NAME
DBIx::Tree - Perl module for generating a tree from a self-referential table
SYNOPSIS
use DBIx::Tree;
# have DBIx::Tree build the necessary SQL from table & column names:
my $tree = new DBIx::Tree(connection => $dbh,
table => $table,
method => sub { disp_tree(@_) },
columns => [$id_col, $label_col, $parent_col],
start_id => $start_id);
$tree->traverse;
# alternatively, use your own custom SQL statement
my $sql = <<EOSQL;
SELECT nodes.id, labels.label, nodes.parent_id
FROM nodes
INNER JOIN labels
ON nodes.id = labels.node_id
WHERE labels.type = 'preferred label'
ORDER BY label ASC
EOSQL
my $tree = new DBIx::Tree(connection => $dbh,
sql => $sql,
method => sub { disp_tree(@_) },
columns => ['id', 'label', 'parent_id'],
start_id => $start_id);
$tree->traverse;
# or use an already prepared DBI statement handle:
my $sth = $dbh->prepare($sql);
my $tree = new DBIx::Tree(connection => $dbh,
sth => $sth,
method => sub { disp_tree(@_) },
columns => ['id', 'label', 'parent_id'],
start_id => $start_id);
$tree->traverse;
DESCRIPTION
When you've got one of those nasty self-referential tables that you want to bust out into a tree, this is the module to check out. Assuming there are no horribly broken nodes in your tree and (heaven forbid) any circular references, this module will turn something like:
food food_id parent_id
================== ======= =========
Food 001 NULL
Beans and Nuts 002 001
Beans 003 002
Nuts 004 002
Black Beans 005 003
Pecans 006 004
Kidney Beans 007 003
Red Kidney Beans 008 007
Black Kidney Beans 009 007
Dairy 010 001
Beverages 011 010
Whole Milk 012 011
Skim Milk 013 011
Cheeses 014 010
Cheddar 015 014
Stilton 016 014
Swiss 017 014
Gouda 018 014
Muenster 019 014
Coffee Milk 020 011
into:
Food (001)
Dairy (010)
Beverages (011)
Coffee Milk (020)
Whole Milk (012)
Skim Milk (013)
Cheeses (014)
Cheddar (015)
Stilton (016)
Swiss (017)
Gouda (018)
Muenster (019)
Beans and Nuts (002)
Beans (003)
Black Beans (005)
Kidney Beans (007)
Red Kidney Beans (008)
Black Kidney Beans (009)
Nuts (004)
Pecans (006)
There are examples in the examples directory - one plain text example, and two Tk examples.
Constructor arguments
my $tree = new DBIx::Tree(connection => $dbh,
table => $table,
sql => $sql,
sth => $sth,
method => sub { disp_tree(@_) },
columns => [$id_col, $label_col, $parent_col],
start_id => $start_id,
threshold => $threshold,
match_data => $match_data,
limit => $limit
recursive => 1 || 0);
- connection
-
A DBI connection handle. Unnecessary if you plan to provide a prepared DBI statement handle via the 'sth' parameter.
- table
-
The database table containing the hierarchical data. Unnecessary if you plan to provide either a custom SQL statement via the 'sql' parameter or a prepared DBI statement handle via the 'sth' parameter.
- sql
-
A string containing a custom "SELECT" SQL query statement that returns the hierarchical data. Unnecessary if all of the id/label/parent columns come from the same table specified by the 'table' parameter. Use only when you need to bring in supplementary information from other tables via custom "joins". Note that providing an 'sql' argument will override any other 'table' specification.
- sth
-
A prepared (but not yet executed!) DBI statement handle. Unnecessary if you plan to provide either a basic table name via 'table' or a custom SQL statement via 'sql'. Note that providing an 'sth' argument will override any other 'sql' or 'table' specification.
- method
-
A callback method to be invoked each time a tree item is encountered. This method will be given a hashtable as a parameter, containing the following elements:
item: the name of the item level (0-n): the nesting level of the item. id: the unique id of the item. parent_id: an array ref containing the geneology of parent id's for the current item parent_name: an array ref containing the geneology of parent name's for the current item
If the 'threshold' parameter has been set (either via the new() constructor or in the call to traverse()), the callback will only occur if the tree item is 'threshold' or more levels deep in the hierarchy.
- post_method
-
A callback method to be invoked after all the children of a tree item have been encountered. This method will be given a hashtable as a parameter, containing the following elements:
item: the name of the item level (0-n): the nesting level of the item. id: the unique id of the item. parent_id: an array ref containing the geneology of parent id's for the current item parent_name: an array ref containing the geneology of parent name's for the current item
If the 'threshold' parameter has been set (either via the new() constructor or in the call to traverse()), the callback will only occur if the tree item is 'threshold' or more levels deep in the hierarchy.
- columns:
-
A reference to a list of three column names that can be found in the table/result set:
id_col: The name of the column containing the unique id. label_col: The name of the column containing the textual data of the row, like a name. parent_col: The name of the column containing the id of the row's parent.
Optional additional columns; note that these will only be used in queries built by DBIx::Tree from 'table' specifications - i.e. they will not be used with 'sth'- or 'sql'-type query parameters (presumably you can provide this functionality yourself when using one of those query types).
order_col: The name of a column to use for ordering the results; defaults to the column name specified by label_col. This column name does not need to exist in the result set, but should exist in the table being queried. order_dir: An SQL directive specifying the directionality of the ordering; for most databases this is either 'ASC' or 'DESC'. The default is an empty string, which leaves the decision to the database (in most cases, this will be ascending)
- start_id
-
The unique id of the root item. Defaults to 1. May be overriden by the 'start_id' argument to traverse().
- threshold
-
The level in the hierarchical tree at which to begin processing items. The root of the tree is considered to be at level 1. May be overriden by the 'threshold' argument to traverse().
- match_data
-
The value of a partial match to look for - if this is supplied, only rows whose label_col matches (match_data + '%') this will be selected. This feature was supplied by Ilia Lobsanov <ilia@lobsanov.com>
- limit
-
Limit the number of rows using an SQL LIMIT clause - not all SQL servers support this. This feature was supplied by Ilia Lobsanov <ilia@lobsanov.com>
- recursive
-
Specifies which of two methods DBIx::Tree will use to traverse the tree. The default is non-recursively, which is efficient in that it requires only a single database query, but it also loads the entire tree into memory at once. The recursive method queries the database repetitively, but has smaller memory requirements. The recursive method will also be more efficient when an alternative start_id is specified. Note that if you supply both a limit argument and a threshold argument (implying that you want to see at most N records at or below the given threshold), the recursive method will be used automatically for efficiency.
DBIx::Tree Methods
- traverse(%args)
-
Begins a depth-first traversal of the hierarchical tree. The optional %args hash provides locally overriding values for the identical parameters set in the new() constructor.
TODO
Graceful handling of circular references. Better docs. Rewrite the algorithm. Separate data acquisition from data formatting.
AUTHOR
Brian Jepson, bjepson@ids.net
This module was inspired by the Expanding Hierarchies example that I stumbled across in the Microsoft SQL Server Database Developer's Companion section of the Microsoft SQL Server Programmer's Toolkit.
Jan Mach <machj@ders.cz> contributed substantial performance improvements, ordering handling for tree output, and other bug fixes.
Aaron Mackey <amackey@virginia.edu> has continued active development on the module based on Brian Jepson's version 0.91 release.
Co-maintenance since V 1.91 is by Ron Savage <rsavage@cpan.org>. Uses of 'I' in previous versions is not me, but will be hereafter.
SEE ALSO
perl(1). DBI(3). Tk(3).