nicmart / tree
A basic but flexible php tree data structure and a fluent tree builder implementation.
Installs: 12 829 274
Dependents: 31
Suggesters: 0
Security: 0
Stars: 570
Watchers: 16
Forks: 62
Open Issues: 6
Requires
- php: ~8.0.0 || ~8.1.0 || ~8.2.0 || ~8.3.0 || ~8.4.0
Requires (Dev)
- ergebnis/composer-normalize: ^2.44.0
- ergebnis/license: ^2.6.0
- ergebnis/php-cs-fixer-config: ^6.28.1
- fakerphp/faker: ^1.24.1
- infection/infection: ~0.26.19
- phpunit/phpunit: ^9.6.19
- psalm/plugin-phpunit: ~0.19.0
- vimeo/psalm: ^5.26.1
This package is auto-updated.
Last update: 2024-12-19 11:54:11 UTC
README
In Tree you can find a basic but flexible tree data structure for php together with and an handful Builder class, that enables you to build tree in a fluent way.
The tree data structure
The Tree\Node\NodeInterface
interface abstracts the concept of a tree node. In Tree
a Node has essentially two things:
a set of children (that implements the same NodeInterface
interface) and a value.
On the other hand, the Tree\Node\Node
gives a straight implementation for that interface.
Creating a node
use Tree\Node\Node; $node = new Node('foo');
Getting and setting the value of a node
Each node has a value property, that can be any php value.
$node->setValue('my value'); echo $node->getValue(); //Prints 'my value'
Adding one or more children
$child1 = new Node('child1'); $child2 = new Node('child2'); $node ->addChild($child1) ->addChild($child2);
Removing a child
$node->removeChild($child1);
Getting the array of all children
$children = $node->getChildren();
Overwriting the children set
$node->setChildren([new Node('foo'), new Node('bar')]);
Removing all children
$node->removeAllChildren();
Getting if the node is a leaf or not
A leaf is a node with no children.
$node->isLeaf();
Getting if the node is a child or not
A child is a node that has a parent.
$node->isChild();
Getting the parent of a node
Reference to the parent node is automatically managed by child-modifiers methods
$root->addChild($node = new Node('child')); $node->getParent(); // Returns $root
Getting the ancestors of a node
$root = (new Node('root')) ->addChild($child = new Node('child')) ->addChild($grandChild = new Node('grandchild')) ; $grandchild->getAncestors(); // Returns [$root, $child]
Related Methods
getAncestorsAndSelf
retrieves ancestors of a node with the current node included.
Getting the root of a node
$root = $node->root();
Getting the neighbors of a node
$root = (new Node('root')) ->addChild($child1 = new Node('child1')) ->addChild($child2 = new Node('child2')) ->addChild($child3 = new Node('child3')) ; $child2->getNeighbors(); // Returns [$child1, $child3]
Related Methods
getNeighborsAndSelf
retrieves neighbors of current node and the node itself.
Getting the number of nodes in the tree
$node->getSize();
Getting the depth of a node
$node->getDepth();
Getting the height of a node
$node->getHeight();
The Builder
The builder provides a convenient way to build trees. It is provided by the Builder
class,
but you can implement your own builder making an implementation of the BuilderInterface
class.
Example
Let's see how to build the following tree, where the nodes label are represents nodes values:
A
/ \
B C
/|\
D E F
/|
G H
And here is the code:
$builder = new Tree\Builder\NodeBuilder; $builder ->value('A') ->leaf('B') ->tree('C') ->tree('D') ->leaf('G') ->leaf('H') ->end() ->leaf('E') ->leaf('F') ->end() ; $nodeA = $builder->getNode();
The example should be self-explanatory, but here you are a brief description of the methods used above.
Builder::value($value)
Set the value of the current node to $value
Builder::leaf($value)
Add to the current node a new child whose value is $value
.
Builder::tree($value)
Add to the current node a new child whose value is $value
, and set the new node as the builder current node.
Builder::end()
Returns to the context the builder was before the call to tree
method,
i.e. make the builder go one level up.
Builder::getNode()
Returns the current node.
Traversing a tree
Yield
You can obtain the yield of a tree (i.e. the list of leaves in a pre-order traversal) using the YieldVisitor.
For example, if $node
is the tree built above, then
use Tree\Visitor\YieldVisitor; $visitor = new YieldVisitor; $yield = $node->accept($visitor); // $yield will contain nodes B, G, H, E, F
Pre-order Traversal
You can walk a tree in pre-order:
use Tree\Visitor\PreOrderVisitor; $visitor = new PreOrderVisitor; $yield = $node->accept($visitor); // $yield will contain nodes A, B, C, D, G, H, E, F
Post-order Traversal
You can walk a tree in post-order:
use Tree\Visitor\PostOrderVisitor; $visitor = new PostOrderVisitor; $yield = $node->accept($visitor); // $yield will contain nodes B, G, H, D, E, F, C, A
Install
Run
$ composer require nicmart/tree
Tests
phpunit
Changelog
Please have a look at CHANGELOG.md
.
Contributing
Please have a look at CONTRIBUTING.md
.
License
This package is licensed using the MIT License.
Please have a look at LICENSE.md
.