package Data::Printer; use strict; use warnings; use Term::ANSIColor qw(color colored); use Scalar::Util; use Sort::Naturally; use Carp qw(croak); use Clone::PP qw(clone); use Package::Stash; use if $] >= 5.010, 'Hash::Util::FieldHash' => qw(fieldhash); use if $] < 5.010, 'Hash::Util::FieldHash::Compat' => qw(fieldhash); use File::Spec; use File::HomeDir (); use Fcntl; # This causes strangeness wrt UNIVERSAL on Perl 5.8 with some versions of version.pm. # Instead, we now require version in the VSTRING() method. # use version 0.77 (); our $VERSION = '0.40'; BEGIN { if ($^O =~ /Win32/i) { require Win32::Console::ANSI; Win32::Console::ANSI->import; } } # defaults my $properties = { 'name' => 'var', 'indent' => 4, 'index' => 1, 'max_depth' => 0, 'multiline' => 1, 'sort_keys' => 1, 'deparse' => 0, 'hash_separator' => ' ', 'align_hash' => 1, 'separator' => ',', 'end_separator' => 0, 'show_tied' => 1, 'show_tainted' => 1, 'show_unicode' => 0, 'show_weak' => 1, 'show_readonly' => 0, 'show_lvalue' => 1, 'print_escapes' => 0, 'escape_chars' => 'none', 'quote_keys' => 'auto', 'scalar_quotes' => '"', 'use_prototypes' => 1, 'output' => 'stderr', 'return_value' => 'pass', # also 'dump' or 'void' 'colored' => 'auto', # also 0 or 1 'caller_info' => 0, 'caller_message' => 'Printing in line __LINE__ of __FILENAME__:', 'class_method' => '_data_printer', # use a specific dump method, if available 'color' => { 'array' => 'bright_white', 'number' => 'bright_blue', 'string' => 'bright_yellow', 'class' => 'bright_green', 'method' => 'bright_green', 'undef' => 'bright_red', 'hash' => 'magenta', 'regex' => 'yellow', 'code' => 'green', 'glob' => 'bright_cyan', 'vstring' => 'bright_blue', 'lvalue' => 'bright_white', 'format' => 'bright_cyan', 'repeated' => 'white on_red', 'caller_info' => 'bright_cyan', 'weak' => 'cyan', 'tainted' => 'red', 'unicode' => 'bright_yellow', 'escaped' => 'bright_red', 'unknown' => 'bright_yellow on_blue', }, 'class' => { inherited => 'none', # also 'all', 'public' or 'private' universal => 1, parents => 1, linear_isa => 'auto', expand => 1, # how many levels to expand. 0 for none, 'all' for all internals => 1, export => 1, sort_methods => 1, show_methods => 'all', # also 'none', 'public', 'private' show_reftype => 0, _depth => 0, # used internally }, 'filters' => { # The IO ref type isn't supported as you can't actually create one, # any handle you make is automatically blessed into an IO::* object, # and those are separately handled. SCALAR => [ \&SCALAR ], ARRAY => [ \&ARRAY ], HASH => [ \&HASH ], REF => [ \&REF ], CODE => [ \&CODE ], GLOB => [ \&GLOB ], VSTRING => [ \&VSTRING ], LVALUE => [ \&LVALUE ], FORMAT => [ \&FORMAT ], Regexp => [ \&Regexp ], -unknown=> [ \&_unknown ], -class => [ \&_class ], }, _output => *STDERR, # used internally _current_indent => 0, # used internally _linebreak => "\n", # used internally _seen => {}, # used internally _seen_override => {}, # used internally _depth => 0, # used internally _tie => 0, # used internally }; sub import { my $class = shift; my $args; if (scalar @_) { $args = @_ == 1 ? shift : {@_}; croak 'Data::Printer can receive either a hash or a hash reference.' unless ref $args and ref $args eq 'HASH'; } # the RC file overrides the defaults, # (and we load it only once) unless( exists $properties->{_initialized} ) { _load_rc_file($args); $properties->{_initialized} = 1; } # and 'use' arguments override the RC file if ($args) { $properties = _merge( $args ); } my $exported = ($properties->{use_prototypes} ? \&p : \&p_without_prototypes ); my $imported = $properties->{alias} || 'p'; my $caller = caller; no strict 'refs'; *{"$caller\::$imported"} = $exported; *{"$caller\::np"} = \&np; } sub p (\[@$%&];%) { return _print_and_return( $_[0], _data_printer(!!defined wantarray, @_) ); } sub np (\[@$%&];%) { my ($dump, $p) = _data_printer(1, @_); return $dump; } # This is a p() clone without prototypes. # Just like regular Data::Dumper, this version # expects a reference as its first argument. # We make a single exception for when we only # get one argument, in which case we ref it # for the user and keep going. sub p_without_prototypes { my $item = shift; if (!ref $item && @_ == 0) { my $item_value = $item; $item = \$item_value; } return _print_and_return( $item, _data_printer(!!defined wantarray, $item, @_) ); } sub _print_and_return { my ($item, $dump, $p) = @_; if ( $p->{return_value} eq 'pass' ) { print { $p->{_output} } $dump . $/; my $ref = ref $item; if ($ref eq 'ARRAY') { return @{ $item }; } elsif ($ref eq 'HASH') { return %{ $item }; } elsif ( grep { $ref eq $_ } qw(REF SCALAR CODE Regexp GLOB VSTRING) ) { return $$item; } else { return $item; } } elsif ( $p->{return_value} eq 'void' ) { print { $p->{_output} } $dump . $/; return; } else { print { $p->{_output} } $dump . $/ unless defined wantarray; return $dump; } } sub _data_printer { my $wantarray = shift; croak 'When calling p() without prototypes, please pass arguments as references' unless ref $_[0]; my ($item, %local_properties) = @_; local %ENV = %ENV; my $p = _merge(\%local_properties); unless ($p->{multiline}) { $p->{'_linebreak'} = ' '; $p->{'indent'} = 0; $p->{'index'} = 0; } # We disable colors if colored is set to false. # If set to "auto", we disable colors if the user # set ANSI_COLORS_DISABLED or if we're either # returning the value (instead of printing) or # being piped to another command. if ( !$p->{colored} or ($p->{colored} eq 'auto' and (exists $ENV{ANSI_COLORS_DISABLED} or $wantarray or not -t $p->{_output} ) ) ) { $ENV{ANSI_COLORS_DISABLED} = 1; } else { delete $ENV{ANSI_COLORS_DISABLED}; } my $out = color('reset'); if ( $p->{caller_info} and $p->{_depth} == 0 ) { $out .= _get_info_message($p); } $out .= _p( $item, $p ); return ($out, $p); } sub _p { my ($item, $p) = @_; my $ref = (defined $p->{_reftype} ? $p->{_reftype} : ref $item); my $tie; my $string = ''; # Object's unique ID, avoiding circular structures my $id = _object_id( $item ); if ( exists $p->{_seen}->{$id} ) { if ( not defined $p->{_reftype} ) { return colored($p->{_seen}->{$id}, $p->{color}->{repeated}); } } # some filters don't want us to show their repeated refs elsif( !exists $p->{_seen_override}{$ref} ) { $p->{_seen}->{$id} = $p->{name}; } delete $p->{_reftype}; # abort override # globs don't play nice $ref = 'GLOB' if "$item" =~ /GLOB\([^()]+\)$/; # filter item (if user set a filter for it) my $found; if ( exists $p->{filters}->{$ref} ) { foreach my $filter ( @{ $p->{filters}->{$ref} } ) { if ( defined (my $result = $filter->($item, $p)) ) { $string .= $result; $found = 1; last; } } } if (not $found and Scalar::Util::blessed($item) ) { # let '-class' filters have a go foreach my $filter ( @{ $p->{filters}->{'-class'} } ) { if ( defined (my $result = $filter->($item, $p)) ) { $string .= $result; $found = 1; last; } } } if ( not $found ) { # if it's not a class and not a known core type, we must be in # a future perl with some type we're unaware of foreach my $filter ( @{ $p->{filters}->{'-unknown'} } ) { if ( defined (my $result = $filter->($item, $p)) ) { $string .= $result; last; } } } if ($p->{show_tied} and $p->{_tie} ) { $string .= ' (tied to ' . $p->{_tie} . ')'; $p->{_tie} = ''; } return $string; } ###################################### ## Default filters ###################################### sub SCALAR { my ($item, $p) = @_; my $string = ''; if (not defined $$item) { $string .= colored('undef', $p->{color}->{'undef'}); } elsif (_is_number($$item)) { $string .= colored($$item, $p->{color}->{'number'}); } else { my $val = _escape_chars($$item, $p->{color}{string}, $p); $string .= $p->{scalar_quotes} . colored($val, $p->{color}->{'string'}) . $p->{scalar_quotes}; } $string .= ' ' . colored('(TAINTED)', $p->{color}->{'tainted'}) if $p->{show_tainted} and Scalar::Util::tainted($$item); $string .= ' ' . colored('(U)', $p->{color}->{'unicode'}) if $p->{show_unicode} and utf8::is_utf8($$item); $p->{_tie} = ref tied $$item; if ($p->{show_readonly} and &Internals::SvREADONLY( $item )) { $string .= ' (read-only)'; } return $string; } sub _is_number { my ($maybe_a_number) = @_; # Scalar values that start from zero is strings, but not numbers. # You can write `my $foo = 0123`, but then `$foo` will be 83, # (numbers starting with zero is octal integers) return '' if $maybe_a_number =~ /^-?0[0-9]/; my $is_number = $maybe_a_number =~ m/ ^ -? # number can start with minus, but can't start with plus # is scalar starts with plus it is not number [0-9]+ # then there should be some numbers ( \. [0-9]+ )? # there can be decimal part, which is optional ( e [+-] [0-9]+ )? # then there can be optional exponential notation part \z /x; return $is_number; } sub _escape_chars { my ($str, $orig_color, $p) = @_; $orig_color = color( $orig_color ); my $esc_color = color( $p->{color}{escaped} ); # if we're escaping everything then we don't need to keep swapping # colors in and out, and we need to return right away because # we no longer need to print_escapes if ($p->{escape_chars} eq 'all') { return $esc_color . join('', map { sprintf '\x{%02x}', ord $_ } split //, $str) . $orig_color } $str =~ s/\e/$esc_color\\e$orig_color/g if $p->{print_escapes}; if ($p->{escape_chars} eq 'nonascii') { $str =~ s{([^\x{00}-\x{7f}]+)}{ $esc_color . (join '', map { sprintf '\x{%02x}', ord $_ } split //, $1) . $orig_color }ge; } elsif ($p->{escape_chars} eq 'nonlatin1') { $str =~ s{([^\x{00}-\x{ff}]+)}{ $esc_color . (join '', map { sprintf '\x{%02x}', ord $_ } split //, $1) . $orig_color }ge; } if ($p->{print_escapes}) { my %escaped = ( "\n" => '\n', "\r" => '\r', "\t" => '\t', "\f" => '\f', "\b" => '\b', "\a" => '\a', ); foreach my $k ( keys %escaped ) { $str =~ s/$k/$esc_color$escaped{$k}$orig_color/g; } } # always escape the null character $str =~ s/\0/$esc_color\\0$orig_color/g; return $str; } sub ARRAY { my ($item, $p) = @_; my $string = ''; $p->{_depth}++; if ( $p->{max_depth} and $p->{_depth} > $p->{max_depth} ) { $string .= '[ ... ]'; } elsif (not @$item) { $string .= '[]'; } else { $string .= "[$p->{_linebreak}"; $p->{_current_indent} += $p->{indent}; foreach my $i (0 .. $#{$item} ) { $p->{name} .= "[$i]"; my $array_elem = $item->[$i]; $string .= (' ' x $p->{_current_indent}); if ($p->{'index'}) { $string .= colored( sprintf("%-*s", 3 + length($#{$item}), "[$i]"), $p->{color}->{'array'} ); } my $ref = ref $array_elem; # scalar references should be re-referenced # to gain a '\' sign in front of them if (!$ref or $ref eq 'SCALAR') { $string .= _p( \$array_elem, $p ); } else { $string .= _p( $array_elem, $p ); } $string .= ' ' . colored('(weak)', $p->{color}->{'weak'}) if $ref and Scalar::Util::isweak($item->[$i]) and $p->{show_weak}; $string .= $p->{separator} if $i < $#{$item} || $p->{end_separator}; $string .= $p->{_linebreak}; my $size = 2 + length($i); # [10], [100], etc substr $p->{name}, -$size, $size, ''; } $p->{_current_indent} -= $p->{indent}; $string .= (' ' x $p->{_current_indent}) . "]"; } $p->{_tie} = ref tied @$item; $p->{_depth}--; return $string; } sub REF { my ($item, $p) = @_; my $string = ''; # look-ahead, add a '\' only if it's not an object if (my $ref_ahead = ref $$item ) { $string .= '\\ ' if grep { $_ eq $ref_ahead } qw(SCALAR CODE Regexp ARRAY HASH GLOB REF); } $string .= _p($$item, $p); $string .= ' ' . colored('(weak)', $p->{color}->{'weak'}) if Scalar::Util::isweak($$item) and $p->{show_weak}; return $string; } sub CODE { my ($item, $p) = @_; my $string = ''; my $code = 'sub { ... }'; if ($p->{deparse}) { $code = _deparse( $item, $p ); } $string .= colored($code, $p->{color}->{'code'}); return $string; } sub HASH { my ($item, $p) = @_; my $string = ''; $p->{_depth}++; if ( $p->{max_depth} and $p->{_depth} > $p->{max_depth} ) { $string .= '{ ... }'; } elsif (not keys %$item) { $string .= '{}'; } else { $string .= "{$p->{_linebreak}"; $p->{_current_indent} += $p->{indent}; my $total_keys = scalar keys %$item; my $len = 0; my $multiline = $p->{multiline}; my $hash_color = $p->{color}{hash}; my $quote_keys = $p->{quote_keys}; my @keys = (); # first pass, preparing keys to display (and getting largest key size) foreach my $key ($p->{sort_keys} ? nsort keys %$item : keys %$item ) { my $new_key = _escape_chars($key, $hash_color, $p); my $colored = colored( $new_key, $hash_color ); # wrap in uncolored single quotes if there's # any space or escaped characters if ( $quote_keys and ( $quote_keys ne 'auto' or ( $key eq q() or $new_key ne $key or $new_key =~ /\s|\n|\t|\r/ ) ) ) { $colored = qq['$colored']; } push @keys, { raw => $key, colored => $colored, }; # length of the largest key is used for indenting if ($multiline and $p->{align_hash}) { my $l = length $colored; $len = $l if $l > $len; } } # second pass, traversing and rendering foreach my $key (@keys) { my $raw_key = $key->{raw}; my $colored_key = $key->{colored}; my $element = $item->{$raw_key}; $p->{name} .= "{$raw_key}"; $string .= (' ' x $p->{_current_indent}) . sprintf("%-*s", $len, $colored_key) . $p->{hash_separator} ; my $ref = ref $element; # scalar references should be re-referenced # to gain a '\' sign in front of them if (!$ref or $ref eq 'SCALAR') { $string .= _p( \$element, $p ); } else { $string .= _p( $element, $p ); } $string .= ' ' . colored('(weak)', $p->{color}->{'weak'}) if $ref and $p->{show_weak} and Scalar::Util::isweak($item->{$raw_key}); $string .= $p->{separator} if --$total_keys > 0 || $p->{end_separator}; $string .= $p->{_linebreak}; my $size = 2 + length($raw_key); # {foo}, {z}, etc substr $p->{name}, -$size, $size, ''; } $p->{_current_indent} -= $p->{indent}; $string .= (' ' x $p->{_current_indent}) . "}"; } $p->{_tie} = ref tied %$item; $p->{_depth}--; return $string; } sub Regexp { my ($item, $p) = @_; my $string = ''; my $val = "$item"; # a regex to parse a regex. Talk about full circle :) # note: we are not validating anything, just grabbing modifiers if ($val =~ m/\(\?\^?([uladxismpogce]*)(?:\-[uladxismpogce]+)?:(.*)\)/s) { my ($modifiers, $val) = ($1, $2); $string .= colored($val, $p->{color}->{'regex'}); if ($modifiers) { $string .= " (modifiers: $modifiers)"; } } else { croak "Unrecognized regex $val. Please submit a bug report for Data::Printer."; } return $string; } sub VSTRING { my ($item, $p) = @_; eval { require version }; my $string = ''; # This will raise an error if we have version < 0.77; $string .= colored(version->declare($$item)->normal, $p->{color}->{'vstring'}); return $string; } sub FORMAT { my ($item, $p) = @_; my $string = ''; $string .= colored('FORMAT', $p->{color}->{'format'}); return $string; } sub LVALUE { my ($item, $p) = @_; my $string = SCALAR( $item, $p ); $string .= colored( ' (LVALUE)', $p->{color}{lvalue} ) if $p->{show_lvalue}; return $string; } sub GLOB { my ($item, $p) = @_; my $string = ''; $string .= colored("$$item", $p->{color}->{'glob'}); my $extra = ''; # unfortunately, some systems (like Win32) do not # implement some of these flags (maybe not even # fcntl() itself, so we must wrap it. my $flags; eval { no warnings qw( unopened closed ); $flags = fcntl($$item, F_GETFL, 0) }; if ($flags) { $extra .= ($flags & O_WRONLY) ? 'write-only' : ($flags & O_RDWR) ? 'read/write' : 'read-only' ; # How to avoid croaking when the system # doesn't implement one of those, without skipping # the whole thing? Maybe there's a better way. # Solaris, for example, doesn't have O_ASYNC :( my %flags = (); eval { $flags{'append'} = O_APPEND }; eval { $flags{'async'} = O_ASYNC }; # leont says this is the only one I should care for. eval { $flags{'create'} = O_CREAT }; eval { $flags{'truncate'} = O_TRUNC }; eval { $flags{'nonblocking'} = O_NONBLOCK }; if (my @flags = grep { $flags & $flags{$_} } keys %flags) { $extra .= ", flags: @flags"; } $extra .= ', '; } my @layers = (); eval { @layers = PerlIO::get_layers $$item }; # TODO: try PerlIO::Layers::get_layers (leont) unless ($@) { $extra .= "layers: @layers"; } $string .= " ($extra)" if $extra; $p->{_tie} = ref tied *$$item; return $string; } sub _unknown { my($item, $p) = @_; my $ref = ref $item; my $string = ''; $string = colored($ref, $p->{color}->{'unknown'}); return $string; } sub _class { my ($item, $p) = @_; my $ref = ref $item; # if the user specified a method to use instead, we do that if ( $p->{class_method} and my $method = $item->can($p->{class_method}) ) { return $method->($item, $p) if ref $method eq 'CODE'; } my $string = ''; $p->{class}{_depth}++; $string .= colored($ref, $p->{color}->{'class'}); if ( $p->{class}{show_reftype} ) { $string .= ' (' . colored( Scalar::Util::reftype($item), $p->{color}->{'class'} ) . ')'; } if ($p->{class}{expand} eq 'all' or $p->{class}{expand} >= $p->{class}{_depth} ) { $string .= " {$p->{_linebreak}"; $p->{_current_indent} += $p->{indent}; if ($] >= 5.010) { require mro; } else { require MRO::Compat; } # Package::Stash dies on blessed XS eval { my $stash = Package::Stash->new($ref); if ( my @superclasses = @{$stash->get_symbol('@ISA')||[]} ) { if ($p->{class}{parents}) { $string .= (' ' x $p->{_current_indent}) . 'Parents ' . join(', ', map { colored($_, $p->{color}->{'class'}) } @superclasses ) . $p->{_linebreak}; } if ( $p->{class}{linear_isa} and ( ($p->{class}{linear_isa} eq 'auto' and @superclasses > 1) or ($p->{class}{linear_isa} ne 'auto') ) ) { $string .= (' ' x $p->{_current_indent}) . 'Linear @ISA ' . join(', ', map { colored( $_, $p->{color}->{'class'}) } @{mro::get_linear_isa($ref)} ) . $p->{_linebreak}; } } }; if ($@) { warn "*** WARNING *** Could not get superclasses for $ref: $@" unless $@ =~ / is not a module name at /; } $string .= _show_methods($ref, $p) if $p->{class}{show_methods} and $p->{class}{show_methods} ne 'none'; if ( $p->{'class'}->{'internals'} ) { $string .= (' ' x $p->{_current_indent}) . 'internals: '; local $p->{_reftype} = Scalar::Util::reftype $item; $string .= _p($item, $p); $string .= $p->{_linebreak}; } $p->{_current_indent} -= $p->{indent}; $string .= (' ' x $p->{_current_indent}) . "}"; } $p->{class}{_depth}--; return $string; } ###################################### ## Auxiliary (internal) subs ###################################### # All glory to Vincent Pit for coming up with this implementation, # to Goro Fuji for Hash::FieldHash, and of course to Michael Schwern # and his "Object::ID", whose code is copied almost verbatim below. { fieldhash my %IDs; my $Last_ID = "a"; sub _object_id { my $self = shift; # This is 15% faster than ||= return $IDs{$self} if exists $IDs{$self}; return $IDs{$self} = ++$Last_ID; } } sub _show_methods { my ($ref, $p) = @_; my $string = ''; my $methods = { public => [], private => [], }; my $inherited = $p->{class}{inherited} || 'none'; require B; my $methods_of = sub { my ($name) = @_; map { my $m; if ($_ and $m = B::svref_2object($_) and $m->isa('B::CV') and not $m->GV->isa('B::Special') ) { [ $m->GV->STASH->NAME, $m->GV->NAME ] } else { () } } values %{Package::Stash->new($name)->get_all_symbols('CODE')} }; my %seen_method_name; # Package::Stash dies on blessed XS my @all_methods = (); eval { @all_methods = map $methods_of->($_), @{mro::get_linear_isa($ref)}, $p->{class}{universal} ? 'UNIVERSAL' : () }; if ($@) { warn "*** WARNING *** Could not get all_methods for $ref: $@" unless $@ =~ / is not a module name at /; } METHOD: foreach my $method (@all_methods) { my ($package_string, $method_string) = @$method; next METHOD if $seen_method_name{$method_string}++; my $type = substr($method_string, 0, 1) eq '_' ? 'private' : 'public'; if ($package_string ne $ref) { next METHOD unless $inherited ne 'none' and ($inherited eq 'all' or $type eq $inherited); $method_string .= ' (' . $package_string . ')'; } push @{ $methods->{$type} }, $method_string; } # render our string doing a natural sort by method name my $show_methods = $p->{class}{show_methods}; foreach my $type (qw(public private)) { next unless $show_methods eq 'all' or $show_methods eq $type; my @list = ($p->{class}{sort_methods} ? nsort @{$methods->{$type}} : @{$methods->{$type}}); $string .= (' ' x $p->{_current_indent}) . "$type methods (" . scalar @list . ')' . (@list ? ' : ' : '') . join(', ', map { colored($_, $p->{color}->{method}) } @list ) . $p->{_linebreak}; } return $string; } sub _deparse { my ($item, $p) = @_; require B::Deparse; my $i = $p->{indent}; my $deparseopts = ["-sCi${i}v'Useless const omitted'"]; my $sub = 'sub ' . B::Deparse->new($deparseopts)->coderef2text($item); my $pad = "\n" . (' ' x ($p->{_current_indent} + $i)); $sub =~ s/\n/$pad/gse; return $sub; } sub _get_info_message { my $p = shift; my @caller = caller 2; my $message = $p->{caller_message}; $message =~ s/\b__PACKAGE__\b/$caller[0]/g; $message =~ s/\b__FILENAME__\b/$caller[1]/g; $message =~ s/\b__LINE__\b/$caller[2]/g; return colored($message, $p->{color}{caller_info}) . $p->{_linebreak}; } sub _merge { my $p = shift; my $clone = clone $properties; if ($p) { foreach my $key (keys %$p) { if ($key eq 'as') { $clone->{caller_info} = 1; $clone->{caller_message} = $p->{$key}; } elsif ($key eq 'color' or $key eq 'colour') { my $color = $p->{$key}; if ( not ref $color or ref $color ne 'HASH' ) { Carp::carp q['color' should be a HASH reference. Did you mean 'colored'?]; $clone->{color} = {}; } else { foreach my $target ( keys %$color ) { $clone->{color}->{$target} = $p->{$key}->{$target}; } } } elsif ($key eq 'class') { foreach my $item ( keys %{$p->{class}} ) { $clone->{class}->{$item} = $p->{class}->{$item}; } } elsif ($key eq 'filters') { my $val = $p->{$key}; foreach my $item (keys %$val) { my $filters = $val->{$item}; # EXPERIMENTAL: filters in modules if ($item eq '-external') { my @external = ( ref($filters) ? @$filters : ($filters) ); foreach my $class ( @external ) { my $module = "Data::Printer::Filter::$class"; eval "use $module"; if ($@) { warn "Error loading filter '$module': $@"; } else { my %from_module = %{$module->_filter_list}; my %extras = %{$module->_extra_options}; foreach my $k (keys %from_module) { unshift @{ $clone->{filters}->{$k} }, @{ $from_module{$k} }; $clone->{_seen_override}{$k} = 1 if $extras{$k}{show_repeated}; } } } } else { my @filter_list = ( ref $filters eq 'CODE' ? ( $filters ) : @$filters ); unshift @{ $clone->{filters}->{$item} }, @filter_list; } } } elsif ($key eq 'output') { my $out = $p->{output}; my $ref = ref $out; $clone->{output} = $out; my %output_target = ( stdout => *STDOUT, stderr => *STDERR, ); my $error; if (!$ref and exists $output_target{ lc $out }) { $clone->{_output} = $output_target{ lc $out }; } elsif ( ( $ref and $ref eq 'GLOB') or (!$ref and \$out =~ /GLOB\([^()]+\)$/) ) { $clone->{_output} = $out; } elsif ( !$ref or $ref eq 'SCALAR' ) { if( open my $fh, '>>', $out ) { $clone->{_output} = $fh; } else { $error = 1; } } else { $error = 1; } if ($error) { Carp::carp 'Error opening custom output handle.'; $clone->{_output} = $output_target{ 'stderr' }; } } else { $clone->{$key} = $p->{$key}; } } } return $clone; } sub _load_rc_file { my $args = shift || {}; my $file = exists $args->{rc_file} ? $args->{rc_file} : exists $ENV{DATAPRINTERRC} ? $ENV{DATAPRINTERRC} : File::Spec->catfile(File::HomeDir->my_home,'.dataprinter'); return unless -e $file; my $mode = (stat $file )[2]; if ($^O !~ /Win32/i && ($mode & 0020 || $mode & 0002) ) { warn "*** WARNING *** rc file '$file' must NOT be writeable to other users. Skipping.\n"; return; } if ( -l $file || (!-f _) || -p _ || -S _ || -b _ || -c _ ) { warn "*** WARNING *** rc file '$file' doesn't look like a plain file. Skipping.\n"; return; } unless (-o $file) { warn "*** WARNING *** rc file '$file' must be owned by your (effective) user. Skipping.\n"; return; } if ( open my $fh, '<', $file ) { my $rc_data; { local $/; $rc_data = <$fh> } close $fh; if( ${^TAINT} != 0 ) { if ( $args->{allow_tainted} ) { warn "*** WARNING *** Reading tainted file '$file' due to user override.\n"; $rc_data =~ /(.+)/s; # very bad idea - god help you $rc_data = $1; } else { warn "*** WARNING *** taint mode on: skipping rc file '$file'.\n"; return; } } my $config = eval $rc_data; if ( $@ ) { warn "*** WARNING *** Error loading $file: $@\n"; } elsif (!ref $config or ref $config ne 'HASH') { warn "*** WARNING *** Error loading $file: config file must return a hash reference\n"; } else { $properties = _merge( $config ); } } else { warn "*** WARNING *** error opening '$file': $!\n"; } } 1; __END__ =encoding utf8 =head1 NAME Data::Printer - colored pretty-print of Perl data structures and objects =head1 SYNOPSIS Want to see what's inside a variable in a complete, colored and human-friendly way? use Data::Printer; # or just "use DDP" for short p @array; # no need to pass references Code above might output something like this (with colors!): [ [0] "a", [1] "b", [2] undef, [3] "c", ] You can also inspect objects: my $obj = SomeClass->new; p($obj); Which might give you something like: \ SomeClass { Parents Moose::Object Linear @ISA SomeClass, Moose::Object public methods (3) : bar, foo, meta private methods (0) internals: { _something => 42, } } Data::Printer is fully customizable. If you want to change how things are displayed, or even its standard behavior. Take a look at the L<< available customizations|/"CUSTOMIZATION" >>. Once you figure out your own preferences, create a L<< configuration file|/"CONFIGURATION FILE (RUN CONTROL)" >> for yourself and Data::Printer will automatically use it! B<< That's about it! Feel free to stop reading now and start dumping your data structures! For more information, including feature set, how to create filters, and general tips, just keep reading :) >> Oh, if you are just experimenting and/or don't want to use a configuration file, you can set all options during initialization, including coloring, indentation and filters! use Data::Printer { color => { 'regex' => 'blue', 'hash' => 'yellow', }, filters => { 'DateTime' => sub { $_[0]->ymd }, 'SCALAR' => sub { "oh noes, I found a scalar! $_[0]" }, }, }; The first C<{}> block is just syntax sugar, you can safely omit it if it makes things easier to read: use DDP colored => 1; use Data::Printer deparse => 1, sort_keys => 0; =head1 FEATURES Here's what Data::Printer has to offer to Perl developers, out of the box: =over 4 =item * Very sane defaults (I hope!) =item * Highly customizable (in case you disagree with me :) =item * Colored output by default =item * Human-friendly output, with array index and custom separators =item * Full object dumps including methods, inheritance and internals =item * Exposes extra information such as tainted data and weak references =item * Ability to easily create filters for objects and regular structures =item * Ability to load settings from a C<.dataprinter> file so you don't have to write anything other than "use DDP;" in your code! =back =head1 RATIONALE Data::Dumper is a fantastic tool, meant to stringify data structures in a way they are suitable for being C'ed back in. The thing is, a lot of people keep using it (and similar ones, like Data::Dump) to print data structures and objects on screen for inspection and debugging, and while you B use those modules for that, it doesn't mean you B. This is where Data::Printer comes in. It is meant to do one thing and one thing only: I<< display Perl variables and objects on screen, properly formatted >> (to be inspected by a human) If you want to serialize/store/restore Perl data structures, this module will NOT help you. Try L, L, L, or whatever. CPAN is full of such solutions! =head1 THE p() FUNCTION Once you load Data::Printer, the C function will be imported into your namespace and available to you. It will pretty-print into STDERR (or any other output target) whatever variable you pass to it. =head2 Changing output targets By default, C will be set to use STDERR. As of version 0.27, you can set up the 'output' property so Data::Printer outputs to several different places: =over 4 =item * C<< output => 'stderr' >> - Standard error. Same as *STDERR =item * C<< output => 'stdout' >> - Standard output. Same as *STDOUT =item * C<< output => $filename >> - Appends to filename. =item * C<< output => $file_handle >> - Appends to opened handle =item * C<< output => \$scalar >> - Appends to that variable's content =back =head2 Return Value As of version 0.36, Data::Printer's return value defaults to "pass-through", meaning it will dump the variable to STDERR (or wherever you set the output to) and will return the variable itself. If for whatever reason you want to mangle with the output string instead of printing it, you can either use the (also exported) C function which always returns the string to be printed: use DDP; # move to a string my $string = np @some_array; # send as a warning warn np($some_string); # output to STDOUT instead of STDERR print np(%some_hash); or change the return value to 'dump' and ask for p()'s return value instead: value: use DDP return_value => 'dump'; # move to a string my $string = p @some_array; # output to STDOUT instead of STDERR; print p(%some_hash); Note that, in this case, Data::Printer will not colorize the returned string unless you explicitly set the C option to 1: print p(%some_hash, colored => 1); # now with colors! You can - and should - of course, set this during you "C" call: use Data::Printer colored => 1; print p( %some_hash ); # will be colored Or by adding the setting to your C<.dataprinter> file. As most of Data::Printer, the return value is also configurable. You do this by setting the C option. There are three options available: =over 4 =item * C<'dump'> p %var; # prints the dump to STDERR (void context) my $string = p %var; # returns the dump *without* printing =item * C<'void'>: p %var; # prints the dump to STDERR, never returns. my $string = p %var; # $string is undef. Data still printed in STDERR =item * C<'pass'> (default as of 0.36): p %var; # prints the dump to STDERR, returns %var my %copy = p %var; # %copy = %var. Data still printed in STDERR =back =head1 COLORS AND COLORIZATION Below are all the available colorizations and their default values. Note that both spellings ('color' and 'colour') will work. use Data::Printer { color => { array => 'bright_white', # array index numbers number => 'bright_blue', # numbers string => 'bright_yellow', # strings class => 'bright_green', # class names method => 'bright_green', # method names undef => 'bright_red', # the 'undef' value hash => 'magenta', # hash keys regex => 'yellow', # regular expressions code => 'green', # code references glob => 'bright_cyan', # globs (usually file handles) vstring => 'bright_blue', # version strings (v5.16.0, etc) repeated => 'white on_red', # references to seen values caller_info => 'bright_cyan', # details on what's being printed weak => 'cyan', # weak references tainted => 'red', # tainted content escaped => 'bright_red', # escaped characters (\t, \n, etc) # potential new Perl datatypes, unknown to Data::Printer unknown => 'bright_yellow on_blue', }, }; Don't fancy colors? Disable them with: use Data::Printer colored => 0; By default, 'colored' is set to C<"auto">, which means Data::Printer will colorize only when not being used to return the dump string, nor when the output (default: STDERR) is being piped. If you're not seeing colors, try forcing it with: use Data::Printer colored => 1; Also worth noticing that Data::Printer I honor the C environment variable unless you force a colored output by setting 'colored' to 1. Remember to put your preferred settings in the C<.dataprinter> file so you never have to type them at all! =head1 ALIASING Data::Printer provides the nice, short, C function to dump your data structures and objects. In case you rather use a more explicit name, already have a C function (why?) in your code and want to avoid clashing, or are just used to other function names for that purpose, you can easily rename it: use Data::Printer alias => 'Dumper'; Dumper( %foo ); =head1 CUSTOMIZATION I tried to provide sane defaults for Data::Printer, so you'll never have to worry about anything other than typing C<< "p( $var )" >> in your code. That said, and besides coloring and filtering, there are several other customization options available, as shown below (with default values): use Data::Printer { name => 'var', # name to display on cyclic references indent => 4, # how many spaces in each indent hash_separator => ' ', # what separates keys from values align_hash => 1, # align values in hash colored => 'auto', # colorize output (1 for always, 0 for never) index => 1, # display array indices multiline => 1, # display in multiple lines (see note below) max_depth => 0, # how deep to traverse the data (0 for all) sort_keys => 1, # sort hash keys deparse => 0, # use B::Deparse to expand (expose) subroutines show_tied => 1, # expose tied variables show_tainted => 1, # expose tainted variables show_unicode => 0, # show unicode flag if it exists show_weak => 1, # expose weak references show_readonly => 0, # expose scalar variables marked as read-only show_lvalue => 1, # expose lvalue types print_escapes => 0, # print non-printable chars as "\n", "\t", etc. escape_chars => 'none', # escape chars into \x{...} form. Values are # "none", "nonascii", "nonlatin1", "all" quote_keys => 'auto', # quote hash keys (1 for always, 0 for never). # 'auto' will quote when key is empty/space-only. scalar_quotes => '"', # the quote symbols to enclose scalar values separator => ',', # uses ',' to separate array/hash elements end_separator => 0, # prints the separator after last element in array/hash. # the default is 0 that means not to print caller_info => 0, # include information on what's being printed use_prototypes => 1, # allow p(%foo), but prevent anonymous data return_value => 'dump', # what should p() return? See 'Return Value' above. output => 'stderr',# where to print the output. See # 'Changing output targets' above. class_method => '_data_printer', # make classes aware of Data::Printer # and able to dump themselves. class => { internals => 1, # show internal data structures of classes inherited => 'none', # show inherited methods, # can also be 'all', 'private', or 'public'. universal => 1, # include UNIVERSAL methods in inheritance list parents => 1, # show parents, if there are any linear_isa => 'auto', # show the entire @ISA, linearized, whenever # the object has more than one parent. Can # also be set to 1 (always show) or 0 (never). expand => 1, # how deep to traverse the object (in case # it contains other objects). Defaults to # 1, meaning expand only itself. Can be any # number, 0 for no class expansion, and 'all' # to expand everything. sort_methods => 1, # sort public and private methods show_methods => 'all' # method list. Also 'none', 'public', 'private' }, }; Note: setting C to C<0> will also set C and C to C<0>. =head1 FILTERS Data::Printer offers you the ability to use filters to override any kind of data display. The filters are placed on a hash, where keys are the types - or class names - and values are anonymous subs that receive two arguments: the item itself as first parameter, and the properties hashref (in case your filter wants to read from it). This lets you quickly override the way Data::Printer handles and displays data types and, in particular, objects. use Data::Printer filters => { 'DateTime' => sub { $_[0]->ymd }, 'HTTP::Request' => sub { $_[0]->uri }, }; Perl types are named as C calls them: I, I, I, I, I, I and I. As for objects, just use the class' name, as shown above. As of version 0.13, you may also use the '-class' filter, which will be called for all non-perl types (objects). Your filters are supposed to return a defined value (usually, the string you want to print). If you don't, Data::Printer will let the next filter of that same type have a go, or just fallback to the defaults. You can also use an array reference to pass more than one filter for the same type or class. B: If you plan on calling C from I an inline filter, please make sure you are passing only REFERENCES as arguments. See L below. You may also like to specify standalone filter modules. Please see L for further information on a more powerful filter interface for Data::Printer, including useful filters that are shipped as part of this distribution. =head1 MAKING YOUR CLASSES DDP-AWARE (WITHOUT ADDING ANY DEPS) Whenever printing the contents of a class, Data::Printer first checks to see if that class implements a sub called '_data_printer' (or whatever you set the "class_method" option to in your settings, see L below). If a sub with that exact name is available in the target object, Data::Printer will use it to get the string to print instead of making a regular class dump. This means you could have the following in one of your classes: sub _data_printer { my ($self, $properties) = @_; return 'Hey, no peeking! But foo contains ' . $self->foo; } Notice you don't have to depend on Data::Printer at all, just write your sub and it will use that to pretty-print your objects. If you want to use colors and filter helpers, and still not add Data::Printer to your dependencies, remember you can import them during runtime: sub _data_printer { require Data::Printer::Filter; Data::Printer::Filter->import; # now we have 'indent', outdent', 'linebreak', 'p' and 'colored' my ($self, $properties) = @_; ... } Having a filter for that particular class will of course override this setting. =head1 CONFIGURATION FILE (RUN CONTROL) Data::Printer tries to let you easily customize as much as possible regarding the visualization of your data structures and objects. But we don't want you to keep repeating yourself every time you want to use it! To avoid this, you can simply create a file called C<.dataprinter> in your home directory (usually C in Linux), and put your configuration hash reference in there. This way, instead of doing something like: use Data::Printer { colour => { array => 'bright_blue', }, filters => { 'Catalyst::Request' => sub { my $req = shift; return "Cookies: " . p($req->cookies) }, }, }; You can create a .dataprinter file that looks like this: { colour => { array => 'bright_blue', }, filters => { 'Catalyst::Request' => sub { my $req = shift; return "Cookies: " . p($req->cookies) }, }, }; Note that all we did was remove the "use Data::Printer" bit when writing the C<.dataprinter> file. From then on all you have to do while debugging scripts is: use Data::Printer; and it will load your custom settings every time :) =head2 Loading RC files in custom locations If your RC file is somewhere other than C<.dataprinter> in your home dir, you can load whichever file you want via the C<'rc_file'> parameter: use Data::Printer rc_file => '/path/to/my/rcfile.conf'; You can even set this to undef or to a non-existing file to disable your RC file at will. The RC file location can also be specified with the C environment variable. Using C in code will override the environment variable. =head2 RC File Security The C<.dataprinter> RC file is nothing but a Perl hash that gets C'd back into the code. This means that whatever is in your RC file B. This can be quite worrying if you're not the one in control of the RC file. For this reason, Data::Printer takes extra precaution before loading the file: =over 4 =item * The file has to be in your home directory unless you specifically point elsewhere via the 'C' property or the DATAPRINTERRC environment variable; =item * The file B be a plain file, never a symbolic link, named pipe or socket; =item * The file B be owned by you (i.e. the effective user id that ran the script using Data::Printer); =item * The file B be read-only for everyone but your user. This usually means permissions C<0644>, C<0640> or C<0600> in Unix-like systems. B; =item * The file will B be loaded in Taint mode, unless you specifically load Data::Printer with the 'allow_tainted' option set to true. And even if you do that, Data::Printer will still issue a warning before loading the file. But seriously, don't do that. =back Failure to comply with the security rules above will result in the RC file not being loaded (likely with a warning on what went wrong). =head1 THE "DDP" PACKAGE ALIAS You're likely to add/remove Data::Printer from source code being developed and debugged all the time, and typing it might feel too long. Because of this, the 'DDP' package is provided as a shorter alias to Data::Printer: use DDP; p %some_var; =head1 CALLER INFORMATION If you set caller_info to a true value, Data::Printer will prepend every call with an informational message. For example: use Data::Printer caller_info => 1; my $var = 42; p $var; will output something like: Printing in line 4 of myapp.pl: 42 The default message is C<< 'Printing in line __LINE__ of __FILENAME__:' >>. The special strings C<__LINE__>, C<__FILENAME__> and C<__PACKAGE__> will be interpolated into their according value so you can customize them at will: use Data::Printer caller_info => 1, caller_message => "Okay, __PACKAGE__, let's dance!" color => { caller_info => 'bright_red', }; As shown above, you may also set a color for "caller_info" in your color hash. Default is cyan. =head1 EXPERIMENTAL FEATURES The following are volatile parts of the API which are subject to change at any given version. Use them at your own risk. =head2 Local Configuration (experimental!) You can override global configurations by writing them as the second parameter for p(). For example: p( %var, color => { hash => 'green' } ); =head2 Filter classes As of Data::Printer 0.11, you can create complex filters as a separate module. Those can even be uploaded to CPAN and used by other people! See L for further information. =head1 CAVEATS You can't pass more than one variable at a time. p($foo, $bar); # wrong p($foo); # right p($bar); # right You can't use it in variable declarations (it will most likely not do what you want): p my @array = qw(a b c d); # wrong my @array = qw(a b c d); p @array; # right The default mode is to use prototypes, in which you are supposed to pass variables, not anonymous structures: p( { foo => 'bar' } ); # wrong p %somehash; # right p $hash_ref; # also right To pass anonymous structures, set "use_prototypes" option to 0. But remember you'll have to pass your variables as references: use Data::Printer use_prototypes => 0; p( { foo => 'bar' } ); # was wrong, now is right. p( %foo ); # was right, but fails without prototypes p( \%foo ); # do this instead If you are using inline filters, and calling p() (or whatever name you aliased it to) from inside those filters, you B pass the arguments to C as a reference: use Data::Printer { filters => { ARRAY => sub { my $listref = shift; my $string = ''; foreach my $item (@$listref) { $string .= p( \$item ); # p( $item ) will not work! } return $string; }, }, }; This happens because your filter function is compiled I Data::Printer itself loads, so the filter does not see the function prototype. As a way to avoid unpleasant surprises, if you forget to pass a reference, Data::Printer will generate an exception for you with the following message: 'When calling p() without prototypes, please pass arguments as references' Another way to avoid this is to use the much more complete L interface for standalone filters. =head1 EXTRA TIPS =head2 Circumventing prototypes The C function uses prototypes by default, allowing you to say: p %var; instead of always having to pass references, like: p \%var; There are cases, however, where you may want to pass anonymous structures, like: p { foo => $bar }; # this blows up, don't use and because of prototypes, you can't. If this is your case, just set "use_prototypes" option to 0. Note, with this option, you B have to pass your variables as references: use Data::Printer use_prototypes => 0; p { foo => 'bar' }; # doesn't blow up anymore, works just fine. p %var; # but now this blows up... p \%var; # ...so do this instead p [ $foo, $bar, \@baz ]; # this way you can even pass # several variables at once Versions prior to 0.17 don't have the "use_prototypes" option. If you're stuck in an older version you can write C<&p()> instead of C to circumvent prototypes and pass elements (including anonymous variables) as B. This notation, however, requires enclosing parentheses: &p( { foo => $bar } ); # this is ok, use at will &p( \"DEBUGGING THIS BIT" ); # this works too Or you could just create a very simple wrapper function: sub pp { p @_ }; And use it just as you use C. =head2 Minding the return value of p() I<< (contributed by Matt S. Trout (mst)) >> There is a reason why explicit return statements are recommended unless you know what you're doing. By default, Data::Printer's return value depends on how it was called. When not in void context, it returns the serialized form of the dump. It's tempting to trust your own p() calls with that approach, but if this is your I statement in a function, you should keep in mind your debugging code will behave differently depending on how your function was called! To prevent that, set the C property to either 'void' or 'pass'. You won't be able to retrieve the dumped string but, hey, who does that anyway :) Assuming you have set the pass-through ('pass') property in your C<.dataprinter> file, another stunningly useful thing you can do with it is change code that says: return $obj->foo; with: use DDP; return p $obj->foo; You can even add it to chained calls if you wish to see the dump of a particular state, changing this: $obj->foo->bar->baz; to: $obj->foo->DDP::p->bar->baz And things will "Just Work". =head2 Using p() in some/all of your loaded modules I<< (contributed by Matt S. Trout (mst)) >> While debugging your software, you may want to use Data::Printer in some or all loaded modules and not bother having to load it in each and every one of them. To do this, in any module loaded by C, simply write: ::p( @myvar ); # note the '::' in front of p() Then call your program like: perl -MDDP myapp.pl This also has the great advantage that if you leave one p() call in by accident, it will fail without the -M, making it easier to spot :) If you really want to have p() imported into your loaded modules, use the next tip instead. =head2 Adding p() to all your loaded modules I<< (contributed by Árpád Szász) >> If you wish to automatically add Data::Printer's C function to every loaded module in you app, you can do something like this to your main program: BEGIN { { no strict 'refs'; require Data::Printer; my $alias = 'p'; foreach my $package ( keys %main:: ) { if ( $package =~ m/::$/ ) { *{ $package . $alias } = \&Data::Printer::p; } } } } B This will override all locally defined subroutines/methods that are named C

, if they exist, in every loaded module. If you already have a subroutine named 'C', be sure to change C<$alias> to something custom. If you rather avoid namespace manipulation altogether, use the previous tip instead. =head2 Using Data::Printer from the Perl debugger I<< (contributed by Árpád Szász and Marcel Grünauer (hanekomu)) >> With L, you can easily set the perl debugger to use Data::Printer to print variable information, replacing the debugger's standard C function. All you have to do is add these lines to your C<.perldb> file: use DB::Pluggable; DB::Pluggable->run_with_config( \'[DataPrinter]' ); # note the '\' Then call the perl debugger as you normally would: perl -d myapp.pl Now Data::Printer's C command will be used instead of the debugger's! See L for more information on how to use the perl debugger, and L for extra functionality and other plugins. If you can't or don't wish to use DB::Pluggable, or simply want to keep the debugger's C function and add an extended version using Data::Printer (let's call it C for instance), you can add these lines to your C<.perldb> file instead: $DB::alias{px} = 's/px/DB::px/'; sub px { my $expr = shift; require Data::Printer; print Data::Printer::p($expr); } Now, inside the Perl debugger, you can pass as reference to C expressions to be dumped using Data::Printer. =head2 Using Data::Printer in a perl shell (REPL) Some people really enjoy using a REPL shell to quickly try Perl code. One of the most famous ones out there is L. If you use it, now you can also see its output with Data::Printer! Just install L and add the following line to your re.pl configuration file (usually ".re.pl/repl.rc" in your home dir): load_plugin('DataPrinter'); The next time you run C, it should dump all your REPL using Data::Printer! =head2 Easily rendering Data::Printer's output as HTML To turn Data::Printer's output into HTML, you can do something like: use HTML::FromANSI; use Data::Printer; my $html_output = ansi2html( p($object, colored => 1) ); In the example above, the C<$html_output> variable contains the HTML escaped output of C, so you can print it for later inspection or render it (if it's a web app). =head2 Using Data::Printer with Template Toolkit I<< (contributed by Stephen Thirlwall (sdt)) >> If you use Template Toolkit and want to dump your variables using Data::Printer, install the L module and load it in your template: [% USE DataPrinter %] The provided methods match those of C: ansi-colored dump of the data structure in "myvar": [% DataPrinter.dump( myvar ) %] html-formatted, colored dump of the same data structure: [% DataPrinter.dump_html( myvar ) %] The module allows several customization options, even letting you load it as a complete drop-in replacement for Template::Plugin::Dumper so you don't even have to change your previous templates! =head2 Unified interface for Data::Printer and other debug formatters I<< (contributed by Kevin McGrath (catlgrep)) >> If you are porting your code to use Data::Printer instead of Data::Dumper or similar, you can just replace: use Data::Dumper; with: use Data::Printer alias => 'Dumper'; # use Data::Dumper; making sure to provide Data::Printer with the proper alias for the previous dumping function. If, however, you want a really unified approach where you can easily flip between debugging outputs, use L and its plugins, like L. =head2 Printing stack traces with arguments expanded using Data::Printer I<< (contributed by Sergey Aleynikov (randir)) >> There are times where viewing the current state of a variable is not enough, and you want/need to see a full stack trace of a function call. The L module uses Data::Printer to provide you just that. It exports a C function that pretty-prints detailed information on each function in your stack, making it easier to spot any issues! =head2 Troubleshooting apps in real time without changing a single line of your code I<< (contributed by Marcel Grünauer (hanekomu)) >> L is a dynamic instrumentation framework for troubleshooting Perl programs, similar to L. In a nutshell, C lets you create probes for certain conditions in your application that, once met, will perform a specific action. Since it uses Aspect-oriented programming, it's very lightweight and you only pay for what you use. C can be very useful since it allows you to debug your software without changing a single line of your original code. And Data::Printer comes bundled with it, so you can use the C function to view your data structures too! # Print a stack trace every time the name is changed, # except when reading from the database. dip -e 'before { print longmess(p $_->{args}[1]) if $_->{args}[1] } call "MyObj::name" & !cflow("MyObj::read")' myapp.pl You can check you L's own documentation for more information and options. =head2 Sample output for color fine-tuning I<< (contributed by Yanick Champoux (yanick)) >> The "examples/try_me.pl" file included in this distribution has a sample dump with a complex data structure to let you quickly test color schemes. =head2 creating fiddling filters I<< (contributed by dirk) >> Sometimes, you may want to take advantage of Data::Printer's original dump, but add/change some of the original data to enhance your debugging ability. Say, for example, you have an C object you want to print but the content is encoded. The basic approach, of course, would be to just dump the decoded content: use DDP filter { 'HTTP::Response' => sub { p( \shift->decoded_content, %{shift} ); }; But what if you want to see the rest of the original object? Dumping it would be a no-go, because you would just recurse forever in your own filter. Never fear! When you create a filter in Data::Printer, you're not replacing the original one, you're just stacking yours on top of it. To forward your data to the original filter, all you have to do is return an undefined value. This means you can rewrite your C filter like so, if you want: use DDP filters => { 'HTTP::Response' => sub { my ($res, $p) = @_; # been here before? Switch to original handler return if exists $res->{decoded_content}; # first timer? Come on in! my $clone = $res->clone; $clone->{decoded_content} = $clone->decoded_content; return p($clone, %$p); } }; And voilà! Your fiddling filter now works like a charm :) =head1 BUGS If you find any, please file a bug report. =head1 SEE ALSO L L L L L L =head1 AUTHOR Breno G. de Oliveira C<< >> =head1 CONTRIBUTORS Many thanks to everyone that helped design and develop this module with patches, bug reports, wishlists, comments and tests. They are (alphabetically): =over 4 =item * Adam Rosenstein =item * Allan Whiteford =item * Andreas König =item * Andy Bach =item * Árpád Szász =item * Athanasios Douitsis (aduitsis) =item * Baldur Kristinsson =item * brian d foy =item * Chad Granum (exodist) =item * Chris Prather (perigrin) =item * Dave Mitchell =item * David D Lowe (Flimm) =item * David Golden (xdg) =item * David Precious (bigpresh) =item * David Raab =item * Damien Krotkine (dams) =item * Denis Howe =item * Dotan Dimet =item * Eden Cardim (edenc) =item * Elliot Shank (elliotjs) =item * Fernando Corrêa (SmokeMachine) =item * Fitz Elliott =item * Frew Schmidt (frew) =item * Ivan Bessarabov (bessarabv) =item * J Mash =item * Jay Allen (jayallen) =item * Jesse Luehrs (doy) =item * Jim Keenan (jkeenan) =item * Joel Berger (jberger) =item * John S. Anderson (genehack) =item * Kartik Thakore (kthakore) =item * Kevin Dawson (bowtie) =item * Kevin McGrath (catlgrep) =item * Kip Hampton (ubu) =item * Marcel Grünauer (hanekomu) =item * Marco Masetti (grubert65) =item * Mark Fowler (Trelane) =item * Matt S. Trout (mst) =item * Maxim Vuets =item * Michael Conrad =item * Mike Doherty (doherty) =item * Nuba Princigalli (nuba) =item * Olaf Alders (oalders) =item * Paul Evans (LeoNerd) =item * Pedro Melo (melo) =item * Przemysław Wesołek (jest) =item * Rebecca Turner (iarna) =item * Renato Cron (renatoCRON) =item * Ricardo Signes (rjbs) =item * Rob Hoelz (hoelzro) =item * sawyer =item * Sebastian Willing (Sewi) =item * Sergey Aleynikov (randir) =item * Stanislaw Pusep (syp) =item * Stephen Thirlwall (sdt) =item * sugyan =item * Tatsuhiko Miyagawa (miyagawa) =item * Thomas Sibley (tsibley) =item * Tim Heaney (oylenshpeegul) =item * Torsten Raudssus (Getty) =item * Tokuhiro Matsuno (tokuhirom) =item * vividsnow =item * Wesley Dal`Col (blabos) =item * Yanick Champoux (yanick) =item * Zefram =back If I missed your name, please drop me a line! =head1 LICENSE AND COPYRIGHT Copyright 2011-2017 Breno G. de Oliveira C<< >>. All rights reserved. This module is free software; you can redistribute it and/or modify it under the same terms as Perl itself. See L. =head1 DISCLAIMER OF WARRANTY BECAUSE THIS SOFTWARE IS LICENSED FREE OF CHARGE, THERE IS NO WARRANTY FOR THE SOFTWARE, TO THE EXTENT PERMITTED BY APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT HOLDERS AND/OR OTHER PARTIES PROVIDE THE SOFTWARE "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE SOFTWARE IS WITH YOU. SHOULD THE SOFTWARE PROVE DEFECTIVE, YOU ASSUME THE COST OF ALL NECESSARY SERVICING, REPAIR, OR CORRECTION. IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY AND/OR REDISTRIBUTE THE SOFTWARE AS PERMITTED BY THE ABOVE LICENCE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE USE OR INABILITY TO USE THE SOFTWARE (INCLUDING BUT NOT LIMITED TO LOSS OF DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD PARTIES OR A FAILURE OF THE SOFTWARE TO OPERATE WITH ANY OTHER SOFTWARE), EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.