'curcop'}->stash->NAME : $self->{'curstash'};
580 if (defined *{$laststash."::DATA"}{IO}) {
582 print readline(*{$laststash."::DATA"});
590 croak "Usage: ->coderef2text(CODEREF)" unless UNIVERSAL::isa($sub, "CODE");
593 return $self->indent($self->deparse_sub(svref_2object($sub)));
596 sub ambient_pragmas {
598 my ($arybase, $hint_bits, $warning_bits) = (0, 0);
604 if ($name eq 'strict') {
607 if ($val eq 'none') {
608 $hint_bits &= ~strict::bits(qw/refs subs vars/);
614 @names = qw/refs subs vars/;
620 @names = split' ', $val;
622 $hint_bits |= strict::bits(@names);
625 elsif ($name eq '$[') {
629 elsif ($name eq 'integer'
631 || $name eq 'utf8') {
634 $hint_bits |= ${$::{"${name}::"}{"hint_bits"}};
637 $hint_bits &= ~${$::{"${name}::"}{"hint_bits"}};
641 elsif ($name eq 're') {
643 if ($val eq 'none') {
644 $hint_bits &= ~re::bits(qw/taint eval/);
650 @names = qw/taint eval/;
656 @names = split' ',$val;
658 $hint_bits |= re::bits(@names);
661 elsif ($name eq 'warnings') {
662 if ($val eq 'none') {
663 $warning_bits = $warnings::NONE;
672 @names = split/\s+/, $val;
675 $warning_bits = $warnings::NONE if !defined ($warning_bits);
676 $warning_bits |= warnings::bits(@names);
679 elsif ($name eq 'warning_bits') {
680 $warning_bits = $val;
683 elsif ($name eq 'hint_bits') {
688 croak "Unknown pragma type: $name";
692 croak "The ambient_pragmas method expects an even number of args";
695 $self->{'ambient_arybase'} = $arybase;
696 $self->{'ambient_warnings'} = $warning_bits;
697 $self->{'ambient_hints'} = $hint_bits;
702 my($op, $cx, $flags) = @_;
704 Carp::confess("Null op in deparse") if !defined($op)
705 || class($op) eq "NULL";
706 my $meth = "pp_" . $op->name;
708 return $self->$meth($op, $cx, $flags);
710 return $self->$meth($op, $cx);
716 my @lines = split(/\n/, $txt);
721 my $cmd = substr($line, 0, 1);
722 if ($cmd eq "\t" or $cmd eq "\b") {
723 $level += ($cmd eq "\t" ? 1 : -1) * $self->{'indent_size'};
724 if ($self->{'use_tabs'}) {
725 $leader = "\t" x ($level / 8) . " " x ($level % 8);
727 $leader = " " x $level;
729 $line = substr($line, 1);
731 if (substr($line, 0, 1) eq "\f") {
732 $line = substr($line, 1); # no indent
734 $line = $leader . $line;
738 return join("\n", @lines);
745 Carp::confess("NULL in deparse_sub") if !defined($cv) || $cv->isa("B::NULL");
746 Carp::confess("SPECIAL in deparse_sub") if $cv->isa("B::SPECIAL");
747 local $self->{'curcop'} = $self->{'curcop'};
748 if ($cv->FLAGS & SVf_POK) {
749 $proto = "(". $cv->PV . ") ";
751 if ($cv->CvFLAGS & (CVf_METHOD|CVf_LOCKED|CVf_LVALUE)) {
753 $proto .= "lvalue " if $cv->CvFLAGS & CVf_LVALUE;
754 $proto .= "locked " if $cv->CvFLAGS & CVf_LOCKED;
755 $proto .= "method " if $cv->CvFLAGS & CVf_METHOD;
758 local($self->{'curcv'}) = $cv;
759 local($self->{'curcvlex'});
760 local(@$self{qw'curstash warnings hints'})
761 = @$self{qw'curstash warnings hints'};
763 if (not null $cv->ROOT) {
764 my $lineseq = $cv->ROOT->first;
765 if ($lineseq->name eq "lineseq") {
767 for(my$o=$lineseq->first; $$o; $o=$o->sibling) {
770 $body = $self->lineseq(undef, @ops).";";
771 my $scope_en = $self->find_scope_en($lineseq);
772 if (defined $scope_en) {
773 my $subs = join"", $self->seq_subs($scope_en);
774 $body .= ";\n$subs" if length($subs);
778 $body = $self->deparse($cv->ROOT->first, 0);
782 my $sv = $cv->const_sv;
784 # uh-oh. inlinable sub... format it differently
785 return $proto . "{ " . const($sv) . " }\n";
786 } else { # XSUB? (or just a declaration)
790 return $proto ."{\n\t$body\n\b}" ."\n";
797 local($self->{'curcv'}) = $form;
798 local($self->{'curcvlex'});
799 local($self->{'in_format'}) = 1;
800 local(@$self{qw'curstash warnings hints'})
801 = @$self{qw'curstash warnings hints'};
802 my $op = $form->ROOT;
804 return "\f." if $op->first->name eq 'stub'
805 || $op->first->name eq 'nextstate';
806 $op = $op->first->first; # skip leavewrite, lineseq
807 while (not null $op) {
808 $op = $op->sibling; # skip nextstate
810 $kid = $op->first->sibling; # skip pushmark
811 push @text, "\f".$self->const_sv($kid)->PV;
812 $kid = $kid->sibling;
813 for (; not null $kid; $kid = $kid->sibling) {
814 push @exprs, $self->deparse($kid, 0);
816 push @text, "\f".join(", ", @exprs)."\n" if @exprs;
819 return join("", @text) . "\f.";
824 return $op->name eq "leave" || $op->name eq "scope"
825 || $op->name eq "lineseq"
826 || ($op->name eq "null" && class($op) eq "UNOP"
827 && (is_scope($op->first) || $op->first->name eq "enter"));
831 my $name = $_[0]->name;
832 return $name eq "nextstate" || $name eq "dbstate" || $name eq "setstate";
835 sub is_miniwhile { # check for one-line loop (`foo() while $y--')
837 return (!null($op) and null($op->sibling)
838 and $op->name eq "null" and class($op) eq "UNOP"
839 and (($op->first->name =~ /^(and|or)$/
840 and $op->first->first->sibling->name eq "lineseq")
841 or ($op->first->name eq "lineseq"
842 and not null $op->first->first->sibling
843 and $op->first->first->sibling->name eq "unstack")
849 return ($op->name eq "rv2sv" or
850 $op->name eq "padsv" or
851 $op->name eq "gv" or # only in array/hash constructs
852 $op->flags & OPf_KIDS && !null($op->first)
853 && $op->first->name eq "gvsv");
858 my($text, $cx, $prec) = @_;
859 if ($prec < $cx # unary ops nest just fine
860 or $prec == $cx and $cx != 4 and $cx != 16 and $cx != 21
861 or $self->{'parens'})
864 # In a unop, let parent reuse our parens; see maybe_parens_unop
865 $text = "\cS" . $text if $cx == 16;
872 # same as above, but get around the `if it looks like a function' rule
873 sub maybe_parens_unop {
875 my($name, $kid, $cx) = @_;
876 if ($cx > 16 or $self->{'parens'}) {
877 $kid = $self->deparse($kid, 1);
878 if ($name eq "umask" && $kid =~ /^\d+$/) {
879 $kid = sprintf("%#o", $kid);
881 return "$name($kid)";
883 $kid = $self->deparse($kid, 16);
884 if ($name eq "umask" && $kid =~ /^\d+$/) {
885 $kid = sprintf("%#o", $kid);
887 if (substr($kid, 0, 1) eq "\cS") {
889 return $name . substr($kid, 1);
890 } elsif (substr($kid, 0, 1) eq "(") {
891 # avoid looks-like-a-function trap with extra parens
892 # (`+' can lead to ambiguities)
893 return "$name(" . $kid . ")";
900 sub maybe_parens_func {
902 my($func, $text, $cx, $prec) = @_;
903 if ($prec <= $cx or substr($text, 0, 1) eq "(" or $self->{'parens'}) {
904 return "$func($text)";
906 return "$func $text";
912 my($op, $cx, $text) = @_;
913 my $our_intro = ($op->name =~ /^(gv|rv2)[ash]v$/) ? OPpOUR_INTRO : 0;
914 if ($op->private & (OPpLVAL_INTRO|$our_intro)
915 and not $self->{'avoid_local'}{$$op}) {
916 my $our_local = ($op->private & OPpLVAL_INTRO) ? "local" : "our";
917 if (want_scalar($op)) {
918 return "$our_local $text";
920 return $self->maybe_parens_func("$our_local", $text, $cx, 16);
929 my($op, $cx, $func, @args) = @_;
930 if ($op->private & OPpTARGET_MY) {
931 my $var = $self->padname($op->targ);
932 my $val = $func->($self, $op, 7, @args);
933 return $self->maybe_parens("$var = $val", $cx, 7);
935 return $func->($self, $op, $cx, @args);
942 return (($self->{'curcv'}->PADLIST->ARRAY)[0]->ARRAY)[$targ];
947 my($op, $cx, $text) = @_;
948 if ($op->private & OPpLVAL_INTRO and not $self->{'avoid_local'}{$$op}) {
949 if (want_scalar($op)) {
952 return $self->maybe_parens_func("my", $text, $cx, 16);
959 # The following OPs don't have functions:
961 # pp_padany -- does not exist after parsing
964 if ($AUTOLOAD =~ s/^.*::pp_//) {
965 warn "unexpected OP_".uc $AUTOLOAD;
968 die "Undefined subroutine $AUTOLOAD called";
972 sub DESTROY {} # Do not AUTOLOAD
974 # $root should be the op which represents the root of whatever
975 # we're sequencing here. If it's undefined, then we don't append
976 # any subroutine declarations to the deparsed ops, otherwise we
977 # append appropriate declarations.
979 my($self, $root, @ops) = @_;
982 my $out_cop = $self->{'curcop'};
983 my $out_seq = defined($out_cop) ? $out_cop->cop_seq : undef;
986 $limit_seq = $out_seq;
987 my $nseq = $self->find_scope_st($root->sibling) if ${$root->sibling};
988 $limit_seq = $nseq if !defined($limit_seq)
989 or defined($nseq) && $nseq < $limit_seq;
991 $limit_seq = $self->{'limit_seq'}
992 if defined($self->{'limit_seq'})
993 && (!defined($limit_seq) || $self->{'limit_seq'} < $limit_seq);
994 local $self->{'limit_seq'} = $limit_seq;
995 for (my $i = 0; $i < @ops; $i++) {
997 if (is_state $ops[$i]) {
998 $expr = $self->deparse($ops[$i], 0);
1005 if (!is_state $ops[$i] and (my $ls = $ops[$i+1]) and
1006 !null($ops[$i+1]) and $ops[$i+1]->name eq "lineseq")
1008 if ($ls->first && !null($ls->first) && is_state($ls->first)
1009 && (my $sib = $ls->first->sibling)) {
1010 if (!null($sib) && $sib->name eq "leaveloop") {
1011 push @exprs, $expr . $self->for_loop($ops[$i], 0);
1017 $expr .= $self->deparse($ops[$i], 0, (@ops != 1));
1018 $expr =~ s/;\n?\z//;
1021 my $body = join(";\n", grep {length} @exprs);
1023 if (defined $root && defined $limit_seq && !$self->{'in_format'}) {
1024 $subs = join "\n", $self->seq_subs($limit_seq);
1026 return join(";\n", grep {length} $body, $subs);
1030 my($real_block, $self, $op, $cx, $flags) = @_;
1034 local(@$self{qw'curstash warnings hints'})
1035 = @$self{qw'curstash warnings hints'} if $real_block;
1037 $kid = $op->first->sibling; # skip enter
1038 if (is_miniwhile($kid)) {
1039 my $top = $kid->first;
1040 my $name = $top->name;
1041 if ($name eq "and") {
1043 } elsif ($name eq "or") {
1045 } else { # no conditional -> while 1 or until 0
1046 return $self->deparse($top->first, 1) . " while 1";
1048 my $cond = $top->first;
1049 my $body = $cond->sibling->first; # skip lineseq
1050 $cond = $self->deparse($cond, 1);
1051 $body = $self->deparse($body, 1);
1052 return "$body $name $cond";
1057 for (; !null($kid); $kid = $kid->sibling) {
1060 if ($flags || $cx > 0) { # inside an expression, (a do {} while for lineseq)
1061 return "do {\n\t" . $self->lineseq($op, @kids) . "\n\b}";
1063 my $lineseq = $self->lineseq($op, @kids);
1064 return (length ($lineseq) ? "$lineseq;" : "");
1068 sub pp_scope { scopeop(0, @_); }
1069 sub pp_lineseq { scopeop(0, @_); }
1070 sub pp_leave { scopeop(1, @_); }
1072 # The BEGIN {} is used here because otherwise this code isn't executed
1073 # when you run B::Deparse on itself.
1075 BEGIN { map($globalnames{$_}++, "SIG", "STDIN", "STDOUT", "STDERR", "INC",
1076 "ENV", "ARGV", "ARGVOUT", "_"); }
1081 Carp::confess() if $gv->isa("B::CV");
1082 my $stash = $gv->STASH->NAME;
1083 my $name = $gv->SAFENAME;
1084 if (($stash eq 'main' && $globalnames{$name})
1085 or ($stash eq $self->{'curstash'} && !$globalnames{$name})
1086 or $name =~ /^[^A-Za-z_]/)
1090 $stash = $stash . "::";
1092 if ($name =~ /^(\^..|{)/) {
1093 $name = "{$name}"; # ${^WARNING_BITS}, etc and ${
1095 return $stash . $name;
1098 # Return the name to use for a stash variable.
1099 # If a lexical with the same name is in scope, it may need to be
1101 sub stash_variable {
1102 my ($self, $prefix, $name) = @_;
1104 return "$prefix$name" if $name =~ /::/;
1106 unless ($prefix eq '$' || $prefix eq '@' ||
1107 $prefix eq '%' || $prefix eq '$#') {
1108 return "$prefix$name";
1111 my $v = ($prefix eq '$#' ? '@' : $prefix) . $name;
1112 return $prefix .$self->{'curstash'}.'::'. $name if $self->lex_in_scope($v);
1113 return "$prefix$name";
1117 my ($self, $name) = @_;
1118 $self->populate_curcvlex() if !defined $self->{'curcvlex'};
1120 return 0 if !defined($self->{'curcop'});
1121 my $seq = $self->{'curcop'}->cop_seq;
1122 return 0 if !exists $self->{'curcvlex'}{$name};
1123 for my $a (@{$self->{'curcvlex'}{$name}}) {
1124 my ($st, $en) = @$a;
1125 return 1 if $seq > $st && $seq <= $en;
1130 sub populate_curcvlex {
1132 for (my $cv = $self->{'curcv'}; class($cv) eq "CV"; $cv = $cv->OUTSIDE) {
1133 my @padlist = $cv->PADLIST->ARRAY;
1134 my @ns = $padlist[0]->ARRAY;
1136 for (my $i=0; $i<@ns; ++$i) {
1137 next if class($ns[$i]) eq "SPECIAL";
1138 next if $ns[$i]->FLAGS & SVpad_OUR; # Skip "our" vars
1139 if (class($ns[$i]) eq "PV") {
1140 # Probably that pesky lexical @_
1143 my $name = $ns[$i]->PVX;
1144 my $seq_st = $ns[$i]->NVX;
1145 my $seq_en = int($ns[$i]->IVX);
1147 push @{$self->{'curcvlex'}{$name}}, [$seq_st, $seq_en];
1152 sub find_scope_st { ((find_scope(@_))[0]); }
1153 sub find_scope_en { ((find_scope(@_))[1]); }
1155 # Recurses down the tree, looking for pad variable introductions and COPs
1157 my ($self, $op, $scope_st, $scope_en) = @_;
1158 carp("Undefined op in find_scope") if !defined $op;
1159 return ($scope_st, $scope_en) unless $op->flags & OPf_KIDS;
1161 for (my $o=$op->first; $$o; $o=$o->sibling) {
1162 if ($o->name =~ /^pad.v$/ && $o->private & OPpLVAL_INTRO) {
1163 my $s = int($self->padname_sv($o->targ)->NVX);
1164 my $e = $self->padname_sv($o->targ)->IVX;
1165 $scope_st = $s if !defined($scope_st) || $s < $scope_st;
1166 $scope_en = $e if !defined($scope_en) || $e > $scope_en;
1168 elsif (is_state($o)) {
1169 my $c = $o->cop_seq;
1170 $scope_st = $c if !defined($scope_st) || $c < $scope_st;
1171 $scope_en = $c if !defined($scope_en) || $c > $scope_en;
1173 elsif ($o->flags & OPf_KIDS) {
1174 ($scope_st, $scope_en) =
1175 $self->find_scope($o, $scope_st, $scope_en)
1179 return ($scope_st, $scope_en);
1182 # Returns a list of subs which should be inserted before the COP
1184 my ($self, $op, $out_seq) = @_;
1185 my $seq = $op->cop_seq;
1186 # If we have nephews, then our sequence number indicates
1187 # the cop_seq of the end of some sort of scope.
1188 if (class($op->sibling) ne "NULL" && $op->sibling->flags & OPf_KIDS
1189 and my $nseq = $self->find_scope_st($op->sibling) ) {
1192 $seq = $out_seq if defined($out_seq) && $out_seq < $seq;
1193 return $self->seq_subs($seq);
1197 my ($self, $seq) = @_;
1199 #push @text, "# ($seq)\n";
1201 return "" if !defined $seq;
1202 while (scalar(@{$self->{'subs_todo'}})
1203 and $seq > $self->{'subs_todo'}[0][0]) {
1204 push @text, $self->next_todo;
1209 # Notice how subs and formats are inserted between statements here;
1210 # also $[ assignments and pragmas.
1214 $self->{'curcop'} = $op;
1216 push @text, $self->cop_subs($op);
1217 push @text, $op->label . ": " if $op->label;
1218 my $stash = $op->stashpv;
1219 if ($stash ne $self->{'curstash'}) {
1220 push @text, "package $stash;\n";
1221 $self->{'curstash'} = $stash;
1223 if ($self->{'linenums'}) {
1224 push @text, "\f#line " . $op->line .
1225 ' "' . $op->file, qq'"\n';
1228 if ($self->{'arybase'} != $op->arybase) {
1229 push @text, '$[ = '. $op->arybase .";\n";
1230 $self->{'arybase'} = $op->arybase;
1233 my $warnings = $op->warnings;
1235 if ($warnings->isa("B::SPECIAL") && $$warnings == 4) {
1236 $warning_bits = $warnings::Bits{"all"} & WARN_MASK;
1238 elsif ($warnings->isa("B::SPECIAL") && $$warnings == 5) {
1239 $warning_bits = $warnings::NONE;
1241 elsif ($warnings->isa("B::SPECIAL")) {
1242 $warning_bits = undef;
1245 $warning_bits = $warnings->PV & WARN_MASK;
1248 if (defined ($warning_bits) and
1249 !defined($self->{warnings}) || $self->{'warnings'} ne $warning_bits) {
1250 push @text, declare_warnings($self->{'warnings'}, $warning_bits);
1251 $self->{'warnings'} = $warning_bits;
1254 if ($self->{'hints'} != $op->private) {
1255 push @text, declare_hints($self->{'hints'}, $op->private);
1256 $self->{'hints'} = $op->private;
1259 return join("", @text);
1262 sub declare_warnings {
1263 my ($from, $to) = @_;
1264 if (($to & WARN_MASK) eq warnings::bits("all")) {
1265 return "use warnings;\n";
1267 elsif (($to & WARN_MASK) eq "\0"x length($to)) {
1268 return "no warnings;\n";
1270 return "BEGIN {\${^WARNING_BITS} = ".perlstring($to)."}\n";
1274 my ($from, $to) = @_;
1275 my $use = $to & ~$from;
1276 my $no = $from & ~$to;
1278 for my $pragma (hint_pragmas($use)) {
1279 $decls .= "use $pragma;\n";
1281 for my $pragma (hint_pragmas($no)) {
1282 $decls .= "no $pragma;\n";
1290 push @pragmas, "integer" if $bits & 0x1;
1291 push @pragmas, "strict 'refs'" if $bits & 0x2;
1292 push @pragmas, "bytes" if $bits & 0x8;
1296 sub pp_dbstate { pp_nextstate(@_) }
1297 sub pp_setstate { pp_nextstate(@_) }
1299 sub pp_unstack { return "" } # see also leaveloop
1303 my($op, $cx, $name) = @_;
1309 my($op, $cx, $name) = @_;
1317 sub pp_wantarray { baseop(@_, "wantarray") }
1318 sub pp_fork { baseop(@_, "fork") }
1319 sub pp_wait { maybe_targmy(@_, \&baseop, "wait") }
1320 sub pp_getppid { maybe_targmy(@_, \&baseop, "getppid") }
1321 sub pp_time { maybe_targmy(@_, \&baseop, "time") }
1322 sub pp_tms { baseop(@_, "times") }
1323 sub pp_ghostent { baseop(@_, "gethostent") }
1324 sub pp_gnetent { baseop(@_, "getnetent") }
1325 sub pp_gprotoent { baseop(@_, "getprotoent") }
1326 sub pp_gservent { baseop(@_, "getservent") }
1327 sub pp_ehostent { baseop(@_, "endhostent") }
1328 sub pp_enetent { baseop(@_, "endnetent") }
1329 sub pp_eprotoent { baseop(@_, "endprotoent") }
1330 sub pp_eservent { baseop(@_, "endservent") }
1331 sub pp_gpwent { baseop(@_, "getpwent") }
1332 sub pp_spwent { baseop(@_, "setpwent") }
1333 sub pp_epwent { baseop(@_, "endpwent") }
1334 sub pp_ggrent { baseop(@_, "getgrent") }
1335 sub pp_sgrent { baseop(@_, "setgrent") }
1336 sub pp_egrent { baseop(@_, "endgrent") }
1337 sub pp_getlogin { baseop(@_, "getlogin") }
1339 sub POSTFIX () { 1 }
1341 # I couldn't think of a good short name, but this is the category of
1342 # symbolic unary operators with interesting precedence
1346 my($op, $cx, $name, $prec, $flags) = (@_, 0);
1347 my $kid = $op->first;
1348 $kid = $self->deparse($kid, $prec);
1349 return $self->maybe_parens(($flags & POSTFIX) ? "$kid$name" : "$name$kid",
1353 sub pp_preinc { pfixop(@_, "++", 23) }
1354 sub pp_predec { pfixop(@_, "--", 23) }
1355 sub pp_postinc { maybe_targmy(@_, \&pfixop, "++", 23, POSTFIX) }
1356 sub pp_postdec { maybe_targmy(@_, \&pfixop, "--", 23, POSTFIX) }
1357 sub pp_i_preinc { pfixop(@_, "++", 23) }
1358 sub pp_i_predec { pfixop(@_, "--", 23) }
1359 sub pp_i_postinc { maybe_targmy(@_, \&pfixop, "++", 23, POSTFIX) }
1360 sub pp_i_postdec { maybe_targmy(@_, \&pfixop, "--", 23, POSTFIX) }
1361 sub pp_complement { maybe_targmy(@_, \&pfixop, "~", 21) }
1363 sub pp_negate { maybe_targmy(@_, \&real_negate) }
1367 if ($op->first->name =~ /^(i_)?negate$/) {
1369 $self->pfixop($op, $cx, "-", 21.5);
1371 $self->pfixop($op, $cx, "-", 21);
1374 sub pp_i_negate { pp_negate(@_) }
1380 $self->pfixop($op, $cx, "not ", 4);
1382 $self->pfixop($op, $cx, "!", 21);
1388 my($op, $cx, $name) = @_;
1390 if ($op->flags & OPf_KIDS) {
1392 if (defined prototype("CORE::$name")
1393 && prototype("CORE::$name") =~ /^;?\*/
1394 && $kid->name eq "rv2gv") {
1398 return $self->maybe_parens_unop($name, $kid, $cx);
1400 return $name . ($op->flags & OPf_SPECIAL ? "()" : "");
1404 sub pp_chop { maybe_targmy(@_, \&unop, "chop") }
1405 sub pp_chomp { maybe_targmy(@_, \&unop, "chomp") }
1406 sub pp_schop { maybe_targmy(@_, \&unop, "chop") }
1407 sub pp_schomp { maybe_targmy(@_, \&unop, "chomp") }
1408 sub pp_defined { unop(@_, "defined") }
1409 sub pp_undef { unop(@_, "undef") }
1410 sub pp_study { unop(@_, "study") }
1411 sub pp_ref { unop(@_, "ref") }
1412 sub pp_pos { maybe_local(@_, unop(@_, "pos")) }
1414 sub pp_sin { maybe_targmy(@_, \&unop, "sin") }
1415 sub pp_cos { maybe_targmy(@_, \&unop, "cos") }
1416 sub pp_rand { maybe_targmy(@_, \&unop, "rand") }
1417 sub pp_srand { unop(@_, "srand") }
1418 sub pp_exp { maybe_targmy(@_, \&unop, "exp") }
1419 sub pp_log { maybe_targmy(@_, \&unop, "log") }
1420 sub pp_sqrt { maybe_targmy(@_, \&unop, "sqrt") }
1421 sub pp_int { maybe_targmy(@_, \&unop, "int") }
1422 sub pp_hex { maybe_targmy(@_, \&unop, "hex") }
1423 sub pp_oct { maybe_targmy(@_, \&unop, "oct") }
1424 sub pp_abs { maybe_targmy(@_, \&unop, "abs") }
1426 sub pp_length { maybe_targmy(@_, \&unop, "length") }
1427 sub pp_ord { maybe_targmy(@_, \&unop, "ord") }
1428 sub pp_chr { maybe_targmy(@_, \&unop, "chr") }
1430 sub pp_each { unop(@_, "each") }
1431 sub pp_values { unop(@_, "values") }
1432 sub pp_keys { unop(@_, "keys") }
1433 sub pp_pop { unop(@_, "pop") }
1434 sub pp_shift { unop(@_, "shift") }
1436 sub pp_caller { unop(@_, "caller") }
1437 sub pp_reset { unop(@_, "reset") }
1438 sub pp_exit { unop(@_, "exit") }
1439 sub pp_prototype { unop(@_, "prototype") }
1441 sub pp_close { unop(@_, "close") }
1442 sub pp_fileno { unop(@_, "fileno") }
1443 sub pp_umask { unop(@_, "umask") }
1444 sub pp_untie { unop(@_, "untie") }
1445 sub pp_tied { unop(@_, "tied") }
1446 sub pp_dbmclose { unop(@_, "dbmclose") }
1447 sub pp_getc { unop(@_, "getc") }
1448 sub pp_eof { unop(@_, "eof") }
1449 sub pp_tell { unop(@_, "tell") }
1450 sub pp_getsockname { unop(@_, "getsockname") }
1451 sub pp_getpeername { unop(@_, "getpeername") }
1453 sub pp_chdir { maybe_targmy(@_, \&unop, "chdir") }
1454 sub pp_chroot { maybe_targmy(@_, \&unop, "chroot") }
1455 sub pp_readlink { unop(@_, "readlink") }
1456 sub pp_rmdir { maybe_targmy(@_, \&unop, "rmdir") }
1457 sub pp_readdir { unop(@_, "readdir") }
1458 sub pp_telldir { unop(@_, "telldir") }
1459 sub pp_rewinddir { unop(@_, "rewinddir") }
1460 sub pp_closedir { unop(@_, "closedir") }
1461 sub pp_getpgrp { maybe_targmy(@_, \&unop, "getpgrp") }
1462 sub pp_localtime { unop(@_, "localtime") }
1463 sub pp_gmtime { unop(@_, "gmtime") }
1464 sub pp_alarm { unop(@_, "alarm") }
1465 sub pp_sleep { maybe_targmy(@_, \&unop, "sleep") }
1467 sub pp_dofile { unop(@_, "do") }
1468 sub pp_entereval { unop(@_, "eval") }
1470 sub pp_ghbyname { unop(@_, "gethostbyname") }
1471 sub pp_gnbyname { unop(@_, "getnetbyname") }
1472 sub pp_gpbyname { unop(@_, "getprotobyname") }
1473 sub pp_shostent { unop(@_, "sethostent") }
1474 sub pp_snetent { unop(@_, "setnetent") }
1475 sub pp_sprotoent { unop(@_, "setprotoent") }
1476 sub pp_sservent { unop(@_, "setservent") }
1477 sub pp_gpwnam { unop(@_, "getpwnam") }
1478 sub pp_gpwuid { unop(@_, "getpwuid") }
1479 sub pp_ggrnam { unop(@_, "getgrnam") }
1480 sub pp_ggrgid { unop(@_, "getgrgid") }
1482 sub pp_lock { unop(@_, "lock") }
1488 if ($op->private & OPpEXISTS_SUB) {
1489 # Checking for the existence of a subroutine
1490 return $self->maybe_parens_func("exists",
1491 $self->pp_rv2cv($op->first, 16), $cx, 16);
1493 if ($op->flags & OPf_SPECIAL) {
1494 # Array element, not hash element
1495 return $self->maybe_parens_func("exists",
1496 $self->pp_aelem($op->first, 16), $cx, 16);
1498 return $self->maybe_parens_func("exists", $self->pp_helem($op->first, 16),
1506 if ($op->private & OPpSLICE) {
1507 if ($op->flags & OPf_SPECIAL) {
1508 # Deleting from an array, not a hash
1509 return $self->maybe_parens_func("delete",
1510 $self->pp_aslice($op->first, 16),
1513 return $self->maybe_parens_func("delete",
1514 $self->pp_hslice($op->first, 16),
1517 if ($op->flags & OPf_SPECIAL) {
1518 # Deleting from an array, not a hash
1519 return $self->maybe_parens_func("delete",
1520 $self->pp_aelem($op->first, 16),
1523 return $self->maybe_parens_func("delete",
1524 $self->pp_helem($op->first, 16),
1532 if (class($op) eq "UNOP" and $op->first->name eq "const"
1533 and $op->first->private & OPpCONST_BARE)
1535 my $name = $self->const_sv($op->first)->PV;
1538 return "require $name";
1540 $self->unop($op, $cx, "require");
1547 my $kid = $op->first;
1548 if (not null $kid->sibling) {
1549 # XXX Was a here-doc
1550 return $self->dquote($op);
1552 $self->unop(@_, "scalar");
1559 return (($self->{'curcv'}->PADLIST->ARRAY)[1]->ARRAY)[$targ];
1565 my $kid = $op->first;
1566 if ($kid->name eq "null") {
1568 if ($kid->name eq "anonlist" || $kid->name eq "anonhash") {
1569 my($pre, $post) = @{{"anonlist" => ["[","]"],
1570 "anonhash" => ["{","}"]}->{$kid->name}};
1572 $kid = $kid->first->sibling; # skip pushmark
1573 for (; !null($kid); $kid = $kid->sibling) {
1574 $expr = $self->deparse($kid, 6);
1577 return $pre . join(", ", @exprs) . $post;
1578 } elsif (!null($kid->sibling) and
1579 $kid->sibling->name eq "anoncode") {
1581 $self->deparse_sub($self->padval($kid->sibling->targ));
1582 } elsif ($kid->name eq "pushmark") {
1583 my $sib_name = $kid->sibling->name;
1584 if ($sib_name =~ /^(pad|rv2)[ah]v$/
1585 and not $kid->sibling->flags & OPf_REF)
1587 # The @a in \(@a) isn't in ref context, but only when the
1589 return "\\(" . $self->deparse($kid->sibling, 1) . ")";
1590 } elsif ($sib_name eq 'entersub') {
1591 my $text = $self->deparse($kid->sibling, 1);
1592 # Always show parens for \(&func()), but only with -p otherwise
1593 $text = "($text)" if $self->{'parens'}
1594 or $kid->sibling->private & OPpENTERSUB_AMPER;
1599 $self->pfixop($op, $cx, "\\", 20);
1602 sub pp_srefgen { pp_refgen(@_) }
1607 my $kid = $op->first;
1608 $kid = $kid->first if $kid->name eq "rv2gv"; # <$fh>
1609 return "<" . $self->deparse($kid, 1) . ">" if is_scalar($kid);
1610 return $self->unop($op, $cx, "readline");
1616 return "<" . $self->gv_name($op->gv) . ">";
1619 # Unary operators that can occur as pseudo-listops inside double quotes
1622 my($op, $cx, $name, $prec, $flags) = (@_, 0, 0);
1624 if ($op->flags & OPf_KIDS) {
1626 # If there's more than one kid, the first is an ex-pushmark.
1627 $kid = $kid->sibling if not null $kid->sibling;
1628 return $self->maybe_parens_unop($name, $kid, $cx);
1630 return $name . ($op->flags & OPf_SPECIAL ? "()" : "");
1634 sub pp_ucfirst { dq_unop(@_, "ucfirst") }
1635 sub pp_lcfirst { dq_unop(@_, "lcfirst") }
1636 sub pp_uc { dq_unop(@_, "uc") }
1637 sub pp_lc { dq_unop(@_, "lc") }
1638 sub pp_quotemeta { maybe_targmy(@_, \&dq_unop, "quotemeta") }
1642 my ($op, $cx, $name) = @_;
1643 if (class($op) eq "PVOP") {
1644 return "$name " . $op->pv;
1645 } elsif (class($op) eq "OP") {
1647 } elsif (class($op) eq "UNOP") {
1648 # Note -- loop exits are actually exempt from the
1649 # looks-like-a-func rule, but a few extra parens won't hurt
1650 return $self->maybe_parens_unop($name, $op->first, $cx);
1654 sub pp_last { loopex(@_, "last") }
1655 sub pp_next { loopex(@_, "next") }
1656 sub pp_redo { loopex(@_, "redo") }
1657 sub pp_goto { loopex(@_, "goto") }
1658 sub pp_dump { loopex(@_, "dump") }
1662 my($op, $cx, $name) = @_;
1663 if (class($op) eq "UNOP") {
1664 # Genuine `-X' filetests are exempt from the LLAFR, but not
1665 # l?stat(); for the sake of clarity, give'em all parens
1666 return $self->maybe_parens_unop($name, $op->first, $cx);
1667 } elsif (class($op) eq "SVOP") {
1668 return $self->maybe_parens_func($name, $self->pp_gv($op, 1), $cx, 16);
1669 } else { # I don't think baseop filetests ever survive ck_ftst, but...
1674 sub pp_lstat { ftst(@_, "lstat") }
1675 sub pp_stat { ftst(@_, "stat") }
1676 sub pp_ftrread { ftst(@_, "-R") }
1677 sub pp_ftrwrite { ftst(@_, "-W") }
1678 sub pp_ftrexec { ftst(@_, "-X") }
1679 sub pp_fteread { ftst(@_, "-r") }
1680 sub pp_ftewrite { ftst(@_, "-w") }
1681 sub pp_fteexec { ftst(@_, "-x") }
1682 sub pp_ftis { ftst(@_, "-e") }
1683 sub pp_fteowned { ftst(@_, "-O") }
1684 sub pp_ftrowned { ftst(@_, "-o") }
1685 sub pp_ftzero { ftst(@_, "-z") }
1686 sub pp_ftsize { ftst(@_, "-s") }
1687 sub pp_ftmtime { ftst(@_, "-M") }
1688 sub pp_ftatime { ftst(@_, "-A") }
1689 sub pp_ftctime { ftst(@_, "-C") }
1690 sub pp_ftsock { ftst(@_, "-S") }
1691 sub pp_ftchr { ftst(@_, "-c") }
1692 sub pp_ftblk { ftst(@_, "-b") }
1693 sub pp_ftfile { ftst(@_, "-f") }
1694 sub pp_ftdir { ftst(@_, "-d") }
1695 sub pp_ftpipe { ftst(@_, "-p") }
1696 sub pp_ftlink { ftst(@_, "-l") }
1697 sub pp_ftsuid { ftst(@_, "-u") }
1698 sub pp_ftsgid { ftst(@_, "-g") }
1699 sub pp_ftsvtx { ftst(@_, "-k") }
1700 sub pp_fttty { ftst(@_, "-t") }
1701 sub pp_fttext { ftst(@_, "-T") }
1702 sub pp_ftbinary { ftst(@_, "-B") }
1704 sub SWAP_CHILDREN () { 1 }
1705 sub ASSIGN () { 2 } # has OP= variant
1706 sub LIST_CONTEXT () { 4 } # Assignment is in list context
1712 my $name = $op->name;
1713 if ($name eq "concat" and $op->first->name eq "concat") {
1714 # avoid spurious `=' -- see comment in pp_concat
1717 if ($name eq "null" and class($op) eq "UNOP"
1718 and $op->first->name =~ /^(and|x?or)$/
1719 and null $op->first->sibling)
1721 # Like all conditional constructs, OP_ANDs and OP_ORs are topped
1722 # with a null that's used as the common end point of the two
1723 # flows of control. For precedence purposes, ignore it.
1724 # (COND_EXPRs have these too, but we don't bother with
1725 # their associativity).
1726 return assoc_class($op->first);
1728 return $name . ($op->flags & OPf_STACKED ? "=" : "");
1731 # Left associative operators, like `+', for which
1732 # $a + $b + $c is equivalent to ($a + $b) + $c
1735 %left = ('multiply' => 19, 'i_multiply' => 19,
1736 'divide' => 19, 'i_divide' => 19,
1737 'modulo' => 19, 'i_modulo' => 19,
1739 'add' => 18, 'i_add' => 18,
1740 'subtract' => 18, 'i_subtract' => 18,
1742 'left_shift' => 17, 'right_shift' => 17,
1744 'bit_or' => 12, 'bit_xor' => 12,
1746 'or' => 2, 'xor' => 2,
1750 sub deparse_binop_left {
1752 my($op, $left, $prec) = @_;
1753 if ($left{assoc_class($op)} && $left{assoc_class($left)}
1754 and $left{assoc_class($op)} == $left{assoc_class($left)})
1756 return $self->deparse($left, $prec - .00001);
1758 return $self->deparse($left, $prec);
1762 # Right associative operators, like `=', for which
1763 # $a = $b = $c is equivalent to $a = ($b = $c)
1766 %right = ('pow' => 22,
1767 'sassign=' => 7, 'aassign=' => 7,
1768 'multiply=' => 7, 'i_multiply=' => 7,
1769 'divide=' => 7, 'i_divide=' => 7,
1770 'modulo=' => 7, 'i_modulo=' => 7,
1772 'add=' => 7, 'i_add=' => 7,
1773 'subtract=' => 7, 'i_subtract=' => 7,
1775 'left_shift=' => 7, 'right_shift=' => 7,
1777 'bit_or=' => 7, 'bit_xor=' => 7,
1783 sub deparse_binop_right {
1785 my($op, $right, $prec) = @_;
1786 if ($right{assoc_class($op)} && $right{assoc_class($right)}
1787 and $right{assoc_class($op)} == $right{assoc_class($right)})
1789 return $self->deparse($right, $prec - .00001);
1791 return $self->deparse($right, $prec);
1797 my ($op, $cx, $opname, $prec, $flags) = (@_, 0);
1798 my $left = $op->first;
1799 my $right = $op->last;
1801 if ($op->flags & OPf_STACKED && $flags & ASSIGN) {
1805 if ($flags & SWAP_CHILDREN) {
1806 ($left, $right) = ($right, $left);
1808 $left = $self->deparse_binop_left($op, $left, $prec);
1809 $left = "($left)" if $flags & LIST_CONTEXT
1810 && $left !~ /^(my|our|local|)[\@\(]/;
1811 $right = $self->deparse_binop_right($op, $right, $prec);
1812 return $self->maybe_parens("$left $opname$eq $right", $cx, $prec);
1815 sub pp_add { maybe_targmy(@_, \&binop, "+", 18, ASSIGN) }
1816 sub pp_multiply { maybe_targmy(@_, \&binop, "*", 19, ASSIGN) }
1817 sub pp_subtract { maybe_targmy(@_, \&binop, "-",18, ASSIGN) }
1818 sub pp_divide { maybe_targmy(@_, \&binop, "/", 19, ASSIGN) }
1819 sub pp_modulo { maybe_targmy(@_, \&binop, "%", 19, ASSIGN) }
1820 sub pp_i_add { maybe_targmy(@_, \&binop, "+", 18, ASSIGN) }
1821 sub pp_i_multiply { maybe_targmy(@_, \&binop, "*", 19, ASSIGN) }
1822 sub pp_i_subtract { maybe_targmy(@_, \&binop, "-", 18, ASSIGN) }
1823 sub pp_i_divide { maybe_targmy(@_, \&binop, "/", 19, ASSIGN) }
1824 sub pp_i_modulo { maybe_targmy(@_, \&binop, "%", 19, ASSIGN) }
1825 sub pp_pow { maybe_targmy(@_, \&binop, "**", 22, ASSIGN) }
1827 sub pp_left_shift { maybe_targmy(@_, \&binop, "<<", 17, ASSIGN) }
1828 sub pp_right_shift { maybe_targmy(@_, \&binop, ">>", 17, ASSIGN) }
1829 sub pp_bit_and { maybe_targmy(@_, \&binop, "&", 13, ASSIGN) }
1830 sub pp_bit_or { maybe_targmy(@_, \&binop, "|", 12, ASSIGN) }
1831 sub pp_bit_xor { maybe_targmy(@_, \&binop, "^", 12, ASSIGN) }
1833 sub pp_eq { binop(@_, "==", 14) }
1834 sub pp_ne { binop(@_, "!=", 14) }
1835 sub pp_lt { binop(@_, "<", 15) }
1836 sub pp_gt { binop(@_, ">", 15) }
1837 sub pp_ge { binop(@_, ">=", 15) }
1838 sub pp_le { binop(@_, "<=", 15) }
1839 sub pp_ncmp { binop(@_, "<=>", 14) }
1840 sub pp_i_eq { binop(@_, "==", 14) }
1841 sub pp_i_ne { binop(@_, "!=", 14) }
1842 sub pp_i_lt { binop(@_, "<", 15) }
1843 sub pp_i_gt { binop(@_, ">", 15) }
1844 sub pp_i_ge { binop(@_, ">=", 15) }
1845 sub pp_i_le { binop(@_, "<=", 15) }
1846 sub pp_i_ncmp { binop(@_, "<=>", 14) }
1848 sub pp_seq { binop(@_, "eq", 14) }
1849 sub pp_sne { binop(@_, "ne", 14) }
1850 sub pp_slt { binop(@_, "lt", 15) }
1851 sub pp_sgt { binop(@_, "gt", 15) }
1852 sub pp_sge { binop(@_, "ge", 15) }
1853 sub pp_sle { binop(@_, "le", 15) }
1854 sub pp_scmp { binop(@_, "cmp", 14) }
1856 sub pp_sassign { binop(@_, "=", 7, SWAP_CHILDREN) }
1857 sub pp_aassign { binop(@_, "=", 7, SWAP_CHILDREN | LIST_CONTEXT) }
1859 # `.' is special because concats-of-concats are optimized to save copying
1860 # by making all but the first concat stacked. The effect is as if the
1861 # programmer had written `($a . $b) .= $c', except legal.
1862 sub pp_concat { maybe_targmy(@_, \&real_concat) }
1866 my $left = $op->first;
1867 my $right = $op->last;
1870 if ($op->flags & OPf_STACKED and $op->first->name ne "concat") {
1874 $left = $self->deparse_binop_left($op, $left, $prec);
1875 $right = $self->deparse_binop_right($op, $right, $prec);
1876 return $self->maybe_parens("$left .$eq $right", $cx, $prec);
1879 # `x' is weird when the left arg is a list
1883 my $left = $op->first;
1884 my $right = $op->last;
1887 if ($op->flags & OPf_STACKED) {
1891 if (null($right)) { # list repeat; count is inside left-side ex-list
1892 my $kid = $left->first->sibling; # skip pushmark
1894 for (; !null($kid->sibling); $kid = $kid->sibling) {
1895 push @exprs, $self->deparse($kid, 6);
1898 $left = "(" . join(", ", @exprs). ")";
1900 $left = $self->deparse_binop_left($op, $left, $prec);
1902 $right = $self->deparse_binop_right($op, $right, $prec);
1903 return $self->maybe_parens("$left x$eq $right", $cx, $prec);
1908 my ($op, $cx, $type) = @_;
1909 my $left = $op->first;
1910 my $right = $left->sibling;
1911 $left = $self->deparse($left, 9);
1912 $right = $self->deparse($right, 9);
1913 return $self->maybe_parens("$left $type $right", $cx, 9);
1919 my $flip = $op->first;
1920 my $type = ($flip->flags & OPf_SPECIAL) ? "..." : "..";
1921 return $self->range($flip->first, $cx, $type);
1924 # one-line while/until is handled in pp_leave
1928 my ($op, $cx, $lowop, $lowprec, $highop, $highprec, $blockname) = @_;
1929 my $left = $op->first;
1930 my $right = $op->first->sibling;
1931 if ($cx == 0 and is_scope($right) and $blockname
1932 and $self->{'expand'} < 7)
1934 $left = $self->deparse($left, 1);
1935 $right = $self->deparse($right, 0);
1936 return "$blockname ($left) {\n\t$right\n\b}\cK";
1937 } elsif ($cx == 0 and $blockname and not $self->{'parens'}
1938 and $self->{'expand'} < 7) { # $b if $a
1939 $right = $self->deparse($right, 1);
1940 $left = $self->deparse($left, 1);
1941 return "$right $blockname $left";
1942 } elsif ($cx > $lowprec and $highop) { # $a && $b
1943 $left = $self->deparse_binop_left($op, $left, $highprec);
1944 $right = $self->deparse_binop_right($op, $right, $highprec);
1945 return $self->maybe_parens("$left $highop $right", $cx, $highprec);
1946 } else { # $a and $b
1947 $left = $self->deparse_binop_left($op, $left, $lowprec);
1948 $right = $self->deparse_binop_right($op, $right, $lowprec);
1949 return $self->maybe_parens("$left $lowop $right", $cx, $lowprec);
1953 sub pp_and { logop(@_, "and", 3, "&&", 11, "if") }
1954 sub pp_or { logop(@_, "or", 2, "||", 10, "unless") }
1955 sub pp_dor { logop(@_, "err", 2, "//", 10, "") }
1957 # xor is syntactically a logop, but it's really a binop (contrary to
1958 # old versions of opcode.pl). Syntax is what matters here.
1959 sub pp_xor { logop(@_, "xor", 2, "", 0, "") }
1963 my ($op, $cx, $opname) = @_;
1964 my $left = $op->first;
1965 my $right = $op->first->sibling->first; # skip sassign
1966 $left = $self->deparse($left, 7);
1967 $right = $self->deparse($right, 7);
1968 return $self->maybe_parens("$left $opname $right", $cx, 7);
1971 sub pp_andassign { logassignop(@_, "&&=") }
1972 sub pp_orassign { logassignop(@_, "||=") }
1973 sub pp_dorassign { logassignop(@_, "//=") }
1977 my($op, $cx, $name) = @_;
1979 my $parens = ($cx >= 5) || $self->{'parens'};
1980 my $kid = $op->first->sibling;
1981 return $name if null $kid;
1983 $name = "socketpair" if $name eq "sockpair";
1984 if (defined prototype("CORE::$name")
1985 && prototype("CORE::$name") =~ /^;?\*/
1986 && $kid->name eq "rv2gv") {
1987 $first = $self->deparse($kid->first, 6);
1990 $first = $self->deparse($kid, 6);
1992 if ($name eq "chmod" && $first =~ /^\d+$/) {
1993 $first = sprintf("%#o", $first);
1995 $first = "+$first" if not $parens and substr($first, 0, 1) eq "(";
1996 push @exprs, $first;
1997 $kid = $kid->sibling;
1998 for (; !null($kid); $kid = $kid->sibling) {
1999 push @exprs, $self->deparse($kid, 6);
2002 return "$name(" . join(", ", @exprs) . ")";
2004 return "$name " . join(", ", @exprs);
2008 sub pp_bless { listop(@_, "bless") }
2009 sub pp_atan2 { maybe_targmy(@_, \&listop, "atan2") }
2010 sub pp_substr { maybe_local(@_, listop(@_, "substr")) }
2011 sub pp_vec { maybe_local(@_, listop(@_, "vec")) }
2012 sub pp_index { maybe_targmy(@_, \&listop, "index") }
2013 sub pp_rindex { maybe_targmy(@_, \&listop, "rindex") }
2014 sub pp_sprintf { maybe_targmy(@_, \&listop, "sprintf") }
2015 sub pp_formline { listop(@_, "formline") } # see also deparse_format
2016 sub pp_crypt { maybe_targmy(@_, \&listop, "crypt") }
2017 sub pp_unpack { listop(@_, "unpack") }
2018 sub pp_pack { listop(@_, "pack") }
2019 sub pp_join { maybe_targmy(@_, \&listop, "join") }
2020 sub pp_splice { listop(@_, "splice") }
2021 sub pp_push { maybe_targmy(@_, \&listop, "push") }
2022 sub pp_unshift { maybe_targmy(@_, \&listop, "unshift") }
2023 sub pp_reverse { listop(@_, "reverse") }
2024 sub pp_warn { listop(@_, "warn") }
2025 sub pp_die { listop(@_, "die") }
2026 # Actually, return is exempt from the LLAFR (see examples in this very
2027 # module!), but for consistency's sake, ignore that fact
2028 sub pp_return { listop(@_, "return") }
2029 sub pp_open { listop(@_, "open") }
2030 sub pp_pipe_op { listop(@_, "pipe") }
2031 sub pp_tie { listop(@_, "tie") }
2032 sub pp_binmode { listop(@_, "binmode") }
2033 sub pp_dbmopen { listop(@_, "dbmopen") }
2034 sub pp_sselect { listop(@_, "select") }
2035 sub pp_select { listop(@_, "select") }
2036 sub pp_read { listop(@_, "read") }
2037 sub pp_sysopen { listop(@_, "sysopen") }
2038 sub pp_sysseek { listop(@_, "sysseek") }
2039 sub pp_sysread { listop(@_, "sysread") }
2040 sub pp_syswrite { listop(@_, "syswrite") }
2041 sub pp_send { listop(@_, "send") }
2042 sub pp_recv { listop(@_, "recv") }
2043 sub pp_seek { listop(@_, "seek") }
2044 sub pp_fcntl { listop(@_, "fcntl") }
2045 sub pp_ioctl { listop(@_, "ioctl") }
2046 sub pp_flock { maybe_targmy(@_, \&listop, "flock") }
2047 sub pp_socket { listop(@_, "socket") }
2048 sub pp_sockpair { listop(@_, "sockpair") }
2049 sub pp_bind { listop(@_, "bind") }
2050 sub pp_connect { listop(@_, "connect") }
2051 sub pp_listen { listop(@_, "listen") }
2052 sub pp_accept { listop(@_, "accept") }
2053 sub pp_shutdown { listop(@_, "shutdown") }
2054 sub pp_gsockopt { listop(@_, "getsockopt") }
2055 sub pp_ssockopt { listop(@_, "setsockopt") }
2056 sub pp_chown { maybe_targmy(@_, \&listop, "chown") }
2057 sub pp_unlink { maybe_targmy(@_, \&listop, "unlink") }
2058 sub pp_chmod { maybe_targmy(@_, \&listop, "chmod") }
2059 sub pp_utime { maybe_targmy(@_, \&listop, "utime") }
2060 sub pp_rename { maybe_targmy(@_, \&listop, "rename") }
2061 sub pp_link { maybe_targmy(@_, \&listop, "link") }
2062 sub pp_symlink { maybe_targmy(@_, \&listop, "symlink") }
2063 sub pp_mkdir { maybe_targmy(@_, \&listop, "mkdir") }
2064 sub pp_open_dir { listop(@_, "opendir") }
2065 sub pp_seekdir { listop(@_, "seekdir") }
2066 sub pp_waitpid { maybe_targmy(@_, \&listop, "waitpid") }
2067 sub pp_system { maybe_targmy(@_, \&listop, "system") }
2068 sub pp_exec { maybe_targmy(@_, \&listop, "exec") }
2069 sub pp_kill { maybe_targmy(@_, \&listop, "kill") }
2070 sub pp_setpgrp { maybe_targmy(@_, \&listop, "setpgrp") }
2071 sub pp_getpriority { maybe_targmy(@_, \&listop, "getpriority") }
2072 sub pp_setpriority { maybe_targmy(@_, \&listop, "setpriority") }
2073 sub pp_shmget { listop(@_, "shmget") }
2074 sub pp_shmctl { listop(@_, "shmctl") }
2075 sub pp_shmread { listop(@_, "shmread") }
2076 sub pp_shmwrite { listop(@_, "shmwrite") }
2077 sub pp_msgget { listop(@_, "msgget") }
2078 sub pp_msgctl { listop(@_, "msgctl") }
2079 sub pp_msgsnd { listop(@_, "msgsnd") }
2080 sub pp_msgrcv { listop(@_, "msgrcv") }
2081 sub pp_semget { listop(@_, "semget") }
2082 sub pp_semctl { listop(@_, "semctl") }
2083 sub pp_semop { listop(@_, "semop") }
2084 sub pp_ghbyaddr { listop(@_, "gethostbyaddr") }
2085 sub pp_gnbyaddr { listop(@_, "getnetbyaddr") }
2086 sub pp_gpbynumber { listop(@_, "getprotobynumber") }
2087 sub pp_gsbyname { listop(@_, "getservbyname") }
2088 sub pp_gsbyport { listop(@_, "getservbyport") }
2089 sub pp_syscall { listop(@_, "syscall") }
2094 my $text = $self->dq($op->first->sibling); # skip pushmark
2095 if ($text =~ /^\$?(\w|::|\`)+$/ # could look like a readline
2096 or $text =~ /[<>]/) {
2097 return 'glob(' . single_delim('qq', '"', $text) . ')';
2099 return '<' . $text . '>';
2103 # Truncate is special because OPf_SPECIAL makes a bareword first arg
2104 # be a filehandle. This could probably be better fixed in the core
2105 # by moving the GV lookup into ck_truc.
2111 my $parens = ($cx >= 5) || $self->{'parens'};
2112 my $kid = $op->first->sibling;
2114 if ($op->flags & OPf_SPECIAL) {
2115 # $kid is an OP_CONST
2116 $fh = $self->const_sv($kid)->PV;
2118 $fh = $self->deparse($kid, 6);
2119 $fh = "+$fh" if not $parens and substr($fh, 0, 1) eq "(";
2121 my $len = $self->deparse($kid->sibling, 6);
2123 return "truncate($fh, $len)";
2125 return "truncate $fh, $len";
2131 my($op, $cx, $name) = @_;
2133 my $kid = $op->first->sibling;
2135 if ($op->flags & OPf_STACKED) {
2137 $indir = $indir->first; # skip rv2gv
2138 if (is_scope($indir)) {
2139 $indir = "{" . $self->deparse($indir, 0) . "}";
2140 } elsif ($indir->name eq "const" && $indir->private & OPpCONST_BARE) {
2141 $indir = $self->const_sv($indir)->PV;
2143 $indir = $self->deparse($indir, 24);
2145 $indir = $indir . " ";
2146 $kid = $kid->sibling;
2148 if ($name eq "sort" && $op->private & (OPpSORT_NUMERIC | OPpSORT_INTEGER)) {
2149 $indir = ($op->private & OPpSORT_REVERSE) ? '{$b <=> $a} '
2152 elsif ($name eq "sort" && $op->private & OPpSORT_REVERSE) {
2153 $indir = '{$b cmp $a} ';
2155 for (; !null($kid); $kid = $kid->sibling) {
2156 $expr = $self->deparse($kid, 6);
2159 return $self->maybe_parens_func($name, $indir . join(", ", @exprs),
2163 sub pp_prtf { indirop(@_, "printf") }
2164 sub pp_print { indirop(@_, "print") }
2165 sub pp_sort { indirop(@_, "sort") }
2169 my($op, $cx, $name) = @_;
2171 my $kid = $op->first; # this is the (map|grep)start
2172 $kid = $kid->first->sibling; # skip a pushmark
2173 my $code = $kid->first; # skip a null
2174 if (is_scope $code) {
2175 $code = "{" . $self->deparse($code, 0) . "} ";
2177 $code = $self->deparse($code, 24) . ", ";
2179 $kid = $kid->sibling;
2180 for (; !null($kid); $kid = $kid->sibling) {
2181 $expr = $self->deparse($kid, 6);
2182 push @exprs, $expr if defined $expr;
2184 return $self->maybe_parens_func($name, $code . join(", ", @exprs), $cx, 5);
2187 sub pp_mapwhile { mapop(@_, "map") }
2188 sub pp_grepwhile { mapop(@_, "grep") }
2194 my $kid = $op->first->sibling; # skip pushmark
2196 my $local = "either"; # could be local(...), my(...) or our(...)
2197 for ($lop = $kid; !null($lop); $lop = $lop->sibling) {
2198 # This assumes that no other private flags equal 128, and that
2199 # OPs that store things other than flags in their op_private,
2200 # like OP_AELEMFAST, won't be immediate children of a list.
2202 # OP_ENTERSUB can break this logic, so check for it.
2203 # I suspect that open and exit can too.
2205 if (!($lop->private & (OPpLVAL_INTRO|OPpOUR_INTRO)
2206 or $lop->name eq "undef")
2207 or $lop->name eq "entersub"
2208 or $lop->name eq "exit"
2209 or $lop->name eq "open")
2211 $local = ""; # or not
2214 if ($lop->name =~ /^pad[ash]v$/) { # my()
2215 ($local = "", last) if $local eq "local" || $local eq "our";
2217 } elsif ($lop->name =~ /^(gv|rv2)[ash]v$/
2218 && $lop->private & OPpOUR_INTRO
2219 or $lop->name eq "null" && $lop->first->name eq "gvsv"
2220 && $lop->first->private & OPpOUR_INTRO) { # our()
2221 ($local = "", last) if $local eq "my" || $local eq "local";
2223 } elsif ($lop->name ne "undef") { # local()
2224 ($local = "", last) if $local eq "my" || $local eq "our";
2228 $local = "" if $local eq "either"; # no point if it's all undefs
2229 return $self->deparse($kid, $cx) if null $kid->sibling and not $local;
2230 for (; !null($kid); $kid = $kid->sibling) {
2232 if (class($kid) eq "UNOP" and $kid->first->name eq "gvsv") {
2237 $self->{'avoid_local'}{$$lop}++;
2238 $expr = $self->deparse($kid, 6);
2239 delete $self->{'avoid_local'}{$$lop};
2241 $expr = $self->deparse($kid, 6);
2246 return "$local(" . join(", ", @exprs) . ")";
2248 return $self->maybe_parens( join(", ", @exprs), $cx, 6);
2252 sub is_ifelse_cont {
2254 return ($op->name eq "null" and class($op) eq "UNOP"
2255 and $op->first->name =~ /^(and|cond_expr)$/
2256 and is_scope($op->first->first->sibling));
2262 my $cond = $op->first;
2263 my $true = $cond->sibling;
2264 my $false = $true->sibling;
2265 my $cuddle = $self->{'cuddle'};
2266 unless ($cx == 0 and (is_scope($true) and $true->name ne "null") and
2267 (is_scope($false) || is_ifelse_cont($false))
2268 and $self->{'expand'} < 7) {
2269 $cond = $self->deparse($cond, 8);
2270 $true = $self->deparse($true, 8);
2271 $false = $self->deparse($false, 8);
2272 return $self->maybe_parens("$cond ? $true : $false", $cx, 8);
2275 $cond = $self->deparse($cond, 1);
2276 $true = $self->deparse($true, 0);
2277 my $head = "if ($cond) {\n\t$true\n\b}";
2279 while (!null($false) and is_ifelse_cont($false)) {
2280 my $newop = $false->first;
2281 my $newcond = $newop->first;
2282 my $newtrue = $newcond->sibling;
2283 $false = $newtrue->sibling; # last in chain is OP_AND => no else
2284 $newcond = $self->deparse($newcond, 1);
2285 $newtrue = $self->deparse($newtrue, 0);
2286 push @elsifs, "elsif ($newcond) {\n\t$newtrue\n\b}";
2288 if (!null($false)) {
2289 $false = $cuddle . "else {\n\t" .
2290 $self->deparse($false, 0) . "\n\b}\cK";
2294 return $head . join($cuddle, "", @elsifs) . $false;
2299 my($op, $cx, $init) = @_;
2300 my $enter = $op->first;
2301 my $kid = $enter->sibling;
2302 local(@$self{qw'curstash warnings hints'})
2303 = @$self{qw'curstash warnings hints'};
2308 if ($kid->name eq "lineseq") { # bare or infinite loop
2309 if (is_state $kid->last) { # infinite
2310 $head = "while (1) "; # Can't use for(;;) if there's a continue
2316 } elsif ($enter->name eq "enteriter") { # foreach
2317 my $ary = $enter->first->sibling; # first was pushmark
2318 my $var = $ary->sibling;
2319 if ($enter->flags & OPf_STACKED
2320 and not null $ary->first->sibling->sibling)
2322 $ary = $self->deparse($ary->first->sibling, 9) . " .. " .
2323 $self->deparse($ary->first->sibling->sibling, 9);
2325 $ary = $self->deparse($ary, 1);
2328 if ($enter->flags & OPf_SPECIAL) { # thread special var
2329 $var = $self->pp_threadsv($enter, 1);
2330 } else { # regular my() variable
2331 $var = $self->pp_padsv($enter, 1);
2332 if ($self->padname_sv($enter->targ)->IVX ==
2333 $kid->first->first->sibling->last->cop_seq)
2335 # If the scope of this variable closes at the last
2336 # statement of the loop, it must have been
2338 $var = "my " . $var;
2341 } elsif ($var->name eq "rv2gv") {
2342 $var = $self->pp_rv2sv($var, 1);
2343 } elsif ($var->name eq "gv") {
2344 $var = "\$" . $self->deparse($var, 1);
2346 $head = "foreach $var ($ary) ";
2347 $body = $kid->first->first->sibling; # skip OP_AND and OP_ITER
2348 } elsif ($kid->name eq "null") { # while/until
2350 my $name = {"and" => "while", "or" => "until"}->{$kid->name};
2351 $cond = $self->deparse($kid->first, 1);
2352 $head = "$name ($cond) ";
2353 $body = $kid->first->sibling;
2354 } elsif ($kid->name eq "stub") { # bare and empty
2355 return "{;}"; # {} could be a hashref
2357 # If there isn't a continue block, then the next pointer for the loop
2358 # will point to the unstack, which is kid's penultimate child, except
2359 # in a bare loop, when it will point to the leaveloop. When neither of
2360 # these conditions hold, then the third-to-last child in the continue
2361 # block (or the last in a bare loop).
2362 my $cont_start = $enter->nextop;
2364 if ($$cont_start != $$op && ${$cont_start->sibling} != ${$body->last}) {
2366 $cont = $body->last;
2368 $cont = $body->first;
2369 while (!null($cont->sibling->sibling->sibling)) {
2370 $cont = $cont->sibling;
2373 my $state = $body->first;
2374 my $cuddle = $self->{'cuddle'};
2376 for (; $$state != $$cont; $state = $state->sibling) {
2377 push @states, $state;
2379 $body = $self->lineseq(undef, @states);
2380 if (defined $cond and not is_scope $cont and $self->{'expand'} < 3) {
2381 $head = "for ($init; $cond; " . $self->deparse($cont, 1) .") ";
2384 $cont = $cuddle . "continue {\n\t" .
2385 $self->deparse($cont, 0) . "\n\b}\cK";
2388 return "" if !defined $body;
2390 $head = "for ($init; $cond;) ";
2393 $body = $self->deparse($body, 0);
2395 $body =~ s/;?$/;\n/;
2397 return $head . "{\n\t" . $body . "\b}" . $cont;
2400 sub pp_leaveloop { loop_common(@_, "") }
2405 my $init = $self->deparse($op, 1);
2406 return $self->loop_common($op->sibling->first->sibling, $cx, $init);
2411 return "eval {\n\t" . $self->pp_leave(@_) . "\n\b}";
2414 BEGIN { eval "sub OP_CONST () {" . opnumber("const") . "}" }
2415 BEGIN { eval "sub OP_STRINGIFY () {" . opnumber("stringify") . "}" }
2416 BEGIN { eval "sub OP_RV2SV () {" . opnumber("rv2sv") . "}" }
2417 BEGIN { eval "sub OP_LIST () {" . opnumber("list") . "}" }
2421 my($op, $cx, $flags) = @_;
2422 if (class($op) eq "OP") {
2424 return $self->{'ex_const'} if $op->targ == OP_CONST;
2425 } elsif ($op->first->name eq "pushmark") {
2426 return $self->pp_list($op, $cx);
2427 } elsif ($op->first->name eq "enter") {
2428 return $self->pp_leave($op, $cx);
2429 } elsif ($op->targ == OP_STRINGIFY) {
2430 return $self->dquote($op, $cx);
2431 } elsif (!null($op->first->sibling) and
2432 $op->first->sibling->name eq "readline" and
2433 $op->first->sibling->flags & OPf_STACKED) {
2434 return $self->maybe_parens($self->deparse($op->first, 7) . " = "
2435 . $self->deparse($op->first->sibling, 7),
2437 } elsif (!null($op->first->sibling) and
2438 $op->first->sibling->name eq "trans" and
2439 $op->first->sibling->flags & OPf_STACKED) {
2440 return $self->maybe_parens($self->deparse($op->first, 20) . " =~ "
2441 . $self->deparse($op->first->sibling, 20),
2443 } elsif ($op->flags & OPf_SPECIAL && $cx == 0 && !$op->targ) {
2445 return $self->deparse($op->first, $cx);
2448 return "do {\n\t". $self->deparse($op->first, $cx) ."\n\b};";
2450 } elsif (!null($op->first->sibling) and
2451 $op->first->sibling->name eq "null" and
2452 class($op->first->sibling) eq "UNOP" and
2453 $op->first->sibling->first->flags & OPf_STACKED and
2454 $op->first->sibling->first->name eq "rcatline") {
2455 return $self->maybe_parens($self->deparse($op->first, 18) . " .= "
2456 . $self->deparse($op->first->sibling, 18),
2459 return $self->deparse($op->first, $cx);
2466 return $self->padname_sv($targ)->PVX;
2472 return substr($self->padname($op->targ), 1); # skip $/@/%
2478 return $self->maybe_my($op, $cx, $self->padname($op->targ));
2481 sub pp_padav { pp_padsv(@_) }
2482 sub pp_padhv { pp_padsv(@_) }
2487 @threadsv_names = ("_", "1", "2", "3", "4", "5", "6", "7", "8", "9",
2488 "&", "`", "'", "+", "/", ".", ",", "\\", '"', ";",
2489 "^", "-", "%", "=", "|", "~", ":", "^A", "^E",
2496 return $self->maybe_local($op, $cx, "\$" . $threadsv_names[$op->targ]);
2502 if (class($op) eq "PADOP") {
2503 return $self->padval($op->padix);
2504 } else { # class($op) eq "SVOP"
2512 my $gv = $self->gv_or_padgv($op);
2513 return $self->maybe_local($op, $cx, $self->stash_variable("\$",
2514 $self->gv_name($gv)));
2520 my $gv = $self->gv_or_padgv($op);
2521 return $self->gv_name($gv);
2527 my $gv = $self->gv_or_padgv($op);
2528 my $name = $self->gv_name($gv);
2529 $name = $self->{'curstash'}."::$name"
2530 if $name !~ /::/ && $self->lex_in_scope('@'.$name);
2532 return "\$" . $name . "[" .
2533 ($op->private + $self->{'arybase'}) . "]";
2538 my($op, $cx, $type) = @_;
2540 if (class($op) eq 'NULL' || !$op->can("first")) {
2541 carp("Unexpected op in pp_rv2x");
2544 my $kid = $op->first;
2545 my $str = $self->deparse($kid, 0);
2546 return $self->stash_variable($type, $str) if is_scalar($kid);
2547 return $type ."{$str}";
2550 sub pp_rv2sv { maybe_local(@_, rv2x(@_, "\$")) }
2551 sub pp_rv2hv { maybe_local(@_, rv2x(@_, "%")) }
2552 sub pp_rv2gv { maybe_local(@_, rv2x(@_, "*")) }
2558 if ($op->first->name eq "padav") {
2559 return $self->maybe_local($op, $cx, '$#' . $self->padany($op->first));
2561 return $self->maybe_local($op, $cx,
2562 $self->rv2x($op->first, $cx, '$#'));
2566 # skip down to the old, ex-rv2cv
2568 my ($self, $op, $cx) = @_;
2569 if (!null($op->first) && $op->first->name eq 'null' &&
2570 $op->first->targ eq OP_LIST)
2572 return $self->rv2x($op->first->first->sibling, $cx, "&")
2575 return $self->rv2x($op, $cx, "")
2582 my $kid = $op->first;
2583 if ($kid->name eq "const") { # constant list
2584 my $av = $self->const_sv($kid);
2585 return "(" . join(", ", map(const($_), $av->ARRAY)) . ")";
2587 return $self->maybe_local($op, $cx, $self->rv2x($op, $cx, "\@"));
2591 sub is_subscriptable {
2593 if ($op->name =~ /^[ahg]elem/) {
2595 } elsif ($op->name eq "entersub") {
2596 my $kid = $op->first;
2597 return 0 unless null $kid->sibling;
2599 $kid = $kid->sibling until null $kid->sibling;
2600 return 0 if is_scope($kid);
2602 return 0 if $kid->name eq "gv";
2603 return 0 if is_scalar($kid);
2604 return is_subscriptable($kid);
2612 my ($op, $cx, $left, $right, $padname) = @_;
2613 my($array, $idx) = ($op->first, $op->first->sibling);
2614 unless ($array->name eq $padname) { # Maybe this has been fixed
2615 $array = $array->first; # skip rv2av (or ex-rv2av in _53+)
2617 if ($array->name eq $padname) {
2618 $array = $self->padany($array);
2619 } elsif (is_scope($array)) { # ${expr}[0]
2620 $array = "{" . $self->deparse($array, 0) . "}";
2621 } elsif ($array->name eq "gv") {
2622 $array = $self->gv_name($self->gv_or_padgv($array));
2623 if ($array !~ /::/) {
2624 my $prefix = ($left eq '[' ? '@' : '%');
2625 $array = $self->{curstash}.'::'.$array
2626 if $self->lex_in_scope($prefix . $array);
2628 } elsif (is_scalar $array) { # $x[0], $$x[0], ...
2629 $array = $self->deparse($array, 24);
2631 # $x[20][3]{hi} or expr->[20]
2632 my $arrow = is_subscriptable($array) ? "" : "->";
2633 return $self->deparse($array, 24) . $arrow .
2634 $left . $self->deparse($idx, 1) . $right;
2636 $idx = $self->deparse($idx, 1);
2638 # Outer parens in an array index will confuse perl
2639 # if we're interpolating in a regular expression, i.e.
2640 # /$x$foo[(-1)]/ is *not* the same as /$x$foo[-1]/
2642 # If $self->{parens}, then an initial '(' will
2643 # definitely be paired with a final ')'. If
2644 # !$self->{parens}, the misleading parens won't
2645 # have been added in the first place.
2647 # [You might think that we could get "(...)...(...)"
2648 # where the initial and final parens do not match
2649 # each other. But we can't, because the above would
2650 # only happen if there's an infix binop between the
2651 # two pairs of parens, and *that* means that the whole
2652 # expression would be parenthesized as well.]
2654 $idx =~ s/^\((.*)\)$/$1/ if $self->{'parens'};
2656 # Hash-element braces will autoquote a bareword inside themselves.
2657 # We need to make sure that C<$hash{warn()}> doesn't come out as
2658 # C<$hash{warn}>, which has a quite different meaning. Currently
2659 # B::Deparse will always quote strings, even if the string was a
2660 # bareword in the original (i.e. the OPpCONST_BARE flag is ignored
2661 # for constant strings.) So we can cheat slightly here - if we see
2662 # a bareword, we know that it is supposed to be a function call.
2664 $idx =~ s/^([A-Za-z_]\w*)$/$1()/;
2666 return "\$" . $array . $left . $idx . $right;
2669 sub pp_aelem { maybe_local(@_, elem(@_, "[", "]", "padav")) }
2670 sub pp_helem { maybe_local(@_, elem(@_, "{", "}", "padhv")) }
2675 my($glob, $part) = ($op->first, $op->last);
2676 $glob = $glob->first; # skip rv2gv
2677 $glob = $glob->first if $glob->name eq "rv2gv"; # this one's a bug
2678 my $scope = is_scope($glob);
2679 $glob = $self->deparse($glob, 0);
2680 $part = $self->deparse($part, 1);
2681 return "*" . ($scope ? "{$glob}" : $glob) . "{$part}";
2686 my ($op, $cx, $left, $right, $regname, $padname) = @_;
2688 my(@elems, $kid, $array, $list);
2689 if (class($op) eq "LISTOP") {
2691 } else { # ex-hslice inside delete()
2692 for ($kid = $op->first; !null $kid->sibling; $kid = $kid->sibling) {}
2696 $array = $array->first
2697 if $array->name eq $regname or $array->name eq "null";
2698 if (is_scope($array)) {
2699 $array = "{" . $self->deparse($array, 0) . "}";
2700 } elsif ($array->name eq $padname) {
2701 $array = $self->padany($array);
2703 $array = $self->deparse($array, 24);
2705 $kid = $op->first->sibling; # skip pushmark
2706 if ($kid->name eq "list") {
2707 $kid = $kid->first->sibling; # skip list, pushmark
2708 for (; !null $kid; $kid = $kid->sibling) {
2709 push @elems, $self->deparse($kid, 6);
2711 $list = join(", ", @elems);
2713 $list = $self->deparse($kid, 1);
2715 return "\@" . $array . $left . $list . $right;
2718 sub pp_aslice { maybe_local(@_, slice(@_, "[", "]", "rv2av", "padav")) }
2719 sub pp_hslice { maybe_local(@_, slice(@_, "{", "}", "rv2hv", "padhv")) }
2724 my $idx = $op->first;
2725 my $list = $op->last;
2727 $list = $self->deparse($list, 1);
2728 $idx = $self->deparse($idx, 1);
2729 return "($list)" . "[$idx]";
2734 return ($op->flags & OPf_WANT) == OPf_WANT_SCALAR;
2739 return ($op->flags & OPf_WANT) == OPf_WANT_LIST;
2745 my $kid = $op->first->sibling; # skip pushmark
2746 my($meth, $obj, @exprs);
2747 if ($kid->name eq "list" and want_list $kid) {
2748 # When an indirect object isn't a bareword but the args are in
2749 # parens, the parens aren't part of the method syntax (the LLAFR
2750 # doesn't apply), but they make a list with OPf_PARENS set that
2751 # doesn't get flattened by the append_elem that adds the method,
2752 # making a (object, arg1, arg2, ...) list where the object
2753 # usually is. This can be distinguished from
2754 # `($obj, $arg1, $arg2)->meth()' (which is legal if $arg2 is an
2755 # object) because in the later the list is in scalar context
2756 # as the left side of -> always is, while in the former
2757 # the list is in list context as method arguments always are.
2758 # (Good thing there aren't method prototypes!)
2759 $meth = $kid->sibling;
2760 $kid = $kid->first->sibling; # skip pushmark
2762 $kid = $kid->sibling;
2763 for (; not null $kid; $kid = $kid->sibling) {
2764 push @exprs, $self->deparse($kid, 6);
2768 $kid = $kid->sibling;
2769 for (; !null ($kid->sibling) && $kid->name ne "method_named";
2770 $kid = $kid->sibling) {
2771 push @exprs, $self->deparse($kid, 6);
2775 $obj = $self->deparse($obj, 24);
2776 if ($meth->name eq "method_named") {
2777 $meth = $self->const_sv($meth)->PV;
2779 $meth = $meth->first;
2780 if ($meth->name eq "const") {
2781 # As of 5.005_58, this case is probably obsoleted by the
2782 # method_named case above
2783 $meth = $self->const_sv($meth)->PV; # needs to be bare
2785 $meth = $self->deparse($meth, 1);
2788 my $args = join(", ", @exprs);
2789 $kid = $obj . "->" . $meth;
2791 return $kid . "(" . $args . ")"; # parens mandatory
2797 # returns "&" if the prototype doesn't match the args,
2798 # or ("", $args_after_prototype_demunging) if it does.
2801 return "&" if $self->{'noproto'};
2802 my($proto, @args) = @_;
2806 # An unbackslashed @ or % gobbles up the rest of the args
2807 1 while $proto =~ s/(?<!\\)([@%])[^\]]+$/$1/;
2809 $proto =~ s/^(\\?[\$\@&%*]|\\\[[\$\@&%*]+\]|;)//;
2812 return "&" if @args;
2813 } elsif ($chr eq ";") {
2815 } elsif ($chr eq "@" or $chr eq "%") {
2816 push @reals, map($self->deparse($_, 6), @args);
2822 if (want_scalar $arg) {
2823 push @reals, $self->deparse($arg, 6);
2827 } elsif ($chr eq "&") {
2828 if ($arg->name =~ /^(s?refgen|undef)$/) {
2829 push @reals, $self->deparse($arg, 6);
2833 } elsif ($chr eq "*") {
2834 if ($arg->name =~ /^s?refgen$/
2835 and $arg->first->first->name eq "rv2gv")
2837 $real = $arg->first->first; # skip refgen, null
2838 if ($real->first->name eq "gv") {
2839 push @reals, $self->deparse($real, 6);
2841 push @reals, $self->deparse($real->first, 6);
2846 } elsif (substr($chr, 0, 1) eq "\\") {
2848 if ($arg->name =~ /^s?refgen$/ and
2849 !null($real = $arg->first) and
2850 ($chr =~ /\$/ && is_scalar($real->first)
2852 && class($real->first->sibling) ne 'NULL'
2853 && $real->first->sibling->name
2856 && class($real->first->sibling) ne 'NULL'
2857 && $real->first->sibling->name
2859 #or ($chr =~ /&/ # This doesn't work
2860 # && $real->first->name eq "rv2cv")
2862 && $real->first->name eq "rv2gv")))
2864 push @reals, $self->deparse($real, 6);
2871 return "&" if $proto and !$doneok; # too few args and no `;'
2872 return "&" if @args; # too many args
2873 return ("", join ", ", @reals);
2879 return $self->method($op, $cx) unless null $op->first->sibling;
2883 if ($op->flags & OPf_SPECIAL && !($op->flags & OPf_MOD)) {
2885 } elsif ($op->private & OPpENTERSUB_AMPER) {
2889 $kid = $kid->first->sibling; # skip ex-list, pushmark
2890 for (; not null $kid->sibling; $kid = $kid->sibling) {
2895 if (is_scope($kid)) {
2897 $kid = "{" . $self->deparse($kid, 0) . "}";
2898 } elsif ($kid->first->name eq "gv") {
2899 my $gv = $self->gv_or_padgv($kid->first);
2900 if (class($gv->CV) ne "SPECIAL") {
2901 $proto = $gv->CV->PV if $gv->CV->FLAGS & SVf_POK;
2903 $simple = 1; # only calls of named functions can be prototyped
2904 $kid = $self->deparse($kid, 24);
2905 } elsif (is_scalar ($kid->first) && $kid->first->name ne 'rv2cv') {
2907 $kid = $self->deparse($kid, 24);
2910 my $arrow = is_subscriptable($kid->first) ? "" : "->";
2911 $kid = $self->deparse($kid, 24) . $arrow;
2914 # Doesn't matter how many prototypes there are, if
2915 # they haven't happened yet!
2919 no warnings 'uninitialized';
2920 $declared = exists $self->{'subs_declared'}{$kid}
2922 defined &{ %{$self->{'curstash'}."::"}->{$kid} }
2924 $self->{'subs_deparsed'}{$self->{'curstash'}."::".$kid}
2925 && defined prototype $self->{'curstash'}."::".$kid
2927 if (!$declared && defined($proto)) {
2928 # Avoid "too early to check prototype" warning
2929 ($amper, $proto) = ('&');
2934 if ($declared and defined $proto and not $amper) {
2935 ($amper, $args) = $self->check_proto($proto, @exprs);
2936 if ($amper eq "&") {
2937 $args = join(", ", map($self->deparse($_, 6), @exprs));
2940 $args = join(", ", map($self->deparse($_, 6), @exprs));
2942 if ($prefix or $amper) {
2943 if ($op->flags & OPf_STACKED) {
2944 return $prefix . $amper . $kid . "(" . $args . ")";
2946 return $prefix . $amper. $kid;
2949 # glob() invocations can be translated into calls of
2950 # CORE::GLOBAL::glob with a second parameter, a number.
2952 if ($kid eq "CORE::GLOBAL::glob") {
2954 $args =~ s/\s*,[^,]+$//;
2957 # It's a syntax error to call CORE::GLOBAL::foo without a prefix,
2958 # so it must have been translated from a keyword call. Translate
2960 $kid =~ s/^CORE::GLOBAL:://;
2963 return "$kid(" . $args . ")";
2964 } elsif (defined $proto and $proto eq "") {
2966 } elsif (defined $proto and $proto eq "\$" and is_scalar($exprs[0])) {
2967 return $self->maybe_parens_func($kid, $args, $cx, 16);
2968 } elsif (defined($proto) && $proto or $simple) {
2969 return $self->maybe_parens_func($kid, $args, $cx, 5);
2971 return "$kid(" . $args . ")";
2976 sub pp_enterwrite { unop(@_, "write") }
2978 # escape things that cause interpolation in double quotes,
2979 # but not character escapes
2982 $str =~ s/(^|\G|[^\\])((?:\\\\)*)([\$\@]|\\[uUlLQE])/$1$2\\$3/g;
2990 # Matches any string which is balanced with respect to {braces}
3001 # the same, but treat $|, $), $( and $ at the end of the string differently
3015 (\(\?\??\{$bal\}\)) # $4
3021 /defined($4) && length($4) ? "$1$2$4" : "$1$2\\$3"/xeg;
3026 # This is for regular expressions with the /x modifier
3027 # We have to leave comments unmangled.
3028 sub re_uninterp_extended {
3041 ( \(\?\??\{$bal\}\) # $4 (skip over (?{}) and (??{}) blocks)
3042 | \#[^\n]* # (skip over comments)
3049 /defined($4) && length($4) ? "$1$2$4" : "$1$2\\$3"/xeg;
3055 my %unctrl = # portable to to EBCDIC
3057 "\c@" => '\c@', # unused
3084 "\c[" => '\c[', # unused
3085 "\c\\" => '\c\\', # unused
3086 "\c]" => '\c]', # unused
3087 "\c_" => '\c_', # unused
3090 # character escapes, but not delimiters that might need to be escaped
3091 sub escape_str { # ASCII, UTF8
3093 $str =~ s/(.)/ord($1) > 255 ? sprintf("\\x{%x}", ord($1)) : $1/eg;
3095 # $str =~ s/\cH/\\b/g; # \b means something different in a regex
3101 $str =~ s/([\cA-\cZ])/$unctrl{$1}/ge;
3102 $str =~ s/([[:^print:]])/sprintf("\\%03o", ord($1))/ge;
3106 # For regexes with the /x modifier.
3107 # Leave whitespace unmangled.
3108 sub escape_extended_re {
3110 $str =~ s/(.)/ord($1) > 255 ? sprintf("\\x{%x}", ord($1)) : $1/eg;
3111 $str =~ s/([[:^print:]])/
3112 ($1 =~ y! \t\n!!) ? $1 : sprintf("\\%03o", ord($1))/ge;
3113 $str =~ s/\n/\n\f/g;
3117 # Don't do this for regexen
3120 $str =~ s/\\/\\\\/g;
3124 # Remove backslashes which precede literal control characters,
3125 # to avoid creating ambiguity when we escape the latter.
3129 # the insane complexity here is due to the behaviour of "\c\"
3130 $str =~ s/(^|[^\\]|\\c\\)(?<!\\c)\\(\\\\)*(?=[[:^print:]])/$1$2/g;
3134 sub balanced_delim {
3136 my @str = split //, $str;
3137 my($ar, $open, $close, $fail, $c, $cnt);
3138 for $ar (['[',']'], ['(',')'], ['<','>'], ['{','}']) {
3139 ($open, $close) = @$ar;
3140 $fail = 0; $cnt = 0;
3144 } elsif ($c eq $close) {
3153 $fail = 1 if $cnt != 0;
3154 return ($open, "$open$str$close") if not $fail;
3160 my($q, $default, $str) = @_;
3161 return "$default$str$default" if $default and index($str, $default) == -1;
3163 (my $succeed, $str) = balanced_delim($str);
3164 return "$q$str" if $succeed;
3166 for my $delim ('/', '"', '#') {
3167 return "$q$delim" . $str . $delim if index($str, $delim) == -1;
3170 $str =~ s/$default/\\$default/g;
3171 return "$default$str$default";
3180 if (class($sv) eq "SPECIAL") {
3181 return ('undef', '1', '0')[$$sv-1]; # sv_undef, sv_yes, sv_no
3182 } elsif (class($sv) eq "NULL") {
3184 } elsif ($sv->FLAGS & SVf_IOK) {
3185 return $sv->int_value;
3186 } elsif ($sv->FLAGS & SVf_NOK) {
3187 # try the default stringification
3190 # If it's in scientific notation, we might have lost information
3191 return sprintf("%.20e", $sv->NV);
3194 } elsif ($sv->FLAGS & SVf_ROK && $sv->can("RV")) {
3195 return "\\(" . const($sv->RV) . ")"; # constant folded
3196 } elsif ($sv->FLAGS & SVf_POK) {
3198 if ($str =~ /[^ -~]/) { # ASCII for non-printing
3199 return single_delim("qq", '"', uninterp escape_str unback $str);
3201 return single_delim("q", "'", unback $str);
3212 # the constant could be in the pad (under useithreads)
3213 $sv = $self->padval($op->targ) unless $$sv;
3220 if ($op->private & OPpCONST_ARYBASE) {
3223 # if ($op->private & OPpCONST_BARE) { # trouble with `=>' autoquoting
3224 # return $self->const_sv($op)->PV;
3226 my $sv = $self->const_sv($op);
3227 # return const($sv);
3229 return $c =~ /^-\d/ ? $self->maybe_parens($c, $cx, 21) : $c;
3235 my $type = $op->name;
3236 if ($type eq "const") {
3237 return '$[' if $op->private & OPpCONST_ARYBASE;
3238 return uninterp(escape_str(unback($self->const_sv($op)->as_string)));
3239 } elsif ($type eq "concat") {
3240 my $first = $self->dq($op->first);
3241 my $last = $self->dq($op->last);
3243 # Disambiguate "${foo}bar", "${foo}{bar}", "${foo}[1]"
3244 ($last =~ /^[A-Z\\\^\[\]_?]/ &&
3245 $first =~ s/([\$@])\^$/${1}{^}/) # "${^}W" etc
3246 || ($last =~ /^[{\[\w_]/ &&
3247 $first =~ s/([\$@])([A-Za-z_]\w*)$/${1}{$2}/);
3249 return $first . $last;
3250 } elsif ($type eq "uc") {
3251 return '\U' . $self->dq($op->first->sibling) . '\E';
3252 } elsif ($type eq "lc") {
3253 return '\L' . $self->dq($op->first->sibling) . '\E';
3254 } elsif ($type eq "ucfirst") {
3255 return '\u' . $self->dq($op->first->sibling);
3256 } elsif ($type eq "lcfirst") {
3257 return '\l' . $self->dq($op->first->sibling);
3258 } elsif ($type eq "quotemeta") {
3259 return '\Q' . $self->dq($op->first->sibling) . '\E';
3260 } elsif ($type eq "join") {
3261 return $self->deparse($op->last, 26); # was join($", @ary)
3263 return $self->deparse($op, 26);
3271 return single_delim("qx", '`', $self->dq($op->first->sibling));
3277 my $kid = $op->first->sibling; # skip ex-stringify, pushmark
3278 return $self->deparse($kid, $cx) if $self->{'unquote'};
3279 $self->maybe_targmy($kid, $cx,
3280 sub {single_delim("qq", '"', $self->dq($_[1]))});
3283 # OP_STRINGIFY is a listop, but it only ever has one arg
3284 sub pp_stringify { maybe_targmy(@_, \&dquote) }
3286 # tr/// and s/// (and tr[][], tr[]//, tr###, etc)
3287 # note that tr(from)/to/ is OK, but not tr/from/(to)
3289 my($from, $to) = @_;
3290 my($succeed, $delim);
3291 if ($from !~ m[/] and $to !~ m[/]) {
3292 return "/$from/$to/";
3293 } elsif (($succeed, $from) = balanced_delim($from) and $succeed) {
3294 if (($succeed, $to) = balanced_delim($to) and $succeed) {
3297 for $delim ('/', '"', '#') { # note no `'' -- s''' is special
3298 return "$from$delim$to$delim" if index($to, $delim) == -1;
3301 return "$from/$to/";
3304 for $delim ('/', '"', '#') { # note no '
3305 return "$delim$from$delim$to$delim"
3306 if index($to . $from, $delim) == -1;
3308 $from =~ s[/][\\/]g;
3310 return "/$from/$to/";
3314 # Only used by tr///, so backslashes hyphens
3317 if ($n == ord '\\') {
3319 } elsif ($n == ord "-") {
3321 } elsif ($n >= ord(' ') and $n <= ord('~')) {
3323 } elsif ($n == ord "\a") {
3325 } elsif ($n == ord "\b") {
3327 } elsif ($n == ord "\t") {
3329 } elsif ($n == ord "\n") {
3331 } elsif ($n == ord "\e") {
3333 } elsif ($n == ord "\f") {
3335 } elsif ($n == ord "\r") {
3337 } elsif ($n >= ord("\cA") and $n <= ord("\cZ")) {
3338 return '\\c' . chr(ord("@") + $n);
3340 # return '\x' . sprintf("%02x", $n);
3341 return '\\' . sprintf("%03o", $n);
3347 my($str, $c, $tr) = ("");
3348 for ($c = 0; $c < @chars; $c++) {
3351 if ($c <= $#chars - 2 and $chars[$c + 1] == $tr + 1 and
3352 $chars[$c + 2] == $tr + 2)
3354 for (; $c <= $#chars-1 and $chars[$c + 1] == $chars[$c] + 1; $c++)
3357 $str .= pchr($chars[$c]);
3363 sub tr_decode_byte {
3364 my($table, $flags) = @_;
3365 my(@table) = unpack("s*", $table);
3366 splice @table, 0x100, 1; # Number of subsequent elements
3367 my($c, $tr, @from, @to, @delfrom, $delhyphen);
3368 if ($table[ord "-"] != -1 and
3369 $table[ord("-") - 1] == -1 || $table[ord("-") + 1] == -1)
3371 $tr = $table[ord "-"];
3372 $table[ord "-"] = -1;
3376 } else { # -2 ==> delete
3380 for ($c = 0; $c < @table; $c++) {
3383 push @from, $c; push @to, $tr;
3384 } elsif ($tr == -2) {
3388 @from = (@from, @delfrom);
3389 if ($flags & OPpTRANS_COMPLEMENT) {
3392 @from{@from} = (1) x @from;
3393 for ($c = 0; $c < 256; $c++) {
3394 push @newfrom, $c unless $from{$c};
3398 unless ($flags & OPpTRANS_DELETE || !@to) {
3399 pop @to while $#to and $to[$#to] == $to[$#to -1];
3402 $from = collapse(@from);
3403 $to = collapse(@to);
3404 $from .= "-" if $delhyphen;
3405 return ($from, $to);
3410 if ($x == ord "-") {
3412 } elsif ($x == ord "\\") {
3419 # XXX This doesn't yet handle all cases correctly either
3421 sub tr_decode_utf8 {
3422 my($swash_hv, $flags) = @_;
3423 my %swash = $swash_hv->ARRAY;
3425 $final = $swash{'FINAL'}->IV if exists $swash{'FINAL'};
3426 my $none = $swash{"NONE"}->IV;
3427 my $extra = $none + 1;
3428 my(@from, @delfrom, @to);
3430 foreach $line (split /\n/, $swash{'LIST'}->PV) {
3431 my($min, $max, $result) = split(/\t/, $line);
3438 $result = hex $result;
3439 if ($result == $extra) {
3440 push @delfrom, [$min, $max];
3442 push @from, [$min, $max];
3443 push @to, [$result, $result + $max - $min];
3446 for my $i (0 .. $#from) {
3447 if ($from[$i][0] == ord '-') {
3448 unshift @from, splice(@from, $i, 1);
3449 unshift @to, splice(@to, $i, 1);
3451 } elsif ($from[$i][1] == ord '-') {
3454 unshift @from, ord '-';
3455 unshift @to, ord '-';
3459 for my $i (0 .. $#delfrom) {
3460 if ($delfrom[$i][0] == ord '-') {
3461 push @delfrom, splice(@delfrom, $i, 1);
3463 } elsif ($delfrom[$i][1] == ord '-') {
3465 push @delfrom, ord '-';
3469 if (defined $final and $to[$#to][1] != $final) {
3470 push @to, [$final, $final];
3472 push @from, @delfrom;
3473 if ($flags & OPpTRANS_COMPLEMENT) {
3476 for my $i (0 .. $#from) {
3477 push @newfrom, [$next, $from[$i][0] - 1];
3478 $next = $from[$i][1] + 1;
3481 for my $range (@newfrom) {
3482 if ($range->[0] <= $range->[1]) {
3487 my($from, $to, $diff);
3488 for my $chunk (@from) {
3489 $diff = $chunk->[1] - $chunk->[0];
3491 $from .= tr_chr($chunk->[0]) . "-" . tr_chr($chunk->[1]);
3492 } elsif ($diff == 1) {
3493 $from .= tr_chr($chunk->[0]) . tr_chr($chunk->[1]);
3495 $from .= tr_chr($chunk->[0]);
3498 for my $chunk (@to) {
3499 $diff = $chunk->[1] - $chunk->[0];
3501 $to .= tr_chr($chunk->[0]) . "-" . tr_chr($chunk->[1]);
3502 } elsif ($diff == 1) {
3503 $to .= tr_chr($chunk->[0]) . tr_chr($chunk->[1]);
3505 $to .= tr_chr($chunk->[0]);
3508 #$final = sprintf("%04x", $final) if defined $final;
3509 #$none = sprintf("%04x", $none) if defined $none;
3510 #$extra = sprintf("%04x", $extra) if defined $extra;
3511 #print STDERR "final: $final\n none: $none\nextra: $extra\n";
3512 #print STDERR $swash{'LIST'}->PV;
3513 return (escape_str($from), escape_str($to));
3520 if (class($op) eq "PVOP") {
3521 ($from, $to) = tr_decode_byte($op->pv, $op->private);
3522 } else { # class($op) eq "SVOP"
3523 ($from, $to) = tr_decode_utf8($op->sv->RV, $op->private);
3526 $flags .= "c" if $op->private & OPpTRANS_COMPLEMENT;
3527 $flags .= "d" if $op->private & OPpTRANS_DELETE;
3528 $to = "" if $from eq $to and $flags eq "";
3529 $flags .= "s" if $op->private & OPpTRANS_SQUASH;
3530 return "tr" . double_delim($from, $to) . $flags;
3533 # Like dq(), but different
3536 my ($op, $extended) = @_;
3538 my $type = $op->name;
3539 if ($type eq "const") {
3540 return '$[' if $op->private & OPpCONST_ARYBASE;
3541 my $unbacked = re_unback($self->const_sv($op)->as_string);
3542 return re_uninterp_extended(escape_extended_re($unbacked))
3544 return re_uninterp(escape_str($unbacked));
3545 } elsif ($type eq "concat") {
3546 my $first = $self->re_dq($op->first, $extended);
3547 my $last = $self->re_dq($op->last, $extended);
3549 # Disambiguate "${foo}bar", "${foo}{bar}", "${foo}[1]"
3550 ($last =~ /^[A-Z\\\^\[\]_?]/ &&
3551 $first =~ s/([\$@])\^$/${1}{^}/) # "${^}W" etc
3552 || ($last =~ /^[{\[\w_]/ &&
3553 $first =~ s/([\$@])([A-Za-z_]\w*)$/${1}{$2}/);
3555 return $first . $last;
3556 } elsif ($type eq "uc") {
3557 return '\U' . $self->re_dq($op->first->sibling, $extended) . '\E';
3558 } elsif ($type eq "lc") {
3559 return '\L' . $self->re_dq($op->first->sibling, $extended) . '\E';
3560 } elsif ($type eq "ucfirst") {
3561 return '\u' . $self->re_dq($op->first->sibling, $extended);
3562 } elsif ($type eq "lcfirst") {
3563 return '\l' . $self->re_dq($op->first->sibling, $extended);
3564 } elsif ($type eq "quotemeta") {
3565 return '\Q' . $self->re_dq($op->first->sibling, $extended) . '\E';
3566 } elsif ($type eq "join") {
3567 return $self->deparse($op->last, 26); # was join($", @ary)
3569 return $self->deparse($op, 26);
3574 my ($self, $op) = @_;
3575 my $type = $op->name;
3577 if ($type eq 'const') {
3580 elsif ($type =~ /^[ul]c(first)?$/ || $type eq 'quotemeta') {
3581 return $self->pure_string($op->first->sibling);
3583 elsif ($type eq 'join') {
3584 my $join_op = $op->first->sibling; # Skip pushmark
3585 return 0 unless $join_op->name eq 'null' && $join_op->targ eq OP_RV2SV;
3587 my $gvop = $join_op->first;
3588 return 0 unless $gvop->name eq 'gvsv';
3589 return 0 unless '"' eq $self->gv_name($self->gv_or_padgv($gvop));
3591 return 0 unless ${$join_op->sibling} eq ${$op->last};
3592 return 0 unless $op->last->name =~ /^(rv2|pad)av$/;
3594 elsif ($type eq 'concat') {
3595 return $self->pure_string($op->first)
3596 && $self->pure_string($op->last);
3598 elsif (is_scalar($op) || $type =~ /^[ah]elem(fast)?$/) {
3610 my($op, $cx, $extended) = @_;
3611 my $kid = $op->first;
3612 $kid = $kid->first if $kid->name eq "regcmaybe";
3613 $kid = $kid->first if $kid->name eq "regcreset";
3614 return ($self->re_dq($kid, $extended), 1) if $self->pure_string($kid);
3615 return ($self->deparse($kid, $cx), 0);
3619 my ($self, $op, $cx) = @_;
3620 return (($self->regcomp($op, $cx, 0))[0]);
3623 # osmic acid -- see osmium tetroxide
3626 map($matchwords{join "", sort split //, $_} = $_, 'cig', 'cog', 'cos', 'cogs',
3627 'cox', 'go', 'is', 'ism', 'iso', 'mig', 'mix', 'osmic', 'ox', 'sic',
3628 'sig', 'six', 'smog', 'so', 'soc', 'sog', 'xi');
3632 my($op, $cx, $name, $delim) = @_;
3633 my $kid = $op->first;
3634 my ($binop, $var, $re) = ("", "", "");
3635 if ($op->flags & OPf_STACKED) {
3637 $var = $self->deparse($kid, 20);
3638 $kid = $kid->sibling;
3641 my $extended = ($op->pmflags & PMf_EXTENDED);
3643 my $unbacked = re_unback($op->precomp);
3645 $re = re_uninterp_extended(escape_extended_re($unbacked));
3647 $re = re_uninterp(escape_str(re_unback($op->precomp)));
3649 } elsif ($kid->name ne 'regcomp') {
3650 carp("found ".$kid->name." where regcomp expected");
3652 ($re, $quote) = $self->regcomp($kid, 1, $extended);
3655 $flags .= "c" if $op->pmflags & PMf_CONTINUE;
3656 $flags .= "g" if $op->pmflags & PMf_GLOBAL;
3657 $flags .= "i" if $op->pmflags & PMf_FOLD;
3658 $flags .= "m" if $op->pmflags & PMf_MULTILINE;
3659 $flags .= "o" if $op->pmflags & PMf_KEEP;
3660 $flags .= "s" if $op->pmflags & PMf_SINGLELINE;
3661 $flags .= "x" if $op->pmflags & PMf_EXTENDED;
3662 $flags = $matchwords{$flags} if $matchwords{$flags};
3663 if ($op->pmflags & PMf_ONCE) { # only one kind of delimiter works here
3667 $re = single_delim($name, $delim, $re);
3669 $re = $re . $flags if $quote;
3671 return $self->maybe_parens("$var =~ $re", $cx, 20);
3677 sub pp_match { matchop(@_, "m", "/") }
3678 sub pp_pushre { matchop(@_, "m", "/") }
3679 sub pp_qr { matchop(@_, "qr", "") }
3684 my($kid, @exprs, $ary, $expr);
3686 # under ithreads pmreplroot is an integer, not an SV
3687 my $replroot = $kid->pmreplroot;
3688 if ( ( ref($replroot) && $$replroot ) ||
3689 ( !ref($replroot) && $replroot ) ) {
3690 $ary = $self->stash_variable('@', $self->gv_name($kid->pmreplroot));
3692 for (; !null($kid); $kid = $kid->sibling) {
3693 push @exprs, $self->deparse($kid, 6);
3696 # handle special case of split(), and split(" ") that compiles to /\s+/
3698 if ($kid->flags & OPf_SPECIAL
3699 && $exprs[0] eq '/\\s+/'
3700 && $kid->pmflags & PMf_SKIPWHITE ) {
3704 $expr = "split(" . join(", ", @exprs) . ")";
3706 return $self->maybe_parens("$ary = $expr", $cx, 7);
3712 # oxime -- any of various compounds obtained chiefly by the action of
3713 # hydroxylamine on aldehydes and ketones and characterized by the
3714 # bivalent grouping C=NOH [Webster's Tenth]
3717 map($substwords{join "", sort split //, $_} = $_, 'ego', 'egoism', 'em',
3718 'es', 'ex', 'exes', 'gee', 'go', 'goes', 'ie', 'ism', 'iso', 'me',
3719 'meese', 'meso', 'mig', 'mix', 'os', 'ox', 'oxime', 'see', 'seem',
3720 'seg', 'sex', 'sig', 'six', 'smog', 'sog', 'some', 'xi');
3725 my $kid = $op->first;
3726 my($binop, $var, $re, $repl) = ("", "", "", "");
3727 if ($op->flags & OPf_STACKED) {
3729 $var = $self->deparse($kid, 20);
3730 $kid = $kid->sibling;
3733 if (null($op->pmreplroot)) {
3734 $repl = $self->dq($kid);
3735 $kid = $kid->sibling;
3737 $repl = $op->pmreplroot->first; # skip substcont
3738 while ($repl->name eq "entereval") {
3739 $repl = $repl->first;
3742 if ($op->pmflags & PMf_EVAL) {
3743 $repl = $self->deparse($repl, 0, 1);
3745 $repl = $self->dq($repl);
3748 my $extended = ($op->pmflags & PMf_EXTENDED);
3750 my $unbacked = re_unback($op->precomp);
3752 $re = re_uninterp_extended(escape_extended_re($unbacked));
3755 $re = re_uninterp(escape_str($unbacked));
3758 ($re) = $self->regcomp($kid, 1, $extended);
3760 $flags .= "e" if $op->pmflags & PMf_EVAL;
3761 $flags .= "g" if $op->pmflags & PMf_GLOBAL;
3762 $flags .= "i" if $op->pmflags & PMf_FOLD;
3763 $flags .= "m" if $op->pmflags & PMf_MULTILINE;
3764 $flags .= "o" if $op->pmflags & PMf_KEEP;
3765 $flags .= "s" if $op->pmflags & PMf_SINGLELINE;
3766 $flags .= "x" if $extended;
3767 $flags = $substwords{$flags} if $substwords{$flags};
3769 return $self->maybe_parens("$var =~ s"
3770 . double_delim($re, $repl) . $flags,
3773 return "s". double_delim($re, $repl) . $flags;
3782 B::Deparse - Perl compiler backend to produce perl code
3786 B<perl> B<-MO=Deparse>[B<,-u>I<PACKAGE>][B<,-p>][B<,-q>][B<,-l>]
3787 [B<,-s>I<LETTERS>][B<,-x>I<LEVEL>] I<prog.pl>
3791 B::Deparse is a backend module for the Perl compiler that generates
3792 perl source code, based on the internal compiled structure that perl
3793 itself creates after parsing a program. The output of B::Deparse won't
3794 be exactly the same as the original source, since perl doesn't keep
3795 track of comments or whitespace, and there isn't a one-to-one
3796 correspondence between perl's syntactical constructions and their
3797 compiled form, but it will often be close. When you use the B<-p>
3798 option, the output also includes parentheses even when they are not
3799 required by precedence, which can make it easy to see if perl is
3800 parsing your expressions the way you intended.
3802 Please note that this module is mainly new and untested code and is
3803 still under development, so it may change in the future.
3807 As with all compiler backend options, these must follow directly after
3808 the '-MO=Deparse', separated by a comma but not any white space.
3814 Add '#line' declarations to the output based on the line and file
3815 locations of the original code.
3819 Print extra parentheses. Without this option, B::Deparse includes
3820 parentheses in its output only when they are needed, based on the
3821 structure of your program. With B<-p>, it uses parentheses (almost)
3822 whenever they would be legal. This can be useful if you are used to
3823 LISP, or if you want to see how perl parses your input. If you say
3825 if ($var & 0x7f == 65) {print "Gimme an A!"}
3826 print ($which ? $a : $b), "\n";
3827 $name = $ENV{USER} or "Bob";
3829 C<B::Deparse,-p> will print
3832 print('Gimme an A!')
3834 (print(($which ? $a : $b)), '???');
3835 (($name = $ENV{'USER'}) or '???')
3837 which probably isn't what you intended (the C<'???'> is a sign that
3838 perl optimized away a constant value).
3842 Disable prototype checking. With this option, all function calls are
3843 deparsed as if no prototype was defined for them. In other words,
3845 perl -MO=Deparse,-P -e 'sub foo (\@) { 1 } foo @x'
3854 making clear how the parameters are actually passed to C<foo>.
3858 Expand double-quoted strings into the corresponding combinations of
3859 concatenation, uc, ucfirst, lc, lcfirst, quotemeta, and join. For
3862 print "Hello, $world, @ladies, \u$gentlemen\E, \u\L$me!";
3866 print 'Hello, ' . $world . ', ' . join($", @ladies) . ', '
3867 . ucfirst($gentlemen) . ', ' . ucfirst(lc $me . '!');
3869 Note that the expanded form represents the way perl handles such
3870 constructions internally -- this option actually turns off the reverse
3871 translation that B::Deparse usually does. On the other hand, note that
3872 C<$x = "$y"> is not the same as C<$x = $y>: the former makes the value
3873 of $y into a string before doing the assignment.
3877 Normally, B::Deparse deparses the main code of a program, and all the subs
3878 defined in the same file. To include subs defined in other files, pass the
3879 B<-f> option with the filename. You can pass the B<-f> option several times, to
3880 include more than one secondary file. (Most of the time you don't want to
3881 use it at all.) You can also use this option to include subs which are
3882 defined in the scope of a B<#line> directive with two parameters.
3884 =item B<-s>I<LETTERS>
3886 Tweak the style of B::Deparse's output. The letters should follow
3887 directly after the 's', with no space or punctuation. The following
3888 options are available:
3894 Cuddle C<elsif>, C<else>, and C<continue> blocks. For example, print
3911 The default is not to cuddle.
3915 Indent lines by multiples of I<NUMBER> columns. The default is 4 columns.
3919 Use tabs for each 8 columns of indent. The default is to use only spaces.
3920 For instance, if the style options are B<-si4T>, a line that's indented
3921 3 times will be preceded by one tab and four spaces; if the options were
3922 B<-si8T>, the same line would be preceded by three tabs.
3924 =item B<v>I<STRING>B<.>
3926 Print I<STRING> for the value of a constant that can't be determined
3927 because it was optimized away (mnemonic: this happens when a constant
3928 is used in B<v>oid context). The end of the string is marked by a period.
3929 The string should be a valid perl expression, generally a constant.
3930 Note that unless it's a number, it probably needs to be quoted, and on
3931 a command line quotes need to be protected from the shell. Some
3932 conventional values include 0, 1, 42, '', 'foo', and
3933 'Useless use of constant omitted' (which may need to be
3934 B<-sv"'Useless use of constant omitted'.">
3935 or something similar depending on your shell). The default is '???'.
3936 If you're using B::Deparse on a module or other file that's require'd,
3937 you shouldn't use a value that evaluates to false, since the customary
3938 true constant at the end of a module will be in void context when the
3939 file is compiled as a main program.
3945 Expand conventional syntax constructions into equivalent ones that expose
3946 their internal operation. I<LEVEL> should be a digit, with higher values
3947 meaning more expansion. As with B<-q>, this actually involves turning off
3948 special cases in B::Deparse's normal operations.
3950 If I<LEVEL> is at least 3, for loops will be translated into equivalent
3951 while loops with continue blocks; for instance
3953 for ($i = 0; $i < 10; ++$i) {
3966 Note that in a few cases this translation can't be perfectly carried back
3967 into the source code -- if the loop's initializer declares a my variable,
3968 for instance, it won't have the correct scope outside of the loop.
3970 If I<LEVEL> is at least 7, if statements will be translated into equivalent
3971 expressions using C<&&>, C<?:> and C<do {}>; for instance
3973 print 'hi' if $nice;
3985 $nice and print 'hi';
3986 $nice and do { print 'hi' };
3987 $nice ? do { print 'hi' } : do { print 'bye' };
3989 Long sequences of elsifs will turn into nested ternary operators, which
3990 B::Deparse doesn't know how to indent nicely.
3994 =head1 USING B::Deparse AS A MODULE
3999 $deparse = B::Deparse->new("-p", "-sC");
4000 $body = $deparse->coderef2text(\&func);
4001 eval "sub func $body"; # the inverse operation
4005 B::Deparse can also be used on a sub-by-sub basis from other perl
4010 $deparse = B::Deparse->new(OPTIONS)
4012 Create an object to store the state of a deparsing operation and any
4013 options. The options are the same as those that can be given on the
4014 command line (see L</OPTIONS>); options that are separated by commas
4015 after B<-MO=Deparse> should be given as separate strings. Some
4016 options, like B<-u>, don't make sense for a single subroutine, so
4019 =head2 ambient_pragmas
4021 $deparse->ambient_pragmas(strict => 'all', '$[' => $[);
4023 The compilation of a subroutine can be affected by a few compiler
4024 directives, B<pragmas>. These are:
4038 Assigning to the special variable $[
4058 Ordinarily, if you use B::Deparse on a subroutine which has
4059 been compiled in the presence of one or more of these pragmas,
4060 the output will include statements to turn on the appropriate
4061 directives. So if you then compile the code returned by coderef2text,
4062 it will behave the same way as the subroutine which you deparsed.
4064 However, you may know that you intend to use the results in a
4065 particular context, where some pragmas are already in scope. In
4066 this case, you use the B<ambient_pragmas> method to describe the
4067 assumptions you wish to make.
4069 Not all of the options currently have any useful effect. See
4070 L</BUGS> for more details.
4072 The parameters it accepts are:
4078 Takes a string, possibly containing several values separated
4079 by whitespace. The special values "all" and "none" mean what you'd
4082 $deparse->ambient_pragmas(strict => 'subs refs');
4086 Takes a number, the value of the array base $[.
4094 If the value is true, then the appropriate pragma is assumed to
4095 be in the ambient scope, otherwise not.
4099 Takes a string, possibly containing a whitespace-separated list of
4100 values. The values "all" and "none" are special. It's also permissible
4101 to pass an array reference here.
4103 $deparser->ambient_pragmas(re => 'eval');
4108 Takes a string, possibly containing a whitespace-separated list of
4109 values. The values "all" and "none" are special, again. It's also
4110 permissible to pass an array reference here.
4112 $deparser->ambient_pragmas(warnings => [qw[void io]]);
4114 If one of the values is the string "FATAL", then all the warnings
4115 in that list will be considered fatal, just as with the B<warnings>
4116 pragma itself. Should you need to specify that some warnings are
4117 fatal, and others are merely enabled, you can pass the B<warnings>
4120 $deparser->ambient_pragmas(
4122 warnings => [FATAL => qw/void io/],
4125 See L<perllexwarn> for more information about lexical warnings.
4131 These two parameters are used to specify the ambient pragmas in
4132 the format used by the special variables $^H and ${^WARNING_BITS}.
4134 They exist principally so that you can write code like:
4136 { my ($hint_bits, $warning_bits);
4137 BEGIN {($hint_bits, $warning_bits) = ($^H, ${^WARNING_BITS})}
4138 $deparser->ambient_pragmas (
4139 hint_bits => $hint_bits,
4140 warning_bits => $warning_bits,
4144 which specifies that the ambient pragmas are exactly those which
4145 are in scope at the point of calling.
4151 $body = $deparse->coderef2text(\&func)
4152 $body = $deparse->coderef2text(sub ($$) { ... })
4154 Return source code for the body of a subroutine (a block, optionally
4155 preceded by a prototype in parens), given a reference to the
4156 sub. Because a subroutine can have no names, or more than one name,
4157 this method doesn't return a complete subroutine definition -- if you
4158 want to eval the result, you should prepend "sub subname ", or "sub "
4159 for an anonymous function constructor. Unless the sub was defined in
4160 the main:: package, the code will include a package declaration.
4168 The only pragmas to be completely supported are: C<use warnings>,
4169 C<use strict 'refs'>, C<use bytes>, and C<use integer>. (C<$[>, which
4170 behaves like a pragma, is also supported.)
4172 Excepting those listed above, we're currently unable to guarantee that
4173 B::Deparse will produce a pragma at the correct point in the program.
4174 Since the effects of pragmas are often lexically scoped, this can mean
4175 that the pragma holds sway over a different portion of the program
4176 than in the input file.
4180 In fact, the above is a specific instance of a more general problem:
4181 we can't guarantee to produce BEGIN blocks or C<use> declarations in
4182 exactly the right place. So if you use a module which affects compilation
4183 (such as by over-riding keywords, overloading constants or whatever)
4184 then the output code might not work as intended.
4186 This is the most serious outstanding problem, and will be very hard
4191 If a keyword is over-ridden, and your program explicitly calls
4192 the built-in version by using CORE::keyword, the output of B::Deparse
4193 will not reflect this. If you run the resulting code, it will call
4194 the over-ridden version rather than the built-in one. (Maybe there
4195 should be an option to B<always> print keyword calls as C<CORE::name>.)
4199 C<sort foo (1, 2, 3)> comes out as C<sort (foo 1, 2, 3)>, which
4200 causes perl to issue a warning.
4202 The obvious fix doesn't work, because these are different:
4204 print (FOO 1, 2, 3), 4, 5, 6;
4205 print FOO (1, 2, 3), 4, 5, 6;
4209 Constants (other than simple strings or numbers) don't work properly.
4210 Pathological examples that fail (and probably always will) include:
4212 use constant E2BIG => ($!=7);
4213 use constant x=>\$x; print x
4215 The following could (and should) be made to work:
4217 use constant regex => qr/blah/;
4222 An input file that uses source filtering probably won't be deparsed into
4223 runnable code, because it will still include the B<use> declaration
4224 for the source filtering module, even though the code that is
4225 produced is already ordinary Perl which shouldn't be filtered again.
4229 There are probably many more bugs on non-ASCII platforms (EBCDIC).
4235 Stephen McCamant <smcc@CSUA.Berkeley.EDU>, based on an earlier
4236 version by Malcolm Beattie <mbeattie@sable.ox.ac.uk>, with
4237 contributions from Gisle Aas, James Duncan, Albert Dvornik, Robin
4238 Houston, Hugo van der Sanden, Gurusamy Sarathy, Nick Ing-Simmons,
4239 and Rafael Garcia-Suarez.