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|
#!/usr/bin/perl -w
#
#
# Regenerate (overwriting only if changed):
#
# pod/perldebguts.pod
# regnodes.h
#
# from information stored in
#
# regcomp.sym
# regexp.h
#
# pod/perldebguts.pod is not completely regenerated. Only the table of
# regexp nodes is replaced; other parts remain unchanged.
#
# Accepts the standard regen_lib -q and -v args.
#
# This script is normally invoked from regen.pl.
BEGIN {
# Get function prototypes
require './regen/regen_lib.pl';
}
use strict;
# 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);
}
$node->{id}= 0 + @all;
push @all, $node;
$all{ $node->{name} }= $node;
}
# 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 => $pod_comment,
optype => "op",
};
# first split the line into three, the initial NAME, a middle part
# that we call "desc" which contains various (not well documented) things,
# and a comment section.
@{$node}{qw(name desc comment)}= /^(\S+)\s+([^\t]+?)\s*;\s*(.*)/
or die "Failed to match $_";
# the content of the "desc" field from the first step is extracted here:
@{$node}{qw(type code args flags longj)}= split /[,\s]\s*/, $node->{desc};
defined $node->{$_} or $node->{$_} = ""
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);
}
}
}
}
sub process_flags {
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;
return $comment . <<"EOP";
#define REGNODE_\U$varname\E(node) (PL_${varname}_bitmask[(node) >> 3] & (1 << ((node) & 7)))
#ifndef DOINIT
EXTCONST U8 PL_${varname}\[] __attribute__deprecated__;
#else
EXTCONST U8 PL_${varname}\[] __attribute__deprecated__ = {
$out_string
};
#endif /* DOINIT */
#ifndef DOINIT
EXTCONST U8 PL_${varname}_bitmask[];
#else
EXTCONST U8 PL_${varname}_bitmask[] = {
$out_mask
};
#endif /* DOINIT */
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 => $#ops,
-$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 my $node (@states) {
printf $out "#define\t%*s\t(REGNODE_MAX + %d)\t/* %s */\n",
-$width, $node->{name}, $node->{id} - $#ops, $node->{comment};
}
}
sub print_regkind {
my ($out)= @_;
print $out <<EOP;
/* PL_regkind[] What type of regop or state is this. */
#ifndef DOINIT
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;
}
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) */
static const U8 regarglen[] = {
EOP
foreach my $node (@ops) {
my $size= 0;
$size= "EXTRA_SIZE(struct regnode_$node->{args})" if $node->{args};
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
foreach my $node (@ops) {
my $size= $node->{longj} || 0;
printf $out "\t%d,\t/* %*s */\n", $size, -$rwidth, $node->{name};
}
print $out <<EOP;
};
EOP
}
sub print_reg_name {
my ($out)= @_;
print $out <<EOP;
/* reg_name[] - Opcode/state names in string form, for debugging */
#ifndef DOINIT
EXTCONST char * PL_reg_name[];
#else
EXTCONST char * const PL_reg_name[] = {
EOP
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 $out <<EOP;
};
#endif /* DOINIT */
EOP
}
sub print_reg_extflags_name {
my ($out)= @_;
print $out <<EOP;
/* PL_reg_extflags_name[] - Opcode/state names in string form, for debugging */
#ifndef DOINIT
EXTCONST char * PL_reg_extflags_name[];
#else
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 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;
my $newval= eval $_; # Get numeric definition
$definitions{$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;
}
$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;
}
}
}
}
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;
};
#endif /* DOINIT */
#ifdef DEBUGGING
# define REG_EXTFLAGS_NAME_SIZE $REG_EXTFLAGS_NAME_SIZE
#endif
EOP
}
sub print_reg_intflags_name {
my ($out)= @_;
print $out <<EOP;
/* PL_reg_intflags_name[] - Opcode/state names in string form, for debugging */
#ifndef DOINIT
EXTCONST char * PL_reg_intflags_name[];
#else
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
# 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;
};
#endif /* DOINIT */
EOP
print $out <<EOQ;
#ifdef DEBUGGING
# define REG_INTFLAGS_NAME_SIZE $REG_INTFLAGS_NAME_SIZE
#endif
EOQ
}
sub print_process_flags {
my ($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');
/* 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
}
sub do_perldebguts {
my $guts= open_new( 'pod/perldebguts.pod', '>' );
my $node;
my $code;
my $name_fmt= '<' x ( $longest_name_length - 1 );
my $descr_fmt= '<' x ( 58 - $longest_name_length );
eval <<EOD or die $@;
format GuTS =
^*~~
\$node->{pod_comment}
^$name_fmt ^<<<<<<<<< ^$descr_fmt~~
\$node->{name}, \$code, defined \$node->{comment} ? \$node->{comment} : ''
.
1;
EOD
my $old_fh= select($guts);
$~= "GuTS";
open my $oldguts, '<', 'pod/perldebguts.pod'
or die "$0 cannot open pod/perldebguts.pod for reading: $!";
while (<$oldguts>) {
print;
last if /=for regcomp.pl begin/;
}
print <<'END_OF_DESCR';
# TYPE arg-description [num-args] [longjump-len] DESCRIPTION
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
$node->{pod_comment} =~ s/^\n\n+/\n/;
$node->{pod_comment} =~ s/\n\n+$/\n\n/;
}
write;
}
print "\n";
while (<$oldguts>) {
last if /=for regcomp.pl end/;
}
do { print } while <$oldguts>;
select $old_fh;
close_and_rename($guts);
}
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);
do_perldebguts();
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