Provided by: libdata-treedumper-perl_0.40-1_all bug

NAME

       Data::TreeDumper - Improved replacement for Data::Dumper. Powerful filtering capability.

SYNOPSIS

         use Data::TreeDumper ;

         my $sub = sub {} ;

         my $s =
         {
         A =>
               {
               a =>
                       {
                       }
               , bbbbbb => $sub
               , c123 => $sub
               , d => \$sub
               }

         , C =>
               {
               b =>
                       {
                       a =>
                               {
                               a =>
                                       {
                                       }

                               , b => sub
                                       {
                                       }
                               , c => 42
                               }

                       }
               }
         , ARRAY => [qw(elment_1 element_2 element_3)]
         } ;

         #-------------------------------------------------------------------
         # package setup data
         #-------------------------------------------------------------------

         $Data::TreeDumper::Useascii = 0 ;
         $Data::TreeDumper::Maxdepth = 2 ;

         print DumpTree($s, 'title') ;
         print DumpTree($s, 'title', MAX_DEPTH => 1) ;
         print DumpTrees
                 (
                   [$s, "title", MAX_DEPTH => 1]
                 , [$s2, "other_title", DISPLAY_ADDRESS => 0]
                 , USE_ASCII => 1
                 , MAX_DEPTH => 5
                 ) ;

Output

         title:
         |- A [H1]
         |  |- a [H2]
         |  |- bbbbbb = CODE(0x8139fa0) [C3]
         |  |- c123 [C4 -> C3]
         |  `- d [R5]
         |     `- REF(0x8139fb8) [R5 -> C3]
         |- ARRAY [A6]
         |  |- 0 [S7] = elment_1
         |  |- 1 [S8] = element_2
         |  `- 2 [S9] = element_3
         `- C [H10]
            `- b [H11]
               `- a [H12]
                  |- a [H13]
                  |- b = CODE(0x81ab130) [C14]
                  `- c [S15] = 42

DESCRIPTION

       Data::Dumper and other modules do a great job of dumping data structures.  Their output,
       however, often takes more brain power to understand than the data itself.  When dumping
       large amounts of data, the output can be overwhelming and it can be difficult to see the
       relationship between each piece of the dumped data.

       Data::TreeDumper also dumps data in a tree-like fashion but hopefully in a format more
       easily understood.

   Label
       Each node in the tree has a label. The label contains a type and an address. The label is
       displayed to the right of the entry name within square brackets.

         |  |- bbbbbb = CODE(0x8139fa0) [C3]
         |  |- c123 [C4 -> C3]
         |  `- d [R5]
         |     `- REF(0x8139fb8) [R5 -> C3]

       Address

       The addresses are linearly incremented which should make it easier to locate data.  If the
       entry is a reference to data already displayed, a -> followed with the address of the
       already displayed data is appended within the label.

         ex: c123 [C4 -> C3]
                    ^     ^
                    |     | address of the data refered to
                    |
                    | current element address

       Types

       S: Scalar, H: Hash, A: Array, C: Code,

       R: Reference, RS: Scalar reference.  Ox: Object, where x is the object undelying type

   Empty Hash or Array
       No structure is displayed for empty hashes or arrays, the string "no elements" is added to
       the display.

         |- A [S10] = string
         |- EMPTY_ARRAY (no elements) [A11]
         |- B [S12] = 123

Configuration and Overrides

       Data::TreeDumper has configuration options you can set to modify the output it generates.
       DumpTree and PrintTree take overrides as trailing arguments. Those overrides are active
       within the current dump call only.

         ex:
         $Data::TreeDumper::Maxdepth = 2 ;

         # maximum depth set to 1 for the duration of the call only
         print DumpTree($s, 'title', MAX_DEPTH => 1) ;
         PrintTree($s, 'title', MAX_DEPTH => 1) ; # shortcut for the above call

         # maximum depth is 2
         print DumpTree($s, 'title') ;

   $Data::TreeDumper::Displaycallerlocation
       This package variable is very useful when you use Data::TreeDumper and don't know where
       you called PrintTree or DumpTree, ie when debugging. It displays the filename and line of
       call on STDOUT.  It can't also be set as an override,  DISPLAY_CALLER_LOCATION => 1.

   NO_PACKAGE_SETUP
       Sometimes, the package setup you have is not what you want to use. resetting the variable,
       making a call and setting the variables back is borring. You can set NO_PACKAGE_SETUP to 1
       and DumpTree will ignore the package setup for the call.

         print Data::TreeDumper::DumpTree($s, "Using package data") ;
         print Data::TreeDumper::DumpTree($s, "Not Using package data", NO_PACKAGE_SETUP => 1) ;

   DISPLAY_ROOT_ADDRESS
       By default, Data::TreeDumper doesn't display the address of the root.

         DISPLAY_ROOT_ADDRESS => 1 # show the root address

   DISPLAY_ADDRESS
       When the dumped data is not self-referential, displaying the address of each node clutters
       the display. You can direct Data::TreeDumper to not display the node address by using:

         DISPLAY_ADDRESS => 0

   DISPLAY_PATH
       Add the path of the element to the its address.

         DISPLAY_PATH => 1

         ex: '- CopyOfARRAY  [A39 -> A18 /{'ARRAY'}]

   DISPLAY_OBJECT_TYPE
       Data::TreeDumper displays the package in which an object is blessed.  You can suppress
       this display by using:

         DISPLAY_OBJECT_TYPE => 0

   DISPLAY_INHERITANCE
       Data::TreeDumper will display the inheritance hierarchy for the object:

         |- object =  blessed in 'SuperObject' <- Potatoe [OH55]
         |  `- Data = 0  [S56]

   DISPLAY_AUTOLOAD
       if set, Data::TreeDumper will tag the object type with '[A]' if the package has an
       AUTOLOAD function.

         |- object_with_autoload = blessed in '[A]SuperObjectWithAutoload' <- Potatoe <- [A] Vegetable   [O58]
         |  `- Data = 0  [S56]

   DISPLAY_TIE
       if DISPLAY_TIE is set, Data::TreeDumper will display which packae the variable is tied to.
       This works for hashes and arrays as well as for object which are based on hashes and
       arrays.

         |- tied_hash (tied to 'TiedHash')  [H57]
         |  `- x = 1  [S58]

         |- tied_hash_object = (tied to 'TiedHash') blessed in 'SuperObject' <- [A]Potatoe <- Vegetable   [O59]
         |  |- m1 = 1  [S60]
         |  `- m2 = 2  [S61]

   PERL DATA
       Setting one of the options below will show internal perl data:

         Cells: <2234> HASH(0x814F20c)
         |- A1 [H1] <204> HASH(0x824620c)
         |  `- VALUE [S2] = datadatadatadatadatadatadatadatadatadata <85>
         |- A8 [H11] <165> HASH(0x8243d68)
         |  `- VALUE [S12] = C <46>
         `- C2 [H19] <165> HASH(0x8243dc0)
            `- VALUE [S20] = B <46>

       DISPLAY_PERL_SIZE

       Setting this option will show the size of the memory allocated for each element in the
       tree within angle brackets.

         DISPLAY_PERL_SIZE => 1

       The excellent Devel::Size is used to compute the size of the perl data. If you have deep
       circular data structures, expect the dump time to be slower, 50 times slower or more.

       DISPLAY_PERL_ADDRESS

       Setting this option will show the perl-address of the dumped data.

         DISPLAY_PERL_ADDRESS => 1

   REPLACEMENT_LIST
       Scalars may contain non printable characters that you rather not see in a dump. One of the
       most common is "\r" embedded in text string from dos files. Data::TreeDumper, by default,
       replaces "\n" by '[\n]' and "\r" by '[\r]'. You can set REPLACEMENT_LIST to an array ref
       containing elements which are themselves array references. The first element is the
       character(s) to match and the second is the replacement.

         # a fancy and stricter replacement for \n and \r
         my $replacement = [ ["\n" => '[**Fancy \n replacement**]'], ["\r" => '\r'] ] ;
         print DumpTree($smed->{TEXT}, 'Text:', REPLACEMENT_LIST => $replacement) ;

   QUOTE_HASH_KEYS
       QUOTE_HASH_KEYS and its package variable $Data::TreeDumper::Quotehashkeys can be set if
       you wish to single quote the hash keys. Hash keys are not quoted by default.

         DumpTree(\$s, 'some data:', QUOTE_HASH_KEYS => 1) ;

         # output
         some data:
         `- REF(0x813da3c) [H1]
            |- 'A' [H2]
            |  |- 'a' [H3]
            |  |- 'b' [H4]
            |  |  |- 'a' = 0 [S5]

   QUOTE_VALUES
       QUOTE_VALUES and its package variable $Data::TreeDumper::Quotevalues can be set if you
       wish to single quote the scalar values.

         DumpTree(\$s, 'Cells:', QUOTE_VALUES=> 1) ;

   NO_NO_ELEMENTS
       If this option is set, Data::TreeDumper will not add 'no elements' to empty hashes and
       arrays

   NO_OUTPUT
       This option suppresses all output generated by Data::TreeDumper.  This is useful when you
       want to iterate through your data structures and display the data yourself, manipulate the
       data structure, or do a search (see "using filter as iterators" below)

   Filters
       Data::TreeDumper can sort the tree nodes with a user defined subroutine. By default, hash
       keys are sorted.

         FILTER => \&ReverseSort
         FILTER_ARGUMENT => ['your', 'arguments']

       The filter routine is passed these arguments:

       1 - a reference to the node which is going to be displayed
       2 - the nodes depth (this allows you to selectively display elements at a certain depth)
       3 - the path to the reference from the start of the dump.
       4 - an array reference containing the keys to be displayed (see "Filter chaining")
       5 - the dumpers setup
       5 - the filter arguments (see below)

       The filter returns the node's type, an eventual new structure (see below) and a list of
       'keys' to display. The keys are hash keys or array indexes.

       In Perl:

         ($tree_type, $replacement_tree, @nodes_to_display) = $your_filter->($tree, $level, $path, $nodes_to_display, $setup) ;

       Filter are not as complicated as they sound and they are very powerful, especially when
       using the path argument.  The path idea was given to me by another module writer but I
       forgot whom. If this writer will contact me, I will give him the proper credit.

       Lots of examples can be found in filters.pl and I'll be glad to help if you want to
       develop a specific filter.

       FILTER_ARGUMENT

       it is possible to pass arguments to your filter, passing a reference allows you to modify
       the arguments when the filter is run (that happends for each node).

        sub SomeSub
        {
        my $counter = 0 ;
        my $data_structure = {.....} ;

        DumpTree($data_structure, 'title', FILTER => \&CountNodes, FILTER_ARGUMENT => \$counter) ;

        print "\$counter = $counter\n" ;
        }

        sub CountNodes
        {
        my ($structure, $level, $path, $nodes_to_display, $setup, $counter) = @_ ;
        $$counter++ ; # remember to pass references if you want them to be changed by the filter

        return(DefaultNodesToDisplay($structure)) ;
        }

       Key removal

       Entries can be removed from the display by not returning their keys.

         my $s = {visible => '', also_visible => '', not_visible => ''} ;
         my $OnlyVisible = sub
               {
               my $s = shift ;

               if('HASH' eq ref $s)
                       {
                       return('HASH', undef, grep {! /^not_visible/} keys %$s) ;
                       }

               return(Data::TreeDumper::DefaultNodesToDisplay($s)) ;
               }

         DumpTree($s, 'title', FILTER => $OnlyVisible) ;

       Label changing

       The label for a hash keys or an array index can be altered. This can be used to add visual
       information to the tree dump. Instead of returning the key name, return an array reference
       containing the key name and the label you want to display.  You only need to return such a
       reference for the entries you want to change, thus a mix of scalars and array ref is
       acceptable.

         sub StarOnA
         {
         # hash entries matching /^a/i have '*' prepended

         my $tree = shift ;

         if('HASH' eq ref $tree)
               {
               my @keys_to_dump ;

               for my $key_name (keys %$tree)
                       {
                       if($key_name =~ /^a/i)
                               {
                               $key_name = [$key_name, "* $key_name"] ;
                               }

                       push @keys_to_dump, $key_name ;
                       }

               return ('HASH', undef, @keys_to_dump) ;
               }

         return (Data::TreeDumper::DefaultNodesToDisplay($tree)) ;
         }

         print DumpTree($s, "Entries matching /^a/i have '*' prepended", FILTER => \&StarOnA) ;

       If you use an ANSI terminal, you can also change the color of the label.  This can greatly
       improve visual search time.  See the label coloring example in colors.pl.

       Structure replacement

       It is possible to replace the whole data structure in a filter. This comes handy when you
       want to display a "worked" version of the structure. You can even change the type of the
       data structure, for example changing an array to a hash.

         sub ReplaceArray
         {
         # replace arrays with hashes!!!

         my $tree = shift ;

         if('ARRAY' eq ref $tree)
               {
               my $multiplication = $tree->[0] * $tree->[1] ;
               my $replacement = {MULTIPLICATION => $multiplication} ;
               return('HASH', $replacement, keys %$replacement) ;
               }

         return (Data::TreeDumper::DefaultNodesToDisplay($tree)) ;
         }

         print DumpTree($s, 'replace arrays with hashes!', FILTER => \&ReplaceArray) ;

       Here is a real life example. Tree::Simple (http://search.cpan.org/dist/Tree-Simple/
       <http://search.cpan.org/dist/Tree-Simple/>) allows one to build tree structures. The child
       nodes are not directly in the parent object (hash). Here is an unfiltered dump of a tree
       with seven nodes:

         Tree::Simple through Data::TreeDumper
         |- _children
         |  |- 0
         |  |  |- _children
         |  |  |  `- 0
         |  |  |     |- _children
         |  |  |     |- _depth = 1
         |  |  |     |- _node = 1.1
         |  |  |     `- _parent
         |  |  |- _depth = 0
         |  |  |- _node = 1
         |  |  `- _parent
         |  |- 1
         |  |  |- _children
         |  |  |  |- 0
         |  |  |  |  |- _children
         |  |  |  |  |- _depth = 1
         |  |  |  |  |- _node = 2.1
         |  |  |  |  `- _parent
         |  |  |  |- 1
         |  |  |  |  |- _children
         |  |  |  |  |- _depth = 1
         |  |  |  |  |- _node = 2.1a
         |  |  |  |  `- _parent
         |  |  |  `- 2
         |  |  |     |- _children
         |  |  |     |- _depth = 1
         |  |  |     |- _node = 2.2
         |  |  |     `- _parent
         |  |  |- _depth = 0
         |  |  |- _node = 2
         |  |  `- _parent
         |  `- 2
         |     |- _children
         |     |- _depth = 0
         |     |- _node = 3
         |     `- _parent
         |- _depth = -1
         |- _node = 0
         `- _parent = root

       This is nice for the developer but not for a user wanting to oversee the node hierarchy.
       One of the possible filters would be:

         FILTER => sub
                       {
                       my $s = shift ;

                       if('Tree::Simple' eq ref $s)
                               {
                               my $counter = 0 ;

                               return
                                       (
                                       'ARRAY'
                                       , $s->{_children}
                                       , map{[$counter++, $_->{_node}]} @{$s->{_children}} # index generation
                                       ) ;
                               }

                       return(Data::TreeDumper::DefaultNodesToDisplay($s)) ;
                       }

       Which would give this much more readable output:

         Tree::Simple through Data::TreeDumper2
         |- 1
         |  `- 1.1
         |- 2
         |  |- 2.1
         |  |- 2.1a
         |  `- 2.2
         `- 3

       What about counting the children nodes? The index generating code becomes:

         map{[$counter++, "$_->{_node} [" . @{$_->{_children}} . "]"]} @{$s->{_children}}

         Tree::Simple through Data::TreeDumper4
         |- 1 [1]
         |  `- 1.1 [0]
         |- 2 [3]
         |  |- 2.1 [0]
         |  |- 2.1a [0]
         |  `- 2.2 [0]
         `- 3 [0]

       Filter chaining

       It is possible to chain filters. CreateChainingFilter takes a list of filtering sub
       references.  The filters must properly handle the third parameter passed to them.

       Suppose you want to chain a filter that adds a star before each hash key label, with a
       filter that removes all (original) keys that match /^a/i.

         sub AddStar
               {
               my $s = shift ;
               my $level = shift ;
               my $path = shift ;
               my $keys = shift ;

               if('HASH' eq ref $s)
                       {
                       $keys = [keys %$s] unless defined $keys ;

                       my @new_keys ;

                       for (@$keys)
                               {
                               if('' eq ref $_)
                                       {
                                       push @new_keys, [$_, "* $_"] ;
                                       }
                               else
                                       {
                                       # another filter has changed the label
                                       push @new_keys, [$_->[0], "* $_->[1]"] ;
                                       }
                               }

                       return('HASH', undef, @new_keys) ;
                       }

               return(Data::TreeDumper::DefaultNodesToDisplay($s)) ;
               } ;

         sub RemoveA
               {
               my $s = shift ;
               my $level = shift ;
               my $path = shift ;
               my $keys = shift ;

               if('HASH' eq ref $s)
                       {
                       $keys = [keys %$s] unless defined $keys ;
                       my @new_keys ;

                       for (@$keys)
                               {
                               if('' eq ref $_)
                                       {
                                       push @new_keys, $_ unless /^a/i ;
                                       }
                               else
                                       {
                                       # another filter has changed the label
                                       push @new_keys, $_ unless $_->[0] =~ /^a/i ;
                                       }
                               }

                       return('HASH', undef, @new_keys) ;
                       }

               return(Data::TreeDumper::DefaultNodesToDisplay($s)) ;
               } ;

         DumpTree($s, 'Chained filters', FILTER => CreateChainingFilter(\&AddStar, \&RemoveA)) ;

   level Filters
       It is possible to define one filter for a specific level. If a filter for a specific level
       exists it is used instead of the global filter.

       LEVEL_FILTERS => {1 => \&FilterForLevelOne, 5 => \&FilterForLevelFive ... } ;

   Type Filters
       You can define filters for specific types of references. This filter type has the highest
       priority.

       here's a very simple filter that will display the specified keys for the types

               print DumpTree
                       (
                       $data,
                       'title',
                       TYPE_FILTERS =>
                               {
                               'Config::Hierarchical' => sub {'HASH', undef, qw(CATEGORIES) },
                               'PBS2::Node' => sub {'HASH', undef, qw(CONFIG DEPENDENCIES MATCH) },,
                               }
                       ) ;

   Using filters as iterators
       You can iterate through your data structures and display data yourself, manipulate the
       data structure, or do a search. While iterating through the data structure, you can prune
       arbitrary branches to speedup processing.

         # this example counts the nodes in a tree (hash based)
         # a node is counted if it has a '__NAME' key
         # any field that starts with '__' is considered rivate and we prune so we don't recurse in it
         # anything that is not a hash (the part of the tree that interests us in this case) is pruned

         my $number_of_nodes_in_the_dependency_tree = 0 ;
         my $node_counter =
               sub
               {
               my $tree = shift ;
               if('HASH' eq ref $tree && exists $tree->{__NAME})
                       {
                       $number_of_nodes_in_the_dependency_tree++ if($tree->{__NAME} !~ /^__/) ;

                       return('HASH', $tree, grep {! /^__/} keys %$tree) ; # prune to run faster
                       }
               else
                       {
                       return('SCALAR', 1) ; # prune
                       }
               } ;

         DumpTree($dependency_tree, '', NO_OUTPUT => 1, FILTER => $node_counter) ;

       See the example under FILTER which passes arguments through Data::TreeDumper instead for
       using a closure as above

   Start level
       This configuration option controls whether the tree trunk is displayed or not.

       START_LEVEL => 1:

         $tree:
         |- A [H1]
         |  |- a [H2]
         |  |- bbbbbb = CODE(0x8139fa0) [C3]
         |  |- c123 [C4 -> C3]
         |  `- d [R5]
         |     `- REF(0x8139fb8) [R5 -> C3]
         |- ARRAY [A6]
         |  |- 0 [S7] = element_1
         |  |- 1 [S8] = element_2

       START_LEVEL => 0:

         $tree:
         A [H1]
         |- a [H2]
         |- bbbbbb = CODE(0x8139fa0) [C3]
         |- c123 [C4 -> C3]
         `- d [R5]
            `- REF(0x8139fb8) [R5 -> C3]
         ARRAY [A6]
         |- 0 [S7] = element_1
         |- 1 [S8] = element_2

   ASCII vs ANSI
       You can direct Data:TreeDumper to output ANSI codes instead of ASCII characters. The
       display will be much nicer but takes slightly longer (not significant for small data
       structures).

         USE_ASCII => 0 # will use ANSI codes instead

   Display number of elements
         DISPLAY_NUMBER_OF_ELEMENTS => 1

       When set, the number of elements of every array and hash is displayed (not for objects
       based on hashes and arrays).

   Maximum depth of the dump
       Controls the depth beyond which which we don't recurse into a structure. Default is -1,
       which means there is no maximum depth. This is useful to limit the amount of data
       displayed.

         MAX_DEPTH => 1

   Number of elements not displayed because of maximum depth limit
       Data::TreDumper will display the number of elements a hash or array has but that can not
       be displayed because of the maximum depth setting.

         DISPLAY_NUMBER_OF_ELEMENTS_OVER_MAX_DEPTH => 1

   Indentation
       Every line of the tree dump will be appended with the value of INDENTATION.

         INDENTATION => '   ' ;

Custom glyphs

       You can  change the glyphs used by Data::TreeDumper.

         DumpTree(\$s, 's', , GLYPHS => ['.  ', '.  ', '.  ', '.  ']) ;

         # output
         s
         .  REF(0x813da3c) [H1]
         .  .  A [H2]
         .  .  .  a [H3]
         .  .  .  b [H4]
         .  .  .  .  a = 0 [S5]
         .  .  .  .  b = 1 [S6]
         .  .  .  .  c [H7]
         .  .  .  .  .  a = 1 [S8]

       Four glyphs must be given. They replace the standard glyphs ['|  ', '|- ', '`- ', '   '].
       It is also possible to set the package variable $Data::TreeDumper::Glyphs. USE_ASCII
       should be set, which it is by default.

Level numbering and tagging

       Data:TreeDumper can prepend the level of the current line to the tree glyphs. This can be
       very useful when searching in tree dump either visually or with a pager.

         NUMBER_LEVELS => 2
         NUMBER_LEVELS => \&NumberingSub

       NUMBER_LEVELS can be assigned a number or a sub reference. When assigned a number,
       Data::TreeDumper will use that value to define the width of the field where the level is
       displayed. For more control, you can define a sub that returns a string to be displayed on
       the left side of the tree glyphs. The example below tags all the nodes whose level is
       zero.

         print DumpTree($s, "Level numbering", NUMBER_LEVELS => 2) ;

         sub GetLevelTagger
         {
         my $level_to_tag = shift ;

         sub
               {
               my ($element, $level, $setup) = @_ ;

               my $tag = "Level $level_to_tag => ";

               if($level == 0)
                       {
                       return($tag) ;
                       }
               else
                       {
                       return(' ' x length($tag)) ;
                       }
               } ;
         }

         print DumpTree($s, "Level tagging", NUMBER_LEVELS => GetLevelTagger(0)) ;

Level coloring

       Another way to enhance the output for easier searching is to colorize it. Data::TreeDumper
       can colorize the glyph elements or whole levels.  If your terminal supports ANSI codes,
       using Term::ANSIColors and Data::TreeDumper together can greatly ease the reading of large
       dumps.  See the examples in 'color.pl'.

         COLOR_LEVELS => [\@color_codes, $reset_code]

       When passed an array reference, the first element is an array containing coloring codes.
       The codes are indexed with the node level modulo the size of the array. The second element
       is used to reset the color after the glyph is displayed. If the second element is an empty
       string, the glyph and the rest of the level is colorized.

         COLOR_LEVELS => \&LevelColoringSub

       If COLOR_LEVEL is assigned a sub, the sub is called for each glyph element. It is passed
       the following elements:

       1 - the nodes depth (this allows you to selectively display elements at a certain depth)

       It should return a coloring code and a reset code. If you return an empty string for the
       reset code, the whole node is displayed using the last glyph element color.

       If level numbering is on, it is also colorized.

Wrapping

       Data::TreeDumper uses the Text::Wrap module to wrap your data to fit your display. Entries
       can be wrapped multiple times so they snuggly fit your screen.

         |  |        |- 1 [S21] = 1
         |  |        `- 2 [S22] = 2
         |  `- 3 [OH23 -> R17]
         |- ARRAY_ZERO [A24]
         |- B [S25] = scalar
         |- Long_name Long_name Long_name Long_name Long_name Long_name
         |    Long_name Long_name Long_name Long_name Long_name Long_name
         |    Long_name Long_name Long_name Long_name Long_name [S26] = 0

       You can direct DTD to not wrap your text by setting NO_WRAP = 1>.

   WRAP_WIDTH
       if this option is set, Data::TreeDumper will use it instead for the console width.

Custom Rendering

       Data::TreeDumper has a plug-in interface for other rendering formats. The renderer
       callbacks are set by overriding the native renderer. Thanks to Stevan Little author of
       Tree::Simple::View for getting Data::TreeDumper on this track. Check
       Data::TreeDumper::Renderer::DHTML.

        DumpTree
               (
                 $s
               , 'Tree'
               , RENDERER =>
                       {
                         BEGIN => \&RenderDhtmlBegin
                       , NODE  => \&RenderDhtmlNode
                       , END   => \&RenderDhtmlEnd

                       # data needed by the renderer
                       , PREVIOUS_LEVEL => -1
                       , PREVIOUS_ADDRESS => 'ROOT'
                       }
               ) ;

   Callbacks
       • {RENDERER}{BEGIN} is called before the traversal of the data structure starts. This
         allows you to setup the document (ex:: html header).

         my ($title, $type_address, $element, $size, $perl_address, $setup) = @_ ;

         1 $title
         2 $type_address
         3 $element
         4 $perl_size
         5 $perl_address
         6 $setup
       • {RENDERER}{NODE} is called for each node in the data structure. The following arguments
         are passed to the callback

         1 $element
         2 $level
         3 $is_terminal (whether a deeper structure will follow or not)
         4 $previous_level_separator (ASCII separators before this node)
         5 $separator (ASCII separator for this element)
         6 $element_name
         7 $element_value
         8 $td_address (address of the element, Ex: C12 or H34. Unique for each element)
         9 $link_address (link to another element, may be undef)
         10 $perl_size (size of the element in bytes, see option DISPLAY_PERL_SIZE)
         11 $perl_address (address (physical) of the element, see option DISPLAY_PERL_ADDRESS)
         12 $setup (the dumper's settings)
       • {RENDERER}{END} is called after the last node has been processed.

       • {RENDERER}{ ... }Arguments to the renderer can be stores within the {RENDERER} hash.

   Renderer modules
       Renderers should be defined in modules under Data::TreeDumper::Renderer and should define
       a function called GetRenderer. GetRenderer can be passed whatever arguments the developer
       whishes. It is acceptable for the modules to also export a specifc sub.

         print DumpTree($s, 'Tree', Data::TreeDumper::Renderer::DHTML::GetRenderer()) ;
         or
         print DumpTree($s, 'Tree', GetDhtmlRenderer()) ;

       If {RENDERER} is set to a scalar, Data::TreeDumper will load the specified module if it
       exists. GetRenderer will be called without arguments.

         print DumpTree($s, 'Tree', RENDERER => 'DHTML') ;

       If {RENDERER}{NAME} is set to a scalar, Data::TreeDumper will load the specified module if
       it exists. GetRenderer will be called without arguments. Arguments to the renderer can
       aither be passed to the GetRenderer sub or as elements in the {RENDERER} hash.

         print DumpTree($s, 'Tree', RENDERER => {NAME => 'DHTML', STYLE => \$style) ;

Zero width console

       When no console exists, while redirecting to a file for example, Data::TreeDumper uses the
       variable VIRTUAL_WIDTH instead. Default is 120.

               VIRTUAL_WIDTH => 120 ;

OVERRIDE list

       • COLOR_LEVELS

       • DISPLAY_ADDRESS

       • DISPLAY_PATH

       • DISPLAY_PERL_SIZE

       • DISPLAY_ROOT_ADDRESS

       • DISPLAY_PERL_ADDRESS

       • FILTER

       • GLYPHS

       • INDENTATION

       • LEVEL_FILTERS

       • MAX_DEPTH

       • DISPLAY_NUMBER_OF_ELEMENTS_OVER_MAX_DEPTH

       • NUMBER_LEVELS

       • QUOTE_HASH_KEYS

       • QUOTE_VALUES

       • REPLACEMENT_LIST

       • START_LEVEL

       • USE_ASCII

       • WRAP_WIDTH

       • VIRTUAL_WIDTH

       • NO_OUTPUT

       • DISPLAY_OBJECT_TYPE

       • DISPLAY_INHERITANCE

       • DISPLAY_TIE

       • DISPLAY_AUTOLOAD

Interface

   Package Data (a la Data::Dumper (as is the silly naming scheme))
       Configuration Variables

         $Data::TreeDumper::Startlevel            = 1 ;
         $Data::TreeDumper::Useascii              = 1 ;
         $Data::TreeDumper::Maxdepth              = -1 ;
         $Data::TreeDumper::Indentation           = '' ;
         $Data::TreeDumper::Virtualwidth          = 120 ;
         $Data::TreeDumper::Displayrootaddress    = 0 ;
         $Data::TreeDumper::Displayaddress        = 1 ;
         $Data::TreeDumper::Displaypath           = 0 ;
         $Data::TreeDumper::Displayobjecttype     = 1 ;
         $Data::TreeDumper::Displayinheritance    = 0 ;
         $Data::TreeDumper::Displaytie            = 0 ;
         $Data::TreeDumper::Displayautoload       = 0 ;
         $Data::TreeDumper::Displayperlsize       = 0 ;
         $Data::TreeDumper::Displayperladdress    = 0 ;
         $Data::TreeDumper::Filter                = \&FlipEverySecondOne ;
         $Data::TreeDumper::Levelfilters          = {1 => \&Filter_1, 5 => \&Filter_5} ;
         $Data::TreeDumper::Numberlevels          = 0 ;
         $Data::TreeDumper::Glyphs                = ['|  ', '|- ', '`- ', '   '] ;
         $Data::TreeDumper::Colorlevels           = undef ;
         $Data::TreeDumper::Nooutput              = 0 ; # generate an output
         $Data::TreeDumper::Quotehashkeys         = 0 ;
         $Data::TreeDumper::Displaycallerlocation = 0 ;

       API

       PrintTreeprints on STDOUT the output of DumpTree.

       DumpTree uses the configuration variables defined above. It takes the following arguments:

       [1] structure_to_dump
       [2] title, a string to prepended to the tree (optional)
       [3] overrides (optional)

         print DumpTree($s, "title", MAX_DEPTH => 1) ;

       DumpTrees uses the configuration variables defined above. It takes the following arguments

       [1] One or more array references containing
         [a] structure_to_dump
         [b] title, a string to prepended to the tree (optional)
         [c] overrides (optional)
       [2] overrides (optional)

         print DumpTrees
                 (
                   [$s, "title", MAX_DEPTH => 1]
                 , [$s2, "other_title", DISPLAY_ADDRESS => 0]
                 , USE_ASCII => 1
                 , MAX_DEPTH => 5
                 ) ;

Bugs

       None that I know of in this release but plenty, lurking in the dark corners, waiting to be
       found.

Examples

       Four examples files are included in the distribution.

       usage.pl shows you how you can use Data::TreeDumper.

       filters.pl shows you how you how to do advance filtering.

       colors.pl shows you how you how to colorize a dump.

       try_it.pl is meant as a scratch pad for you to try Data::TreeDumper.

DEPENDENCY

       Text::Wrap.

       Term::Size or Win32::Console.

       Optional Devel::Size if you want Data::TreeDumper to show perl sizes for the tree
       elements.

EXPORT

       DumpTree, DumpTrees and  CreateChainingFilter.

AUTHOR

       Khemir Nadim ibn Hamouda. <nadim@khemir.net>

       Thanks to Ed Avis for showing interest and pushing me to re-write the documentation.

         Copyright (c) 2003-2010 Nadim Ibn Hamouda el Khemir. All rights
         reserved.  This program is free software; you can redis-
         tribute it and/or modify it under the same terms as Perl
         itself.

       If you find any value in this module, mail me!  All hints, tips, flames and wishes are
       welcome at <nadim@khemir.net>.

SEE ALSO

       Data::TreeDumper::00. Data::Dumper.

       Data::TreeDumper::Renderer::DHTML.

       Devel::Size::Report.Devel::Size.

       PBS: the Perl Build System from which Data::TreeDumper was extracted.