| Interface | Description |
|---|---|
| AdaptablePriorityQueue<K,V> |
Interface for an adaptable priority queue.
|
| BinaryTree<E> |
An interface for a binary tree, where each node can have zero, one,
or two children.
|
| BTPosition<E> |
Interface for a node of a binary tree.
|
| CompleteBinaryTree<E> |
An interface for a complete binary tree.
|
| DecorablePosition<E> |
An interface for a position that can be marked with an arbitrary
number of decorations.
|
| Deque<E> |
Interface for a deque: a collection of objects that are inserted
and removed at both ends; a subset of java.util.LinkedList methods.
|
| Dictionary<K,V> |
An interface for a dictionary storing (key-value) pairs.
|
| Edge<E> |
An interface for an edge of a graph.
|
| Entry<K,V> |
Interface for a key-value pair entry
|
| TreeNode<E> |
Class implementing a node of a binary tree by storing references to
an element, a parent node, a left node, and a right node.
|
| IndexList<E> |
An interface for array lists.
|
| Map<K,V> |
An interface for a map which binds a key uniquely to a value.
|
| Position<E> |
An interface for a position, which is a holder object storing a
single element.
|
| PositionList<E> |
An interface for positional lists.
|
| PriorityQueue<K,V> |
Interface for the priority queue ADT
|
| Queue<E> |
Interface for a queue: a collection of elements that are inserted
and removed according to the first-in first-out principle.
|
| Sequence<E> |
An interface for a sequence, a data structure supporting all
operations of a deque, indexed list and position list.
|
| Stack<E> |
Interface for a stack: a collection of objects that are inserted
and removed according to the last-in first-out principle.
|
| Tree<E> |
An interface for a tree where nodes can have an arbitrary number of children.
|
| TreePosition<E> |
Interface for a node of a binary tree.
|
| Vertex<E> |
An interface for a vertex of a graph.
|
| Class | Description |
|---|---|
| AdjacencyListGraph<V,E> |
An realization of a graph according to adjacency list structure.
|
| ArrayIndexList<E> |
Realization of an indexed list by means of an array, which is doubled
when the size of the indexed list exceeds the capacity of the array.
|
| ArrayListCompleteBinaryTree<E> |
A speedy implementation of the CompleteBinaryTree interface using
a vector.
|
| ArrayStack<E> |
Implementation of the stack ADT using a fixed-length array.
|
| AVLTree<K,V> |
AVLTree class - implements an AVL Tree by extending a binary
search tree.
|
| BinarySearchTree<K,V> |
Realization of a dictionary by means of a binary search tree.
|
| BTNode<E> |
Class implementing a node of a binary tree by storing references to
an element, a parent node, a left node, and a right node.
|
| ComponentsDFS<V,E> |
This class extends DFS to compute the connected components of a graph.
|
| ConnectivityDFS<V,E> |
This class specializes DFS to determine whether the graph is connected.
|
| DefaultComparator<E> |
Comparator based on the natural ordering
//end#fragment DefaultComparator
|
| DFS<V,E,I,R> |
Generic DFS traversal of a graph using the template method pattern.
|
| Dijkstra<V,E> |
Dijkstra's algorithm for the single-source shortest path problem in
an undirected graph whose edges have integer weights.
|
| DLNode<E> |
A simple node class for a doubly-linked list.
|
| DNode<E> |
A simple node class for a doubly-linked list.
|
| ElementIterator<E> |
A simple iterator class for lists.
|
| EulerTour<E,R> |
Template for algorithms traversing a binary tree using an Euler
tour.
|
| FindCycleDFS<V,E> |
This class specializes DFS to find a cycle.
|
| FindPathDFS<V,E> |
Class specializing DFS to find a path between a start vertex and a target
vertex.
|
| HashTableMap<K,V> |
A hash table data structure that uses linear probing to handle
collisions.
|
| HashTableMap.HashEntry<K,V> |
Nested class for an entry in a hash table.
|
| HeapAdaptablePriorityQueue<K,V> |
Realization of an adaptable priority queue by means of a heap.
|
| HeapPriorityQueue<K,V> |
Realization of a priority queue by means of a heap.
|
| LinkedBinaryTree<E> |
An implementation of the BinaryTree interface by means of a linked structure.
|
| LinkedTree<E> |
A linked class for a tree where nodes have an arbitrary number of children.
|
| Node<E> |
Node of a singly linked list, which stores references to its
element and to the next node in the list.
|
| NodeDeque<E> |
Implementation of the Deque interface by means of a doubly linked
list.
|
| NodePositionList<E> |
Realization of a PositionList using a doubly-linked list of nodes.
|
| NodeQueue<E> |
Realization of a queue by means of a singly-linked list of nodes.
|
| NodeStack<E> |
Implementation of the stack ADT by means of a singly linked list.
|
| RBTree<K,V> |
Realization of a dictionary by means of a red-black tree.
|
| Sort |
Class containing various sorting algorithms.
|
| SortedListAdaptablePriorityQueue<K,V> |
Implementation of an adaptable priority queue by means of a sorted list.
|
| SortedListPriorityQueue<K,V> |
Realization of a priority queue by means of a sorted node list in
nondecreasing order.
|
| Exception | Description |
|---|---|
| BoundaryViolationException |
Signals that the boundaries of a data structure have been illegally
traversed (e.g.
|
| EmptyDequeException |
Runtime exception thrown when one tries to perform an access or
removal operation on an empty deque.
|
| EmptyListException |
Thrown when a list cannot fulfill the requested operation because
it is empty.
|
| EmptyPriorityQueueException |
Thrown when a priority queue cannot fulfill the requested operation
because it is empty.
|
| EmptyQueueException |
Runtime exception thrown when one tries to perform operation front
or dequeue on an empty queue.
|
| EmptyStackException |
Runtime exception thrown when one tries to perform operation top or
pop on an empty stack.
|
| EmptyTreeException |
Runtime exception thrown when one tries to access the root of an
empty tree.
|
| FullStackException |
Runtime exception thrown when the capacity of the array used by an
ArrayStack has been exceeded.
|
| InvalidEntryException |
Thrown when an entry is discovered to be invalid.
|
| InvalidKeyException |
Thrown when a key is determined to be invalid.
|
| InvalidPositionException |
Thrown when a position is determined to be invalid.
|
| NonEmptyTreeException |
Runtime exception thrown when one tries to create the root of a
tree that is not empty.
|