Php-implemented tree-structure data access class instance, tree-type instance. A tree-structure data access class instance implemented by php. This document describes the tree-structure data access class implemented by php. Share it with you for your reference. The specific implementation code is as follows: php implements a tree structure data access class instance, tree type instance
This example describes the tree structure data access class implemented by php. Share it with you for your reference.
The specific implementation code is as follows:
The code is as follows:
<? Php
/**
* Tanphp framework
*
*
* @ Category Tanphp
* @ Package Data_structure
* @ Version $ Id: Tree. php 25024 22:22:22 tanbo $
*/
/**
* Tree structure data access class
*
* Quick access to tree data
*
* @ Param array $ arr the parameter must be a standard two-dimensional array that contains the index Field (id) and the field (path) representing the tree structure, as shown in example
*
* @ Example
* $arr = array(
* array( 'id' => 1, 'name' => 'php', 'path' => '1' ),
* array( 'id' => 3, 'name' => 'php1', 'path' => '1-3' ),
* array( 'id' => 2, 'name' => 'mysql', 'path' => '2' ),
* array( 'id' => 6, 'name' => 'mysql1', 'path' => '2-6' ),
* array( 'id' => 7, 'name' => 'mysql2', 'path' => '2-7' ),
* array( 'id' => 5, 'name' => 'php11', 'path' => '1-3-5' ),
* array( 'id' => 4, 'name' => 'php2', 'path' => '1-4' ),
* );
* $cate = new Tree($arr);
*
* $data = $cate->getChild(2);
*
* print_r($data->toArray());
*
*
*/
Class Tree
{
Public $ _ info; // Node Information
Public $ _ child = array (); // subnode
Private $ _ parent; // parent node
Private $ _ data; // temporary data of the current operation
Private static $ _ indexs = array (); // index of all nodes
Private static $ _ index_key = 'id'; // Index Key
Private static $ _ tree_key = 'path'; // tree expression key
Private static $ _ tree_delimiter = '-'; // attribute structure expression delimiter
/**
* Constructor
*
* @ Param array $ arr
* @ Param boole $ force_sort if true, $ arr is forcibly ordered.
* @ Return void
*/
Public function _ construct (array $ arr = array (), $ force_sort = true)
{
If ($ force_sort === true ){
$ Arr = $ this-> _ array_sort ($ arr, self: $ _ tree_key );
}
If (! Emptyempty ($ arr )){
$ This-> _ init ($ arr );
}
}
/**
* Initial storage of tree data
*
* @ Param array $ arr
* @ Return void
*/
Private function _ init (array $ arr)
{
Foreach ($ arr as $ item ){
$ Path = $ item [self: $ _ tree_key];
$ Paths = explode (self: $ _ tree_delimiter, $ path );
$ Count_paths = count ($ paths );
$ Parent_id = isset ($ paths [$ count_paths-2])? $ Paths [$ count_paths-2]: NULL;
If ($ count_paths> 1 // if there is a parent
& Array_key_exists ($ parent_id, self: $ _ indexs) // The parent database has been stored in the index.
& Self: $ _ indexs [$ parent_id] instanceof Tree // the parent class is a Tree object.
){
Self: $ _ indexs [$ parent_id]-> addChild ($ item );
} Elseif ($ count_paths = 1 ){
$ This-> addChild ($ item );
} Else {
Throw new Exception ("path data error". var_export ($ item, true ));
}
}
// Print_r (self: $ _ indexs );
}
/**
* Add a subnode
*
* @ Param array $ item
* @ Return void
*/
Public function addChild (array $ item, $ parent = NULL)
{
$ Child = new Tree ();
$ Child-> _ info = $ item;
$ Child-> _ parent = $ parent = NULL? $ This: $ parent;
$ Child-> _ parent-> _ child [] = $ child;
$ This-> _ addIndex ($ item, $ child-> _ getSelf ());
}
/**
* Add a node to the index
*
* @ Param array $ item
* @ Param mix $ value
* @ Return void
*/
Private function _ addIndex (array $ item, $ value)
{
If (array_key_exists (self: $ _ index_key, $ item) & is_int ($ item [self: $ _ index_key]) {
Self: $ _ indexs [$ item [self: $ _ index_key] = $ value;
} Else {
Throw new Exception ("The id field does not exist or is not a string ");
}
}
/**
* Obtain your own references.
*
* @ Return Tree object quote
*/
Private function _ getSelf ()
{
Return $ this;
}
/**
* Obtain the subnode of the node with the specified id
*
* @ Param int $ id
* @ Return Tree object
*/
Public function getChild ($ id)
{
$ Data = self: $ _ indexs [$ id]-> _ child;
$ This-> _ data = $ data;
Return $ this;
}
/**
* Obtain the parent node of the node with the specified id
*
* @ Param int $ id
* @ Return Tree object
*/
Public function getParent ($ id)
{
$ Data = self ::$ _ indexs [$ id]-> _ parent;
$ This-> _ data = $ data;
Return $ this;
}
/**
* Get the same-level node of the node with the specified id
*
* @ Param int $ id
* @ Return Tree object
*/
Public function getBrother ($ id)
{
$ Data = self ::$ _ indexs [$ id]-> _ parent-> _ child;
$ This-> _ data = $ data;
Return $ this;
}
/**
* Convert a Tree object to an array
*
* @ Param object $ object
* @ Return array
*/
Public function toArray ($ obj = NULL)
{
$ Obj = ($ obj = NULL )? $ This-> _ data: $ obj;
$ Arr = array ();
$ _ Arr = is_object ($ obj )? $ This-> _ getBaseInfo ($ obj): $ obj;
If (is_array ($ _ arr )){
Foreach ($ _ arr as $ key => $ val ){
$ Val = (is_array ($ val) | is_object ($ val ))? $ This-> toArray ($ val): $ val;
$ Arr [$ key] = $ val;
}
} Else {
Throw new Exception ("_ arr is not an array ");
}
Return $ arr;
}
/**
* Filter fields such as _ parent to avoid infinite loops.
*
* @ Param object $ obj
* @ Return void
*/
Private function _ getBaseInfo ($ obj)
{
$ Vars = get_object_vars ($ obj );
$ BaseInfo ['_ info'] = $ vars [' _ info'];
$ BaseInfo ['_ child'] = $ vars ['_ child'];
Return $ baseInfo;
}
/**
* Two-dimensional array sorting
*
* Sort two-dimensional arrays in ascending or descending order based on the specified key name
*
* @ Param array $ arr two-dimensional array
* @ Param string $ keys
* @ Param string $ type must be asc or desc
* @ Throws an exception when the parameter is invalid.
* @ Return returns the sorted array.
*/
Private function _ array_sort (array $ arr, $ keys, $ type = 'asc '){
If (! Is_string ($ keys )){
Throw new Exception ("Invalid parameter keys: the type of the parameter keys must be a string ");
}
$ Keysvalue = $ new_array = array ();
Foreach ($ arr as $ k =>$ v ){
If (! Is_array ($ v) |! Isset ($ v [$ keys]) {
Throw new Exception ("The arr parameter is not a two-dimensional array or the arr sub-element does not contain the key '{$ keys }'");
}
$ Keysvalue [$ k] = $ v [$ keys];
}
Switch ($ type ){
Case 'asc ':
Asort ($ keysvalue );
Break;
Case 'desc ':
Arsort ($ keysvalue );
Break;
Default:
Throw new Exception ("Invalid parameter type: the value of the parameter type must be 'asc 'or 'desc '");
}
Reset ($ keysvalue );
Foreach ($ keysvalue as $ k => $ v ){
$ New_array [$ k] = $ arr [$ k];
}
Return $ new_array;
}
}
?>
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Examples in this article describes the tree structure data access class implemented by php. Share it with you for your reference. The specific implementation code is as follows...