AVL Trees ITCS6114 Algorithms and Data Structures.
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Transcript of AVL Trees ITCS6114 Algorithms and Data Structures.
![Page 1: AVL Trees ITCS6114 Algorithms and Data Structures.](https://reader038.fdocuments.us/reader038/viewer/2022103022/56649d6e5503460f94a4fdba/html5/thumbnails/1.jpg)
AVL Trees
ITCS6114
Algorithms and Data Structures
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AVL Trees 2
Balanced and unbalanced BST
4
2 5
1 3
1
5
2
4
3
7
6
4
2 6
5 71 3
Is this “balanced”?
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AVL Trees 3
Perfect Balance
• Want a complete tree after every operation› tree is full except possibly in the lower right
• This is expensive› For example, insert 2 in the tree on the left and
then rebuild as a complete tree
Insert 2 &complete tree
6
4 9
81 5
5
2 8
6 91 4
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AVL Trees 4
AVL - Good but not Perfect Balance
• AVL trees are height-balanced binary search trees
• Balance factor of a node› height(left subtree) - height(right subtree)
• An AVL tree has balance factor calculated at every node› For every node, heights of left and right
subtree can differ by no more than 1› Store current heights in each node
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AVL Trees 5
Node Heights
1
00
2
0
6
4 9
81 5
1
height of node = hbalance factor = hleft-hright
empty height = -1
0
0
height=2 BF=1-0=1
0
6
4 9
1 5
1
Tree A (AVL) Tree B (AVL)
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AVL Trees 6
Node Heights after Insert 7
2
10
3
0
6
4 9
81 5
1
height of node = hbalance factor = hleft-hright
empty height = -1
1
0
2
0
6
4 9
1 5
1
0
7
0
7
balance factor 1-(-1) = 2
-1
Tree A (AVL) Tree B (not AVL)
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AVL Trees 7
Insert and Rotation in AVL Trees
• Insert operation may cause balance factor to become 2 or –2 for some node › only nodes on the path from insertion point to
root node have possibly changed in height› So after the Insert, go back up to the root
node by node, updating heights› If a new balance factor (the difference hleft-
hright) is 2 or –2, adjust tree by rotation around the node
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AVL Trees 8
Single Rotation in an AVL Tree
2
10
2
0
6
4 9
81 5
1
0
7
0
1
0
2
0
6
4
9
8
1 5
1
0
7
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AVL Trees 9
Let the node that needs rebalancing be .
There are 4 cases: Outside Cases (require single rotation) : 1. Insertion into left subtree of left child of . 2. Insertion into right subtree of right child of . Inside Cases (require double rotation) : 3. Insertion into right subtree of left child of . 4. Insertion into left subtree of right child of .
The rebalancing is performed through four separate rotation algorithms.
Insertions in AVL Trees
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AVL Trees 10
j
k
X Y
Z
Consider a validAVL subtree
AVL Insertion: Outside Case
h
hh
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AVL Trees 11
j
k
XY
Z
Inserting into Xdestroys the AVL property at node j
AVL Insertion: Outside Case
h
h+1 h
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AVL Trees 12
j
k
XY
Z
Do a “right rotation”
AVL Insertion: Outside Case
h
h+1 h
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AVL Trees 13
j
k
XY
Z
Do a “right rotation”
Single right rotation
h
h+1 h
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AVL Trees 14
j
k
X Y Z
“Right rotation” done!(“Left rotation” is mirror symmetric)
Outside Case Completed
AVL property has been restored!
h
h+1
h
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AVL Trees 15
j
k
X Y
Z
AVL Insertion: Inside Case
Consider a validAVL subtree
h
hh
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AVL Trees 16
Inserting into Y destroys theAVL propertyat node j
j
k
XY
Z
AVL Insertion: Inside Case
Does “right rotation”restore balance?
h
h+1h
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AVL Trees 17
jk
X
YZ
“Right rotation”does not restorebalance… now k isout of balance
AVL Insertion: Inside Case
hh+1
h
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AVL Trees 18
Consider the structureof subtree Y… j
k
XY
Z
AVL Insertion: Inside Case
h
h+1h
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AVL Trees 19
j
k
X
V
Z
W
i
Y = node i andsubtrees V and W
AVL Insertion: Inside Case
h
h+1h
h or h-1
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AVL Trees 20
j
k
X
V
Z
W
i
AVL Insertion: Inside Case
We will do a left-right “double rotation” . . .
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AVL Trees 21
j
k
X V
ZW
i
Double rotation : first rotation
left rotation complete
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AVL Trees 22
j
k
X V
ZW
i
Double rotation : second rotation
Now do a right rotation
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AVL Trees 23
jk
X V ZW
i
Double rotation : second rotation
right rotation complete
Balance has been restored
hh h or h-1
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AVL Trees 24
Implementation
balance (1,0,-1)
key
rightleft
No need to keep the height; just the difference in height, i.e. the balance factor; this has to be modified on the path of insertion even if you don’t perform rotations
Once you have performed a rotation (single or double) you won’t need to go back up the tree
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AVL Trees 25
Insertion in AVL Trees
• Insert at the leaf (as for all BST)› only nodes on the path from insertion point to
root node have possibly changed in height› So after the Insert, go back up to the root
node by node, updating heights
› If a new balance factor (the difference hleft-hright) is 2 or –2, adjust tree by rotation around the node
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AVL Trees 26
Insert in AVL trees
Insert(T : reference tree pointer, x : element) : {if T = null then {T := new tree; T.data := x; height := 0; return;}case T.data = x : return ; //Duplicate do nothing T.data > x : Insert(T.left, x); if ((height(T.left)- height(T.right)) = 2){ if (T.left.data > x ) then //outside case T = RotatefromLeft (T); else //inside case T = DoubleRotatefromLeft (T);} T.data < x : Insert(T.right, x); code similar to the left caseEndcase T.height := max(height(T.left),height(T.right)) +1; return;}
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AVL Trees 27
Example of Insertions in an AVL Tree
1
0
2
20
10 30
25
0
35
0
Insert 5, 40
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AVL Trees 28
Example of Insertions in an AVL Tree
1
0
2
20
10 30
25
1
35
0
50
20
10 30
25
1
355
40
0
0
01
2
3
Now Insert 45
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AVL Trees 29
Single rotation (outside case)
2
0
3
20
10 30
25
1
35
2
50
20
10 30
25
1
405
40
0
0
0
1
2
3
45
Imbalance35 45
0 0
1
Now Insert 34
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AVL Trees 30
Double rotation (inside case)
3
0
3
20
10 30
25
1
40
2
50
20
10 35
30
1
405
45
0 1
2
3
Imbalance
45
0
1
Insertion of 34
35
34
0
0
1 25 340
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AVL Trees 31
AVL Tree Deletion
• Similar but more complex than insertion› Rotations and double rotations needed to
rebalance› Imbalance may propagate upward so that
many rotations may be needed.
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AVL Trees 32
Arguments for AVL trees:
1. Search is O(log N) since AVL trees are always balanced.2. Insertion and deletions are also O(logn)3. The height balancing adds no more than a constant factor to the
speed of insertion.
Arguments against using AVL trees:1. Difficult to program & debug; more space for balance factor.2. Asymptotically faster but rebalancing costs time.3. Most large searches are done in database systems on disk and use
other structures (e.g. B-trees).
Pros and Cons of AVL Trees