#!/usr/bin/perl -w # # Regenerate (overwriting only if changed): # # mg_names.inc # mg_raw.h # mg_vtable.h # pod/perlguts.pod # # from information stored in this file. pod/perlguts.pod is not completely # regenerated. Only the magic table is replaced; the other parts remain # untouched. # # Accepts the standard regen_lib -q and -v args. # # This script is normally invoked from regen.pl. use strict; require 5.004; BEGIN { # Get function prototypes require 'regen/regen_lib.pl'; } my %mg = ( sv => { char => "\0", vtable => 'sv', readonly_acceptable => 1, desc => 'Special scalar variable' }, # overload, or type "A" magic, used to be here. Hence overloaded is # often called AMAGIC internally, even though it does not use "A" # magic any more. overload_table => { char => 'c', vtable => 'ovrld', desc => 'Holds overload table (AMT) on stash' }, bm => { char => 'B', vtable => 'regexp', value_magic => 1, readonly_acceptable => 1, desc => 'Boyer-Moore (fast string search)' }, regdata => { char => 'D', vtable => 'regdata', desc => "Regex match position data\n(\@+ and \@- vars)" }, regdatum => { char => 'd', vtable => 'regdatum', desc => 'Regex match position data element' }, env => { char => 'E', vtable => 'env', desc => '%ENV hash' }, envelem => { char => 'e', vtable => 'envelem', desc => '%ENV hash element' }, fm => { char => 'f', vtable => 'regexp', value_magic => 1, readonly_acceptable => 1, desc => "Formline ('compiled' format)" }, regex_global => { char => 'g', vtable => 'mglob', value_magic => 1, readonly_acceptable => 1, desc => 'm//g target' }, hints => { char => 'H', vtable => 'hints', desc => '%^H hash' }, hintselem => { char => 'h', vtable => 'hintselem', desc => '%^H hash element' }, isa => { char => 'I', vtable => 'isa', desc => '@ISA array' }, isaelem => { char => 'i', vtable => 'isaelem', desc => '@ISA array element' }, nkeys => { char => 'k', vtable => 'nkeys', value_magic => 1, desc => 'scalar(keys()) lvalue' }, dbfile => { char => 'L', desc => 'Debugger %_ { char => 'l', vtable => 'dbline', desc => 'Debugger %_ { char => 'N', desc => 'Shared between threads', unknown_to_sv_magic => 1 }, shared_scalar => { char => 'n', desc => 'Shared between threads', unknown_to_sv_magic => 1 }, collxfrm => { char => 'o', vtable => 'collxfrm', value_magic => 1, desc => 'Locale transformation' }, tied => { char => 'P', vtable => 'pack', value_magic => 1, # treat as value, so 'local @tied' isn't tied desc => 'Tied array or hash' }, tiedelem => { char => 'p', vtable => 'packelem', desc => 'Tied array or hash element' }, tiedscalar => { char => 'q', vtable => 'packelem', desc => 'Tied scalar or handle' }, qr => { char => 'r', vtable => 'regexp', value_magic => 1, readonly_acceptable => 1, desc => 'Precompiled qr// regex' }, sig => { char => 'S', desc => '%SIG hash' }, sigelem => { char => 's', vtable => 'sigelem', desc => '%SIG hash element' }, taint => { char => 't', vtable => 'taint', value_magic => 1, desc => 'Taintedness' }, uvar => { char => 'U', vtable => 'uvar', desc => 'Available for use by extensions' }, uvar_elem => { char => 'u', desc => 'Reserved for use by extensions', unknown_to_sv_magic => 1 }, vec => { char => 'v', vtable => 'vec', value_magic => 1, desc => 'vec() lvalue' }, vstring => { char => 'V', value_magic => 1, desc => 'SV was vstring literal' }, utf8 => { char => 'w', vtable => 'utf8', value_magic => 1, desc => 'Cached UTF-8 information' }, substr => { char => 'x', vtable => 'substr', value_magic => 1, desc => 'substr() lvalue' }, defelem => { char => 'y', vtable => 'defelem', value_magic => 1, desc => "Shadow \"foreach\" iterator variable /\nsmart parameter vivification" }, arylen => { char => '#', vtable => 'arylen', value_magic => 1, desc => 'Array length ($#ary)' }, pos => { char => '.', vtable => 'pos', value_magic => 1, desc => 'pos() lvalue' }, backref => { char => '<', vtable => 'backref', value_magic => 1, readonly_acceptable => 1, desc => 'For weak ref data' }, symtab => { char => ':', value_magic => 1, desc => 'Extra data for symbol tables' }, rhash => { char => '%', value_magic => 1, desc => 'Extra data for restricted hashes' }, arylen_p => { char => '@', value_magic => 1, desc => 'To move arylen out of XPVAV' }, ext => { char => '~', desc => 'Available for use by extensions', readonly_acceptable => 1 }, checkcall => { char => ']', value_magic => 1, vtable => 'checkcall', desc => 'Inlining/mutation of call to this CV'}, debugvar => { char => '*', desc => '$DB::single, signal, trace vars', vtable => 'debugvar' }, lvref => { char => '\\', vtable => 'lvref', desc => "Lvalue reference constructor" }, ); # These have a subtly different "namespace" from the magic types. my %sig = ( 'sv' => {get => 'get', set => 'set'}, 'env' => {set => 'set_all_env', clear => 'clear_all_env'}, 'envelem' => {set => 'setenv', clear => 'clearenv'}, 'sigelem' => {get => 'getsig', set => 'setsig', clear => 'clearsig', cond => '#ifndef PERL_MICRO'}, 'pack' => {len => 'sizepack', clear => 'wipepack'}, 'packelem' => {get => 'getpack', set => 'setpack', clear => 'clearpack'}, 'dbline' => {set => 'setdbline'}, 'isa' => {set => 'setisa', clear => 'clearisa'}, 'isaelem' => {set => 'setisa'}, 'arylen' => {get => 'getarylen', set => 'setarylen', const => 1}, 'arylen_p' => {clear => 'cleararylen_p', free => 'freearylen_p'}, 'mglob' => {set => 'setmglob'}, 'nkeys' => {get => 'getnkeys', set => 'setnkeys'}, 'taint' => {get => 'gettaint', set => 'settaint'}, 'substr' => {get => 'getsubstr', set => 'setsubstr'}, 'vec' => {get => 'getvec', set => 'setvec'}, 'pos' => {get => 'getpos', set => 'setpos'}, 'uvar' => {get => 'getuvar', set => 'setuvar'}, 'defelem' => {get => 'getdefelem', set => 'setdefelem'}, 'regexp' => {set => 'setregexp', alias => [qw(bm fm)]}, 'regdata' => {len => 'regdata_cnt'}, 'regdatum' => {get => 'regdatum_get', set => 'regdatum_set'}, 'backref' => {free => 'killbackrefs'}, 'ovrld' => {free => 'freeovrld'}, 'utf8' => {set => 'setutf8'}, 'collxfrm' => {set => 'setcollxfrm', cond => '#ifdef USE_LOCALE_COLLATE'}, 'hintselem' => {set => 'sethint', clear => 'clearhint'}, 'hints' => {clear => 'clearhints'}, 'checkcall' => {copy => 'copycallchecker'}, 'debugvar' => { set => 'setdebugvar', get => 'getdebugvar' }, 'lvref' => {set => 'setlvref'}, ); my ($vt, $raw, $names) = map { open_new($_, '>', { by => 'regen/mg_vtable.pl', file => $_, style => '*' }); } 'mg_vtable.h', 'mg_raw.h', 'mg_names.inc'; my $guts = open_new("pod/perlguts.pod", ">"); print $vt <<'EOH'; /* These constants should be used in preference to raw characters * when using magic. Note that some perl guts still assume * certain character properties of these constants, namely that * isUPPER() and toLOWER() may do useful mappings. */ EOH # Of course, it would be *much* easier if we could output this table directly # here and now. However, for our sins, we try to support EBCDIC, which wouldn't # be *so* bad, except that there are (at least) 3 EBCDIC charset variants, and # they don't agree on the code point for '~'. Which we use. Great. # So we have to get the local build runtime to sort our table in character order # (And of course, just to be helpful, in POSIX BC '~' is \xFF, so we can't even # simplify the C code by assuming that the last element of the array is # predictable) { my $longest = 0; foreach (keys %mg) { $longest = length $_ if length $_ > $longest; } my $longest_p1 = $longest + 1; my %mg_order; while (my ($name, $data) = each %mg) { my $byte = $data->{char}; if ($byte =~ /[[:print:]]/) { $data->{r_char} = $byte; # readable char ($data->{c_char} = $byte) =~ s/([\\"])/\\$1/g; # for C strings } else { $data->{c_char} = $data->{r_char} = '\\'.ord $byte; } $mg_order{(uc $byte) . $byte} = $name; } my @rows; foreach (sort keys %mg_order) { my $name = $mg_order{$_}; my $data = $mg{$name}; my $i = ord $data->{char}; unless ($data->{unknown_to_sv_magic}) { my $value = $data->{vtable} ? "want_vtbl_$data->{vtable}" : 'magic_vtable_max'; $value .= ' | PERL_MAGIC_READONLY_ACCEPTABLE' if $data->{readonly_acceptable}; $value .= ' | PERL_MAGIC_VALUE_MAGIC' if $data->{value_magic}; my $comment = "/* $name '$data->{r_char}' $data->{desc} */"; $comment =~ s/([\\"])/\\$1/g; $comment =~ tr/\n/ /; print $raw qq{ { '$data->{c_char}', "$value",\n "$comment" },\n}; } my $comment = $data->{desc}; my $leader = ' ' x ($longest + 27); $comment =~ s/\n/\n$leader/s; printf $vt "#define PERL_MAGIC_%-${longest}s '%s' /* %s */\n", $name, $data->{c_char}, $comment; my $char = $data->{r_char}; $char =~ s/([\\"])/\\$1/g; printf $names qq[\t{ PERL_MAGIC_%-${longest_p1}s "%s(%s)" },\n], "$name,", $name, $char; push @rows, [(sprintf "%-2s PERL_MAGIC_%s", $data->{r_char},$name), $data->{vtable} ? "vtbl_$data->{vtable}" : '(none)', $data->{desc}]; } select +(select($guts), do { my @header = ('(old-style char and macro)', 'MGVTBL', 'Type of magic'); my @widths = (0, 0); foreach my $row (@rows) { for (0, 1) { $widths[$_] = length $row->[$_] if length $row->[$_] > $widths[$_]; } } my $indent = ' '; my $format = sprintf "$indent%%-%ds%%-%ds%%s\n", $widths[0] + 1, $widths[1] + 1; my $desc_wrap = 79 - 7 - (length $indent) - $widths[0] - $widths[1] - 2; open my $oldguts, "<", "pod/perlguts.pod" or die "$0 cannot open pod/perlguts.pod for reading: $!"; while (<$oldguts>) { print; last if /^=for mg_vtable.pl begin/ } print "\n", $indent . "mg_type\n"; printf $format, @header; printf $format, map {'-' x length $_} @header; foreach (@rows) { my ($type, $vtbl, $desc) = @$_; $desc =~ tr/\n/ /; my @cont; if (length $desc > $desc_wrap) { # If it's too long, first split on '(', if there. # [Which, if there, is always short enough, currently. # Make this more robust if that changes] ($desc, @cont) = split /(?=\()/, $desc; if (!@cont) { ($desc, @cont) = $desc =~ /(.{1,$desc_wrap})(?: |\z)/g } } printf $format, $type, $vtbl, $desc; printf $format, '', '', $_ foreach @cont; } print "\n"; while (<$oldguts>) { last if /^=for mg_vtable.pl end/; } do { print } while <$oldguts>; })[0]; } my @names = sort keys %sig; { my $want = join ",\n ", (map {"want_vtbl_$_"} @names), 'magic_vtable_max'; my $names = join qq{",\n "}, @names; print $vt <<"EOH"; enum { /* pass one of these to get_vtbl */ $want }; #ifdef DOINIT EXTCONST char * const PL_magic_vtable_names[magic_vtable_max] = { "$names" }; #else EXTCONST char * const PL_magic_vtable_names[magic_vtable_max]; #endif EOH } print $vt <<'EOH'; /* These all need to be 0, not NULL, as NULL can be (void*)0, which is a * pointer to data, whereas we're assigning pointers to functions, which are * not the same beast. ANSI doesn't allow the assignment from one to the other. * (although most, but not all, compilers are prepared to do it) */ /* order is: get set len clear free copy dup local */ #ifdef DOINIT EXT_MGVTBL PL_magic_vtables[magic_vtable_max] = { EOH my @vtable_names; my @aliases; while (my $name = shift @names) { my $data = $sig{$name}; push @vtable_names, $name; my @funcs = map { $data->{$_} ? "Perl_magic_$data->{$_}" : 0; } qw(get set len clear free copy dup local); $funcs[0] = "(int (*)(pTHX_ SV *, MAGIC *))" . $funcs[0] if $data->{const}; my $funcs = join ", ", @funcs; # Because we can't have a , after the last {...} my $comma = @names ? ',' : ''; print $vt "$data->{cond}\n" if $data->{cond}; print $vt " { $funcs }$comma\n"; print $vt <<"EOH" if $data->{cond}; #else { 0, 0, 0, 0, 0, 0, 0, 0 }$comma #endif EOH foreach(@{$data->{alias}}) { push @aliases, "#define want_vtbl_$_ want_vtbl_$name\n"; push @vtable_names, $_; } } print $vt <<'EOH'; }; #else EXT_MGVTBL PL_magic_vtables[magic_vtable_max]; #endif EOH print $vt (sort @aliases), "\n"; print $vt "#define PL_vtbl_$_ PL_magic_vtables[want_vtbl_$_]\n" foreach sort @vtable_names; # 63, not 64, As we rely on the last possible value to mean "NULL vtable" die "Too many vtable names" if @vtable_names > 63; read_only_bottom_close_and_rename($_) foreach $vt, $raw, $names; close_and_rename($guts);