abstract class TreeNode[K: Comparable, E: nullable Object]

trees :: TreeNode

Abstract node structure used in Tree implementation

Nodes are defined recursively each node (except the root one) pointing to a parent. Nodes can be used to store data with the TreeNode::value attribute.

Formal parameters:

  • K: key type (a Comparable one so nodes can be sorted by their keys)
  • E: value type (to store your data)

Introduced properties

type N: TreeNode[K, E]

trees :: TreeNode :: N

TreeNode type
init defaultinit(key: K, value: E)

trees :: TreeNode :: defaultinit

fun depth: Int

trees :: TreeNode :: depth

Depth in tree (length of the path from self to root)
fun key: K

trees :: TreeNode :: key

key for this node
protected fun key=(key: K)

trees :: TreeNode :: key=

key for this node
fun parent: nullable N

trees :: TreeNode :: parent

Direct parent of this node (null if the node is root)
fun parent=(parent: nullable N)

trees :: TreeNode :: parent=

Direct parent of this node (null if the node is root)
fun to_dot: String

trees :: TreeNode :: to_dot

Return dot representation of this node
fun value: E

trees :: TreeNode :: value

value stored in the node
protected fun value=(value: E)

trees :: TreeNode :: value=

value stored in the node

Redefined properties

redef fun <(o: OTHER): Bool

trees $ TreeNode :: <

Nodes ordering is based on the key
redef fun ==(o: nullable Object): Bool

trees $ TreeNode :: ==

Nodes equality is done on value equality
redef type OTHER: N

trees $ TreeNode :: OTHER

What self can be compared to?
redef type SELF: TreeNode[K, E]

trees $ TreeNode :: SELF

Type of this instance, automatically specialized in every class
redef fun to_s: String

trees $ TreeNode :: to_s

User readable representation of self.

All properties

fun !=(other: nullable Object): Bool

core :: Object :: !=

Have self and other different values?
abstract fun <(other: OTHER): Bool

core :: Comparable :: <

Is self lesser than other?
fun <=(other: OTHER): Bool

core :: Comparable :: <=

not other < self
fun <=>(other: OTHER): Int

core :: Comparable :: <=>

-1 if <, +1 if > and 0 otherwise
fun ==(other: nullable Object): Bool

core :: Object :: ==

Have self and other the same value?
fun >(other: OTHER): Bool

core :: Comparable :: >

other < self
fun >=(other: OTHER): Bool

core :: Comparable :: >=

not self < other
type CLASS: Class[SELF]

core :: Object :: CLASS

The type of the class of self.
type N: TreeNode[K, E]

trees :: TreeNode :: N

TreeNode type
type OTHER: Comparable

core :: Comparable :: OTHER

What self can be compared to?
type SELF: Object

core :: Object :: SELF

Type of this instance, automatically specialized in every class
fun clamp(min: OTHER, max: OTHER): OTHER

core :: Comparable :: clamp

Constraint self within [min..max]
protected fun class_factory(name: String): CLASS

core :: Object :: class_factory

Implementation used by get_class to create the specific class.
fun class_name: String

core :: Object :: class_name

The class name of the object.
init defaultinit(key: K, value: E)

trees :: TreeNode :: defaultinit

fun depth: Int

trees :: TreeNode :: depth

Depth in tree (length of the path from self to root)
fun get_class: CLASS

core :: Object :: get_class

The meta-object representing the dynamic type of self.
fun hash: Int

core :: Object :: hash

The hash code of the object.
init init

core :: Object :: init

fun inspect: String

core :: Object :: inspect

Developer readable representation of self.
protected fun inspect_head: String

core :: Object :: inspect_head

Return "CLASSNAME:#OBJECTID".
fun is_between(c: OTHER, d: OTHER): Bool

core :: Comparable :: is_between

c <= self <= d
intern fun is_same_instance(other: nullable Object): Bool

core :: Object :: is_same_instance

Return true if self and other are the same instance (i.e. same identity).
fun is_same_serialized(other: nullable Object): Bool

core :: Object :: is_same_serialized

Is self the same as other in a serialization context?
intern fun is_same_type(other: Object): Bool

core :: Object :: is_same_type

Return true if self and other have the same dynamic type.
fun key: K

trees :: TreeNode :: key

key for this node
protected fun key=(key: K)

trees :: TreeNode :: key=

key for this node
fun max(other: OTHER): OTHER

core :: Comparable :: max

The maximum between self and other (prefers self if equals).
fun min(c: OTHER): OTHER

core :: Comparable :: min

The minimum between self and c (prefer self if equals)
intern fun object_id: Int

core :: Object :: object_id

An internal hash code for the object based on its identity.
fun output

core :: Object :: output

Display self on stdout (debug only).
intern fun output_class_name

core :: Object :: output_class_name

Display class name on stdout (debug only).
fun parent: nullable N

trees :: TreeNode :: parent

Direct parent of this node (null if the node is root)
fun parent=(parent: nullable N)

trees :: TreeNode :: parent=

Direct parent of this node (null if the node is root)
fun serialization_hash: Int

core :: Object :: serialization_hash

Hash value use for serialization
intern fun sys: Sys

core :: Object :: sys

Return the global sys object, the only instance of the Sys class.
fun to_dot: String

trees :: TreeNode :: to_dot

Return dot representation of this node
abstract fun to_jvalue(env: JniEnv): JValue

core :: Object :: to_jvalue

fun to_s: String

core :: Object :: to_s

User readable representation of self.
fun value: E

trees :: TreeNode :: value

value stored in the node
protected fun value=(value: E)

trees :: TreeNode :: value=

value stored in the node
package_diagram trees::TreeNode TreeNode core::Comparable Comparable trees::TreeNode->core::Comparable core::Object Object core::Comparable->core::Object ...core::Object ... ...core::Object->core::Object trees::BinTreeNode BinTreeNode trees::BinTreeNode->trees::TreeNode trees::RBTreeNode RBTreeNode trees::RBTreeNode->trees::BinTreeNode trees::RBTreeNode... ... trees::RBTreeNode...->trees::RBTreeNode

Ancestors

interface Object

core :: Object

The root of the class hierarchy.

Parents

interface Comparable

core :: Comparable

The ancestor of class where objects are in a total order.

Children

class BinTreeNode[K: Comparable, E: nullable Object]

trees :: BinTreeNode

TreeNode used by BinTree

Descendants

class RBTreeNode[K: Comparable, E: nullable Object]

trees :: RBTreeNode

RedBlackTree node (can be red or black)

Class definitions

trees $ TreeNode 
# Abstract node structure used in `Tree` implementation
#
# Nodes are defined recursively each node (except the root one) pointing to a parent.
# Nodes can be used to store data with the `TreeNode::value` attribute.
#
# Formal parameters:
# * `K`: key type (a `Comparable` one so nodes can be sorted by their keys)
# * `E`: value type (to store your data)
abstract class TreeNode[K: Comparable, E]
	super Comparable

	# TreeNode type
	type N: TreeNode[K, E]

	# `key` for this node
	var key: K

	# `value` stored in the node
	var value: E

	# Direct parent of this node (`null` if the node is root)
	#
	# See `Tree::root`.
	var parent: nullable N = null is writable

	# Depth in tree (length of the path from `self` to `root`)
	fun depth: Int do
		var node = parent
		var i = 0
		while node != null do
			node = node.parent
			i += 1
		end
		return i
	end

	redef fun to_s do return "\{{value or else ""}\}"

	# Return dot representation of this node
	#
	# See `Tree::show_dot`.
	fun to_dot: String do
		var res = new FlatBuffer
		res.append "\"{self}\";\n"
		if parent != null then res.append "\"{parent.as(not null)}\" -> \"{self}\"[dir=back];\n"
		return res.to_s
	end

	redef type OTHER: N

	# Nodes equality is done on `value` equality
	#
	# Redefine this method to change the default behavior.
	redef fun ==(o) do
		if not o isa N then return false
		return self.value == o.value
	end

	# Nodes ordering is based on the `key`
	redef fun <(o) do return self.key < o.key
end
lib/trees/abstract_tree.nit:39,1--99,3
Nit standard library. Version v0.8-3595-g3f58b4f.