Chip 2000 May

home *** CD-ROM | disk | FTP | other *** search

/ Chip 2000 May / Chip_2000-05_cd1.bin / zkuste / Perl / ActivePerl-5.6.0.613.msi / 䆊䌷䈹䈙䏵-䞅䞆䞀㡆䞃䄦䠥 / _8d48f13816a8d6158ddda57182ba40e3 < prev next >

Wrap

Text File | 2000-03-15 | 91.4 KB | 3,043 lines

# B::Deparse.pm # Copyright (c) 1998, 1999 Stephen McCamant. All rights reserved. # This module is free software; you can redistribute and/or modify # it under the same terms as Perl itself. # This is based on the module of the same name by Malcolm Beattie, # but essentially none of his code remains. package B::Deparse; use Carp 'cluck', 'croak'; use Config; use B qw(class main_root main_start main_cv svref_2object opnumber OPf_WANT OPf_WANT_VOID OPf_WANT_SCALAR OPf_WANT_LIST OPf_KIDS OPf_REF OPf_STACKED OPf_SPECIAL OPpLVAL_INTRO OPpENTERSUB_AMPER OPpSLICE OPpCONST_BARE OPpTRANS_SQUASH OPpTRANS_DELETE OPpTRANS_COMPLEMENT OPpTARGET_MY SVf_IOK SVf_NOK SVf_ROK SVf_POK PMf_KEEP PMf_GLOBAL PMf_CONTINUE PMf_EVAL PMf_ONCE PMf_MULTILINE PMf_SINGLELINE PMf_FOLD PMf_EXTENDED); $VERSION = 0.59; use strict; # Changes between 0.50 and 0.51: # - fixed nulled leave with live enter in sort { } # - fixed reference constants (\"str") # - handle empty programs gracefully # - handle infinte loops (for (;;) {}, while (1) {}) # - differentiate between `for my $x ...' and `my $x; for $x ...' # - various minor cleanups # - moved globals into an object # - added `-u', like B::C # - package declarations using cop_stash # - subs, formats and code sorted by cop_seq # Changes between 0.51 and 0.52: # - added pp_threadsv (special variables under USE_THREADS) # - added documentation # Changes between 0.52 and 0.53: # - many changes adding precedence contexts and associativity # - added `-p' and `-s' output style options # - various other minor fixes # Changes between 0.53 and 0.54: # - added support for new `for (1..100)' optimization, # thanks to Gisle Aas # Changes between 0.54 and 0.55: # - added support for new qr// construct # - added support for new pp_regcreset OP # Changes between 0.55 and 0.56: # - tested on base/*.t, cmd/*.t, comp/*.t, io/*.t # - fixed $# on non-lexicals broken in last big rewrite # - added temporary fix for change in opcode of OP_STRINGIFY # - fixed problem in 0.54's for() patch in `for (@ary)' # - fixed precedence in conditional of ?: # - tweaked list paren elimination in `my($x) = @_' # - made continue-block detection trickier wrt. null ops # - fixed various prototype problems in pp_entersub # - added support for sub prototypes that never get GVs # - added unquoting for special filehandle first arg in truncate # - print doubled rv2gv (a bug) as `*{*GV}' instead of illegal `**GV' # - added semicolons at the ends of blocks # - added -l `#line' declaration option -- fixes cmd/subval.t 27,28 # Changes between 0.56 and 0.561: # - fixed multiply-declared my var in pp_truncate (thanks to Sarathy) # - used new B.pm symbolic constants (done by Nick Ing-Simmons) # Changes between 0.561 and 0.57: # - stylistic changes to symbolic constant stuff # - handled scope in s///e replacement code # - added unquote option for expanding "" into concats, etc. # - split method and proto parts of pp_entersub into separate functions # - various minor cleanups # Changes after 0.57: # - added parens in \&foo (patch by Albert Dvornik) # Changes between 0.57 and 0.58: # - fixed `0' statements that weren't being printed # - added methods for use from other programs # (based on patches from James Duncan and Hugo van der Sanden) # - added -si and -sT to control indenting (also based on a patch from Hugo) # - added -sv to print something else instead of '???' # - preliminary version of utf8 tr/// handling # Changes after 0.58: # - uses of $op->ppaddr changed to new $op->name (done by Sarathy) # - added support for Hugo's new OP_SETSTATE (like nextstate) # Changes between 0.58 and 0.59 # - added support for Chip's OP_METHOD_NAMED # - added support for Ilya's OPpTARGET_MY optimization # - elided arrows before `()' subscripts when possible # Todo: # - finish tr/// changes # - add option for even more parens (generalize \&foo change) # - {} around variables in strings ("${var}letters") # base/lex.t 25-27 # comp/term.t 11 # - left/right context # - recognize `use utf8', `use integer', etc # - treat top-level block specially for incremental output # - interpret in high bit chars in string as utf8 \x{...} (when?) # - copy comments (look at real text with $^P?) # - avoid semis in one-statement blocks # - associativity of &&=, ||=, ?: # - ',' => '=>' (auto-unquote?) # - break long lines ("\r" as discretionary break?) # - configurable syntax highlighting: ANSI color, HTML, TeX, etc. # - more style options: brace style, hex vs. octal, quotes, ... # - print big ints as hex/octal instead of decimal (heuristic?) # - handle `my $x if 0'? # - include values of variables (e.g. set in BEGIN) # - coordinate with Data::Dumper (both directions? see previous) # - version using op_next instead of op_first/sibling? # - avoid string copies (pass arrays, one big join?) # - auto-apply `-u'? # - while{} with one-statement continue => for(; XXX; XXX) {}? # - -uPackage:: descend recursively? # - here-docs? # - <DATA>? # Tests that will always fail: # comp/redef.t -- all (redefinition happens at compile time) # Object fields (were globals): # # avoid_local: # (local($a), local($b)) and local($a, $b) have the same internal # representation but the short form looks better. We notice we can # use a large-scale local when checking the list, but need to prevent # individual locals too. This hash holds the addresses of OPs that # have already had their local-ness accounted for. The same thing # is done with my(). # # curcv: # CV for current sub (or main program) being deparsed # # curstash: # name of the current package for deparsed code # # subs_todo: # array of [cop_seq, GV, is_format?] for subs and formats we still # want to deparse # # protos_todo: # as above, but [name, prototype] for subs that never got a GV # # subs_done, forms_done: # keys are addresses of GVs for subs and formats we've already # deparsed (or at least put into subs_todo) # # parens: -p # linenums: -l # unquote: -q # cuddle: ` ' or `\n', depending on -sC # indent_size: -si # use_tabs: -sT # ex_const: -sv # A little explanation of how precedence contexts and associativity # work: # # deparse() calls each per-op subroutine with an argument $cx (short # for context, but not the same as the cx* in the perl core), which is # a number describing the op's parents in terms of precedence, whether # they're inside an expression or at statement level, etc. (see # chart below). When ops with children call deparse on them, they pass # along their precedence. Fractional values are used to implement # associativity (`($x + $y) + $z' => `$x + $y + $y') and related # parentheses hacks. The major disadvantage of this scheme is that # it doesn't know about right sides and left sides, so say if you # assign a listop to a variable, it can't tell it's allowed to leave # the parens off the listop. # Precedences: # 26 [TODO] inside interpolation context ("") # 25 left terms and list operators (leftward) # 24 left -> # 23 nonassoc ++ -- # 22 right ** # 21 right ! ~ \ and unary + and - # 20 left =~ !~ # 19 left * / % x # 18 left + - . # 17 left << >> # 16 nonassoc named unary operators # 15 nonassoc < > <= >= lt gt le ge # 14 nonassoc == != <=> eq ne cmp # 13 left & # 12 left | ^ # 11 left && # 10 left || # 9 nonassoc .. ... # 8 right ?: # 7 right = += -= *= etc. # 6 left , => # 5 nonassoc list operators (rightward) # 4 right not # 3 left and # 2 left or xor # 1 statement modifiers # 0 statement level # Nonprinting characters with special meaning: # \cS - steal parens (see maybe_parens_unop) # \n - newline and indent # \t - increase indent # \b - decrease indent (`outdent') # \f - flush left (no indent) # \cK - kill following semicolon, if any sub null { my $op = shift; return class($op) eq "NULL"; } sub todo { my $self = shift; my($gv, $cv, $is_form) = @_; my $seq; if (!null($cv->START) and is_state($cv->START)) { $seq = $cv->START->cop_seq; } else { $seq = 0; } push @{$self->{'subs_todo'}}, [$seq, $gv, $is_form]; } sub next_todo { my $self = shift; my $ent = shift @{$self->{'subs_todo'}}; my $name = $self->gv_name($ent->[1]); if ($ent->[2]) { return "format $name =\n" . $self->deparse_format($ent->[1]->FORM). "\n"; } else { return "sub $name " . $self->deparse_sub($ent->[1]->CV); } } sub walk_tree { my($op, $sub) = @_; $sub->($op); if ($op->flags & OPf_KIDS) { my $kid; for ($kid = $op->first; not null $kid; $kid = $kid->sibling) { walk_tree($kid, $sub); } } } sub walk_sub { my $self = shift; my $cv = shift; my $op = $cv->ROOT; $op = shift if null $op; return if !$op or null $op; walk_tree($op, sub { my $op = shift; if ($op->name eq "gv") { my $gv = $self->maybe_padgv($op); if ($op->next->name eq "entersub") { next if $self->{'subs_done'}{$$gv}++; next if class($gv->CV) eq "SPECIAL"; $self->todo($gv, $gv->CV, 0); $self->walk_sub($gv->CV); } elsif ($op->next->name eq "enterwrite" or ($op->next->name eq "rv2gv" and $op->next->next->name eq "enterwrite")) { next if $self->{'forms_done'}{$$gv}++; next if class($gv->FORM) eq "SPECIAL"; $self->todo($gv, $gv->FORM, 1); $self->walk_sub($gv->FORM); } } }); } sub stash_subs { my $self = shift; my $pack = shift; my(%stash, @ret); { no strict 'refs'; %stash = svref_2object(\%{$pack . "::"})->ARRAY } if ($pack eq "main") { $pack = ""; } else { $pack = $pack . "::"; } my($key, $val); while (($key, $val) = each %stash) { my $class = class($val); if ($class eq "PV") { # Just a prototype push @{$self->{'protos_todo'}}, [$pack . $key, $val->PV]; } elsif ($class eq "IV") { # Just a name push @{$self->{'protos_todo'}}, [$pack . $key, undef]; } elsif ($class eq "GV") { if (class($val->CV) ne "SPECIAL") { next if $self->{'subs_done'}{$$val}++; $self->todo($val, $val->CV, 0); $self->walk_sub($val->CV); } if (class($val->FORM) ne "SPECIAL") { next if $self->{'forms_done'}{$$val}++; $self->todo($val, $val->FORM, 1); $self->walk_sub($val->FORM); } } } } sub print_protos { my $self = shift; my $ar; my @ret; foreach $ar (@{$self->{'protos_todo'}}) { my $proto = (defined $ar->[1] ? " (". $ar->[1] . ")" : ""); push @ret, "sub " . $ar->[0] . "$proto;\n"; } delete $self->{'protos_todo'}; return @ret; } sub style_opts { my $self = shift; my $opts = shift; my $opt; while (length($opt = substr($opts, 0, 1))) { if ($opt eq "C") { $self->{'cuddle'} = " "; $opts = substr($opts, 1); } elsif ($opt eq "i") { $opts =~ s/^i(\d+)//; $self->{'indent_size'} = $1; } elsif ($opt eq "T") { $self->{'use_tabs'} = 1; $opts = substr($opts, 1); } elsif ($opt eq "v") { $opts =~ s/^v([^.]*)(.|$)//; $self->{'ex_const'} = $1; } } } sub new { my $class = shift; my $self = bless {}, $class; $self->{'subs_todo'} = []; $self->{'curstash'} = "main"; $self->{'cuddle'} = "\n"; $self->{'indent_size'} = 4; $self->{'use_tabs'} = 0; $self->{'ex_const'} = "'???'"; while (my $arg = shift @_) { if (substr($arg, 0, 2) eq "-u") { $self->stash_subs(substr($arg, 2)); } elsif ($arg eq "-p") { $self->{'parens'} = 1; } elsif ($arg eq "-l") { $self->{'linenums'} = 1; } elsif ($arg eq "-q") { $self->{'unquote'} = 1; } elsif (substr($arg, 0, 2) eq "-s") { $self->style_opts(substr $arg, 2); } } return $self; } sub compile { my(@args) = @_; return sub { my $self = B::Deparse->new(@args); $self->stash_subs("main"); $self->{'curcv'} = main_cv; $self->walk_sub(main_cv, main_start); print $self->print_protos; @{$self->{'subs_todo'}} = sort {$a->[0] <=> $b->[0]} @{$self->{'subs_todo'}}; print $self->indent($self->deparse(main_root, 0)), "\n" unless null main_root; my @text; while (scalar(@{$self->{'subs_todo'}})) { push @text, $self->next_todo; } print indent(join("", @text)), "\n" if @text; } } sub coderef2text { my $self = shift; my $sub = shift; croak "Usage: ->coderef2text(CODEREF)" unless ref($sub) eq "CODE"; return $self->indent($self->deparse_sub(svref_2object($sub))); } sub deparse { my $self = shift; my($op, $cx) = @_; # cluck if class($op) eq "NULL"; # return $self->$ {\("pp_" . $op->name)}($op, $cx); my $meth = "pp_" . $op->name; return $self->$meth($op, $cx); } sub indent { my $self = shift; my $txt = shift; my @lines = split(/\n/, $txt); my $leader = ""; my $level = 0; my $line; for $line (@lines) { my $cmd = substr($line, 0, 1); if ($cmd eq "\t" or $cmd eq "\b") { $level += ($cmd eq "\t" ? 1 : -1) * $self->{'indent_size'}; if ($self->{'use_tabs'}) { $leader = "\t" x ($level / 8) . " " x ($level % 8); } else { $leader = " " x $level; } $line = substr($line, 1); } if (substr($line, 0, 1) eq "\f") { $line = substr($line, 1); # no indent } else { $line = $leader . $line; } $line =~ s/\cK;?//g; } return join("\n", @lines); } sub deparse_sub { my $self = shift; my $cv = shift; my $proto = ""; if ($cv->FLAGS & SVf_POK) { $proto = "(". $cv->PV . ") "; } local($self->{'curcv'}) = $cv; local($self->{'curstash'}) = $self->{'curstash'}; if (not null $cv->ROOT) { # skip leavesub return $proto . "{\n\t" . $self->deparse($cv->ROOT->first, 0) . "\n\b}\n"; } else { # XSUB? return $proto . "{}\n"; } } sub deparse_format { my $self = shift; my $form = shift; my @text; local($self->{'curcv'}) = $form; local($self->{'curstash'}) = $self->{'curstash'}; my $op = $form->ROOT; my $kid; $op = $op->first->first; # skip leavewrite, lineseq while (not null $op) { $op = $op->sibling; # skip nextstate my @exprs; $kid = $op->first->sibling; # skip pushmark push @text, $self->const_sv($kid)->PV; $kid = $kid->sibling; for (; not null $kid; $kid = $kid->sibling) { push @exprs, $self->deparse($kid, 0); } push @text, join(", ", @exprs)."\n" if @exprs; $op = $op->sibling; } return join("", @text) . "."; } sub is_scope { my $op = shift; return $op->name eq "leave" || $op->name eq "scope" || $op->name eq "lineseq" || ($op->name eq "null" && class($op) eq "UNOP" && (is_scope($op->first) || $op->first->name eq "enter")); } sub is_state { my $name = $_[0]->name; return $name eq "nextstate" || $name eq "dbstate" || $name eq "setstate"; } sub is_miniwhile { # check for one-line loop (`foo() while $y--') my $op = shift; return (!null($op) and null($op->sibling) and $op->name eq "null" and class($op) eq "UNOP" and (($op->first->name =~ /^(and|or)$/ and $op->first->first->sibling->name eq "lineseq") or ($op->first->name eq "lineseq" and not null $op->first->first->sibling and $op->first->first->sibling->name eq "unstack") )); } sub is_scalar { my $op = shift; return ($op->name eq "rv2sv" or $op->name eq "padsv" or $op->name eq "gv" or # only in array/hash constructs $op->flags & OPf_KIDS && !null($op->first) && $op->first->name eq "gvsv"); } sub maybe_parens { my $self = shift; my($text, $cx, $prec) = @_; if ($prec < $cx # unary ops nest just fine or $prec == $cx and $cx != 4 and $cx != 16 and $cx != 21 or $self->{'parens'}) { $text = "($text)"; # In a unop, let parent reuse our parens; see maybe_parens_unop $text = "\cS" . $text if $cx == 16; return $text; } else { return $text; } } # same as above, but get around the `if it looks like a function' rule sub maybe_parens_unop { my $self = shift; my($name, $kid, $cx) = @_; if ($cx > 16 or $self->{'parens'}) { return "$name(" . $self->deparse($kid, 1) . ")"; } else { $kid = $self->deparse($kid, 16); if (substr($kid, 0, 1) eq "\cS") { # use kid's parens return $name . substr($kid, 1); } elsif (substr($kid, 0, 1) eq "(") { # avoid looks-like-a-function trap with extra parens # (`+' can lead to ambiguities) return "$name(" . $kid . ")"; } else { return "$name $kid"; } } } sub maybe_parens_func { my $self = shift; my($func, $text, $cx, $prec) = @_; if ($prec <= $cx or substr($text, 0, 1) eq "(" or $self->{'parens'}) { return "$func($text)"; } else { return "$func $text"; } } sub maybe_local { my $self = shift; my($op, $cx, $text) = @_; if ($op->private & OPpLVAL_INTRO and not $self->{'avoid_local'}{$$op}) { return $self->maybe_parens_func("local", $text, $cx, 16); } else { return $text; } } sub maybe_targmy { my $self = shift; my($op, $cx, $func, @args) = @_; if ($op->private & OPpTARGET_MY) { my $var = $self->padname($op->targ); my $val = $func->($self, $op, 7, @args); return $self->maybe_parens("$var = $val", $cx, 7); } else { return $func->($self, $op, $cx, @args); } } sub padname_sv { my $self = shift; my $targ = shift; return (($self->{'curcv'}->PADLIST->ARRAY)[0]->ARRAY)[$targ]; } sub maybe_my { my $self = shift; my($op, $cx, $text) = @_; if ($op->private & OPpLVAL_INTRO and not $self->{'avoid_local'}{$$op}) { return $self->maybe_parens_func("my", $text, $cx, 16); } else { return $text; } } # The following OPs don't have functions: # pp_padany -- does not exist after parsing # pp_rcatline -- does not exist sub pp_enter { # see also leave cluck "unexpected OP_ENTER"; return "XXX"; } sub pp_pushmark { # see also list cluck "unexpected OP_PUSHMARK"; return "XXX"; } sub pp_leavesub { # see also deparse_sub cluck "unexpected OP_LEAVESUB"; return "XXX"; } sub pp_leavewrite { # see also deparse_format cluck "unexpected OP_LEAVEWRITE"; return "XXX"; } sub pp_method { # see also entersub cluck "unexpected OP_METHOD"; return "XXX"; } sub pp_regcmaybe { # see also regcomp cluck "unexpected OP_REGCMAYBE"; return "XXX"; } sub pp_regcreset { # see also regcomp cluck "unexpected OP_REGCRESET"; return "XXX"; } sub pp_substcont { # see also subst cluck "unexpected OP_SUBSTCONT"; return "XXX"; } sub pp_grepstart { # see also grepwhile cluck "unexpected OP_GREPSTART"; return "XXX"; } sub pp_mapstart { # see also mapwhile cluck "unexpected OP_MAPSTART"; return "XXX"; } sub pp_flip { # see also flop cluck "unexpected OP_FLIP"; return "XXX"; } sub pp_iter { # see also leaveloop cluck "unexpected OP_ITER"; return "XXX"; } sub pp_enteriter { # see also leaveloop cluck "unexpected OP_ENTERITER"; return "XXX"; } sub pp_enterloop { # see also leaveloop cluck "unexpected OP_ENTERLOOP"; return "XXX"; } sub pp_leaveeval { # see also entereval cluck "unexpected OP_LEAVEEVAL"; return "XXX"; } sub pp_entertry { # see also leavetry cluck "unexpected OP_ENTERTRY"; return "XXX"; } # leave and scope/lineseq should probably share code sub pp_leave { my $self = shift; my($op, $cx) = @_; my ($kid, $expr); my @exprs; local($self->{'curstash'}) = $self->{'curstash'}; $kid = $op->first->sibling; # skip enter if (is_miniwhile($kid)) { my $top = $kid->first; my $name = $top->name; if ($name eq "and") { $name = "while"; } elsif ($name eq "or") { $name = "until"; } else { # no conditional -> while 1 or until 0 return $self->deparse($top->first, 1) . " while 1"; } my $cond = $top->first; my $body = $cond->sibling->first; # skip lineseq $cond = $self->deparse($cond, 1); $body = $self->deparse($body, 1); return "$body $name $cond"; } for (; !null($kid); $kid = $kid->sibling) { $expr = ""; if (is_state $kid) { $expr = $self->deparse($kid, 0); $kid = $kid->sibling; last if null $kid; } $expr .= $self->deparse($kid, 0); push @exprs, $expr if length $expr; } if ($cx > 0) { # inside an expression return "do { " . join(";\n", @exprs) . " }"; } else { return join(";\n", @exprs) . ";"; } } sub pp_scope { my $self = shift; my($op, $cx) = @_; my ($kid, $expr); my @exprs; for ($kid = $op->first; !null($kid); $kid = $kid->sibling) { $expr = ""; if (is_state $kid) { $expr = $self->deparse($kid, 0); $kid = $kid->sibling; last if null $kid; } $expr .= $self->deparse($kid, 0); push @exprs, $expr if length $expr; } if ($cx > 0) { # inside an expression, (a do {} while for lineseq) return "do { " . join(";\n", @exprs) . " }"; } else { return join(";\n", @exprs) . ";"; } } sub pp_lineseq { pp_scope(@_) } # The BEGIN {} is used here because otherwise this code isn't executed # when you run B::Deparse on itself. my %globalnames; BEGIN { map($globalnames{$_}++, "SIG", "STDIN", "STDOUT", "STDERR", "INC", "ENV", "ARGV", "ARGVOUT", "_"); } sub gv_name { my $self = shift; my $gv = shift; my $stash = $gv->STASH->NAME; my $name = $gv->NAME; if ($stash eq $self->{'curstash'} or $globalnames{$name} or $name =~ /^[^A-Za-z_]/) { $stash = ""; } else { $stash = $stash . "::"; } if ($name =~ /^([\cA-\cZ])$/) { $name = "^" . chr(64 + ord($1)); } return $stash . $name; } # Notice how subs and formats are inserted between statements here sub pp_nextstate { my $self = shift; my($op, $cx) = @_; my @text; @text = $op->label . ": " if $op->label; my $seq = $op->cop_seq; while (scalar(@{$self->{'subs_todo'}}) and $seq > $self->{'subs_todo'}[0][0]) { push @text, $self->next_todo; } my $stash = $op->stashpv; if ($stash ne $self->{'curstash'}) { push @text, "package $stash;\n"; $self->{'curstash'} = $stash; } if ($self->{'linenums'}) { push @text, "\f#line " . $op->line . ' "' . $op->file, qq'"\n'; } return join("", @text); } sub pp_dbstate { pp_nextstate(@_) } sub pp_setstate { pp_nextstate(@_) } sub pp_unstack { return "" } # see also leaveloop sub baseop { my $self = shift; my($op, $cx, $name) = @_; return $name; } sub pp_stub { baseop(@_, "()") } sub pp_wantarray { baseop(@_, "wantarray") } sub pp_fork { baseop(@_, "fork") } sub pp_wait { maybe_targmy(@_, \&baseop, "wait") } sub pp_getppid { maybe_targmy(@_, \&baseop, "getppid") } sub pp_time { maybe_targmy(@_, \&baseop, "time") } sub pp_tms { baseop(@_, "times") } sub pp_ghostent { baseop(@_, "gethostent") } sub pp_gnetent { baseop(@_, "getnetent") } sub pp_gprotoent { baseop(@_, "getprotoent") } sub pp_gservent { baseop(@_, "getservent") } sub pp_ehostent { baseop(@_, "endhostent") } sub pp_enetent { baseop(@_, "endnetent") } sub pp_eprotoent { baseop(@_, "endprotoent") } sub pp_eservent { baseop(@_, "endservent") } sub pp_gpwent { baseop(@_, "getpwent") } sub pp_spwent { baseop(@_, "setpwent") } sub pp_epwent { baseop(@_, "endpwent") } sub pp_ggrent { baseop(@_, "getgrent") } sub pp_sgrent { baseop(@_, "setgrent") } sub pp_egrent { baseop(@_, "endgrent") } sub pp_getlogin { baseop(@_, "getlogin") } sub POSTFIX () { 1 } # I couldn't think of a good short name, but this is the category of # symbolic unary operators with interesting precedence sub pfixop { my $self = shift; my($op, $cx, $name, $prec, $flags) = (@_, 0); my $kid = $op->first; $kid = $self->deparse($kid, $prec); return $self->maybe_parens(($flags & POSTFIX) ? "$kid$name" : "$name$kid", $cx, $prec); } sub pp_preinc { pfixop(@_, "++", 23) } sub pp_predec { pfixop(@_, "--", 23) } sub pp_postinc { maybe_targmy(@_, \&pfixop, "++", 23, POSTFIX) } sub pp_postdec { maybe_targmy(@_, \&pfixop, "--", 23, POSTFIX) } sub pp_i_preinc { pfixop(@_, "++", 23) } sub pp_i_predec { pfixop(@_, "--", 23) } sub pp_i_postinc { maybe_targmy(@_, \&pfixop, "++", 23, POSTFIX) } sub pp_i_postdec { maybe_targmy(@_, \&pfixop, "--", 23, POSTFIX) } sub pp_complement { maybe_targmy(@_. \&pfixop, "~", 21) } sub pp_negate { maybe_targmy(@_, \&real_negate) } sub real_negate { my $self = shift; my($op, $cx) = @_; if ($op->first->name =~ /^(i_)?negate$/) { # avoid --$x $self->pfixop($op, $cx, "-", 21.5); } else { $self->pfixop($op, $cx, "-", 21); } } sub pp_i_negate { pp_negate(@_) } sub pp_not { my $self = shift; my($op, $cx) = @_; if ($cx <= 4) { $self->pfixop($op, $cx, "not ", 4); } else { $self->pfixop($op, $cx, "!", 21); } } sub unop { my $self = shift; my($op, $cx, $name) = @_; my $kid; if ($op->flags & OPf_KIDS) { $kid = $op->first; return $self->maybe_parens_unop($name, $kid, $cx); } else { return $name . ($op->flags & OPf_SPECIAL ? "()" : ""); } } sub pp_chop { maybe_targmy(@_, \&unop, "chop") } sub pp_chomp { maybe_targmy(@_, \&unop, "chomp") } sub pp_schop { maybe_targmy(@_, \&unop, "chop") } sub pp_schomp { maybe_targmy(@_, \&unop, "chomp") } sub pp_defined { unop(@_, "defined") } sub pp_undef { unop(@_, "undef") } sub pp_study { unop(@_, "study") } sub pp_ref { unop(@_, "ref") } sub pp_pos { maybe_local(@_, unop(@_, "pos")) } sub pp_sin { maybe_targmy(@_, \&unop, "sin") } sub pp_cos { maybe_targmy(@_, \&unop, "cos") } sub pp_rand { maybe_targmy(@_, \&unop, "rand") } sub pp_srand { unop(@_, "srand") } sub pp_exp { maybe_targmy(@_, \&unop, "exp") } sub pp_log { maybe_targmy(@_, \&unop, "log") } sub pp_sqrt { maybe_targmy(@_, \&unop, "sqrt") } sub pp_int { maybe_targmy(@_, \&unop, "int") } sub pp_hex { maybe_targmy(@_, \&unop, "hex") } sub pp_oct { maybe_targmy(@_, \&unop, "oct") } sub pp_abs { maybe_targmy(@_, \&unop, "abs") } sub pp_length { maybe_targmy(@_, \&unop, "length") } sub pp_ord { maybe_targmy(@_, \&unop, "ord") } sub pp_chr { maybe_targmy(@_, \&unop, "chr") } sub pp_each { unop(@_, "each") } sub pp_values { unop(@_, "values") } sub pp_keys { unop(@_, "keys") } sub pp_pop { unop(@_, "pop") } sub pp_shift { unop(@_, "shift") } sub pp_caller { unop(@_, "caller") } sub pp_reset { unop(@_, "reset") } sub pp_exit { unop(@_, "exit") } sub pp_prototype { unop(@_, "prototype") } sub pp_close { unop(@_, "close") } sub pp_fileno { unop(@_, "fileno") } sub pp_umask { unop(@_, "umask") } sub pp_binmode { unop(@_, "binmode") } sub pp_untie { unop(@_, "untie") } sub pp_tied { unop(@_, "tied") } sub pp_dbmclose { unop(@_, "dbmclose") } sub pp_getc { unop(@_, "getc") } sub pp_eof { unop(@_, "eof") } sub pp_tell { unop(@_, "tell") } sub pp_getsockname { unop(@_, "getsockname") } sub pp_getpeername { unop(@_, "getpeername") } sub pp_chdir { maybe_targmy(@_, \&unop, "chdir") } sub pp_chroot { maybe_targmy(@_, \&unop, "chroot") } sub pp_readlink { unop(@_, "readlink") } sub pp_rmdir { maybe_targmy(@_, \&unop, "rmdir") } sub pp_readdir { unop(@_, "readdir") } sub pp_telldir { unop(@_, "telldir") } sub pp_rewinddir { unop(@_, "rewinddir") } sub pp_closedir { unop(@_, "closedir") } sub pp_getpgrp { maybe_targmy(@_, \&unop, "getpgrp") } sub pp_localtime { unop(@_, "localtime") } sub pp_gmtime { unop(@_, "gmtime") } sub pp_alarm { unop(@_, "alarm") } sub pp_sleep { maybe_targmy(@_, \&unop, "sleep") } sub pp_dofile { unop(@_, "do") } sub pp_entereval { unop(@_, "eval") } sub pp_ghbyname { unop(@_, "gethostbyname") } sub pp_gnbyname { unop(@_, "getnetbyname") } sub pp_gpbyname { unop(@_, "getprotobyname") } sub pp_shostent { unop(@_, "sethostent") } sub pp_snetent { unop(@_, "setnetent") } sub pp_sprotoent { unop(@_, "setprotoent") } sub pp_sservent { unop(@_, "setservent") } sub pp_gpwnam { unop(@_, "getpwnam") } sub pp_gpwuid { unop(@_, "getpwuid") } sub pp_ggrnam { unop(@_, "getgrnam") } sub pp_ggrgid { unop(@_, "getgrgid") } sub pp_lock { unop(@_, "lock") } sub pp_exists { my $self = shift; my($op, $cx) = @_; return $self->maybe_parens_func("exists", $self->pp_helem($op->first, 16), $cx, 16); } sub pp_delete { my $self = shift; my($op, $cx) = @_; my $arg; if ($op->private & OPpSLICE) { return $self->maybe_parens_func("delete", $self->pp_hslice($op->first, 16), $cx, 16); } else { return $self->maybe_parens_func("delete", $self->pp_helem($op->first, 16), $cx, 16); } } sub pp_require { my $self = shift; my($op, $cx) = @_; if (class($op) eq "UNOP" and $op->first->name eq "const" and $op->first->private & OPpCONST_BARE) { my $name = $self->const_sv($op->first)->PV; $name =~ s[/][::]g; $name =~ s/\.pm//g; return "require($name)"; } else { $self->unop($op, $cx, "require"); } } sub pp_scalar { my $self = shift; my($op, $cv) = @_; my $kid = $op->first; if (not null $kid->sibling) { # XXX Was a here-doc return $self->dquote($op); } $self->unop(@_, "scalar"); } sub padval { my $self = shift; my $targ = shift; #cluck "curcv was undef" unless $self->{curcv}; return (($self->{'curcv'}->PADLIST->ARRAY)[1]->ARRAY)[$targ]; } sub pp_refgen { my $self = shift; my($op, $cx) = @_; my $kid = $op->first; if ($kid->name eq "null") { $kid = $kid->first; if ($kid->name eq "anonlist" || $kid->name eq "anonhash") { my($pre, $post) = @{{"anonlist" => ["[","]"], "anonhash" => ["{","}"]}->{$kid->name}}; my($expr, @exprs); $kid = $kid->first->sibling; # skip pushmark for (; !null($kid); $kid = $kid->sibling) { $expr = $self->deparse($kid, 6); push @exprs, $expr; } return $pre . join(", ", @exprs) . $post; } elsif (!null($kid->sibling) and $kid->sibling->name eq "anoncode") { return "sub " . $self->deparse_sub($self->padval($kid->sibling->targ)); } elsif ($kid->name eq "pushmark") { my $sib_name = $kid->sibling->name; if ($sib_name =~ /^(pad|rv2)[ah]v$/ and not $kid->sibling->flags & OPf_REF) { # The @a in \(@a) isn't in ref context, but only when the # parens are there. return "\\(" . $self->deparse($kid->sibling, 1) . ")"; } elsif ($sib_name eq 'entersub') { my $text = $self->deparse($kid->sibling, 1); # Always show parens for \(&func()), but only with -p otherwise $text = "($text)" if $self->{'parens'} or $kid->sibling->private & OPpENTERSUB_AMPER; return "\\$text"; } } } $self->pfixop($op, $cx, "\\", 20); } sub pp_srefgen { pp_refgen(@_) } sub pp_readline { my $self = shift; my($op, $cx) = @_; my $kid = $op->first; $kid = $kid->first if $kid->name eq "rv2gv"; # <$fh> return "<" . $self->deparse($kid, 1) . ">"; } # Unary operators that can occur as pseudo-listops inside double quotes sub dq_unop { my $self = shift; my($op, $cx, $name, $prec, $flags) = (@_, 0, 0); my $kid; if ($op->flags & OPf_KIDS) { $kid = $op->first; # If there's more than one kid, the first is an ex-pushmark. $kid = $kid->sibling if not null $kid->sibling; return $self->maybe_parens_unop($name, $kid, $cx); } else { return $name . ($op->flags & OPf_SPECIAL ? "()" : ""); } } sub pp_ucfirst { dq_unop(@_, "ucfirst") } sub pp_lcfirst { dq_unop(@_, "lcfirst") } sub pp_uc { dq_unop(@_, "uc") } sub pp_lc { dq_unop(@_, "lc") } sub pp_quotemeta { maybe_targmy(@_, \&dq_unop, "quotemeta") } sub loopex { my $self = shift; my ($op, $cx, $name) = @_; if (class($op) eq "PVOP") { return "$name " . $op->pv; } elsif (class($op) eq "OP") { return $name; } elsif (class($op) eq "UNOP") { # Note -- loop exits are actually exempt from the # looks-like-a-func rule, but a few extra parens won't hurt return $self->maybe_parens_unop($name, $op->first, $cx); } } sub pp_last { loopex(@_, "last") } sub pp_next { loopex(@_, "next") } sub pp_redo { loopex(@_, "redo") } sub pp_goto { loopex(@_, "goto") } sub pp_dump { loopex(@_, "dump") } sub ftst { my $self = shift; my($op, $cx, $name) = @_; if (class($op) eq "UNOP") { # Genuine `-X' filetests are exempt from the LLAFR, but not # l?stat(); for the sake of clarity, give'em all parens return $self->maybe_parens_unop($name, $op->first, $cx); } elsif (class($op) eq "SVOP") { return $self->maybe_parens_func($name, $self->pp_gv($op, 1), $cx, 16); } else { # I don't think baseop filetests ever survive ck_ftst, but... return $name; } } sub pp_lstat { ftst(@_, "lstat") } sub pp_stat { ftst(@_, "stat") } sub pp_ftrread { ftst(@_, "-R") } sub pp_ftrwrite { ftst(@_, "-W") } sub pp_ftrexec { ftst(@_, "-X") } sub pp_fteread { ftst(@_, "-r") } sub pp_ftewrite { ftst(@_, "-r") } sub pp_fteexec { ftst(@_, "-r") } sub pp_ftis { ftst(@_, "-e") } sub pp_fteowned { ftst(@_, "-O") } sub pp_ftrowned { ftst(@_, "-o") } sub pp_ftzero { ftst(@_, "-z") } sub pp_ftsize { ftst(@_, "-s") } sub pp_ftmtime { ftst(@_, "-M") } sub pp_ftatime { ftst(@_, "-A") } sub pp_ftctime { ftst(@_, "-C") } sub pp_ftsock { ftst(@_, "-S") } sub pp_ftchr { ftst(@_, "-c") } sub pp_ftblk { ftst(@_, "-b") } sub pp_ftfile { ftst(@_, "-f") } sub pp_ftdir { ftst(@_, "-d") } sub pp_ftpipe { ftst(@_, "-p") } sub pp_ftlink { ftst(@_, "-l") } sub pp_ftsuid { ftst(@_, "-u") } sub pp_ftsgid { ftst(@_, "-g") } sub pp_ftsvtx { ftst(@_, "-k") } sub pp_fttty { ftst(@_, "-t") } sub pp_fttext { ftst(@_, "-T") } sub pp_ftbinary { ftst(@_, "-B") } sub SWAP_CHILDREN () { 1 } sub ASSIGN () { 2 } # has OP= variant my(%left, %right); sub assoc_class { my $op = shift; my $name = $op->name; if ($name eq "concat" and $op->first->name eq "concat") { # avoid spurious `=' -- see comment in pp_concat return "concat"; } if ($name eq "null" and class($op) eq "UNOP" and $op->first->name =~ /^(and|x?or)$/ and null $op->first->sibling) { # Like all conditional constructs, OP_ANDs and OP_ORs are topped # with a null that's used as the common end point of the two # flows of control. For precedence purposes, ignore it. # (COND_EXPRs have these too, but we don't bother with # their associativity). return assoc_class($op->first); } return $name . ($op->flags & OPf_STACKED ? "=" : ""); } # Left associative operators, like `+', for which # $a + $b + $c is equivalent to ($a + $b) + $c BEGIN { %left = ('multiply' => 19, 'i_multiply' => 19, 'divide' => 19, 'i_divide' => 19, 'modulo' => 19, 'i_modulo' => 19, 'repeat' => 19, 'add' => 18, 'i_add' => 18, 'subtract' => 18, 'i_subtract' => 18, 'concat' => 18, 'left_shift' => 17, 'right_shift' => 17, 'bit_and' => 13, 'bit_or' => 12, 'bit_xor' => 12, 'and' => 3, 'or' => 2, 'xor' => 2, ); } sub deparse_binop_left { my $self = shift; my($op, $left, $prec) = @_; if ($left{assoc_class($op)} && $left{assoc_class($left)} and $left{assoc_class($op)} == $left{assoc_class($left)}) { return $self->deparse($left, $prec - .00001); } else { return $self->deparse($left, $prec); } } # Right associative operators, like `=', for which # $a = $b = $c is equivalent to $a = ($b = $c) BEGIN { %right = ('pow' => 22, 'sassign=' => 7, 'aassign=' => 7, 'multiply=' => 7, 'i_multiply=' => 7, 'divide=' => 7, 'i_divide=' => 7, 'modulo=' => 7, 'i_modulo=' => 7, 'repeat=' => 7, 'add=' => 7, 'i_add=' => 7, 'subtract=' => 7, 'i_subtract=' => 7, 'concat=' => 7, 'left_shift=' => 7, 'right_shift=' => 7, 'bit_and=' => 7, 'bit_or=' => 7, 'bit_xor=' => 7, 'andassign' => 7, 'orassign' => 7, ); } sub deparse_binop_right { my $self = shift; my($op, $right, $prec) = @_; if ($right{assoc_class($op)} && $right{assoc_class($right)} and $right{assoc_class($op)} == $right{assoc_class($right)}) { return $self->deparse($right, $prec - .00001); } else { return $self->deparse($right, $prec); } } sub binop { my $self = shift; my ($op, $cx, $opname, $prec, $flags) = (@_, 0); my $left = $op->first; my $right = $op->last; my $eq = ""; if ($op->flags & OPf_STACKED && $flags & ASSIGN) { $eq = "="; $prec = 7; } if ($flags & SWAP_CHILDREN) { ($left, $right) = ($right, $left); } $left = $self->deparse_binop_left($op, $left, $prec); $right = $self->deparse_binop_right($op, $right, $prec); return $self->maybe_parens("$left $opname$eq $right", $cx, $prec); } sub pp_add { maybe_targmy(@_, \&binop, "+", 18, ASSIGN) } sub pp_multiply { maybe_targmy(@_, \&binop, "*", 19, ASSIGN) } sub pp_subtract { maybe_targmy(@_, \&binop, "-",18, ASSIGN) } sub pp_divide { maybe_targmy(@_, \&binop, "/", 19, ASSIGN) } sub pp_modulo { maybe_targmy(@_, \&binop, "%", 19, ASSIGN) } sub pp_i_add { maybe_targmy(@_, \&binop, "+", 18, ASSIGN) } sub pp_i_multiply { maybe_targmy(@_, \&binop, "*", 19, ASSIGN) } sub pp_i_subtract { maybe_targmy(@_, \&binop, "-", 18, ASSIGN) } sub pp_i_divide { maybe_targmy(@_, \&binop, "/", 19, ASSIGN) } sub pp_i_modulo { maybe_targmy(@_, \&binop, "%", 19, ASSIGN) } sub pp_pow { maybe_targmy(@_, \&binop, "**", 22, ASSIGN) } sub pp_left_shift { maybe_targmy(@_, \&binop, "<<", 17, ASSIGN) } sub pp_right_shift { maybe_targmy(@_, \&binop, ">>", 17, ASSIGN) } sub pp_bit_and { maybe_targmy(@_, \&binop, "&", 13, ASSIGN) } sub pp_bit_or { maybe_targmy(@_, \&binop, "|", 12, ASSIGN) } sub pp_bit_xor { maybe_targmy(@_, \&binop, "^", 12, ASSIGN) } sub pp_eq { binop(@_, "==", 14) } sub pp_ne { binop(@_, "!=", 14) } sub pp_lt { binop(@_, "<", 15) } sub pp_gt { binop(@_, ">", 15) } sub pp_ge { binop(@_, ">=", 15) } sub pp_le { binop(@_, "<=", 15) } sub pp_ncmp { binop(@_, "<=>", 14) } sub pp_i_eq { binop(@_, "==", 14) } sub pp_i_ne { binop(@_, "!=", 14) } sub pp_i_lt { binop(@_, "<", 15) } sub pp_i_gt { binop(@_, ">", 15) } sub pp_i_ge { binop(@_, ">=", 15) } sub pp_i_le { binop(@_, "<=", 15) } sub pp_i_ncmp { binop(@_, "<=>", 14) } sub pp_seq { binop(@_, "eq", 14) } sub pp_sne { binop(@_, "ne", 14) } sub pp_slt { binop(@_, "lt", 15) } sub pp_sgt { binop(@_, "gt", 15) } sub pp_sge { binop(@_, "ge", 15) } sub pp_sle { binop(@_, "le", 15) } sub pp_scmp { binop(@_, "cmp", 14) } sub pp_sassign { binop(@_, "=", 7, SWAP_CHILDREN) } sub pp_aassign { binop(@_, "=", 7, SWAP_CHILDREN) } # `.' is special because concats-of-concats are optimized to save copying # by making all but the first concat stacked. The effect is as if the # programmer had written `($a . $b) .= $c', except legal. sub pp_concat { maybe_targmy(@_, \&real_concat) } sub real_concat { my $self = shift; my($op, $cx) = @_; my $left = $op->first; my $right = $op->last; my $eq = ""; my $prec = 18; if ($op->flags & OPf_STACKED and $op->first->name ne "concat") { $eq = "="; $prec = 7; } $left = $self->deparse_binop_left($op, $left, $prec); $right = $self->deparse_binop_right($op, $right, $prec); return $self->maybe_parens("$left .$eq $right", $cx, $prec); } # `x' is weird when the left arg is a list sub pp_repeat { my $self = shift; my($op, $cx) = @_; my $left = $op->first; my $right = $op->last; my $eq = ""; my $prec = 19; if ($op->flags & OPf_STACKED) { $eq = "="; $prec = 7; } if (null($right)) { # list repeat; count is inside left-side ex-list my $kid = $left->first->sibling; # skip pushmark my @exprs; for (; !null($kid->sibling); $kid = $kid->sibling) { push @exprs, $self->deparse($kid, 6); } $right = $kid; $left = "(" . join(", ", @exprs). ")"; } else { $left = $self->deparse_binop_left($op, $left, $prec); } $right = $self->deparse_binop_right($op, $right, $prec); return $self->maybe_parens("$left x$eq $right", $cx, $prec); } sub range { my $self = shift; my ($op, $cx, $type) = @_; my $left = $op->first; my $right = $left->sibling; $left = $self->deparse($left, 9); $right = $self->deparse($right, 9); return $self->maybe_parens("$left $type $right", $cx, 9); } sub pp_flop { my $self = shift; my($op, $cx) = @_; my $flip = $op->first; my $type = ($flip->flags & OPf_SPECIAL) ? "..." : ".."; return $self->range($flip->first, $cx, $type); } # one-line while/until is handled in pp_leave sub logop { my $self = shift; my ($op, $cx, $lowop, $lowprec, $highop, $highprec, $blockname) = @_; my $left = $op->first; my $right = $op->first->sibling; if ($cx == 0 and is_scope($right) and $blockname) { # if ($a) {$b} $left = $self->deparse($left, 1); $right = $self->deparse($right, 0); return "$blockname ($left) {\n\t$right\n\b}\cK"; } elsif ($cx == 0 and $blockname and not $self->{'parens'}) { # $b if $a $right = $self->deparse($right, 1); $left = $self->deparse($left, 1); return "$right $blockname $left"; } elsif ($cx > $lowprec and $highop) { # $a && $b $left = $self->deparse_binop_left($op, $left, $highprec); $right = $self->deparse_binop_right($op, $right, $highprec); return $self->maybe_parens("$left $highop $right", $cx, $highprec); } else { # $a and $b $left = $self->deparse_binop_left($op, $left, $lowprec); $right = $self->deparse_binop_right($op, $right, $lowprec); return $self->maybe_parens("$left $lowop $right", $cx, $lowprec); } } sub pp_and { logop(@_, "and", 3, "&&", 11, "if") } sub pp_or { logop(@_, "or", 2, "||", 10, "unless") } # xor is syntactically a logop, but it's really a binop (contrary to # old versions of opcode.pl). Syntax is what matters here. sub pp_xor { logop(@_, "xor", 2, "", 0, "") } sub logassignop { my $self = shift; my ($op, $cx, $opname) = @_; my $left = $op->first; my $right = $op->first->sibling->first; # skip sassign $left = $self->deparse($left, 7); $right = $self->deparse($right, 7); return $self->maybe_parens("$left $opname $right", $cx, 7); } sub pp_andassign { logassignop(@_, "&&=") } sub pp_orassign { logassignop(@_, "||=") } sub listop { my $self = shift; my($op, $cx, $name) = @_; my(@exprs); my $parens = ($cx >= 5) || $self->{'parens'}; my $kid = $op->first->sibling; return $name if null $kid; my $first = $self->deparse($kid, 6); $first = "+$first" if not $parens and substr($first, 0, 1) eq "("; push @exprs, $first; $kid = $kid->sibling; for (; !null($kid); $kid = $kid->sibling) { push @exprs, $self->deparse($kid, 6); } if ($parens) { return "$name(" . join(", ", @exprs) . ")"; } else { return "$name " . join(", ", @exprs); } } sub pp_bless { listop(@_, "bless") } sub pp_atan2 { maybe_targmy(@_, \&listop, "atan2") } sub pp_substr { maybe_local(@_, listop(@_, "substr")) } sub pp_vec { maybe_local(@_, listop(@_, "vec")) } sub pp_index { maybe_targmy(@_, \&listop, "index") } sub pp_rindex { maybe_targmy(@_, \&listop, "rindex") } sub pp_sprintf { maybe_targmy(@_, \&listop, "sprintf") } sub pp_formline { listop(@_, "formline") } # see also deparse_format sub pp_crypt { maybe_targmy(@_, \&listop, "crypt") } sub pp_unpack { listop(@_, "unpack") } sub pp_pack { listop(@_, "pack") } sub pp_join { maybe_targmy(@_, \&listop, "join") } sub pp_splice { listop(@_, "splice") } sub pp_push { maybe_targmy(@_, \&listop, "push") } sub pp_unshift { maybe_targmy(@_, \&listop, "unshift") } sub pp_reverse { listop(@_, "reverse") } sub pp_warn { listop(@_, "warn") } sub pp_die { listop(@_, "die") } # Actually, return is exempt from the LLAFR (see examples in this very # module!), but for consistency's sake, ignore that fact sub pp_return { listop(@_, "return") } sub pp_open { listop(@_, "open") } sub pp_pipe_op { listop(@_, "pipe") } sub pp_tie { listop(@_, "tie") } sub pp_dbmopen { listop(@_, "dbmopen") } sub pp_sselect { listop(@_, "select") } sub pp_select { listop(@_, "select") } sub pp_read { listop(@_, "read") } sub pp_sysopen { listop(@_, "sysopen") } sub pp_sysseek { listop(@_, "sysseek") } sub pp_sysread { listop(@_, "sysread") } sub pp_syswrite { listop(@_, "syswrite") } sub pp_send { listop(@_, "send") } sub pp_recv { listop(@_, "recv") } sub pp_seek { listop(@_, "seek") } sub pp_fcntl { listop(@_, "fcntl") } sub pp_ioctl { listop(@_, "ioctl") } sub pp_flock { maybe_targmy(@_, \&listop, "flock") } sub pp_socket { listop(@_, "socket") } sub pp_sockpair { listop(@_, "sockpair") } sub pp_bind { listop(@_, "bind") } sub pp_connect { listop(@_, "connect") } sub pp_listen { listop(@_, "listen") } sub pp_accept { listop(@_, "accept") } sub pp_shutdown { listop(@_, "shutdown") } sub pp_gsockopt { listop(@_, "getsockopt") } sub pp_ssockopt { listop(@_, "setsockopt") } sub pp_chown { maybe_targmy(@_, \&listop, "chown") } sub pp_unlink { maybe_targmy(@_, \&listop, "unlink") } sub pp_chmod { maybe_targmy(@_, \&listop, "chmod") } sub pp_utime { maybe_targmy(@_, \&listop, "utime") } sub pp_rename { maybe_targmy(@_, \&listop, "rename") } sub pp_link { maybe_targmy(@_, \&listop, "link") } sub pp_symlink { maybe_targmy(@_, \&listop, "symlink") } sub pp_mkdir { maybe_targmy(@_, \&listop, "mkdir") } sub pp_open_dir { listop(@_, "opendir") } sub pp_seekdir { listop(@_, "seekdir") } sub pp_waitpid { maybe_targmy(@_, \&listop, "waitpid") } sub pp_system { maybe_targmy(@_, \&listop, "system") } sub pp_exec { maybe_targmy(@_, \&listop, "exec") } sub pp_kill { maybe_targmy(@_, \&listop, "kill") } sub pp_setpgrp { maybe_targmy(@_, \&listop, "setpgrp") } sub pp_getpriority { maybe_targmy(@_, \&listop, "getpriority") } sub pp_setpriority { maybe_targmy(@_, \&listop, "setpriority") } sub pp_shmget { listop(@_, "shmget") } sub pp_shmctl { listop(@_, "shmctl") } sub pp_shmread { listop(@_, "shmread") } sub pp_shmwrite { listop(@_, "shmwrite") } sub pp_msgget { listop(@_, "msgget") } sub pp_msgctl { listop(@_, "msgctl") } sub pp_msgsnd { listop(@_, "msgsnd") } sub pp_msgrcv { listop(@_, "msgrcv") } sub pp_semget { listop(@_, "semget") } sub pp_semctl { listop(@_, "semctl") } sub pp_semop { listop(@_, "semop") } sub pp_ghbyaddr { listop(@_, "gethostbyaddr") } sub pp_gnbyaddr { listop(@_, "getnetbyaddr") } sub pp_gpbynumber { listop(@_, "getprotobynumber") } sub pp_gsbyname { listop(@_, "getservbyname") } sub pp_gsbyport { listop(@_, "getservbyport") } sub pp_syscall { listop(@_, "syscall") } sub pp_glob { my $self = shift; my($op, $cx) = @_; my $text = $self->dq($op->first->sibling); # skip pushmark if ($text =~ /^\$?(\w|::|\`)+$/ # could look like a readline or $text =~ /[<>]/) { return 'glob(' . single_delim('qq', '"', $text) . ')'; } else { return '<' . $text . '>'; } } # Truncate is special because OPf_SPECIAL makes a bareword first arg # be a filehandle. This could probably be better fixed in the core # by moving the GV lookup into ck_truc. sub pp_truncate { my $self = shift; my($op, $cx) = @_; my(@exprs); my $parens = ($cx >= 5) || $self->{'parens'}; my $kid = $op->first->sibling; my $fh; if ($op->flags & OPf_SPECIAL) { # $kid is an OP_CONST $fh = $self->const_sv($kid)->PV; } else { $fh = $self->deparse($kid, 6); $fh = "+$fh" if not $parens and substr($fh, 0, 1) eq "("; } my $len = $self->deparse($kid->sibling, 6); if ($parens) { return "truncate($fh, $len)"; } else { return "truncate $fh, $len"; } } sub indirop { my $self = shift; my($op, $cx, $name) = @_; my($expr, @exprs); my $kid = $op->first->sibling; my $indir = ""; if ($op->flags & OPf_STACKED) { $indir = $kid; $indir = $indir->first; # skip rv2gv if (is_scope($indir)) { $indir = "{" . $self->deparse($indir, 0) . "}"; } else { $indir = $self->deparse($indir, 24); } $indir = $indir . " "; $kid = $kid->sibling; } for (; !null($kid); $kid = $kid->sibling) { $expr = $self->deparse($kid, 6); push @exprs, $expr; } return $self->maybe_parens_func($name, $indir . join(", ", @exprs), $cx, 5); } sub pp_prtf { indirop(@_, "printf") } sub pp_print { indirop(@_, "print") } sub pp_sort { indirop(@_, "sort") } sub mapop { my $self = shift; my($op, $cx, $name) = @_; my($expr, @exprs); my $kid = $op->first; # this is the (map|grep)start $kid = $kid->first->sibling; # skip a pushmark my $code = $kid->first; # skip a null if (is_scope $code) { $code = "{" . $self->deparse($code, 0) . "} "; } else { $code = $self->deparse($code, 24) . ", "; } $kid = $kid->sibling; for (; !null($kid); $kid = $kid->sibling) { $expr = $self->deparse($kid, 6); push @exprs, $expr if $expr; } return $self->maybe_parens_func($name, $code . join(", ", @exprs), $cx, 5); } sub pp_mapwhile { mapop(@_, "map") } sub pp_grepwhile { mapop(@_, "grep") } sub pp_list { my $self = shift; my($op, $cx) = @_; my($expr, @exprs); my $kid = $op->first->sibling; # skip pushmark my $lop; my $local = "either"; # could be local(...) or my(...) for ($lop = $kid; !null($lop); $lop = $lop->sibling) { # This assumes that no other private flags equal 128, and that # OPs that store things other than flags in their op_private, # like OP_AELEMFAST, won't be immediate children of a list. unless ($lop->private & OPpLVAL_INTRO or $lop->name eq "undef") { $local = ""; # or not last; } if ($lop->name =~ /^pad[ash]v$/) { # my() ($local = "", last) if $local eq "local"; $local = "my"; } elsif ($lop->name ne "undef") { # local() ($local = "", last) if $local eq "my"; $local = "local"; } } $local = "" if $local eq "either"; # no point if it's all undefs return $self->deparse($kid, $cx) if null $kid->sibling and not $local; for (; !null($kid); $kid = $kid->sibling) { if ($local) { if (class($kid) eq "UNOP" and $kid->first->name eq "gvsv") { $lop = $kid->first; } else { $lop = $kid; } $self->{'avoid_local'}{$$lop}++; $expr = $self->deparse($kid, 6); delete $self->{'avoid_local'}{$$lop}; } else { $expr = $self->deparse($kid, 6); } push @exprs, $expr; } if ($local) { return "$local(" . join(", ", @exprs) . ")"; } else { return $self->maybe_parens( join(", ", @exprs), $cx, 6); } } sub pp_cond_expr { my $self = shift; my($op, $cx) = @_; my $cond = $op->first; my $true = $cond->sibling; my $false = $true->sibling; my $cuddle = $self->{'cuddle'}; unless ($cx == 0 and is_scope($true) and is_scope($false)) { $cond = $self->deparse($cond, 8); $true = $self->deparse($true, 8); $false = $self->deparse($false, 8); return $self->maybe_parens("$cond ? $true : $false", $cx, 8); } $cond = $self->deparse($cond, 1); $true = $self->deparse($true, 0); if ($false->name eq "lineseq") { # braces w/o scope => elsif my $head = "if ($cond) {\n\t$true\n\b}"; my @elsifs; while (!null($false) and $false->name eq "lineseq") { my $newop = $false->first->sibling->first; my $newcond = $newop->first; my $newtrue = $newcond->sibling; $false = $newtrue->sibling; # last in chain is OP_AND => no else $newcond = $self->deparse($newcond, 1); $newtrue = $self->deparse($newtrue, 0); push @elsifs, "elsif ($newcond) {\n\t$newtrue\n\b}"; } if (!null($false)) { $false = $cuddle . "else {\n\t" . $self->deparse($false, 0) . "\n\b}\cK"; } else { $false = "\cK"; } return $head . join($cuddle, "", @elsifs) . $false; } $false = $self->deparse($false, 0); return "if ($cond) {\n\t$true\n\b}${cuddle}else {\n\t$false\n\b}\cK"; } sub pp_leaveloop { my $self = shift; my($op, $cx) = @_; my $enter = $op->first; my $kid = $enter->sibling; local($self->{'curstash'}) = $self->{'curstash'}; my $head = ""; my $bare = 0; if ($kid->name eq "lineseq") { # bare or infinite loop if (is_state $kid->last) { # infinite $head = "for (;;) "; # shorter than while (1) } else { $bare = 1; } } elsif ($enter->name eq "enteriter") { # foreach my $ary = $enter->first->sibling; # first was pushmark my $var = $ary->sibling; if ($enter->flags & OPf_STACKED and not null $ary->first->sibling->sibling) { $ary = $self->deparse($ary->first->sibling, 9) . " .. " . $self->deparse($ary->first->sibling->sibling, 9); } else { $ary = $self->deparse($ary, 1); } if (null $var) { if ($enter->flags & OPf_SPECIAL) { # thread special var $var = $self->pp_threadsv($enter, 1); } else { # regular my() variable $var = $self->pp_padsv($enter, 1); if ($self->padname_sv($enter->targ)->IVX == $kid->first->first->sibling->last->cop_seq) { # If the scope of this variable closes at the last # statement of the loop, it must have been # declared here. $var = "my " . $var; } } } elsif ($var->name eq "rv2gv") { $var = $self->pp_rv2sv($var, 1); } elsif ($var->name eq "gv") { $var = "\$" . $self->deparse($var, 1); } $head = "foreach $var ($ary) "; $kid = $kid->first->first->sibling; # skip OP_AND and OP_ITER } elsif ($kid->name eq "null") { # while/until $kid = $kid->first; my $name = {"and" => "while", "or" => "until"} ->{$kid->name}; $head = "$name (" . $self->deparse($kid->first, 1) . ") "; $kid = $kid->first->sibling; } elsif ($kid->name eq "stub") { # bare and empty return "{;}"; # {} could be a hashref } # The third-to-last kid is the continue block if the pointer used # by `next BLOCK' points to its first OP, which happens to be the # the op_next of the head of the _previous_ statement. # Unless it's a bare loop, in which case it's last, since there's # no unstack or extra nextstate. # Except if the previous head isn't null but the first kid is # (because it's a nulled out nextstate in a scope), in which # case the head's next is advanced past the null but the nextop's # isn't, so we need to try nextop->next. my $precont; my $cont = $kid->first; if ($bare) { while (!null($cont->sibling)) { $precont = $cont; $cont = $cont->sibling; } } else { while (!null($cont->sibling->sibling->sibling)) { $precont = $cont; $cont = $cont->sibling; } } if ($precont and $ {$precont->next} == $ {$enter->nextop} || $ {$precont->next} == $ {$enter->nextop->next} ) { my $state = $kid->first; my $cuddle = $self->{'cuddle'}; my($expr, @exprs); for (; $$state != $$cont; $state = $state->sibling) { $expr = ""; if (is_state $state) { $expr = $self->deparse($state, 0); $state = $state->sibling; last if null $kid; } $expr .= $self->deparse($state, 0); push @exprs, $expr if $expr; } $kid = join(";\n", @exprs); $cont = $cuddle . "continue {\n\t" . $self->deparse($cont, 0) . "\n\b}\cK"; } else { $cont = "\cK"; $kid = $self->deparse($kid, 0); } return $head . "{\n\t" . $kid . "\n\b}" . $cont; } sub pp_leavetry { my $self = shift; return "eval {\n\t" . $self->pp_leave(@_) . "\n\b}"; } BEGIN { eval "sub OP_CONST () {" . opnumber("const") . "}" } BEGIN { eval "sub OP_STRINGIFY () {" . opnumber("stringify") . "}" } sub pp_null { my $self = shift; my($op, $cx) = @_; if (class($op) eq "OP") { # old value is lost return $self->{'ex_const'} if $op->targ == OP_CONST; } elsif ($op->first->name eq "pushmark") { return $self->pp_list($op, $cx); } elsif ($op->first->name eq "enter") { return $self->pp_leave($op, $cx); } elsif ($op->targ == OP_STRINGIFY) { return $self->dquote($op); } elsif (!null($op->first->sibling) and $op->first->sibling->name eq "readline" and $op->first->sibling->flags & OPf_STACKED) { return $self->maybe_parens($self->deparse($op->first, 7) . " = " . $self->deparse($op->first->sibling, 7), $cx, 7); } elsif (!null($op->first->sibling) and $op->first->sibling->name eq "trans" and $op->first->sibling->flags & OPf_STACKED) { return $self->maybe_parens($self->deparse($op->first, 20) . " =~ " . $self->deparse($op->first->sibling, 20), $cx, 20); } else { return $self->deparse($op->first, $cx); } } # the aassign in-common check messes up SvCUR (always setting it # to a value >= 100), but it's probably safe to assume there # won't be any NULs in the names of my() variables. (with # stash variables, I wouldn't be so sure) sub padname_fix { my $str = shift; $str = substr($str, 0, index($str, "\0")) if index($str, "\0") != -1; return $str; } sub padname { my $self = shift; my $targ = shift; my $str = $self->padname_sv($targ)->PV; return padname_fix($str); } sub padany { my $self = shift; my $op = shift; return substr($self->padname($op->targ), 1); # skip $/@/% } sub pp_padsv { my $self = shift; my($op, $cx) = @_; return $self->maybe_my($op, $cx, $self->padname($op->targ)); } sub pp_padav { pp_padsv(@_) } sub pp_padhv { pp_padsv(@_) } my @threadsv_names; BEGIN { @threadsv_names = ("_", "1", "2", "3", "4", "5", "6", "7", "8", "9", "&", "`", "'", "+", "/", ".", ",", "\\", '"', ";", "^", "-", "%", "=", "|", "~", ":", "^A", "^E", "!", "@"); } sub pp_threadsv { my $self = shift; my($op, $cx) = @_; return $self->maybe_local($op, $cx, "\$" . $threadsv_names[$op->targ]); } sub maybe_padgv { my $self = shift; my $op = shift; my $gv; if ($Config{useithreads}) { $gv = $self->padval($op->padix); } else { $gv = $op->gv; } return $gv; } sub pp_gvsv { my $self = shift; my($op, $cx) = @_; my $gv = $self->maybe_padgv($op); return $self->maybe_local($op, $cx, "\$" . $self->gv_name($gv)); } sub pp_gv { my $self = shift; my($op, $cx) = @_; my $gv = $self->maybe_padgv($op); return $self->gv_name($gv); } sub pp_aelemfast { my $self = shift; my($op, $cx) = @_; my $gv = $self->maybe_padgv($op); return "\$" . $self->gv_name($gv) . "[" . $op->private . "]"; } sub rv2x { my $self = shift; my($op, $cx, $type) = @_; my $kid = $op->first; my $str = $self->deparse($kid, 0); return $type . (is_scalar($kid) ? $str : "{$str}"); } sub pp_rv2sv { maybe_local(@_, rv2x(@_, "\$")) } sub pp_rv2hv { maybe_local(@_, rv2x(@_, "%")) } sub pp_rv2gv { maybe_local(@_, rv2x(@_, "*")) } # skip rv2av sub pp_av2arylen { my $self = shift; my($op, $cx) = @_; if ($op->first->name eq "padav") { return $self->maybe_local($op, $cx, '$#' . $self->padany($op->first)); } else { return $self->maybe_local($op, $cx, $self->rv2x($op->first, $cx, '$#')); } } # skip down to the old, ex-rv2cv sub pp_rv2cv { $_[0]->rv2x($_[1]->first->first->sibling, $_[2], "&") } sub pp_rv2av { my $self = shift; my($op, $cx) = @_; my $kid = $op->first; if ($kid->name eq "const") { # constant list my $av = $self->const_sv($kid); return "(" . join(", ", map(const($_), $av->ARRAY)) . ")"; } else { return $self->maybe_local($op, $cx, $self->rv2x($op, $cx, "\@")); } } sub is_subscriptable { my $op = shift; if ($op->name =~ /^[ahg]elem/) { return 1; } elsif ($op->name eq "entersub") { my $kid = $op->first; return 0 unless null $kid->sibling; $kid = $kid->first; $kid = $kid->sibling until null $kid->sibling; return 0 if is_scope($kid); $kid = $kid->first; return 0 if $kid->name eq "gv"; return 0 if is_scalar($kid); return is_subscriptable($kid); } else { return 0; } } sub elem { my $self = shift; my ($op, $cx, $left, $right, $padname) = @_; my($array, $idx) = ($op->first, $op->first->sibling); unless ($array->name eq $padname) { # Maybe this has been fixed $array = $array->first; # skip rv2av (or ex-rv2av in _53+) } if ($array->name eq $padname) { $array = $self->padany($array); } elsif (is_scope($array)) { # ${expr}[0] $array = "{" . $self->deparse($array, 0) . "}"; } elsif (is_scalar $array) { # $x[0], $$x[0], ... $array = $self->deparse($array, 24); } else { # $x[20][3]{hi} or expr->[20] my $arrow = is_subscriptable($array) ? "" : "->"; return $self->deparse($array, 24) . $arrow . $left . $self->deparse($idx, 1) . $right; } $idx = $self->deparse($idx, 1); return "\$" . $array . $left . $idx . $right; } sub pp_aelem { maybe_local(@_, elem(@_, "[", "]", "padav")) } sub pp_helem { maybe_local(@_, elem(@_, "{", "}", "padhv")) } sub pp_gelem { my $self = shift; my($op, $cx) = @_; my($glob, $part) = ($op->first, $op->last); $glob = $glob->first; # skip rv2gv $glob = $glob->first if $glob->name eq "rv2gv"; # this one's a bug my $scope = is_scope($glob); $glob = $self->deparse($glob, 0); $part = $self->deparse($part, 1); return "*" . ($scope ? "{$glob}" : $glob) . "{$part}"; } sub slice { my $self = shift; my ($op, $cx, $left, $right, $regname, $padname) = @_; my $last; my(@elems, $kid, $array, $list); if (class($op) eq "LISTOP") { $last = $op->last; } else { # ex-hslice inside delete() for ($kid = $op->first; !null $kid->sibling; $kid = $kid->sibling) {} $last = $kid; } $array = $last; $array = $array->first if $array->name eq $regname or $array->name eq "null"; if (is_scope($array)) { $array = "{" . $self->deparse($array, 0) . "}"; } elsif ($array->name eq $padname) { $array = $self->padany($array); } else { $array = $self->deparse($array, 24); } $kid = $op->first->sibling; # skip pushmark if ($kid->name eq "list") { $kid = $kid->first->sibling; # skip list, pushmark for (; !null $kid; $kid = $kid->sibling) { push @elems, $self->deparse($kid, 6); } $list = join(", ", @elems); } else { $list = $self->deparse($kid, 1); } return "\@" . $array . $left . $list . $right; } sub pp_aslice { maybe_local(@_, slice(@_, "[", "]", "rv2av", "padav")) } sub pp_hslice { maybe_local(@_, slice(@_, "{", "}", "rv2hv", "padhv")) } sub pp_lslice { my $self = shift; my($op, $cx) = @_; my $idx = $op->first; my $list = $op->last; my(@elems, $kid); $list = $self->deparse($list, 1); $idx = $self->deparse($idx, 1); return "($list)" . "[$idx]"; } sub want_scalar { my $op = shift; return ($op->flags & OPf_WANT) == OPf_WANT_SCALAR; } sub want_list { my $op = shift; return ($op->flags & OPf_WANT) == OPf_WANT_LIST; } sub method { my $self = shift; my($op, $cx) = @_; my $kid = $op->first->sibling; # skip pushmark my($meth, $obj, @exprs); if ($kid->name eq "list" and want_list $kid) { # When an indirect object isn't a bareword but the args are in # parens, the parens aren't part of the method syntax (the LLAFR # doesn't apply), but they make a list with OPf_PARENS set that # doesn't get flattened by the append_elem that adds the method, # making a (object, arg1, arg2, ...) list where the object # usually is. This can be distinguished from # `($obj, $arg1, $arg2)->meth()' (which is legal if $arg2 is an # object) because in the later the list is in scalar context # as the left side of -> always is, while in the former # the list is in list context as method arguments always are. # (Good thing there aren't method prototypes!) $meth = $kid->sibling; $kid = $kid->first->sibling; # skip pushmark $obj = $kid; $kid = $kid->sibling; for (; not null $kid; $kid = $kid->sibling) { push @exprs, $self->deparse($kid, 6); } } else { $obj = $kid; $kid = $kid->sibling; for (; not null $kid->sibling; $kid = $kid->sibling) { push @exprs, $self->deparse($kid, 6); } $meth = $kid; } $obj = $self->deparse($obj, 24); if ($meth->name eq "method_named") { $meth = $self->const_sv($meth)->PV; } else { $meth = $meth->first; if ($meth->name eq "const") { # As of 5.005_58, this case is probably obsoleted by the # method_named case above $meth = $self->const_sv($meth)->PV; # needs to be bare } else { $meth = $self->deparse($meth, 1); } } my $args = join(", ", @exprs); $kid = $obj . "->" . $meth; if ($args) { return $kid . "(" . $args . ")"; # parens mandatory } else { return $kid; } } # returns "&" if the prototype doesn't match the args, # or ("", $args_after_prototype_demunging) if it does. sub check_proto { my $self = shift; my($proto, @args) = @_; my($arg, $real); my $doneok = 0; my @reals; # An unbackslashed @ or % gobbles up the rest of the args $proto =~ s/([^\\]|^)([@%])(.*)$/$1$2/; while ($proto) { $proto =~ s/^ *([\\]?[\$\@&%*]|;)//; my $chr = $1; if ($chr eq "") { return "&" if @args; } elsif ($chr eq ";") { $doneok = 1; } elsif ($chr eq "@" or $chr eq "%") { push @reals, map($self->deparse($_, 6), @args); @args = (); } else { $arg = shift @args; last unless $arg; if ($chr eq "\$") { if (want_scalar $arg) { push @reals, $self->deparse($arg, 6); } else { return "&"; } } elsif ($chr eq "&") { if ($arg->name =~ /^(s?refgen|undef)$/) { push @reals, $self->deparse($arg, 6); } else { return "&"; } } elsif ($chr eq "*") { if ($arg->name =~ /^s?refgen$/ and $arg->first->first->name eq "rv2gv") { $real = $arg->first->first; # skip refgen, null if ($real->first->name eq "gv") { push @reals, $self->deparse($real, 6); } else { push @reals, $self->deparse($real->first, 6); } } else { return "&"; } } elsif (substr($chr, 0, 1) eq "\\") { $chr = substr($chr, 1); if ($arg->name =~ /^s?refgen$/ and !null($real = $arg->first) and ($chr eq "\$" && is_scalar($real->first) or ($chr eq "\@" && $real->first->sibling->name =~ /^(rv2|pad)av$/) or ($chr eq "%" && $real->first->sibling->name =~ /^(rv2|pad)hv$/) #or ($chr eq "&" # This doesn't work # && $real->first->name eq "rv2cv") or ($chr eq "*" && $real->first->name eq "rv2gv"))) { push @reals, $self->deparse($real, 6); } else { return "&"; } } } } return "&" if $proto and !$doneok; # too few args and no `;' return "&" if @args; # too many args return ("", join ", ", @reals); } sub pp_entersub { my $self = shift; my($op, $cx) = @_; return $self->method($op, $cx) unless null $op->first->sibling; my $prefix = ""; my $amper = ""; my($kid, @exprs); if ($op->flags & OPf_SPECIAL) { $prefix = "do "; } elsif ($op->private & OPpENTERSUB_AMPER) { $amper = "&"; } $kid = $op->first; $kid = $kid->first->sibling; # skip ex-list, pushmark for (; not null $kid->sibling; $kid = $kid->sibling) { push @exprs, $kid; } my $simple = 0; my $proto = undef; if (is_scope($kid)) { $amper = "&"; $kid = "{" . $self->deparse($kid, 0) . "}"; } elsif ($kid->first->name eq "gv") { my $gv = $self->maybe_padgv($kid->first); if (class($gv->CV) ne "SPECIAL") { $proto = $gv->CV->PV if $gv->CV->FLAGS & SVf_POK; } $simple = 1; # only calls of named functions can be prototyped $kid = $self->deparse($kid, 24); } elsif (is_scalar $kid->first) { $amper = "&"; $kid = $self->deparse($kid, 24); } else { $prefix = ""; my $arrow = is_subscriptable($kid->first) ? "" : "->"; $kid = $self->deparse($kid, 24) . $arrow; } my $args; if (defined $proto and not $amper) { ($amper, $args) = $self->check_proto($proto, @exprs); if ($amper eq "&") { $args = join(", ", map($self->deparse($_, 6), @exprs)); } } else { $args = join(", ", map($self->deparse($_, 6), @exprs)); } if ($prefix or $amper) { if ($op->flags & OPf_STACKED) { return $prefix . $amper . $kid . "(" . $args . ")"; } else { return $prefix . $amper. $kid; } } else { if (defined $proto and $proto eq "") { return $kid; } elsif ($proto eq "\$") { return $self->maybe_parens_func($kid, $args, $cx, 16); } elsif ($proto or $simple) { return $self->maybe_parens_func($kid, $args, $cx, 5); } else { return "$kid(" . $args . ")"; } } } sub pp_enterwrite { unop(@_, "write") } # escape things that cause interpolation in double quotes, # but not character escapes sub uninterp { my($str) = @_; $str =~ s/(^|[^\\])([\$\@]|\\[uUlLQE])/$1\\$2/g; return $str; } # the same, but treat $|, $), and $ at the end of the string differently sub re_uninterp { my($str) = @_; $str =~ s/(^|[^\\])(\@|\\[uUlLQE])/$1\\$2/g; $str =~ s/(^|[^\\])(\$[^)|])/$1\\$2/g; return $str; } # character escapes, but not delimiters that might need to be escaped sub escape_str { # ASCII my($str) = @_; $str =~ s/\a/\\a/g; # $str =~ s/\cH/\\b/g; # \b means someting different in a regex $str =~ s/\t/\\t/g; $str =~ s/\n/\\n/g; $str =~ s/\e/\\e/g; $str =~ s/\f/\\f/g; $str =~ s/\r/\\r/g; $str =~ s/([\cA-\cZ])/'\\c' . chr(ord('@') + ord($1))/ge; $str =~ s/([\0\033-\037\177-\377])/'\\' . sprintf("%03o", ord($1))/ge; return $str; } # Don't do this for regexen sub unback { my($str) = @_; $str =~ s/\\/\\\\/g; return $str; } sub balanced_delim { my($str) = @_; my @str = split //, $str; my($ar, $open, $close, $fail, $c, $cnt); for $ar (['[',']'], ['(',')'], ['<','>'], ['{','}']) { ($open, $close) = @$ar; $fail = 0; $cnt = 0; for $c (@str) { if ($c eq $open) { $cnt++; } elsif ($c eq $close) { $cnt--; if ($cnt < 0) { # qq()() isn't ")(" $fail = 1; last; } } } $fail = 1 if $cnt != 0; return ($open, "$open$str$close") if not $fail; } return ("", $str); } sub single_delim { my($q, $default, $str) = @_; return "$default$str$default" if $default and index($str, $default) == -1; my($succeed, $delim); ($succeed, $str) = balanced_delim($str); return "$q$str" if $succeed; for $delim ('/', '"', '#') { return "$q$delim" . $str . $delim if index($str, $delim) == -1; } if ($default) { $str =~ s/$default/\\$default/g; return "$default$str$default"; } else { $str =~ s[/][\\/]g; return "$q/$str/"; } } sub const { my $sv = shift; if (class($sv) eq "SPECIAL") { return ('undef', '1', '0')[$$sv-1]; # sv_undef, sv_yes, sv_no } elsif ($sv->FLAGS & SVf_IOK) { return $sv->IV; } elsif ($sv->FLAGS & SVf_NOK) { return $sv->NV; } elsif ($sv->FLAGS & SVf_ROK) { return "\\(" . const($sv->RV) . ")"; # constant folded } else { my $str = $sv->PV; if ($str =~ /[^ -~]/) { # ASCII for non-printing return single_delim("qq", '"', uninterp escape_str unback $str); } else { return single_delim("q", "'", unback $str); } } } sub const_sv { my $self = shift; my $op = shift; my $sv = $op->sv; # the constant could be in the pad (under useithreads) $sv = $self->padval($op->targ) unless $$sv; return $sv; } sub pp_const { my $self = shift; my($op, $cx) = @_; # if ($op->private & OPpCONST_BARE) { # trouble with `=>' autoquoting # return $self->const_sv($op)->PV; # } my $sv = $self->const_sv($op); return const($sv); } sub dq { my $self = shift; my $op = shift; my $type = $op->name; if ($type eq "const") { return uninterp(escape_str(unback($self->const_sv($op)->PV))); } elsif ($type eq "concat") { return $self->dq($op->first) . $self->dq($op->last); } elsif ($type eq "uc") { return '\U' . $self->dq($op->first->sibling) . '\E'; } elsif ($type eq "lc") { return '\L' . $self->dq($op->first->sibling) . '\E'; } elsif ($type eq "ucfirst") { return '\u' . $self->dq($op->first->sibling); } elsif ($type eq "lcfirst") { return '\l' . $self->dq($op->first->sibling); } elsif ($type eq "quotemeta") { return '\Q' . $self->dq($op->first->sibling) . '\E'; } elsif ($type eq "join") { return $self->deparse($op->last, 26); # was join($", @ary) } else { return $self->deparse($op, 26); } } sub pp_backtick { my $self = shift; my($op, $cx) = @_; # skip pushmark return single_delim("qx", '`', $self->dq($op->first->sibling)); } sub dquote { my $self = shift; my($op, $cx) = shift; my $kid = $op->first->sibling; # skip ex-stringify, pushmark return $self->deparse($kid, $cx) if $self->{'unquote'}; $self->maybe_targmy($kid, $cx, sub {single_delim("qq", '"', $self->dq($_[1]))}); } # OP_STRINGIFY is a listop, but it only ever has one arg sub pp_stringify { maybe_targmy(@_, \&dquote) } # tr/// and s/// (and tr[][], tr[]//, tr###, etc) # note that tr(from)/to/ is OK, but not tr/from/(to) sub double_delim { my($from, $to) = @_; my($succeed, $delim); if ($from !~ m[/] and $to !~ m[/]) { return "/$from/$to/"; } elsif (($succeed, $from) = balanced_delim($from) and $succeed) { if (($succeed, $to) = balanced_delim($to) and $succeed) { return "$from$to"; } else { for $delim ('/', '"', '#') { # note no `'' -- s''' is special return "$from$delim$to$delim" if index($to, $delim) == -1; } $to =~ s[/][\\/]g; return "$from/$to/"; } } else { for $delim ('/', '"', '#') { # note no ' return "$delim$from$delim$to$delim" if index($to . $from, $delim) == -1; } $from =~ s[/][\\/]g; $to =~ s[/][\\/]g; return "/$from/$to/"; } } sub pchr { # ASCII my($n) = @_; if ($n == ord '\\') { return '\\\\'; } elsif ($n >= ord(' ') and $n <= ord('~')) { return chr($n); } elsif ($n == ord "\a") { return '\\a'; } elsif ($n == ord "\b") { return '\\b'; } elsif ($n == ord "\t") { return '\\t'; } elsif ($n == ord "\n") { return '\\n'; } elsif ($n == ord "\e") { return '\\e'; } elsif ($n == ord "\f") { return '\\f'; } elsif ($n == ord "\r") { return '\\r'; } elsif ($n >= ord("\cA") and $n <= ord("\cZ")) { return '\\c' . chr(ord("@") + $n); } else { # return '\x' . sprintf("%02x", $n); return '\\' . sprintf("%03o", $n); } } sub collapse { my(@chars) = @_; my($c, $str, $tr); for ($c = 0; $c < @chars; $c++) { $tr = $chars[$c]; $str .= pchr($tr); if ($c <= $#chars - 2 and $chars[$c + 1] == $tr + 1 and $chars[$c + 2] == $tr + 2) { for (; $c <= $#chars-1 and $chars[$c + 1] == $chars[$c] + 1; $c++) {} $str .= "-"; $str .= pchr($chars[$c]); } } return $str; } # XXX This has trouble with hyphens in the replacement (tr/bac/-AC/), # and backslashes. sub tr_decode_byte { my($table, $flags) = @_; my(@table) = unpack("s256", $table); my($c, $tr, @from, @to, @delfrom, $delhyphen); if ($table[ord "-"] != -1 and $table[ord("-") - 1] == -1 || $table[ord("-") + 1] == -1) { $tr = $table[ord "-"]; $table[ord "-"] = -1; if ($tr >= 0) { @from = ord("-"); @to = $tr; } else { # -2 ==> delete $delhyphen = 1; } } for ($c = 0; $c < 256; $c++) { $tr = $table[$c]; if ($tr >= 0) { push @from, $c; push @to, $tr; } elsif ($tr == -2) { push @delfrom, $c; } } @from = (@from, @delfrom); if ($flags & OPpTRANS_COMPLEMENT) { my @newfrom = (); my %from; @from{@from} = (1) x @from; for ($c = 0; $c < 256; $c++) { push @newfrom, $c unless $from{$c}; } @from = @newfrom; } unless ($flags & OPpTRANS_DELETE) { pop @to while $#to and $to[$#to] == $to[$#to -1]; } my($from, $to); $from = collapse(@from); $to = collapse(@to); $from .= "-" if $delhyphen; return ($from, $to); } sub tr_chr { my $x = shift; if ($x == ord "-") { return "\\-"; } else { return chr $x; } } # XXX This doesn't yet handle all cases correctly either sub tr_decode_utf8 { my($swash_hv, $flags) = @_; my %swash = $swash_hv->ARRAY; my $final = undef; $final = $swash{'FINAL'}->IV if exists $swash{'FINAL'}; my $none = $swash{"NONE"}->IV; my $extra = $none + 1; my(@from, @delfrom, @to); my $line; foreach $line (split /\n/, $swash{'LIST'}->PV) { my($min, $max, $result) = split(/\t/, $line); $min = hex $min; if (length $max) { $max = hex $max; } else { $max = $min; } $result = hex $result; if ($result == $extra) { push @delfrom, [$min, $max]; } else { push @from, [$min, $max]; push @to, [$result, $result + $max - $min]; } } for my $i (0 .. $#from) { if ($from[$i][0] == ord '-') { unshift @from, splice(@from, $i, 1); unshift @to, splice(@to, $i, 1); last; } elsif ($from[$i][1] == ord '-') { $from[$i][1]--; $to[$i][1]--; unshift @from, ord '-'; unshift @to, ord '-'; last; } } for my $i (0 .. $#delfrom) { if ($delfrom[$i][0] == ord '-') { push @delfrom, splice(@delfrom, $i, 1); last; } elsif ($delfrom[$i][1] == ord '-') { $delfrom[$i][1]--; push @delfrom, ord '-'; last; } } if (defined $final and $to[$#to][1] != $final) { push @to, [$final, $final]; } push @from, @delfrom; if ($flags & OPpTRANS_COMPLEMENT) { my @newfrom; my $next = 0; for my $i (0 .. $#from) { push @newfrom, [$next, $from[$i][0] - 1]; $next = $from[$i][1] + 1; } @from = (); for my $range (@newfrom) { if ($range->[0] <= $range->[1]) { push @from, $range; } } } my($from, $to, $diff); for my $chunk (@from) { $diff = $chunk->[1] - $chunk->[0]; if ($diff > 1) { $from .= tr_chr($chunk->[0]) . "-" . tr_chr($chunk->[1]); } elsif ($diff == 1) { $from .= tr_chr($chunk->[0]) . tr_chr($chunk->[1]); } else { $from .= tr_chr($chunk->[0]); } } for my $chunk (@to) { $diff = $chunk->[1] - $chunk->[0]; if ($diff > 1) { $to .= tr_chr($chunk->[0]) . "-" . tr_chr($chunk->[1]); } elsif ($diff == 1) { $to .= tr_chr($chunk->[0]) . tr_chr($chunk->[1]); } else { $to .= tr_chr($chunk->[0]); } } #$final = sprintf("%04x", $final) if defined $final; #$none = sprintf("%04x", $none) if defined $none; #$extra = sprintf("%04x", $extra) if defined $extra; #print STDERR "final: $final\n none: $none\nextra: $extra\n"; #print STDERR $swash{'LIST'}->PV; return (escape_str($from), escape_str($to)); } sub pp_trans { my $self = shift; my($op, $cx) = @_; my($from, $to); if (class($op) eq "PVOP") { ($from, $to) = tr_decode_byte($op->pv, $op->private); } else { # class($op) eq "SVOP" ($from, $to) = tr_decode_utf8($op->sv->RV, $op->private); } my $flags = ""; $flags .= "c" if $op->private & OPpTRANS_COMPLEMENT; $flags .= "d" if $op->private & OPpTRANS_DELETE; $to = "" if $from eq $to and $flags eq ""; $flags .= "s" if $op->private & OPpTRANS_SQUASH; return "tr" . double_delim($from, $to) . $flags; } # Like dq(), but different sub re_dq { my $self = shift; my $op = shift; my $type = $op->name; if ($type eq "const") { return uninterp($self->const_sv($op)->PV); } elsif ($type eq "concat") { return $self->re_dq($op->first) . $self->re_dq($op->last); } elsif ($type eq "uc") { return '\U' . $self->re_dq($op->first->sibling) . '\E'; } elsif ($type eq "lc") { return '\L' . $self->re_dq($op->first->sibling) . '\E'; } elsif ($type eq "ucfirst") { return '\u' . $self->re_dq($op->first->sibling); } elsif ($type eq "lcfirst") { return '\l' . $self->re_dq($op->first->sibling); } elsif ($type eq "quotemeta") { return '\Q' . $self->re_dq($op->first->sibling) . '\E'; } elsif ($type eq "join") { return $self->deparse($op->last, 26); # was join($", @ary) } else { return $self->deparse($op, 26); } } sub pp_regcomp { my $self = shift; my($op, $cx) = @_; my $kid = $op->first; $kid = $kid->first if $kid->name eq "regcmaybe"; $kid = $kid->first if $kid->name eq "regcreset"; return $self->re_dq($kid); } # osmic acid -- see osmium tetroxide my %matchwords; map($matchwords{join "", sort split //, $_} = $_, 'cig', 'cog', 'cos', 'cogs', 'cox', 'go', 'is', 'ism', 'iso', 'mig', 'mix', 'osmic', 'ox', 'sic', 'sig', 'six', 'smog', 'so', 'soc', 'sog', 'xi'); sub matchop { my $self = shift; my($op, $cx, $name, $delim) = @_; my $kid = $op->first; my ($binop, $var, $re) = ("", "", ""); if ($op->flags & OPf_STACKED) { $binop = 1; $var = $self->deparse($kid, 20); $kid = $kid->sibling; } if (null $kid) { $re = re_uninterp(escape_str($op->precomp)); } else { $re = $self->deparse($kid, 1); } my $flags = ""; $flags .= "c" if $op->pmflags & PMf_CONTINUE; $flags .= "g" if $op->pmflags & PMf_GLOBAL; $flags .= "i" if $op->pmflags & PMf_FOLD; $flags .= "m" if $op->pmflags & PMf_MULTILINE; $flags .= "o" if $op->pmflags & PMf_KEEP; $flags .= "s" if $op->pmflags & PMf_SINGLELINE; $flags .= "x" if $op->pmflags & PMf_EXTENDED; $flags = $matchwords{$flags} if $matchwords{$flags}; if ($op->pmflags & PMf_ONCE) { # only one kind of delimiter works here $re =~ s/\?/\\?/g; $re = "?$re?"; } else { $re = single_delim($name, $delim, $re); } $re = $re . $flags; if ($binop) { return $self->maybe_parens("$var =~ $re", $cx, 20); } else { return $re; } } sub pp_match { matchop(@_, "m", "/") } sub pp_pushre { matchop(@_, "m", "/") } sub pp_qr { matchop(@_, "qr", "") } sub pp_split { my $self = shift; my($op, $cx) = @_; my($kid, @exprs, $ary, $expr); $kid = $op->first; if ($ {$kid->pmreplroot}) { $ary = '@' . $self->gv_name($kid->pmreplroot); } for (; !null($kid); $kid = $kid->sibling) { push @exprs, $self->deparse($kid, 6); } $expr = "split(" . join(", ", @exprs) . ")"; if ($ary) { return $self->maybe_parens("$ary = $expr", $cx, 7); } else { return $expr; } } # oxime -- any of various compounds obtained chiefly by the action of # hydroxylamine on aldehydes and ketones and characterized by the # bivalent grouping C=NOH [Webster's Tenth] my %substwords; map($substwords{join "", sort split //, $_} = $_, 'ego', 'egoism', 'em', 'es', 'ex', 'exes', 'gee', 'go', 'goes', 'ie', 'ism', 'iso', 'me', 'meese', 'meso', 'mig', 'mix', 'os', 'ox', 'oxime', 'see', 'seem', 'seg', 'sex', 'sig', 'six', 'smog', 'sog', 'some', 'xi'); sub pp_subst { my $self = shift; my($op, $cx) = @_; my $kid = $op->first; my($binop, $var, $re, $repl) = ("", "", "", ""); if ($op->flags & OPf_STACKED) { $binop = 1; $var = $self->deparse($kid, 20); $kid = $kid->sibling; } my $flags = ""; if (null($op->pmreplroot)) { $repl = $self->dq($kid); $kid = $kid->sibling; } else { $repl = $op->pmreplroot->first; # skip substcont while ($repl->name eq "entereval") { $repl = $repl->first; $flags .= "e"; } if ($op->pmflags & PMf_EVAL) { $repl = $self->deparse($repl, 0); } else { $repl = $self->dq($repl); } } if (null $kid) { $re = re_uninterp(escape_str($op->precomp)); } else { $re = $self->deparse($kid, 1); } $flags .= "e" if $op->pmflags & PMf_EVAL; $flags .= "g" if $op->pmflags & PMf_GLOBAL; $flags .= "i" if $op->pmflags & PMf_FOLD; $flags .= "m" if $op->pmflags & PMf_MULTILINE; $flags .= "o" if $op->pmflags & PMf_KEEP; $flags .= "s" if $op->pmflags & PMf_SINGLELINE; $flags .= "x" if $op->pmflags & PMf_EXTENDED; $flags = $substwords{$flags} if $substwords{$flags}; if ($binop) { return $self->maybe_parens("$var =~ s" . double_delim($re, $repl) . $flags, $cx, 20); } else { return "s". double_delim($re, $repl) . $flags; } } 1; __END__ =head1 NAME B::Deparse - Perl compiler backend to produce perl code =head1 SYNOPSIS B<perl> B<-MO=Deparse>[B<,-u>I<PACKAGE>][B<,-p>][B<,-q>][B<,-l>][B<,-s>I<LETTERS>] I<prog.pl> =head1 DESCRIPTION B::Deparse is a backend module for the Perl compiler that generates perl source code, based on the internal compiled structure that perl itself creates after parsing a program. The output of B::Deparse won't be exactly the same as the original source, since perl doesn't keep track of comments or whitespace, and there isn't a one-to-one correspondence between perl's syntactical constructions and their compiled form, but it will often be close. When you use the B<-p> option, the output also includes parentheses even when they are not required by precedence, which can make it easy to see if perl is parsing your expressions the way you intended. Please note that this module is mainly new and untested code and is still under development, so it may change in the future. =head1 OPTIONS As with all compiler backend options, these must follow directly after the '-MO=Deparse', separated by a comma but not any white space. =over 4 =item B<-l> Add '#line' declarations to the output based on the line and file locations of the original code. =item B<-p> Print extra parentheses. Without this option, B::Deparse includes parentheses in its output only when they are needed, based on the structure of your program. With B<-p>, it uses parentheses (almost) whenever they would be legal. This can be useful if you are used to LISP, or if you want to see how perl parses your input. If you say if ($var & 0x7f == 65) {print "Gimme an A!"} print ($which ? $a : $b), "\n"; $name = $ENV{USER} or "Bob"; C<B::Deparse,-p> will print if (($var & 0)) { print('Gimme an A!') }; (print(($which ? $a : $b)), '???'); (($name = $ENV{'USER'}) or '???') which probably isn't what you intended (the C<'???'> is a sign that perl optimized away a constant value). =item B<-q> Expand double-quoted strings into the corresponding combinations of concatenation, uc, ucfirst, lc, lcfirst, quotemeta, and join. For instance, print print "Hello, $world, @ladies, \u$gentlemen\E, \u\L$me!"; as print 'Hello, ' . $world . ', ' . join($", @ladies) . ', ' . ucfirst($gentlemen) . ', ' . ucfirst(lc $me . '!'); Note that the expanded form represents the way perl handles such constructions internally -- this option actually turns off the reverse translation that B::Deparse usually does. On the other hand, note that C<$x = "$y"> is not the same as C<$x = $y>: the former makes the value of $y into a string before doing the assignment. =item B<-u>I<PACKAGE> Normally, B::Deparse deparses the main code of a program, all the subs called by the main program (and all the subs called by them, recursively), and any other subs in the main:: package. To include subs in other packages that aren't called directly, such as AUTOLOAD, DESTROY, other subs called automatically by perl, and methods (which aren't resolved to subs until runtime), use the B<-u> option. The argument to B<-u> is the name of a package, and should follow directly after the 'u'. Multiple B<-u> options may be given, separated by commas. Note that unlike some other backends, B::Deparse doesn't (yet) try to guess automatically when B<-u> is needed -- you must invoke it yourself. =item B<-s>I<LETTERS> Tweak the style of B::Deparse's output. The letters should follow directly after the 's', with no space or punctuation. The following options are available: =over 4 =item B<C> Cuddle C<elsif>, C<else>, and C<continue> blocks. For example, print if (...) { ... } else { ... } instead of if (...) { ... } else { ... } The default is not to cuddle. =item B<i>I<NUMBER> Indent lines by multiples of I<NUMBER> columns. The default is 4 columns. =item B<T> Use tabs for each 8 columns of indent. The default is to use only spaces. For instance, if the style options are B<-si4T>, a line that's indented 3 times will be preceded by one tab and four spaces; if the options were B<-si8T>, the same line would be preceded by three tabs. =item B<v>I<STRING>B<.> Print I<STRING> for the value of a constant that can't be determined because it was optimized away (mnemonic: this happens when a constant is used in B<v>oid context). The end of the string is marked by a period. The string should be a valid perl expression, generally a constant. Note that unless it's a number, it probably needs to be quoted, and on a command line quotes need to be protected from the shell. Some conventional values include 0, 1, 42, '', 'foo', and 'Useless use of constant omitted' (which may need to be B<-sv"'Useless use of constant omitted'."> or something similar depending on your shell). The default is '???'. If you're using B::Deparse on a module or other file that's require'd, you shouldn't use a value that evaluates to false, since the customary true constant at the end of a module will be in void context when the file is compiled as a main program. =back =back =head1 USING B::Deparse AS A MODULE =head2 Synopsis use B::Deparse; $deparse = B::Deparse->new("-p", "-sC"); $body = $deparse->coderef2text(\&func); eval "sub func $body"; # the inverse operation =head2 Description B::Deparse can also be used on a sub-by-sub basis from other perl programs. =head2 new $deparse = B::Deparse->new(OPTIONS) Create an object to store the state of a deparsing operation and any options. The options are the same as those that can be given on the command line (see L</OPTIONS>); options that are separated by commas after B<-MO=Deparse> should be given as separate strings. Some options, like B<-u>, don't make sense for a single subroutine, so don't pass them. =head2 coderef2text $body = $deparse->coderef2text(\&func) $body = $deparse->coderef2text(sub ($$) { ... }) Return source code for the body of a subroutine (a block, optionally preceded by a prototype in parens), given a reference to the sub. Because a subroutine can have no names, or more than one name, this method doesn't return a complete subroutine definition -- if you want to eval the result, you should prepend "sub subname ", or "sub " for an anonymous function constructor. Unless the sub was defined in the main:: package, the code will include a package declaration. =head1 BUGS See the 'to do' list at the beginning of the module file. =head1 AUTHOR Stephen McCamant <smccam@uclink4.berkeley.edu>, based on an earlier version by Malcolm Beattie <mbeattie@sable.ox.ac.uk>, with contributions from Gisle Aas, James Duncan, Albert Dvornik, Hugo van der Sanden, Gurusamy Sarathy, and Nick Ing-Simmons. =cut