#line 1 "Data/Dumper.pm" # # Data/Dumper.pm # # convert perl data structures into perl syntax suitable for both printing # and eval # # Documentation at the __END__ # package Data::Dumper; BEGIN { $VERSION = '2.161'; # Don't forget to set version and release } # date in POD below! #$| = 1; use 5.006_001; require Exporter; require overload; use Carp; BEGIN { @ISA = qw(Exporter); @EXPORT = qw(Dumper); @EXPORT_OK = qw(DumperX); # if run under miniperl, or otherwise lacking dynamic loading, # XSLoader should be attempted to load, or the pure perl flag # toggled on load failure. eval { require XSLoader; XSLoader::load( 'Data::Dumper' ); 1 } or $Useperl = 1; } my $IS_ASCII = ord 'A' == 65; # module vars and their defaults $Indent = 2 unless defined $Indent; $Trailingcomma = 0 unless defined $Trailingcomma; $Purity = 0 unless defined $Purity; $Pad = "" unless defined $Pad; $Varname = "VAR" unless defined $Varname; $Useqq = 0 unless defined $Useqq; $Terse = 0 unless defined $Terse; $Freezer = "" unless defined $Freezer; $Toaster = "" unless defined $Toaster; $Deepcopy = 0 unless defined $Deepcopy; $Quotekeys = 1 unless defined $Quotekeys; $Bless = "bless" unless defined $Bless; #$Expdepth = 0 unless defined $Expdepth; $Maxdepth = 0 unless defined $Maxdepth; $Pair = ' => ' unless defined $Pair; $Useperl = 0 unless defined $Useperl; $Sortkeys = 0 unless defined $Sortkeys; $Deparse = 0 unless defined $Deparse; $Sparseseen = 0 unless defined $Sparseseen; $Maxrecurse = 1000 unless defined $Maxrecurse; # # expects an arrayref of values to be dumped. # can optionally pass an arrayref of names for the values. # names must have leading $ sign stripped. begin the name with * # to cause output of arrays and hashes rather than refs. # sub new { my($c, $v, $n) = @_; croak "Usage: PACKAGE->new(ARRAYREF, [ARRAYREF])" unless (defined($v) && (ref($v) eq 'ARRAY')); $n = [] unless (defined($n) && (ref($n) eq 'ARRAY')); my($s) = { level => 0, # current recursive depth indent => $Indent, # various styles of indenting trailingcomma => $Trailingcomma, # whether to add comma after last elem pad => $Pad, # all lines prefixed by this string xpad => "", # padding-per-level apad => "", # added padding for hash keys n such sep => "", # list separator pair => $Pair, # hash key/value separator: defaults to ' => ' seen => {}, # local (nested) refs (id => [name, val]) todump => $v, # values to dump [] names => $n, # optional names for values [] varname => $Varname, # prefix to use for tagging nameless ones purity => $Purity, # degree to which output is evalable useqq => $Useqq, # use "" for strings (backslashitis ensues) terse => $Terse, # avoid name output (where feasible) freezer => $Freezer, # name of Freezer method for objects toaster => $Toaster, # name of method to revive objects deepcopy => $Deepcopy, # do not cross-ref, except to stop recursion quotekeys => $Quotekeys, # quote hash keys 'bless' => $Bless, # keyword to use for "bless" # expdepth => $Expdepth, # cutoff depth for explicit dumping maxdepth => $Maxdepth, # depth beyond which we give up maxrecurse => $Maxrecurse, # depth beyond which we abort useperl => $Useperl, # use the pure Perl implementation sortkeys => $Sortkeys, # flag or filter for sorting hash keys deparse => $Deparse, # use B::Deparse for coderefs noseen => $Sparseseen, # do not populate the seen hash unless necessary }; if ($Indent > 0) { $s->{xpad} = " "; $s->{sep} = "\n"; } return bless($s, $c); } # Packed numeric addresses take less memory. Plus pack is faster than sprintf # Most users of current versions of Data::Dumper will be 5.008 or later. # Anyone on 5.6.1 and 5.6.2 upgrading will be rare (particularly judging by # the bug reports from users on those platforms), so for the common case avoid # complexity, and avoid even compiling the unneeded code. sub init_refaddr_format { } sub format_refaddr { require Scalar::Util; pack "J", Scalar::Util::refaddr(shift); }; if ($] < 5.008) { eval <<'EOC' or die; no warnings 'redefine'; my $refaddr_format; sub init_refaddr_format { require Config; my $f = $Config::Config{uvxformat}; $f =~ tr/"//d; $refaddr_format = "0x%" . $f; } sub format_refaddr { require Scalar::Util; sprintf $refaddr_format, Scalar::Util::refaddr(shift); } 1 EOC } # # add-to or query the table of already seen references # sub Seen { my($s, $g) = @_; if (defined($g) && (ref($g) eq 'HASH')) { init_refaddr_format(); my($k, $v, $id); while (($k, $v) = each %$g) { if (defined $v) { if (ref $v) { $id = format_refaddr($v); if ($k =~ /^[*](.*)$/) { $k = (ref $v eq 'ARRAY') ? ( "\\\@" . $1 ) : (ref $v eq 'HASH') ? ( "\\\%" . $1 ) : (ref $v eq 'CODE') ? ( "\\\&" . $1 ) : ( "\$" . $1 ) ; } elsif ($k !~ /^\$/) { $k = "\$" . $k; } $s->{seen}{$id} = [$k, $v]; } else { carp "Only refs supported, ignoring non-ref item \$$k"; } } else { carp "Value of ref must be defined; ignoring undefined item \$$k"; } } return $s; } else { return map { @$_ } values %{$s->{seen}}; } } # # set or query the values to be dumped # sub Values { my($s, $v) = @_; if (defined($v)) { if (ref($v) eq 'ARRAY') { $s->{todump} = [@$v]; # make a copy return $s; } else { croak "Argument to Values, if provided, must be array ref"; } } else { return @{$s->{todump}}; } } # # set or query the names of the values to be dumped # sub Names { my($s, $n) = @_; if (defined($n)) { if (ref($n) eq 'ARRAY') { $s->{names} = [@$n]; # make a copy return $s; } else { croak "Argument to Names, if provided, must be array ref"; } } else { return @{$s->{names}}; } } sub DESTROY {} sub Dump { return &Dumpxs unless $Data::Dumper::Useperl || (ref($_[0]) && $_[0]->{useperl}) || $Data::Dumper::Deparse || (ref($_[0]) && $_[0]->{deparse}) # Use pure perl version on earlier releases on EBCDIC platforms || (! $IS_ASCII && $] lt 5.021_010); return &Dumpperl; } # # dump the refs in the current dumper object. # expects same args as new() if called via package name. # sub Dumpperl { my($s) = shift; my(@out, $val, $name); my($i) = 0; local(@post); init_refaddr_format(); $s = $s->new(@_) unless ref $s; for $val (@{$s->{todump}}) { @post = (); $name = $s->{names}[$i++]; $name = $s->_refine_name($name, $val, $i); my $valstr; { local($s->{apad}) = $s->{apad}; $s->{apad} .= ' ' x (length($name) + 3) if $s->{indent} >= 2 and !$s->{terse}; $valstr = $s->_dump($val, $name); } $valstr = "$name = " . $valstr . ';' if @post or !$s->{terse}; my $out = $s->_compose_out($valstr, \@post); push @out, $out; } return wantarray ? @out : join('', @out); } # wrap string in single quotes (escaping if needed) sub _quote { my $val = shift; $val =~ s/([\\\'])/\\$1/g; return "'" . $val . "'"; } # Old Perls (5.14-) have trouble resetting vstring magic when it is no # longer valid. use constant _bad_vsmg => defined &_vstring && (_vstring(~v0)||'') eq "v0"; # # twist, toil and turn; # and recurse, of course. # sometimes sordidly; # and curse if no recourse. # sub _dump { my($s, $val, $name) = @_; my($out, $type, $id, $sname); $type = ref $val; $out = ""; if ($type) { # Call the freezer method if it's specified and the object has the # method. Trap errors and warn() instead of die()ing, like the XS # implementation. my $freezer = $s->{freezer}; if ($freezer and UNIVERSAL::can($val, $freezer)) { eval { $val->$freezer() }; warn "WARNING(Freezer method call failed): $@" if $@; } require Scalar::Util; my $realpack = Scalar::Util::blessed($val); my $realtype = $realpack ? Scalar::Util::reftype($val) : ref $val; $id = format_refaddr($val); # Note: By this point $name is always defined and of non-zero length. # Keep a tab on it so that we do not fall into recursive pit. if (exists $s->{seen}{$id}) { if ($s->{purity} and $s->{level} > 0) { $out = ($realtype eq 'HASH') ? '{}' : ($realtype eq 'ARRAY') ? '[]' : 'do{my $o}' ; push @post, $name . " = " . $s->{seen}{$id}[0]; } else { $out = $s->{seen}{$id}[0]; if ($name =~ /^([\@\%])/) { my $start = $1; if ($out =~ /^\\$start/) { $out = substr($out, 1); } else { $out = $start . '{' . $out . '}'; } } } return $out; } else { # store our name $s->{seen}{$id} = [ ( ($name =~ /^[@%]/) ? ('\\' . $name ) : ($realtype eq 'CODE' and $name =~ /^[*](.*)$/) ? ('\\&' . $1 ) : $name ), $val ]; } my $no_bless = 0; my $is_regex = 0; if ( $realpack and ($] >= 5.009005 ? re::is_regexp($val) : $realpack eq 'Regexp') ) { $is_regex = 1; $no_bless = $realpack eq 'Regexp'; } # If purity is not set and maxdepth is set, then check depth: # if we have reached maximum depth, return the string # representation of the thing we are currently examining # at this depth (i.e., 'Foo=ARRAY(0xdeadbeef)'). if (!$s->{purity} and defined($s->{maxdepth}) and $s->{maxdepth} > 0 and $s->{level} >= $s->{maxdepth}) { return qq['$val']; } # avoid recursing infinitely [perl #122111] if ($s->{maxrecurse} > 0 and $s->{level} >= $s->{maxrecurse}) { die "Recursion limit of $s->{maxrecurse} exceeded"; } # we have a blessed ref my ($blesspad); if ($realpack and !$no_bless) { $out = $s->{'bless'} . '( '; $blesspad = $s->{apad}; $s->{apad} .= ' ' if ($s->{indent} >= 2); } $s->{level}++; my $ipad = $s->{xpad} x $s->{level}; if ($is_regex) { my $pat; my $flags = ""; if (defined(*re::regexp_pattern{CODE})) { ($pat, $flags) = re::regexp_pattern($val); } else { $pat = "$val"; } $pat =~ s <(\\.)|/> { $1 || '\\/' }ge; $out .= "qr/$pat/$flags"; } elsif ($realtype eq 'SCALAR' || $realtype eq 'REF' || $realtype eq 'VSTRING') { if ($realpack) { $out .= 'do{\\(my $o = ' . $s->_dump($$val, "\${$name}") . ')}'; } else { $out .= '\\' . $s->_dump($$val, "\${$name}"); } } elsif ($realtype eq 'GLOB') { $out .= '\\' . $s->_dump($$val, "*{$name}"); } elsif ($realtype eq 'ARRAY') { my($pad, $mname); my($i) = 0; $out .= ($name =~ /^\@/) ? '(' : '['; $pad = $s->{sep} . $s->{pad} . $s->{apad}; ($name =~ /^\@(.*)$/) ? ($mname = "\$" . $1) : # omit -> if $foo->[0]->{bar}, but not ${$foo->[0]}->{bar} ($name =~ /^\\?[\%\@\*\$][^{].*[]}]$/) ? ($mname = $name) : ($mname = $name . '->'); $mname .= '->' if $mname =~ /^\*.+\{[A-Z]+\}$/; for my $v (@$val) { $sname = $mname . '[' . $i . ']'; $out .= $pad . $ipad . '#' . $i if $s->{indent} >= 3; $out .= $pad . $ipad . $s->_dump($v, $sname); $out .= "," if $i++ < $#$val || ($s->{trailingcomma} && $s->{indent} >= 1); } $out .= $pad . ($s->{xpad} x ($s->{level} - 1)) if $i; $out .= ($name =~ /^\@/) ? ')' : ']'; } elsif ($realtype eq 'HASH') { my ($k, $v, $pad, $lpad, $mname, $pair); $out .= ($name =~ /^\%/) ? '(' : '{'; $pad = $s->{sep} . $s->{pad} . $s->{apad}; $lpad = $s->{apad}; $pair = $s->{pair}; ($name =~ /^\%(.*)$/) ? ($mname = "\$" . $1) : # omit -> if $foo->[0]->{bar}, but not ${$foo->[0]}->{bar} ($name =~ /^\\?[\%\@\*\$][^{].*[]}]$/) ? ($mname = $name) : ($mname = $name . '->'); $mname .= '->' if $mname =~ /^\*.+\{[A-Z]+\}$/; my $sortkeys = defined($s->{sortkeys}) ? $s->{sortkeys} : ''; my $keys = []; if ($sortkeys) { if (ref($s->{sortkeys}) eq 'CODE') { $keys = $s->{sortkeys}($val); unless (ref($keys) eq 'ARRAY') { carp "Sortkeys subroutine did not return ARRAYREF"; $keys = []; } } else { $keys = [ sort keys %$val ]; } } # Ensure hash iterator is reset keys(%$val); my $key; while (($k, $v) = ! $sortkeys ? (each %$val) : @$keys ? ($key = shift(@$keys), $val->{$key}) : () ) { my $nk = $s->_dump($k, ""); # _dump doesn't quote numbers of this form if ($s->{quotekeys} && $nk =~ /^(?:0|-?[1-9][0-9]{0,8})\z/) { $nk = $s->{useqq} ? qq("$nk") : qq('$nk'); } elsif (!$s->{quotekeys} and $nk =~ /^[\"\']([A-Za-z_]\w*)[\"\']$/) { $nk = $1 } $sname = $mname . '{' . $nk . '}'; $out .= $pad . $ipad . $nk . $pair; # temporarily alter apad $s->{apad} .= (" " x (length($nk) + 4)) if $s->{indent} >= 2; $out .= $s->_dump($val->{$k}, $sname) . ","; $s->{apad} = $lpad if $s->{indent} >= 2; } if (substr($out, -1) eq ',') { chop $out if !$s->{trailingcomma} || !$s->{indent}; $out .= $pad . ($s->{xpad} x ($s->{level} - 1)); } $out .= ($name =~ /^\%/) ? ')' : '}'; } elsif ($realtype eq 'CODE') { if ($s->{deparse}) { require B::Deparse; my $sub = 'sub ' . (B::Deparse->new)->coderef2text($val); $pad = $s->{sep} . $s->{pad} . $s->{apad} . $s->{xpad} x ($s->{level} - 1); $sub =~ s/\n/$pad/gse; $out .= $sub; } else { $out .= 'sub { "DUMMY" }'; carp "Encountered CODE ref, using dummy placeholder" if $s->{purity}; } } else { croak "Can't handle '$realtype' type"; } if ($realpack and !$no_bless) { # we have a blessed ref $out .= ', ' . _quote($realpack) . ' )'; $out .= '->' . $s->{toaster} . '()' if $s->{toaster} ne ''; $s->{apad} = $blesspad; } $s->{level}--; } else { # simple scalar my $ref = \$_[1]; my $v; # first, catalog the scalar if ($name ne '') { $id = format_refaddr($ref); if (exists $s->{seen}{$id}) { if ($s->{seen}{$id}[2]) { $out = $s->{seen}{$id}[0]; #warn "[<$out]\n"; return "\${$out}"; } } else { #warn "[>\\$name]\n"; $s->{seen}{$id} = ["\\$name", $ref]; } } $ref = \$val; if (ref($ref) eq 'GLOB') { # glob my $name = substr($val, 1); if ($name =~ /^[A-Za-z_][\w:]*$/ && $name ne 'main::') { $name =~ s/^main::/::/; $sname = $name; } else { $sname = $s->_dump( $name eq 'main::' || $] < 5.007 && $name eq "main::\0" ? '' : $name, "", ); $sname = '{' . $sname . '}'; } if ($s->{purity}) { my $k; local ($s->{level}) = 0; for $k (qw(SCALAR ARRAY HASH)) { my $gval = *$val{$k}; next unless defined $gval; next if $k eq "SCALAR" && ! defined $$gval; # always there # _dump can push into @post, so we hold our place using $postlen my $postlen = scalar @post; $post[$postlen] = "\*$sname = "; local ($s->{apad}) = " " x length($post[$postlen]) if $s->{indent} >= 2; $post[$postlen] .= $s->_dump($gval, "\*$sname\{$k\}"); } } $out .= '*' . $sname; } elsif (!defined($val)) { $out .= "undef"; } elsif (defined &_vstring and $v = _vstring($val) and !_bad_vsmg || eval $v eq $val) { $out .= $v; } elsif (!defined &_vstring and ref $ref eq 'VSTRING' || eval{Scalar::Util::isvstring($val)}) { $out .= sprintf "%vd", $val; } # \d here would treat "1\x{660}" as a safe decimal number elsif ($val =~ /^(?:0|-?[1-9][0-9]{0,8})\z/) { # safe decimal number $out .= $val; } else { # string if ($s->{useqq} or $val =~ tr/\0-\377//c) { # Fall back to qq if there's Unicode $out .= qquote($val, $s->{useqq}); } else { $out .= _quote($val); } } } if ($id) { # if we made it this far, $id was added to seen list at current # level, so remove it to get deep copies if ($s->{deepcopy}) { delete($s->{seen}{$id}); } elsif ($name) { $s->{seen}{$id}[2] = 1; } } return $out; } # # non-OO style of earlier version # sub Dumper { return Data::Dumper->Dump([@_]); } # compat stub sub DumperX { return Data::Dumper->Dumpxs([@_], []); } # # reset the "seen" cache # sub Reset { my($s) = shift; $s->{seen} = {}; return $s; } sub Indent { my($s, $v) = @_; if (defined($v)) { if ($v == 0) { $s->{xpad} = ""; $s->{sep} = ""; } else { $s->{xpad} = " "; $s->{sep} = "\n"; } $s->{indent} = $v; return $s; } else { return $s->{indent}; } } sub Trailingcomma { my($s, $v) = @_; defined($v) ? (($s->{trailingcomma} = $v), return $s) : $s->{trailingcomma}; } sub Pair { my($s, $v) = @_; defined($v) ? (($s->{pair} = $v), return $s) : $s->{pair}; } sub Pad { my($s, $v) = @_; defined($v) ? (($s->{pad} = $v), return $s) : $s->{pad}; } sub Varname { my($s, $v) = @_; defined($v) ? (($s->{varname} = $v), return $s) : $s->{varname}; } sub Purity { my($s, $v) = @_; defined($v) ? (($s->{purity} = $v), return $s) : $s->{purity}; } sub Useqq { my($s, $v) = @_; defined($v) ? (($s->{useqq} = $v), return $s) : $s->{useqq}; } sub Terse { my($s, $v) = @_; defined($v) ? (($s->{terse} = $v), return $s) : $s->{terse}; } sub Freezer { my($s, $v) = @_; defined($v) ? (($s->{freezer} = $v), return $s) : $s->{freezer}; } sub Toaster { my($s, $v) = @_; defined($v) ? (($s->{toaster} = $v), return $s) : $s->{toaster}; } sub Deepcopy { my($s, $v) = @_; defined($v) ? (($s->{deepcopy} = $v), return $s) : $s->{deepcopy}; } sub Quotekeys { my($s, $v) = @_; defined($v) ? (($s->{quotekeys} = $v), return $s) : $s->{quotekeys}; } sub Bless { my($s, $v) = @_; defined($v) ? (($s->{'bless'} = $v), return $s) : $s->{'bless'}; } sub Maxdepth { my($s, $v) = @_; defined($v) ? (($s->{'maxdepth'} = $v), return $s) : $s->{'maxdepth'}; } sub Maxrecurse { my($s, $v) = @_; defined($v) ? (($s->{'maxrecurse'} = $v), return $s) : $s->{'maxrecurse'}; } sub Useperl { my($s, $v) = @_; defined($v) ? (($s->{'useperl'} = $v), return $s) : $s->{'useperl'}; } sub Sortkeys { my($s, $v) = @_; defined($v) ? (($s->{'sortkeys'} = $v), return $s) : $s->{'sortkeys'}; } sub Deparse { my($s, $v) = @_; defined($v) ? (($s->{'deparse'} = $v), return $s) : $s->{'deparse'}; } sub Sparseseen { my($s, $v) = @_; defined($v) ? (($s->{'noseen'} = $v), return $s) : $s->{'noseen'}; } # used by qquote below my %esc = ( "\a" => "\\a", "\b" => "\\b", "\t" => "\\t", "\n" => "\\n", "\f" => "\\f", "\r" => "\\r", "\e" => "\\e", ); my $low_controls = ($IS_ASCII) # This includes \177, because traditionally it has been # output as octal, even though it isn't really a "low" # control ? qr/[\0-\x1f\177]/ # EBCDIC low controls. : qr/[\0-\x3f]/; # put a string value in double quotes sub qquote { local($_) = shift; s/([\\\"\@\$])/\\$1/g; # This efficiently changes the high ordinal characters to \x{} if the utf8 # flag is on. On ASCII platforms, the high ordinals are all the # non-ASCII's. On EBCDIC platforms, we don't include in these the non-ASCII # controls whose ordinals are less than SPACE, excluded below by the range # \0-\x3f. On ASCII platforms this range just compiles as part of :ascii:. # On EBCDIC platforms, there is just one outlier high ordinal control, and # it gets output as \x{}. my $bytes; { use bytes; $bytes = length } s/([^[:ascii:]\0-\x3f])/sprintf("\\x{%x}",ord($1))/ge if $bytes > length # The above doesn't get the EBCDIC outlier high ordinal control when # the string is UTF-8 but there are no UTF-8 variant characters in it. # We want that to come out as \x{} anyway. We need is_utf8() to do # this. || (! $IS_ASCII && $] ge 5.008_001 && utf8::is_utf8($_)); return qq("$_") unless /[[:^print:]]/; # fast exit if only printables # Here, there is at least one non-printable to output. First, translate the # escapes. s/([\a\b\t\n\f\r\e])/$esc{$1}/g; # no need for 3 digits in escape for octals not followed by a digit. s/($low_controls)(?!\d)/'\\'.sprintf('%o',ord($1))/eg; # But otherwise use 3 digits s/($low_controls)/'\\'.sprintf('%03o',ord($1))/eg; # all but last branch below not supported --BEHAVIOR SUBJECT TO CHANGE-- my $high = shift || ""; if ($high eq "iso8859") { # Doesn't escape the Latin1 printables if ($IS_ASCII) { s/([\200-\240])/'\\'.sprintf('%o',ord($1))/eg; } elsif ($] ge 5.007_003) { my $high_control = utf8::unicode_to_native(0x9F); s/$high_control/sprintf('\\%o',ord($1))/eg; } } elsif ($high eq "utf8") { # Some discussion of what to do here is in # https://rt.perl.org/Ticket/Display.html?id=113088 # use utf8; # $str =~ s/([^\040-\176])/sprintf "\\x{%04x}", ord($1)/ge; } elsif ($high eq "8bit") { # leave it as it is } else { s/([[:^ascii:]])/'\\'.sprintf('%03o',ord($1))/eg; #s/([^\040-\176])/sprintf "\\x{%04x}", ord($1)/ge; } return qq("$_"); } # helper sub to sort hash keys in Perl < 5.8.0 where we don't have # access to sortsv() from XS sub _sortkeys { [ sort keys %{$_[0]} ] } sub _refine_name { my $s = shift; my ($name, $val, $i) = @_; if (defined $name) { if ($name =~ /^[*](.*)$/) { if (defined $val) { $name = (ref $val eq 'ARRAY') ? ( "\@" . $1 ) : (ref $val eq 'HASH') ? ( "\%" . $1 ) : (ref $val eq 'CODE') ? ( "\*" . $1 ) : ( "\$" . $1 ) ; } else { $name = "\$" . $1; } } elsif ($name !~ /^\$/) { $name = "\$" . $name; } } else { # no names provided $name = "\$" . $s->{varname} . $i; } return $name; } sub _compose_out { my $s = shift; my ($valstr, $postref) = @_; my $out = ""; $out .= $s->{pad} . $valstr . $s->{sep}; if (@{$postref}) { $out .= $s->{pad} . join(';' . $s->{sep} . $s->{pad}, @{$postref}) . ';' . $s->{sep}; } return $out; } 1; __END__ #line 1482