=====data Keyword 3=====
Identification of chosen keyword.
====Definition====
Definition (in your own words) of the chosen keyword.
====References====
List any sites, books, or sources utilized when researching information on this topic. (Remove any filler text).
* Reference 1
* Reference 2
* Reference 3
=====Binary Search Tree Phase 2=====
====Definition====
A binary search tree can also be named as a sorted/ordered search tree. Its a tree that has nodes that stem off into small search trees. It uses a linked list (doubly) that goes left and right. Numbers are placed in the nodes throughout the tree and with the correct algorithm it can traversed through going least to greatest or vice versa. Generally the left tree will have values that are less then the root (starting node) and the right tree will have values greater. The first node is called the root and the final nodes (depending on where it ends) are considered the leaves of the trees since that are the last on the tree.
====References====
* http://en.wikipedia.org/wiki/Binary_search_tree
=====data Keyword 3 Phase 2 Phase 2=====
tree rebalancing
====Definition====
In computer science, a self-balancing (or height-balanced) binary search tree is any node-based binary search tree that automatically keeps its height (number of levels below the root) small in the face of arbitrary item insertions and deletions. These structures provide efficient implementations for mutable ordered lists, and can be used for other abstract data structures such as associative arrays, priority queues and sets.
====References====
List any sites, books, or sources utilized when researching information on this topic. (Remove any filler text).
* Reference 1: google.com
* Reference 2:wikipedia.com
* Reference 3: yahoo.com
====Demonstration====
Demonstration of the indicated keyword.
If you wish to aid your definition with a code sample, you can do so by using a wiki **code** block, an example follows:
/*
* Sample code block
*/
#include
int main()
{
return(0);
}
Alternatively (or additionally), if you want to demonstrate something on the command-line, you can do so as follows:
lab46:~$ cd src
lab46:~/src$ gcc -o hello hello.c
lab46:~/src$ ./hello
Hello, World!
lab46:~/src$
====Demonstration====
Demonstration of the indicated keyword.
If you wish to aid your definition with a code sample, you can do so by using a wiki **code** block, an example follows:
/*
* Sample code block
*/
#include
int main()
{
return(0);
}
Alternatively (or additionally), if you want to demonstrate something on the command-line, you can do so as follows:
lab46:~$ cd src
lab46:~/src$ gcc -o hello hello.c
lab46:~/src$ ./hello
Hello, World!
lab46:~/src$