diff options
author | Yves Orton <demerphq@gmail.com> | 2015-10-05 18:49:46 +0200 |
---|---|---|
committer | Yves Orton <demerphq@gmail.com> | 2015-10-05 21:10:49 +0200 |
commit | f83e001e339db3eb180f5f1918c268681665839d (patch) | |
tree | 1f4abd6de375256c1169c3f28b4e8a082ab6d20c /regen/regcomp.pl | |
parent | fee505829585692618c3f9bb28a8f0464553ec94 (diff) | |
download | perl-f83e001e339db3eb180f5f1918c268681665839d.tar.gz |
Cleanup, document, and restructure regen/regcomp.pl
We cleanup the parsing code, replacing our set of arrays of
properties with an array of hashes of properties, with
utility subs registering new items, etc.
We also split up the output code into a set of subs,
one sub per output "blob" (generaly a var definition),
so that we have some visibility of the higher level strucuture
of our output code. With this patch visibility of the structure
of what we generate emerges from the nest of here docs. :-)
Note this change does not (greatly) alter regcomp.sym or
perldebguts.pod, it merely cleans up and generally speaking
modernizes and most importantly documents the code.
Diffstat (limited to 'regen/regcomp.pl')
-rw-r--r-- | regen/regcomp.pl | 760 |
1 files changed, 478 insertions, 282 deletions
diff --git a/regen/regcomp.pl b/regen/regcomp.pl index b90efc7595..9890a1aa69 100644 --- a/regen/regcomp.pl +++ b/regen/regcomp.pl @@ -1,5 +1,6 @@ #!/usr/bin/perl -w -# +# +# # Regenerate (overwriting only if changed): # # pod/perldebguts.pod @@ -23,113 +24,204 @@ BEGIN { } use strict; -open DESC, 'regcomp.sym'; - -my $ind = 0; -my (@name,@rest,@type,@code,@args,@flags,@longj,@cmnt); -my ($longest_name_length,$desc,$lastregop) = 0; -my (%seen_op, %type_alias); -while (<DESC>) { - # Special pod comments - if (/^#\* ?/) { $cmnt[$ind] .= "# $'"; } - # Truly blank lines possibly surrounding pod comments - elsif (/^\s*$/) { $cmnt[$ind] .= "\n" } - - next if /^(?:#|\s*$)/; - chomp; # No \z in 5.004 - s/\s*$//; - if (/^-+\s*$/) { - $lastregop= $ind; - next; +# NOTE I don't think anyone actually knows what all of these properties mean, +# and I suspect some of them are outright unused. This is a first attempt to +# clean up the generation so maybe one day we can move to something more self +# documenting. (One might argue that an array of hashes of properties would +# be easier to use.) +# +# Why we use the term regnode and nodes, and not say, opcodes, I am not sure. + +# General thoughts: +# 1. We use a single continuum to represent both opcodes and states, +# and in regexec.c we switch on the combined set. +# 2. Opcodes have more information associated to them, states are simpler, +# basically just an identifier/number that can be used to switch within +# the state machine. +# 3. Some opcode are order dependent. +# 4. Output files often use "tricks" to reduce diff effects. Some of what +# we do below is more clumsy looking than it could be because of this. + +# Op/state properties: +# +# Property In Descr +# ---------------------------------------------------------------------------- +# name Both Name of op/state +# id Both integer value for this opcode/state +# optype Both Either 'op' or 'state' +# line_num Both line_num number of the input file for this item. +# type Op Type of node (aka regkind) +# code Op what code is associated with this node (???) +# args Op what type of args the node has (which regnode struct) +# flags Op (???) +# longj Op Whether this node is a longjump +# comment Both Comment about node, if any +# pod_comment Both Special comments for pod output (preceding lines in def) + +# Global State +my @all; # all opcodes/state +my %all; # hash of all opcode/state names + +my @ops; # array of just opcodes +my @states; # array of just states + +my $longest_name_length= 0; # track lengths of names for nicer reports +my (%type_alias); # map the type (??) + +# register a newly constructed node into our state tables. +# ensures that we have no name collisions (on name anyway), +# and issues the "id" for the node. +sub register_node { + my ($node)= @_; + + if ( $all{ $node->{name} } ) { + die "Duplicate item '$node->{name}' in regcomp.sym line $node->{line_num} " + . "previously defined on line $all{ $node->{name} }{line_num}\n"; + } elsif (!$node->{optype}) { + die "must have an optype in node ", Dumper($node); + } elsif ($node->{optype} eq "op") { + push @ops, $node; + } elsif ($node->{optype} eq "state") { + push @states, $node; + } else { + die "Uknown optype '$node->{optype}' in ", Dumper($node); } - unless ($lastregop) { - ($name[$ind], $desc, $rest[$ind]) = /^(\S+)\s+([^\t]+?)\s*;\s*(.*)/; + $node->{id}= 0 + @all; + push @all, $node; + $all{ $node->{name} }= $node; +} - if (defined $seen_op{$name[$ind]}) { - die "Duplicate regop $name[$ind] in regcomp.sym line $. previously defined on line $seen_op{$name[$ind]}\n"; - } else { - $seen_op{$name[$ind]}= $.; - } +# Parse and add an opcode definition to the global state. +# An opcode definition looks like this: +# +# +- args +# | +- flags +# | | +- longjmp +# Name Type code | | | ; comment +# -------------------------------------------------------------------------- +# IFMATCH BRANCHJ, off 1 . 2 ; Succeeds if the following matches. +# UNLESSM BRANCHJ, off 1 . 2 ; Fails if the following matches. +# SUSPEND BRANCHJ, off 1 V 1 ; "Independent" sub-RE. +# IFTHEN BRANCHJ, off 1 V 1 ; Switch, should be preceded by switcher. +# GROUPP GROUPP, num 1 ; Whether the group matched. +# +# Not every opcode definition has all of these. We should maybe make this +# nicer/easier to read in the future. Also note that the above is tab +# sensitive. + +sub parse_opcode_def { + my ( $text, $line_num, $pod_comment )= @_; + my $node= { + line_num => $line_num, + pod_comment => $pod_comment, + optype => "op", + }; - ($type[$ind], $code[$ind], $args[$ind], $flags[$ind], $longj[$ind]) - = split /[,\s]\s*/, $desc; + # first split the line into three, the initial NAME, a middle part + # that we call "desc" which contains various (not well documented) things, + # and a comment section. + @{$node}{qw(name desc comment)}= /^(\S+)\s+([^\t]+?)\s*;\s*(.*)/ + or die "Failed to match $_"; - if (!defined $seen_op{$type[$ind]} and !defined $type_alias{$type[$ind]}) { - #warn "Regop type '$type[$ind]' from regcomp.sym line $. is not an existing regop, and will be aliased to $name[$ind]\n" - # if -t STDERR; - $type_alias{$type[$ind]}= $name[$ind]; - } + # the content of the "desc" field from the first step is extracted here: + @{$node}{qw(type code args flags longj)}= split /[,\s]\s*/, $node->{desc}; - $longest_name_length = length $name[$ind] - if length $name[$ind] > $longest_name_length; - ++$ind; - } else { - my ($type,@lists)=split /\s+/, $_; - die "No list? $type" if !@lists; - foreach my $list (@lists) { - my ($names,$special)=split /:/, $list , 2; - $special ||= ""; - foreach my $name (split /,/,$names) { - my $real= $name eq 'resume' - ? "resume_$type" - : "${type}_$name"; - my @suffix; - if (!$special) { - @suffix=(""); - } elsif ($special=~/\d/) { - @suffix=(1..$special); - } elsif ($special eq 'FAIL') { - @suffix=("","_fail"); - } else { - die "unknown :type ':$special'"; - } - foreach my $suffix (@suffix) { - $name[$ind]="$real$suffix"; - $type[$ind]=$type; - $rest[$ind]="state for $type"; - ++$ind; - } + $node->{$_} //= "" for qw(type code args flags longj); + + register_node($node); # has to be before the type_alias code below + + if ( !$all{ $node->{type} } and !$type_alias{ $node->{type} } ) { + + #warn "Regop type '$node->{type}' from regcomp.sym line $line_num" + # ." is not an existing regop, and will be aliased to $node->{name}\n" + # if -t STDERR; + $type_alias{ $node->{type} }= $node->{name}; + } + + $longest_name_length= length $node->{name} + if length $node->{name} > $longest_name_length; +} + +# parse out a state definition and add the resulting data +# into the global state. may create multiple new states from +# a single definition (this is part of the point). +# Format for states: +# REGOP \t typelist [ \t typelist] +# typelist= namelist +# = namelist:FAIL +# = name:count +# Eg: +# WHILEM A_pre,A_min,A_max,B_min,B_max:FAIL +# BRANCH next:FAIL +# CURLYM A,B:FAIL +# +# The CURLYM definition would create the states: +# CURLYM_A, CURLYM_A_fail, CURLYM_B, CURLYM_B_fail +sub parse_state_def { + my ( $text, $line_num, $pod_comment )= @_; + my ( $type, @lists )= split /\s+/, $text; + die "No list? $type" if !@lists; + foreach my $list (@lists) { + my ( $names, $special )= split /:/, $list, 2; + $special ||= ""; + foreach my $name ( split /,/, $names ) { + my $real= + $name eq 'resume' + ? "resume_$type" + : "${type}_$name"; + my @suffix; + if ( !$special ) { + @suffix= (""); + } + elsif ( $special =~ /\d/ ) { + @suffix= ( 1 .. $special ); + } + elsif ( $special eq 'FAIL' ) { + @suffix= ( "", "_fail" ); + } + else { + die "unknown :type ':$special'"; + } + foreach my $suffix (@suffix) { + my $node= { + name => "$real$suffix", + optype => "state", + type => $type || "", + comment => "state for $type", + line_num => $line_num, + }; + register_node($node); } } - } } -# use fixed width to keep the diffs between regcomp.pl recompiles -# as small as possible. -my ($width,$rwidth,$twidth)=(22,12,9); -$lastregop ||= $ind; -my $tot = $ind; -close DESC; -die "Too many regexp/state opcodes! Maximum is 256, but there are $lastregop in file!" - if $lastregop>256; sub process_flags { - my ($flag, $varname, $comment) = @_; - $comment = '' unless defined $comment; - - $ind = 0; - my @selected; - my $bitmap = ''; - do { - my $set = $flags[$ind] && $flags[$ind] eq $flag ? 1 : 0; - # Whilst I could do this with vec, I'd prefer to do longhand the arithmetic - # ops in the C code. - my $current = do { - local $^W; - ord do { - substr $bitmap, ($ind >> 3); - } - }; - substr($bitmap, ($ind >> 3), 1) = chr($current | ($set << ($ind & 7))); - - push @selected, $name[$ind] if $set; - } while (++$ind < $lastregop); - my $out_string = join ', ', @selected, 0; - $out_string =~ s/(.{1,70},) /$1\n /g; + my ( $flag, $varname, $comment )= @_; + $comment= '' unless defined $comment; + + my @selected; + my $bitmap= ''; + for my $node (@ops) { + my $set= $node->{flags} && $node->{flags} eq $flag ? 1 : 0; + + # Whilst I could do this with vec, I'd prefer to do longhand the arithmetic + # ops in the C code. + my $current= do { + no warnings; + ord substr $bitmap, ( $node->{id} >> 3 ); + }; + substr( $bitmap, ( $node->{id} >> 3 ), 1 )= + chr( $current | ( $set << ( $node->{id} & 7 ) ) ); + + push @selected, $node->{name} if $set; + } + my $out_string= join ', ', @selected, 0; + $out_string =~ s/(.{1,70},) /$1\n /g; - my $out_mask = join ', ', map {sprintf "0x%02X", ord $_} split '', $bitmap; + my $out_mask= join ', ', map { sprintf "0x%02X", ord $_ } split '', $bitmap; - return $comment . <<"EOP"; + return $comment . <<"EOP"; #define REGNODE_\U$varname\E(node) (PL_${varname}_bitmask[(node) >> 3] & (1 << ((node) & 7))) #ifndef DOINIT @@ -150,36 +242,78 @@ EXTCONST U8 PL_${varname}_bitmask[] = { EOP } -my $out = open_new('regnodes.h', '>', - { by => 'regen/regcomp.pl', from => 'regcomp.sym' }); -printf $out <<EOP, +sub read_definition { + my ( $file )= @_; + my ( $seen_sep, $pod_comment )= ""; + open my $in_fh, "<", $file + or die "Failed to open '$file' for reading: $!"; + while (<$in_fh>) { + + # Special pod comments + if (/^#\* ?/) { $pod_comment .= "# $'"; } + + # Truly blank lines possibly surrounding pod comments + elsif (/^\s*$/) { $pod_comment .= "\n" } + + next if /\A\s*#/ || /\A\s*\z/; + + s/\s*\z//; + if (/^-+\s*$/) { + $seen_sep= 1; + next; + } + + if ($seen_sep) { + parse_state_def( $_, $., $pod_comment ); + } + else { + parse_opcode_def( $_, $., $pod_comment ); + } + $pod_comment= ""; + } + close $in_fh; + die "Too many regexp/state opcodes! Maximum is 256, but there are ", 0 + @all, + " in file!" + if @all > 256; +} + +# use fixed width to keep the diffs between regcomp.pl recompiles +# as small as possible. +my ( $width, $rwidth, $twidth )= ( 22, 12, 9 ); + +sub print_state_defs { + my ($out)= @_; + printf $out <<EOP, /* Regops and State definitions */ #define %*s\t%d #define %*s\t%d EOP - -$width, REGNODE_MAX => $lastregop - 1, - -$width, REGMATCH_STATE_MAX => $tot - 1 -; - -my %rev_type_alias= reverse %type_alias; -for ($ind=0; $ind < $lastregop ; ++$ind) { - printf $out "#define\t%*s\t%d\t/* %#04x %s */\n", - -$width, $name[$ind], $ind, $ind, $rest[$ind]; - if (defined(my $alias= $rev_type_alias{$name[$ind]})) { - printf $out "#define\t%*s\t%d\t/* %#04x %s */\n", - -$width, $alias, $ind, $ind, "type alias"; - } + -$width, + REGNODE_MAX => $#ops, + -$width, REGMATCH_STATE_MAX => $#all; + + my %rev_type_alias= reverse %type_alias; + for my $node (@ops) { + printf $out "#define\t%*s\t%d\t/* %#04x %s */\n", + -$width, $node->{name}, $node->{id}, $node->{id}, $node->{comment}; + if ( defined( my $alias= $rev_type_alias{ $node->{name} } ) ) { + printf $out "#define\t%*s\t%d\t/* %#04x %s */\n", + -$width, $alias, $node->{id}, $node->{id}, "type alias"; + } + } -} -print $out "\t/* ------------ States ------------- */\n"; -for ( ; $ind < $tot ; $ind++) { - printf $out "#define\t%*s\t(REGNODE_MAX + %d)\t/* %s */\n", - -$width, $name[$ind], $ind - $lastregop + 1, $rest[$ind]; + print $out "\t/* ------------ States ------------- */\n"; + for my $node (@states) { + printf $out "#define\t%*s\t(REGNODE_MAX + %d)\t/* %s */\n", + -$width, $node->{name}, $node->{id} - $#ops, $node->{comment}; + } } -print $out <<EOP; +sub print_regkind { + my ($out)= @_; + print $out <<EOP; /* PL_regkind[] What type of regop or state is this. */ @@ -188,54 +322,80 @@ EXTCONST U8 PL_regkind[]; #else EXTCONST U8 PL_regkind[] = { EOP + use Data::Dumper; + foreach my $node (@all) { + print Dumper($node) if !defined $node->{type} or !defined( $node->{name} ); + printf $out "\t%*s\t/* %*s */\n", + -1 - $twidth, "$node->{type},", -$width, $node->{name}; + print $out "\t/* ------------ States ------------- */\n" + if $node->{id} == $#ops and $node->{id} != $#all; + } -$ind = 0; -do { - printf $out "\t%*s\t/* %*s */\n", - -1-$twidth, "$type[$ind],", -$width, $name[$ind]; - print $out "\t/* ------------ States ------------- */\n" - if $ind + 1 == $lastregop and $lastregop != $tot; -} while (++$ind < $tot); - -print $out <<EOP; + print $out <<EOP; }; #endif +EOP +} + +sub wrap_ifdef_print { + my $out= shift; + my $token= shift; + print $out <<EOP; + +#ifdef $token +EOP + $_->($out) for @_; + print $out <<EOP; +#endif /* $token */ + +EOP +} + +sub print_regarglen { + my ($out)= @_; + print $out <<EOP; /* regarglen[] - How large is the argument part of the node (in regnodes) */ -#ifdef REG_COMP_C static const U8 regarglen[] = { EOP -$ind = 0; -do { - my $size = 0; - $size = "EXTRA_SIZE(struct regnode_$args[$ind])" if $args[$ind]; - - printf $out "\t%*s\t/* %*s */\n", - -37, "$size,",-$rwidth,$name[$ind]; -} while (++$ind < $lastregop); + foreach my $node (@ops) { + my $size= 0; + $size= "EXTRA_SIZE(struct regnode_$node->{args})" if $node->{args}; -print $out <<EOP; + printf $out "\t%*s\t/* %*s */\n", -37, "$size,", -$rwidth, $node->{name}; + } + + print $out <<EOP; }; +EOP +} + +sub print_reg_off_by_arg { + my ($out)= @_; + print $out <<EOP; /* reg_off_by_arg[] - Which argument holds the offset to the next node */ static const char reg_off_by_arg[] = { EOP -$ind = 0; -do { - my $size = $longj[$ind] || 0; + foreach my $node (@ops) { + my $size= $node->{longj} || 0; - printf $out "\t%d,\t/* %*s */\n", - $size, -$rwidth, $name[$ind] -} while (++$ind < $lastregop); + printf $out "\t%d,\t/* %*s */\n", $size, -$rwidth, $node->{name}; + } -print $out <<EOP; + print $out <<EOP; }; -#endif /* REG_COMP_C */ +EOP +} + +sub print_reg_name { + my ($out)= @_; + print $out <<EOP; /* reg_name[] - Opcode/state names in string form, for debugging */ @@ -245,30 +405,30 @@ EXTCONST char * PL_reg_name[]; EXTCONST char * const PL_reg_name[] = { EOP -$ind = 0; -my $ofs = 0; -my $sym = ""; -do { - my $size = $longj[$ind] || 0; - - printf $out "\t%*s\t/* $sym%#04x */\n", - -3-$width,qq("$name[$ind]",), $ind - $ofs; - if ($ind + 1 == $lastregop and $lastregop != $tot) { - print $out "\t/* ------------ States ------------- */\n"; - $ofs = $lastregop - 1; - $sym = 'REGNODE_MAX +'; - } - -} while (++$ind < $tot); + my $ofs= 0; + my $sym= ""; + foreach my $node (@all) { + my $size= $node->{longj} || 0; + + printf $out "\t%*s\t/* $sym%#04x */\n", + -3 - $width, qq("$node->{name}",), $node->{id} - $ofs; + if ( $node->{id} == $#ops and @ops != @all ) { + print $out "\t/* ------------ States ------------- */\n"; + $ofs= $#ops; + $sym= 'REGNODE_MAX +'; + } + } -print $out <<EOP; + print $out <<EOP; }; #endif /* DOINIT */ EOP +} -{ -print $out <<EOP; +sub print_reg_extflags_name { + my ($out)= @_; + print $out <<EOP; /* PL_reg_extflags_name[] - Opcode/state names in string form, for debugging */ #ifndef DOINIT @@ -277,99 +437,103 @@ EXTCONST char * PL_reg_extflags_name[]; EXTCONST char * const PL_reg_extflags_name[] = { EOP -my %rxfv; -my %definitions; # Remember what the symbol definitions are -my $val = 0; -my %reverse; -my $REG_EXTFLAGS_NAME_SIZE = 0; -foreach my $file ("op_reg_common.h", "regexp.h") { - open FH,"<$file" or die "Can't read $file: $!"; - while (<FH>) { - - # optional leading '_'. Return symbol in $1, and strip it from - # rest of line - if (s/^ \# \s* define \s+ ( _? RXf_ \w+ ) \s+ //xi) { - chomp; - my $define = $1; - my $orig= $_; - s{ /\* .*? \*/ }{ }x; # Replace comments by a blank - - # Replace any prior defined symbols by their values - foreach my $key (keys %definitions) { - s/\b$key\b/$definitions{$key}/g; - } + my %rxfv; + my %definitions; # Remember what the symbol definitions are + my $val= 0; + my %reverse; + my $REG_EXTFLAGS_NAME_SIZE= 0; + foreach my $file ( "op_reg_common.h", "regexp.h" ) { + open my $in_fh, "<", $file or die "Can't read '$file': $!"; + while (<$in_fh>) { + + # optional leading '_'. Return symbol in $1, and strip it from + # comment of line + if (s/^ \# \s* define \s+ ( _? RXf_ \w+ ) \s+ //xi) { + chomp; + my $define= $1; + my $orig= $_; + s{ /\* .*? \*/ }{ }x; # Replace comments by a blank + + # Replace any prior defined symbols by their values + foreach my $key ( keys %definitions ) { + s/\b$key\b/$definitions{$key}/g; + } - # Remove the U suffix from unsigned int literals - s/\b([0-9]+)U\b/$1/g; + # Remove the U suffix from unsigned int literals + s/\b([0-9]+)U\b/$1/g; - my $newval = eval $_; # Get numeric definition + my $newval= eval $_; # Get numeric definition - $definitions{$define} = $newval; + $definitions{$define}= $newval; - next unless $_ =~ /<</; # Bit defines use left shift - if($val & $newval) { - my @names=($define, $reverse{$newval}); - s/PMf_// for @names; - if ($names[0] ne $names[1]) { - die sprintf "ERROR: both $define and $reverse{$newval} use 0x%08X (%s:%s)", $newval, $orig, $_; + next unless $_ =~ /<</; # Bit defines use left shift + if ( $val & $newval ) { + my @names= ( $define, $reverse{$newval} ); + s/PMf_// for @names; + if ( $names[0] ne $names[1] ) { + die sprintf + "ERROR: both $define and $reverse{$newval} use 0x%08X (%s:%s)", + $newval, $orig, $_; + } + next; } - next; + $val |= $newval; + $rxfv{$define}= $newval; + $reverse{$newval}= $define; } - $val|=$newval; - $rxfv{$define}= $newval; - $reverse{$newval} = $define; } } -} -my %vrxf=reverse %rxfv; -printf $out "\t/* Bits in extflags defined: %s */\n", unpack 'B*', pack 'N', $val; -my %multibits; -for (0..31) { - my $power_of_2 = 2**$_; - my $n=$vrxf{$power_of_2}; - my $extra = ""; - if (! $n) { - - # Here, there was no name that matched exactly the bit. It could be - # either that it is unused, or the name matches multiple bits. - if (! ($val & $power_of_2)) { - $n = "UNUSED_BIT_$_"; - } - else { - - # Here, must be because it matches multiple bits. Look through - # all possibilities until find one that matches this one. Use - # that name, and all the bits it matches - foreach my $name (keys %rxfv) { - if ($rxfv{$name} & $power_of_2) { - $n = $name . ( $multibits{$name}++ ); - $extra= sprintf qq{ : "%s" - 0x%08x}, $name, $rxfv{$name} - if $power_of_2 != $rxfv{$name}; - last; + my %vrxf= reverse %rxfv; + printf $out "\t/* Bits in extflags defined: %s */\n", unpack 'B*', pack 'N', + $val; + my %multibits; + for ( 0 .. 31 ) { + my $power_of_2= 2**$_; + my $n= $vrxf{$power_of_2}; + my $extra= ""; + if ( !$n ) { + + # Here, there was no name that matched exactly the bit. It could be + # either that it is unused, or the name matches multiple bits. + if ( !( $val & $power_of_2 ) ) { + $n= "UNUSED_BIT_$_"; + } + else { + + # Here, must be because it matches multiple bits. Look through + # all possibilities until find one that matches this one. Use + # that name, and all the bits it matches + foreach my $name ( keys %rxfv ) { + if ( $rxfv{$name} & $power_of_2 ) { + $n= $name . ( $multibits{$name}++ ); + $extra= sprintf qq{ : "%s" - 0x%08x}, $name, + $rxfv{$name} + if $power_of_2 != $rxfv{$name}; + last; + } } } } + s/\bRXf_(PMf_)?// for $n, $extra; + printf $out qq(\t%-20s/* 0x%08x%s */\n), qq("$n",), $power_of_2, $extra; + $REG_EXTFLAGS_NAME_SIZE++; } - s/\bRXf_(PMf_)?// for $n, $extra; - printf $out qq(\t%-20s/* 0x%08x%s */\n), - qq("$n",),$power_of_2, $extra; - $REG_EXTFLAGS_NAME_SIZE++; -} - -print $out <<EOP; + + print $out <<EOP; }; #endif /* DOINIT */ -EOP -print $out <<EOQ #ifdef DEBUGGING # define REG_EXTFLAGS_NAME_SIZE $REG_EXTFLAGS_NAME_SIZE #endif +EOP -EOQ } -{ -print $out <<EOP; + +sub print_reg_intflags_name { + my ($out)= @_; + print $out <<EOP; + /* PL_reg_intflags_name[] - Opcode/state names in string form, for debugging */ #ifndef DOINIT @@ -378,37 +542,42 @@ EXTCONST char * PL_reg_intflags_name[]; EXTCONST char * const PL_reg_intflags_name[] = { EOP -my %rxfv; -my %definitions; # Remember what the symbol definitions are -my $val = 0; -my %reverse; -my $REG_INTFLAGS_NAME_SIZE = 0; -foreach my $file ("regcomp.h") { - open my $fh, "<", $file or die "Can't read $file: $!"; - while (<$fh>) { - # optional leading '_'. Return symbol in $1, and strip it from - # rest of line - if (m/^ \# \s* define \s+ ( PREGf_ ( \w+ ) ) \s+ 0x([0-9a-f]+)(?:\s*\/\*(.*)\*\/)?/xi) { - chomp; - my $define = $1; - my $abbr= $2; - my $hex= $3; - my $comment= $4; - my $val= hex($hex); - $comment= $comment ? " - $comment" : ""; - - printf $out qq(\t%-30s/* 0x%08x - %s%s */\n), qq("$abbr",), $val, $define, $comment; - $REG_INTFLAGS_NAME_SIZE++; + my %rxfv; + my %definitions; # Remember what the symbol definitions are + my $val= 0; + my %reverse; + my $REG_INTFLAGS_NAME_SIZE= 0; + foreach my $file ("regcomp.h") { + open my $fh, "<", $file or die "Can't read $file: $!"; + while (<$fh>) { + + # optional leading '_'. Return symbol in $1, and strip it from + # comment of line + if ( + m/^ \# \s* define \s+ ( PREGf_ ( \w+ ) ) \s+ 0x([0-9a-f]+)(?:\s*\/\*(.*)\*\/)?/xi + ) + { + chomp; + my $define= $1; + my $abbr= $2; + my $hex= $3; + my $comment= $4; + my $val= hex($hex); + $comment= $comment ? " - $comment" : ""; + + printf $out qq(\t%-30s/* 0x%08x - %s%s */\n), qq("$abbr",), + $val, $define, $comment; + $REG_INTFLAGS_NAME_SIZE++; + } } } -} -print $out <<EOP; + print $out <<EOP; }; #endif /* DOINIT */ EOP -print $out <<EOQ; + print $out <<EOQ; #ifdef DEBUGGING # define REG_INTFLAGS_NAME_SIZE $REG_INTFLAGS_NAME_SIZE #endif @@ -416,62 +585,89 @@ print $out <<EOQ; EOQ } -print $out process_flags('V', 'varies', <<'EOC'); +sub print_process_flags { + my ($out)= @_; + + print $out process_flags( 'V', 'varies', <<'EOC'); /* The following have no fixed length. U8 so we can do strchr() on it. */ EOC -print $out process_flags('S', 'simple', <<'EOC'); + print $out process_flags( 'S', 'simple', <<'EOC'); /* The following always have a length of 1. U8 we can do strchr() on it. */ /* (Note that length 1 means "one character" under UTF8, not "one octet".) */ EOC -read_only_bottom_close_and_rename($out); +} -my $guts = open_new('pod/perldebguts.pod', '>'); +sub do_perldebguts { + my $guts= open_new( 'pod/perldebguts.pod', '>' ); -my $code; -my $name_fmt = '<' x ($longest_name_length-1); -my $descr_fmt = '<' x (58-$longest_name_length); -eval <<EOD; + my $node; + my $code; + my $name_fmt= '<' x ( $longest_name_length - 1 ); + my $descr_fmt= '<' x ( 58 - $longest_name_length ); + eval <<EOD or die $@; format GuTS = ^*~~ - \$cmnt[\$_] + \$node->{pod_comment} ^$name_fmt ^<<<<<<<<< ^$descr_fmt~~ - \$name[\$_], \$code, \$rest[\$_] + \$node->{name}, \$code, \$node->{comment}//'' . +1; EOD - -select +(select($guts), do { - $~ = "GuTS"; + + my $old_fh= select($guts); + $~= "GuTS"; open my $oldguts, "pod/perldebguts.pod" or die "$0 cannot open pod/perldebguts.pod for reading: $!"; - while(<$oldguts>) { + while (<$oldguts>) { print; last if /=for regcomp.pl begin/; } - print <<'end'; + print <<'END_OF_DESCR'; # TYPE arg-description [num-args] [longjump-len] DESCRIPTION -end - for (0..$lastregop-1) { - $code = "$code[$_] ".($args[$_]||""); - $code .= " $longj[$_]" if $longj[$_]; - if ($cmnt[$_] ||= "") { +END_OF_DESCR + for my $n (@ops) { + $node= $n; + $code= "$node->{code} " . ( $node->{args} || "" ); + $code .= " $node->{longj}" if $node->{longj}; + if ( $node->{pod_comment} ||= "" ) { + # Trim multiple blanks - $cmnt[$_] =~ s/^\n\n+/\n/; $cmnt[$_] =~ s/\n\n+$/\n\n/ + $node->{pod_comment} =~ s/^\n\n+/\n/; + $node->{pod_comment} =~ s/\n\n+$/\n\n/; } write; } print "\n"; - while(<$oldguts>) { + while (<$oldguts>) { last if /=for regcomp.pl end/; } do { print } while <$oldguts>; + select $old_fh; + close_and_rename($guts); +} -})[0]; +read_definition("regcomp.sym"); +my $out= open_new( 'regnodes.h', '>', + { by => 'regen/regcomp.pl', from => 'regcomp.sym' } ); +print_state_defs($out); +print_regkind($out); +wrap_ifdef_print( + $out, + "REG_COMP_C", + \&print_regarglen, + \&print_reg_off_by_arg +); +print_reg_name($out); +print_reg_extflags_name($out); +print_reg_intflags_name($out); +print_process_flags($out); +read_only_bottom_close_and_rename($out); -close_and_rename($guts); +do_perldebguts(); |