#!/usr/bin/perl
#
# Regenerate (overwriting only if changed):
#
# lib/warnings.pm
# warnings.h
#
# from information hardcoded into this script (the $tree hash), plus the
# template for warnings.pm in the DATA section.
#
# When changing the number of warnings, t/op/caller.t should change to
# correspond with the value of $BYTES in lib/warnings.pm
#
# With an argument of 'tree', just dump the contents of $tree and exits.
# Also accepts the standard regen_lib -q and -v args.
#
# This script is normally invoked from regen.pl.
$VERSION = '1.02_03';
BEGIN {
require 'regen/regen_lib.pl';
push @INC, './lib';
}
use strict ;
sub DEFAULT_ON () { 1 }
sub DEFAULT_OFF () { 2 }
my $tree = {
'all' => [ 5.008, {
'io' => [ 5.008, {
'pipe' => [ 5.008, DEFAULT_OFF],
'unopened' => [ 5.008, DEFAULT_OFF],
'closed' => [ 5.008, DEFAULT_OFF],
'newline' => [ 5.008, DEFAULT_OFF],
'exec' => [ 5.008, DEFAULT_OFF],
'layer' => [ 5.008, DEFAULT_OFF],
}],
'syntax' => [ 5.008, {
'ambiguous' => [ 5.008, DEFAULT_OFF],
'semicolon' => [ 5.008, DEFAULT_OFF],
'precedence' => [ 5.008, DEFAULT_OFF],
'bareword' => [ 5.008, DEFAULT_OFF],
'reserved' => [ 5.008, DEFAULT_OFF],
'digit' => [ 5.008, DEFAULT_OFF],
'parenthesis' => [ 5.008, DEFAULT_OFF],
'printf' => [ 5.008, DEFAULT_OFF],
'prototype' => [ 5.008, DEFAULT_OFF],
'qw' => [ 5.008, DEFAULT_OFF],
'illegalproto' => [ 5.011, DEFAULT_OFF],
}],
'severe' => [ 5.008, {
'inplace' => [ 5.008, DEFAULT_ON],
'internal' => [ 5.008, DEFAULT_ON],
'debugging' => [ 5.008, DEFAULT_ON],
'malloc' => [ 5.008, DEFAULT_ON],
}],
'deprecated' => [ 5.008, DEFAULT_OFF],
'void' => [ 5.008, DEFAULT_OFF],
'recursion' => [ 5.008, DEFAULT_OFF],
'redefine' => [ 5.008, DEFAULT_OFF],
'numeric' => [ 5.008, DEFAULT_OFF],
'uninitialized' => [ 5.008, DEFAULT_OFF],
'once' => [ 5.008, DEFAULT_OFF],
'misc' => [ 5.008, DEFAULT_OFF],
'regexp' => [ 5.008, DEFAULT_OFF],
'glob' => [ 5.008, DEFAULT_OFF],
'untie' => [ 5.008, DEFAULT_OFF],
'substr' => [ 5.008, DEFAULT_OFF],
'taint' => [ 5.008, DEFAULT_OFF],
'signal' => [ 5.008, DEFAULT_OFF],
'closure' => [ 5.008, DEFAULT_OFF],
'overflow' => [ 5.008, DEFAULT_OFF],
'portable' => [ 5.008, DEFAULT_OFF],
'utf8' => [ 5.008, {
'surrogate' => [ 5.013, DEFAULT_OFF],
'nonchar' => [ 5.013, DEFAULT_OFF],
'non_unicode' => [ 5.013, DEFAULT_OFF],
}],
'exiting' => [ 5.008, DEFAULT_OFF],
'pack' => [ 5.008, DEFAULT_OFF],
'unpack' => [ 5.008, DEFAULT_OFF],
'threads' => [ 5.008, DEFAULT_OFF],
'imprecision' => [ 5.011, DEFAULT_OFF],
#'default' => [ 5.008, DEFAULT_ON ],
}],
} ;
my %list ;
my %Value ;
my %ValueToName ;
my %NameToValue ;
my %v_list = () ;
sub valueWalk
{
my $tre = shift ;
my @list = () ;
my ($k, $v) ;
foreach $k (sort keys %$tre) {
$v = $tre->{$k};
die "duplicate key $k\n" if defined $list{$k} ;
die "Value associated with key '$k' is not an ARRAY reference"
if !ref $v || ref $v ne 'ARRAY' ;
my ($ver, $rest) = @{ $v } ;
push @{ $v_list{$ver} }, $k;
if (ref $rest)
{ valueWalk ($rest) }
}
}
sub orderValues
{
my $index = 0;
foreach my $ver ( sort { $a <=> $b } keys %v_list ) {
foreach my $name (@{ $v_list{$ver} } ) {
$ValueToName{ $index } = [ uc $name, $ver ] ;
$NameToValue{ uc $name } = $index ++ ;
}
}
return $index ;
}
###########################################################################
sub walk
{
my $tre = shift ;
my @list = () ;
my ($k, $v) ;
foreach $k (sort keys %$tre) {
$v = $tre->{$k};
die "duplicate key $k\n" if defined $list{$k} ;
die "Can't find key '$k'"
if ! defined $NameToValue{uc $k} ;
push @{ $list{$k} }, $NameToValue{uc $k} ;
die "Value associated with key '$k' is not an ARRAY reference"
if !ref $v || ref $v ne 'ARRAY' ;
my ($ver, $rest) = @{ $v } ;
if (ref $rest)
{ push (@{ $list{$k} }, walk ($rest)) }
push @list, @{ $list{$k} } ;
}
return @list ;
}
###########################################################################
sub mkRange
{
my @a = @_ ;
my @out = @a ;
for my $i (1 .. @a - 1) {
$out[$i] = ".."
if $a[$i] == $a[$i - 1] + 1
&& ($i >= @a - 1 || $a[$i] + 1 == $a[$i + 1] );
}
$out[-1] = $a[-1] if $out[-1] eq "..";
my $out = join(",",@out);
$out =~ s/,(\.\.,)+/../g ;
return $out;
}
###########################################################################
sub printTree
{
my $tre = shift ;
my $prefix = shift ;
my ($k, $v) ;
my $max = (sort {$a <=> $b} map { length $_ } keys %$tre)[-1] ;
my @keys = sort keys %$tre ;
while ($k = shift @keys) {
$v = $tre->{$k};
die "Value associated with key '$k' is not an ARRAY reference"
if !ref $v || ref $v ne 'ARRAY' ;
my $offset ;
if ($tre ne $tree) {
print $prefix . "|\n" ;
print $prefix . "+- $k" ;
$offset = ' ' x ($max + 4) ;
}
else {
print $prefix . "$k" ;
$offset = ' ' x ($max + 1) ;
}
my ($ver, $rest) = @{ $v } ;
if (ref $rest)
{
my $bar = @keys ? "|" : " ";
print " -" . "-" x ($max - length $k ) . "+\n" ;
printTree ($rest, $prefix . $bar . $offset )
}
else
{ print "\n" }
}
}
###########################################################################
sub mkHexOct
{
my ($f, $max, @a) = @_ ;
my $mask = "\x00" x $max ;
my $string = "" ;
foreach (@a) {
vec($mask, $_, 1) = 1 ;
}
foreach (unpack("C*", $mask)) {
if ($f eq 'x') {
$string .= '\x' . sprintf("%2.2x", $_)
}
else {
$string .= '\\' . sprintf("%o", $_)
}
}
return $string ;
}
sub mkHex
{
my($max, @a) = @_;
return mkHexOct("x", $max, @a);
}
sub mkOct
{
my($max, @a) = @_;
return mkHexOct("o", $max, @a);
}
###########################################################################
if (@ARGV && $ARGV[0] eq "tree")
{
printTree($tree, " ") ;
exit ;
}
my ($warn, $pm) = map {
open_new($_, '>', { by => 'regen/warnings.pl' });
} 'warnings.h', 'lib/warnings.pm';
print $warn <<'EOM';
#define Off(x) ((x) / 8)
#define Bit(x) (1 << ((x) % 8))
#define IsSet(a, x) ((a)[Off(x)] & Bit(x))
#define G_WARN_OFF 0 /* $^W == 0 */
#define G_WARN_ON 1 /* -w flag and $^W != 0 */
#define G_WARN_ALL_ON 2 /* -W flag */
#define G_WARN_ALL_OFF 4 /* -X flag */
#define G_WARN_ONCE 8 /* set if 'once' ever enabled */
#define G_WARN_ALL_MASK (G_WARN_ALL_ON|G_WARN_ALL_OFF)
#define pWARN_STD NULL
#define pWARN_ALL (((STRLEN*)0)+1) /* use warnings 'all' */
#define pWARN_NONE (((STRLEN*)0)+2) /* no warnings 'all' */
#define specialWARN(x) ((x) == pWARN_STD || (x) == pWARN_ALL || \
(x) == pWARN_NONE)
/* if PL_warnhook is set to this value, then warnings die */
#define PERL_WARNHOOK_FATAL (&PL_sv_placeholder)
EOM
my $offset = 0 ;
valueWalk ($tree) ;
my $index = orderValues();
die <<EOM if $index > 255 ;
Too many warnings categories -- max is 255
rewrite packWARN* & unpackWARN* macros
EOM
walk ($tree) ;
$index *= 2 ;
my $warn_size = int($index / 8) + ($index % 8 != 0) ;
my $k ;
my $last_ver = 0;
foreach $k (sort { $a <=> $b } keys %ValueToName) {
my ($name, $version) = @{ $ValueToName{$k} };
print $warn "\n/* Warnings Categories added in Perl $version */\n\n"
if $last_ver != $version ;
print $warn tab(5, "#define WARN_$name"), "$k\n" ;
$last_ver = $version ;
}
print $warn "\n" ;
print $warn tab(5, '#define WARNsize'), "$warn_size\n" ;
#print WARN tab(5, '#define WARN_ALLstring'), '"', ('\377' x $warn_size) , "\"\n" ;
print $warn tab(5, '#define WARN_ALLstring'), '"', ('\125' x $warn_size) , "\"\n" ;
print $warn tab(5, '#define WARN_NONEstring'), '"', ('\0' x $warn_size) , "\"\n" ;
print $warn <<'EOM';
#define isLEXWARN_on (PL_curcop->cop_warnings != pWARN_STD)
#define isLEXWARN_off (PL_curcop->cop_warnings == pWARN_STD)
#define isWARN_ONCE (PL_dowarn & (G_WARN_ON|G_WARN_ONCE))
#define isWARN_on(c,x) (IsSet((U8 *)(c + 1), 2*(x)))
#define isWARNf_on(c,x) (IsSet((U8 *)(c + 1), 2*(x)+1))
#define DUP_WARNINGS(p) \
(specialWARN(p) ? (STRLEN*)(p) \
: (STRLEN*)CopyD(p, PerlMemShared_malloc(sizeof(*p)+*p), sizeof(*p)+*p, \
char))
#define ckWARN(w) Perl_ckwarn(aTHX_ packWARN(w))
#define ckWARN2(w1,w2) Perl_ckwarn(aTHX_ packWARN2(w1,w2))
#define ckWARN3(w1,w2,w3) Perl_ckwarn(aTHX_ packWARN3(w1,w2,w3))
#define ckWARN4(w1,w2,w3,w4) Perl_ckwarn(aTHX_ packWARN4(w1,w2,w3,w4))
#define ckWARN_d(w) Perl_ckwarn_d(aTHX_ packWARN(w))
#define ckWARN2_d(w1,w2) Perl_ckwarn_d(aTHX_ packWARN2(w1,w2))
#define ckWARN3_d(w1,w2,w3) Perl_ckwarn_d(aTHX_ packWARN3(w1,w2,w3))
#define ckWARN4_d(w1,w2,w3,w4) Perl_ckwarn_d(aTHX_ packWARN4(w1,w2,w3,w4))
#define WARNshift 8
#define packWARN(a) (a )
#define packWARN2(a,b) ((a) | ((b)<<8) )
#define packWARN3(a,b,c) ((a) | ((b)<<8) | ((c)<<16) )
#define packWARN4(a,b,c,d) ((a) | ((b)<<8) | ((c)<<16) | ((d) <<24))
#define unpackWARN1(x) ((x) & 0xFF)
#define unpackWARN2(x) (((x) >>8) & 0xFF)
#define unpackWARN3(x) (((x) >>16) & 0xFF)
#define unpackWARN4(x) (((x) >>24) & 0xFF)
#define ckDEAD(x) \
( ! specialWARN(PL_curcop->cop_warnings) && \
( isWARNf_on(PL_curcop->cop_warnings, WARN_ALL) || \
isWARNf_on(PL_curcop->cop_warnings, unpackWARN1(x)) || \
isWARNf_on(PL_curcop->cop_warnings, unpackWARN2(x)) || \
isWARNf_on(PL_curcop->cop_warnings, unpackWARN3(x)) || \
isWARNf_on(PL_curcop->cop_warnings, unpackWARN4(x))))
/* end of file warnings.h */
EOM
read_only_bottom_close_and_rename($warn);
while (<DATA>) {
last if /^KEYWORDS$/ ;
print $pm $_ ;
}
$last_ver = 0;
print $pm "our %Offsets = (\n" ;
foreach my $k (sort { $a <=> $b } keys %ValueToName) {
my ($name, $version) = @{ $ValueToName{$k} };
$name = lc $name;
$k *= 2 ;
if ( $last_ver != $version ) {
print $pm "\n";
print $pm tab(4, " # Warnings Categories added in Perl $version");
print $pm "\n\n";
}
print $pm tab(4, " '$name'"), "=> $k,\n" ;
$last_ver = $version;
}
print $pm " );\n\n" ;
print $pm "our %Bits = (\n" ;
foreach $k (sort keys %list) {
my $v = $list{$k} ;
my @list = sort { $a <=> $b } @$v ;
print $pm tab(4, " '$k'"), '=> "',
mkHex($warn_size, map $_ * 2 , @list),
'", # [', mkRange(@list), "]\n" ;
}
print $pm " );\n\n" ;
print $pm "our %DeadBits = (\n" ;
foreach $k (sort keys %list) {
my $v = $list{$k} ;
my @list = sort { $a <=> $b } @$v ;
print $pm tab(4, " '$k'"), '=> "',
mkHex($warn_size, map $_ * 2 + 1 , @list),
'", # [', mkRange(@list), "]\n" ;
}
print $pm " );\n\n" ;
print $pm '$NONE = "', ('\0' x $warn_size) , "\";\n" ;
print $pm '$LAST_BIT = ' . "$index ;\n" ;
print $pm '$BYTES = ' . "$warn_size ;\n" ;
while (<DATA>) {
print $pm $_ ;
}
read_only_bottom_close_and_rename($pm);
__END__
package warnings;
our $VERSION = '1.12';
# Verify that we're called correctly so that warnings will work.
# see also strict.pm.
unless ( __FILE__ =~ /(^|[\/\\])\Q${\__PACKAGE__}\E\.pmc?$/ ) {
my (undef, $f, $l) = caller;
die("Incorrect use of pragma '${\__PACKAGE__}' at $f line $l.\n");
}
=head1 NAME
warnings - Perl pragma to control optional warnings
=head1 SYNOPSIS
use warnings;
no warnings;
use warnings "all";
no warnings "all";
use warnings::register;
if (warnings::enabled()) {
warnings::warn("some warning");
}
if (warnings::enabled("void")) {
warnings::warn("void", "some warning");
}
if (warnings::enabled($object)) {
warnings::warn($object, "some warning");
}
warnings::warnif("some warning");
warnings::warnif("void", "some warning");
warnings::warnif($object, "some warning");
=head1 DESCRIPTION
The C<warnings> pragma is a replacement for the command line flag C<-w>,
but the pragma is limited to the enclosing block, while the flag is global.
See L<perllexwarn> for more information.
If no import list is supplied, all possible warnings are either enabled
or disabled.
A number of functions are provided to assist module authors.
=over 4
=item use warnings::register
Creates a new warnings category with the same name as the package where
the call to the pragma is used.
=item warnings::enabled()
Use the warnings category with the same name as the current package.
Return TRUE if that warnings category is enabled in the calling module.
Otherwise returns FALSE.
=item warnings::enabled($category)
Return TRUE if the warnings category, C<$category>, is enabled in the
calling module.
Otherwise returns FALSE.
=item warnings::enabled($object)
Use the name of the class for the object reference, C<$object>, as the
warnings category.
Return TRUE if that warnings category is enabled in the first scope
where the object is used.
Otherwise returns FALSE.
=item warnings::fatal_enabled()
Return TRUE if the warnings category with the same name as the current
package has been set to FATAL in the calling module.
Otherwise returns FALSE.
=item warnings::fatal_enabled($category)
Return TRUE if the warnings category C<$category> has been set to FATAL in
the calling module.
Otherwise returns FALSE.
=item warnings::fatal_enabled($object)
Use the name of the class for the object reference, C<$object>, as the
warnings category.
Return TRUE if that warnings category has been set to FATAL in the first
scope where the object is used.
Otherwise returns FALSE.
=item warnings::warn($message)
Print C<$message> to STDERR.
Use the warnings category with the same name as the current package.
If that warnings category has been set to "FATAL" in the calling module
then die. Otherwise return.
=item warnings::warn($category, $message)
Print C<$message> to STDERR.
If the warnings category, C<$category>, has been set to "FATAL" in the
calling module then die. Otherwise return.
=item warnings::warn($object, $message)
Print C<$message> to STDERR.
Use the name of the class for the object reference, C<$object>, as the
warnings category.
If that warnings category has been set to "FATAL" in the scope where C<$object>
is first used then die. Otherwise return.
=item warnings::warnif($message)
Equivalent to:
if (warnings::enabled())
{ warnings::warn($message) }
=item warnings::warnif($category, $message)
Equivalent to:
if (warnings::enabled($category))
{ warnings::warn($category, $message) }
=item warnings::warnif($object, $message)
Equivalent to:
if (warnings::enabled($object))
{ warnings::warn($object, $message) }
=item warnings::register_categories(@names)
This registers warning categories for the given names and is primarily for
use by the warnings::register pragma, for which see L<perllexwarn>.
=back
See L<perlmodlib/Pragmatic Modules> and L<perllexwarn>.
=cut
KEYWORDS
$All = "" ; vec($All, $Offsets{'all'}, 2) = 3 ;
sub Croaker
{
require Carp; # this initializes %CarpInternal
local $Carp::CarpInternal{'warnings'};
delete $Carp::CarpInternal{'warnings'};
Carp::croak(@_);
}
sub _bits {
my $mask = shift ;
my $catmask ;
my $fatal = 0 ;
my $no_fatal = 0 ;
foreach my $word ( @_ ) {
if ($word eq 'FATAL') {
$fatal = 1;
$no_fatal = 0;
}
elsif ($word eq 'NONFATAL') {
$fatal = 0;
$no_fatal = 1;
}
elsif ($catmask = $Bits{$word}) {
$mask |= $catmask ;
$mask |= $DeadBits{$word} if $fatal ;
$mask &= ~($DeadBits{$word}|$All) if $no_fatal ;
}
else
{ Croaker("Unknown warnings category '$word'")}
}
return $mask ;
}
sub bits
{
# called from B::Deparse.pm
push @_, 'all' unless @_ ;
return _bits(undef, @_) ;
}
sub import
{
shift;
my $mask = ${^WARNING_BITS} ;
if (vec($mask, $Offsets{'all'}, 1)) {
$mask |= $Bits{'all'} ;
$mask |= $DeadBits{'all'} if vec($mask, $Offsets{'all'}+1, 1);
}
# Empty @_ is equivalent to @_ = 'all' ;
${^WARNING_BITS} = @_ ? _bits($mask, @_) : $mask | $Bits{all} ;
}
sub unimport
{
shift;
my $catmask ;
my $mask = ${^WARNING_BITS} ;
if (vec($mask, $Offsets{'all'}, 1)) {
$mask |= $Bits{'all'} ;
$mask |= $DeadBits{'all'} if vec($mask, $Offsets{'all'}+1, 1);
}
push @_, 'all' unless @_;
foreach my $word ( @_ ) {
if ($word eq 'FATAL') {
next;
}
elsif ($catmask = $Bits{$word}) {
$mask &= ~($catmask | $DeadBits{$word} | $All);
}
else
{ Croaker("Unknown warnings category '$word'")}
}
${^WARNING_BITS} = $mask ;
}
my %builtin_type; @builtin_type{qw(SCALAR ARRAY HASH CODE REF GLOB LVALUE Regexp)} = ();
sub MESSAGE () { 4 };
sub FATAL () { 2 };
sub NORMAL () { 1 };
sub __chk
{
my $category ;
my $offset ;
my $isobj = 0 ;
my $wanted = shift;
my $has_message = $wanted & MESSAGE;
unless (@_ == 1 || @_ == ($has_message ? 2 : 0)) {
my $sub = (caller 1)[3];
my $syntax = $has_message ? "[category,] 'message'" : '[category]';
Croaker("Usage: $sub($syntax)");
}
my $message = pop if $has_message;
if (@_) {
# check the category supplied.
$category = shift ;
if (my $type = ref $category) {
Croaker("not an object")
if exists $builtin_type{$type};
$category = $type;
$isobj = 1 ;
}
$offset = $Offsets{$category};
Croaker("Unknown warnings category '$category'")
unless defined $offset;
}
else {
$category = (caller(1))[0] ;
$offset = $Offsets{$category};
Croaker("package '$category' not registered for warnings")
unless defined $offset ;
}
my $i;
if ($isobj) {
my $pkg;
$i = 2;
while (do { { package DB; $pkg = (caller($i++))[0] } } ) {
last unless @DB::args && $DB::args[0] =~ /^$category=/ ;
}
$i -= 2 ;
}
else {
$i = _error_loc(); # see where Carp will allocate the error
}
# Defaulting this to 0 reduces complexity in code paths below.
my $callers_bitmask = (caller($i))[9] || 0 ;
my @results;
foreach my $type (FATAL, NORMAL) {
next unless $wanted & $type;
push @results, (vec($callers_bitmask, $offset + $type - 1, 1) ||
vec($callers_bitmask, $Offsets{'all'} + $type - 1, 1));
}
# &enabled and &fatal_enabled
return $results[0] unless $has_message;
# &warnif, and the category is neither enabled as warning nor as fatal
return if $wanted == (NORMAL | FATAL | MESSAGE)
&& !($results[0] || $results[1]);
require Carp;
Carp::croak($message) if $results[0];
# will always get here for &warn. will only get here for &warnif if the
# category is enabled
Carp::carp($message);
}
sub _mkMask
{
my ($bit) = @_;
my $mask = "";
vec($mask, $bit, 1) = 1;
return $mask;
}
sub register_categories
{
my @names = @_;
for my $name (@names) {
if (! defined $Bits{$name}) {
$Bits{$name} = _mkMask($LAST_BIT);
vec($Bits{'all'}, $LAST_BIT, 1) = 1;
$Offsets{$name} = $LAST_BIT ++;
foreach my $k (keys %Bits) {
vec($Bits{$k}, $LAST_BIT, 1) = 0;
}
$DeadBits{$name} = _mkMask($LAST_BIT);
vec($DeadBits{'all'}, $LAST_BIT++, 1) = 1;
}
}
}
sub _error_loc {
require Carp;
goto &Carp::short_error_loc; # don't introduce another stack frame
}
sub enabled
{
return __chk(NORMAL, @_);
}
sub fatal_enabled
{
return __chk(FATAL, @_);
}
sub warn
{
return __chk(FATAL | MESSAGE, @_);
}
sub warnif
{
return __chk(NORMAL | FATAL | MESSAGE, @_);
}
# These are not part of any public interface, so we can delete them to save
# space.
delete $warnings::{$_} foreach qw(NORMAL FATAL MESSAGE);
1;