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Source: Muangsin / Weiss
Priority Queue (Heap) A kind of queue Dequeue gets element with the highest priority Priority is based on a comparable value (key) of each object (smaller value higher priority, or higher value higher priority) Example Applications: printer -> print (dequeue) the shortest document first operating system -> run (dequeue) the shortest job first normal queue -> dequeue the first enqueued element first Source: Muangsin / Weiss
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Priority Queue (Heap) Operations
deleteMin insert insert (enqueue) deleteMin (dequeue) smaller value higher priority Find / save the minimum element, delete it from structure and return it Source: Muangsin / Weiss
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Implementation using Linked List
Unsorted linked list insert takes O(1) time deleteMin takes O(N) time Sorted linked list insert takes O(N) time deleteMin takes O(1) time Source: Muangsin / Weiss
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Implementation using Binary Search Tree
insert takes O(log N) time deleteMin takes O(log N) time support other operations that are not required by priority queue (for example, findMax) deleteMin operations make the tree unbalanced Source: Muangsin / Weiss
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Terminology: full tree
completely filled (bottom level is filled from left to right size between 2h (bottom level has only one node) and 2h+1-1 A C G F B E J D H I Source: Muangsin / Weiss
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Heap: Order Property (for Minimum Heap)
Any node is smaller than (or equal to) all of its children (any subtree is a heap) Smallest element is at the root (findMin take O(1) time) 13 16 68 19 21 31 32 24 65 26 Source: Muangsin / Weiss
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Source: Muangsin / Weiss
Insert Create a hole in the next available location Move the hole up (swap with its parent) until data can be placed in the hole without violating the heap order property (called percolate up) 13 16 68 19 21 31 32 24 65 26 13 16 68 19 21 32 24 65 26 31 Source: Muangsin / Weiss
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Source: Muangsin / Weiss
Insert insert 14 13 16 68 19 21 31 32 24 65 26 13 16 68 19 21 32 24 65 26 31 Percolate Up -> move the place to put 14 up (move its parent down) until its parent <= 14 Source: Muangsin / Weiss
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Source: Muangsin / Weiss
Insert 13 16 68 19 21 31 32 24 65 26 13 16 68 19 21 31 32 24 65 26 14 Source: Muangsin / Weiss
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Source: Muangsin / Weiss
deleteMin Create a hole at the root Move the hole down (swap with the smaller one of its children) until the last element of the heap can be placed in the hole without violating the heap order property (called percolate down) 13 16 68 19 21 31 32 65 26 14 16 68 19 21 32 65 26 14 31 Source: Muangsin / Weiss
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Source: Muangsin / Weiss
deleteMin 13 16 68 19 21 31 32 65 26 14 16 68 19 21 32 65 26 14 31 Percolate Down -> move the place to put 31 down (move its smaller child up) until its children >= 31 Source: Muangsin / Weiss
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Source: Muangsin / Weiss
deleteMin 16 68 19 21 32 65 26 14 31 16 68 19 21 32 65 26 14 31 Source: Muangsin / Weiss
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Source: Muangsin / Weiss
deleteMin 16 68 19 21 32 65 14 31 26 16 68 19 21 32 65 26 14 31 Source: Muangsin / Weiss
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Source: Muangsin / Weiss
Running Time insert worst case: takes O(log N) time, moves an element from the bottom to the top on average: takes a constant time (2.607 comparisons), moves an element up levels deleteMin worst case: takes O(log N) time on average: takes O(log N) time (element that is placed at the root is large, so it is percolated almost to the bottom) Source: Muangsin / Weiss
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Array Implementation of Binary Heap
C G F B E J D H I left child is in position 2i right child is in position (2i+1) parent is in position i/2 A B C D E F G H I J 1 2 3 4 5 6 7 8 9 10 11 12 13 Source: Muangsin / Weiss
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